Revert "smoke test"

This reverts commit fa034a6d83.
Hook send should use a code path that actually firewalls
2025-11-23 08:54:25 +01:00 · 2020-10-03 00:09:18 +10:00 · 2020-10-02 23:42:20 +10:00 · 2020-10-02 22:25:31 +10:00 · 2020-10-02 20:46:08 +10:00 · 2020-09-28 22:31:19 +10:00
151 changed files with 5301 additions and 13371 deletions
--- a/.github/workflows/gofmt.yml
+++ b/.github/workflows/gofmt.yml
@@ -14,21 +14,21 @@ jobs:
    runs-on: ubuntu-latest
    steps:
-    - name: Set up Go 1.17
+    - name: Set up Go 1.15
-      uses: actions/setup-go@v2
+      uses: actions/setup-go@v1
      with:
-        go-version: 1.17
+        go-version: 1.15
      id: go
    - name: Check out code into the Go module directory
-      uses: actions/checkout@v2
+      uses: actions/checkout@v1
-    - uses: actions/cache@v2
+    - uses: actions/cache@v1
      with:
        path: ~/go/pkg/mod
-        key: ${{ runner.os }}-gofmt1.17-${{ hashFiles('**/go.sum') }}
+        key: ${{ runner.os }}-gofmt-${{ hashFiles('**/go.sum') }}
        restore-keys: |
-          ${{ runner.os }}-gofmt1.17-
+          ${{ runner.os }}-gofmt-
    - name: Install goimports
      run: |
--- a/.github/workflows/release.yml
+++ b/.github/workflows/release.yml
@@ -10,10 +10,10 @@ jobs:
    name: Build Linux All
    runs-on: ubuntu-latest
    steps:
-      - name: Set up Go 1.17
+      - name: Set up Go 1.15
-        uses: actions/setup-go@v2
+        uses: actions/setup-go@v1
        with:
-          go-version: 1.17
+          go-version: 1.15
      - name: Checkout code
        uses: actions/checkout@v2
@@ -25,7 +25,7 @@ jobs:
          mv build/*.tar.gz release
      - name: Upload artifacts
-        uses: actions/upload-artifact@v2
+        uses: actions/upload-artifact@v1
        with:
          name: linux-latest
          path: release
@@ -34,10 +34,10 @@ jobs:
    name: Build Windows amd64
    runs-on: windows-latest
    steps:
-      - name: Set up Go 1.17
+      - name: Set up Go 1.15
-        uses: actions/setup-go@v2
+        uses: actions/setup-go@v1
        with:
-          go-version: 1.17
+          go-version: 1.15
      - name: Checkout code
        uses: actions/checkout@v2
@@ -47,77 +47,61 @@ jobs:
          echo $Env:GITHUB_REF.Substring(11)
          go build -trimpath -ldflags "-X main.Build=$($Env:GITHUB_REF.Substring(11))" -o build\nebula.exe ./cmd/nebula-service
          go build -trimpath -ldflags "-X main.Build=$($Env:GITHUB_REF.Substring(11))" -o build\nebula-cert.exe ./cmd/nebula-cert
          mkdir build\dist\windows
          mv dist\windows\wintun build\dist\windows\
      - name: Upload artifacts
-        uses: actions/upload-artifact@v2
+        uses: actions/upload-artifact@v1
        with:
          name: windows-latest
          path: build
  build-darwin:
-    name: Build Universal Darwin
+    name: Build Darwin amd64
-    env:
+    runs-on: macOS-latest
      HAS_SIGNING_CREDS: ${{ secrets.AC_USERNAME != '' }}
    runs-on: macos-11
    steps:
-      - name: Set up Go 1.17
+      - name: Set up Go 1.15
-        uses: actions/setup-go@v2
+        uses: actions/setup-go@v1
        with:
-          go-version: 1.17
+          go-version: 1.15
      - name: Checkout code
        uses: actions/checkout@v2
-      - name: Import certificates
+      - name: Build
        if: env.HAS_SIGNING_CREDS == 'true'
        uses: Apple-Actions/import-codesign-certs@v1
        with:
          p12-file-base64: ${{ secrets.APPLE_DEVELOPER_CERTIFICATE_P12_BASE64 }}
          p12-password: ${{ secrets.APPLE_DEVELOPER_CERTIFICATE_PASSWORD }}
      - name: Build, sign, and notarize
        env:
          AC_USERNAME: ${{ secrets.AC_USERNAME }}
          AC_PASSWORD: ${{ secrets.AC_PASSWORD }}
        run: |
-          rm -rf release
+          make BUILD_NUMBER="${GITHUB_REF#refs/tags/v}" service build/nebula-darwin-amd64.tar.gz
          mkdir release
-          make BUILD_NUMBER="${GITHUB_REF#refs/tags/v}" service build/darwin-amd64/nebula build/darwin-amd64/nebula-cert
+          mv build/*.tar.gz release
          make BUILD_NUMBER="${GITHUB_REF#refs/tags/v}" service build/darwin-arm64/nebula build/darwin-arm64/nebula-cert
          lipo -create -output ./release/nebula ./build/darwin-amd64/nebula ./build/darwin-arm64/nebula
          lipo -create -output ./release/nebula-cert ./build/darwin-amd64/nebula-cert ./build/darwin-arm64/nebula-cert
          if [ -n "$AC_USERNAME" ]; then
            codesign -s "10BC1FDDEB6CE753550156C0669109FAC49E4D1E" -f -v --timestamp --options=runtime -i "net.defined.nebula" ./release/nebula
            codesign -s "10BC1FDDEB6CE753550156C0669109FAC49E4D1E" -f -v --timestamp --options=runtime -i "net.defined.nebula-cert" ./release/nebula-cert
          fi
          zip -j release/nebula-darwin.zip release/nebula-cert release/nebula
          if [ -n "$AC_USERNAME" ]; then
            xcrun notarytool submit ./release/nebula-darwin.zip --team-id "576H3XS7FP" --apple-id "$AC_USERNAME" --password "$AC_PASSWORD" --wait
          fi
      - name: Upload artifacts
-        uses: actions/upload-artifact@v2
+        uses: actions/upload-artifact@v1
        with:
          name: darwin-latest
-          path: ./release/*
+          path: release
  release:
    name: Create and Upload Release
    needs: [build-linux, build-darwin, build-windows]
    runs-on: ubuntu-latest
    steps:
-      - name: Download artifacts
+      - name: Download Linux artifacts
-        uses: actions/download-artifact@v2
+        uses: actions/download-artifact@v1
        with:
          name: linux-latest
      - name: Download Darwin artifacts
        uses: actions/download-artifact@v1
        with:
          name: darwin-latest
      - name: Download Windows artifacts
        uses: actions/download-artifact@v1
        with:
          name: windows-latest
      - name: Zip Windows
        run: |
          cd windows-latest
-          zip -r nebula-windows-amd64.zip nebula.exe nebula-cert.exe dist
+          zip nebula-windows-amd64.zip nebula.exe nebula-cert.exe
      - name: Create sha256sum
        run: |
@@ -130,11 +114,6 @@ jobs:
                sha256sum <nebula.exe | sed 's=-$=nebula-windows-amd64.zip/nebula.exe='
                sha256sum <nebula-cert.exe | sed 's=-$=nebula-windows-amd64.zip/nebula-cert.exe='
                sha256sum nebula-windows-amd64.zip
              elif [ "$dir" = darwin-latest ]
              then
                sha256sum <nebula-darwin.zip | sed 's=-$=nebula-darwin.zip='
                sha256sum <nebula | sed 's=-$=nebula-darwin.zip/nebula='
                sha256sum <nebula-cert | sed 's=-$=nebula-darwin.zip/nebula-cert='
              else
                  for v in *.tar.gz
                  do
@@ -170,15 +149,15 @@ jobs:
          asset_name: SHASUM256.txt
          asset_content_type: text/plain
-      - name: Upload darwin zip
+      - name: Upload darwin-amd64
        uses: actions/upload-release-asset@v1.0.1
        env:
          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
        with:
          upload_url: ${{ steps.create_release.outputs.upload_url }}
-          asset_path: ./darwin-latest/nebula-darwin.zip
+          asset_path: ./darwin-latest/nebula-darwin-amd64.tar.gz
-          asset_name: nebula-darwin.zip
+          asset_name: nebula-darwin-amd64.tar.gz
-          asset_content_type: application/zip
+          asset_content_type: application/gzip
      - name: Upload windows-amd64
        uses: actions/upload-release-asset@v1.0.1
@@ -310,16 +289,6 @@ jobs:
          asset_name: nebula-linux-mips-softfloat.tar.gz
          asset_content_type: application/gzip
      - name: Upload linux-riscv64
        uses: actions/upload-release-asset@v1.0.1
        env:
          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
        with:
          upload_url: ${{ steps.create_release.outputs.upload_url }}
          asset_path: ./linux-latest/nebula-linux-riscv64.tar.gz
          asset_name: nebula-linux-riscv64.tar.gz
          asset_content_type: application/gzip
      - name: Upload freebsd-amd64
        uses: actions/upload-release-asset@v1.0.1
        env:
--- a/.github/workflows/smoke.yml
+++ b/.github/workflows/smoke.yml
@@ -18,24 +18,24 @@ jobs:
    runs-on: ubuntu-latest
    steps:
-    - name: Set up Go 1.17
+    - name: Set up Go 1.15
-      uses: actions/setup-go@v2
+      uses: actions/setup-go@v1
      with:
-        go-version: 1.17
+        go-version: 1.15
      id: go
    - name: Check out code into the Go module directory
-      uses: actions/checkout@v2
+      uses: actions/checkout@v1
-    - uses: actions/cache@v2
+    - uses: actions/cache@v1
      with:
        path: ~/go/pkg/mod
-        key: ${{ runner.os }}-go1.17-${{ hashFiles('**/go.sum') }}
+        key: ${{ runner.os }}-go-${{ hashFiles('**/go.sum') }}
        restore-keys: |
-          ${{ runner.os }}-go1.17-
+          ${{ runner.os }}-go-
    - name: build
-      run: make bin-docker
+      run: make
    - name: setup docker image
      working-directory: ./.github/workflows/smoke
--- a/.github/workflows/smoke/Dockerfile
+++ b/.github/workflows/smoke/Dockerfile
@@ -1,7 +1,5 @@
 FROM debian:buster
-ADD ./build /nebula
+ADD ./build /
-WORKDIR /nebula
+ENTRYPOINT ["/nebula"]
 ENTRYPOINT ["/nebula/nebula"]
--- a/.github/workflows/smoke/build.sh
+++ b/.github/workflows/smoke/build.sh
@@ -8,8 +8,8 @@ mkdir ./build
 (
    cd build
-    cp ../../../../build/linux-amd64/nebula .
+    cp ../../../../nebula .
-    cp ../../../../build/linux-amd64/nebula-cert .
+    cp ../../../../nebula-cert .
    HOST="lighthouse1" \
        AM_LIGHTHOUSE=true \
@@ -29,11 +29,11 @@ mkdir ./build
        OUTBOUND='[{"port": "any", "proto": "icmp", "group": "lighthouse"}]' \
        ../genconfig.sh >host4.yml
-    ../../../../nebula-cert ca -name "Smoke Test"
+    ./nebula-cert ca -name "Smoke Test"
-    ../../../../nebula-cert sign -name "lighthouse1" -groups "lighthouse,lighthouse1" -ip "192.168.100.1/24"
+    ./nebula-cert sign -name "lighthouse1" -groups "lighthouse,lighthouse1" -ip "192.168.100.1/24"
-    ../../../../nebula-cert sign -name "host2" -groups "host,host2" -ip "192.168.100.2/24"
+    ./nebula-cert sign -name "host2" -groups "host,host2" -ip "192.168.100.2/24"
-    ../../../../nebula-cert sign -name "host3" -groups "host,host3" -ip "192.168.100.3/24"
+    ./nebula-cert sign -name "host3" -groups "host,host3" -ip "192.168.100.3/24"
-    ../../../../nebula-cert sign -name "host4" -groups "host,host4" -ip "192.168.100.4/24"
+    ./nebula-cert sign -name "host4" -groups "host,host4" -ip "192.168.100.4/24"
 )
-sudo docker build -t nebula:smoke .
+docker build -t nebula:smoke .
--- a/.github/workflows/smoke/genconfig.sh
+++ b/.github/workflows/smoke/genconfig.sh
@@ -33,9 +33,9 @@ lighthouse_hosts() {
 cat <<EOF
 pki:
-  ca: ca.crt
+  ca: /ca.crt
-  cert: ${HOST}.crt
+  cert: /${HOST}.crt
-  key: ${HOST}.key
+  key: /${HOST}.key
 lighthouse:
  am_lighthouse: ${AM_LIGHTHOUSE:-false}
--- a/.github/workflows/smoke/smoke.sh
+++ b/.github/workflows/smoke/smoke.sh
@@ -1,33 +1,19 @@
-#!/bin/bash
+#!/bin/sh
 set -e -x
-set -o pipefail
+docker run --name lighthouse1 --rm nebula:smoke -config lighthouse1.yml -test
 docker run --name host2 --rm nebula:smoke -config host2.yml -test
 docker run --name host3 --rm nebula:smoke -config host3.yml -test
 docker run --name host4 --rm nebula:smoke -config host4.yml -test
-mkdir -p logs
+docker run --name lighthouse1 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config lighthouse1.yml &
 cleanup() {
    set +e
    if [ "$(jobs -r)" ]
    then
        sudo docker kill lighthouse1 host2 host3 host4
    fi
 }
 trap cleanup EXIT
 sudo docker run --name lighthouse1 --rm nebula:smoke -config lighthouse1.yml -test
 sudo docker run --name host2 --rm nebula:smoke -config host2.yml -test
 sudo docker run --name host3 --rm nebula:smoke -config host3.yml -test
 sudo docker run --name host4 --rm nebula:smoke -config host4.yml -test
 sudo docker run --name lighthouse1 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config lighthouse1.yml 2>&1 | tee logs/lighthouse1 &
 sleep 1
-sudo docker run --name host2 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host2.yml 2>&1 | tee logs/host2 &
+docker run --name host2 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host2.yml &
 sleep 1
-sudo docker run --name host3 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host3.yml 2>&1 | tee logs/host3 &
+docker run --name host3 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host3.yml &
 sleep 1
-sudo docker run --name host4 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host4.yml 2>&1 | tee logs/host4 &
+docker run --name host4 --device /dev/net/tun:/dev/net/tun --cap-add NET_ADMIN --rm nebula:smoke -config host4.yml &
 sleep 1
 set +x
@@ -35,35 +21,35 @@ echo
 echo " *** Testing ping from lighthouse1"
 echo
 set -x
-sudo docker exec lighthouse1 ping -c1 192.168.100.2
+docker exec lighthouse1 ping -c1 192.168.100.2
-sudo docker exec lighthouse1 ping -c1 192.168.100.3
+docker exec lighthouse1 ping -c1 192.168.100.3
 set +x
 echo
 echo " *** Testing ping from host2"
 echo
 set -x
-sudo docker exec host2 ping -c1 192.168.100.1
+docker exec host2 ping -c1 192.168.100.1
 # Should fail because not allowed by host3 inbound firewall
-! sudo docker exec host2 ping -c1 192.168.100.3 -w5 || exit 1
+! docker exec host2 ping -c1 192.168.100.3 -w5 || exit 1
 set +x
 echo
 echo " *** Testing ping from host3"
 echo
 set -x
-sudo docker exec host3 ping -c1 192.168.100.1
+docker exec host3 ping -c1 192.168.100.1
-sudo docker exec host3 ping -c1 192.168.100.2
+docker exec host3 ping -c1 192.168.100.2
 set +x
 echo
 echo " *** Testing ping from host4"
 echo
 set -x
-sudo docker exec host4 ping -c1 192.168.100.1
+docker exec host4 ping -c1 192.168.100.1
 # Should fail because not allowed by host4 outbound firewall
-! sudo docker exec host4 ping -c1 192.168.100.2 -w5 || exit 1
+! docker exec host4 ping -c1 192.168.100.2 -w5 || exit 1
-! sudo docker exec host4 ping -c1 192.168.100.3 -w5 || exit 1
+! docker exec host4 ping -c1 192.168.100.3 -w5 || exit 1
 set +x
 echo
@@ -71,13 +57,7 @@ echo " *** Testing conntrack"
 echo
 set -x
 # host2 can ping host3 now that host3 pinged it first
-sudo docker exec host2 ping -c1 192.168.100.3
+docker exec host2 ping -c1 192.168.100.3
 # host4 can ping host2 once conntrack established
-sudo docker exec host2 ping -c1 192.168.100.4
+docker exec host2 ping -c1 192.168.100.4
-sudo docker exec host4 ping -c1 192.168.100.2
+docker exec host4 ping -c1 192.168.100.2
 sudo docker exec host4 sh -c 'kill 1'
 sudo docker exec host3 sh -c 'kill 1'
 sudo docker exec host2 sh -c 'kill 1'
 sudo docker exec lighthouse1 sh -c 'kill 1'
 sleep 1
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -18,21 +18,21 @@ jobs:
    runs-on: ubuntu-latest
    steps:
-    - name: Set up Go 1.17
+    - name: Set up Go 1.15
-      uses: actions/setup-go@v2
+      uses: actions/setup-go@v1
      with:
-        go-version: 1.17
+        go-version: 1.15
      id: go
    - name: Check out code into the Go module directory
-      uses: actions/checkout@v2
+      uses: actions/checkout@v1
-    - uses: actions/cache@v2
+    - uses: actions/cache@v1
      with:
        path: ~/go/pkg/mod
-        key: ${{ runner.os }}-go1.17-${{ hashFiles('**/go.sum') }}
+        key: ${{ runner.os }}-go-${{ hashFiles('**/go.sum') }}
        restore-keys: |
-          ${{ runner.os }}-go1.17-
+          ${{ runner.os }}-go-
    - name: Build
      run: make all
@@ -40,32 +40,29 @@ jobs:
    - name: Test
      run: make test
    - name: End 2 end
      run: make e2evv
  test:
    name: Build and test on ${{ matrix.os }}
    runs-on: ${{ matrix.os }}
    strategy:
      matrix:
-        os: [windows-latest, macos-11]
+        os: [windows-latest, macOS-latest]
    steps:
-    - name: Set up Go 1.17
+    - name: Set up Go 1.15
-      uses: actions/setup-go@v2
+      uses: actions/setup-go@v1
      with:
-        go-version: 1.17
+        go-version: 1.15
      id: go
    - name: Check out code into the Go module directory
-      uses: actions/checkout@v2
+      uses: actions/checkout@v1
-    - uses: actions/cache@v2
+    - uses: actions/cache@v1
      with:
        path: ~/go/pkg/mod
-        key: ${{ runner.os }}-go1.17-${{ hashFiles('**/go.sum') }}
+        key: ${{ runner.os }}-go-${{ hashFiles('**/go.sum') }}
        restore-keys: |
-          ${{ runner.os }}-go1.17-
+          ${{ runner.os }}-go-
    - name: Build nebula
      run: go build ./cmd/nebula
@@ -75,6 +72,3 @@ jobs:
    - name: Test
      run: go test -v ./...
    - name: End 2 end
      run: make e2evv
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -7,170 +7,10 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
 ## [Unreleased]
 ## [1.5.2] - 2021-12-14
 ### Added
 - Warn when a non lighthouse node does not have lighthouse hosts configured. (#587)
 ### Changed
- No longer fatals if expired CA certificates are present in `pki.ca`, as long as 1 valid CA is present. (#599)
+- Updated the kardianos/service go library from 1.0.0 to 1.1.0, which
-
+  now creates launchd plist to write stdout/stderr to files by default.
 - `nebula-cert` will now enforce ipv4 addresses. (#604)
 - Warn on macOS if an unsafe route cannot be created due to a collision with an
  existing route. (#610)
 - Warn if you set a route MTU on platforms where we don't support it. (#611)
 ### Fixed
 - Rare race condition when tearing down a tunnel due to `recv_error` and sending packets on another thread. (#590)
 - Bug in `routes` and `unsafe_routes` handling that was introduced in 1.5.0. (#595)
 - `-test` mode no longer results in a crash. (#602)
 ### Removed
 - `x509.ca` config alias for `pki.ca`. (#604)
 ### Security
 - Upgraded `golang.org/x/crypto` to address an issue which allowed unauthenticated clients to cause a panic in SSH
  servers. (#603)
 ## 1.5.1 - 2021-12-13
 (This release was skipped due to discovering #610 and #611 after the tag was
 created.)
 ## [1.5.0] - 2021-11-11
 ### Added
 - SSH `print-cert` has a new `-raw` flag to get the PEM representation of a certificate. (#483)
 - New build architecture: Linux `riscv64`. (#542)
 - New experimental config option `remote_allow_ranges`. (#540)
 - New config option `pki.disconnect_invalid` that will tear down tunnels when they become invalid (through expiry or
  removal of root trust). Default is `false`. Note, this will not currently recognize if a remote has changed
  certificates since the last handshake. (#370)
 - New config option `unsafe_routes.<route>.metric` will set a metric for a specific unsafe route. It's useful if you have
  more than one identical route and want to prefer one against the other. (#353)
 ### Changed
 - Build against go 1.17. (#553)
 - Build with `CGO_ENABLED=0` set, to create more portable binaries. This could
  have an effect on DNS resolution if you rely on anything non-standard. (#421)
 - Windows now uses the [wintun](https://www.wintun.net/) driver which does not require installation. This driver
  is a large improvement over the TAP driver that was used in previous versions. If you had a previous version
  of `nebula` running, you will want to disable the tap driver in Control Panel, or uninstall the `tap0901` driver
  before running this version. (#289)
 - Darwin binaries are now universal (works on both amd64 and arm64), signed, and shipped in a notarized zip file.
  `nebula-darwin.zip` will be the only darwin release artifact. (#571)
 - Darwin uses syscalls and AF_ROUTE to configure the routing table, instead of
  using `/sbin/route`. Setting `tun.dev` is now allowed on Darwin as well, it
  must be in the format `utun[0-9]+` or it will be ignored. (#163)
 ### Deprecated
 - The `preferred_ranges` option has been supported as a replacement for
  `local_range` since v1.0.0. It has now been documented and `local_range`
  has been officially deprecated. (#541)
 ### Fixed
 - Valid recv_error packets were incorrectly marked as "spoofing" and ignored. (#482)
 - SSH server handles single `exec` requests correctly. (#483)
 - Signing a certificate with `nebula-cert sign` now verifies that the supplied
  ca-key matches the ca-crt. (#503)
 - If `preferred_ranges` (or the deprecated `local_range`) is configured, we
  will immediately switch to a preferred remote address after the reception of
  a handshake packet (instead of waiting until 1,000 packets have been sent).
  (#532)
 - A race condition when `punchy.respond` is enabled and ensures the correct
  vpn ip is sent a punch back response in highly queried node. (#566)
 - Fix a rare crash during handshake due to a race condition. (#535)
 ## [1.4.0] - 2021-05-11
 ### Added
 - Ability to output qr code images in `print`, `ca`, and `sign` modes for `nebula-cert`.
  This is useful when configuring mobile clients. (#297)
 - Experimental: Nebula can now do work on more than 2 cpu cores in send and receive paths via
  the new `routines` config option. (#382, #391, #395)
 - ICMP ping requests can be responded to when the `tun.disabled` is `true`.
  This is useful so that you can "ping" a lighthouse running in this mode. (#342)
 - Run smoke tests via `make smoke-docker`. (#287)
 - More reported stats, udp memory use on linux, build version (when using Prometheus), firewall,
  handshake, and cached packet stats. (#390, #405, #450, #453)
 - IPv6 support for the underlay network. (#369)
 - End to end testing, run with `make e2e`. (#425, #427, #428)
 ### Changed
 - Darwin will now log stdout/stderr to a file when using `-service` mode. (#303)
 - Example systemd unit file now better arranged startup order when using `sshd`
  and other fixes. (#317, #412, #438)
 - Reduced memory utilization/garbage collection. (#320, #323, #340)
 - Reduced CPU utilization. (#329)
 - Build against go 1.16. (#381)
 - Refactored handshakes to improve performance and correctness. (#401, #402, #404, #416, #451)
 - Improved roaming support for mobile clients. (#394, #457)
 - Lighthouse performance and correctness improvements. (#406, #418, #429, #433, #437, #442, #449)
 - Better ordered startup to enable `sshd`, `stats`, and `dns` subsystems to listen on
  the nebula interface. (#375)
 ### Fixed
 - No longer report handshake packets as `lost` in stats. (#331)
 - Error handling in the `cert` package. (#339, #373)
 - Orphaned pending hostmap entries are cleaned up. (#344)
 - Most known data races are now resolved. (#396, #400, #424)
 - Refuse to run a lighthouse on an ephemeral port. (#399)
 - Removed the global references. (#423, #426, #446)
 - Reloading via ssh command avoids a panic. (#447)
 - Shutdown is now performed in a cleaner way. (#448)
 - Logs will now find their way to Windows event viewer when running under `-service` mode
  in Windows. (#443)
 ## [1.3.0] - 2020-09-22
@@ -345,10 +185,7 @@ created.)
 - Initial public release.
-[Unreleased]: https://github.com/slackhq/nebula/compare/v1.5.2...HEAD
+[Unreleased]: https://github.com/slackhq/nebula/compare/v1.3.0...HEAD
 [1.5.2]: https://github.com/slackhq/nebula/releases/tag/v1.5.2
 [1.5.0]: https://github.com/slackhq/nebula/releases/tag/v1.5.0
 [1.4.0]: https://github.com/slackhq/nebula/releases/tag/v1.4.0
 [1.3.0]: https://github.com/slackhq/nebula/releases/tag/v1.3.0
 [1.2.0]: https://github.com/slackhq/nebula/releases/tag/v1.2.0
 [1.1.0]: https://github.com/slackhq/nebula/releases/tag/v1.1.0
--- a/81
+++ b/81
@@ -1,32 +1,7 @@
 GOMINVERSION = 1.17
 NEBULA_CMD_PATH = "./cmd/nebula"
 BUILD_NUMBER ?= dev+$(shell date -u '+%Y%m%d%H%M%S')
 GO111MODULE = on
 export GO111MODULE
 CGO_ENABLED = 0
 export CGO_ENABLED
 # Set up OS specific bits
 ifeq ($(OS),Windows_NT)
 	#TODO: we should be able to ditch awk as well
 	GOVERSION := $(shell go version | awk "{print substr($$3, 3)}")
 	GOISMIN := $(shell IF "$(GOVERSION)" GEQ "$(GOMINVERSION)" ECHO 1)
 	NEBULA_CMD_SUFFIX = .exe
 	NULL_FILE = nul
 else
 	GOVERSION := $(shell go version | awk '{print substr($$3, 3)}')
 	GOISMIN := $(shell expr "$(GOVERSION)" ">=" "$(GOMINVERSION)")
 	NEBULA_CMD_SUFFIX =
 	NULL_FILE = /dev/null
 endif
 # Only defined the build number if we haven't already
 ifndef BUILD_NUMBER
 	ifeq ($(shell git describe --exact-match 2>$(NULL_FILE)),)
 		BUILD_NUMBER = $(shell git describe --abbrev=0 --match "v*" | cut -dv -f2)-$(shell git branch --show-current)-$(shell git describe --long --dirty | cut -d- -f2-)
 	else
 		BUILD_NUMBER = $(shell git describe --exact-match --dirty | cut -dv -f2)
 	endif
 endif
 LDFLAGS = -X main.Build=$(BUILD_NUMBER)
@@ -41,30 +16,13 @@ ALL_LINUX = linux-amd64 \
 	linux-mipsle \
 	linux-mips64 \
 	linux-mips64le \
-	linux-mips-softfloat \
+	linux-mips-softfloat
 	linux-riscv64
 ALL = $(ALL_LINUX) \
 	darwin-amd64 \
 	darwin-arm64 \
 	freebsd-amd64 \
 	windows-amd64
 e2e:
 	$(TEST_ENV) go test -tags=e2e_testing -count=1 $(TEST_FLAGS) ./e2e
 e2ev: TEST_FLAGS = -v
 e2ev: e2e
 e2evv: TEST_ENV += TEST_LOGS=1
 e2evv: e2ev
 e2evvv: TEST_ENV += TEST_LOGS=2
 e2evvv: e2ev
 e2evvvv: TEST_ENV += TEST_LOGS=3
 e2evvvv: e2ev
 all: $(ALL:%=build/%/nebula) $(ALL:%=build/%/nebula-cert)
 release: $(ALL:%=build/nebula-%.tar.gz)
@@ -73,8 +31,6 @@ release-linux: $(ALL_LINUX:%=build/nebula-%.tar.gz)
 release-freebsd: build/nebula-freebsd-amd64.tar.gz
 BUILD_ARGS = -trimpath
 bin-windows: build/windows-amd64/nebula.exe build/windows-amd64/nebula-cert.exe
 	mv $? .
@@ -85,12 +41,12 @@ bin-freebsd: build/freebsd-amd64/nebula build/freebsd-amd64/nebula-cert
 	mv $? .
 bin:
-	go build $(BUILD_ARGS) -ldflags "$(LDFLAGS)" -o ./nebula${NEBULA_CMD_SUFFIX} ${NEBULA_CMD_PATH}
+	go build -trimpath -ldflags "$(LDFLAGS)" -o ./nebula ${NEBULA_CMD_PATH}
-	go build $(BUILD_ARGS) -ldflags "$(LDFLAGS)" -o ./nebula-cert${NEBULA_CMD_SUFFIX} ./cmd/nebula-cert
+	go build -trimpath -ldflags "$(LDFLAGS)" -o ./nebula-cert ./cmd/nebula-cert
 install:
-	go install $(BUILD_ARGS) -ldflags "$(LDFLAGS)" ${NEBULA_CMD_PATH}
+	go install -trimpath -ldflags "$(LDFLAGS)" ${NEBULA_CMD_PATH}
-	go install $(BUILD_ARGS) -ldflags "$(LDFLAGS)" ./cmd/nebula-cert
+	go install -trimpath -ldflags "$(LDFLAGS)" ./cmd/nebula-cert
 build/linux-arm-%: GOENV += GOARM=$(word 3, $(subst -, ,$*))
 build/linux-mips-%: GOENV += GOMIPS=$(word 3, $(subst -, ,$*))
@@ -101,12 +57,12 @@ build/linux-mips-softfloat/%: LDFLAGS += -s -w
 build/%/nebula: .FORCE
 	GOOS=$(firstword $(subst -, , $*)) \
 		GOARCH=$(word 2, $(subst -, ,$*)) $(GOENV) \
-		go build $(BUILD_ARGS) -o $@ -ldflags "$(LDFLAGS)" ${NEBULA_CMD_PATH}
+		go build -trimpath -o $@ -ldflags "$(LDFLAGS)" ${NEBULA_CMD_PATH}
 build/%/nebula-cert: .FORCE
 	GOOS=$(firstword $(subst -, , $*)) \
 		GOARCH=$(word 2, $(subst -, ,$*)) $(GOENV) \
-		go build $(BUILD_ARGS) -o $@ -ldflags "$(LDFLAGS)" ./cmd/nebula-cert
+		go build -trimpath -o $@ -ldflags "$(LDFLAGS)" ./cmd/nebula-cert
 build/%/nebula.exe: build/%/nebula
 	mv $< $@
@@ -144,29 +100,20 @@ bench-cpu-long:
 proto: nebula.pb.go cert/cert.pb.go
 nebula.pb.go: nebula.proto .FORCE
-	go build github.com/gogo/protobuf/protoc-gen-gogofaster
+	go build github.com/golang/protobuf/protoc-gen-go
-	PATH="$(CURDIR):$(PATH)" protoc --gogofaster_out=paths=source_relative:. $<
+	PATH="$(PWD):$(PATH)" protoc --go_out=. $<
-	rm protoc-gen-gogofaster
+	rm protoc-gen-go
 cert/cert.pb.go: cert/cert.proto .FORCE
 	$(MAKE) -C cert cert.pb.go
 service:
-	@echo > $(NULL_FILE)
+	@echo > /dev/null
 	$(eval NEBULA_CMD_PATH := "./cmd/nebula-service")
 ifeq ($(words $(MAKECMDGOALS)),1)
-	@$(MAKE) service ${.DEFAULT_GOAL} --no-print-directory
+	$(MAKE) service ${.DEFAULT_GOAL} --no-print-directory
 endif
 bin-docker: bin build/linux-amd64/nebula build/linux-amd64/nebula-cert
 smoke-docker: bin-docker
 	cd .github/workflows/smoke/ && ./build.sh
 	cd .github/workflows/smoke/ && ./smoke.sh
 smoke-docker-race: BUILD_ARGS = -race
 smoke-docker-race: smoke-docker
 .FORCE:
-.PHONY: e2e e2ev e2evv e2evvv e2evvvv test test-cov-html bench bench-cpu bench-cpu-long bin proto release service smoke-docker smoke-docker-race
+.PHONY: test test-cov-html bench bench-cpu bench-cpu-long bin proto release service
 .DEFAULT_GOAL := bin
--- a/README.md
+++ b/README.md
@@ -1,6 +1,7 @@
-## What is Nebula?
+## What is Nebula?
 Nebula is a scalable overlay networking tool with a focus on performance, simplicity and security.
-It lets you seamlessly connect computers anywhere in the world. Nebula is portable, and runs on Linux, OSX, Windows, iOS, and Android.
+It lets you seamlessly connect computers anywhere in the world. Nebula is portable, and runs on Linux, OSX, and Windows.
 (Also: keep this quiet, but we have an early prototype running on iOS).
 It can be used to connect a small number of computers, but is also able to connect tens of thousands of computers.
 Nebula incorporates a number of existing concepts like encryption, security groups, certificates,
@@ -8,39 +9,9 @@ and tunneling, and each of those individual pieces existed before Nebula in vari
 What makes Nebula different to existing offerings is that it brings all of these ideas together,
 resulting in a sum that is greater than its individual parts.
 Further documentation can be found [here](https://www.defined.net/nebula/introduction/).
 You can read more about Nebula [here](https://medium.com/p/884110a5579).
-You can also join the NebulaOSS Slack group [here](https://join.slack.com/t/nebulaoss/shared_invite/enQtOTA5MDI4NDg3MTg4LTkwY2EwNTI4NzQyMzc0M2ZlODBjNWI3NTY1MzhiOThiMmZlZjVkMTI0NGY4YTMyNjUwMWEyNzNkZTJmYzQxOGU).
+You can also join the NebulaOSS Slack group [here](https://join.slack.com/t/nebulaoss/shared_invite/enQtOTA5MDI4NDg3MTg4LTkwY2EwNTI4NzQyMzc0M2ZlODBjNWI3NTY1MzhiOThiMmZlZjVkMTI0NGY4YTMyNjUwMWEyNzNkZTJmYzQxOGU)
 ## Supported Platforms
 #### Desktop and Server
 Check the [releases](https://github.com/slackhq/nebula/releases/latest) page for downloads or see the [Distribution Packages](https://github.com/slackhq/nebula#distribution-packages) section.
 - Linux - 64 and 32 bit, arm, and others
 - Windows
 - MacOS
 - Freebsd
 #### Distribution Packages
 - [Arch Linux](https://archlinux.org/packages/community/x86_64/nebula/)
    ```
    $ sudo pacman -S nebula
    ```
 - [Fedora Linux](https://copr.fedorainfracloud.org/coprs/jdoss/nebula/)
    ```
    $ sudo dnf copr enable jdoss/nebula
    $ sudo dnf install nebula
    ```
 #### Mobile
 - [iOS](https://apps.apple.com/us/app/mobile-nebula/id1509587936?itsct=apps_box&amp;itscg=30200)
 - [Android](https://play.google.com/store/apps/details?id=net.defined.mobile_nebula&pcampaignid=pcampaignidMKT-Other-global-all-co-prtnr-py-PartBadge-Mar2515-1)
 ## Technical Overview
@@ -50,15 +21,15 @@ Nebula's user-defined groups allow for provider agnostic traffic filtering betwe
 Discovery nodes allow individual peers to find each other and optionally use UDP hole punching to establish connections from behind most firewalls or NATs.
 Users can move data between nodes in any number of cloud service providers, datacenters, and endpoints, without needing to maintain a particular addressing scheme.
-Nebula uses Elliptic-curve Diffie-Hellman (`ECDH`) key exchange and `AES-256-GCM` in its default configuration.
+Nebula uses elliptic curve Diffie-Hellman key exchange, and AES-256-GCM in its default configuration.
-Nebula was created to provide a mechanism for groups of hosts to communicate securely, even across the internet, while enabling expressive firewall definitions similar in style to cloud security groups.
+Nebula was created to provide a mechanism for groups hosts to communicate securely, even across the internet, while enabling expressive firewall definitions similar in style to cloud security groups.
 ## Getting started (quickly)
 To set up a Nebula network, you'll need:
-#### 1. The [Nebula binaries](https://github.com/slackhq/nebula/releases) or [Distribution Packages](https://github.com/slackhq/nebula#distribution-packages) for your specific platform. Specifically you'll need `nebula-cert` and the specific nebula binary for each platform you use.
+#### 1. The [Nebula binaries](https://github.com/slackhq/nebula/releases) for your specific platform. Specifically you'll need `nebula-cert` and the specific nebula binary for each platform you use.
 #### 2. (Optional, but you really should..) At least one discovery node with a routable IP address, which we call a lighthouse.
--- a/allow_list.go
+++ b/allow_list.go
@@ -2,29 +2,12 @@ package nebula
 import (
 	"fmt"
 	"net"
 	"regexp"
 	"github.com/slackhq/nebula/cidr"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/iputil"
 )
 type AllowList struct {
 	// The values of this cidrTree are `bool`, signifying allow/deny
-	cidrTree *cidr.Tree6
+	cidrTree *CIDRTree
 }
 type RemoteAllowList struct {
 	AllowList *AllowList
 	// Inside Range Specific, keys of this tree are inside CIDRs and values
 	// are *AllowList
 	insideAllowLists *cidr.Tree6
 }
 type LocalAllowList struct {
 	AllowList *AllowList
 	// To avoid ambiguity, all rules must be true, or all rules must be false.
 	nameRules []AllowListNameRule
@@ -35,224 +18,7 @@ type AllowListNameRule struct {
 	Allow bool
 }
-func NewLocalAllowListFromConfig(c *config.C, k string) (*LocalAllowList, error) {
+func (al *AllowList) Allow(ip uint32) bool {
 	var nameRules []AllowListNameRule
 	handleKey := func(key string, value interface{}) (bool, error) {
 		if key == "interfaces" {
 			var err error
 			nameRules, err = getAllowListInterfaces(k, value)
 			if err != nil {
 				return false, err
 			}
 			return true, nil
 		}
 		return false, nil
 	}
 	al, err := newAllowListFromConfig(c, k, handleKey)
 	if err != nil {
 		return nil, err
 	}
 	return &LocalAllowList{AllowList: al, nameRules: nameRules}, nil
 }
 func NewRemoteAllowListFromConfig(c *config.C, k, rangesKey string) (*RemoteAllowList, error) {
 	al, err := newAllowListFromConfig(c, k, nil)
 	if err != nil {
 		return nil, err
 	}
 	remoteAllowRanges, err := getRemoteAllowRanges(c, rangesKey)
 	if err != nil {
 		return nil, err
 	}
 	return &RemoteAllowList{AllowList: al, insideAllowLists: remoteAllowRanges}, nil
 }
 // If the handleKey func returns true, the rest of the parsing is skipped
 // for this key. This allows parsing of special values like `interfaces`.
 func newAllowListFromConfig(c *config.C, k string, handleKey func(key string, value interface{}) (bool, error)) (*AllowList, error) {
 	r := c.Get(k)
 	if r == nil {
 		return nil, nil
 	}
 	return newAllowList(k, r, handleKey)
 }
 // If the handleKey func returns true, the rest of the parsing is skipped
 // for this key. This allows parsing of special values like `interfaces`.
 func newAllowList(k string, raw interface{}, handleKey func(key string, value interface{}) (bool, error)) (*AllowList, error) {
 	rawMap, ok := raw.(map[interface{}]interface{})
 	if !ok {
 		return nil, fmt.Errorf("config `%s` has invalid type: %T", k, raw)
 	}
 	tree := cidr.NewTree6()
 	// Keep track of the rules we have added for both ipv4 and ipv6
 	type allowListRules struct {
 		firstValue     bool
 		allValuesMatch bool
 		defaultSet     bool
 		allValues      bool
 	}
 	rules4 := allowListRules{firstValue: true, allValuesMatch: true, defaultSet: false}
 	rules6 := allowListRules{firstValue: true, allValuesMatch: true, defaultSet: false}
 	for rawKey, rawValue := range rawMap {
 		rawCIDR, ok := rawKey.(string)
 		if !ok {
 			return nil, fmt.Errorf("config `%s` has invalid key (type %T): %v", k, rawKey, rawKey)
 		}
 		if handleKey != nil {
 			handled, err := handleKey(rawCIDR, rawValue)
 			if err != nil {
 				return nil, err
 			}
 			if handled {
 				continue
 			}
 		}
 		value, ok := rawValue.(bool)
 		if !ok {
 			return nil, fmt.Errorf("config `%s` has invalid value (type %T): %v", k, rawValue, rawValue)
 		}
 		_, ipNet, err := net.ParseCIDR(rawCIDR)
 		if err != nil {
 			return nil, fmt.Errorf("config `%s` has invalid CIDR: %s", k, rawCIDR)
 		}
 		// TODO: should we error on duplicate CIDRs in the config?
 		tree.AddCIDR(ipNet, value)
 		maskBits, maskSize := ipNet.Mask.Size()
 		var rules *allowListRules
 		if maskSize == 32 {
 			rules = &rules4
 		} else {
 			rules = &rules6
 		}
 		if rules.firstValue {
 			rules.allValues = value
 			rules.firstValue = false
 		} else {
 			if value != rules.allValues {
 				rules.allValuesMatch = false
 			}
 		}
 		// Check if this is 0.0.0.0/0 or ::/0
 		if maskBits == 0 {
 			rules.defaultSet = true
 		}
 	}
 	if !rules4.defaultSet {
 		if rules4.allValuesMatch {
 			_, zeroCIDR, _ := net.ParseCIDR("0.0.0.0/0")
 			tree.AddCIDR(zeroCIDR, !rules4.allValues)
 		} else {
 			return nil, fmt.Errorf("config `%s` contains both true and false rules, but no default set for 0.0.0.0/0", k)
 		}
 	}
 	if !rules6.defaultSet {
 		if rules6.allValuesMatch {
 			_, zeroCIDR, _ := net.ParseCIDR("::/0")
 			tree.AddCIDR(zeroCIDR, !rules6.allValues)
 		} else {
 			return nil, fmt.Errorf("config `%s` contains both true and false rules, but no default set for ::/0", k)
 		}
 	}
 	return &AllowList{cidrTree: tree}, nil
 }
 func getAllowListInterfaces(k string, v interface{}) ([]AllowListNameRule, error) {
 	var nameRules []AllowListNameRule
 	rawRules, ok := v.(map[interface{}]interface{})
 	if !ok {
 		return nil, fmt.Errorf("config `%s.interfaces` is invalid (type %T): %v", k, v, v)
 	}
 	firstEntry := true
 	var allValues bool
 	for rawName, rawAllow := range rawRules {
 		name, ok := rawName.(string)
 		if !ok {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid key (type %T): %v", k, rawName, rawName)
 		}
 		allow, ok := rawAllow.(bool)
 		if !ok {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid value (type %T): %v", k, rawAllow, rawAllow)
 		}
 		nameRE, err := regexp.Compile("^" + name + "$")
 		if err != nil {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid key: %s: %v", k, name, err)
 		}
 		nameRules = append(nameRules, AllowListNameRule{
 			Name:  nameRE,
 			Allow: allow,
 		})
 		if firstEntry {
 			allValues = allow
 			firstEntry = false
 		} else {
 			if allow != allValues {
 				return nil, fmt.Errorf("config `%s.interfaces` values must all be the same true/false value", k)
 			}
 		}
 	}
 	return nameRules, nil
 }
 func getRemoteAllowRanges(c *config.C, k string) (*cidr.Tree6, error) {
 	value := c.Get(k)
 	if value == nil {
 		return nil, nil
 	}
 	remoteAllowRanges := cidr.NewTree6()
 	rawMap, ok := value.(map[interface{}]interface{})
 	if !ok {
 		return nil, fmt.Errorf("config `%s` has invalid type: %T", k, value)
 	}
 	for rawKey, rawValue := range rawMap {
 		rawCIDR, ok := rawKey.(string)
 		if !ok {
 			return nil, fmt.Errorf("config `%s` has invalid key (type %T): %v", k, rawKey, rawKey)
 		}
 		allowList, err := newAllowList(fmt.Sprintf("%s.%s", k, rawCIDR), rawValue, nil)
 		if err != nil {
 			return nil, err
 		}
 		_, ipNet, err := net.ParseCIDR(rawCIDR)
 		if err != nil {
 			return nil, fmt.Errorf("config `%s` has invalid CIDR: %s", k, rawCIDR)
 		}
 		remoteAllowRanges.AddCIDR(ipNet, allowList)
 	}
 	return remoteAllowRanges, nil
 }
 func (al *AllowList) Allow(ip net.IP) bool {
 	if al == nil {
 		return true
 	}
@@ -266,42 +32,7 @@ func (al *AllowList) Allow(ip net.IP) bool {
 	}
 }
-func (al *AllowList) AllowIpV4(ip iputil.VpnIp) bool {
+func (al *AllowList) AllowName(name string) bool {
 	if al == nil {
 		return true
 	}
 	result := al.cidrTree.MostSpecificContainsIpV4(ip)
 	switch v := result.(type) {
 	case bool:
 		return v
 	default:
 		panic(fmt.Errorf("invalid state, allowlist returned: %T %v", result, result))
 	}
 }
 func (al *AllowList) AllowIpV6(hi, lo uint64) bool {
 	if al == nil {
 		return true
 	}
 	result := al.cidrTree.MostSpecificContainsIpV6(hi, lo)
 	switch v := result.(type) {
 	case bool:
 		return v
 	default:
 		panic(fmt.Errorf("invalid state, allowlist returned: %T %v", result, result))
 	}
 }
 func (al *LocalAllowList) Allow(ip net.IP) bool {
 	if al == nil {
 		return true
 	}
 	return al.AllowList.Allow(ip)
 }
 func (al *LocalAllowList) AllowName(name string) bool {
 	if al == nil || len(al.nameRules) == 0 {
 		return true
 	}
@@ -315,47 +46,3 @@ func (al *LocalAllowList) AllowName(name string) bool {
 	// If no rules match, return the default, which is the inverse of the rules
 	return !al.nameRules[0].Allow
 }
 func (al *RemoteAllowList) AllowUnknownVpnIp(ip net.IP) bool {
 	if al == nil {
 		return true
 	}
 	return al.AllowList.Allow(ip)
 }
 func (al *RemoteAllowList) Allow(vpnIp iputil.VpnIp, ip net.IP) bool {
 	if !al.getInsideAllowList(vpnIp).Allow(ip) {
 		return false
 	}
 	return al.AllowList.Allow(ip)
 }
 func (al *RemoteAllowList) AllowIpV4(vpnIp iputil.VpnIp, ip iputil.VpnIp) bool {
 	if al == nil {
 		return true
 	}
 	if !al.getInsideAllowList(vpnIp).AllowIpV4(ip) {
 		return false
 	}
 	return al.AllowList.AllowIpV4(ip)
 }
 func (al *RemoteAllowList) AllowIpV6(vpnIp iputil.VpnIp, hi, lo uint64) bool {
 	if al == nil {
 		return true
 	}
 	if !al.getInsideAllowList(vpnIp).AllowIpV6(hi, lo) {
 		return false
 	}
 	return al.AllowList.AllowIpV6(hi, lo)
 }
 func (al *RemoteAllowList) getInsideAllowList(vpnIp iputil.VpnIp) *AllowList {
 	if al.insideAllowLists != nil {
 		inside := al.insideAllowLists.MostSpecificContainsIpV4(vpnIp)
 		if inside != nil {
 			return inside.(*AllowList)
 		}
 	}
 	return nil
 }
--- a/allow_list_test.go
+++ b/allow_list_test.go
@@ -5,129 +5,31 @@ import (
 	"regexp"
 	"testing"
 	"github.com/slackhq/nebula/cidr"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/test"
 	"github.com/stretchr/testify/assert"
 )
 func TestNewAllowListFromConfig(t *testing.T) {
 	l := test.NewLogger()
 	c := config.NewC(l)
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0": true,
 	}
 	r, err := newAllowListFromConfig(c, "allowlist", nil)
 	assert.EqualError(t, err, "config `allowlist` has invalid CIDR: 192.168.0.0")
 	assert.Nil(t, r)
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0/16": "abc",
 	}
 	r, err = newAllowListFromConfig(c, "allowlist", nil)
 	assert.EqualError(t, err, "config `allowlist` has invalid value (type string): abc")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0/16": true,
 		"10.0.0.0/8":     false,
 	}
 	r, err = newAllowListFromConfig(c, "allowlist", nil)
 	assert.EqualError(t, err, "config `allowlist` contains both true and false rules, but no default set for 0.0.0.0/0")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"0.0.0.0/0":      true,
 		"10.0.0.0/8":     false,
 		"10.42.42.0/24":  true,
 		"fd00::/8":       true,
 		"fd00:fd00::/16": false,
 	}
 	r, err = newAllowListFromConfig(c, "allowlist", nil)
 	assert.EqualError(t, err, "config `allowlist` contains both true and false rules, but no default set for ::/0")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"0.0.0.0/0":     true,
 		"10.0.0.0/8":    false,
 		"10.42.42.0/24": true,
 	}
 	r, err = newAllowListFromConfig(c, "allowlist", nil)
 	if assert.NoError(t, err) {
 		assert.NotNil(t, r)
 	}
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"0.0.0.0/0":      true,
 		"10.0.0.0/8":     false,
 		"10.42.42.0/24":  true,
 		"::/0":           false,
 		"fd00::/8":       true,
 		"fd00:fd00::/16": false,
 	}
 	r, err = newAllowListFromConfig(c, "allowlist", nil)
 	if assert.NoError(t, err) {
 		assert.NotNil(t, r)
 	}
 	// Test interface names
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: "foo",
 		},
 	}
 	lr, err := NewLocalAllowListFromConfig(c, "allowlist")
 	assert.EqualError(t, err, "config `allowlist.interfaces` has invalid value (type string): foo")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: false,
 			`eth.*`:    true,
 		},
 	}
 	lr, err = NewLocalAllowListFromConfig(c, "allowlist")
 	assert.EqualError(t, err, "config `allowlist.interfaces` values must all be the same true/false value")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: false,
 		},
 	}
 	lr, err = NewLocalAllowListFromConfig(c, "allowlist")
 	if assert.NoError(t, err) {
 		assert.NotNil(t, lr)
 	}
 }
 func TestAllowList_Allow(t *testing.T) {
-	assert.Equal(t, true, ((*AllowList)(nil)).Allow(net.ParseIP("1.1.1.1")))
+	assert.Equal(t, true, ((*AllowList)(nil)).Allow(ip2int(net.ParseIP("1.1.1.1"))))
-	tree := cidr.NewTree6()
+	tree := NewCIDRTree()
-	tree.AddCIDR(cidr.Parse("0.0.0.0/0"), true)
+	tree.AddCIDR(getCIDR("0.0.0.0/0"), true)
-	tree.AddCIDR(cidr.Parse("10.0.0.0/8"), false)
+	tree.AddCIDR(getCIDR("10.0.0.0/8"), false)
-	tree.AddCIDR(cidr.Parse("10.42.42.42/32"), true)
+	tree.AddCIDR(getCIDR("10.42.42.0/24"), true)
 	tree.AddCIDR(cidr.Parse("10.42.0.0/16"), true)
 	tree.AddCIDR(cidr.Parse("10.42.42.0/24"), true)
 	tree.AddCIDR(cidr.Parse("10.42.42.0/24"), false)
 	tree.AddCIDR(cidr.Parse("::1/128"), true)
 	tree.AddCIDR(cidr.Parse("::2/128"), false)
 	al := &AllowList{cidrTree: tree}
-	assert.Equal(t, true, al.Allow(net.ParseIP("1.1.1.1")))
+	assert.Equal(t, true, al.Allow(ip2int(net.ParseIP("1.1.1.1"))))
-	assert.Equal(t, false, al.Allow(net.ParseIP("10.0.0.4")))
+	assert.Equal(t, false, al.Allow(ip2int(net.ParseIP("10.0.0.4"))))
-	assert.Equal(t, true, al.Allow(net.ParseIP("10.42.42.42")))
+	assert.Equal(t, true, al.Allow(ip2int(net.ParseIP("10.42.42.42"))))
 	assert.Equal(t, false, al.Allow(net.ParseIP("10.42.42.41")))
 	assert.Equal(t, true, al.Allow(net.ParseIP("10.42.0.1")))
 	assert.Equal(t, true, al.Allow(net.ParseIP("::1")))
 	assert.Equal(t, false, al.Allow(net.ParseIP("::2")))
 }
-func TestLocalAllowList_AllowName(t *testing.T) {
+func TestAllowList_AllowName(t *testing.T) {
-	assert.Equal(t, true, ((*LocalAllowList)(nil)).AllowName("docker0"))
+	assert.Equal(t, true, ((*AllowList)(nil)).AllowName("docker0"))
 	rules := []AllowListNameRule{
 		{Name: regexp.MustCompile("^docker.*$"), Allow: false},
 		{Name: regexp.MustCompile("^tun.*$"), Allow: false},
 	}
-	al := &LocalAllowList{nameRules: rules}
+	al := &AllowList{nameRules: rules}
 	assert.Equal(t, false, al.AllowName("docker0"))
 	assert.Equal(t, false, al.AllowName("tun0"))
@@ -137,7 +39,7 @@ func TestLocalAllowList_AllowName(t *testing.T) {
 		{Name: regexp.MustCompile("^eth.*$"), Allow: true},
 		{Name: regexp.MustCompile("^ens.*$"), Allow: true},
 	}
-	al = &LocalAllowList{nameRules: rules}
+	al = &AllowList{nameRules: rules}
 	assert.Equal(t, false, al.AllowName("docker0"))
 	assert.Equal(t, true, al.AllowName("eth0"))
--- a/bits.go
+++ b/bits.go
@@ -26,7 +26,7 @@ func NewBits(bits uint64) *Bits {
 	}
 }
-func (b *Bits) Check(l logrus.FieldLogger, i uint64) bool {
+func (b *Bits) Check(i uint64) bool {
 	// If i is the next number, return true.
 	if i > b.current || (i == 0 && b.firstSeen == false && b.current < b.length) {
 		return true
@@ -47,7 +47,7 @@ func (b *Bits) Check(l logrus.FieldLogger, i uint64) bool {
 	return false
 }
-func (b *Bits) Update(l *logrus.Logger, i uint64) bool {
+func (b *Bits) Update(i uint64) bool {
 	// If i is the next number, return true and update current.
 	if i == b.current+1 {
 		// Report missed packets, we can only understand what was missed after the first window has been gone through
--- a/bits_test.go
+++ b/bits_test.go
@@ -3,12 +3,10 @@ package nebula
 import (
 	"testing"
 	"github.com/slackhq/nebula/test"
 	"github.com/stretchr/testify/assert"
 )
 func TestBits(t *testing.T) {
 	l := test.NewLogger()
 	b := NewBits(10)
 	// make sure it is the right size
@@ -16,46 +14,46 @@ func TestBits(t *testing.T) {
 	// This is initialized to zero - receive one. This should work.
-	assert.True(t, b.Check(l, 1))
+	assert.True(t, b.Check(1))
-	u := b.Update(l, 1)
+	u := b.Update(1)
 	assert.True(t, u)
 	assert.EqualValues(t, 1, b.current)
 	g := []bool{false, true, false, false, false, false, false, false, false, false}
 	assert.Equal(t, g, b.bits)
 	// Receive two
-	assert.True(t, b.Check(l, 2))
+	assert.True(t, b.Check(2))
-	u = b.Update(l, 2)
+	u = b.Update(2)
 	assert.True(t, u)
 	assert.EqualValues(t, 2, b.current)
 	g = []bool{false, true, true, false, false, false, false, false, false, false}
 	assert.Equal(t, g, b.bits)
 	// Receive two again - it will fail
-	assert.False(t, b.Check(l, 2))
+	assert.False(t, b.Check(2))
-	u = b.Update(l, 2)
+	u = b.Update(2)
 	assert.False(t, u)
 	assert.EqualValues(t, 2, b.current)
 	// Jump ahead to 15, which should clear everything and set the 6th element
-	assert.True(t, b.Check(l, 15))
+	assert.True(t, b.Check(15))
-	u = b.Update(l, 15)
+	u = b.Update(15)
 	assert.True(t, u)
 	assert.EqualValues(t, 15, b.current)
 	g = []bool{false, false, false, false, false, true, false, false, false, false}
 	assert.Equal(t, g, b.bits)
 	// Mark 14, which is allowed because it is in the window
-	assert.True(t, b.Check(l, 14))
+	assert.True(t, b.Check(14))
-	u = b.Update(l, 14)
+	u = b.Update(14)
 	assert.True(t, u)
 	assert.EqualValues(t, 15, b.current)
 	g = []bool{false, false, false, false, true, true, false, false, false, false}
 	assert.Equal(t, g, b.bits)
 	// Mark 5, which is not allowed because it is not in the window
-	assert.False(t, b.Check(l, 5))
+	assert.False(t, b.Check(5))
-	u = b.Update(l, 5)
+	u = b.Update(5)
 	assert.False(t, u)
 	assert.EqualValues(t, 15, b.current)
 	g = []bool{false, false, false, false, true, true, false, false, false, false}
@@ -63,65 +61,63 @@ func TestBits(t *testing.T) {
 	// make sure we handle wrapping around once to the current position
 	b = NewBits(10)
-	assert.True(t, b.Update(l, 1))
+	assert.True(t, b.Update(1))
-	assert.True(t, b.Update(l, 11))
+	assert.True(t, b.Update(11))
 	assert.Equal(t, []bool{false, true, false, false, false, false, false, false, false, false}, b.bits)
 	// Walk through a few windows in order
 	b = NewBits(10)
 	for i := uint64(0); i <= 100; i++ {
-		assert.True(t, b.Check(l, i), "Error while checking %v", i)
+		assert.True(t, b.Check(i), "Error while checking %v", i)
-		assert.True(t, b.Update(l, i), "Error while updating %v", i)
+		assert.True(t, b.Update(i), "Error while updating %v", i)
 	}
 }
 func TestBitsDupeCounter(t *testing.T) {
 	l := test.NewLogger()
 	b := NewBits(10)
 	b.lostCounter.Clear()
 	b.dupeCounter.Clear()
 	b.outOfWindowCounter.Clear()
-	assert.True(t, b.Update(l, 1))
+	assert.True(t, b.Update(1))
 	assert.Equal(t, int64(0), b.dupeCounter.Count())
-	assert.False(t, b.Update(l, 1))
+	assert.False(t, b.Update(1))
 	assert.Equal(t, int64(1), b.dupeCounter.Count())
-	assert.True(t, b.Update(l, 2))
+	assert.True(t, b.Update(2))
 	assert.Equal(t, int64(1), b.dupeCounter.Count())
-	assert.True(t, b.Update(l, 3))
+	assert.True(t, b.Update(3))
 	assert.Equal(t, int64(1), b.dupeCounter.Count())
-	assert.False(t, b.Update(l, 1))
+	assert.False(t, b.Update(1))
 	assert.Equal(t, int64(0), b.lostCounter.Count())
 	assert.Equal(t, int64(2), b.dupeCounter.Count())
 	assert.Equal(t, int64(0), b.outOfWindowCounter.Count())
 }
 func TestBitsOutOfWindowCounter(t *testing.T) {
 	l := test.NewLogger()
 	b := NewBits(10)
 	b.lostCounter.Clear()
 	b.dupeCounter.Clear()
 	b.outOfWindowCounter.Clear()
-	assert.True(t, b.Update(l, 20))
+	assert.True(t, b.Update(20))
 	assert.Equal(t, int64(0), b.outOfWindowCounter.Count())
-	assert.True(t, b.Update(l, 21))
+	assert.True(t, b.Update(21))
-	assert.True(t, b.Update(l, 22))
+	assert.True(t, b.Update(22))
-	assert.True(t, b.Update(l, 23))
+	assert.True(t, b.Update(23))
-	assert.True(t, b.Update(l, 24))
+	assert.True(t, b.Update(24))
-	assert.True(t, b.Update(l, 25))
+	assert.True(t, b.Update(25))
-	assert.True(t, b.Update(l, 26))
+	assert.True(t, b.Update(26))
-	assert.True(t, b.Update(l, 27))
+	assert.True(t, b.Update(27))
-	assert.True(t, b.Update(l, 28))
+	assert.True(t, b.Update(28))
-	assert.True(t, b.Update(l, 29))
+	assert.True(t, b.Update(29))
 	assert.Equal(t, int64(0), b.outOfWindowCounter.Count())
-	assert.False(t, b.Update(l, 0))
+	assert.False(t, b.Update(0))
 	assert.Equal(t, int64(1), b.outOfWindowCounter.Count())
 	//tODO: make sure lostcounter doesn't increase in orderly increment
@@ -131,24 +127,23 @@ func TestBitsOutOfWindowCounter(t *testing.T) {
 }
 func TestBitsLostCounter(t *testing.T) {
 	l := test.NewLogger()
 	b := NewBits(10)
 	b.lostCounter.Clear()
 	b.dupeCounter.Clear()
 	b.outOfWindowCounter.Clear()
 	//assert.True(t, b.Update(0))
-	assert.True(t, b.Update(l, 0))
+	assert.True(t, b.Update(0))
-	assert.True(t, b.Update(l, 20))
+	assert.True(t, b.Update(20))
-	assert.True(t, b.Update(l, 21))
+	assert.True(t, b.Update(21))
-	assert.True(t, b.Update(l, 22))
+	assert.True(t, b.Update(22))
-	assert.True(t, b.Update(l, 23))
+	assert.True(t, b.Update(23))
-	assert.True(t, b.Update(l, 24))
+	assert.True(t, b.Update(24))
-	assert.True(t, b.Update(l, 25))
+	assert.True(t, b.Update(25))
-	assert.True(t, b.Update(l, 26))
+	assert.True(t, b.Update(26))
-	assert.True(t, b.Update(l, 27))
+	assert.True(t, b.Update(27))
-	assert.True(t, b.Update(l, 28))
+	assert.True(t, b.Update(28))
-	assert.True(t, b.Update(l, 29))
+	assert.True(t, b.Update(29))
 	assert.Equal(t, int64(20), b.lostCounter.Count())
 	assert.Equal(t, int64(0), b.dupeCounter.Count())
 	assert.Equal(t, int64(0), b.outOfWindowCounter.Count())
@@ -158,56 +153,56 @@ func TestBitsLostCounter(t *testing.T) {
 	b.dupeCounter.Clear()
 	b.outOfWindowCounter.Clear()
-	assert.True(t, b.Update(l, 0))
+	assert.True(t, b.Update(0))
 	assert.Equal(t, int64(0), b.lostCounter.Count())
-	assert.True(t, b.Update(l, 9))
+	assert.True(t, b.Update(9))
 	assert.Equal(t, int64(0), b.lostCounter.Count())
 	// 10 will set 0 index, 0 was already set, no lost packets
-	assert.True(t, b.Update(l, 10))
+	assert.True(t, b.Update(10))
 	assert.Equal(t, int64(0), b.lostCounter.Count())
 	// 11 will set 1 index, 1 was missed, we should see 1 packet lost
-	assert.True(t, b.Update(l, 11))
+	assert.True(t, b.Update(11))
 	assert.Equal(t, int64(1), b.lostCounter.Count())
 	// Now let's fill in the window, should end up with 8 lost packets
-	assert.True(t, b.Update(l, 12))
+	assert.True(t, b.Update(12))
-	assert.True(t, b.Update(l, 13))
+	assert.True(t, b.Update(13))
-	assert.True(t, b.Update(l, 14))
+	assert.True(t, b.Update(14))
-	assert.True(t, b.Update(l, 15))
+	assert.True(t, b.Update(15))
-	assert.True(t, b.Update(l, 16))
+	assert.True(t, b.Update(16))
-	assert.True(t, b.Update(l, 17))
+	assert.True(t, b.Update(17))
-	assert.True(t, b.Update(l, 18))
+	assert.True(t, b.Update(18))
-	assert.True(t, b.Update(l, 19))
+	assert.True(t, b.Update(19))
 	assert.Equal(t, int64(8), b.lostCounter.Count())
 	// Jump ahead by a window size
-	assert.True(t, b.Update(l, 29))
+	assert.True(t, b.Update(29))
 	assert.Equal(t, int64(8), b.lostCounter.Count())
 	// Now lets walk ahead normally through the window, the missed packets should fill in
-	assert.True(t, b.Update(l, 30))
+	assert.True(t, b.Update(30))
-	assert.True(t, b.Update(l, 31))
+	assert.True(t, b.Update(31))
-	assert.True(t, b.Update(l, 32))
+	assert.True(t, b.Update(32))
-	assert.True(t, b.Update(l, 33))
+	assert.True(t, b.Update(33))
-	assert.True(t, b.Update(l, 34))
+	assert.True(t, b.Update(34))
-	assert.True(t, b.Update(l, 35))
+	assert.True(t, b.Update(35))
-	assert.True(t, b.Update(l, 36))
+	assert.True(t, b.Update(36))
-	assert.True(t, b.Update(l, 37))
+	assert.True(t, b.Update(37))
-	assert.True(t, b.Update(l, 38))
+	assert.True(t, b.Update(38))
 	// 39 packets tracked, 22 seen, 17 lost
 	assert.Equal(t, int64(17), b.lostCounter.Count())
 	// Jump ahead by 2 windows, should have recording 1 full window missing
-	assert.True(t, b.Update(l, 58))
+	assert.True(t, b.Update(58))
 	assert.Equal(t, int64(27), b.lostCounter.Count())
 	// Now lets walk ahead normally through the window, the missed packets should fill in from this window
-	assert.True(t, b.Update(l, 59))
+	assert.True(t, b.Update(59))
-	assert.True(t, b.Update(l, 60))
+	assert.True(t, b.Update(60))
-	assert.True(t, b.Update(l, 61))
+	assert.True(t, b.Update(61))
-	assert.True(t, b.Update(l, 62))
+	assert.True(t, b.Update(62))
-	assert.True(t, b.Update(l, 63))
+	assert.True(t, b.Update(63))
-	assert.True(t, b.Update(l, 64))
+	assert.True(t, b.Update(64))
-	assert.True(t, b.Update(l, 65))
+	assert.True(t, b.Update(65))
-	assert.True(t, b.Update(l, 66))
+	assert.True(t, b.Update(66))
-	assert.True(t, b.Update(l, 67))
+	assert.True(t, b.Update(67))
 	// 68 packets tracked, 32 seen, 36 missed
 	assert.Equal(t, int64(36), b.lostCounter.Count())
 	assert.Equal(t, int64(0), b.dupeCounter.Count())
--- a/cert.go
+++ b/cert.go
@@ -7,11 +7,11 @@ import (
 	"strings"
 	"time"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/config"
 )
 var trustedCAs *cert.NebulaCAPool
 type CertState struct {
 	certificate         *cert.NebulaCertificate
 	rawCertificate      []byte
@@ -46,7 +46,7 @@ func NewCertState(certificate *cert.NebulaCertificate, privateKey []byte) (*Cert
 	return cs, nil
 }
-func NewCertStateFromConfig(c *config.C) (*CertState, error) {
+func NewCertStateFromConfig(c *Config) (*CertState, error) {
 	var pemPrivateKey []byte
 	var err error
@@ -119,18 +119,24 @@ func NewCertStateFromConfig(c *config.C) (*CertState, error) {
 	return NewCertState(nebulaCert, rawKey)
 }
-func loadCAFromConfig(l *logrus.Logger, c *config.C) (*cert.NebulaCAPool, error) {
+func loadCAFromConfig(c *Config) (*cert.NebulaCAPool, error) {
 	var rawCA []byte
 	var err error
 	caPathOrPEM := c.GetString("pki.ca", "")
 	if caPathOrPEM == "" {
 		// Support backwards compat with the old x509
 		//TODO: remove after this is rolled out everywhere - NB 2018/02/23
 		caPathOrPEM = c.GetString("x509.ca", "")
 	}
 	if caPathOrPEM == "" {
 		return nil, errors.New("no pki.ca path or PEM data provided")
 	}
 	if strings.Contains(caPathOrPEM, "-----BEGIN") {
 		rawCA = []byte(caPathOrPEM)
-
+		caPathOrPEM = "<inline>"
 	} else {
 		rawCA, err = ioutil.ReadFile(caPathOrPEM)
 		if err != nil {
@@ -139,20 +145,7 @@ func loadCAFromConfig(l *logrus.Logger, c *config.C) (*cert.NebulaCAPool, error)
 	}
 	CAs, err := cert.NewCAPoolFromBytes(rawCA)
-	if errors.Is(err, cert.ErrExpired) {
+	if err != nil {
 		var expired int
 		for _, cert := range CAs.CAs {
 			if cert.Expired(time.Now()) {
 				expired++
 				l.WithField("cert", cert).Warn("expired certificate present in CA pool")
 			}
 		}
 		if expired >= len(CAs.CAs) {
 			return nil, errors.New("no valid CA certificates present")
 		}
 	} else if err != nil {
 		return nil, fmt.Errorf("error while adding CA certificate to CA trust store: %s", err)
 	}
@@ -161,8 +154,7 @@ func loadCAFromConfig(l *logrus.Logger, c *config.C) (*cert.NebulaCAPool, error)
 		CAs.BlocklistFingerprint(fp)
 	}
-	// Support deprecated config for at least one minor release to allow for migrations
+	// Support deprecated config for at leaast one minor release to allow for migrations
 	//TODO: remove in 2022 or later
 	for _, fp := range c.GetStringSlice("pki.blacklist", []string{}) {
 		l.WithField("fingerprint", fp).Infof("Blocklisting cert")
 		l.Warn("pki.blacklist is deprecated and will not be supported in a future release. Please migrate your config to use pki.blocklist")
--- a/cert/Makefile
+++ b/cert/Makefile
@@ -2,8 +2,8 @@ GO111MODULE = on
 export GO111MODULE
 cert.pb.go: cert.proto .FORCE
-	go build google.golang.org/protobuf/cmd/protoc-gen-go
+	go build github.com/golang/protobuf/protoc-gen-go
-	PATH="$(CURDIR):$(PATH)" protoc --go_out=. --go_opt=paths=source_relative $<
+	PATH="$(PWD):$(PATH)" protoc --go_out=. $<
 	rm protoc-gen-go
 .FORCE:
--- a/cert/ca.go
+++ b/cert/ca.go
@@ -1,7 +1,6 @@
 package cert
 import (
 	"errors"
 	"fmt"
 	"strings"
 	"time"
@@ -22,32 +21,19 @@ func NewCAPool() *NebulaCAPool {
 	return &ca
 }
 // NewCAPoolFromBytes will create a new CA pool from the provided
 // input bytes, which must be a PEM-encoded set of nebula certificates.
 // If the pool contains any expired certificates, an ErrExpired will be
 // returned along with the pool. The caller must handle any such errors.
 func NewCAPoolFromBytes(caPEMs []byte) (*NebulaCAPool, error) {
 	pool := NewCAPool()
 	var err error
 	var expired bool
 	for {
 		caPEMs, err = pool.AddCACertificate(caPEMs)
 		if errors.Is(err, ErrExpired) {
 			expired = true
 			err = nil
 		}
 		if err != nil {
 			return nil, err
 		}
-		if len(caPEMs) == 0 || strings.TrimSpace(string(caPEMs)) == "" {
+		if caPEMs == nil || len(caPEMs) == 0 || strings.TrimSpace(string(caPEMs)) == "" {
 			break
 		}
 	}
 	if expired {
 		return pool, ErrExpired
 	}
 	return pool, nil
 }
@@ -61,11 +47,15 @@ func (ncp *NebulaCAPool) AddCACertificate(pemBytes []byte) ([]byte, error) {
 	}
 	if !c.Details.IsCA {
-		return pemBytes, fmt.Errorf("%s: %w", c.Details.Name, ErrNotCA)
+		return pemBytes, fmt.Errorf("provided certificate was not a CA; %s", c.Details.Name)
 	}
 	if !c.CheckSignature(c.Details.PublicKey) {
-		return pemBytes, fmt.Errorf("%s: %w", c.Details.Name, ErrNotSelfSigned)
+		return pemBytes, fmt.Errorf("provided certificate was not self signed; %s", c.Details.Name)
 	}
 	if c.Expired(time.Now()) {
 		return pemBytes, fmt.Errorf("provided CA certificate is expired; %s", c.Details.Name)
 	}
 	sum, err := c.Sha256Sum()
@@ -74,10 +64,6 @@ func (ncp *NebulaCAPool) AddCACertificate(pemBytes []byte) ([]byte, error) {
 	}
 	ncp.CAs[sum] = c
 	if c.Expired(time.Now()) {
 		return pemBytes, fmt.Errorf("%s: %w", c.Details.Name, ErrExpired)
 	}
 	return pemBytes, nil
 }
--- a/cert/cert.go
+++ b/cert/cert.go
@@ -61,10 +61,6 @@ func UnmarshalNebulaCertificate(b []byte) (*NebulaCertificate, error) {
 		return nil, err
 	}
 	if rc.Details == nil {
 		return nil, fmt.Errorf("encoded Details was nil")
 	}
 	if len(rc.Details.Ips)%2 != 0 {
 		return nil, fmt.Errorf("encoded IPs should be in pairs, an odd number was found")
 	}
@@ -127,9 +123,6 @@ func UnmarshalNebulaCertificateFromPEM(b []byte) (*NebulaCertificate, []byte, er
 	if p == nil {
 		return nil, r, fmt.Errorf("input did not contain a valid PEM encoded block")
 	}
 	if p.Type != CertBanner {
 		return nil, r, fmt.Errorf("bytes did not contain a proper nebula certificate banner")
 	}
 	nc, err := UnmarshalNebulaCertificate(p.Bytes)
 	return nc, r, err
 }
@@ -325,29 +318,15 @@ func (nc *NebulaCertificate) CheckRootConstrains(signer *NebulaCertificate) erro
 // VerifyPrivateKey checks that the public key in the Nebula certificate and a supplied private key match
 func (nc *NebulaCertificate) VerifyPrivateKey(key []byte) error {
-	if nc.Details.IsCA {
+	var dst, key32 [32]byte
-		// the call to PublicKey below will panic slice bounds out of range otherwise
+	copy(key32[:], key)
-		if len(key) != ed25519.PrivateKeySize {
+	curve25519.ScalarBaseMult(&dst, &key32)
-			return fmt.Errorf("key was not 64 bytes, is invalid ed25519 private key")
+	if !bytes.Equal(dst[:], nc.Details.PublicKey) {
 		}
 		if !ed25519.PublicKey(nc.Details.PublicKey).Equal(ed25519.PrivateKey(key).Public()) {
 		return fmt.Errorf("public key in cert and private key supplied don't match")
 	}
 	return nil
 }
 	pub, err := curve25519.X25519(key, curve25519.Basepoint)
 	if err != nil {
 		return err
 	}
 	if !bytes.Equal(pub, nc.Details.PublicKey) {
 		return fmt.Errorf("public key in cert and private key supplied don't match")
 	}
 	return nil
 }
 // String will return a pretty printed representation of a nebula cert
 func (nc *NebulaCertificate) String() string {
 	if nc == nil {
--- a/cert/cert.pb.go
+++ b/cert/cert.pb.go
@@ -1,298 +1,202 @@
 // Code generated by protoc-gen-go. DO NOT EDIT.
 // versions:
 // 	protoc-gen-go v1.26.0
 // 	protoc        v3.14.0
 // source: cert.proto
 package cert
 import (
-	protoreflect "google.golang.org/protobuf/reflect/protoreflect"
+	fmt "fmt"
-	protoimpl "google.golang.org/protobuf/runtime/protoimpl"
+	proto "github.com/golang/protobuf/proto"
-	reflect "reflect"
+	math "math"
 	sync "sync"
 )
-const (
+// Reference imports to suppress errors if they are not otherwise used.
-	// Verify that this generated code is sufficiently up-to-date.
+var _ = proto.Marshal
-	_ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion)
+var _ = fmt.Errorf
-	// Verify that runtime/protoimpl is sufficiently up-to-date.
+var _ = math.Inf
-	_ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20)
+
-)
+// This is a compile-time assertion to ensure that this generated file
 // is compatible with the proto package it is being compiled against.
 // A compilation error at this line likely means your copy of the
 // proto package needs to be updated.
 const _ = proto.ProtoPackageIsVersion3 // please upgrade the proto package
 type RawNebulaCertificate struct {
-	state         protoimpl.MessageState
+	Details              *RawNebulaCertificateDetails `protobuf:"bytes,1,opt,name=Details,json=details,proto3" json:"Details,omitempty"`
-	sizeCache     protoimpl.SizeCache
+	Signature            []byte                       `protobuf:"bytes,2,opt,name=Signature,json=signature,proto3" json:"Signature,omitempty"`
-	unknownFields protoimpl.UnknownFields
+	XXX_NoUnkeyedLiteral struct{}                     `json:"-"`
-
+	XXX_unrecognized     []byte                       `json:"-"`
-	Details   *RawNebulaCertificateDetails `protobuf:"bytes,1,opt,name=Details,proto3" json:"Details,omitempty"`
+	XXX_sizecache        int32                        `json:"-"`
 	Signature []byte                       `protobuf:"bytes,2,opt,name=Signature,proto3" json:"Signature,omitempty"`
 }
 func (x *RawNebulaCertificate) Reset() {
 	*x = RawNebulaCertificate{}
 	if protoimpl.UnsafeEnabled {
 		mi := &file_cert_proto_msgTypes[0]
 		ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
 		ms.StoreMessageInfo(mi)
 	}
 }
 func (x *RawNebulaCertificate) String() string {
 	return protoimpl.X.MessageStringOf(x)
 }
 func (m *RawNebulaCertificate) Reset()         { *m = RawNebulaCertificate{} }
 func (m *RawNebulaCertificate) String() string { return proto.CompactTextString(m) }
 func (*RawNebulaCertificate) ProtoMessage()    {}
 func (x *RawNebulaCertificate) ProtoReflect() protoreflect.Message {
 	mi := &file_cert_proto_msgTypes[0]
 	if protoimpl.UnsafeEnabled && x != nil {
 		ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
 		if ms.LoadMessageInfo() == nil {
 			ms.StoreMessageInfo(mi)
 		}
 		return ms
 	}
 	return mi.MessageOf(x)
 }
 // Deprecated: Use RawNebulaCertificate.ProtoReflect.Descriptor instead.
 func (*RawNebulaCertificate) Descriptor() ([]byte, []int) {
-	return file_cert_proto_rawDescGZIP(), []int{0}
+	return fileDescriptor_a142e29cbef9b1cf, []int{0}
 }
-func (x *RawNebulaCertificate) GetDetails() *RawNebulaCertificateDetails {
+func (m *RawNebulaCertificate) XXX_Unmarshal(b []byte) error {
-	if x != nil {
+	return xxx_messageInfo_RawNebulaCertificate.Unmarshal(m, b)
-		return x.Details
+}
 func (m *RawNebulaCertificate) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
 	return xxx_messageInfo_RawNebulaCertificate.Marshal(b, m, deterministic)
 }
 func (m *RawNebulaCertificate) XXX_Merge(src proto.Message) {
 	xxx_messageInfo_RawNebulaCertificate.Merge(m, src)
 }
 func (m *RawNebulaCertificate) XXX_Size() int {
 	return xxx_messageInfo_RawNebulaCertificate.Size(m)
 }
 func (m *RawNebulaCertificate) XXX_DiscardUnknown() {
 	xxx_messageInfo_RawNebulaCertificate.DiscardUnknown(m)
 }
 var xxx_messageInfo_RawNebulaCertificate proto.InternalMessageInfo
 func (m *RawNebulaCertificate) GetDetails() *RawNebulaCertificateDetails {
 	if m != nil {
 		return m.Details
 	}
 	return nil
 }
-func (x *RawNebulaCertificate) GetSignature() []byte {
+func (m *RawNebulaCertificate) GetSignature() []byte {
-	if x != nil {
+	if m != nil {
-		return x.Signature
+		return m.Signature
 	}
 	return nil
 }
 type RawNebulaCertificateDetails struct {
-	state         protoimpl.MessageState
+	Name string `protobuf:"bytes,1,opt,name=Name,json=name,proto3" json:"Name,omitempty"`
 	sizeCache     protoimpl.SizeCache
 	unknownFields protoimpl.UnknownFields
 	Name string `protobuf:"bytes,1,opt,name=Name,proto3" json:"Name,omitempty"`
 	// Ips and Subnets are in big endian 32 bit pairs, 1st the ip, 2nd the mask
-	Ips       []uint32 `protobuf:"varint,2,rep,packed,name=Ips,proto3" json:"Ips,omitempty"`
+	Ips       []uint32 `protobuf:"varint,2,rep,packed,name=Ips,json=ips,proto3" json:"Ips,omitempty"`
-	Subnets   []uint32 `protobuf:"varint,3,rep,packed,name=Subnets,proto3" json:"Subnets,omitempty"`
+	Subnets   []uint32 `protobuf:"varint,3,rep,packed,name=Subnets,json=subnets,proto3" json:"Subnets,omitempty"`
-	Groups    []string `protobuf:"bytes,4,rep,name=Groups,proto3" json:"Groups,omitempty"`
+	Groups    []string `protobuf:"bytes,4,rep,name=Groups,json=groups,proto3" json:"Groups,omitempty"`
-	NotBefore int64    `protobuf:"varint,5,opt,name=NotBefore,proto3" json:"NotBefore,omitempty"`
+	NotBefore int64    `protobuf:"varint,5,opt,name=NotBefore,json=notBefore,proto3" json:"NotBefore,omitempty"`
-	NotAfter  int64    `protobuf:"varint,6,opt,name=NotAfter,proto3" json:"NotAfter,omitempty"`
+	NotAfter  int64    `protobuf:"varint,6,opt,name=NotAfter,json=notAfter,proto3" json:"NotAfter,omitempty"`
-	PublicKey []byte   `protobuf:"bytes,7,opt,name=PublicKey,proto3" json:"PublicKey,omitempty"`
+	PublicKey []byte   `protobuf:"bytes,7,opt,name=PublicKey,json=publicKey,proto3" json:"PublicKey,omitempty"`
-	IsCA      bool     `protobuf:"varint,8,opt,name=IsCA,proto3" json:"IsCA,omitempty"`
+	IsCA      bool     `protobuf:"varint,8,opt,name=IsCA,json=isCA,proto3" json:"IsCA,omitempty"`
 	// sha-256 of the issuer certificate, if this field is blank the cert is self-signed
-	Issuer []byte `protobuf:"bytes,9,opt,name=Issuer,proto3" json:"Issuer,omitempty"`
+	Issuer               []byte   `protobuf:"bytes,9,opt,name=Issuer,json=issuer,proto3" json:"Issuer,omitempty"`
-}
+	XXX_NoUnkeyedLiteral struct{} `json:"-"`
-
+	XXX_unrecognized     []byte   `json:"-"`
-func (x *RawNebulaCertificateDetails) Reset() {
+	XXX_sizecache        int32    `json:"-"`
 	*x = RawNebulaCertificateDetails{}
 	if protoimpl.UnsafeEnabled {
 		mi := &file_cert_proto_msgTypes[1]
 		ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
 		ms.StoreMessageInfo(mi)
 	}
 }
 func (x *RawNebulaCertificateDetails) String() string {
 	return protoimpl.X.MessageStringOf(x)
 }
 func (m *RawNebulaCertificateDetails) Reset()         { *m = RawNebulaCertificateDetails{} }
 func (m *RawNebulaCertificateDetails) String() string { return proto.CompactTextString(m) }
 func (*RawNebulaCertificateDetails) ProtoMessage()    {}
 func (x *RawNebulaCertificateDetails) ProtoReflect() protoreflect.Message {
 	mi := &file_cert_proto_msgTypes[1]
 	if protoimpl.UnsafeEnabled && x != nil {
 		ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
 		if ms.LoadMessageInfo() == nil {
 			ms.StoreMessageInfo(mi)
 		}
 		return ms
 	}
 	return mi.MessageOf(x)
 }
 // Deprecated: Use RawNebulaCertificateDetails.ProtoReflect.Descriptor instead.
 func (*RawNebulaCertificateDetails) Descriptor() ([]byte, []int) {
-	return file_cert_proto_rawDescGZIP(), []int{1}
+	return fileDescriptor_a142e29cbef9b1cf, []int{1}
 }
-func (x *RawNebulaCertificateDetails) GetName() string {
+func (m *RawNebulaCertificateDetails) XXX_Unmarshal(b []byte) error {
-	if x != nil {
+	return xxx_messageInfo_RawNebulaCertificateDetails.Unmarshal(m, b)
-		return x.Name
+}
 func (m *RawNebulaCertificateDetails) XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {
 	return xxx_messageInfo_RawNebulaCertificateDetails.Marshal(b, m, deterministic)
 }
 func (m *RawNebulaCertificateDetails) XXX_Merge(src proto.Message) {
 	xxx_messageInfo_RawNebulaCertificateDetails.Merge(m, src)
 }
 func (m *RawNebulaCertificateDetails) XXX_Size() int {
 	return xxx_messageInfo_RawNebulaCertificateDetails.Size(m)
 }
 func (m *RawNebulaCertificateDetails) XXX_DiscardUnknown() {
 	xxx_messageInfo_RawNebulaCertificateDetails.DiscardUnknown(m)
 }
 var xxx_messageInfo_RawNebulaCertificateDetails proto.InternalMessageInfo
 func (m *RawNebulaCertificateDetails) GetName() string {
 	if m != nil {
 		return m.Name
 	}
 	return ""
 }
-func (x *RawNebulaCertificateDetails) GetIps() []uint32 {
+func (m *RawNebulaCertificateDetails) GetIps() []uint32 {
-	if x != nil {
+	if m != nil {
-		return x.Ips
+		return m.Ips
 	}
 	return nil
 }
-func (x *RawNebulaCertificateDetails) GetSubnets() []uint32 {
+func (m *RawNebulaCertificateDetails) GetSubnets() []uint32 {
-	if x != nil {
+	if m != nil {
-		return x.Subnets
+		return m.Subnets
 	}
 	return nil
 }
-func (x *RawNebulaCertificateDetails) GetGroups() []string {
+func (m *RawNebulaCertificateDetails) GetGroups() []string {
-	if x != nil {
+	if m != nil {
-		return x.Groups
+		return m.Groups
 	}
 	return nil
 }
-func (x *RawNebulaCertificateDetails) GetNotBefore() int64 {
+func (m *RawNebulaCertificateDetails) GetNotBefore() int64 {
-	if x != nil {
+	if m != nil {
-		return x.NotBefore
+		return m.NotBefore
 	}
 	return 0
 }
-func (x *RawNebulaCertificateDetails) GetNotAfter() int64 {
+func (m *RawNebulaCertificateDetails) GetNotAfter() int64 {
-	if x != nil {
+	if m != nil {
-		return x.NotAfter
+		return m.NotAfter
 	}
 	return 0
 }
-func (x *RawNebulaCertificateDetails) GetPublicKey() []byte {
+func (m *RawNebulaCertificateDetails) GetPublicKey() []byte {
-	if x != nil {
+	if m != nil {
-		return x.PublicKey
+		return m.PublicKey
 	}
 	return nil
 }
-func (x *RawNebulaCertificateDetails) GetIsCA() bool {
+func (m *RawNebulaCertificateDetails) GetIsCA() bool {
-	if x != nil {
+	if m != nil {
-		return x.IsCA
+		return m.IsCA
 	}
 	return false
 }
-func (x *RawNebulaCertificateDetails) GetIssuer() []byte {
+func (m *RawNebulaCertificateDetails) GetIssuer() []byte {
-	if x != nil {
+	if m != nil {
-		return x.Issuer
+		return m.Issuer
 	}
 	return nil
 }
-var File_cert_proto protoreflect.FileDescriptor
+func init() {
-
+	proto.RegisterType((*RawNebulaCertificate)(nil), "cert.RawNebulaCertificate")
-var file_cert_proto_rawDesc = []byte{
+	proto.RegisterType((*RawNebulaCertificateDetails)(nil), "cert.RawNebulaCertificateDetails")
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 	0x65, 0x72, 0x74, 0x62, 0x06, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x33,
 }
-var (
+func init() { proto.RegisterFile("cert.proto", fileDescriptor_a142e29cbef9b1cf) }
 	file_cert_proto_rawDescOnce sync.Once
 	file_cert_proto_rawDescData = file_cert_proto_rawDesc
 )
-func file_cert_proto_rawDescGZIP() []byte {
+var fileDescriptor_a142e29cbef9b1cf = []byte{
-	file_cert_proto_rawDescOnce.Do(func() {
+	// 279 bytes of a gzipped FileDescriptorProto
-		file_cert_proto_rawDescData = protoimpl.X.CompressGZIP(file_cert_proto_rawDescData)
+	0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0xff, 0x7c, 0x90, 0xcf, 0x4a, 0xf4, 0x30,
-	})
+	0x14, 0xc5, 0xc9, 0xa4, 0x5f, 0xdb, 0xe4, 0x53, 0x90, 0x20, 0x12, 0xd4, 0x45, 0x9c, 0x55, 0x56,
-	return file_cert_proto_rawDescData
+	0xb3, 0xd0, 0xa5, 0xab, 0x71, 0x04, 0x29, 0x42, 0x91, 0xcc, 0x13, 0xa4, 0xf5, 0x76, 0x08, 0x74,
-}
+	0x9a, 0x9a, 0x3f, 0x88, 0x8f, 0xee, 0x4e, 0x9a, 0x4e, 0x77, 0xe2, 0xee, 0x9e, 0x5f, 0xce, 0x49,
-
+	0x4e, 0x2e, 0xa5, 0x2d, 0xb8, 0xb0, 0x19, 0x9d, 0x0d, 0x96, 0x65, 0xd3, 0xbc, 0xfe, 0xa0, 0x97,
-var file_cert_proto_msgTypes = make([]protoimpl.MessageInfo, 2)
+	0x4a, 0x7f, 0xd6, 0xd0, 0xc4, 0x5e, 0xef, 0xc0, 0x05, 0xd3, 0x99, 0x56, 0x07, 0x60, 0x8f, 0xb4,
-var file_cert_proto_goTypes = []interface{}{
+	0x78, 0x86, 0xa0, 0x4d, 0xef, 0x39, 0x12, 0x48, 0xfe, 0xbf, 0xbf, 0xdb, 0xa4, 0xec, 0x6f, 0xe6,
-	(*RawNebulaCertificate)(nil),        // 0: cert.RawNebulaCertificate
+	0x93, 0x51, 0x15, 0xef, 0xf3, 0xc0, 0x6e, 0x29, 0xd9, 0x9b, 0xc3, 0xa0, 0x43, 0x74, 0xc0, 0x57,
-	(*RawNebulaCertificateDetails)(nil), // 1: cert.RawNebulaCertificateDetails
+	0x02, 0xc9, 0x33, 0x45, 0xfc, 0x02, 0xd6, 0xdf, 0x88, 0xde, 0xfc, 0x71, 0x0d, 0x63, 0x34, 0xab,
-}
+	0xf5, 0x11, 0xd2, 0xbb, 0x44, 0x65, 0x83, 0x3e, 0x02, 0xbb, 0xa0, 0xb8, 0x1a, 0x3d, 0x5f, 0x09,
-var file_cert_proto_depIdxs = []int32{
+	0x2c, 0xcf, 0x15, 0x36, 0xa3, 0x67, 0x9c, 0x16, 0xfb, 0xd8, 0x0c, 0x10, 0x3c, 0xc7, 0x89, 0x16,
-	1, // 0: cert.RawNebulaCertificate.Details:type_name -> cert.RawNebulaCertificateDetails
+	0x7e, 0x96, 0xec, 0x8a, 0xe6, 0x2f, 0xce, 0xc6, 0xd1, 0xf3, 0x4c, 0x60, 0x49, 0x54, 0x7e, 0x48,
-	1, // [1:1] is the sub-list for method output_type
+	0x6a, 0x6a, 0x55, 0xdb, 0xf0, 0x04, 0x9d, 0x75, 0xc0, 0xff, 0x09, 0x24, 0xb1, 0x22, 0xc3, 0x02,
-	1, // [1:1] is the sub-list for method input_type
+	0xd8, 0x35, 0x2d, 0x6b, 0x1b, 0xb6, 0x5d, 0x00, 0xc7, 0xf3, 0x74, 0x58, 0x0e, 0x27, 0x3d, 0x25,
-	1, // [1:1] is the sub-list for extension type_name
+	0xdf, 0x62, 0xd3, 0x9b, 0xf6, 0x15, 0xbe, 0x78, 0x31, 0xff, 0x67, 0x5c, 0xc0, 0xd4, 0xb7, 0xf2,
-	1, // [1:1] is the sub-list for extension extendee
+	0xbb, 0x2d, 0x2f, 0x05, 0x92, 0xa5, 0xca, 0x8c, 0xdf, 0x6d, 0xa7, 0x0e, 0x95, 0xf7, 0x11, 0x1c,
-	0, // [0:1] is the sub-list for field type_name
+	0x27, 0xc9, 0x9e, 0x9b, 0xa4, 0x9a, 0x3c, 0xed, 0xfe, 0xe1, 0x27, 0x00, 0x00, 0xff, 0xff, 0x2c,
-}
+	0xe3, 0x08, 0x37, 0x89, 0x01, 0x00, 0x00,
 func init() { file_cert_proto_init() }
 func file_cert_proto_init() {
 	if File_cert_proto != nil {
 		return
 	}
 	if !protoimpl.UnsafeEnabled {
 		file_cert_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} {
 			switch v := v.(*RawNebulaCertificate); i {
 			case 0:
 				return &v.state
 			case 1:
 				return &v.sizeCache
 			case 2:
 				return &v.unknownFields
 			default:
 				return nil
 			}
 		}
 		file_cert_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} {
 			switch v := v.(*RawNebulaCertificateDetails); i {
 			case 0:
 				return &v.state
 			case 1:
 				return &v.sizeCache
 			case 2:
 				return &v.unknownFields
 			default:
 				return nil
 			}
 		}
 	}
 	type x struct{}
 	out := protoimpl.TypeBuilder{
 		File: protoimpl.DescBuilder{
 			GoPackagePath: reflect.TypeOf(x{}).PkgPath(),
 			RawDescriptor: file_cert_proto_rawDesc,
 			NumEnums:      0,
 			NumMessages:   2,
 			NumExtensions: 0,
 			NumServices:   0,
 		},
 		GoTypes:           file_cert_proto_goTypes,
 		DependencyIndexes: file_cert_proto_depIdxs,
 		MessageInfos:      file_cert_proto_msgTypes,
 	}.Build()
 	File_cert_proto = out.File
 	file_cert_proto_rawDesc = nil
 	file_cert_proto_goTypes = nil
 	file_cert_proto_depIdxs = nil
 }
--- a/cert/cert.proto
+++ b/cert/cert.proto
@@ -1,8 +1,6 @@
 syntax = "proto3";
 package cert;
 option go_package = "github.com/slackhq/nebula/cert";
 //import "google/protobuf/timestamp.proto";
 message RawNebulaCertificate {
--- a/cert/cert_test.go
+++ b/cert/cert_test.go
@@ -9,7 +9,7 @@ import (
 	"time"
 	"github.com/golang/protobuf/proto"
-	"github.com/slackhq/nebula/test"
+	"github.com/slackhq/nebula/util"
 	"github.com/stretchr/testify/assert"
 	"golang.org/x/crypto/curve25519"
 	"golang.org/x/crypto/ed25519"
@@ -375,16 +375,9 @@ func TestNebulaCertificate_Verify_Subnets(t *testing.T) {
 	assert.Nil(t, err)
 }
-func TestNebulaCertificate_VerifyPrivateKey(t *testing.T) {
+func TestNebulaVerifyPrivateKey(t *testing.T) {
 	ca, _, caKey, err := newTestCaCert(time.Time{}, time.Time{}, []*net.IPNet{}, []*net.IPNet{}, []string{})
 	assert.Nil(t, err)
 	err = ca.VerifyPrivateKey(caKey)
 	assert.Nil(t, err)
 	_, _, caKey2, err := newTestCaCert(time.Time{}, time.Time{}, []*net.IPNet{}, []*net.IPNet{}, []string{})
 	assert.Nil(t, err)
 	err = ca.VerifyPrivateKey(caKey2)
 	assert.NotNil(t, err)
 	c, _, priv, err := newTestCert(ca, caKey, time.Time{}, time.Time{}, []*net.IPNet{}, []*net.IPNet{}, []string{})
 	err = c.VerifyPrivateKey(priv)
@@ -429,15 +422,6 @@ BVG+oJpAoqokUBbI4U0N8CSfpUABEkB/Pm5A2xyH/nc8mg/wvGUWG3pZ7nHzaDMf
 8/phAUt+FLzqTECzQKisYswKvE3pl9mbEYKbOdIHrxdIp95mo4sF
 -----END NEBULA CERTIFICATE-----
 `
 	expired := `
 # expired certificate
 -----BEGIN NEBULA CERTIFICATE-----
 CjkKB2V4cGlyZWQouPmWjQYwufmWjQY6ILCRaoCkJlqHgv5jfDN4lzLHBvDzaQm4
 vZxfu144hmgjQAESQG4qlnZi8DncvD/LDZnLgJHOaX1DWCHHEh59epVsC+BNgTie
 WH1M9n4O7cFtGlM6sJJOS+rCVVEJ3ABS7+MPdQs=
 -----END NEBULA CERTIFICATE-----
 `
 	rootCA := NebulaCertificate{
@@ -461,268 +445,6 @@ WH1M9n4O7cFtGlM6sJJOS+rCVVEJ3ABS7+MPdQs=
 	assert.Nil(t, err)
 	assert.Equal(t, pp.CAs[string("c9bfaf7ce8e84b2eeda2e27b469f4b9617bde192efd214b68891ecda6ed49522")].Details.Name, rootCA.Details.Name)
 	assert.Equal(t, pp.CAs[string("5c9c3f23e7ee7fe97637cbd3a0a5b854154d1d9aaaf7b566a51f4a88f76b64cd")].Details.Name, rootCA01.Details.Name)
 	// expired cert, no valid certs
 	ppp, err := NewCAPoolFromBytes([]byte(expired))
 	assert.Equal(t, ErrExpired, err)
 	assert.Equal(t, ppp.CAs[string("152070be6bb19bc9e3bde4c2f0e7d8f4ff5448b4c9856b8eccb314fade0229b0")].Details.Name, "expired")
 	// expired cert, with valid certs
 	pppp, err := NewCAPoolFromBytes(append([]byte(expired), noNewLines...))
 	assert.Equal(t, ErrExpired, err)
 	assert.Equal(t, pppp.CAs[string("c9bfaf7ce8e84b2eeda2e27b469f4b9617bde192efd214b68891ecda6ed49522")].Details.Name, rootCA.Details.Name)
 	assert.Equal(t, pppp.CAs[string("5c9c3f23e7ee7fe97637cbd3a0a5b854154d1d9aaaf7b566a51f4a88f76b64cd")].Details.Name, rootCA01.Details.Name)
 	assert.Equal(t, pppp.CAs[string("152070be6bb19bc9e3bde4c2f0e7d8f4ff5448b4c9856b8eccb314fade0229b0")].Details.Name, "expired")
 	assert.Equal(t, len(pppp.CAs), 3)
 }
 func appendByteSlices(b ...[]byte) []byte {
 	retSlice := []byte{}
 	for _, v := range b {
 		retSlice = append(retSlice, v...)
 	}
 	return retSlice
 }
 func TestUnmrshalCertPEM(t *testing.T) {
 	goodCert := []byte(`
 # A good cert
 -----BEGIN NEBULA CERTIFICATE-----
 CkAKDm5lYnVsYSByb290IGNhKJfap9AFMJfg1+YGOiCUQGByMuNRhIlQBOyzXWbL
 vcKBwDhov900phEfJ5DN3kABEkDCq5R8qBiu8sl54yVfgRcQXEDt3cHr8UTSLszv
 bzBEr00kERQxxTzTsH8cpYEgRoipvmExvg8WP8NdAJEYJosB
 -----END NEBULA CERTIFICATE-----
 `)
 	badBanner := []byte(`# A bad banner
 -----BEGIN NOT A NEBULA CERTIFICATE-----
 CkAKDm5lYnVsYSByb290IGNhKJfap9AFMJfg1+YGOiCUQGByMuNRhIlQBOyzXWbL
 vcKBwDhov900phEfJ5DN3kABEkDCq5R8qBiu8sl54yVfgRcQXEDt3cHr8UTSLszv
 bzBEr00kERQxxTzTsH8cpYEgRoipvmExvg8WP8NdAJEYJosB
 -----END NOT A NEBULA CERTIFICATE-----
 `)
 	invalidPem := []byte(`# Not a valid PEM format
 -BEGIN NEBULA CERTIFICATE-----
 CkAKDm5lYnVsYSByb290IGNhKJfap9AFMJfg1+YGOiCUQGByMuNRhIlQBOyzXWbL
 vcKBwDhov900phEfJ5DN3kABEkDCq5R8qBiu8sl54yVfgRcQXEDt3cHr8UTSLszv
 bzBEr00kERQxxTzTsH8cpYEgRoipvmExvg8WP8NdAJEYJosB
 -END NEBULA CERTIFICATE----`)
 	certBundle := appendByteSlices(goodCert, badBanner, invalidPem)
 	// Success test case
 	cert, rest, err := UnmarshalNebulaCertificateFromPEM(certBundle)
 	assert.NotNil(t, cert)
 	assert.Equal(t, rest, append(badBanner, invalidPem...))
 	assert.Nil(t, err)
 	// Fail due to invalid banner.
 	cert, rest, err = UnmarshalNebulaCertificateFromPEM(rest)
 	assert.Nil(t, cert)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "bytes did not contain a proper nebula certificate banner")
 	// Fail due to ivalid PEM format, because
 	// it's missing the requisite pre-encapsulation boundary.
 	cert, rest, err = UnmarshalNebulaCertificateFromPEM(rest)
 	assert.Nil(t, cert)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "input did not contain a valid PEM encoded block")
 }
 func TestUnmarshalEd25519PrivateKey(t *testing.T) {
 	privKey := []byte(`# A good key
 -----BEGIN NEBULA ED25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -----END NEBULA ED25519 PRIVATE KEY-----
 `)
 	shortKey := []byte(`# A short key
 -----BEGIN NEBULA ED25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
 -----END NEBULA ED25519 PRIVATE KEY-----
 `)
 	invalidBanner := []byte(`# Invalid banner
 -----BEGIN NOT A NEBULA PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -----END NOT A NEBULA PRIVATE KEY-----
 `)
 	invalidPem := []byte(`# Not a valid PEM format
 -BEGIN NEBULA ED25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -END NEBULA ED25519 PRIVATE KEY-----`)
 	keyBundle := appendByteSlices(privKey, shortKey, invalidBanner, invalidPem)
 	// Success test case
 	k, rest, err := UnmarshalEd25519PrivateKey(keyBundle)
 	assert.Len(t, k, 64)
 	assert.Equal(t, rest, appendByteSlices(shortKey, invalidBanner, invalidPem))
 	assert.Nil(t, err)
 	// Fail due to short key
 	k, rest, err = UnmarshalEd25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, appendByteSlices(invalidBanner, invalidPem))
 	assert.EqualError(t, err, "key was not 64 bytes, is invalid ed25519 private key")
 	// Fail due to invalid banner
 	k, rest, err = UnmarshalEd25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "bytes did not contain a proper nebula Ed25519 private key banner")
 	// Fail due to ivalid PEM format, because
 	// it's missing the requisite pre-encapsulation boundary.
 	k, rest, err = UnmarshalEd25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "input did not contain a valid PEM encoded block")
 }
 func TestUnmarshalX25519PrivateKey(t *testing.T) {
 	privKey := []byte(`# A good key
 -----BEGIN NEBULA X25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NEBULA X25519 PRIVATE KEY-----
 `)
 	shortKey := []byte(`# A short key
 -----BEGIN NEBULA X25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -----END NEBULA X25519 PRIVATE KEY-----
 `)
 	invalidBanner := []byte(`# Invalid banner
 -----BEGIN NOT A NEBULA PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NOT A NEBULA PRIVATE KEY-----
 `)
 	invalidPem := []byte(`# Not a valid PEM format
 -BEGIN NEBULA X25519 PRIVATE KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -END NEBULA X25519 PRIVATE KEY-----`)
 	keyBundle := appendByteSlices(privKey, shortKey, invalidBanner, invalidPem)
 	// Success test case
 	k, rest, err := UnmarshalX25519PrivateKey(keyBundle)
 	assert.Len(t, k, 32)
 	assert.Equal(t, rest, appendByteSlices(shortKey, invalidBanner, invalidPem))
 	assert.Nil(t, err)
 	// Fail due to short key
 	k, rest, err = UnmarshalX25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, appendByteSlices(invalidBanner, invalidPem))
 	assert.EqualError(t, err, "key was not 32 bytes, is invalid X25519 private key")
 	// Fail due to invalid banner
 	k, rest, err = UnmarshalX25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "bytes did not contain a proper nebula X25519 private key banner")
 	// Fail due to ivalid PEM format, because
 	// it's missing the requisite pre-encapsulation boundary.
 	k, rest, err = UnmarshalX25519PrivateKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "input did not contain a valid PEM encoded block")
 }
 func TestUnmarshalEd25519PublicKey(t *testing.T) {
 	pubKey := []byte(`# A good key
 -----BEGIN NEBULA ED25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NEBULA ED25519 PUBLIC KEY-----
 `)
 	shortKey := []byte(`# A short key
 -----BEGIN NEBULA ED25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -----END NEBULA ED25519 PUBLIC KEY-----
 `)
 	invalidBanner := []byte(`# Invalid banner
 -----BEGIN NOT A NEBULA PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NOT A NEBULA PUBLIC KEY-----
 `)
 	invalidPem := []byte(`# Not a valid PEM format
 -BEGIN NEBULA ED25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -END NEBULA ED25519 PUBLIC KEY-----`)
 	keyBundle := appendByteSlices(pubKey, shortKey, invalidBanner, invalidPem)
 	// Success test case
 	k, rest, err := UnmarshalEd25519PublicKey(keyBundle)
 	assert.Equal(t, len(k), 32)
 	assert.Nil(t, err)
 	assert.Equal(t, rest, appendByteSlices(shortKey, invalidBanner, invalidPem))
 	// Fail due to short key
 	k, rest, err = UnmarshalEd25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, appendByteSlices(invalidBanner, invalidPem))
 	assert.EqualError(t, err, "key was not 32 bytes, is invalid ed25519 public key")
 	// Fail due to invalid banner
 	k, rest, err = UnmarshalEd25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.EqualError(t, err, "bytes did not contain a proper nebula Ed25519 public key banner")
 	assert.Equal(t, rest, invalidPem)
 	// Fail due to ivalid PEM format, because
 	// it's missing the requisite pre-encapsulation boundary.
 	k, rest, err = UnmarshalEd25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "input did not contain a valid PEM encoded block")
 }
 func TestUnmarshalX25519PublicKey(t *testing.T) {
 	pubKey := []byte(`# A good key
 -----BEGIN NEBULA X25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NEBULA X25519 PUBLIC KEY-----
 `)
 	shortKey := []byte(`# A short key
 -----BEGIN NEBULA X25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA==
 -----END NEBULA X25519 PUBLIC KEY-----
 `)
 	invalidBanner := []byte(`# Invalid banner
 -----BEGIN NOT A NEBULA PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -----END NOT A NEBULA PUBLIC KEY-----
 `)
 	invalidPem := []byte(`# Not a valid PEM format
 -BEGIN NEBULA X25519 PUBLIC KEY-----
 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
 -END NEBULA X25519 PUBLIC KEY-----`)
 	keyBundle := appendByteSlices(pubKey, shortKey, invalidBanner, invalidPem)
 	// Success test case
 	k, rest, err := UnmarshalX25519PublicKey(keyBundle)
 	assert.Equal(t, len(k), 32)
 	assert.Nil(t, err)
 	assert.Equal(t, rest, appendByteSlices(shortKey, invalidBanner, invalidPem))
 	// Fail due to short key
 	k, rest, err = UnmarshalX25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, appendByteSlices(invalidBanner, invalidPem))
 	assert.EqualError(t, err, "key was not 32 bytes, is invalid X25519 public key")
 	// Fail due to invalid banner
 	k, rest, err = UnmarshalX25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.EqualError(t, err, "bytes did not contain a proper nebula X25519 public key banner")
 	assert.Equal(t, rest, invalidPem)
 	// Fail due to ivalid PEM format, because
 	// it's missing the requisite pre-encapsulation boundary.
 	k, rest, err = UnmarshalX25519PublicKey(rest)
 	assert.Nil(t, k)
 	assert.Equal(t, rest, invalidPem)
 	assert.EqualError(t, err, "input did not contain a valid PEM encoded block")
 }
 // Ensure that upgrading the protobuf library does not change how certificates
@@ -774,14 +496,7 @@ func TestNebulaCertificate_Copy(t *testing.T) {
 	assert.Nil(t, err)
 	cc := c.Copy()
-	test.AssertDeepCopyEqual(t, c, cc)
+	util.AssertDeepCopyEqual(t, c, cc)
 }
 func TestUnmarshalNebulaCertificate(t *testing.T) {
 	// Test that we don't panic with an invalid certificate (#332)
 	data := []byte("\x98\x00\x00")
 	_, err := UnmarshalNebulaCertificate(data)
 	assert.EqualError(t, err, "encoded Details was nil")
 }
 func newTestCaCert(before, after time.Time, ips, subnets []*net.IPNet, groups []string) (*NebulaCertificate, []byte, []byte, error) {
@@ -882,15 +597,10 @@ func newTestCert(ca *NebulaCertificate, key []byte, before, after time.Time, ips
 }
 func x25519Keypair() ([]byte, []byte) {
-	privkey := make([]byte, 32)
+	var pubkey, privkey [32]byte
-	if _, err := io.ReadFull(rand.Reader, privkey); err != nil {
+	if _, err := io.ReadFull(rand.Reader, privkey[:]); err != nil {
 		panic(err)
 	}
-
+	curve25519.ScalarBaseMult(&pubkey, &privkey)
-	pubkey, err := curve25519.X25519(privkey, curve25519.Basepoint)
+	return pubkey[:], privkey[:]
 	if err != nil {
 		panic(err)
 	}
 	return pubkey, privkey
 }
--- a/cert/errors.go
+++ b/cert/errors.go
@@ -1,9 +0,0 @@
 package cert
 import "errors"
 var (
 	ErrExpired       = errors.New("certificate is expired")
 	ErrNotCA         = errors.New("certificate is not a CA")
 	ErrNotSelfSigned = errors.New("certificate is not self-signed")
 )
--- a/cidr/parse.go
+++ b/cidr/parse.go
@@ -1,10 +0,0 @@
 package cidr
 import "net"
 // Parse is a convenience function that returns only the IPNet
 // This function ignores errors since it is primarily a test helper, the result could be nil
 func Parse(s string) *net.IPNet {
 	_, c, _ := net.ParseCIDR(s)
 	return c
 }
--- a/cidr/tree4_test.go
+++ b/cidr/tree4_test.go
@@ -1,153 +0,0 @@
 package cidr
 import (
 	"net"
 	"testing"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/stretchr/testify/assert"
 )
 func TestCIDRTree_Contains(t *testing.T) {
 	tree := NewTree4()
 	tree.AddCIDR(Parse("1.0.0.0/8"), "1")
 	tree.AddCIDR(Parse("2.1.0.0/16"), "2")
 	tree.AddCIDR(Parse("3.1.1.0/24"), "3")
 	tree.AddCIDR(Parse("4.1.1.0/24"), "4a")
 	tree.AddCIDR(Parse("4.1.1.1/32"), "4b")
 	tree.AddCIDR(Parse("4.1.2.1/32"), "4c")
 	tree.AddCIDR(Parse("254.0.0.0/4"), "5")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1", "1.0.0.0"},
 		{"1", "1.255.255.255"},
 		{"2", "2.1.0.0"},
 		{"2", "2.1.255.255"},
 		{"3", "3.1.1.0"},
 		{"3", "3.1.1.255"},
 		{"4a", "4.1.1.255"},
 		{"4a", "4.1.1.1"},
 		{"5", "240.0.0.0"},
 		{"5", "255.255.255.255"},
 		{nil, "239.0.0.0"},
 		{nil, "4.1.2.2"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.Contains(iputil.Ip2VpnIp(net.ParseIP(tt.IP))))
 	}
 	tree = NewTree4()
 	tree.AddCIDR(Parse("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.Contains(iputil.Ip2VpnIp(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.Contains(iputil.Ip2VpnIp(net.ParseIP("255.255.255.255"))))
 }
 func TestCIDRTree_MostSpecificContains(t *testing.T) {
 	tree := NewTree4()
 	tree.AddCIDR(Parse("1.0.0.0/8"), "1")
 	tree.AddCIDR(Parse("2.1.0.0/16"), "2")
 	tree.AddCIDR(Parse("3.1.1.0/24"), "3")
 	tree.AddCIDR(Parse("4.1.1.0/24"), "4a")
 	tree.AddCIDR(Parse("4.1.1.0/30"), "4b")
 	tree.AddCIDR(Parse("4.1.1.1/32"), "4c")
 	tree.AddCIDR(Parse("254.0.0.0/4"), "5")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1", "1.0.0.0"},
 		{"1", "1.255.255.255"},
 		{"2", "2.1.0.0"},
 		{"2", "2.1.255.255"},
 		{"3", "3.1.1.0"},
 		{"3", "3.1.1.255"},
 		{"4a", "4.1.1.255"},
 		{"4b", "4.1.1.2"},
 		{"4c", "4.1.1.1"},
 		{"5", "240.0.0.0"},
 		{"5", "255.255.255.255"},
 		{nil, "239.0.0.0"},
 		{nil, "4.1.2.2"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.MostSpecificContains(iputil.Ip2VpnIp(net.ParseIP(tt.IP))))
 	}
 	tree = NewTree4()
 	tree.AddCIDR(Parse("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.MostSpecificContains(iputil.Ip2VpnIp(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.MostSpecificContains(iputil.Ip2VpnIp(net.ParseIP("255.255.255.255"))))
 }
 func TestCIDRTree_Match(t *testing.T) {
 	tree := NewTree4()
 	tree.AddCIDR(Parse("4.1.1.0/32"), "1a")
 	tree.AddCIDR(Parse("4.1.1.1/32"), "1b")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1a", "4.1.1.0"},
 		{"1b", "4.1.1.1"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.Match(iputil.Ip2VpnIp(net.ParseIP(tt.IP))))
 	}
 	tree = NewTree4()
 	tree.AddCIDR(Parse("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.Contains(iputil.Ip2VpnIp(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.Contains(iputil.Ip2VpnIp(net.ParseIP("255.255.255.255"))))
 }
 func BenchmarkCIDRTree_Contains(b *testing.B) {
 	tree := NewTree4()
 	tree.AddCIDR(Parse("1.1.0.0/16"), "1")
 	tree.AddCIDR(Parse("1.2.1.1/32"), "1")
 	tree.AddCIDR(Parse("192.2.1.1/32"), "1")
 	tree.AddCIDR(Parse("172.2.1.1/32"), "1")
 	ip := iputil.Ip2VpnIp(net.ParseIP("1.2.1.1"))
 	b.Run("found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Contains(ip)
 		}
 	})
 	ip = iputil.Ip2VpnIp(net.ParseIP("1.2.1.255"))
 	b.Run("not found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Contains(ip)
 		}
 	})
 }
 func BenchmarkCIDRTree_Match(b *testing.B) {
 	tree := NewTree4()
 	tree.AddCIDR(Parse("1.1.0.0/16"), "1")
 	tree.AddCIDR(Parse("1.2.1.1/32"), "1")
 	tree.AddCIDR(Parse("192.2.1.1/32"), "1")
 	tree.AddCIDR(Parse("172.2.1.1/32"), "1")
 	ip := iputil.Ip2VpnIp(net.ParseIP("1.2.1.1"))
 	b.Run("found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Match(ip)
 		}
 	})
 	ip = iputil.Ip2VpnIp(net.ParseIP("1.2.1.255"))
 	b.Run("not found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Match(ip)
 		}
 	})
 }
--- a/cidr/tree6.go
+++ b/cidr/tree6.go
@@ -1,185 +0,0 @@
 package cidr
 import (
 	"net"
 	"github.com/slackhq/nebula/iputil"
 )
 const startbit6 = uint64(1 << 63)
 type Tree6 struct {
 	root4 *Node
 	root6 *Node
 }
 func NewTree6() *Tree6 {
 	tree := new(Tree6)
 	tree.root4 = &Node{}
 	tree.root6 = &Node{}
 	return tree
 }
 func (tree *Tree6) AddCIDR(cidr *net.IPNet, val interface{}) {
 	var node, next *Node
 	cidrIP, ipv4 := isIPV4(cidr.IP)
 	if ipv4 {
 		node = tree.root4
 		next = tree.root4
 	} else {
 		node = tree.root6
 		next = tree.root6
 	}
 	for i := 0; i < len(cidrIP); i += 4 {
 		ip := iputil.Ip2VpnIp(cidrIP[i : i+4])
 		mask := iputil.Ip2VpnIp(cidr.Mask[i : i+4])
 		bit := startbit
 		// Find our last ancestor in the tree
 		for bit&mask != 0 {
 			if ip&bit != 0 {
 				next = node.right
 			} else {
 				next = node.left
 			}
 			if next == nil {
 				break
 			}
 			bit = bit >> 1
 			node = next
 		}
 		// Build up the rest of the tree we don't already have
 		for bit&mask != 0 {
 			next = &Node{}
 			next.parent = node
 			if ip&bit != 0 {
 				node.right = next
 			} else {
 				node.left = next
 			}
 			bit >>= 1
 			node = next
 		}
 	}
 	// Final node marks our cidr, set the value
 	node.value = val
 }
 // Finds the most specific match
 func (tree *Tree6) MostSpecificContains(ip net.IP) (value interface{}) {
 	var node *Node
 	wholeIP, ipv4 := isIPV4(ip)
 	if ipv4 {
 		node = tree.root4
 	} else {
 		node = tree.root6
 	}
 	for i := 0; i < len(wholeIP); i += 4 {
 		ip := iputil.Ip2VpnIp(wholeIP[i : i+4])
 		bit := startbit
 		for node != nil {
 			if node.value != nil {
 				value = node.value
 			}
 			if bit == 0 {
 				break
 			}
 			if ip&bit != 0 {
 				node = node.right
 			} else {
 				node = node.left
 			}
 			bit >>= 1
 		}
 	}
 	return value
 }
 func (tree *Tree6) MostSpecificContainsIpV4(ip iputil.VpnIp) (value interface{}) {
 	bit := startbit
 	node := tree.root4
 	for node != nil {
 		if node.value != nil {
 			value = node.value
 		}
 		if ip&bit != 0 {
 			node = node.right
 		} else {
 			node = node.left
 		}
 		bit >>= 1
 	}
 	return value
 }
 func (tree *Tree6) MostSpecificContainsIpV6(hi, lo uint64) (value interface{}) {
 	ip := hi
 	node := tree.root6
 	for i := 0; i < 2; i++ {
 		bit := startbit6
 		for node != nil {
 			if node.value != nil {
 				value = node.value
 			}
 			if bit == 0 {
 				break
 			}
 			if ip&bit != 0 {
 				node = node.right
 			} else {
 				node = node.left
 			}
 			bit >>= 1
 		}
 		ip = lo
 	}
 	return value
 }
 func isIPV4(ip net.IP) (net.IP, bool) {
 	if len(ip) == net.IPv4len {
 		return ip, true
 	}
 	if len(ip) == net.IPv6len && isZeros(ip[0:10]) && ip[10] == 0xff && ip[11] == 0xff {
 		return ip[12:16], true
 	}
 	return ip, false
 }
 func isZeros(p net.IP) bool {
 	for i := 0; i < len(p); i++ {
 		if p[i] != 0 {
 			return false
 		}
 	}
 	return true
 }
--- a/cidr/tree6_test.go
+++ b/cidr/tree6_test.go
@@ -1,81 +0,0 @@
 package cidr
 import (
 	"encoding/binary"
 	"net"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 func TestCIDR6Tree_MostSpecificContains(t *testing.T) {
 	tree := NewTree6()
 	tree.AddCIDR(Parse("1.0.0.0/8"), "1")
 	tree.AddCIDR(Parse("2.1.0.0/16"), "2")
 	tree.AddCIDR(Parse("3.1.1.0/24"), "3")
 	tree.AddCIDR(Parse("4.1.1.1/24"), "4a")
 	tree.AddCIDR(Parse("4.1.1.1/30"), "4b")
 	tree.AddCIDR(Parse("4.1.1.1/32"), "4c")
 	tree.AddCIDR(Parse("254.0.0.0/4"), "5")
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/64"), "6a")
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/80"), "6b")
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/96"), "6c")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1", "1.0.0.0"},
 		{"1", "1.255.255.255"},
 		{"2", "2.1.0.0"},
 		{"2", "2.1.255.255"},
 		{"3", "3.1.1.0"},
 		{"3", "3.1.1.255"},
 		{"4a", "4.1.1.255"},
 		{"4b", "4.1.1.2"},
 		{"4c", "4.1.1.1"},
 		{"5", "240.0.0.0"},
 		{"5", "255.255.255.255"},
 		{"6a", "1:2:0:4:1:1:1:1"},
 		{"6b", "1:2:0:4:5:1:1:1"},
 		{"6c", "1:2:0:4:5:0:0:0"},
 		{nil, "239.0.0.0"},
 		{nil, "4.1.2.2"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.MostSpecificContains(net.ParseIP(tt.IP)))
 	}
 	tree = NewTree6()
 	tree.AddCIDR(Parse("1.1.1.1/0"), "cool")
 	tree.AddCIDR(Parse("::/0"), "cool6")
 	assert.Equal(t, "cool", tree.MostSpecificContains(net.ParseIP("0.0.0.0")))
 	assert.Equal(t, "cool", tree.MostSpecificContains(net.ParseIP("255.255.255.255")))
 	assert.Equal(t, "cool6", tree.MostSpecificContains(net.ParseIP("::")))
 	assert.Equal(t, "cool6", tree.MostSpecificContains(net.ParseIP("1:2:3:4:5:6:7:8")))
 }
 func TestCIDR6Tree_MostSpecificContainsIpV6(t *testing.T) {
 	tree := NewTree6()
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/64"), "6a")
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/80"), "6b")
 	tree.AddCIDR(Parse("1:2:0:4:5:0:0:0/96"), "6c")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"6a", "1:2:0:4:1:1:1:1"},
 		{"6b", "1:2:0:4:5:1:1:1"},
 		{"6c", "1:2:0:4:5:0:0:0"},
 	}
 	for _, tt := range tests {
 		ip := net.ParseIP(tt.IP)
 		hi := binary.BigEndian.Uint64(ip[:8])
 		lo := binary.BigEndian.Uint64(ip[8:])
 		assert.Equal(t, tt.Result, tree.MostSpecificContainsIpV6(hi, lo))
 	}
 }
--- a/cidr_radix.go
+++ b/cidr_radix.go
@@ -1,39 +1,39 @@
-package cidr
+package nebula
 import (
 	"encoding/binary"
 	"fmt"
 	"net"
 	"github.com/slackhq/nebula/iputil"
 )
-type Node struct {
+type CIDRNode struct {
-	left   *Node
+	left   *CIDRNode
-	right  *Node
+	right  *CIDRNode
-	parent *Node
+	parent *CIDRNode
 	value  interface{}
 }
-type Tree4 struct {
+type CIDRTree struct {
-	root *Node
+	root *CIDRNode
 }
 const (
-	startbit = iputil.VpnIp(0x80000000)
+	startbit = uint32(0x80000000)
 )
-func NewTree4() *Tree4 {
+func NewCIDRTree() *CIDRTree {
-	tree := new(Tree4)
+	tree := new(CIDRTree)
-	tree.root = &Node{}
+	tree.root = &CIDRNode{}
 	return tree
 }
-func (tree *Tree4) AddCIDR(cidr *net.IPNet, val interface{}) {
+func (tree *CIDRTree) AddCIDR(cidr *net.IPNet, val interface{}) {
 	bit := startbit
 	node := tree.root
 	next := tree.root
-	ip := iputil.Ip2VpnIp(cidr.IP)
+	ip := ip2int(cidr.IP)
-	mask := iputil.Ip2VpnIp(cidr.Mask)
+	mask := ip2int(cidr.Mask)
 	// Find our last ancestor in the tree
 	for bit&mask != 0 {
@@ -59,7 +59,7 @@ func (tree *Tree4) AddCIDR(cidr *net.IPNet, val interface{}) {
 	// Build up the rest of the tree we don't already have
 	for bit&mask != 0 {
-		next = &Node{}
+		next = &CIDRNode{}
 		next.parent = node
 		if ip&bit != 0 {
@@ -76,8 +76,8 @@ func (tree *Tree4) AddCIDR(cidr *net.IPNet, val interface{}) {
 	node.value = val
 }
-// Finds the first match, which may be the least specific
+// Finds the first match, which way be the least specific
-func (tree *Tree4) Contains(ip iputil.VpnIp) (value interface{}) {
+func (tree *CIDRTree) Contains(ip uint32) (value interface{}) {
 	bit := startbit
 	node := tree.root
@@ -100,7 +100,7 @@ func (tree *Tree4) Contains(ip iputil.VpnIp) (value interface{}) {
 }
 // Finds the most specific match
-func (tree *Tree4) MostSpecificContains(ip iputil.VpnIp) (value interface{}) {
+func (tree *CIDRTree) MostSpecificContains(ip uint32) (value interface{}) {
 	bit := startbit
 	node := tree.root
@@ -116,13 +116,14 @@ func (tree *Tree4) MostSpecificContains(ip iputil.VpnIp) (value interface{}) {
 		}
 		bit >>= 1
 	}
 	return value
 }
 // Finds the most specific match
-func (tree *Tree4) Match(ip iputil.VpnIp) (value interface{}) {
+func (tree *CIDRTree) Match(ip uint32) (value interface{}) {
 	bit := startbit
 	node := tree.root
 	lastNode := node
@@ -143,3 +144,27 @@ func (tree *Tree4) Match(ip iputil.VpnIp) (value interface{}) {
 	}
 	return value
 }
 // A helper type to avoid converting to IP when logging
 type IntIp uint32
 func (ip IntIp) String() string {
 	return fmt.Sprintf("%v", int2ip(uint32(ip)))
 }
 func (ip IntIp) MarshalJSON() ([]byte, error) {
 	return []byte(fmt.Sprintf("\"%s\"", int2ip(uint32(ip)).String())), nil
 }
 func ip2int(ip []byte) uint32 {
 	if len(ip) == 16 {
 		return binary.BigEndian.Uint32(ip[12:16])
 	}
 	return binary.BigEndian.Uint32(ip)
 }
 func int2ip(nn uint32) net.IP {
 	ip := make(net.IP, 4)
 	binary.BigEndian.PutUint32(ip, nn)
 	return ip
 }
--- a/cidr_radix_test.go
+++ b/cidr_radix_test.go
@@ -0,0 +1,157 @@
 package nebula
 import (
 	"net"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 func TestCIDRTree_Contains(t *testing.T) {
 	tree := NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.0.0.0/8"), "1")
 	tree.AddCIDR(getCIDR("2.1.0.0/16"), "2")
 	tree.AddCIDR(getCIDR("3.1.1.0/24"), "3")
 	tree.AddCIDR(getCIDR("4.1.1.0/24"), "4a")
 	tree.AddCIDR(getCIDR("4.1.1.1/32"), "4b")
 	tree.AddCIDR(getCIDR("4.1.2.1/32"), "4c")
 	tree.AddCIDR(getCIDR("254.0.0.0/4"), "5")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1", "1.0.0.0"},
 		{"1", "1.255.255.255"},
 		{"2", "2.1.0.0"},
 		{"2", "2.1.255.255"},
 		{"3", "3.1.1.0"},
 		{"3", "3.1.1.255"},
 		{"4a", "4.1.1.255"},
 		{"4a", "4.1.1.1"},
 		{"5", "240.0.0.0"},
 		{"5", "255.255.255.255"},
 		{nil, "239.0.0.0"},
 		{nil, "4.1.2.2"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.Contains(ip2int(net.ParseIP(tt.IP))))
 	}
 	tree = NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.Contains(ip2int(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.Contains(ip2int(net.ParseIP("255.255.255.255"))))
 }
 func TestCIDRTree_MostSpecificContains(t *testing.T) {
 	tree := NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.0.0.0/8"), "1")
 	tree.AddCIDR(getCIDR("2.1.0.0/16"), "2")
 	tree.AddCIDR(getCIDR("3.1.1.0/24"), "3")
 	tree.AddCIDR(getCIDR("4.1.1.0/24"), "4a")
 	tree.AddCIDR(getCIDR("4.1.1.0/30"), "4b")
 	tree.AddCIDR(getCIDR("4.1.1.1/32"), "4c")
 	tree.AddCIDR(getCIDR("254.0.0.0/4"), "5")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1", "1.0.0.0"},
 		{"1", "1.255.255.255"},
 		{"2", "2.1.0.0"},
 		{"2", "2.1.255.255"},
 		{"3", "3.1.1.0"},
 		{"3", "3.1.1.255"},
 		{"4a", "4.1.1.255"},
 		{"4b", "4.1.1.2"},
 		{"4c", "4.1.1.1"},
 		{"5", "240.0.0.0"},
 		{"5", "255.255.255.255"},
 		{nil, "239.0.0.0"},
 		{nil, "4.1.2.2"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.MostSpecificContains(ip2int(net.ParseIP(tt.IP))))
 	}
 	tree = NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.MostSpecificContains(ip2int(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.MostSpecificContains(ip2int(net.ParseIP("255.255.255.255"))))
 }
 func TestCIDRTree_Match(t *testing.T) {
 	tree := NewCIDRTree()
 	tree.AddCIDR(getCIDR("4.1.1.0/32"), "1a")
 	tree.AddCIDR(getCIDR("4.1.1.1/32"), "1b")
 	tests := []struct {
 		Result interface{}
 		IP     string
 	}{
 		{"1a", "4.1.1.0"},
 		{"1b", "4.1.1.1"},
 	}
 	for _, tt := range tests {
 		assert.Equal(t, tt.Result, tree.Match(ip2int(net.ParseIP(tt.IP))))
 	}
 	tree = NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.1.1.1/0"), "cool")
 	assert.Equal(t, "cool", tree.Contains(ip2int(net.ParseIP("0.0.0.0"))))
 	assert.Equal(t, "cool", tree.Contains(ip2int(net.ParseIP("255.255.255.255"))))
 }
 func BenchmarkCIDRTree_Contains(b *testing.B) {
 	tree := NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.1.0.0/16"), "1")
 	tree.AddCIDR(getCIDR("1.2.1.1/32"), "1")
 	tree.AddCIDR(getCIDR("192.2.1.1/32"), "1")
 	tree.AddCIDR(getCIDR("172.2.1.1/32"), "1")
 	ip := ip2int(net.ParseIP("1.2.1.1"))
 	b.Run("found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Contains(ip)
 		}
 	})
 	ip = ip2int(net.ParseIP("1.2.1.255"))
 	b.Run("not found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Contains(ip)
 		}
 	})
 }
 func BenchmarkCIDRTree_Match(b *testing.B) {
 	tree := NewCIDRTree()
 	tree.AddCIDR(getCIDR("1.1.0.0/16"), "1")
 	tree.AddCIDR(getCIDR("1.2.1.1/32"), "1")
 	tree.AddCIDR(getCIDR("192.2.1.1/32"), "1")
 	tree.AddCIDR(getCIDR("172.2.1.1/32"), "1")
 	ip := ip2int(net.ParseIP("1.2.1.1"))
 	b.Run("found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Match(ip)
 		}
 	})
 	ip = ip2int(net.ParseIP("1.2.1.255"))
 	b.Run("not found", func(b *testing.B) {
 		for i := 0; i < b.N; i++ {
 			tree.Match(ip)
 		}
 	})
 }
 func getCIDR(s string) *net.IPNet {
 	_, c, _ := net.ParseCIDR(s)
 	return c
 }
--- a/cmd/nebula-cert/ca.go
+++ b/cmd/nebula-cert/ca.go
@@ -11,7 +11,6 @@ import (
 	"strings"
 	"time"
 	"github.com/skip2/go-qrcode"
 	"github.com/slackhq/nebula/cert"
 	"golang.org/x/crypto/ed25519"
 )
@@ -22,7 +21,6 @@ type caFlags struct {
 	duration    *time.Duration
 	outKeyPath  *string
 	outCertPath *string
 	outQRPath   *string
 	groups      *string
 	ips         *string
 	subnets     *string
@@ -35,10 +33,9 @@ func newCaFlags() *caFlags {
 	cf.duration = cf.set.Duration("duration", time.Duration(time.Hour*8760), "Optional: amount of time the certificate should be valid for. Valid time units are seconds: \"s\", minutes: \"m\", hours: \"h\"")
 	cf.outKeyPath = cf.set.String("out-key", "ca.key", "Optional: path to write the private key to")
 	cf.outCertPath = cf.set.String("out-crt", "ca.crt", "Optional: path to write the certificate to")
 	cf.outQRPath = cf.set.String("out-qr", "", "Optional: output a qr code image (png) of the certificate")
 	cf.groups = cf.set.String("groups", "", "Optional: comma separated list of groups. This will limit which groups subordinate certs can use")
-	cf.ips = cf.set.String("ips", "", "Optional: comma separated list of ipv4 address and network in CIDR notation. This will limit which ipv4 addresses and networks subordinate certs can use for ip addresses")
+	cf.ips = cf.set.String("ips", "", "Optional: comma separated list of ip and network in CIDR notation. This will limit which ip addresses and networks subordinate certs can use")
-	cf.subnets = cf.set.String("subnets", "", "Optional: comma separated list of ipv4 address and network in CIDR notation. This will limit which ipv4 addresses and networks subordinate certs can use in subnets")
+	cf.subnets = cf.set.String("subnets", "", "Optional: comma separated list of ip and network in CIDR notation. This will limit which subnet addresses and networks subordinate certs can use")
 	return &cf
 }
@@ -82,9 +79,6 @@ func ca(args []string, out io.Writer, errOut io.Writer) error {
 				if err != nil {
 					return newHelpErrorf("invalid ip definition: %s", err)
 				}
 				if ip.To4() == nil {
 					return newHelpErrorf("invalid ip definition: can only be ipv4, have %s", rs)
 				}
 				ipNet.IP = ip
 				ips = append(ips, ipNet)
@@ -101,9 +95,6 @@ func ca(args []string, out io.Writer, errOut io.Writer) error {
 				if err != nil {
 					return newHelpErrorf("invalid subnet definition: %s", err)
 				}
 				if s.IP.To4() == nil {
 					return newHelpErrorf("invalid subnet definition: can only be ipv4, have %s", rs)
 				}
 				subnets = append(subnets, s)
 			}
 		}
@@ -155,18 +146,6 @@ func ca(args []string, out io.Writer, errOut io.Writer) error {
 		return fmt.Errorf("error while writing out-crt: %s", err)
 	}
 	if *cf.outQRPath != "" {
 		b, err = qrcode.Encode(string(b), qrcode.Medium, -5)
 		if err != nil {
 			return fmt.Errorf("error while generating qr code: %s", err)
 		}
 		err = ioutil.WriteFile(*cf.outQRPath, b, 0600)
 		if err != nil {
 			return fmt.Errorf("error while writing out-qr: %s", err)
 		}
 	}
 	return nil
 }
--- a/cmd/nebula-cert/ca_test.go
+++ b/cmd/nebula-cert/ca_test.go
@@ -1,4 +1,3 @@
 //go:build !windows
 // +build !windows
 package main
@@ -31,17 +30,15 @@ func Test_caHelp(t *testing.T) {
 			"  -groups string\n"+
 			"    \tOptional: comma separated list of groups. This will limit which groups subordinate certs can use\n"+
 			"  -ips string\n"+
-			"    \tOptional: comma separated list of ipv4 address and network in CIDR notation. This will limit which ipv4 addresses and networks subordinate certs can use for ip addresses\n"+
+			"    \tOptional: comma separated list of ip and network in CIDR notation. This will limit which ip addresses and networks subordinate certs can use\n"+
 			"  -name string\n"+
 			"    \tRequired: name of the certificate authority\n"+
 			"  -out-crt string\n"+
 			"    \tOptional: path to write the certificate to (default \"ca.crt\")\n"+
 			"  -out-key string\n"+
 			"    \tOptional: path to write the private key to (default \"ca.key\")\n"+
 			"  -out-qr string\n"+
 			"    \tOptional: output a qr code image (png) of the certificate\n"+
 			"  -subnets string\n"+
-			"    \tOptional: comma separated list of ipv4 address and network in CIDR notation. This will limit which ipv4 addresses and networks subordinate certs can use in subnets\n",
+			"    \tOptional: comma separated list of ip and network in CIDR notation. This will limit which subnet addresses and networks subordinate certs can use\n",
 		ob.String(),
 	)
 }
@@ -55,16 +52,6 @@ func Test_ca(t *testing.T) {
 	assert.Equal(t, "", ob.String())
 	assert.Equal(t, "", eb.String())
 	// ipv4 only ips
 	assertHelpError(t, ca([]string{"-name", "ipv6", "-ips", "100::100/100"}, ob, eb), "invalid ip definition: can only be ipv4, have 100::100/100")
 	assert.Equal(t, "", ob.String())
 	assert.Equal(t, "", eb.String())
 	// ipv4 only subnets
 	assertHelpError(t, ca([]string{"-name", "ipv6", "-subnets", "100::100/100"}, ob, eb), "invalid subnet definition: can only be ipv4, have 100::100/100")
 	assert.Equal(t, "", ob.String())
 	assert.Equal(t, "", eb.String())
 	// failed key write
 	ob.Reset()
 	eb.Reset()
--- a/cmd/nebula-cert/print.go
+++ b/cmd/nebula-cert/print.go
@@ -9,14 +9,12 @@ import (
 	"os"
 	"strings"
 	"github.com/skip2/go-qrcode"
 	"github.com/slackhq/nebula/cert"
 )
 type printFlags struct {
 	set  *flag.FlagSet
 	json *bool
 	outQRPath *string
 	path *string
 }
@@ -24,7 +22,6 @@ func newPrintFlags() *printFlags {
 	pf := printFlags{set: flag.NewFlagSet("print", flag.ContinueOnError)}
 	pf.set.Usage = func() {}
 	pf.json = pf.set.Bool("json", false, "Optional: outputs certificates in json format")
 	pf.outQRPath = pf.set.String("out-qr", "", "Optional: output a qr code image (png) of the certificate")
 	pf.path = pf.set.String("path", "", "Required: path to the certificate")
 	return &pf
@@ -47,8 +44,6 @@ func printCert(args []string, out io.Writer, errOut io.Writer) error {
 	}
 	var c *cert.NebulaCertificate
 	var qrBytes []byte
 	part := 0
 	for {
 		c, rawCert, err = cert.UnmarshalNebulaCertificateFromPEM(rawCert)
@@ -66,31 +61,9 @@ func printCert(args []string, out io.Writer, errOut io.Writer) error {
 			out.Write([]byte("\n"))
 		}
 		if *pf.outQRPath != "" {
 			b, err := c.MarshalToPEM()
 			if err != nil {
 				return fmt.Errorf("error while marshalling cert to PEM: %s", err)
 			}
 			qrBytes = append(qrBytes, b...)
 		}
 		if rawCert == nil || len(rawCert) == 0 || strings.TrimSpace(string(rawCert)) == "" {
 			break
 		}
 		part++
 	}
 	if *pf.outQRPath != "" {
 		b, err := qrcode.Encode(string(qrBytes), qrcode.Medium, -5)
 		if err != nil {
 			return fmt.Errorf("error while generating qr code: %s", err)
 		}
 		err = ioutil.WriteFile(*pf.outQRPath, b, 0600)
 		if err != nil {
 			return fmt.Errorf("error while writing out-qr: %s", err)
 		}
 	}
 	return nil
--- a/cmd/nebula-cert/print_test.go
+++ b/cmd/nebula-cert/print_test.go
@@ -23,8 +23,6 @@ func Test_printHelp(t *testing.T) {
 		"Usage of "+os.Args[0]+" print <flags>: prints details about a certificate\n"+
 			"  -json\n"+
 			"    \tOptional: outputs certificates in json format\n"+
 			"  -out-qr string\n"+
 			"    \tOptional: output a qr code image (png) of the certificate\n"+
 			"  -path string\n"+
 			"    \tRequired: path to the certificate\n",
 		ob.String(),
--- a/cmd/nebula-cert/sign.go
+++ b/cmd/nebula-cert/sign.go
@@ -11,7 +11,6 @@ import (
 	"strings"
 	"time"
 	"github.com/skip2/go-qrcode"
 	"github.com/slackhq/nebula/cert"
 	"golang.org/x/crypto/curve25519"
 )
@@ -26,7 +25,6 @@ type signFlags struct {
 	inPubPath   *string
 	outKeyPath  *string
 	outCertPath *string
 	outQRPath   *string
 	groups      *string
 	subnets     *string
 }
@@ -37,14 +35,13 @@ func newSignFlags() *signFlags {
 	sf.caKeyPath = sf.set.String("ca-key", "ca.key", "Optional: path to the signing CA key")
 	sf.caCertPath = sf.set.String("ca-crt", "ca.crt", "Optional: path to the signing CA cert")
 	sf.name = sf.set.String("name", "", "Required: name of the cert, usually a hostname")
-	sf.ip = sf.set.String("ip", "", "Required: ipv4 address and network in CIDR notation to assign the cert")
+	sf.ip = sf.set.String("ip", "", "Required: ip and network in CIDR notation to assign the cert")
 	sf.duration = sf.set.Duration("duration", 0, "Optional: how long the cert should be valid for. The default is 1 second before the signing cert expires. Valid time units are seconds: \"s\", minutes: \"m\", hours: \"h\"")
 	sf.inPubPath = sf.set.String("in-pub", "", "Optional (if out-key not set): path to read a previously generated public key")
 	sf.outKeyPath = sf.set.String("out-key", "", "Optional (if in-pub not set): path to write the private key to")
 	sf.outCertPath = sf.set.String("out-crt", "", "Optional: path to write the certificate to")
 	sf.outQRPath = sf.set.String("out-qr", "", "Optional: output a qr code image (png) of the certificate")
 	sf.groups = sf.set.String("groups", "", "Optional: comma separated list of groups")
-	sf.subnets = sf.set.String("subnets", "", "Optional: comma separated list of ipv4 address and network in CIDR notation. Subnets this cert can serve for")
+	sf.subnets = sf.set.String("subnets", "", "Optional: comma seperated list of subnet this cert can serve for")
 	return &sf
 }
@@ -92,10 +89,6 @@ func signCert(args []string, out io.Writer, errOut io.Writer) error {
 		return fmt.Errorf("error while parsing ca-crt: %s", err)
 	}
 	if err := caCert.VerifyPrivateKey(caKey); err != nil {
 		return fmt.Errorf("refusing to sign, root certificate does not match private key")
 	}
 	issuer, err := caCert.Sha256Sum()
 	if err != nil {
 		return fmt.Errorf("error while getting -ca-crt fingerprint: %s", err)
@@ -114,9 +107,6 @@ func signCert(args []string, out io.Writer, errOut io.Writer) error {
 	if err != nil {
 		return newHelpErrorf("invalid ip definition: %s", err)
 	}
 	if ip.To4() == nil {
 		return newHelpErrorf("invalid ip definition: can only be ipv4, have %s", *sf.ip)
 	}
 	ipNet.IP = ip
 	groups := []string{}
@@ -138,9 +128,6 @@ func signCert(args []string, out io.Writer, errOut io.Writer) error {
 				if err != nil {
 					return newHelpErrorf("invalid subnet definition: %s", err)
 				}
 				if s.IP.To4() == nil {
 					return newHelpErrorf("invalid subnet definition: can only be ipv4, have %s", rs)
 				}
 				subnets = append(subnets, s)
 			}
 		}
@@ -216,33 +203,16 @@ func signCert(args []string, out io.Writer, errOut io.Writer) error {
 		return fmt.Errorf("error while writing out-crt: %s", err)
 	}
 	if *sf.outQRPath != "" {
 		b, err = qrcode.Encode(string(b), qrcode.Medium, -5)
 		if err != nil {
 			return fmt.Errorf("error while generating qr code: %s", err)
 		}
 		err = ioutil.WriteFile(*sf.outQRPath, b, 0600)
 		if err != nil {
 			return fmt.Errorf("error while writing out-qr: %s", err)
 		}
 	}
 	return nil
 }
 func x25519Keypair() ([]byte, []byte) {
-	privkey := make([]byte, 32)
+	var pubkey, privkey [32]byte
-	if _, err := io.ReadFull(rand.Reader, privkey); err != nil {
+	if _, err := io.ReadFull(rand.Reader, privkey[:]); err != nil {
 		panic(err)
 	}
-
+	curve25519.ScalarBaseMult(&pubkey, &privkey)
-	pubkey, err := curve25519.X25519(privkey, curve25519.Basepoint)
+	return pubkey[:], privkey[:]
 	if err != nil {
 		panic(err)
 	}
 	return pubkey, privkey
 }
 func signSummary() string {
--- a/cmd/nebula-cert/sign_test.go
+++ b/cmd/nebula-cert/sign_test.go
@@ -1,4 +1,3 @@
 //go:build !windows
 // +build !windows
 package main
@@ -39,17 +38,15 @@ func Test_signHelp(t *testing.T) {
 			"  -in-pub string\n"+
 			"    \tOptional (if out-key not set): path to read a previously generated public key\n"+
 			"  -ip string\n"+
-			"    \tRequired: ipv4 address and network in CIDR notation to assign the cert\n"+
+			"    \tRequired: ip and network in CIDR notation to assign the cert\n"+
 			"  -name string\n"+
 			"    \tRequired: name of the cert, usually a hostname\n"+
 			"  -out-crt string\n"+
 			"    \tOptional: path to write the certificate to\n"+
 			"  -out-key string\n"+
 			"    \tOptional (if in-pub not set): path to write the private key to\n"+
 			"  -out-qr string\n"+
 			"    \tOptional: output a qr code image (png) of the certificate\n"+
 			"  -subnets string\n"+
-			"    \tOptional: comma separated list of ipv4 address and network in CIDR notation. Subnets this cert can serve for\n",
+			"    \tOptional: comma seperated list of subnet this cert can serve for\n",
 		ob.String(),
 	)
 }
@@ -59,6 +56,7 @@ func Test_signCert(t *testing.T) {
 	eb := &bytes.Buffer{}
 	// required args
 	assertHelpError(t, signCert([]string{"-ca-crt", "./nope", "-ca-key", "./nope", "-ip", "1.1.1.1/24", "-out-key", "nope", "-out-crt", "nope"}, ob, eb), "-name is required")
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
@@ -159,13 +157,6 @@ func Test_signCert(t *testing.T) {
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 	ob.Reset()
 	eb.Reset()
 	args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "100::100/100", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"}
 	assertHelpError(t, signCert(args, ob, eb), "invalid ip definition: can only be ipv4, have 100::100/100")
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 	// bad subnet cidr
 	ob.Reset()
 	eb.Reset()
@@ -174,27 +165,6 @@ func Test_signCert(t *testing.T) {
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 	ob.Reset()
 	eb.Reset()
 	args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m", "-subnets", "100::100/100"}
 	assertHelpError(t, signCert(args, ob, eb), "invalid subnet definition: can only be ipv4, have 100::100/100")
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 	// mismatched ca key
 	_, caPriv2, _ := ed25519.GenerateKey(rand.Reader)
 	caKeyF2, err := ioutil.TempFile("", "sign-cert-2.key")
 	assert.Nil(t, err)
 	defer os.Remove(caKeyF2.Name())
 	caKeyF2.Write(cert.MarshalEd25519PrivateKey(caPriv2))
 	ob.Reset()
 	eb.Reset()
 	args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF2.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m", "-subnets", "a"}
 	assert.EqualError(t, signCert(args, ob, eb), "refusing to sign, root certificate does not match private key")
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 	// failed key write
 	ob.Reset()
 	eb.Reset()
@@ -316,4 +286,5 @@ func Test_signCert(t *testing.T) {
 	assert.EqualError(t, signCert(args, ob, eb), "refusing to overwrite existing cert: "+crtF.Name())
 	assert.Empty(t, ob.String())
 	assert.Empty(t, eb.String())
 }
--- a/cmd/nebula-cert/verify_test.go
+++ b/cmd/nebula-cert/verify_test.go
@@ -72,7 +72,7 @@ func Test_verify(t *testing.T) {
 		Details: cert.NebulaCertificateDetails{
 			Name:      "test-ca",
 			NotBefore: time.Now().Add(time.Hour * -1),
-			NotAfter:  time.Now().Add(time.Hour * 2),
+			NotAfter:  time.Now().Add(time.Hour),
 			PublicKey: caPub,
 			IsCA:      true,
 		},
--- a/cmd/nebula-service/logs_generic.go
+++ b/cmd/nebula-service/logs_generic.go
@@ -1,10 +0,0 @@
 //go:build !windows
 // +build !windows
 package main
 import "github.com/sirupsen/logrus"
 func HookLogger(l *logrus.Logger) {
 	// Do nothing, let the logs flow to stdout/stderr
 }
--- a/cmd/nebula-service/logs_windows.go
+++ b/cmd/nebula-service/logs_windows.go
@@ -1,54 +0,0 @@
 package main
 import (
 	"fmt"
 	"io/ioutil"
 	"os"
 	"github.com/kardianos/service"
 	"github.com/sirupsen/logrus"
 )
 // HookLogger routes the logrus logs through the service logger so that they end up in the Windows Event Viewer
 // logrus output will be discarded
 func HookLogger(l *logrus.Logger) {
 	l.AddHook(newLogHook(logger))
 	l.SetOutput(ioutil.Discard)
 }
 type logHook struct {
 	sl service.Logger
 }
 func newLogHook(sl service.Logger) *logHook {
 	return &logHook{sl: sl}
 }
 func (h *logHook) Fire(entry *logrus.Entry) error {
 	line, err := entry.String()
 	if err != nil {
 		fmt.Fprintf(os.Stderr, "Unable to read entry, %v", err)
 		return err
 	}
 	switch entry.Level {
 	case logrus.PanicLevel:
 		return h.sl.Error(line)
 	case logrus.FatalLevel:
 		return h.sl.Error(line)
 	case logrus.ErrorLevel:
 		return h.sl.Error(line)
 	case logrus.WarnLevel:
 		return h.sl.Warning(line)
 	case logrus.InfoLevel:
 		return h.sl.Info(line)
 	case logrus.DebugLevel:
 		return h.sl.Info(line)
 	default:
 		return nil
 	}
 }
 func (h *logHook) Levels() []logrus.Level {
 	return logrus.AllLevels
 }
--- a/cmd/nebula-service/main.go
+++ b/cmd/nebula-service/main.go
@@ -7,8 +7,6 @@ import (
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/util"
 )
 // A version string that can be set with
@@ -48,20 +46,19 @@ func main() {
 		os.Exit(1)
 	}
-	l := logrus.New()
+	config := nebula.NewConfig()
-	l.Out = os.Stdout
+	err := config.Load(*configPath)
 	c := config.NewC(l)
 	err := c.Load(*configPath)
 	if err != nil {
 		fmt.Printf("failed to load config: %s", err)
 		os.Exit(1)
 	}
-	ctrl, err := nebula.Main(c, *configTest, Build, l, nil)
+	l := logrus.New()
 	l.Out = os.Stdout
 	c, err := nebula.Main(config, *configTest, Build, l, nil)
 	switch v := err.(type) {
-	case util.ContextualError:
+	case nebula.ContextualError:
 		v.Log(l)
 		os.Exit(1)
 	case error:
@@ -70,8 +67,8 @@ func main() {
 	}
 	if !*configTest {
-		ctrl.Start()
+		c.Start()
-		ctrl.ShutdownBlock()
+		c.ShutdownBlock()
 	}
 	os.Exit(0)
--- a/cmd/nebula-service/service.go
+++ b/cmd/nebula-service/service.go
@@ -9,7 +9,6 @@ import (
 	"github.com/kardianos/service"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/config"
 )
 var logger service.Logger
@@ -25,16 +24,15 @@ func (p *program) Start(s service.Service) error {
 	// Start should not block.
 	logger.Info("Nebula service starting.")
-	l := logrus.New()
+	config := nebula.NewConfig()
-	HookLogger(l)
+	err := config.Load(*p.configPath)
 	c := config.NewC(l)
 	err := c.Load(*p.configPath)
 	if err != nil {
 		return fmt.Errorf("failed to load config: %s", err)
 	}
-	p.control, err = nebula.Main(c, *p.configTest, Build, l, nil)
+	l := logrus.New()
 	l.Out = os.Stdout
 	p.control, err = nebula.Main(config, *p.configTest, Build, l, nil)
 	if err != nil {
 		return err
 	}
@@ -71,10 +69,6 @@ func doService(configPath *string, configTest *bool, build string, serviceFlag *
 		build:      build,
 	}
 	// Here are what the different loggers are doing:
 	// - `log` is the standard go log utility, meant to be used while the process is still attached to stdout/stderr
 	// - `logger` is the service log utility that may be attached to a special place depending on OS (Windows will have it attached to the event log)
 	// - above, in `Run` we create a `logrus.Logger` which is what nebula expects to use
 	s, err := service.New(prg, svcConfig)
 	if err != nil {
 		log.Fatal(err)
@@ -90,7 +84,6 @@ func doService(configPath *string, configTest *bool, build string, serviceFlag *
 		for {
 			err := <-errs
 			if err != nil {
 				// Route any errors from the system logger to stdout as a best effort to notice issues there
 				log.Print(err)
 			}
 		}
@@ -100,7 +93,6 @@ func doService(configPath *string, configTest *bool, build string, serviceFlag *
 	case "run":
 		err = s.Run()
 		if err != nil {
 			// Route any errors to the system logger
 			logger.Error(err)
 		}
 	default:
--- a/cmd/nebula/main.go
+++ b/cmd/nebula/main.go
@@ -7,8 +7,6 @@ import (
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/util"
 )
 // A version string that can be set with
@@ -42,20 +40,19 @@ func main() {
 		os.Exit(1)
 	}
-	l := logrus.New()
+	config := nebula.NewConfig()
-	l.Out = os.Stdout
+	err := config.Load(*configPath)
 	c := config.NewC(l)
 	err := c.Load(*configPath)
 	if err != nil {
 		fmt.Printf("failed to load config: %s", err)
 		os.Exit(1)
 	}
-	ctrl, err := nebula.Main(c, *configTest, Build, l, nil)
+	l := logrus.New()
 	l.Out = os.Stdout
 	c, err := nebula.Main(config, *configTest, Build, l, nil)
 	switch v := err.(type) {
-	case util.ContextualError:
+	case nebula.ContextualError:
 		v.Log(l)
 		os.Exit(1)
 	case error:
@@ -64,8 +61,8 @@ func main() {
 	}
 	if !*configTest {
-		ctrl.Start()
+		c.Start()
-		ctrl.ShutdownBlock()
+		c.ShutdownBlock()
 	}
 	os.Exit(0)
--- a/config/config.go
+++ b/config/config.go
@@ -1,13 +1,14 @@
-package config
+package nebula
 import (
 	"context"
 	"errors"
 	"fmt"
 	"io/ioutil"
 	"net"
 	"os"
 	"os/signal"
 	"path/filepath"
 	"regexp"
 	"sort"
 	"strconv"
 	"strings"
@@ -19,24 +20,22 @@ import (
 	"gopkg.in/yaml.v2"
 )
-type C struct {
+type Config struct {
 	path        string
 	files       []string
 	Settings    map[interface{}]interface{}
 	oldSettings map[interface{}]interface{}
-	callbacks   []func(*C)
+	callbacks   []func(*Config)
 	l           *logrus.Logger
 }
-func NewC(l *logrus.Logger) *C {
+func NewConfig() *Config {
-	return &C{
+	return &Config{
 		Settings: make(map[interface{}]interface{}),
 		l:        l,
 	}
 }
 // Load will find all yaml files within path and load them in lexical order
-func (c *C) Load(path string) error {
+func (c *Config) Load(path string) error {
 	c.path = path
 	c.files = make([]string, 0)
@@ -59,7 +58,7 @@ func (c *C) Load(path string) error {
 	return nil
 }
-func (c *C) LoadString(raw string) error {
+func (c *Config) LoadString(raw string) error {
 	if raw == "" {
 		return errors.New("Empty configuration")
 	}
@@ -70,7 +69,7 @@ func (c *C) LoadString(raw string) error {
 // here should decide if they need to make a change to the current process before making the change. HasChanged can be
 // used to help decide if a change is necessary.
 // These functions should return quickly or spawn their own go routine if they will take a while
-func (c *C) RegisterReloadCallback(f func(*C)) {
+func (c *Config) RegisterReloadCallback(f func(*Config)) {
 	c.callbacks = append(c.callbacks, f)
 }
@@ -79,7 +78,7 @@ func (c *C) RegisterReloadCallback(f func(*C)) {
 // If k is an empty string the entire config is tested.
 // It's important to note that this is very rudimentary and susceptible to configuration ordering issues indicating
 // there is change when there actually wasn't any.
-func (c *C) HasChanged(k string) bool {
+func (c *Config) HasChanged(k string) bool {
 	if c.oldSettings == nil {
 		return false
 	}
@@ -100,12 +99,12 @@ func (c *C) HasChanged(k string) bool {
 	newVals, err := yaml.Marshal(nv)
 	if err != nil {
-		c.l.WithField("config_path", k).WithError(err).Error("Error while marshaling new config")
+		l.WithField("config_path", k).WithError(err).Error("Error while marshaling new config")
 	}
 	oldVals, err := yaml.Marshal(ov)
 	if err != nil {
-		c.l.WithField("config_path", k).WithError(err).Error("Error while marshaling old config")
+		l.WithField("config_path", k).WithError(err).Error("Error while marshaling old config")
 	}
 	return string(newVals) != string(oldVals)
@@ -113,26 +112,19 @@ func (c *C) HasChanged(k string) bool {
 // CatchHUP will listen for the HUP signal in a go routine and reload all configs found in the
 // original path provided to Load. The old settings are shallow copied for change detection after the reload.
-func (c *C) CatchHUP(ctx context.Context) {
+func (c *Config) CatchHUP() {
 	ch := make(chan os.Signal, 1)
 	signal.Notify(ch, syscall.SIGHUP)
 	go func() {
-		for {
+		for range ch {
-			select {
+			l.Info("Caught HUP, reloading config")
 			case <-ctx.Done():
 				signal.Stop(ch)
 				close(ch)
 				return
 			case <-ch:
 				c.l.Info("Caught HUP, reloading config")
 			c.ReloadConfig()
 		}
 		}
 	}()
 }
-func (c *C) ReloadConfig() {
+func (c *Config) ReloadConfig() {
 	c.oldSettings = make(map[interface{}]interface{})
 	for k, v := range c.Settings {
 		c.oldSettings[k] = v
@@ -140,7 +132,7 @@ func (c *C) ReloadConfig() {
 	err := c.Load(c.path)
 	if err != nil {
-		c.l.WithField("config_path", c.path).WithError(err).Error("Error occurred while reloading config")
+		l.WithField("config_path", c.path).WithError(err).Error("Error occurred while reloading config")
 		return
 	}
@@ -150,7 +142,7 @@ func (c *C) ReloadConfig() {
 }
 // GetString will get the string for k or return the default d if not found or invalid
-func (c *C) GetString(k, d string) string {
+func (c *Config) GetString(k, d string) string {
 	r := c.Get(k)
 	if r == nil {
 		return d
@@ -160,7 +152,7 @@ func (c *C) GetString(k, d string) string {
 }
 // GetStringSlice will get the slice of strings for k or return the default d if not found or invalid
-func (c *C) GetStringSlice(k string, d []string) []string {
+func (c *Config) GetStringSlice(k string, d []string) []string {
 	r := c.Get(k)
 	if r == nil {
 		return d
@@ -180,7 +172,7 @@ func (c *C) GetStringSlice(k string, d []string) []string {
 }
 // GetMap will get the map for k or return the default d if not found or invalid
-func (c *C) GetMap(k string, d map[interface{}]interface{}) map[interface{}]interface{} {
+func (c *Config) GetMap(k string, d map[interface{}]interface{}) map[interface{}]interface{} {
 	r := c.Get(k)
 	if r == nil {
 		return d
@@ -195,7 +187,7 @@ func (c *C) GetMap(k string, d map[interface{}]interface{}) map[interface{}]inte
 }
 // GetInt will get the int for k or return the default d if not found or invalid
-func (c *C) GetInt(k string, d int) int {
+func (c *Config) GetInt(k string, d int) int {
 	r := c.GetString(k, strconv.Itoa(d))
 	v, err := strconv.Atoi(r)
 	if err != nil {
@@ -206,7 +198,7 @@ func (c *C) GetInt(k string, d int) int {
 }
 // GetBool will get the bool for k or return the default d if not found or invalid
-func (c *C) GetBool(k string, d bool) bool {
+func (c *Config) GetBool(k string, d bool) bool {
 	r := strings.ToLower(c.GetString(k, fmt.Sprintf("%v", d)))
 	v, err := strconv.ParseBool(r)
 	if err != nil {
@@ -223,7 +215,7 @@ func (c *C) GetBool(k string, d bool) bool {
 }
 // GetDuration will get the duration for k or return the default d if not found or invalid
-func (c *C) GetDuration(k string, d time.Duration) time.Duration {
+func (c *Config) GetDuration(k string, d time.Duration) time.Duration {
 	r := c.GetString(k, "")
 	v, err := time.ParseDuration(r)
 	if err != nil {
@@ -232,15 +224,138 @@ func (c *C) GetDuration(k string, d time.Duration) time.Duration {
 	return v
 }
-func (c *C) Get(k string) interface{} {
+func (c *Config) GetAllowList(k string, allowInterfaces bool) (*AllowList, error) {
 	r := c.Get(k)
 	if r == nil {
 		return nil, nil
 	}
 	rawMap, ok := r.(map[interface{}]interface{})
 	if !ok {
 		return nil, fmt.Errorf("config `%s` has invalid type: %T", k, r)
 	}
 	tree := NewCIDRTree()
 	var nameRules []AllowListNameRule
 	firstValue := true
 	allValuesMatch := true
 	defaultSet := false
 	var allValues bool
 	for rawKey, rawValue := range rawMap {
 		rawCIDR, ok := rawKey.(string)
 		if !ok {
 			return nil, fmt.Errorf("config `%s` has invalid key (type %T): %v", k, rawKey, rawKey)
 		}
 		// Special rule for interface names
 		if rawCIDR == "interfaces" {
 			if !allowInterfaces {
 				return nil, fmt.Errorf("config `%s` does not support `interfaces`", k)
 			}
 			var err error
 			nameRules, err = c.getAllowListInterfaces(k, rawValue)
 			if err != nil {
 				return nil, err
 			}
 			continue
 		}
 		value, ok := rawValue.(bool)
 		if !ok {
 			return nil, fmt.Errorf("config `%s` has invalid value (type %T): %v", k, rawValue, rawValue)
 		}
 		_, cidr, err := net.ParseCIDR(rawCIDR)
 		if err != nil {
 			return nil, fmt.Errorf("config `%s` has invalid CIDR: %s", k, rawCIDR)
 		}
 		// TODO: should we error on duplicate CIDRs in the config?
 		tree.AddCIDR(cidr, value)
 		if firstValue {
 			allValues = value
 			firstValue = false
 		} else {
 			if value != allValues {
 				allValuesMatch = false
 			}
 		}
 		// Check if this is 0.0.0.0/0
 		bits, size := cidr.Mask.Size()
 		if bits == 0 && size == 32 {
 			defaultSet = true
 		}
 	}
 	if !defaultSet {
 		if allValuesMatch {
 			_, zeroCIDR, _ := net.ParseCIDR("0.0.0.0/0")
 			tree.AddCIDR(zeroCIDR, !allValues)
 		} else {
 			return nil, fmt.Errorf("config `%s` contains both true and false rules, but no default set for 0.0.0.0/0", k)
 		}
 	}
 	return &AllowList{cidrTree: tree, nameRules: nameRules}, nil
 }
 func (c *Config) getAllowListInterfaces(k string, v interface{}) ([]AllowListNameRule, error) {
 	var nameRules []AllowListNameRule
 	rawRules, ok := v.(map[interface{}]interface{})
 	if !ok {
 		return nil, fmt.Errorf("config `%s.interfaces` is invalid (type %T): %v", k, v, v)
 	}
 	firstEntry := true
 	var allValues bool
 	for rawName, rawAllow := range rawRules {
 		name, ok := rawName.(string)
 		if !ok {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid key (type %T): %v", k, rawName, rawName)
 		}
 		allow, ok := rawAllow.(bool)
 		if !ok {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid value (type %T): %v", k, rawAllow, rawAllow)
 		}
 		nameRE, err := regexp.Compile("^" + name + "$")
 		if err != nil {
 			return nil, fmt.Errorf("config `%s.interfaces` has invalid key: %s: %v", k, name, err)
 		}
 		nameRules = append(nameRules, AllowListNameRule{
 			Name:  nameRE,
 			Allow: allow,
 		})
 		if firstEntry {
 			allValues = allow
 			firstEntry = false
 		} else {
 			if allow != allValues {
 				return nil, fmt.Errorf("config `%s.interfaces` values must all be the same true/false value", k)
 			}
 		}
 	}
 	return nameRules, nil
 }
 func (c *Config) Get(k string) interface{} {
 	return c.get(k, c.Settings)
 }
-func (c *C) IsSet(k string) bool {
+func (c *Config) IsSet(k string) bool {
 	return c.get(k, c.Settings) != nil
 }
-func (c *C) get(k string, v interface{}) interface{} {
+func (c *Config) get(k string, v interface{}) interface{} {
 	parts := strings.Split(k, ".")
 	for _, p := range parts {
 		m, ok := v.(map[interface{}]interface{})
@@ -259,7 +374,7 @@ func (c *C) get(k string, v interface{}) interface{} {
 // direct signifies if this is the config path directly specified by the user,
 // versus a file/dir found by recursing into that path
-func (c *C) resolve(path string, direct bool) error {
+func (c *Config) resolve(path string, direct bool) error {
 	i, err := os.Stat(path)
 	if err != nil {
 		return nil
@@ -285,7 +400,7 @@ func (c *C) resolve(path string, direct bool) error {
 	return nil
 }
-func (c *C) addFile(path string, direct bool) error {
+func (c *Config) addFile(path string, direct bool) error {
 	ext := filepath.Ext(path)
 	if !direct && ext != ".yaml" && ext != ".yml" {
@@ -301,7 +416,7 @@ func (c *C) addFile(path string, direct bool) error {
 	return nil
 }
-func (c *C) parseRaw(b []byte) error {
+func (c *Config) parseRaw(b []byte) error {
 	var m map[interface{}]interface{}
 	err := yaml.Unmarshal(b, &m)
@@ -313,7 +428,7 @@ func (c *C) parseRaw(b []byte) error {
 	return nil
 }
-func (c *C) parse() error {
+func (c *Config) parse() error {
 	var m map[interface{}]interface{}
 	for _, path := range c.files {
@@ -356,3 +471,38 @@ func readDirNames(path string) ([]string, error) {
 	sort.Strings(paths)
 	return paths, nil
 }
 func configLogger(c *Config) error {
 	// set up our logging level
 	logLevel, err := logrus.ParseLevel(strings.ToLower(c.GetString("logging.level", "info")))
 	if err != nil {
 		return fmt.Errorf("%s; possible levels: %s", err, logrus.AllLevels)
 	}
 	l.SetLevel(logLevel)
 	disableTimestamp := c.GetBool("logging.disable_timestamp", false)
 	timestampFormat := c.GetString("logging.timestamp_format", "")
 	fullTimestamp := (timestampFormat != "")
 	if timestampFormat == "" {
 		timestampFormat = time.RFC3339
 	}
 	logFormat := strings.ToLower(c.GetString("logging.format", "text"))
 	switch logFormat {
 	case "text":
 		l.Formatter = &logrus.TextFormatter{
 			TimestampFormat:  timestampFormat,
 			FullTimestamp:    fullTimestamp,
 			DisableTimestamp: disableTimestamp,
 		}
 	case "json":
 		l.Formatter = &logrus.JSONFormatter{
 			TimestampFormat:  timestampFormat,
 			DisableTimestamp: disableTimestamp,
 		}
 	default:
 		return fmt.Errorf("unknown log format `%s`. possible formats: %s", logFormat, []string{"text", "json"})
 	}
 	return nil
 }
--- a/config/config_test.go
+++ b/config/config_test.go
@@ -1,4 +1,4 @@
-package config
+package nebula
 import (
 	"io/ioutil"
@@ -7,20 +7,18 @@ import (
 	"testing"
 	"time"
 	"github.com/slackhq/nebula/test"
 	"github.com/stretchr/testify/assert"
 )
 func TestConfig_Load(t *testing.T) {
 	l := test.NewLogger()
 	dir, err := ioutil.TempDir("", "config-test")
 	// invalid yaml
-	c := NewC(l)
+	c := NewConfig()
 	ioutil.WriteFile(filepath.Join(dir, "01.yaml"), []byte(" invalid yaml"), 0644)
 	assert.EqualError(t, c.Load(dir), "yaml: unmarshal errors:\n  line 1: cannot unmarshal !!str `invalid...` into map[interface {}]interface {}")
 	// simple multi config merge
-	c = NewC(l)
+	c = NewConfig()
 	os.RemoveAll(dir)
 	os.Mkdir(dir, 0755)
@@ -42,9 +40,8 @@ func TestConfig_Load(t *testing.T) {
 }
 func TestConfig_Get(t *testing.T) {
 	l := test.NewLogger()
 	// test simple type
-	c := NewC(l)
+	c := NewConfig()
 	c.Settings["firewall"] = map[interface{}]interface{}{"outbound": "hi"}
 	assert.Equal(t, "hi", c.Get("firewall.outbound"))
@@ -58,15 +55,13 @@ func TestConfig_Get(t *testing.T) {
 }
 func TestConfig_GetStringSlice(t *testing.T) {
-	l := test.NewLogger()
+	c := NewConfig()
 	c := NewC(l)
 	c.Settings["slice"] = []interface{}{"one", "two"}
 	assert.Equal(t, []string{"one", "two"}, c.GetStringSlice("slice", []string{}))
 }
 func TestConfig_GetBool(t *testing.T) {
-	l := test.NewLogger()
+	c := NewConfig()
 	c := NewC(l)
 	c.Settings["bool"] = true
 	assert.Equal(t, true, c.GetBool("bool", false))
@@ -92,22 +87,91 @@ func TestConfig_GetBool(t *testing.T) {
 	assert.Equal(t, false, c.GetBool("bool", true))
 }
 func TestConfig_GetAllowList(t *testing.T) {
 	c := NewConfig()
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0": true,
 	}
 	r, err := c.GetAllowList("allowlist", false)
 	assert.EqualError(t, err, "config `allowlist` has invalid CIDR: 192.168.0.0")
 	assert.Nil(t, r)
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0/16": "abc",
 	}
 	r, err = c.GetAllowList("allowlist", false)
 	assert.EqualError(t, err, "config `allowlist` has invalid value (type string): abc")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"192.168.0.0/16": true,
 		"10.0.0.0/8":     false,
 	}
 	r, err = c.GetAllowList("allowlist", false)
 	assert.EqualError(t, err, "config `allowlist` contains both true and false rules, but no default set for 0.0.0.0/0")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"0.0.0.0/0":     true,
 		"10.0.0.0/8":    false,
 		"10.42.42.0/24": true,
 	}
 	r, err = c.GetAllowList("allowlist", false)
 	if assert.NoError(t, err) {
 		assert.NotNil(t, r)
 	}
 	// Test interface names
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: false,
 		},
 	}
 	r, err = c.GetAllowList("allowlist", false)
 	assert.EqualError(t, err, "config `allowlist` does not support `interfaces`")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: "foo",
 		},
 	}
 	r, err = c.GetAllowList("allowlist", true)
 	assert.EqualError(t, err, "config `allowlist.interfaces` has invalid value (type string): foo")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: false,
 			`eth.*`:    true,
 		},
 	}
 	r, err = c.GetAllowList("allowlist", true)
 	assert.EqualError(t, err, "config `allowlist.interfaces` values must all be the same true/false value")
 	c.Settings["allowlist"] = map[interface{}]interface{}{
 		"interfaces": map[interface{}]interface{}{
 			`docker.*`: false,
 		},
 	}
 	r, err = c.GetAllowList("allowlist", true)
 	if assert.NoError(t, err) {
 		assert.NotNil(t, r)
 	}
 }
 func TestConfig_HasChanged(t *testing.T) {
 	l := test.NewLogger()
 	// No reload has occurred, return false
-	c := NewC(l)
+	c := NewConfig()
 	c.Settings["test"] = "hi"
 	assert.False(t, c.HasChanged(""))
 	// Test key change
-	c = NewC(l)
+	c = NewConfig()
 	c.Settings["test"] = "hi"
 	c.oldSettings = map[interface{}]interface{}{"test": "no"}
 	assert.True(t, c.HasChanged("test"))
 	assert.True(t, c.HasChanged(""))
 	// No key change
-	c = NewC(l)
+	c = NewConfig()
 	c.Settings["test"] = "hi"
 	c.oldSettings = map[interface{}]interface{}{"test": "hi"}
 	assert.False(t, c.HasChanged("test"))
@@ -115,13 +179,12 @@ func TestConfig_HasChanged(t *testing.T) {
 }
 func TestConfig_ReloadConfig(t *testing.T) {
 	l := test.NewLogger()
 	done := make(chan bool, 1)
 	dir, err := ioutil.TempDir("", "config-test")
 	assert.Nil(t, err)
 	ioutil.WriteFile(filepath.Join(dir, "01.yaml"), []byte("outer:\n  inner: hi"), 0644)
-	c := NewC(l)
+	c := NewConfig()
 	assert.Nil(t, c.Load(dir))
 	assert.False(t, c.HasChanged("outer.inner"))
@@ -130,7 +193,7 @@ func TestConfig_ReloadConfig(t *testing.T) {
 	ioutil.WriteFile(filepath.Join(dir, "01.yaml"), []byte("outer:\n  inner: ho"), 0644)
-	c.RegisterReloadCallback(func(c *C) {
+	c.RegisterReloadCallback(func(c *Config) {
 		done <- true
 	})
--- a/connection_manager.go
+++ b/connection_manager.go
@@ -1,13 +1,10 @@
 package nebula
 import (
 	"context"
 	"sync"
 	"time"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 )
 // TODO: incount and outcount are intended as a shortcut to locking the mutexes for every single packet
@@ -15,49 +12,47 @@ import (
 type connectionManager struct {
 	hostMap      *HostMap
-	in           map[iputil.VpnIp]struct{}
+	in           map[uint32]struct{}
 	inLock       *sync.RWMutex
 	inCount      int
-	out          map[iputil.VpnIp]struct{}
+	out          map[uint32]struct{}
 	outLock      *sync.RWMutex
 	outCount     int
 	TrafficTimer *SystemTimerWheel
 	intf         *Interface
-	pendingDeletion      map[iputil.VpnIp]int
+	pendingDeletion      map[uint32]int
 	pendingDeletionLock  *sync.RWMutex
 	pendingDeletionTimer *SystemTimerWheel
 	checkInterval           int
 	pendingDeletionInterval int
 	l *logrus.Logger
 	// I wanted to call one matLock
 }
-func newConnectionManager(ctx context.Context, l *logrus.Logger, intf *Interface, checkInterval, pendingDeletionInterval int) *connectionManager {
+func newConnectionManager(intf *Interface, checkInterval, pendingDeletionInterval int) *connectionManager {
 	nc := &connectionManager{
 		hostMap:                 intf.hostMap,
-		in:                      make(map[iputil.VpnIp]struct{}),
+		in:                      make(map[uint32]struct{}),
 		inLock:                  &sync.RWMutex{},
 		inCount:                 0,
-		out:                     make(map[iputil.VpnIp]struct{}),
+		out:                     make(map[uint32]struct{}),
 		outLock:                 &sync.RWMutex{},
 		outCount:                0,
 		TrafficTimer:            NewSystemTimerWheel(time.Millisecond*500, time.Second*60),
 		intf:                    intf,
-		pendingDeletion:         make(map[iputil.VpnIp]int),
+		pendingDeletion:         make(map[uint32]int),
 		pendingDeletionLock:     &sync.RWMutex{},
 		pendingDeletionTimer:    NewSystemTimerWheel(time.Millisecond*500, time.Second*60),
 		checkInterval:           checkInterval,
 		pendingDeletionInterval: pendingDeletionInterval,
 		l:                       l,
 	}
-	nc.Start(ctx)
+	nc.Start()
 	return nc
 }
-func (n *connectionManager) In(ip iputil.VpnIp) {
+func (n *connectionManager) In(ip uint32) {
 	n.inLock.RLock()
 	// If this already exists, return
 	if _, ok := n.in[ip]; ok {
@@ -70,7 +65,7 @@ func (n *connectionManager) In(ip iputil.VpnIp) {
 	n.inLock.Unlock()
 }
-func (n *connectionManager) Out(ip iputil.VpnIp) {
+func (n *connectionManager) Out(ip uint32) {
 	n.outLock.RLock()
 	// If this already exists, return
 	if _, ok := n.out[ip]; ok {
@@ -89,9 +84,9 @@ func (n *connectionManager) Out(ip iputil.VpnIp) {
 	n.outLock.Unlock()
 }
-func (n *connectionManager) CheckIn(vpnIp iputil.VpnIp) bool {
+func (n *connectionManager) CheckIn(vpnIP uint32) bool {
 	n.inLock.RLock()
-	if _, ok := n.in[vpnIp]; ok {
+	if _, ok := n.in[vpnIP]; ok {
 		n.inLock.RUnlock()
 		return true
 	}
@@ -99,7 +94,7 @@ func (n *connectionManager) CheckIn(vpnIp iputil.VpnIp) bool {
 	return false
 }
-func (n *connectionManager) ClearIP(ip iputil.VpnIp) {
+func (n *connectionManager) ClearIP(ip uint32) {
 	n.inLock.Lock()
 	n.outLock.Lock()
 	delete(n.in, ip)
@@ -108,13 +103,13 @@ func (n *connectionManager) ClearIP(ip iputil.VpnIp) {
 	n.outLock.Unlock()
 }
-func (n *connectionManager) ClearPendingDeletion(ip iputil.VpnIp) {
+func (n *connectionManager) ClearPendingDeletion(ip uint32) {
 	n.pendingDeletionLock.Lock()
 	delete(n.pendingDeletion, ip)
 	n.pendingDeletionLock.Unlock()
 }
-func (n *connectionManager) AddPendingDeletion(ip iputil.VpnIp) {
+func (n *connectionManager) AddPendingDeletion(ip uint32) {
 	n.pendingDeletionLock.Lock()
 	if _, ok := n.pendingDeletion[ip]; ok {
 		n.pendingDeletion[ip] += 1
@@ -125,7 +120,7 @@ func (n *connectionManager) AddPendingDeletion(ip iputil.VpnIp) {
 	n.pendingDeletionLock.Unlock()
 }
-func (n *connectionManager) checkPendingDeletion(ip iputil.VpnIp) bool {
+func (n *connectionManager) checkPendingDeletion(ip uint32) bool {
 	n.pendingDeletionLock.RLock()
 	if _, ok := n.pendingDeletion[ip]; ok {
@@ -136,34 +131,24 @@ func (n *connectionManager) checkPendingDeletion(ip iputil.VpnIp) bool {
 	return false
 }
-func (n *connectionManager) AddTrafficWatch(vpnIp iputil.VpnIp, seconds int) {
+func (n *connectionManager) AddTrafficWatch(vpnIP uint32, seconds int) {
-	n.TrafficTimer.Add(vpnIp, time.Second*time.Duration(seconds))
+	n.TrafficTimer.Add(vpnIP, time.Second*time.Duration(seconds))
 }
-func (n *connectionManager) Start(ctx context.Context) {
+func (n *connectionManager) Start() {
-	go n.Run(ctx)
+	go n.Run()
 }
-func (n *connectionManager) Run(ctx context.Context) {
+func (n *connectionManager) Run() {
-	clockSource := time.NewTicker(500 * time.Millisecond)
+	clockSource := time.Tick(500 * time.Millisecond)
 	defer clockSource.Stop()
-	p := []byte("")
+	for now := range clockSource {
-	nb := make([]byte, 12, 12)
+		n.HandleMonitorTick(now)
 	out := make([]byte, mtu)
 	for {
 		select {
 		case <-ctx.Done():
 			return
 		case now := <-clockSource.C:
 			n.HandleMonitorTick(now, p, nb, out)
 		n.HandleDeletionTick(now)
 	}
 }
 }
-func (n *connectionManager) HandleMonitorTick(now time.Time, p, nb, out []byte) {
+func (n *connectionManager) HandleMonitorTick(now time.Time) {
 	n.TrafficTimer.advance(now)
 	for {
 		ep := n.TrafficTimer.Purge()
@@ -171,51 +156,44 @@ func (n *connectionManager) HandleMonitorTick(now time.Time, p, nb, out []byte)
 			break
 		}
-		vpnIp := ep.(iputil.VpnIp)
+		vpnIP := ep.(uint32)
 		// Check for traffic coming back in from this host.
-		traf := n.CheckIn(vpnIp)
+		traf := n.CheckIn(vpnIP)
-		hostinfo, err := n.hostMap.QueryVpnIp(vpnIp)
+		// If we saw incoming packets from this ip, just return
 		if err != nil {
 			n.l.Debugf("Not found in hostmap: %s", vpnIp)
 			if !n.intf.disconnectInvalid {
 				n.ClearIP(vpnIp)
 				n.ClearPendingDeletion(vpnIp)
 				continue
 			}
 		}
 		if n.handleInvalidCertificate(now, vpnIp, hostinfo) {
 			continue
 		}
 		// If we saw an incoming packets from this ip and peer's certificate is not
 		// expired, just ignore.
 		if traf {
-			if n.l.Level >= logrus.DebugLevel {
+			if l.Level >= logrus.DebugLevel {
-				n.l.WithField("vpnIp", vpnIp).
+				l.WithField("vpnIp", IntIp(vpnIP)).
 					WithField("tunnelCheck", m{"state": "alive", "method": "passive"}).
 					Debug("Tunnel status")
 			}
-			n.ClearIP(vpnIp)
+			n.ClearIP(vpnIP)
-			n.ClearPendingDeletion(vpnIp)
+			n.ClearPendingDeletion(vpnIP)
 			continue
 		}
-		hostinfo.logger(n.l).
+		// If we didn't we may need to probe or destroy the conn
 		hostinfo, err := n.hostMap.QueryVpnIP(vpnIP)
 		if err != nil {
 			l.Debugf("Not found in hostmap: %s", IntIp(vpnIP))
 			n.ClearIP(vpnIP)
 			n.ClearPendingDeletion(vpnIP)
 			continue
 		}
 		hostinfo.logger().
 			WithField("tunnelCheck", m{"state": "testing", "method": "active"}).
 			Debug("Tunnel status")
 		if hostinfo != nil && hostinfo.ConnectionState != nil {
 			// Send a test packet to trigger an authenticated tunnel test, this should suss out any lingering tunnel issues
-			n.intf.SendMessageToVpnIp(header.Test, header.TestRequest, vpnIp, p, nb, out)
+			n.intf.SendMessageToVpnIp(test, testRequest, vpnIP, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 		} else {
-			hostinfo.logger(n.l).Debugf("Hostinfo sadness: %s", vpnIp)
+			hostinfo.logger().Debugf("Hostinfo sadness: %s", IntIp(vpnIP))
 		}
-		n.AddPendingDeletion(vpnIp)
+		n.AddPendingDeletion(vpnIP)
 	}
 }
@@ -228,88 +206,49 @@ func (n *connectionManager) HandleDeletionTick(now time.Time) {
 			break
 		}
-		vpnIp := ep.(iputil.VpnIp)
+		vpnIP := ep.(uint32)
-		hostinfo, err := n.hostMap.QueryVpnIp(vpnIp)
+		// If we saw incoming packets from this ip, just return
-		if err != nil {
+		traf := n.CheckIn(vpnIP)
 			n.l.Debugf("Not found in hostmap: %s", vpnIp)
 			if !n.intf.disconnectInvalid {
 				n.ClearIP(vpnIp)
 				n.ClearPendingDeletion(vpnIp)
 				continue
 			}
 		}
 		if n.handleInvalidCertificate(now, vpnIp, hostinfo) {
 			continue
 		}
 		// If we saw an incoming packets from this ip and peer's certificate is not
 		// expired, just ignore.
 		traf := n.CheckIn(vpnIp)
 		if traf {
-			n.l.WithField("vpnIp", vpnIp).
+			l.WithField("vpnIp", IntIp(vpnIP)).
 				WithField("tunnelCheck", m{"state": "alive", "method": "active"}).
 				Debug("Tunnel status")
 			n.ClearIP(vpnIP)
 			n.ClearPendingDeletion(vpnIP)
 			continue
 		}
-			n.ClearIP(vpnIp)
+		hostinfo, err := n.hostMap.QueryVpnIP(vpnIP)
-			n.ClearPendingDeletion(vpnIp)
+		if err != nil {
 			n.ClearIP(vpnIP)
 			n.ClearPendingDeletion(vpnIP)
 			l.Debugf("Not found in hostmap: %s", IntIp(vpnIP))
 			continue
 		}
 		// If it comes around on deletion wheel and hasn't resolved itself, delete
-		if n.checkPendingDeletion(vpnIp) {
+		if n.checkPendingDeletion(vpnIP) {
 			cn := ""
 			if hostinfo.ConnectionState != nil && hostinfo.ConnectionState.peerCert != nil {
 				cn = hostinfo.ConnectionState.peerCert.Details.Name
 			}
-			hostinfo.logger(n.l).
+			hostinfo.logger().
 				WithField("tunnelCheck", m{"state": "dead", "method": "active"}).
 				WithField("certName", cn).
 				Info("Tunnel status")
-			n.ClearIP(vpnIp)
+			n.ClearIP(vpnIP)
-			n.ClearPendingDeletion(vpnIp)
+			n.ClearPendingDeletion(vpnIP)
 			// TODO: This is only here to let tests work. Should do proper mocking
 			if n.intf.lightHouse != nil {
-				n.intf.lightHouse.DeleteVpnIp(vpnIp)
+				n.intf.lightHouse.DeleteVpnIP(vpnIP)
 			}
-			n.hostMap.DeleteHostInfo(hostinfo)
+			n.hostMap.DeleteVpnIP(vpnIP)
 			n.hostMap.DeleteIndex(hostinfo.localIndexId)
 		} else {
-			n.ClearIP(vpnIp)
+			n.ClearIP(vpnIP)
-			n.ClearPendingDeletion(vpnIp)
+			n.ClearPendingDeletion(vpnIP)
 		}
 	}
 }
 // handleInvalidCertificates will destroy a tunnel if pki.disconnect_invalid is true and the certificate is no longer valid
 func (n *connectionManager) handleInvalidCertificate(now time.Time, vpnIp iputil.VpnIp, hostinfo *HostInfo) bool {
 	if !n.intf.disconnectInvalid {
 		return false
 	}
 	remoteCert := hostinfo.GetCert()
 	if remoteCert == nil {
 		return false
 	}
 	valid, err := remoteCert.Verify(now, n.intf.caPool)
 	if valid {
 		return false
 	}
 	fingerprint, _ := remoteCert.Sha256Sum()
 	n.l.WithField("vpnIp", vpnIp).WithError(err).
 		WithField("certName", remoteCert.Details.Name).
 		WithField("fingerprint", fingerprint).
 		Info("Remote certificate is no longer valid, tearing down the tunnel")
 	// Inform the remote and close the tunnel locally
 	n.intf.sendCloseTunnel(hostinfo)
 	n.intf.closeTunnel(hostinfo, false)
 	n.ClearIP(vpnIp)
 	n.ClearPendingDeletion(vpnIp)
 	return true
 }
--- a/connection_manager_test.go
+++ b/connection_manager_test.go
@@ -1,33 +1,26 @@
 package nebula
 import (
 	"context"
 	"crypto/ed25519"
 	"crypto/rand"
 	"net"
 	"testing"
 	"time"
 	"github.com/flynn/noise"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/test"
 	"github.com/slackhq/nebula/udp"
 	"github.com/stretchr/testify/assert"
 )
-var vpnIp iputil.VpnIp
+var vpnIP uint32
 func Test_NewConnectionManagerTest(t *testing.T) {
 	l := test.NewLogger()
 	//_, tuncidr, _ := net.ParseCIDR("1.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
-	vpnIp = iputil.Ip2VpnIp(net.ParseIP("172.1.1.2"))
+	vpnIP = ip2int(net.ParseIP("172.1.1.2"))
 	preferredRanges := []*net.IPNet{localrange}
 	// Very incomplete mock objects
-	hostMap := NewHostMap(l, "test", vpncidr, preferredRanges)
+	hostMap := NewHostMap("test", vpncidr, preferredRanges)
 	cs := &CertState{
 		rawCertificate:      []byte{},
 		privateKey:          []byte{},
@@ -35,68 +28,62 @@ func Test_NewConnectionManagerTest(t *testing.T) {
 		rawCertificateNoKey: []byte{},
 	}
-	lh := NewLightHouse(l, false, &net.IPNet{IP: net.IP{0, 0, 0, 0}, Mask: net.IPMask{0, 0, 0, 0}}, []iputil.VpnIp{}, 1000, 0, &udp.Conn{}, false, 1, false)
+	lh := NewLightHouse(false, 0, []uint32{}, 1000, 0, &udpConn{}, false, 1, false)
 	ifce := &Interface{
 		hostMap:          hostMap,
-		inside:           &test.NoopTun{},
+		inside:           &Tun{},
-		outside:          &udp.Conn{},
+		outside:          &udpConn{},
 		certState:        cs,
 		firewall:         &Firewall{},
 		lightHouse:       lh,
-		handshakeManager: NewHandshakeManager(l, vpncidr, preferredRanges, hostMap, lh, &udp.Conn{}, defaultHandshakeConfig),
+		handshakeManager: NewHandshakeManager(vpncidr, preferredRanges, hostMap, lh, &udpConn{}, defaultHandshakeConfig),
 		l:                l,
 	}
 	now := time.Now()
 	// Create manager
-	ctx, cancel := context.WithCancel(context.Background())
+	nc := newConnectionManager(ifce, 5, 10)
-	defer cancel()
+	nc.HandleMonitorTick(now)
 	nc := newConnectionManager(ctx, l, ifce, 5, 10)
 	p := []byte("")
 	nb := make([]byte, 12, 12)
 	out := make([]byte, mtu)
 	nc.HandleMonitorTick(now, p, nb, out)
 	// Add an ip we have established a connection w/ to hostmap
-	hostinfo, _ := nc.hostMap.AddVpnIp(vpnIp, nil)
+	hostinfo := nc.hostMap.AddVpnIP(vpnIP)
 	hostinfo.ConnectionState = &ConnectionState{
 		certState:      cs,
 		H:              &noise.HandshakeState{},
 		messageCounter: new(uint64),
 	}
-	// We saw traffic out to vpnIp
+	// We saw traffic out to vpnIP
-	nc.Out(vpnIp)
+	nc.Out(vpnIP)
-	assert.NotContains(t, nc.pendingDeletion, vpnIp)
+	assert.NotContains(t, nc.pendingDeletion, vpnIP)
-	assert.Contains(t, nc.hostMap.Hosts, vpnIp)
+	assert.Contains(t, nc.hostMap.Hosts, vpnIP)
 	// Move ahead 5s. Nothing should happen
 	next_tick := now.Add(5 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// Move ahead 6s. We haven't heard back
 	next_tick = now.Add(6 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// This host should now be up for deletion
-	assert.Contains(t, nc.pendingDeletion, vpnIp)
+	assert.Contains(t, nc.pendingDeletion, vpnIP)
-	assert.Contains(t, nc.hostMap.Hosts, vpnIp)
+	assert.Contains(t, nc.hostMap.Hosts, vpnIP)
 	// Move ahead some more
 	next_tick = now.Add(45 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// The host should be evicted
-	assert.NotContains(t, nc.pendingDeletion, vpnIp)
+	assert.NotContains(t, nc.pendingDeletion, vpnIP)
-	assert.NotContains(t, nc.hostMap.Hosts, vpnIp)
+	assert.NotContains(t, nc.hostMap.Hosts, vpnIP)
 }
 func Test_NewConnectionManagerTest2(t *testing.T) {
 	l := test.NewLogger()
 	//_, tuncidr, _ := net.ParseCIDR("1.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
 	preferredRanges := []*net.IPNet{localrange}
 	// Very incomplete mock objects
-	hostMap := NewHostMap(l, "test", vpncidr, preferredRanges)
+	hostMap := NewHostMap("test", vpncidr, preferredRanges)
 	cs := &CertState{
 		rawCertificate:      []byte{},
 		privateKey:          []byte{},
@@ -104,152 +91,52 @@ func Test_NewConnectionManagerTest2(t *testing.T) {
 		rawCertificateNoKey: []byte{},
 	}
-	lh := NewLightHouse(l, false, &net.IPNet{IP: net.IP{0, 0, 0, 0}, Mask: net.IPMask{0, 0, 0, 0}}, []iputil.VpnIp{}, 1000, 0, &udp.Conn{}, false, 1, false)
+	lh := NewLightHouse(false, 0, []uint32{}, 1000, 0, &udpConn{}, false, 1, false)
 	ifce := &Interface{
 		hostMap:          hostMap,
-		inside:           &test.NoopTun{},
+		inside:           &Tun{},
-		outside:          &udp.Conn{},
+		outside:          &udpConn{},
 		certState:        cs,
 		firewall:         &Firewall{},
 		lightHouse:       lh,
-		handshakeManager: NewHandshakeManager(l, vpncidr, preferredRanges, hostMap, lh, &udp.Conn{}, defaultHandshakeConfig),
+		handshakeManager: NewHandshakeManager(vpncidr, preferredRanges, hostMap, lh, &udpConn{}, defaultHandshakeConfig),
 		l:                l,
 	}
 	now := time.Now()
 	// Create manager
-	ctx, cancel := context.WithCancel(context.Background())
+	nc := newConnectionManager(ifce, 5, 10)
-	defer cancel()
+	nc.HandleMonitorTick(now)
 	nc := newConnectionManager(ctx, l, ifce, 5, 10)
 	p := []byte("")
 	nb := make([]byte, 12, 12)
 	out := make([]byte, mtu)
 	nc.HandleMonitorTick(now, p, nb, out)
 	// Add an ip we have established a connection w/ to hostmap
-	hostinfo, _ := nc.hostMap.AddVpnIp(vpnIp, nil)
+	hostinfo := nc.hostMap.AddVpnIP(vpnIP)
 	hostinfo.ConnectionState = &ConnectionState{
 		certState:      cs,
 		H:              &noise.HandshakeState{},
 		messageCounter: new(uint64),
 	}
-	// We saw traffic out to vpnIp
+	// We saw traffic out to vpnIP
-	nc.Out(vpnIp)
+	nc.Out(vpnIP)
-	assert.NotContains(t, nc.pendingDeletion, vpnIp)
+	assert.NotContains(t, nc.pendingDeletion, vpnIP)
-	assert.Contains(t, nc.hostMap.Hosts, vpnIp)
+	assert.Contains(t, nc.hostMap.Hosts, vpnIP)
 	// Move ahead 5s. Nothing should happen
 	next_tick := now.Add(5 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// Move ahead 6s. We haven't heard back
 	next_tick = now.Add(6 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// This host should now be up for deletion
-	assert.Contains(t, nc.pendingDeletion, vpnIp)
+	assert.Contains(t, nc.pendingDeletion, vpnIP)
-	assert.Contains(t, nc.hostMap.Hosts, vpnIp)
+	assert.Contains(t, nc.hostMap.Hosts, vpnIP)
 	// We heard back this time
-	nc.In(vpnIp)
+	nc.In(vpnIP)
 	// Move ahead some more
 	next_tick = now.Add(45 * time.Second)
-	nc.HandleMonitorTick(next_tick, p, nb, out)
+	nc.HandleMonitorTick(next_tick)
 	nc.HandleDeletionTick(next_tick)
 	// The host should be evicted
-	assert.NotContains(t, nc.pendingDeletion, vpnIp)
+	assert.NotContains(t, nc.pendingDeletion, vpnIP)
-	assert.Contains(t, nc.hostMap.Hosts, vpnIp)
+	assert.Contains(t, nc.hostMap.Hosts, vpnIP)
 }
 // Check if we can disconnect the peer.
 // Validate if the peer's certificate is invalid (expired, etc.)
 // Disconnect only if disconnectInvalid: true is set.
 func Test_NewConnectionManagerTest_DisconnectInvalid(t *testing.T) {
 	now := time.Now()
 	l := test.NewLogger()
 	ipNet := net.IPNet{
 		IP:   net.IPv4(172, 1, 1, 2),
 		Mask: net.IPMask{255, 255, 255, 0},
 	}
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
 	preferredRanges := []*net.IPNet{localrange}
 	hostMap := NewHostMap(l, "test", vpncidr, preferredRanges)
 	// Generate keys for CA and peer's cert.
 	pubCA, privCA, _ := ed25519.GenerateKey(rand.Reader)
 	caCert := cert.NebulaCertificate{
 		Details: cert.NebulaCertificateDetails{
 			Name:      "ca",
 			NotBefore: now,
 			NotAfter:  now.Add(1 * time.Hour),
 			IsCA:      true,
 			PublicKey: pubCA,
 		},
 	}
 	caCert.Sign(privCA)
 	ncp := &cert.NebulaCAPool{
 		CAs: cert.NewCAPool().CAs,
 	}
 	ncp.CAs["ca"] = &caCert
 	pubCrt, _, _ := ed25519.GenerateKey(rand.Reader)
 	peerCert := cert.NebulaCertificate{
 		Details: cert.NebulaCertificateDetails{
 			Name:      "host",
 			Ips:       []*net.IPNet{&ipNet},
 			Subnets:   []*net.IPNet{},
 			NotBefore: now,
 			NotAfter:  now.Add(60 * time.Second),
 			PublicKey: pubCrt,
 			IsCA:      false,
 			Issuer:    "ca",
 		},
 	}
 	peerCert.Sign(privCA)
 	cs := &CertState{
 		rawCertificate:      []byte{},
 		privateKey:          []byte{},
 		certificate:         &cert.NebulaCertificate{},
 		rawCertificateNoKey: []byte{},
 	}
 	lh := NewLightHouse(l, false, &net.IPNet{IP: net.IP{0, 0, 0, 0}, Mask: net.IPMask{0, 0, 0, 0}}, []iputil.VpnIp{}, 1000, 0, &udp.Conn{}, false, 1, false)
 	ifce := &Interface{
 		hostMap:           hostMap,
 		inside:            &test.NoopTun{},
 		outside:           &udp.Conn{},
 		certState:         cs,
 		firewall:          &Firewall{},
 		lightHouse:        lh,
 		handshakeManager:  NewHandshakeManager(l, vpncidr, preferredRanges, hostMap, lh, &udp.Conn{}, defaultHandshakeConfig),
 		l:                 l,
 		disconnectInvalid: true,
 		caPool:            ncp,
 	}
 	// Create manager
 	ctx, cancel := context.WithCancel(context.Background())
 	defer cancel()
 	nc := newConnectionManager(ctx, l, ifce, 5, 10)
 	ifce.connectionManager = nc
 	hostinfo, _ := nc.hostMap.AddVpnIp(vpnIp, nil)
 	hostinfo.ConnectionState = &ConnectionState{
 		certState: cs,
 		peerCert:  &peerCert,
 		H:         &noise.HandshakeState{},
 	}
 	// Move ahead 45s.
 	// Check if to disconnect with invalid certificate.
 	// Should be alive.
 	nextTick := now.Add(45 * time.Second)
 	destroyed := nc.handleInvalidCertificate(nextTick, vpnIp, hostinfo)
 	assert.False(t, destroyed)
 	// Move ahead 61s.
 	// Check if to disconnect with invalid certificate.
 	// Should be disconnected.
 	nextTick = now.Add(61 * time.Second)
 	destroyed = nc.handleInvalidCertificate(nextTick, vpnIp, hostinfo)
 	assert.True(t, destroyed)
 }
--- a/connection_state.go
+++ b/connection_state.go
@@ -4,10 +4,8 @@ import (
 	"crypto/rand"
 	"encoding/json"
 	"sync"
 	"sync/atomic"
 	"github.com/flynn/noise"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
 )
@@ -20,14 +18,14 @@ type ConnectionState struct {
 	certState      *CertState
 	peerCert       *cert.NebulaCertificate
 	initiator      bool
-	atomicMessageCounter uint64
+	messageCounter *uint64
 	window         *Bits
 	queueLock      sync.Mutex
 	writeLock      sync.Mutex
 	ready          bool
 }
-func (f *Interface) newConnectionState(l *logrus.Logger, initiator bool, pattern noise.HandshakePattern, psk []byte, pskStage int) *ConnectionState {
+func (f *Interface) newConnectionState(initiator bool, pattern noise.HandshakePattern, psk []byte, pskStage int) *ConnectionState {
 	cs := noise.NewCipherSuite(noise.DH25519, noise.CipherAESGCM, noise.HashSHA256)
 	if f.cipher == "chachapoly" {
 		cs = noise.NewCipherSuite(noise.DH25519, noise.CipherChaChaPoly, noise.HashSHA256)
@@ -38,7 +36,7 @@ func (f *Interface) newConnectionState(l *logrus.Logger, initiator bool, pattern
 	b := NewBits(ReplayWindow)
 	// Clear out bit 0, we never transmit it and we don't want it showing as packet loss
-	b.Update(l, 0)
+	b.Update(0)
 	hs, err := noise.NewHandshakeState(noise.Config{
 		CipherSuite:           cs,
@@ -61,6 +59,7 @@ func (f *Interface) newConnectionState(l *logrus.Logger, initiator bool, pattern
 		window:         b,
 		ready:          false,
 		certState:      curCertState,
 		messageCounter: new(uint64),
 	}
 	return ci
@@ -70,7 +69,7 @@ func (cs *ConnectionState) MarshalJSON() ([]byte, error) {
 	return json.Marshal(m{
 		"certificate":     cs.peerCert,
 		"initiator":       cs.initiator,
-		"message_counter": atomic.LoadUint64(&cs.atomicMessageCounter),
+		"message_counter": cs.messageCounter,
 		"ready":           cs.ready,
 	})
 }
--- a/control.go
+++ b/control.go
@@ -1,18 +1,16 @@
 package nebula
 import (
-	"context"
+	"encoding/binary"
 	"fmt"
 	"net"
 	"os"
 	"os/signal"
 	"sync/atomic"
 	"syscall"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
-	"github.com/slackhq/nebula/header"
+	"golang.org/x/net/ipv4"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 )
 // Every interaction here needs to take extra care to copy memory and not return or use arguments "as is" when touching
@@ -21,51 +19,37 @@ import (
 type Control struct {
 	f *Interface
 	l *logrus.Logger
 	cancel     context.CancelFunc
 	sshStart   func()
 	statsStart func()
 	dnsStart   func()
 }
 type ControlHostInfo struct {
-	VpnIp          net.IP                  `json:"vpnIp"`
+	VpnIP          net.IP                  `json:"vpnIp"`
 	LocalIndex     uint32                  `json:"localIndex"`
 	RemoteIndex    uint32                  `json:"remoteIndex"`
-	RemoteAddrs    []*udp.Addr             `json:"remoteAddrs"`
+	RemoteAddrs    []udpAddr               `json:"remoteAddrs"`
 	CachedPackets  int                     `json:"cachedPackets"`
 	Cert           *cert.NebulaCertificate `json:"cert"`
 	MessageCounter uint64                  `json:"messageCounter"`
-	CurrentRemote  *udp.Addr               `json:"currentRemote"`
+	CurrentRemote  udpAddr                 `json:"currentRemote"`
 }
 // Start actually runs nebula, this is a nonblocking call. To block use Control.ShutdownBlock()
 func (c *Control) Start() {
 	// Activate the interface
 	c.f.activate()
 	// Call all the delayed funcs that waited patiently for the interface to be created.
 	if c.sshStart != nil {
 		go c.sshStart()
 	}
 	if c.statsStart != nil {
 		go c.statsStart()
 	}
 	if c.dnsStart != nil {
 		go c.dnsStart()
 	}
 	// Start reading packets.
 	c.f.run()
 }
 // Stop signals nebula to shutdown, returns after the shutdown is complete
 func (c *Control) Stop() {
 	//TODO: stop tun and udp routines, the lock on hostMap effectively does that though
-	c.CloseAllTunnels(false)
+	//TODO: this is probably better as a function in ConnectionManager or HostMap directly
-	if err := c.f.Close(); err != nil {
+	c.f.hostMap.Lock()
-		c.l.WithError(err).Error("Close interface failed")
+	for _, h := range c.f.hostMap.Hosts {
 		if h.ConnectionState.ready {
 			c.f.send(closeTunnel, 0, h.ConnectionState, h, h.remote, []byte{}, make([]byte, 12, 12), make([]byte, mtu))
 			c.l.WithField("vpnIp", IntIp(h.hostId)).WithField("udpAddr", h.remote).
 				Debug("Sending close tunnel message")
 		}
-	c.cancel()
+	}
 	c.f.hostMap.Unlock()
 	c.l.Info("Goodbye")
 }
@@ -84,25 +68,31 @@ func (c *Control) ShutdownBlock() {
 // RebindUDPServer asks the UDP listener to rebind it's listener. Mainly used on mobile clients when interfaces change
 func (c *Control) RebindUDPServer() {
 	_ = c.f.outside.Rebind()
 	// Trigger a lighthouse update, useful for mobile clients that should have an update interval of 0
 	c.f.lightHouse.SendUpdate(c.f)
 	// Let the main interface know that we rebound so that underlying tunnels know to trigger punches from their remotes
 	c.f.rebindCount++
 }
 // ListHostmap returns details about the actual or pending (handshaking) hostmap
 func (c *Control) ListHostmap(pendingMap bool) []ControlHostInfo {
 	var hm *HostMap
 	if pendingMap {
-		return listHostMap(c.f.handshakeManager.pendingHostMap)
+		hm = c.f.handshakeManager.pendingHostMap
 	} else {
-		return listHostMap(c.f.hostMap)
+		hm = c.f.hostMap
 	}
 	}
-// GetHostInfoByVpnIp returns a single tunnels hostInfo, or nil if not found
+	hm.RLock()
-func (c *Control) GetHostInfoByVpnIp(vpnIp iputil.VpnIp, pending bool) *ControlHostInfo {
+	hosts := make([]ControlHostInfo, len(hm.Hosts))
 	i := 0
 	for _, v := range hm.Hosts {
 		hosts[i] = copyHostInfo(v)
 		i++
 	}
 	hm.RUnlock()
 	return hosts
 }
 // GetHostInfoByVpnIP returns a single tunnels hostInfo, or nil if not found
 func (c *Control) GetHostInfoByVpnIP(vpnIP uint32, pending bool) *ControlHostInfo {
 	var hm *HostMap
 	if pending {
 		hm = c.f.handshakeManager.pendingHostMap
@@ -110,37 +100,37 @@ func (c *Control) GetHostInfoByVpnIp(vpnIp iputil.VpnIp, pending bool) *ControlH
 		hm = c.f.hostMap
 	}
-	h, err := hm.QueryVpnIp(vpnIp)
+	h, err := hm.QueryVpnIP(vpnIP)
 	if err != nil {
 		return nil
 	}
-	ch := copyHostInfo(h, c.f.hostMap.preferredRanges)
+	ch := copyHostInfo(h)
 	return &ch
 }
 // SetRemoteForTunnel forces a tunnel to use a specific remote
-func (c *Control) SetRemoteForTunnel(vpnIp iputil.VpnIp, addr udp.Addr) *ControlHostInfo {
+func (c *Control) SetRemoteForTunnel(vpnIP uint32, addr udpAddr) *ControlHostInfo {
-	hostInfo, err := c.f.hostMap.QueryVpnIp(vpnIp)
+	hostInfo, err := c.f.hostMap.QueryVpnIP(vpnIP)
 	if err != nil {
 		return nil
 	}
 	hostInfo.SetRemote(addr.Copy())
-	ch := copyHostInfo(hostInfo, c.f.hostMap.preferredRanges)
+	ch := copyHostInfo(hostInfo)
 	return &ch
 }
 // CloseTunnel closes a fully established tunnel. If localOnly is false it will notify the remote end as well.
-func (c *Control) CloseTunnel(vpnIp iputil.VpnIp, localOnly bool) bool {
+func (c *Control) CloseTunnel(vpnIP uint32, localOnly bool) bool {
-	hostInfo, err := c.f.hostMap.QueryVpnIp(vpnIp)
+	hostInfo, err := c.f.hostMap.QueryVpnIP(vpnIP)
 	if err != nil {
 		return false
 	}
 	if !localOnly {
 		c.f.send(
-			header.CloseTunnel,
+			closeTunnel,
 			0,
 			hostInfo.ConnectionState,
 			hostInfo,
@@ -151,46 +141,19 @@ func (c *Control) CloseTunnel(vpnIp iputil.VpnIp, localOnly bool) bool {
 		)
 	}
-	c.f.closeTunnel(hostInfo, false)
+	c.f.closeTunnel(hostInfo)
 	return true
 }
-// CloseAllTunnels is just like CloseTunnel except it goes through and shuts them all down, optionally you can avoid shutting down lighthouse tunnels
+func copyHostInfo(h *HostInfo) ControlHostInfo {
-// the int returned is a count of tunnels closed
+	addrs := h.RemoteUDPAddrs()
 func (c *Control) CloseAllTunnels(excludeLighthouses bool) (closed int) {
 	//TODO: this is probably better as a function in ConnectionManager or HostMap directly
 	c.f.hostMap.Lock()
 	for _, h := range c.f.hostMap.Hosts {
 		if excludeLighthouses {
 			if _, ok := c.f.lightHouse.lighthouses[h.vpnIp]; ok {
 				continue
 			}
 		}
 		if h.ConnectionState.ready {
 			c.f.send(header.CloseTunnel, 0, h.ConnectionState, h, h.remote, []byte{}, make([]byte, 12, 12), make([]byte, mtu))
 			c.f.closeTunnel(h, true)
 			c.l.WithField("vpnIp", h.vpnIp).WithField("udpAddr", h.remote).
 				Debug("Sending close tunnel message")
 			closed++
 		}
 	}
 	c.f.hostMap.Unlock()
 	return
 }
 func copyHostInfo(h *HostInfo, preferredRanges []*net.IPNet) ControlHostInfo {
 	chi := ControlHostInfo{
-		VpnIp:         h.vpnIp.ToIP(),
+		VpnIP:          int2ip(h.hostId),
 		LocalIndex:     h.localIndexId,
 		RemoteIndex:    h.remoteIndexId,
-		RemoteAddrs:   h.remotes.CopyAddrs(preferredRanges),
+		RemoteAddrs:    make([]udpAddr, len(addrs), len(addrs)),
 		CachedPackets:  len(h.packetStore),
-	}
+		MessageCounter: *h.ConnectionState.messageCounter,
 	if h.ConnectionState != nil {
 		chi.MessageCounter = atomic.LoadUint64(&h.ConnectionState.atomicMessageCounter)
 	}
 	if c := h.GetCert(); c != nil {
@@ -198,21 +161,56 @@ func copyHostInfo(h *HostInfo, preferredRanges []*net.IPNet) ControlHostInfo {
 	}
 	if h.remote != nil {
-		chi.CurrentRemote = h.remote.Copy()
+		chi.CurrentRemote = *h.remote
 	}
 	for i, addr := range addrs {
 		chi.RemoteAddrs[i] = addr.Copy()
 	}
 	return chi
 }
-func listHostMap(hm *HostMap) []ControlHostInfo {
+// Hook provides the ability to hook into the network path for a particular
-	hm.RLock()
+// message sub type. Any received message of that subtype that is allowed by
-	hosts := make([]ControlHostInfo, len(hm.Hosts))
+// the firewall will be written to the provided write func instead of the
-	i := 0
+// inside interface.
-	for _, v := range hm.Hosts {
+// TODO: make this an io.Writer
-		hosts[i] = copyHostInfo(v, hm.preferredRanges)
+func (c *Control) Hook(t NebulaMessageSubType, w func([]byte) error) error {
-		i++
+	if t == 0 {
 		return fmt.Errorf("non-default message subtype must be specified")
 	}
 	if _, ok := c.f.handlers[Version][message][t]; ok {
 		return fmt.Errorf("message subtype %d already hooked", t)
 	}
 	hm.RUnlock()
-	return hosts
+	c.f.handlers[Version][message][t] = c.f.newHook(w)
 	return nil
 }
 // Send provides the ability to send arbitrary message packets to peer nodes.
 // The provided payload will be encapsulated in a Nebula Firewall packet
 // (IPv4 plus ports) from the node IP to the provided destination nebula IP.
 // Any protocol handling above layer 3 (IP) must be managed by the caller.
 func (c *Control) Send(ip uint32, port uint16, st NebulaMessageSubType, payload []byte) {
 	headerLen := ipv4.HeaderLen + minFwPacketLen
 	length := headerLen + len(payload)
 	packet := make([]byte, length)
 	packet[0] = 0x45 // IPv4 HL=20
 	packet[9] = 114  // Declare as arbitrary 0-hop protocol
 	binary.BigEndian.PutUint16(packet[2:4], uint16(length))
 	binary.BigEndian.PutUint32(packet[12:16], ip2int(c.f.inside.CidrNet().IP.To4()))
 	binary.BigEndian.PutUint32(packet[16:20], ip)
 	// Set identical values for src and dst port as they're only
 	// used for nebula firewall rule/conntrack matching.
 	binary.BigEndian.PutUint16(packet[20:22], port)
 	binary.BigEndian.PutUint16(packet[22:24], port)
 	copy(packet[headerLen:], payload)
 	fp := &FirewallPacket{}
 	nb := make([]byte, 12)
 	out := make([]byte, mtu)
 	c.f.consumeInsidePacket(st, packet, fp, nb, out)
 }
--- a/control_test.go
+++ b/control_test.go
@@ -8,26 +8,23 @@ import (
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
-	"github.com/slackhq/nebula/iputil"
+	"github.com/slackhq/nebula/util"
 	"github.com/slackhq/nebula/test"
 	"github.com/slackhq/nebula/udp"
 	"github.com/stretchr/testify/assert"
 )
-func TestControl_GetHostInfoByVpnIp(t *testing.T) {
+func TestControl_GetHostInfoByVpnIP(t *testing.T) {
 	l := test.NewLogger()
 	// Special care must be taken to re-use all objects provided to the hostmap and certificate in the expectedInfo object
 	// To properly ensure we are not exposing core memory to the caller
-	hm := NewHostMap(l, "test", &net.IPNet{}, make([]*net.IPNet, 0))
+	hm := NewHostMap("test", &net.IPNet{}, make([]*net.IPNet, 0))
-	remote1 := udp.NewAddr(net.ParseIP("0.0.0.100"), 4444)
+	remote1 := NewUDPAddr(100, 4444)
-	remote2 := udp.NewAddr(net.ParseIP("1:2:3:4:5:6:7:8"), 4444)
+	remote2 := NewUDPAddr(101, 4444)
 	ipNet := net.IPNet{
 		IP:   net.IPv4(1, 2, 3, 4),
 		Mask: net.IPMask{255, 255, 255, 0},
 	}
 	ipNet2 := net.IPNet{
-		IP:   net.ParseIP("1:2:3:4:5:6:7:8"),
+		IP:   net.IPv4(1, 2, 3, 5),
 		Mask: net.IPMask{255, 255, 255, 0},
 	}
@@ -46,30 +43,31 @@ func TestControl_GetHostInfoByVpnIp(t *testing.T) {
 		},
 		Signature: []byte{1, 2, 1, 2, 1, 3},
 	}
 	counter := uint64(0)
-	remotes := NewRemoteList()
+	remotes := []*HostInfoDest{NewHostInfoDest(remote1), NewHostInfoDest(remote2)}
-	remotes.unlockedPrependV4(0, NewIp4AndPort(remote1.IP, uint32(remote1.Port)))
+	hm.Add(ip2int(ipNet.IP), &HostInfo{
 	remotes.unlockedPrependV6(0, NewIp6AndPort(remote2.IP, uint32(remote2.Port)))
 	hm.Add(iputil.Ip2VpnIp(ipNet.IP), &HostInfo{
 		remote:  remote1,
-		remotes: remotes,
+		Remotes: remotes,
 		ConnectionState: &ConnectionState{
 			peerCert:       crt,
 			messageCounter: &counter,
 		},
 		remoteIndexId: 200,
 		localIndexId:  201,
-		vpnIp:         iputil.Ip2VpnIp(ipNet.IP),
+		hostId:        ip2int(ipNet.IP),
 	})
-	hm.Add(iputil.Ip2VpnIp(ipNet2.IP), &HostInfo{
+	hm.Add(ip2int(ipNet2.IP), &HostInfo{
 		remote:  remote1,
-		remotes: remotes,
+		Remotes: remotes,
 		ConnectionState: &ConnectionState{
 			peerCert:       nil,
 			messageCounter: &counter,
 		},
 		remoteIndexId: 200,
 		localIndexId:  201,
-		vpnIp:         iputil.Ip2VpnIp(ipNet2.IP),
+		hostId:        ip2int(ipNet2.IP),
 	})
 	c := Control{
@@ -79,26 +77,26 @@ func TestControl_GetHostInfoByVpnIp(t *testing.T) {
 		l: logrus.New(),
 	}
-	thi := c.GetHostInfoByVpnIp(iputil.Ip2VpnIp(ipNet.IP), false)
+	thi := c.GetHostInfoByVpnIP(ip2int(ipNet.IP), false)
 	expectedInfo := ControlHostInfo{
-		VpnIp:          net.IPv4(1, 2, 3, 4).To4(),
+		VpnIP:          net.IPv4(1, 2, 3, 4).To4(),
 		LocalIndex:     201,
 		RemoteIndex:    200,
-		RemoteAddrs:    []*udp.Addr{remote2, remote1},
+		RemoteAddrs:    []udpAddr{*remote1, *remote2},
 		CachedPackets:  0,
 		Cert:           crt.Copy(),
 		MessageCounter: 0,
-		CurrentRemote:  udp.NewAddr(net.ParseIP("0.0.0.100"), 4444),
+		CurrentRemote:  *NewUDPAddr(100, 4444),
 	}
 	// Make sure we don't have any unexpected fields
-	assertFields(t, []string{"VpnIp", "LocalIndex", "RemoteIndex", "RemoteAddrs", "CachedPackets", "Cert", "MessageCounter", "CurrentRemote"}, thi)
+	assertFields(t, []string{"VpnIP", "LocalIndex", "RemoteIndex", "RemoteAddrs", "CachedPackets", "Cert", "MessageCounter", "CurrentRemote"}, thi)
-	test.AssertDeepCopyEqual(t, &expectedInfo, thi)
+	util.AssertDeepCopyEqual(t, &expectedInfo, thi)
 	// Make sure we don't panic if the host info doesn't have a cert yet
 	assert.NotPanics(t, func() {
-		thi = c.GetHostInfoByVpnIp(iputil.Ip2VpnIp(ipNet2.IP), false)
+		thi = c.GetHostInfoByVpnIP(ip2int(ipNet2.IP), false)
 	})
 }
--- a/control_tester.go
+++ b/control_tester.go
@@ -1,133 +0,0 @@
 //go:build e2e_testing
 // +build e2e_testing
 package nebula
 import (
 	"net"
 	"github.com/google/gopacket"
 	"github.com/google/gopacket/layers"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/overlay"
 	"github.com/slackhq/nebula/udp"
 )
 // WaitForTypeByIndex will pipe all messages from this control device into the pipeTo control device
 // returning after a message matching the criteria has been piped
 func (c *Control) WaitForType(msgType header.MessageType, subType header.MessageSubType, pipeTo *Control) {
 	h := &header.H{}
 	for {
 		p := c.f.outside.Get(true)
 		if err := h.Parse(p.Data); err != nil {
 			panic(err)
 		}
 		pipeTo.InjectUDPPacket(p)
 		if h.Type == msgType && h.Subtype == subType {
 			return
 		}
 	}
 }
 // WaitForTypeByIndex is similar to WaitForType except it adds an index check
 // Useful if you have many nodes communicating and want to wait to find a specific nodes packet
 func (c *Control) WaitForTypeByIndex(toIndex uint32, msgType header.MessageType, subType header.MessageSubType, pipeTo *Control) {
 	h := &header.H{}
 	for {
 		p := c.f.outside.Get(true)
 		if err := h.Parse(p.Data); err != nil {
 			panic(err)
 		}
 		pipeTo.InjectUDPPacket(p)
 		if h.RemoteIndex == toIndex && h.Type == msgType && h.Subtype == subType {
 			return
 		}
 	}
 }
 // InjectLightHouseAddr will push toAddr into the local lighthouse cache for the vpnIp
 // This is necessary if you did not configure static hosts or are not running a lighthouse
 func (c *Control) InjectLightHouseAddr(vpnIp net.IP, toAddr *net.UDPAddr) {
 	c.f.lightHouse.Lock()
 	remoteList := c.f.lightHouse.unlockedGetRemoteList(iputil.Ip2VpnIp(vpnIp))
 	remoteList.Lock()
 	defer remoteList.Unlock()
 	c.f.lightHouse.Unlock()
 	iVpnIp := iputil.Ip2VpnIp(vpnIp)
 	if v4 := toAddr.IP.To4(); v4 != nil {
 		remoteList.unlockedPrependV4(iVpnIp, NewIp4AndPort(v4, uint32(toAddr.Port)))
 	} else {
 		remoteList.unlockedPrependV6(iVpnIp, NewIp6AndPort(toAddr.IP, uint32(toAddr.Port)))
 	}
 }
 // GetFromTun will pull a packet off the tun side of nebula
 func (c *Control) GetFromTun(block bool) []byte {
 	return c.f.inside.(*overlay.TestTun).Get(block)
 }
 // GetFromUDP will pull a udp packet off the udp side of nebula
 func (c *Control) GetFromUDP(block bool) *udp.Packet {
 	return c.f.outside.Get(block)
 }
 func (c *Control) GetUDPTxChan() <-chan *udp.Packet {
 	return c.f.outside.TxPackets
 }
 func (c *Control) GetTunTxChan() <-chan []byte {
 	return c.f.inside.(*overlay.TestTun).TxPackets
 }
 // InjectUDPPacket will inject a packet into the udp side of nebula
 func (c *Control) InjectUDPPacket(p *udp.Packet) {
 	c.f.outside.Send(p)
 }
 // InjectTunUDPPacket puts a udp packet on the tun interface. Using UDP here because it's a simpler protocol
 func (c *Control) InjectTunUDPPacket(toIp net.IP, toPort uint16, fromPort uint16, data []byte) {
 	ip := layers.IPv4{
 		Version:  4,
 		TTL:      64,
 		Protocol: layers.IPProtocolUDP,
 		SrcIP:    c.f.inside.Cidr().IP,
 		DstIP:    toIp,
 	}
 	udp := layers.UDP{
 		SrcPort: layers.UDPPort(fromPort),
 		DstPort: layers.UDPPort(toPort),
 	}
 	err := udp.SetNetworkLayerForChecksum(&ip)
 	if err != nil {
 		panic(err)
 	}
 	buffer := gopacket.NewSerializeBuffer()
 	opt := gopacket.SerializeOptions{
 		ComputeChecksums: true,
 		FixLengths:       true,
 	}
 	err = gopacket.SerializeLayers(buffer, opt, &ip, &udp, gopacket.Payload(data))
 	if err != nil {
 		panic(err)
 	}
 	c.f.inside.(*overlay.TestTun).Send(buffer.Bytes())
 }
 func (c *Control) GetUDPAddr() string {
 	return c.f.outside.Addr.String()
 }
 func (c *Control) KillPendingTunnel(vpnIp net.IP) bool {
 	hostinfo, ok := c.f.handshakeManager.pendingHostMap.Hosts[iputil.Ip2VpnIp(vpnIp)]
 	if !ok {
 		return false
 	}
 	c.f.handshakeManager.pendingHostMap.DeleteHostInfo(hostinfo)
 	return true
 }
--- a/dist/arch/nebula.service
+++ b/dist/arch/nebula.service
@@ -5,6 +5,8 @@ After=basic.target network.target network-online.target
 [Service]
 SyslogIdentifier=nebula
 StandardOutput=syslog
 StandardError=syslog
 ExecReload=/bin/kill -HUP $MAINPID
 ExecStart=/usr/bin/nebula -config /etc/nebula/config.yml
 Restart=always
--- a/dist/fedora/nebula.service
+++ b/dist/fedora/nebula.service
@@ -1,15 +0,0 @@
 [Unit]
 Description=Nebula overlay networking tool
 After=basic.target network.target network-online.target
 Before=sshd.service
 Wants=basic.target network-online.target
 [Service]
 ExecReload=/bin/kill -HUP $MAINPID
 ExecStart=/usr/bin/nebula -config /etc/nebula/config.yml
 Restart=always
 SyslogIdentifier=nebula
 [Install]
 WantedBy=multi-user.target
--- a/dist/windows/wintun/LICENSE.txt
+++ b/dist/windows/wintun/LICENSE.txt
@@ -1,84 +0,0 @@
 Prebuilt Binaries License
 -------------------------
 1. DEFINITIONS. "Software" means the precise contents of the "wintun.dll"
   files that are included in the .zip file that contains this document as
   downloaded from wintun.net/builds.
 2. LICENSE GRANT. WireGuard LLC grants to you a non-exclusive and
   non-transferable right to use Software for lawful purposes under certain
   obligations and limited rights as set forth in this agreement.
 3. RESTRICTIONS. Software is owned and copyrighted by WireGuard LLC. It is
   licensed, not sold. Title to Software and all associated intellectual
   property rights are retained by WireGuard. You must not:
   a. reverse engineer, decompile, disassemble, extract from, or otherwise
      modify the Software;
   b. modify or create derivative work based upon Software in whole or in
      parts, except insofar as only the API interfaces of the "wintun.h" file
      distributed alongside the Software (the "Permitted API") are used;
   c. remove any proprietary notices, labels, or copyrights from the Software;
   d. resell, redistribute, lease, rent, transfer, sublicense, or otherwise
      transfer rights of the Software without the prior written consent of
      WireGuard LLC, except insofar as the Software is distributed alongside
      other software that uses the Software only via the Permitted API;
   e. use the name of WireGuard LLC, the WireGuard project, the Wintun
      project, or the names of its contributors to endorse or promote products
      derived from the Software without specific prior written consent.
 4. LIMITED WARRANTY. THE SOFTWARE IS PROVIDED "AS IS" AND WITHOUT WARRANTY OF
   ANY KIND. WIREGUARD LLC HEREBY EXCLUDES AND DISCLAIMS ALL IMPLIED OR
   STATUTORY WARRANTIES, INCLUDING ANY WARRANTIES OF MERCHANTABILITY, FITNESS
   FOR A PARTICULAR PURPOSE, QUALITY, NON-INFRINGEMENT, TITLE, RESULTS,
   EFFORTS, OR QUIET ENJOYMENT. THERE IS NO WARRANTY THAT THE PRODUCT WILL BE
   ERROR-FREE OR WILL FUNCTION WITHOUT INTERRUPTION. YOU ASSUME THE ENTIRE
   RISK FOR THE RESULTS OBTAINED USING THE PRODUCT. TO THE EXTENT THAT
   WIREGUARD LLC MAY NOT DISCLAIM ANY WARRANTY AS A MATTER OF APPLICABLE LAW,
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   WARRANTIES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR
   A PARTICULAR PURPOSE OR NON-INFRINGEMENT ARE DISCLAIMED, EXCEPT TO THE
   EXTENT THAT THESE DISCLAIMERS ARE HELD TO BE LEGALLY INVALID.
 5. LIMITATION OF LIABILITY. To the extent not prohibited by law, in no event
   WireGuard LLC or any third-party-developer will be liable for any lost
   revenue, profit or data or for special, indirect, consequential, incidental
   or punitive damages, however caused regardless of the theory of liability,
   arising out of or related to the use of or inability to use Software, even
   if WireGuard LLC has been advised of the possibility of such damages.
   Solely you are responsible for determining the appropriateness of using
   Software and accept full responsibility for all risks associated with its
   exercise of rights under this agreement, including but not limited to the
   risks and costs of program errors, compliance with applicable laws, damage
   to or loss of data, programs or equipment, and unavailability or
   interruption of operations. The foregoing limitations will apply even if
   the above stated warranty fails of its essential purpose. You acknowledge,
   that it is in the nature of software that software is complex and not
   completely free of errors. In no event shall WireGuard LLC or any
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   inability to use Software, even if WireGuard LLC has been advised of the
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   (contract, tort, or otherwise) upon which the claim is based.
 6. TERMINATION. This agreement is affected until terminated. You may
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   delete Software and all copies of Software and cease all forms of
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 7. SEVERABILITY. If any provision of this agreement is held to be
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   omitted, unless omission would frustrate the intent of the parties, in
   which case this agreement will immediately terminate.
 8. RESERVATION OF RIGHTS. All rights not expressly granted in this agreement
   are reserved by WireGuard LLC. For example, WireGuard LLC reserves the
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   details, features, specifications, capabilities, functions, licensing
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   characteristics of the Software.
--- a/dist/windows/wintun/README.md
+++ b/dist/windows/wintun/README.md
@@ -1,339 +0,0 @@
 # [Wintun Network Adapter](https://www.wintun.net/)
 ### TUN Device Driver for Windows
 This is a layer 3 TUN driver for Windows 7, 8, 8.1, and 10. Originally created for [WireGuard](https://www.wireguard.com/), it is intended to be useful to a wide variety of projects that require layer 3 tunneling devices with implementations primarily in userspace.
 ## Installation
 Wintun is deployed as a platform-specific `wintun.dll` file. Install the `wintun.dll` file side-by-side with your application. Download the dll from [wintun.net](https://www.wintun.net/), alongside the header file for your application described below.
 ## Usage
 Include the [`wintun.h` file](https://git.zx2c4.com/wintun/tree/api/wintun.h) in your project simply by copying it there and dynamically load the `wintun.dll` using [`LoadLibraryEx()`](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-loadlibraryexa) and [`GetProcAddress()`](https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-getprocaddress) to resolve each function, using the typedefs provided in the header file. The [`InitializeWintun` function in the example.c code](https://git.zx2c4.com/wintun/tree/example/example.c) provides this in a function that you can simply copy and paste.
 With the library setup, Wintun can then be used by first creating an adapter, configuring it, and then setting its status to "up". Adapters have names (e.g. "OfficeNet") and types (e.g. "Wintun").
 ```C
 WINTUN_ADAPTER_HANDLE Adapter1 = WintunCreateAdapter(L"OfficeNet", L"Wintun", &SomeFixedGUID1);
 WINTUN_ADAPTER_HANDLE Adapter2 = WintunCreateAdapter(L"HomeNet", L"Wintun", &SomeFixedGUID2);
 WINTUN_ADAPTER_HANDLE Adapter3 = WintunCreateAdapter(L"Data Center", L"Wintun", &SomeFixedGUID3);
 ```
 After creating an adapter, we can use it by starting a session:
 ```C
 WINTUN_SESSION_HANDLE Session = WintunStartSession(Adapter2, 0x400000);
 ```
 Then, the `WintunAllocateSendPacket` and `WintunSendPacket` functions can be used for sending packets ([used by `SendPackets` in the example.c code](https://git.zx2c4.com/wintun/tree/example/example.c)):
 ```C
 BYTE *OutgoingPacket = WintunAllocateSendPacket(Session, PacketDataSize);
 if (OutgoingPacket)
 {
    memcpy(OutgoingPacket, PacketData, PacketDataSize);
    WintunSendPacket(Session, OutgoingPacket);
 }
 else if (GetLastError() != ERROR_BUFFER_OVERFLOW) // Silently drop packets if the ring is full
    Log(L"Packet write failed");
 ```
 And the `WintunReceivePacket` and `WintunReleaseReceivePacket` functions can be used for receiving packets ([used by `ReceivePackets` in the example.c code](https://git.zx2c4.com/wintun/tree/example/example.c)):
 ```C
 for (;;)
 {
    DWORD IncomingPacketSize;
    BYTE *IncomingPacket = WintunReceivePacket(Session, &IncomingPacketSize);
    if (IncomingPacket)
    {
        DoSomethingWithPacket(IncomingPacket, IncomingPacketSize);
        WintunReleaseReceivePacket(Session, IncomingPacket);
    }
    else if (GetLastError() == ERROR_NO_MORE_ITEMS)
        WaitForSingleObject(WintunGetReadWaitEvent(Session), INFINITE);
    else
    {
        Log(L"Packet read failed");
        break;
    }
 }
 ```
 Some high performance use cases may want to spin on `WintunReceivePackets` for a number of cycles before falling back to waiting on the read-wait event.
 You are **highly encouraged** to read the [**example.c short example**](https://git.zx2c4.com/wintun/tree/example/example.c) to see how to put together a simple userspace network tunnel.
 The various functions and definitions are [documented in the reference below](#Reference).
 ## Reference
 ### Macro Definitions
 #### WINTUN\_MAX\_POOL
 `#define WINTUN_MAX_POOL   256`
 Maximum pool name length including zero terminator
 #### WINTUN\_MIN\_RING\_CAPACITY
 `#define WINTUN_MIN_RING_CAPACITY   0x20000 /* 128kiB */`
 Minimum ring capacity.
 #### WINTUN\_MAX\_RING\_CAPACITY
 `#define WINTUN_MAX_RING_CAPACITY   0x4000000 /* 64MiB */`
 Maximum ring capacity.
 #### WINTUN\_MAX\_IP\_PACKET\_SIZE
 `#define WINTUN_MAX_IP_PACKET_SIZE   0xFFFF`
 Maximum IP packet size
 ### Typedefs
 #### WINTUN\_ADAPTER\_HANDLE
 `typedef void* WINTUN_ADAPTER_HANDLE`
 A handle representing Wintun adapter
 #### WINTUN\_ENUM\_CALLBACK
 `typedef BOOL(* WINTUN_ENUM_CALLBACK) (WINTUN_ADAPTER_HANDLE Adapter, LPARAM Param)`
 Called by WintunEnumAdapters for each adapter in the pool.
 **Parameters**
 - *Adapter*: Adapter handle, which will be freed when this function returns.
 - *Param*: An application-defined value passed to the WintunEnumAdapters.
 **Returns**
 Non-zero to continue iterating adapters; zero to stop.
 #### WINTUN\_LOGGER\_CALLBACK
 `typedef void(* WINTUN_LOGGER_CALLBACK) (WINTUN_LOGGER_LEVEL Level, DWORD64 Timestamp, const WCHAR *Message)`
 Called by internal logger to report diagnostic messages
 **Parameters**
 - *Level*: Message level.
 - *Timestamp*: Message timestamp in in 100ns intervals since 1601-01-01 UTC.
 - *Message*: Message text.
 #### WINTUN\_SESSION\_HANDLE
 `typedef void* WINTUN_SESSION_HANDLE`
 A handle representing Wintun session
 ### Enumeration Types
 #### WINTUN\_LOGGER\_LEVEL
 `enum WINTUN_LOGGER_LEVEL`
 Determines the level of logging, passed to WINTUN\_LOGGER\_CALLBACK.
 - *WINTUN\_LOG\_INFO*: Informational
 - *WINTUN\_LOG\_WARN*: Warning
 - *WINTUN\_LOG\_ERR*: Error
 Enumerator
 ### Functions
 #### WintunCreateAdapter()
 `WINTUN_ADAPTER_HANDLE WintunCreateAdapter (const WCHAR * Name, const WCHAR * TunnelType, const GUID * RequestedGUID)`
 Creates a new Wintun adapter.
 **Parameters**
 - *Name*: The requested name of the adapter. Zero-terminated string of up to MAX\_ADAPTER\_NAME-1 characters.
 - *Name*: Name of the adapter tunnel type. Zero-terminated string of up to MAX\_ADAPTER\_NAME-1 characters.
 - *RequestedGUID*: The GUID of the created network adapter, which then influences NLA generation deterministically. If it is set to NULL, the GUID is chosen by the system at random, and hence a new NLA entry is created for each new adapter. It is called "requested" GUID because the API it uses is completely undocumented, and so there could be minor interesting complications with its usage.
 **Returns**
 If the function succeeds, the return value is the adapter handle. Must be released with WintunCloseAdapter. If the function fails, the return value is NULL. To get extended error information, call GetLastError.
 #### WintunOpenAdapter()
 `WINTUN_ADAPTER_HANDLE WintunOpenAdapter (const WCHAR * Name)`
 Opens an existing Wintun adapter.
 **Parameters**
 - *Name*: The requested name of the adapter. Zero-terminated string of up to MAX\_ADAPTER\_NAME-1 characters.
 **Returns**
 If the function succeeds, the return value is adapter handle. Must be released with WintunCloseAdapter. If the function fails, the return value is NULL. To get extended error information, call GetLastError.
 #### WintunCloseAdapter()
 `void WintunCloseAdapter (WINTUN_ADAPTER_HANDLE Adapter)`
 Releases Wintun adapter resources and, if adapter was created with WintunCreateAdapter, removes adapter.
 **Parameters**
 - *Adapter*: Adapter handle obtained with WintunCreateAdapter or WintunOpenAdapter.
 #### WintunDeleteDriver()
 `BOOL WintunDeleteDriver ()`
 Deletes the Wintun driver if there are no more adapters in use.
 **Returns**
 If the function succeeds, the return value is nonzero. If the function fails, the return value is zero. To get extended error information, call GetLastError.
 #### WintunGetAdapterLuid()
 `void WintunGetAdapterLuid (WINTUN_ADAPTER_HANDLE Adapter, NET_LUID * Luid)`
 Returns the LUID of the adapter.
 **Parameters**
 - *Adapter*: Adapter handle obtained with WintunOpenAdapter or WintunCreateAdapter
 - *Luid*: Pointer to LUID to receive adapter LUID.
 #### WintunGetRunningDriverVersion()
 `DWORD WintunGetRunningDriverVersion (void )`
 Determines the version of the Wintun driver currently loaded.
 **Returns**
 If the function succeeds, the return value is the version number. If the function fails, the return value is zero. To get extended error information, call GetLastError. Possible errors include the following: ERROR\_FILE\_NOT\_FOUND Wintun not loaded
 #### WintunSetLogger()
 `void WintunSetLogger (WINTUN_LOGGER_CALLBACK NewLogger)`
 Sets logger callback function.
 **Parameters**
 - *NewLogger*: Pointer to callback function to use as a new global logger. NewLogger may be called from various threads concurrently. Should the logging require serialization, you must handle serialization in NewLogger. Set to NULL to disable.
 #### WintunStartSession()
 `WINTUN_SESSION_HANDLE WintunStartSession (WINTUN_ADAPTER_HANDLE Adapter, DWORD Capacity)`
 Starts Wintun session.
 **Parameters**
 - *Adapter*: Adapter handle obtained with WintunOpenAdapter or WintunCreateAdapter
 - *Capacity*: Rings capacity. Must be between WINTUN\_MIN\_RING\_CAPACITY and WINTUN\_MAX\_RING\_CAPACITY (incl.) Must be a power of two.
 **Returns**
 Wintun session handle. Must be released with WintunEndSession. If the function fails, the return value is NULL. To get extended error information, call GetLastError.
 #### WintunEndSession()
 `void WintunEndSession (WINTUN_SESSION_HANDLE Session)`
 Ends Wintun session.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 #### WintunGetReadWaitEvent()
 `HANDLE WintunGetReadWaitEvent (WINTUN_SESSION_HANDLE Session)`
 Gets Wintun session's read-wait event handle.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 **Returns**
 Pointer to receive event handle to wait for available data when reading. Should WintunReceivePackets return ERROR\_NO\_MORE\_ITEMS (after spinning on it for a while under heavy load), wait for this event to become signaled before retrying WintunReceivePackets. Do not call CloseHandle on this event - it is managed by the session.
 #### WintunReceivePacket()
 `BYTE* WintunReceivePacket (WINTUN_SESSION_HANDLE Session, DWORD * PacketSize)`
 Retrieves one or packet. After the packet content is consumed, call WintunReleaseReceivePacket with Packet returned from this function to release internal buffer. This function is thread-safe.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 - *PacketSize*: Pointer to receive packet size.
 **Returns**
 Pointer to layer 3 IPv4 or IPv6 packet. Client may modify its content at will. If the function fails, the return value is NULL. To get extended error information, call GetLastError. Possible errors include the following: ERROR\_HANDLE\_EOF Wintun adapter is terminating; ERROR\_NO\_MORE\_ITEMS Wintun buffer is exhausted; ERROR\_INVALID\_DATA Wintun buffer is corrupt
 #### WintunReleaseReceivePacket()
 `void WintunReleaseReceivePacket (WINTUN_SESSION_HANDLE Session, const BYTE * Packet)`
 Releases internal buffer after the received packet has been processed by the client. This function is thread-safe.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 - *Packet*: Packet obtained with WintunReceivePacket
 #### WintunAllocateSendPacket()
 `BYTE* WintunAllocateSendPacket (WINTUN_SESSION_HANDLE Session, DWORD PacketSize)`
 Allocates memory for a packet to send. After the memory is filled with packet data, call WintunSendPacket to send and release internal buffer. WintunAllocateSendPacket is thread-safe and the WintunAllocateSendPacket order of calls define the packet sending order.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 - *PacketSize*: Exact packet size. Must be less or equal to WINTUN\_MAX\_IP\_PACKET\_SIZE.
 **Returns**
 Returns pointer to memory where to prepare layer 3 IPv4 or IPv6 packet for sending. If the function fails, the return value is NULL. To get extended error information, call GetLastError. Possible errors include the following: ERROR\_HANDLE\_EOF Wintun adapter is terminating; ERROR\_BUFFER\_OVERFLOW Wintun buffer is full;
 #### WintunSendPacket()
 `void WintunSendPacket (WINTUN_SESSION_HANDLE Session, const BYTE * Packet)`
 Sends the packet and releases internal buffer. WintunSendPacket is thread-safe, but the WintunAllocateSendPacket order of calls define the packet sending order. This means the packet is not guaranteed to be sent in the WintunSendPacket yet.
 **Parameters**
 - *Session*: Wintun session handle obtained with WintunStartSession
 - *Packet*: Packet obtained with WintunAllocateSendPacket
 ## Building
 **Do not distribute drivers or files named "Wintun", as they will most certainly clash with official deployments. Instead distribute [`wintun.dll` as downloaded from wintun.net](https://www.wintun.net).**
 General requirements:
 - [Visual Studio 2019](https://visualstudio.microsoft.com/downloads/) with Windows SDK
 - [Windows Driver Kit](https://docs.microsoft.com/en-us/windows-hardware/drivers/download-the-wdk)
 `wintun.sln` may be opened in Visual Studio for development and building. Be sure to run `bcdedit /set testsigning on` and then reboot before to enable unsigned driver loading. The default run sequence (F5) in Visual Studio will build the example project and its dependencies.
 ## License
 The entire contents of [the repository](https://git.zx2c4.com/wintun/), including all documentation and example code, is "Copyright © 2018-2021 WireGuard LLC. All Rights Reserved." Source code is licensed under the [GPLv2](COPYING). Prebuilt binaries from [wintun.net](https://www.wintun.net/) are released under a more permissive license suitable for more forms of software contained inside of the .zip files distributed there.
--- a/dist/windows/wintun/bin/amd64/wintun.dll
+++ b/dist/windows/wintun/bin/amd64/wintun.dll
--- a/dist/windows/wintun/bin/arm/wintun.dll
+++ b/dist/windows/wintun/bin/arm/wintun.dll
--- a/dist/windows/wintun/bin/arm64/wintun.dll
+++ b/dist/windows/wintun/bin/arm64/wintun.dll
--- a/dist/windows/wintun/bin/x86/wintun.dll
+++ b/dist/windows/wintun/bin/x86/wintun.dll
--- a/dist/windows/wintun/include/wintun.h
+++ b/dist/windows/wintun/include/wintun.h
@@ -1,270 +0,0 @@
 /* SPDX-License-Identifier: GPL-2.0 OR MIT
 *
 * Copyright (C) 2018-2021 WireGuard LLC. All Rights Reserved.
 */
 #pragma once
 #include <winsock2.h>
 #include <windows.h>
 #include <ipexport.h>
 #include <ifdef.h>
 #include <ws2ipdef.h>
 #ifdef __cplusplus
 extern "C" {
 #endif
 #ifndef ALIGNED
 #    if defined(_MSC_VER)
 #        define ALIGNED(n) __declspec(align(n))
 #    elif defined(__GNUC__)
 #        define ALIGNED(n) __attribute__((aligned(n)))
 #    else
 #        error "Unable to define ALIGNED"
 #    endif
 #endif
 /* MinGW is missing this one, unfortunately. */
 #ifndef _Post_maybenull_
 #    define _Post_maybenull_
 #endif
 #pragma warning(push)
 #pragma warning(disable : 4324) /* structure was padded due to alignment specifier */
 /**
 * A handle representing Wintun adapter
 */
 typedef struct _WINTUN_ADAPTER *WINTUN_ADAPTER_HANDLE;
 /**
 * Creates a new Wintun adapter.
 *
 * @param Name          The requested name of the adapter. Zero-terminated string of up to MAX_ADAPTER_NAME-1
 *                      characters.
 *
 * @param TunnelType    Name of the adapter tunnel type. Zero-terminated string of up to MAX_ADAPTER_NAME-1
 *                      characters.
 *
 * @param RequestedGUID The GUID of the created network adapter, which then influences NLA generation deterministically.
 *                      If it is set to NULL, the GUID is chosen by the system at random, and hence a new NLA entry is
 *                      created for each new adapter. It is called "requested" GUID because the API it uses is
 *                      completely undocumented, and so there could be minor interesting complications with its usage.
 *
 * @return If the function succeeds, the return value is the adapter handle. Must be released with
 * WintunCloseAdapter. If the function fails, the return value is NULL. To get extended error information, call
 * GetLastError.
 */
 typedef _Must_inspect_result_
 _Return_type_success_(return != NULL)
 _Post_maybenull_
 WINTUN_ADAPTER_HANDLE(WINAPI WINTUN_CREATE_ADAPTER_FUNC)
 (_In_z_ LPCWSTR Name, _In_z_ LPCWSTR TunnelType, _In_opt_ const GUID *RequestedGUID);
 /**
 * Opens an existing Wintun adapter.
 *
 * @param Name          The requested name of the adapter. Zero-terminated string of up to MAX_ADAPTER_NAME-1
 *                      characters.
 *
 * @return If the function succeeds, the return value is the adapter handle. Must be released with
 * WintunCloseAdapter. If the function fails, the return value is NULL. To get extended error information, call
 * GetLastError.
 */
 typedef _Must_inspect_result_
 _Return_type_success_(return != NULL)
 _Post_maybenull_
 WINTUN_ADAPTER_HANDLE(WINAPI WINTUN_OPEN_ADAPTER_FUNC)(_In_z_ LPCWSTR Name);
 /**
 * Releases Wintun adapter resources and, if adapter was created with WintunCreateAdapter, removes adapter.
 *
 * @param Adapter       Adapter handle obtained with WintunCreateAdapter or WintunOpenAdapter.
 */
 typedef VOID(WINAPI WINTUN_CLOSE_ADAPTER_FUNC)(_In_opt_ WINTUN_ADAPTER_HANDLE Adapter);
 /**
 * Deletes the Wintun driver if there are no more adapters in use.
 *
 * @return If the function succeeds, the return value is nonzero. If the function fails, the return value is zero. To
 *         get extended error information, call GetLastError.
 */
 typedef _Return_type_success_(return != FALSE)
 BOOL(WINAPI WINTUN_DELETE_DRIVER_FUNC)(VOID);
 /**
 * Returns the LUID of the adapter.
 *
 * @param Adapter       Adapter handle obtained with WintunCreateAdapter or WintunOpenAdapter
 *
 * @param Luid          Pointer to LUID to receive adapter LUID.
 */
 typedef VOID(WINAPI WINTUN_GET_ADAPTER_LUID_FUNC)(_In_ WINTUN_ADAPTER_HANDLE Adapter, _Out_ NET_LUID *Luid);
 /**
 * Determines the version of the Wintun driver currently loaded.
 *
 * @return If the function succeeds, the return value is the version number. If the function fails, the return value is
 *         zero. To get extended error information, call GetLastError. Possible errors include the following:
 *         ERROR_FILE_NOT_FOUND  Wintun not loaded
 */
 typedef _Return_type_success_(return != 0)
 DWORD(WINAPI WINTUN_GET_RUNNING_DRIVER_VERSION_FUNC)(VOID);
 /**
 * Determines the level of logging, passed to WINTUN_LOGGER_CALLBACK.
 */
 typedef enum
 {
    WINTUN_LOG_INFO, /**< Informational */
    WINTUN_LOG_WARN, /**< Warning */
    WINTUN_LOG_ERR   /**< Error */
 } WINTUN_LOGGER_LEVEL;
 /**
 * Called by internal logger to report diagnostic messages
 *
 * @param Level         Message level.
 *
 * @param Timestamp     Message timestamp in in 100ns intervals since 1601-01-01 UTC.
 *
 * @param Message       Message text.
 */
 typedef VOID(CALLBACK *WINTUN_LOGGER_CALLBACK)(
    _In_ WINTUN_LOGGER_LEVEL Level,
    _In_ DWORD64 Timestamp,
    _In_z_ LPCWSTR Message);
 /**
 * Sets logger callback function.
 *
 * @param NewLogger     Pointer to callback function to use as a new global logger. NewLogger may be called from various
 *                      threads concurrently. Should the logging require serialization, you must handle serialization in
 *                      NewLogger. Set to NULL to disable.
 */
 typedef VOID(WINAPI WINTUN_SET_LOGGER_FUNC)(_In_ WINTUN_LOGGER_CALLBACK NewLogger);
 /**
 * Minimum ring capacity.
 */
 #define WINTUN_MIN_RING_CAPACITY 0x20000 /* 128kiB */
 /**
 * Maximum ring capacity.
 */
 #define WINTUN_MAX_RING_CAPACITY 0x4000000 /* 64MiB */
 /**
 * A handle representing Wintun session
 */
 typedef struct _TUN_SESSION *WINTUN_SESSION_HANDLE;
 /**
 * Starts Wintun session.
 *
 * @param Adapter       Adapter handle obtained with WintunOpenAdapter or WintunCreateAdapter
 *
 * @param Capacity      Rings capacity. Must be between WINTUN_MIN_RING_CAPACITY and WINTUN_MAX_RING_CAPACITY (incl.)
 *                      Must be a power of two.
 *
 * @return Wintun session handle. Must be released with WintunEndSession. If the function fails, the return value is
 *         NULL. To get extended error information, call GetLastError.
 */
 typedef _Must_inspect_result_
 _Return_type_success_(return != NULL)
 _Post_maybenull_
 WINTUN_SESSION_HANDLE(WINAPI WINTUN_START_SESSION_FUNC)(_In_ WINTUN_ADAPTER_HANDLE Adapter, _In_ DWORD Capacity);
 /**
 * Ends Wintun session.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 */
 typedef VOID(WINAPI WINTUN_END_SESSION_FUNC)(_In_ WINTUN_SESSION_HANDLE Session);
 /**
 * Gets Wintun session's read-wait event handle.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 *
 * @return Pointer to receive event handle to wait for available data when reading. Should
 *         WintunReceivePackets return ERROR_NO_MORE_ITEMS (after spinning on it for a while under heavy
 *         load), wait for this event to become signaled before retrying WintunReceivePackets. Do not call
 *         CloseHandle on this event - it is managed by the session.
 */
 typedef HANDLE(WINAPI WINTUN_GET_READ_WAIT_EVENT_FUNC)(_In_ WINTUN_SESSION_HANDLE Session);
 /**
 * Maximum IP packet size
 */
 #define WINTUN_MAX_IP_PACKET_SIZE 0xFFFF
 /**
 * Retrieves one or packet. After the packet content is consumed, call WintunReleaseReceivePacket with Packet returned
 * from this function to release internal buffer. This function is thread-safe.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 *
 * @param PacketSize    Pointer to receive packet size.
 *
 * @return Pointer to layer 3 IPv4 or IPv6 packet. Client may modify its content at will. If the function fails, the
 *         return value is NULL. To get extended error information, call GetLastError. Possible errors include the
 *         following:
 *         ERROR_HANDLE_EOF     Wintun adapter is terminating;
 *         ERROR_NO_MORE_ITEMS  Wintun buffer is exhausted;
 *         ERROR_INVALID_DATA   Wintun buffer is corrupt
 */
 typedef _Must_inspect_result_
 _Return_type_success_(return != NULL)
 _Post_maybenull_
 _Post_writable_byte_size_(*PacketSize)
 BYTE *(WINAPI WINTUN_RECEIVE_PACKET_FUNC)(_In_ WINTUN_SESSION_HANDLE Session, _Out_ DWORD *PacketSize);
 /**
 * Releases internal buffer after the received packet has been processed by the client. This function is thread-safe.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 *
 * @param Packet        Packet obtained with WintunReceivePacket
 */
 typedef VOID(
    WINAPI WINTUN_RELEASE_RECEIVE_PACKET_FUNC)(_In_ WINTUN_SESSION_HANDLE Session, _In_ const BYTE *Packet);
 /**
 * Allocates memory for a packet to send. After the memory is filled with packet data, call WintunSendPacket to send
 * and release internal buffer. WintunAllocateSendPacket is thread-safe and the WintunAllocateSendPacket order of
 * calls define the packet sending order.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 *
 * @param PacketSize    Exact packet size. Must be less or equal to WINTUN_MAX_IP_PACKET_SIZE.
 *
 * @return Returns pointer to memory where to prepare layer 3 IPv4 or IPv6 packet for sending. If the function fails,
 *         the return value is NULL. To get extended error information, call GetLastError. Possible errors include the
 *         following:
 *         ERROR_HANDLE_EOF       Wintun adapter is terminating;
 *         ERROR_BUFFER_OVERFLOW  Wintun buffer is full;
 */
 typedef _Must_inspect_result_
 _Return_type_success_(return != NULL)
 _Post_maybenull_
 _Post_writable_byte_size_(PacketSize)
 BYTE *(WINAPI WINTUN_ALLOCATE_SEND_PACKET_FUNC)(_In_ WINTUN_SESSION_HANDLE Session, _In_ DWORD PacketSize);
 /**
 * Sends the packet and releases internal buffer. WintunSendPacket is thread-safe, but the WintunAllocateSendPacket
 * order of calls define the packet sending order. This means the packet is not guaranteed to be sent in the
 * WintunSendPacket yet.
 *
 * @param Session       Wintun session handle obtained with WintunStartSession
 *
 * @param Packet        Packet obtained with WintunAllocateSendPacket
 */
 typedef VOID(WINAPI WINTUN_SEND_PACKET_FUNC)(_In_ WINTUN_SESSION_HANDLE Session, _In_ const BYTE *Packet);
 #pragma warning(pop)
 #ifdef __cplusplus
 }
 #endif
--- a/dns_server.go
+++ b/dns_server.go
@@ -7,9 +7,6 @@ import (
 	"sync"
 	"github.com/miekg/dns"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/iputil"
 )
 // This whole thing should be rewritten to use context
@@ -46,8 +43,8 @@ func (d *dnsRecords) QueryCert(data string) string {
 	if ip == nil {
 		return ""
 	}
-	iip := iputil.Ip2VpnIp(ip)
+	iip := ip2int(ip)
-	hostinfo, err := d.hostMap.QueryVpnIp(iip)
+	hostinfo, err := d.hostMap.QueryVpnIP(iip)
 	if err != nil {
 		return ""
 	}
@@ -66,7 +63,7 @@ func (d *dnsRecords) Add(host, data string) {
 	d.Unlock()
 }
-func parseQuery(l *logrus.Logger, m *dns.Msg, w dns.ResponseWriter) {
+func parseQuery(m *dns.Msg, w dns.ResponseWriter) {
 	for _, q := range m.Question {
 		switch q.Qtype {
 		case dns.TypeA:
@@ -98,44 +95,37 @@ func parseQuery(l *logrus.Logger, m *dns.Msg, w dns.ResponseWriter) {
 	}
 }
-func handleDnsRequest(l *logrus.Logger, w dns.ResponseWriter, r *dns.Msg) {
+func handleDnsRequest(w dns.ResponseWriter, r *dns.Msg) {
 	m := new(dns.Msg)
 	m.SetReply(r)
 	m.Compress = false
 	switch r.Opcode {
 	case dns.OpcodeQuery:
-		parseQuery(l, m, w)
+		parseQuery(m, w)
 	}
 	w.WriteMsg(m)
 }
-func dnsMain(l *logrus.Logger, hostMap *HostMap, c *config.C) func() {
+func dnsMain(hostMap *HostMap, c *Config) {
 	dnsR = newDnsRecords(hostMap)
 	// attach request handler func
-	dns.HandleFunc(".", func(w dns.ResponseWriter, r *dns.Msg) {
+	dns.HandleFunc(".", handleDnsRequest)
 		handleDnsRequest(l, w, r)
 	})
-	c.RegisterReloadCallback(func(c *config.C) {
+	c.RegisterReloadCallback(reloadDns)
-		reloadDns(l, c)
+	startDns(c)
 	})
 	return func() {
 		startDns(l, c)
 	}
 }
-func getDnsServerAddr(c *config.C) string {
+func getDnsServerAddr(c *Config) string {
 	return c.GetString("lighthouse.dns.host", "") + ":" + strconv.Itoa(c.GetInt("lighthouse.dns.port", 53))
 }
-func startDns(l *logrus.Logger, c *config.C) {
+func startDns(c *Config) {
 	dnsAddr = getDnsServerAddr(c)
 	dnsServer = &dns.Server{Addr: dnsAddr, Net: "udp"}
-	l.WithField("dnsListener", dnsAddr).Infof("Starting DNS responder")
+	l.Debugf("Starting DNS responder at %s\n", dnsAddr)
 	err := dnsServer.ListenAndServe()
 	defer dnsServer.Shutdown()
 	if err != nil {
@@ -143,7 +133,7 @@ func startDns(l *logrus.Logger, c *config.C) {
 	}
 }
-func reloadDns(l *logrus.Logger, c *config.C) {
+func reloadDns(c *Config) {
 	if dnsAddr == getDnsServerAddr(c) {
 		l.Debug("No DNS server config change detected")
 		return
@@ -151,5 +141,5 @@ func reloadDns(l *logrus.Logger, c *config.C) {
 	l.Debug("Restarting DNS server")
 	dnsServer.Shutdown()
-	go startDns(l, c)
+	go startDns(c)
 }
--- a/e2e/doc.go
+++ b/e2e/doc.go
@@ -1,3 +0,0 @@
 package e2e
 // This file exists to allow `go fmt` to traverse here on its own. The build tags were keeping it out before
--- a/e2e/handshakes_test.go
+++ b/e2e/handshakes_test.go
@@ -1,185 +0,0 @@
 //go:build e2e_testing
 // +build e2e_testing
 package e2e
 import (
 	"net"
 	"testing"
 	"time"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/e2e/router"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 	"github.com/stretchr/testify/assert"
 )
 func TestGoodHandshake(t *testing.T) {
 	ca, _, caKey, _ := newTestCaCert(time.Now(), time.Now().Add(10*time.Minute), []*net.IPNet{}, []*net.IPNet{}, []string{})
 	myControl, myVpnIp, myUdpAddr := newSimpleServer(ca, caKey, "me", net.IP{10, 0, 0, 1})
 	theirControl, theirVpnIp, theirUdpAddr := newSimpleServer(ca, caKey, "them", net.IP{10, 0, 0, 2})
 	// Put their info in our lighthouse
 	myControl.InjectLightHouseAddr(theirVpnIp, theirUdpAddr)
 	// Start the servers
 	myControl.Start()
 	theirControl.Start()
 	t.Log("Send a udp packet through to begin standing up the tunnel, this should come out the other side")
 	myControl.InjectTunUDPPacket(theirVpnIp, 80, 80, []byte("Hi from me"))
 	t.Log("Have them consume my stage 0 packet. They have a tunnel now")
 	theirControl.InjectUDPPacket(myControl.GetFromUDP(true))
 	t.Log("Get their stage 1 packet so that we can play with it")
 	stage1Packet := theirControl.GetFromUDP(true)
 	t.Log("I consume a garbage packet with a proper nebula header for our tunnel")
 	// this should log a statement and get ignored, allowing the real handshake packet to complete the tunnel
 	badPacket := stage1Packet.Copy()
 	badPacket.Data = badPacket.Data[:len(badPacket.Data)-header.Len]
 	myControl.InjectUDPPacket(badPacket)
 	t.Log("Have me consume their real stage 1 packet. I have a tunnel now")
 	myControl.InjectUDPPacket(stage1Packet)
 	t.Log("Wait until we see my cached packet come through")
 	myControl.WaitForType(1, 0, theirControl)
 	t.Log("Make sure our host infos are correct")
 	assertHostInfoPair(t, myUdpAddr, theirUdpAddr, myVpnIp, theirVpnIp, myControl, theirControl)
 	t.Log("Get that cached packet and make sure it looks right")
 	myCachedPacket := theirControl.GetFromTun(true)
 	assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIp, theirVpnIp, 80, 80)
 	t.Log("Do a bidirectional tunnel test")
 	assertTunnel(t, myVpnIp, theirVpnIp, myControl, theirControl, router.NewR(myControl, theirControl))
 	myControl.Stop()
 	theirControl.Stop()
 	//TODO: assert hostmaps
 }
 func TestWrongResponderHandshake(t *testing.T) {
 	ca, _, caKey, _ := newTestCaCert(time.Now(), time.Now().Add(10*time.Minute), []*net.IPNet{}, []*net.IPNet{}, []string{})
 	// The IPs here are chosen on purpose:
 	// The current remote handling will sort by preference, public, and then lexically.
 	// So we need them to have a higher address than evil (we could apply a preference though)
 	myControl, myVpnIp, myUdpAddr := newSimpleServer(ca, caKey, "me", net.IP{10, 0, 0, 100})
 	theirControl, theirVpnIp, theirUdpAddr := newSimpleServer(ca, caKey, "them", net.IP{10, 0, 0, 99})
 	evilControl, evilVpnIp, evilUdpAddr := newSimpleServer(ca, caKey, "evil", net.IP{10, 0, 0, 2})
 	// Add their real udp addr, which should be tried after evil.
 	myControl.InjectLightHouseAddr(theirVpnIp, theirUdpAddr)
 	// Put the evil udp addr in for their vpn Ip, this is a case of being lied to by the lighthouse.
 	myControl.InjectLightHouseAddr(theirVpnIp, evilUdpAddr)
 	// Build a router so we don't have to reason who gets which packet
 	r := router.NewR(myControl, theirControl, evilControl)
 	// Start the servers
 	myControl.Start()
 	theirControl.Start()
 	evilControl.Start()
 	t.Log("Start the handshake process, we will route until we see our cached packet get sent to them")
 	myControl.InjectTunUDPPacket(theirVpnIp, 80, 80, []byte("Hi from me"))
 	r.RouteForAllExitFunc(func(p *udp.Packet, c *nebula.Control) router.ExitType {
 		h := &header.H{}
 		err := h.Parse(p.Data)
 		if err != nil {
 			panic(err)
 		}
 		if p.ToIp.Equal(theirUdpAddr.IP) && p.ToPort == uint16(theirUdpAddr.Port) && h.Type == 1 {
 			return router.RouteAndExit
 		}
 		return router.KeepRouting
 	})
 	//TODO: Assert pending hostmap - I should have a correct hostinfo for them now
 	t.Log("My cached packet should be received by them")
 	myCachedPacket := theirControl.GetFromTun(true)
 	assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIp, theirVpnIp, 80, 80)
 	t.Log("Test the tunnel with them")
 	assertHostInfoPair(t, myUdpAddr, theirUdpAddr, myVpnIp, theirVpnIp, myControl, theirControl)
 	assertTunnel(t, myVpnIp, theirVpnIp, myControl, theirControl, r)
 	t.Log("Flush all packets from all controllers")
 	r.FlushAll()
 	t.Log("Ensure ensure I don't have any hostinfo artifacts from evil")
 	assert.Nil(t, myControl.GetHostInfoByVpnIp(iputil.Ip2VpnIp(evilVpnIp), true), "My pending hostmap should not contain evil")
 	assert.Nil(t, myControl.GetHostInfoByVpnIp(iputil.Ip2VpnIp(evilVpnIp), false), "My main hostmap should not contain evil")
 	//NOTE: if evil lost the handshake race it may still have a tunnel since me would reject the handshake since the tunnel is complete
 	//TODO: assert hostmaps for everyone
 	t.Log("Success!")
 	myControl.Stop()
 	theirControl.Stop()
 }
 func Test_Case1_Stage1Race(t *testing.T) {
 	ca, _, caKey, _ := newTestCaCert(time.Now(), time.Now().Add(10*time.Minute), []*net.IPNet{}, []*net.IPNet{}, []string{})
 	myControl, myVpnIp, myUdpAddr := newSimpleServer(ca, caKey, "me  ", net.IP{10, 0, 0, 1})
 	theirControl, theirVpnIp, theirUdpAddr := newSimpleServer(ca, caKey, "them", net.IP{10, 0, 0, 2})
 	// Put their info in our lighthouse and vice versa
 	myControl.InjectLightHouseAddr(theirVpnIp, theirUdpAddr)
 	theirControl.InjectLightHouseAddr(myVpnIp, myUdpAddr)
 	// Build a router so we don't have to reason who gets which packet
 	r := router.NewR(myControl, theirControl)
 	// Start the servers
 	myControl.Start()
 	theirControl.Start()
 	t.Log("Trigger a handshake to start on both me and them")
 	myControl.InjectTunUDPPacket(theirVpnIp, 80, 80, []byte("Hi from me"))
 	theirControl.InjectTunUDPPacket(myVpnIp, 80, 80, []byte("Hi from them"))
 	t.Log("Get both stage 1 handshake packets")
 	myHsForThem := myControl.GetFromUDP(true)
 	theirHsForMe := theirControl.GetFromUDP(true)
 	t.Log("Now inject both stage 1 handshake packets")
 	myControl.InjectUDPPacket(theirHsForMe)
 	theirControl.InjectUDPPacket(myHsForThem)
 	//TODO: they should win, grab their index for me and make sure I use it in the end.
 	t.Log("They should not have a stage 2 (won the race) but I should send one")
 	theirControl.InjectUDPPacket(myControl.GetFromUDP(true))
 	t.Log("Route for me until I send a message packet to them")
 	myControl.WaitForType(1, 0, theirControl)
 	t.Log("My cached packet should be received by them")
 	myCachedPacket := theirControl.GetFromTun(true)
 	assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIp, theirVpnIp, 80, 80)
 	t.Log("Route for them until I send a message packet to me")
 	theirControl.WaitForType(1, 0, myControl)
 	t.Log("Their cached packet should be received by me")
 	theirCachedPacket := myControl.GetFromTun(true)
 	assertUdpPacket(t, []byte("Hi from them"), theirCachedPacket, theirVpnIp, myVpnIp, 80, 80)
 	t.Log("Do a bidirectional tunnel test")
 	assertTunnel(t, myVpnIp, theirVpnIp, myControl, theirControl, r)
 	myControl.Stop()
 	theirControl.Stop()
 	//TODO: assert hostmaps
 }
 //TODO: add a test with many lies
--- a/e2e/helpers_test.go
+++ b/e2e/helpers_test.go
@@ -1,311 +0,0 @@
 //go:build e2e_testing
 // +build e2e_testing
 package e2e
 import (
 	"crypto/rand"
 	"fmt"
 	"io"
 	"io/ioutil"
 	"net"
 	"os"
 	"testing"
 	"time"
 	"github.com/google/gopacket"
 	"github.com/google/gopacket/layers"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/e2e/router"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/stretchr/testify/assert"
 	"golang.org/x/crypto/curve25519"
 	"golang.org/x/crypto/ed25519"
 	"gopkg.in/yaml.v2"
 )
 type m map[string]interface{}
 // newSimpleServer creates a nebula instance with many assumptions
 func newSimpleServer(caCrt *cert.NebulaCertificate, caKey []byte, name string, udpIp net.IP) (*nebula.Control, net.IP, *net.UDPAddr) {
 	l := NewTestLogger()
 	vpnIpNet := &net.IPNet{IP: make([]byte, len(udpIp)), Mask: net.IPMask{255, 255, 255, 0}}
 	copy(vpnIpNet.IP, udpIp)
 	vpnIpNet.IP[1] += 128
 	udpAddr := net.UDPAddr{
 		IP:   udpIp,
 		Port: 4242,
 	}
 	_, _, myPrivKey, myPEM := newTestCert(caCrt, caKey, name, time.Now(), time.Now().Add(5*time.Minute), vpnIpNet, nil, []string{})
 	caB, err := caCrt.MarshalToPEM()
 	if err != nil {
 		panic(err)
 	}
 	mc := m{
 		"pki": m{
 			"ca":   string(caB),
 			"cert": string(myPEM),
 			"key":  string(myPrivKey),
 		},
 		//"tun": m{"disabled": true},
 		"firewall": m{
 			"outbound": []m{{
 				"proto": "any",
 				"port":  "any",
 				"host":  "any",
 			}},
 			"inbound": []m{{
 				"proto": "any",
 				"port":  "any",
 				"host":  "any",
 			}},
 		},
 		//"handshakes": m{
 		//	"try_interval": "1s",
 		//},
 		"listen": m{
 			"host": udpAddr.IP.String(),
 			"port": udpAddr.Port,
 		},
 		"logging": m{
 			"timestamp_format": fmt.Sprintf("%v 15:04:05.000000", name),
 			"level":            l.Level.String(),
 		},
 	}
 	cb, err := yaml.Marshal(mc)
 	if err != nil {
 		panic(err)
 	}
 	c := config.NewC(l)
 	c.LoadString(string(cb))
 	control, err := nebula.Main(c, false, "e2e-test", l, nil)
 	if err != nil {
 		panic(err)
 	}
 	return control, vpnIpNet.IP, &udpAddr
 }
 // newTestCaCert will generate a CA cert
 func newTestCaCert(before, after time.Time, ips, subnets []*net.IPNet, groups []string) (*cert.NebulaCertificate, []byte, []byte, []byte) {
 	pub, priv, err := ed25519.GenerateKey(rand.Reader)
 	if before.IsZero() {
 		before = time.Now().Add(time.Second * -60).Round(time.Second)
 	}
 	if after.IsZero() {
 		after = time.Now().Add(time.Second * 60).Round(time.Second)
 	}
 	nc := &cert.NebulaCertificate{
 		Details: cert.NebulaCertificateDetails{
 			Name:           "test ca",
 			NotBefore:      time.Unix(before.Unix(), 0),
 			NotAfter:       time.Unix(after.Unix(), 0),
 			PublicKey:      pub,
 			IsCA:           true,
 			InvertedGroups: make(map[string]struct{}),
 		},
 	}
 	if len(ips) > 0 {
 		nc.Details.Ips = ips
 	}
 	if len(subnets) > 0 {
 		nc.Details.Subnets = subnets
 	}
 	if len(groups) > 0 {
 		nc.Details.Groups = groups
 	}
 	err = nc.Sign(priv)
 	if err != nil {
 		panic(err)
 	}
 	pem, err := nc.MarshalToPEM()
 	if err != nil {
 		panic(err)
 	}
 	return nc, pub, priv, pem
 }
 // newTestCert will generate a signed certificate with the provided details.
 // Expiry times are defaulted if you do not pass them in
 func newTestCert(ca *cert.NebulaCertificate, key []byte, name string, before, after time.Time, ip *net.IPNet, subnets []*net.IPNet, groups []string) (*cert.NebulaCertificate, []byte, []byte, []byte) {
 	issuer, err := ca.Sha256Sum()
 	if err != nil {
 		panic(err)
 	}
 	if before.IsZero() {
 		before = time.Now().Add(time.Second * -60).Round(time.Second)
 	}
 	if after.IsZero() {
 		after = time.Now().Add(time.Second * 60).Round(time.Second)
 	}
 	pub, rawPriv := x25519Keypair()
 	nc := &cert.NebulaCertificate{
 		Details: cert.NebulaCertificateDetails{
 			Name:           name,
 			Ips:            []*net.IPNet{ip},
 			Subnets:        subnets,
 			Groups:         groups,
 			NotBefore:      time.Unix(before.Unix(), 0),
 			NotAfter:       time.Unix(after.Unix(), 0),
 			PublicKey:      pub,
 			IsCA:           false,
 			Issuer:         issuer,
 			InvertedGroups: make(map[string]struct{}),
 		},
 	}
 	err = nc.Sign(key)
 	if err != nil {
 		panic(err)
 	}
 	pem, err := nc.MarshalToPEM()
 	if err != nil {
 		panic(err)
 	}
 	return nc, pub, cert.MarshalX25519PrivateKey(rawPriv), pem
 }
 func x25519Keypair() ([]byte, []byte) {
 	privkey := make([]byte, 32)
 	if _, err := io.ReadFull(rand.Reader, privkey); err != nil {
 		panic(err)
 	}
 	pubkey, err := curve25519.X25519(privkey, curve25519.Basepoint)
 	if err != nil {
 		panic(err)
 	}
 	return pubkey, privkey
 }
 type doneCb func()
 func deadline(t *testing.T, seconds time.Duration) doneCb {
 	timeout := time.After(seconds * time.Second)
 	done := make(chan bool)
 	go func() {
 		select {
 		case <-timeout:
 			t.Fatal("Test did not finish in time")
 		case <-done:
 		}
 	}()
 	return func() {
 		done <- true
 	}
 }
 func assertTunnel(t *testing.T, vpnIpA, vpnIpB net.IP, controlA, controlB *nebula.Control, r *router.R) {
 	// Send a packet from them to me
 	controlB.InjectTunUDPPacket(vpnIpA, 80, 90, []byte("Hi from B"))
 	bPacket := r.RouteUntilTxTun(controlB, controlA)
 	assertUdpPacket(t, []byte("Hi from B"), bPacket, vpnIpB, vpnIpA, 90, 80)
 	// And once more from me to them
 	controlA.InjectTunUDPPacket(vpnIpB, 80, 90, []byte("Hello from A"))
 	aPacket := r.RouteUntilTxTun(controlA, controlB)
 	assertUdpPacket(t, []byte("Hello from A"), aPacket, vpnIpA, vpnIpB, 90, 80)
 }
 func assertHostInfoPair(t *testing.T, addrA, addrB *net.UDPAddr, vpnIpA, vpnIpB net.IP, controlA, controlB *nebula.Control) {
 	// Get both host infos
 	hBinA := controlA.GetHostInfoByVpnIp(iputil.Ip2VpnIp(vpnIpB), false)
 	assert.NotNil(t, hBinA, "Host B was not found by vpnIp in controlA")
 	hAinB := controlB.GetHostInfoByVpnIp(iputil.Ip2VpnIp(vpnIpA), false)
 	assert.NotNil(t, hAinB, "Host A was not found by vpnIp in controlB")
 	// Check that both vpn and real addr are correct
 	assert.Equal(t, vpnIpB, hBinA.VpnIp, "Host B VpnIp is wrong in control A")
 	assert.Equal(t, vpnIpA, hAinB.VpnIp, "Host A VpnIp is wrong in control B")
 	assert.Equal(t, addrB.IP.To16(), hBinA.CurrentRemote.IP.To16(), "Host B remote ip is wrong in control A")
 	assert.Equal(t, addrA.IP.To16(), hAinB.CurrentRemote.IP.To16(), "Host A remote ip is wrong in control B")
 	assert.Equal(t, addrB.Port, int(hBinA.CurrentRemote.Port), "Host B remote port is wrong in control A")
 	assert.Equal(t, addrA.Port, int(hAinB.CurrentRemote.Port), "Host A remote port is wrong in control B")
 	// Check that our indexes match
 	assert.Equal(t, hBinA.LocalIndex, hAinB.RemoteIndex, "Host B local index does not match host A remote index")
 	assert.Equal(t, hBinA.RemoteIndex, hAinB.LocalIndex, "Host B remote index does not match host A local index")
 	//TODO: Would be nice to assert this memory
 	//checkIndexes := func(name string, hm *HostMap, hi *HostInfo) {
 	//	hBbyIndex := hmA.Indexes[hBinA.localIndexId]
 	//	assert.NotNil(t, hBbyIndex, "Could not host info by local index in %s", name)
 	//	assert.Equal(t, &hBbyIndex, &hBinA, "%s Indexes map did not point to the right host info", name)
 	//
 	//	//TODO: remote indexes are susceptible to collision
 	//	hBbyRemoteIndex := hmA.RemoteIndexes[hBinA.remoteIndexId]
 	//	assert.NotNil(t, hBbyIndex, "Could not host info by remote index in %s", name)
 	//	assert.Equal(t, &hBbyRemoteIndex, &hBinA, "%s RemoteIndexes did not point to the right host info", name)
 	//}
 	//
 	//// Check hostmap indexes too
 	//checkIndexes("hmA", hmA, hBinA)
 	//checkIndexes("hmB", hmB, hAinB)
 }
 func assertUdpPacket(t *testing.T, expected, b []byte, fromIp, toIp net.IP, fromPort, toPort uint16) {
 	packet := gopacket.NewPacket(b, layers.LayerTypeIPv4, gopacket.Lazy)
 	v4 := packet.Layer(layers.LayerTypeIPv4).(*layers.IPv4)
 	assert.NotNil(t, v4, "No ipv4 data found")
 	assert.Equal(t, fromIp, v4.SrcIP, "Source ip was incorrect")
 	assert.Equal(t, toIp, v4.DstIP, "Dest ip was incorrect")
 	udp := packet.Layer(layers.LayerTypeUDP).(*layers.UDP)
 	assert.NotNil(t, udp, "No udp data found")
 	assert.Equal(t, fromPort, uint16(udp.SrcPort), "Source port was incorrect")
 	assert.Equal(t, toPort, uint16(udp.DstPort), "Dest port was incorrect")
 	data := packet.ApplicationLayer()
 	assert.NotNil(t, data)
 	assert.Equal(t, expected, data.Payload(), "Data was incorrect")
 }
 func NewTestLogger() *logrus.Logger {
 	l := logrus.New()
 	v := os.Getenv("TEST_LOGS")
 	if v == "" {
 		l.SetOutput(ioutil.Discard)
 		return l
 	}
 	switch v {
 	case "2":
 		l.SetLevel(logrus.DebugLevel)
 	case "3":
 		l.SetLevel(logrus.TraceLevel)
 	default:
 		l.SetLevel(logrus.InfoLevel)
 	}
 	return l
 }
--- a/e2e/router/doc.go
+++ b/e2e/router/doc.go
@@ -1,3 +0,0 @@
 package router
 // This file exists to allow `go fmt` to traverse here on its own. The build tags were keeping it out before
--- a/e2e/router/router.go
+++ b/e2e/router/router.go
@@ -1,323 +0,0 @@
 //go:build e2e_testing
 // +build e2e_testing
 package router
 import (
 	"fmt"
 	"net"
 	"reflect"
 	"strconv"
 	"sync"
 	"github.com/slackhq/nebula"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/udp"
 )
 type R struct {
 	// Simple map of the ip:port registered on a control to the control
 	// Basically a router, right?
 	controls map[string]*nebula.Control
 	// A map for inbound packets for a control that doesn't know about this address
 	inNat map[string]*nebula.Control
 	// A last used map, if an inbound packet hit the inNat map then
 	// all return packets should use the same last used inbound address for the outbound sender
 	// map[from address + ":" + to address] => ip:port to rewrite in the udp packet to receiver
 	outNat map[string]net.UDPAddr
 	// All interactions are locked to help serialize behavior
 	sync.Mutex
 }
 type ExitType int
 const (
 	// Keeps routing, the function will get called again on the next packet
 	KeepRouting ExitType = 0
 	// Does not route this packet and exits immediately
 	ExitNow ExitType = 1
 	// Routes this packet and exits immediately afterwards
 	RouteAndExit ExitType = 2
 )
 type ExitFunc func(packet *udp.Packet, receiver *nebula.Control) ExitType
 func NewR(controls ...*nebula.Control) *R {
 	r := &R{
 		controls: make(map[string]*nebula.Control),
 		inNat:    make(map[string]*nebula.Control),
 		outNat:   make(map[string]net.UDPAddr),
 	}
 	for _, c := range controls {
 		addr := c.GetUDPAddr()
 		if _, ok := r.controls[addr]; ok {
 			panic("Duplicate listen address: " + addr)
 		}
 		r.controls[addr] = c
 	}
 	return r
 }
 // AddRoute will place the nebula controller at the ip and port specified.
 // It does not look at the addr attached to the instance.
 // If a route is used, this will behave like a NAT for the return path.
 // Rewriting the source ip:port to what was last sent to from the origin
 func (r *R) AddRoute(ip net.IP, port uint16, c *nebula.Control) {
 	r.Lock()
 	defer r.Unlock()
 	inAddr := net.JoinHostPort(ip.String(), fmt.Sprintf("%v", port))
 	if _, ok := r.inNat[inAddr]; ok {
 		panic("Duplicate listen address inNat: " + inAddr)
 	}
 	r.inNat[inAddr] = c
 }
 // OnceFrom will route a single packet from sender then return
 // If the router doesn't have the nebula controller for that address, we panic
 func (r *R) OnceFrom(sender *nebula.Control) {
 	r.RouteExitFunc(sender, func(*udp.Packet, *nebula.Control) ExitType {
 		return RouteAndExit
 	})
 }
 // RouteUntilTxTun will route for sender and return when a packet is seen on receivers tun
 // If the router doesn't have the nebula controller for that address, we panic
 func (r *R) RouteUntilTxTun(sender *nebula.Control, receiver *nebula.Control) []byte {
 	tunTx := receiver.GetTunTxChan()
 	udpTx := sender.GetUDPTxChan()
 	for {
 		select {
 		// Maybe we already have something on the tun for us
 		case b := <-tunTx:
 			return b
 		// Nope, lets push the sender along
 		case p := <-udpTx:
 			outAddr := sender.GetUDPAddr()
 			r.Lock()
 			inAddr := net.JoinHostPort(p.ToIp.String(), fmt.Sprintf("%v", p.ToPort))
 			c := r.getControl(outAddr, inAddr, p)
 			if c == nil {
 				r.Unlock()
 				panic("No control for udp tx")
 			}
 			c.InjectUDPPacket(p)
 			r.Unlock()
 		}
 	}
 }
 // RouteExitFunc will call the whatDo func with each udp packet from sender.
 // whatDo can return:
 //   - exitNow: the packet will not be routed and this call will return immediately
 //   - routeAndExit: this call will return immediately after routing the last packet from sender
 //   - keepRouting: the packet will be routed and whatDo will be called again on the next packet from sender
 func (r *R) RouteExitFunc(sender *nebula.Control, whatDo ExitFunc) {
 	h := &header.H{}
 	for {
 		p := sender.GetFromUDP(true)
 		r.Lock()
 		if err := h.Parse(p.Data); err != nil {
 			panic(err)
 		}
 		outAddr := sender.GetUDPAddr()
 		inAddr := net.JoinHostPort(p.ToIp.String(), fmt.Sprintf("%v", p.ToPort))
 		receiver := r.getControl(outAddr, inAddr, p)
 		if receiver == nil {
 			r.Unlock()
 			panic("Can't route for host: " + inAddr)
 		}
 		e := whatDo(p, receiver)
 		switch e {
 		case ExitNow:
 			r.Unlock()
 			return
 		case RouteAndExit:
 			receiver.InjectUDPPacket(p)
 			r.Unlock()
 			return
 		case KeepRouting:
 			receiver.InjectUDPPacket(p)
 		default:
 			panic(fmt.Sprintf("Unknown exitFunc return: %v", e))
 		}
 		r.Unlock()
 	}
 }
 // RouteUntilAfterMsgType will route for sender until a message type is seen and sent from sender
 // If the router doesn't have the nebula controller for that address, we panic
 func (r *R) RouteUntilAfterMsgType(sender *nebula.Control, msgType header.MessageType, subType header.MessageSubType) {
 	h := &header.H{}
 	r.RouteExitFunc(sender, func(p *udp.Packet, r *nebula.Control) ExitType {
 		if err := h.Parse(p.Data); err != nil {
 			panic(err)
 		}
 		if h.Type == msgType && h.Subtype == subType {
 			return RouteAndExit
 		}
 		return KeepRouting
 	})
 }
 // RouteForUntilAfterToAddr will route for sender and return only after it sees and sends a packet destined for toAddr
 // finish can be any of the exitType values except `keepRouting`, the default value is `routeAndExit`
 // If the router doesn't have the nebula controller for that address, we panic
 func (r *R) RouteForUntilAfterToAddr(sender *nebula.Control, toAddr *net.UDPAddr, finish ExitType) {
 	if finish == KeepRouting {
 		finish = RouteAndExit
 	}
 	r.RouteExitFunc(sender, func(p *udp.Packet, r *nebula.Control) ExitType {
 		if p.ToIp.Equal(toAddr.IP) && p.ToPort == uint16(toAddr.Port) {
 			return finish
 		}
 		return KeepRouting
 	})
 }
 // RouteForAllExitFunc will route for every registered controller and calls the whatDo func with each udp packet from
 // whatDo can return:
 //   - exitNow: the packet will not be routed and this call will return immediately
 //   - routeAndExit: this call will return immediately after routing the last packet from sender
 //   - keepRouting: the packet will be routed and whatDo will be called again on the next packet from sender
 func (r *R) RouteForAllExitFunc(whatDo ExitFunc) {
 	sc := make([]reflect.SelectCase, len(r.controls))
 	cm := make([]*nebula.Control, len(r.controls))
 	i := 0
 	for _, c := range r.controls {
 		sc[i] = reflect.SelectCase{
 			Dir:  reflect.SelectRecv,
 			Chan: reflect.ValueOf(c.GetUDPTxChan()),
 			Send: reflect.Value{},
 		}
 		cm[i] = c
 		i++
 	}
 	for {
 		x, rx, _ := reflect.Select(sc)
 		r.Lock()
 		p := rx.Interface().(*udp.Packet)
 		outAddr := cm[x].GetUDPAddr()
 		inAddr := net.JoinHostPort(p.ToIp.String(), fmt.Sprintf("%v", p.ToPort))
 		receiver := r.getControl(outAddr, inAddr, p)
 		if receiver == nil {
 			r.Unlock()
 			panic("Can't route for host: " + inAddr)
 		}
 		e := whatDo(p, receiver)
 		switch e {
 		case ExitNow:
 			r.Unlock()
 			return
 		case RouteAndExit:
 			receiver.InjectUDPPacket(p)
 			r.Unlock()
 			return
 		case KeepRouting:
 			receiver.InjectUDPPacket(p)
 		default:
 			panic(fmt.Sprintf("Unknown exitFunc return: %v", e))
 		}
 		r.Unlock()
 	}
 }
 // FlushAll will route for every registered controller, exiting once there are no packets left to route
 func (r *R) FlushAll() {
 	sc := make([]reflect.SelectCase, len(r.controls))
 	cm := make([]*nebula.Control, len(r.controls))
 	i := 0
 	for _, c := range r.controls {
 		sc[i] = reflect.SelectCase{
 			Dir:  reflect.SelectRecv,
 			Chan: reflect.ValueOf(c.GetUDPTxChan()),
 			Send: reflect.Value{},
 		}
 		cm[i] = c
 		i++
 	}
 	// Add a default case to exit when nothing is left to send
 	sc = append(sc, reflect.SelectCase{
 		Dir:  reflect.SelectDefault,
 		Chan: reflect.Value{},
 		Send: reflect.Value{},
 	})
 	for {
 		x, rx, ok := reflect.Select(sc)
 		if !ok {
 			return
 		}
 		r.Lock()
 		p := rx.Interface().(*udp.Packet)
 		outAddr := cm[x].GetUDPAddr()
 		inAddr := net.JoinHostPort(p.ToIp.String(), fmt.Sprintf("%v", p.ToPort))
 		receiver := r.getControl(outAddr, inAddr, p)
 		if receiver == nil {
 			r.Unlock()
 			panic("Can't route for host: " + inAddr)
 		}
 		r.Unlock()
 	}
 }
 // getControl performs or seeds NAT translation and returns the control for toAddr, p from fields may change
 // This is an internal router function, the caller must hold the lock
 func (r *R) getControl(fromAddr, toAddr string, p *udp.Packet) *nebula.Control {
 	if newAddr, ok := r.outNat[fromAddr+":"+toAddr]; ok {
 		p.FromIp = newAddr.IP
 		p.FromPort = uint16(newAddr.Port)
 	}
 	c, ok := r.inNat[toAddr]
 	if ok {
 		sHost, sPort, err := net.SplitHostPort(toAddr)
 		if err != nil {
 			panic(err)
 		}
 		port, err := strconv.Atoi(sPort)
 		if err != nil {
 			panic(err)
 		}
 		r.outNat[c.GetUDPAddr()+":"+fromAddr] = net.UDPAddr{
 			IP:   net.ParseIP(sHost),
 			Port: port,
 		}
 		return c
 	}
 	return r.controls[toAddr]
 }
--- a/examples/config.yml
+++ b/examples/config.yml
@@ -10,8 +10,6 @@ pki:
  #blocklist is a list of certificate fingerprints that we will refuse to talk to
  #blocklist:
  #  - c99d4e650533b92061b09918e838a5a0a6aaee21eed1d12fd937682865936c72
  # disconnect_invalid is a toggle to force a client to be disconnected if the certificate is expired or invalid.
  #disconnect_invalid: false
 # The static host map defines a set of hosts with fixed IP addresses on the internet (or any network).
 # A host can have multiple fixed IP addresses defined here, and nebula will try each when establishing a tunnel.
@@ -58,14 +56,6 @@ lighthouse:
    #"10.0.0.0/8": false
    #"10.42.42.0/24": true
  # EXPERIMENTAL: This option my change or disappear in the future.
  # Optionally allows the definition of remote_allow_list blocks
  # specific to an inside VPN IP CIDR.
  #remote_allow_ranges:
    # This rule would only allow only private IPs for this VPN range
    #"10.42.42.0/24":
      #"192.168.0.0/16": true
  # local_allow_list allows you to filter which local IP addresses we advertise
  # to the lighthouses. This uses the same logic as `remote_allow_list`, but
  # additionally, you can specify an `interfaces` map of regular expressions
@@ -84,7 +74,6 @@ lighthouse:
 # Port Nebula will be listening on. The default here is 4242. For a lighthouse node, the port should be defined,
 # however using port 0 will dynamically assign a port and is recommended for roaming nodes.
 listen:
  # To listen on both any ipv4 and ipv6 use "[::]"
  host: 0.0.0.0
  port: 4242
  # Sets the max number of packets to pull from the kernel for each syscall (under systems that support recvmmsg)
@@ -97,15 +86,6 @@ listen:
  #read_buffer: 10485760
  #write_buffer: 10485760
 # EXPERIMENTAL: This option is currently only supported on linux and may
 # change in future minor releases.
 #
 # Routines is the number of thread pairs to run that consume from the tun and UDP queues.
 # Currently, this defaults to 1 which means we have 1 tun queue reader and 1
 # UDP queue reader. Setting this above one will set IFF_MULTI_QUEUE on the tun
 # device and SO_REUSEPORT on the UDP socket to allow multiple queues.
 #routines: 1
 punchy:
  # Continues to punch inbound/outbound at a regular interval to avoid expiration of firewall nat mappings
  punch: true
@@ -118,15 +98,13 @@ punchy:
  # delays a punch response for misbehaving NATs, default is 1 second, respond must be true to take effect
  #delay: 1s
-# Cipher allows you to choose between the available ciphers for your network. Options are chachapoly or aes
+# Cipher allows you to choose between the available ciphers for your network.
 # IMPORTANT: this value must be identical on ALL NODES/LIGHTHOUSES. We do not/will not support use of different ciphers simultaneously!
 #cipher: chachapoly
-# Preferred ranges is used to define a hint about the local network ranges, which speeds up discovering the fastest
+# Local range is used to define a hint about the local network range, which speeds up discovering the fastest
 # path to a network adjacent nebula node.
-# NOTE: the previous option "local_range" only allowed definition of a single range
+#local_range: "172.16.0.0/24"
 # and has been deprecated for "preferred_ranges"
 #preferred_ranges: ["172.16.0.0/24"]
 # sshd can expose informational and administrative functions via ssh this is a
 #sshd:
@@ -148,9 +126,7 @@ punchy:
 tun:
  # When tun is disabled, a lighthouse can be started without a local tun interface (and therefore without root)
  disabled: false
-  # Name of the device. If not set, a default will be chosen by the OS.
+  # Name of the device
  # For macOS: if set, must be in the form `utun[0-9]+`.
  # For FreeBSD: Required to be set, must be in the form `tun[0-9]+`.
  dev: nebula1
  # Toggles forwarding of local broadcast packets, the address of which depends on the ip/mask encoded in pki.cert
  drop_local_broadcast: false
@@ -167,13 +143,10 @@ tun:
  # Unsafe routes allows you to route traffic over nebula to non-nebula nodes
  # Unsafe routes should be avoided unless you have hosts/services that cannot run nebula
  # NOTE: The nebula certificate of the "via" node *MUST* have the "route" defined as a subnet in its certificate
  # `mtu` will default to tun mtu if this option is not specified
  # `metric` will default to 0 if this option is not specified
  unsafe_routes:
    #- route: 172.16.1.0/24
    #  via: 192.168.100.99
-    #  mtu: 1300
+    #  mtu: 1300 #mtu will default to tun mtu if this option is not sepcified
    #  metric: 100
 # TODO
@@ -217,18 +190,18 @@ logging:
  #   e.g.: `lighthouse.rx.HostQuery`
  #lighthouse_metrics: false
-# Handshake Manager Settings
+# Handshake Manger Settings
 #handshakes:
-  # Handshakes are sent to all known addresses at each interval with a linear backoff,
+  # Total time to try a handshake = sequence of `try_interval * retries`
-  # Wait try_interval after the 1st attempt, 2 * try_interval after the 2nd, etc, until the handshake is older than timeout
+  # With 100ms interval and 20 retries it is 23.5 seconds
  # A 100ms interval with the default 10 retries will give a handshake 5.5 seconds to resolve before timing out
  #try_interval: 100ms
  #retries: 20
  # wait_rotation is the number of handshake attempts to do before starting to try non-local IP addresses
  #wait_rotation: 5
  # trigger_buffer is the size of the buffer channel for quickly sending handshakes
  # after receiving the response for lighthouse queries
  #trigger_buffer: 64
 # Nebula security group configuration
 firewall:
  conntrack:
--- a/examples/quickstart-vagrant/ansible/roles/nebula/files/systemd.nebula.service
+++ b/examples/quickstart-vagrant/ansible/roles/nebula/files/systemd.nebula.service
@@ -5,6 +5,8 @@ After=basic.target network.target
 [Service]
 SyslogIdentifier=nebula
 StandardOutput=syslog
 StandardError=syslog
 ExecReload=/bin/kill -HUP $MAINPID
 ExecStart=/usr/local/bin/nebula -config /etc/nebula/config.yml
 Restart=always
--- a/examples/service_scripts/nebula.service
+++ b/examples/service_scripts/nebula.service
@@ -2,10 +2,11 @@
 Description=nebula
 Wants=basic.target
 After=basic.target network.target
 Before=sshd.service
 [Service]
 SyslogIdentifier=nebula
 StandardOutput=syslog
 StandardError=syslog
 ExecReload=/bin/kill -HUP $MAINPID
 ExecStart=/usr/local/bin/nebula -config /etc/nebula/config.yml
 Restart=always
--- a/firewall.go
+++ b/firewall.go
@@ -4,6 +4,7 @@ import (
 	"crypto/sha256"
 	"encoding/binary"
 	"encoding/hex"
 	"encoding/json"
 	"errors"
 	"fmt"
 	"net"
@@ -16,9 +17,16 @@ import (
 	"github.com/rcrowley/go-metrics"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
-	"github.com/slackhq/nebula/cidr"
+)
-	"github.com/slackhq/nebula/config"
+
-	"github.com/slackhq/nebula/firewall"
+const (
 	fwProtoAny  = 0 // When we want to handle HOPOPT (0) we can change this, if ever
 	fwProtoTCP  = 6
 	fwProtoUDP  = 17
 	fwProtoICMP = 1
 	fwPortAny      = 0  // Special value for matching `port: any`
 	fwPortFragment = -1 // Special value for matching `port: fragment`
 )
 const tcpACK = 0x10
@@ -54,29 +62,19 @@ type Firewall struct {
 	DefaultTimeout time.Duration //linux: 600s
 	// Used to ensure we don't emit local packets for ips we don't own
-	localIps *cidr.Tree4
+	localIps *CIDRTree
 	rules        string
 	rulesVersion uint16
 	trackTCPRTT  bool
 	metricTCPRTT metrics.Histogram
 	incomingMetrics firewallMetrics
 	outgoingMetrics firewallMetrics
 	l *logrus.Logger
 }
 type firewallMetrics struct {
 	droppedLocalIP  metrics.Counter
 	droppedRemoteIP metrics.Counter
 	droppedNoRule   metrics.Counter
 }
 type FirewallConntrack struct {
 	sync.Mutex
-	Conns      map[firewall.Packet]*conn
+	Conns      map[FirewallPacket]*conn
 	TimerWheel *TimerWheel
 }
@@ -107,15 +105,57 @@ type FirewallRule struct {
 	Any    bool
 	Hosts  map[string]struct{}
 	Groups [][]string
-	CIDR   *cidr.Tree4
+	CIDR   *CIDRTree
 }
 // Even though ports are uint16, int32 maps are faster for lookup
 // Plus we can use `-1` for fragment rules
 type firewallPort map[int32]*FirewallCA
 type FirewallPacket struct {
 	LocalIP    uint32
 	RemoteIP   uint32
 	LocalPort  uint16
 	RemotePort uint16
 	Protocol   uint8
 	Fragment   bool
 }
 func (fp *FirewallPacket) Copy() *FirewallPacket {
 	return &FirewallPacket{
 		LocalIP:    fp.LocalIP,
 		RemoteIP:   fp.RemoteIP,
 		LocalPort:  fp.LocalPort,
 		RemotePort: fp.RemotePort,
 		Protocol:   fp.Protocol,
 		Fragment:   fp.Fragment,
 	}
 }
 func (fp FirewallPacket) MarshalJSON() ([]byte, error) {
 	var proto string
 	switch fp.Protocol {
 	case fwProtoTCP:
 		proto = "tcp"
 	case fwProtoICMP:
 		proto = "icmp"
 	case fwProtoUDP:
 		proto = "udp"
 	default:
 		proto = fmt.Sprintf("unknown %v", fp.Protocol)
 	}
 	return json.Marshal(m{
 		"LocalIP":    int2ip(fp.LocalIP).String(),
 		"RemoteIP":   int2ip(fp.RemoteIP).String(),
 		"LocalPort":  fp.LocalPort,
 		"RemotePort": fp.RemotePort,
 		"Protocol":   proto,
 		"Fragment":   fp.Fragment,
 	})
 }
 // NewFirewall creates a new Firewall object. A TimerWheel is created for you from the provided timeouts.
-func NewFirewall(l *logrus.Logger, tcpTimeout, UDPTimeout, defaultTimeout time.Duration, c *cert.NebulaCertificate) *Firewall {
+func NewFirewall(tcpTimeout, UDPTimeout, defaultTimeout time.Duration, c *cert.NebulaCertificate) *Firewall {
 	//TODO: error on 0 duration
 	var min, max time.Duration
@@ -133,7 +173,7 @@ func NewFirewall(l *logrus.Logger, tcpTimeout, UDPTimeout, defaultTimeout time.D
 		max = defaultTimeout
 	}
-	localIps := cidr.NewTree4()
+	localIps := NewCIDRTree()
 	for _, ip := range c.Details.Ips {
 		localIps.AddCIDR(&net.IPNet{IP: ip.IP, Mask: net.IPMask{255, 255, 255, 255}}, struct{}{})
 	}
@@ -144,7 +184,7 @@ func NewFirewall(l *logrus.Logger, tcpTimeout, UDPTimeout, defaultTimeout time.D
 	return &Firewall{
 		Conntrack: &FirewallConntrack{
-			Conns:      make(map[firewall.Packet]*conn),
+			Conns:      make(map[FirewallPacket]*conn),
 			TimerWheel: NewTimerWheel(min, max),
 		},
 		InRules:        newFirewallTable(),
@@ -153,25 +193,12 @@ func NewFirewall(l *logrus.Logger, tcpTimeout, UDPTimeout, defaultTimeout time.D
 		UDPTimeout:     UDPTimeout,
 		DefaultTimeout: defaultTimeout,
 		localIps:       localIps,
 		l:              l,
 		metricTCPRTT:   metrics.GetOrRegisterHistogram("network.tcp.rtt", nil, metrics.NewExpDecaySample(1028, 0.015)),
 		incomingMetrics: firewallMetrics{
 			droppedLocalIP:  metrics.GetOrRegisterCounter("firewall.incoming.dropped.local_ip", nil),
 			droppedRemoteIP: metrics.GetOrRegisterCounter("firewall.incoming.dropped.remote_ip", nil),
 			droppedNoRule:   metrics.GetOrRegisterCounter("firewall.incoming.dropped.no_rule", nil),
 		},
 		outgoingMetrics: firewallMetrics{
 			droppedLocalIP:  metrics.GetOrRegisterCounter("firewall.outgoing.dropped.local_ip", nil),
 			droppedRemoteIP: metrics.GetOrRegisterCounter("firewall.outgoing.dropped.remote_ip", nil),
 			droppedNoRule:   metrics.GetOrRegisterCounter("firewall.outgoing.dropped.no_rule", nil),
 		},
 	}
 }
-func NewFirewallFromConfig(l *logrus.Logger, nc *cert.NebulaCertificate, c *config.C) (*Firewall, error) {
+func NewFirewallFromConfig(nc *cert.NebulaCertificate, c *Config) (*Firewall, error) {
 	fw := NewFirewall(
 		l,
 		c.GetDuration("firewall.conntrack.tcp_timeout", time.Minute*12),
 		c.GetDuration("firewall.conntrack.udp_timeout", time.Minute*3),
 		c.GetDuration("firewall.conntrack.default_timeout", time.Minute*10),
@@ -179,12 +206,12 @@ func NewFirewallFromConfig(l *logrus.Logger, nc *cert.NebulaCertificate, c *conf
 		//TODO: max_connections
 	)
-	err := AddFirewallRulesFromConfig(l, false, c, fw)
+	err := AddFirewallRulesFromConfig(false, c, fw)
 	if err != nil {
 		return nil, err
 	}
-	err = AddFirewallRulesFromConfig(l, true, c, fw)
+	err = AddFirewallRulesFromConfig(true, c, fw)
 	if err != nil {
 		return nil, err
 	}
@@ -212,7 +239,7 @@ func (f *Firewall) AddRule(incoming bool, proto uint8, startPort int32, endPort
 	if !incoming {
 		direction = "outgoing"
 	}
-	f.l.WithField("firewallRule", m{"direction": direction, "proto": proto, "startPort": startPort, "endPort": endPort, "groups": groups, "host": host, "ip": sIp, "caName": caName, "caSha": caSha}).
+	l.WithField("firewallRule", m{"direction": direction, "proto": proto, "startPort": startPort, "endPort": endPort, "groups": groups, "host": host, "ip": sIp, "caName": caName, "caSha": caSha}).
 		Info("Firewall rule added")
 	var (
@@ -227,13 +254,13 @@ func (f *Firewall) AddRule(incoming bool, proto uint8, startPort int32, endPort
 	}
 	switch proto {
-	case firewall.ProtoTCP:
+	case fwProtoTCP:
 		fp = ft.TCP
-	case firewall.ProtoUDP:
+	case fwProtoUDP:
 		fp = ft.UDP
-	case firewall.ProtoICMP:
+	case fwProtoICMP:
 		fp = ft.ICMP
-	case firewall.ProtoAny:
+	case fwProtoAny:
 		fp = ft.AnyProto
 	default:
 		return fmt.Errorf("unknown protocol %v", proto)
@@ -248,7 +275,7 @@ func (f *Firewall) GetRuleHash() string {
 	return hex.EncodeToString(sum[:])
 }
-func AddFirewallRulesFromConfig(l *logrus.Logger, inbound bool, c *config.C, fw FirewallInterface) error {
+func AddFirewallRulesFromConfig(inbound bool, config *Config, fw FirewallInterface) error {
 	var table string
 	if inbound {
 		table = "firewall.inbound"
@@ -256,7 +283,7 @@ func AddFirewallRulesFromConfig(l *logrus.Logger, inbound bool, c *config.C, fw
 		table = "firewall.outbound"
 	}
-	r := c.Get(table)
+	r := config.Get(table)
 	if r == nil {
 		return nil
 	}
@@ -268,7 +295,7 @@ func AddFirewallRulesFromConfig(l *logrus.Logger, inbound bool, c *config.C, fw
 	for i, t := range rs {
 		var groups []string
-		r, err := convertRule(l, t, table, i)
+		r, err := convertRule(t, table, i)
 		if err != nil {
 			return fmt.Errorf("%s rule #%v; %s", table, i, err)
 		}
@@ -311,13 +338,13 @@ func AddFirewallRulesFromConfig(l *logrus.Logger, inbound bool, c *config.C, fw
 		var proto uint8
 		switch r.Proto {
 		case "any":
-			proto = firewall.ProtoAny
+			proto = fwProtoAny
 		case "tcp":
-			proto = firewall.ProtoTCP
+			proto = fwProtoTCP
 		case "udp":
-			proto = firewall.ProtoUDP
+			proto = fwProtoUDP
 		case "icmp":
-			proto = firewall.ProtoICMP
+			proto = fwProtoICMP
 		default:
 			return fmt.Errorf("%s rule #%v; proto was not understood; `%s`", table, i, r.Proto)
 		}
@@ -345,29 +372,26 @@ var ErrNoMatchingRule = errors.New("no matching rule in firewall table")
 // Drop returns an error if the packet should be dropped, explaining why. It
 // returns nil if the packet should not be dropped.
-func (f *Firewall) Drop(packet []byte, fp firewall.Packet, incoming bool, h *HostInfo, caPool *cert.NebulaCAPool, localCache firewall.ConntrackCache) error {
+func (f *Firewall) Drop(packet []byte, fp FirewallPacket, incoming bool, h *HostInfo, caPool *cert.NebulaCAPool) error {
 	// Check if we spoke to this tuple, if we did then allow this packet
-	if f.inConns(packet, fp, incoming, h, caPool, localCache) {
+	if f.inConns(packet, fp, incoming, h, caPool) {
 		return nil
 	}
 	// Make sure remote address matches nebula certificate
 	if remoteCidr := h.remoteCidr; remoteCidr != nil {
 		if remoteCidr.Contains(fp.RemoteIP) == nil {
 			f.metrics(incoming).droppedRemoteIP.Inc(1)
 			return ErrInvalidRemoteIP
 		}
 	} else {
 		// Simple case: Certificate has one IP and no subnets
-		if fp.RemoteIP != h.vpnIp {
+		if fp.RemoteIP != h.hostId {
 			f.metrics(incoming).droppedRemoteIP.Inc(1)
 			return ErrInvalidRemoteIP
 		}
 	}
 	// Make sure we are supposed to be handling this local ip address
 	if f.localIps.Contains(fp.LocalIP) == nil {
 		f.metrics(incoming).droppedLocalIP.Inc(1)
 		return ErrInvalidLocalIP
 	}
@@ -378,7 +402,6 @@ func (f *Firewall) Drop(packet []byte, fp firewall.Packet, incoming bool, h *Hos
 	// We now know which firewall table to check against
 	if !table.match(fp, incoming, h.ConnectionState.peerCert, caPool) {
 		f.metrics(incoming).droppedNoRule.Inc(1)
 		return ErrNoMatchingRule
 	}
@@ -388,14 +411,6 @@ func (f *Firewall) Drop(packet []byte, fp firewall.Packet, incoming bool, h *Hos
 	return nil
 }
 func (f *Firewall) metrics(incoming bool) firewallMetrics {
 	if incoming {
 		return f.incomingMetrics
 	} else {
 		return f.outgoingMetrics
 	}
 }
 // Destroy cleans up any known cyclical references so the object can be free'd my GC. This should be called if a new
 // firewall object is created
 func (f *Firewall) Destroy() {
@@ -411,12 +426,7 @@ func (f *Firewall) EmitStats() {
 	metrics.GetOrRegisterGauge("firewall.rules.version", nil).Update(int64(f.rulesVersion))
 }
-func (f *Firewall) inConns(packet []byte, fp firewall.Packet, incoming bool, h *HostInfo, caPool *cert.NebulaCAPool, localCache firewall.ConntrackCache) bool {
+func (f *Firewall) inConns(packet []byte, fp FirewallPacket, incoming bool, h *HostInfo, caPool *cert.NebulaCAPool) bool {
 	if localCache != nil {
 		if _, ok := localCache[fp]; ok {
 			return true
 		}
 	}
 	conntrack := f.Conntrack
 	conntrack.Lock()
@@ -443,8 +453,8 @@ func (f *Firewall) inConns(packet []byte, fp firewall.Packet, incoming bool, h *
 		// We now know which firewall table to check against
 		if !table.match(fp, c.incoming, h.ConnectionState.peerCert, caPool) {
-			if f.l.Level >= logrus.DebugLevel {
+			if l.Level >= logrus.DebugLevel {
-				h.logger(f.l).
+				h.logger().
 					WithField("fwPacket", fp).
 					WithField("incoming", c.incoming).
 					WithField("rulesVersion", f.rulesVersion).
@@ -456,8 +466,8 @@ func (f *Firewall) inConns(packet []byte, fp firewall.Packet, incoming bool, h *
 			return false
 		}
-		if f.l.Level >= logrus.DebugLevel {
+		if l.Level >= logrus.DebugLevel {
-			h.logger(f.l).
+			h.logger().
 				WithField("fwPacket", fp).
 				WithField("incoming", c.incoming).
 				WithField("rulesVersion", f.rulesVersion).
@@ -469,14 +479,14 @@ func (f *Firewall) inConns(packet []byte, fp firewall.Packet, incoming bool, h *
 	}
 	switch fp.Protocol {
-	case firewall.ProtoTCP:
+	case fwProtoTCP:
 		c.Expires = time.Now().Add(f.TCPTimeout)
 		if incoming {
 			f.checkTCPRTT(c, packet)
 		} else {
 			setTCPRTTTracking(c, packet)
 		}
-	case firewall.ProtoUDP:
+	case fwProtoUDP:
 		c.Expires = time.Now().Add(f.UDPTimeout)
 	default:
 		c.Expires = time.Now().Add(f.DefaultTimeout)
@@ -484,24 +494,20 @@ func (f *Firewall) inConns(packet []byte, fp firewall.Packet, incoming bool, h *
 	conntrack.Unlock()
 	if localCache != nil {
 		localCache[fp] = struct{}{}
 	}
 	return true
 }
-func (f *Firewall) addConn(packet []byte, fp firewall.Packet, incoming bool) {
+func (f *Firewall) addConn(packet []byte, fp FirewallPacket, incoming bool) {
 	var timeout time.Duration
 	c := &conn{}
 	switch fp.Protocol {
-	case firewall.ProtoTCP:
+	case fwProtoTCP:
 		timeout = f.TCPTimeout
 		if !incoming {
 			setTCPRTTTracking(c, packet)
 		}
-	case firewall.ProtoUDP:
+	case fwProtoUDP:
 		timeout = f.UDPTimeout
 	default:
 		timeout = f.DefaultTimeout
@@ -524,7 +530,7 @@ func (f *Firewall) addConn(packet []byte, fp firewall.Packet, incoming bool) {
 // Evict checks if a conntrack entry has expired, if so it is removed, if not it is re-added to the wheel
 // Caller must own the connMutex lock!
-func (f *Firewall) evict(p firewall.Packet) {
+func (f *Firewall) evict(p FirewallPacket) {
 	//TODO: report a stat if the tcp rtt tracking was never resolved?
 	// Are we still tracking this conn?
 	conntrack := f.Conntrack
@@ -545,21 +551,21 @@ func (f *Firewall) evict(p firewall.Packet) {
 	delete(conntrack.Conns, p)
 }
-func (ft *FirewallTable) match(p firewall.Packet, incoming bool, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
+func (ft *FirewallTable) match(p FirewallPacket, incoming bool, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
 	if ft.AnyProto.match(p, incoming, c, caPool) {
 		return true
 	}
 	switch p.Protocol {
-	case firewall.ProtoTCP:
+	case fwProtoTCP:
 		if ft.TCP.match(p, incoming, c, caPool) {
 			return true
 		}
-	case firewall.ProtoUDP:
+	case fwProtoUDP:
 		if ft.UDP.match(p, incoming, c, caPool) {
 			return true
 		}
-	case firewall.ProtoICMP:
+	case fwProtoICMP:
 		if ft.ICMP.match(p, incoming, c, caPool) {
 			return true
 		}
@@ -589,7 +595,7 @@ func (fp firewallPort) addRule(startPort int32, endPort int32, groups []string,
 	return nil
 }
-func (fp firewallPort) match(p firewall.Packet, incoming bool, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
+func (fp firewallPort) match(p FirewallPacket, incoming bool, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
 	// We don't have any allowed ports, bail
 	if fp == nil {
 		return false
@@ -598,7 +604,7 @@ func (fp firewallPort) match(p firewall.Packet, incoming bool, c *cert.NebulaCer
 	var port int32
 	if p.Fragment {
-		port = firewall.PortFragment
+		port = fwPortFragment
 	} else if incoming {
 		port = int32(p.LocalPort)
 	} else {
@@ -609,7 +615,7 @@ func (fp firewallPort) match(p firewall.Packet, incoming bool, c *cert.NebulaCer
 		return true
 	}
-	return fp[firewall.PortAny].match(p, c, caPool)
+	return fp[fwPortAny].match(p, c, caPool)
 }
 func (fc *FirewallCA) addRule(groups []string, host string, ip *net.IPNet, caName, caSha string) error {
@@ -617,7 +623,7 @@ func (fc *FirewallCA) addRule(groups []string, host string, ip *net.IPNet, caNam
 		return &FirewallRule{
 			Hosts:  make(map[string]struct{}),
 			Groups: make([][]string, 0),
-			CIDR:   cidr.NewTree4(),
+			CIDR:   NewCIDRTree(),
 		}
 	}
@@ -652,7 +658,7 @@ func (fc *FirewallCA) addRule(groups []string, host string, ip *net.IPNet, caNam
 	return nil
 }
-func (fc *FirewallCA) match(p firewall.Packet, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
+func (fc *FirewallCA) match(p FirewallPacket, c *cert.NebulaCertificate, caPool *cert.NebulaCAPool) bool {
 	if fc == nil {
 		return false
 	}
@@ -685,7 +691,7 @@ func (fr *FirewallRule) addRule(groups []string, host string, ip *net.IPNet) err
 		// If it's any we need to wipe out any pre-existing rules to save on memory
 		fr.Groups = make([][]string, 0)
 		fr.Hosts = make(map[string]struct{})
-		fr.CIDR = cidr.NewTree4()
+		fr.CIDR = NewCIDRTree()
 	} else {
 		if len(groups) > 0 {
 			fr.Groups = append(fr.Groups, groups)
@@ -725,7 +731,7 @@ func (fr *FirewallRule) isAny(groups []string, host string, ip *net.IPNet) bool
 	return false
 }
-func (fr *FirewallRule) match(p firewall.Packet, c *cert.NebulaCertificate) bool {
+func (fr *FirewallRule) match(p FirewallPacket, c *cert.NebulaCertificate) bool {
 	if fr == nil {
 		return false
 	}
@@ -779,7 +785,7 @@ type rule struct {
 	CASha  string
 }
-func convertRule(l *logrus.Logger, p interface{}, table string, i int) (rule, error) {
+func convertRule(p interface{}, table string, i int) (rule, error) {
 	r := rule{}
 	m, ok := p.(map[interface{}]interface{})
@@ -834,12 +840,12 @@ func convertRule(l *logrus.Logger, p interface{}, table string, i int) (rule, er
 func parsePort(s string) (startPort, endPort int32, err error) {
 	if s == "any" {
-		startPort = firewall.PortAny
+		startPort = fwPortAny
-		endPort = firewall.PortAny
+		endPort = fwPortAny
 	} else if s == "fragment" {
-		startPort = firewall.PortFragment
+		startPort = fwPortFragment
-		endPort = firewall.PortFragment
+		endPort = fwPortFragment
 	} else if strings.Contains(s, `-`) {
 		sPorts := strings.SplitN(s, `-`, 2)
@@ -863,8 +869,8 @@ func parsePort(s string) (startPort, endPort int32, err error) {
 		startPort = int32(rStartPort)
 		endPort = int32(rEndPort)
-		if startPort == firewall.PortAny {
+		if startPort == fwPortAny {
-			endPort = firewall.PortAny
+			endPort = fwPortAny
 		}
 	} else {
--- a/firewall/cache.go
+++ b/firewall/cache.go
@@ -1,59 +0,0 @@
 package firewall
 import (
 	"sync/atomic"
 	"time"
 	"github.com/sirupsen/logrus"
 )
 // ConntrackCache is used as a local routine cache to know if a given flow
 // has been seen in the conntrack table.
 type ConntrackCache map[Packet]struct{}
 type ConntrackCacheTicker struct {
 	cacheV    uint64
 	cacheTick uint64
 	cache ConntrackCache
 }
 func NewConntrackCacheTicker(d time.Duration) *ConntrackCacheTicker {
 	if d == 0 {
 		return nil
 	}
 	c := &ConntrackCacheTicker{
 		cache: ConntrackCache{},
 	}
 	go c.tick(d)
 	return c
 }
 func (c *ConntrackCacheTicker) tick(d time.Duration) {
 	for {
 		time.Sleep(d)
 		atomic.AddUint64(&c.cacheTick, 1)
 	}
 }
 // Get checks if the cache ticker has moved to the next version before returning
 // the map. If it has moved, we reset the map.
 func (c *ConntrackCacheTicker) Get(l *logrus.Logger) ConntrackCache {
 	if c == nil {
 		return nil
 	}
 	if tick := atomic.LoadUint64(&c.cacheTick); tick != c.cacheV {
 		c.cacheV = tick
 		if ll := len(c.cache); ll > 0 {
 			if l.Level == logrus.DebugLevel {
 				l.WithField("len", ll).Debug("resetting conntrack cache")
 			}
 			c.cache = make(ConntrackCache, ll)
 		}
 	}
 	return c.cache
 }
--- a/firewall/packet.go
+++ b/firewall/packet.go
@@ -1,62 +0,0 @@
 package firewall
 import (
 	"encoding/json"
 	"fmt"
 	"github.com/slackhq/nebula/iputil"
 )
 type m map[string]interface{}
 const (
 	ProtoAny  = 0 // When we want to handle HOPOPT (0) we can change this, if ever
 	ProtoTCP  = 6
 	ProtoUDP  = 17
 	ProtoICMP = 1
 	PortAny      = 0  // Special value for matching `port: any`
 	PortFragment = -1 // Special value for matching `port: fragment`
 )
 type Packet struct {
 	LocalIP    iputil.VpnIp
 	RemoteIP   iputil.VpnIp
 	LocalPort  uint16
 	RemotePort uint16
 	Protocol   uint8
 	Fragment   bool
 }
 func (fp *Packet) Copy() *Packet {
 	return &Packet{
 		LocalIP:    fp.LocalIP,
 		RemoteIP:   fp.RemoteIP,
 		LocalPort:  fp.LocalPort,
 		RemotePort: fp.RemotePort,
 		Protocol:   fp.Protocol,
 		Fragment:   fp.Fragment,
 	}
 }
 func (fp Packet) MarshalJSON() ([]byte, error) {
 	var proto string
 	switch fp.Protocol {
 	case ProtoTCP:
 		proto = "tcp"
 	case ProtoICMP:
 		proto = "icmp"
 	case ProtoUDP:
 		proto = "udp"
 	default:
 		proto = fmt.Sprintf("unknown %v", fp.Protocol)
 	}
 	return json.Marshal(m{
 		"LocalIP":    fp.LocalIP.String(),
 		"RemoteIP":   fp.RemoteIP.String(),
 		"LocalPort":  fp.LocalPort,
 		"RemotePort": fp.RemotePort,
 		"Protocol":   proto,
 		"Fragment":   fp.Fragment,
 	})
 }
--- a/firewall_test.go
+++ b/firewall_test.go
@@ -11,17 +11,12 @@ import (
 	"github.com/rcrowley/go-metrics"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/firewall"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/test"
 	"github.com/stretchr/testify/assert"
 )
 func TestNewFirewall(t *testing.T) {
 	l := test.NewLogger()
 	c := &cert.NebulaCertificate{}
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, c)
 	conntrack := fw.Conntrack
 	assert.NotNil(t, conntrack)
 	assert.NotNil(t, conntrack.Conns)
@@ -36,113 +31,127 @@ func TestNewFirewall(t *testing.T) {
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
-	fw = NewFirewall(l, time.Second, time.Hour, time.Minute, c)
+	fw = NewFirewall(time.Second, time.Hour, time.Minute, c)
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
-	fw = NewFirewall(l, time.Hour, time.Second, time.Minute, c)
+	fw = NewFirewall(time.Hour, time.Second, time.Minute, c)
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
-	fw = NewFirewall(l, time.Hour, time.Minute, time.Second, c)
+	fw = NewFirewall(time.Hour, time.Minute, time.Second, c)
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
-	fw = NewFirewall(l, time.Minute, time.Hour, time.Second, c)
+	fw = NewFirewall(time.Minute, time.Hour, time.Second, c)
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
-	fw = NewFirewall(l, time.Minute, time.Second, time.Hour, c)
+	fw = NewFirewall(time.Minute, time.Second, time.Hour, c)
 	assert.Equal(t, time.Hour, conntrack.TimerWheel.wheelDuration)
 	assert.Equal(t, 3601, conntrack.TimerWheel.wheelLen)
 }
 func TestFirewall_AddRule(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
 	c := &cert.NebulaCertificate{}
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, c)
 	assert.NotNil(t, fw.InRules)
 	assert.NotNil(t, fw.OutRules)
 	_, ti, _ := net.ParseCIDR("1.2.3.4/32")
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoTCP, 1, 1, []string{}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoTCP, 1, 1, []string{}, "", nil, "", ""))
 	// An empty rule is any
 	assert.True(t, fw.InRules.TCP[1].Any.Any)
 	assert.Empty(t, fw.InRules.TCP[1].Any.Groups)
 	assert.Empty(t, fw.InRules.TCP[1].Any.Hosts)
 	assert.Nil(t, fw.InRules.TCP[1].Any.CIDR.root.left)
 	assert.Nil(t, fw.InRules.TCP[1].Any.CIDR.root.right)
 	assert.Nil(t, fw.InRules.TCP[1].Any.CIDR.root.value)
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoUDP, 1, 1, []string{"g1"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoUDP, 1, 1, []string{"g1"}, "", nil, "", ""))
 	assert.False(t, fw.InRules.UDP[1].Any.Any)
 	assert.Contains(t, fw.InRules.UDP[1].Any.Groups[0], "g1")
 	assert.Empty(t, fw.InRules.UDP[1].Any.Hosts)
 	assert.Nil(t, fw.InRules.UDP[1].Any.CIDR.root.left)
 	assert.Nil(t, fw.InRules.UDP[1].Any.CIDR.root.right)
 	assert.Nil(t, fw.InRules.UDP[1].Any.CIDR.root.value)
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoICMP, 1, 1, []string{}, "h1", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoICMP, 1, 1, []string{}, "h1", nil, "", ""))
 	assert.False(t, fw.InRules.ICMP[1].Any.Any)
 	assert.Empty(t, fw.InRules.ICMP[1].Any.Groups)
 	assert.Contains(t, fw.InRules.ICMP[1].Any.Hosts, "h1")
 	assert.Nil(t, fw.InRules.ICMP[1].Any.CIDR.root.left)
 	assert.Nil(t, fw.InRules.ICMP[1].Any.CIDR.root.right)
 	assert.Nil(t, fw.InRules.ICMP[1].Any.CIDR.root.value)
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 1, 1, []string{}, "", ti, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 1, 1, []string{}, "", ti, "", ""))
 	assert.False(t, fw.OutRules.AnyProto[1].Any.Any)
 	assert.Empty(t, fw.OutRules.AnyProto[1].Any.Groups)
 	assert.Empty(t, fw.OutRules.AnyProto[1].Any.Hosts)
-	assert.NotNil(t, fw.OutRules.AnyProto[1].Any.CIDR.Match(iputil.Ip2VpnIp(ti.IP)))
+	assert.NotNil(t, fw.OutRules.AnyProto[1].Any.CIDR.Match(ip2int(ti.IP)))
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoUDP, 1, 1, []string{"g1"}, "", nil, "ca-name", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoUDP, 1, 1, []string{"g1"}, "", nil, "ca-name", ""))
 	assert.Contains(t, fw.InRules.UDP[1].CANames, "ca-name")
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoUDP, 1, 1, []string{"g1"}, "", nil, "", "ca-sha"))
+	assert.Nil(t, fw.AddRule(true, fwProtoUDP, 1, 1, []string{"g1"}, "", nil, "", "ca-sha"))
 	assert.Contains(t, fw.InRules.UDP[1].CAShas, "ca-sha")
 	// Set any and clear fields
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 0, 0, []string{"g1", "g2"}, "h1", ti, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 0, 0, []string{"g1", "g2"}, "h1", ti, "", ""))
 	assert.Equal(t, []string{"g1", "g2"}, fw.OutRules.AnyProto[0].Any.Groups[0])
 	assert.Contains(t, fw.OutRules.AnyProto[0].Any.Hosts, "h1")
-	assert.NotNil(t, fw.OutRules.AnyProto[0].Any.CIDR.Match(iputil.Ip2VpnIp(ti.IP)))
+	assert.NotNil(t, fw.OutRules.AnyProto[0].Any.CIDR.Match(ip2int(ti.IP)))
 	// run twice just to make sure
 	//TODO: these ANY rules should clear the CA firewall portion
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 0, 0, []string{}, "any", nil, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 0, 0, []string{}, "any", nil, "", ""))
 	assert.True(t, fw.OutRules.AnyProto[0].Any.Any)
 	assert.Empty(t, fw.OutRules.AnyProto[0].Any.Groups)
 	assert.Empty(t, fw.OutRules.AnyProto[0].Any.Hosts)
 	assert.Nil(t, fw.OutRules.AnyProto[0].Any.CIDR.root.left)
 	assert.Nil(t, fw.OutRules.AnyProto[0].Any.CIDR.root.right)
 	assert.Nil(t, fw.OutRules.AnyProto[0].Any.CIDR.root.value)
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 0, 0, []string{}, "any", nil, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 0, 0, []string{}, "any", nil, "", ""))
 	assert.True(t, fw.OutRules.AnyProto[0].Any.Any)
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
 	_, anyIp, _ := net.ParseCIDR("0.0.0.0/0")
-	assert.Nil(t, fw.AddRule(false, firewall.ProtoAny, 0, 0, []string{}, "", anyIp, "", ""))
+	assert.Nil(t, fw.AddRule(false, fwProtoAny, 0, 0, []string{}, "", anyIp, "", ""))
 	assert.True(t, fw.OutRules.AnyProto[0].Any.Any)
 	// Test error conditions
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, c)
 	assert.Error(t, fw.AddRule(true, math.MaxUint8, 0, 0, []string{}, "", nil, "", ""))
-	assert.Error(t, fw.AddRule(true, firewall.ProtoAny, 10, 0, []string{}, "", nil, "", ""))
+	assert.Error(t, fw.AddRule(true, fwProtoAny, 10, 0, []string{}, "", nil, "", ""))
 }
 func TestFirewall_Drop(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
-	p := firewall.Packet{
+	p := FirewallPacket{
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
 		10,
 		90,
-		firewall.ProtoUDP,
+		fwProtoUDP,
 		false,
 	}
@@ -164,53 +173,53 @@ func TestFirewall_Drop(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h.CreateRemoteCIDR(&c)
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
 	cp := cert.NewCAPool()
 	// Drop outbound
-	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp), ErrNoMatchingRule)
 	// Allow inbound
 	resetConntrack(fw)
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp))
 	// Allow outbound because conntrack
-	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp))
 	// test remote mismatch
 	oldRemote := p.RemoteIP
-	p.RemoteIP = iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 10))
+	p.RemoteIP = ip2int(net.IPv4(1, 2, 3, 10))
-	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp, nil), ErrInvalidRemoteIP)
+	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp), ErrInvalidRemoteIP)
 	p.RemoteIP = oldRemote
 	// ensure signer doesn't get in the way of group checks
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"nope"}, "", nil, "", "signer-shasum"))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"nope"}, "", nil, "", "signer-shasum"))
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"default-group"}, "", nil, "", "signer-shasum-bad"))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"default-group"}, "", nil, "", "signer-shasum-bad"))
-	assert.Equal(t, fw.Drop([]byte{}, p, true, &h, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, true, &h, cp), ErrNoMatchingRule)
 	// test caSha doesn't drop on match
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"nope"}, "", nil, "", "signer-shasum-bad"))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"nope"}, "", nil, "", "signer-shasum-bad"))
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"default-group"}, "", nil, "", "signer-shasum"))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"default-group"}, "", nil, "", "signer-shasum"))
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp))
 	// ensure ca name doesn't get in the way of group checks
 	cp.CAs["signer-shasum"] = &cert.NebulaCertificate{Details: cert.NebulaCertificateDetails{Name: "ca-good"}}
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"nope"}, "", nil, "ca-good", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"nope"}, "", nil, "ca-good", ""))
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"default-group"}, "", nil, "ca-good-bad", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"default-group"}, "", nil, "ca-good-bad", ""))
-	assert.Equal(t, fw.Drop([]byte{}, p, true, &h, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, true, &h, cp), ErrNoMatchingRule)
 	// test caName doesn't drop on match
 	cp.CAs["signer-shasum"] = &cert.NebulaCertificate{Details: cert.NebulaCertificateDetails{Name: "ca-good"}}
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"nope"}, "", nil, "ca-good-bad", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"nope"}, "", nil, "ca-good-bad", ""))
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"default-group"}, "", nil, "ca-good", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"default-group"}, "", nil, "ca-good", ""))
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp))
 }
 func BenchmarkFirewallTable_match(b *testing.B) {
@@ -229,14 +238,14 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 	b.Run("fail on proto", func(b *testing.B) {
 		c := &cert.NebulaCertificate{}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoUDP}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoUDP}, true, c, cp)
 		}
 	})
 	b.Run("fail on port", func(b *testing.B) {
 		c := &cert.NebulaCertificate{}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 1}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 1}, true, c, cp)
 		}
 	})
@@ -250,7 +259,7 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 			},
 		}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 10}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 10}, true, c, cp)
 		}
 	})
@@ -262,7 +271,7 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 			},
 		}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 10}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 10}, true, c, cp)
 		}
 	})
@@ -274,12 +283,12 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 			},
 		}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 10}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 10}, true, c, cp)
 		}
 	})
 	b.Run("pass on ip", func(b *testing.B) {
-		ip := iputil.Ip2VpnIp(net.IPv4(172, 1, 1, 1))
+		ip := ip2int(net.IPv4(172, 1, 1, 1))
 		c := &cert.NebulaCertificate{
 			Details: cert.NebulaCertificateDetails{
 				InvertedGroups: map[string]struct{}{"nope": {}},
@@ -287,14 +296,14 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 			},
 		}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 10, RemoteIP: ip}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 10, RemoteIP: ip}, true, c, cp)
 		}
 	})
 	_ = ft.TCP.addRule(0, 0, []string{"good-group"}, "good-host", n, "", "")
 	b.Run("pass on ip with any port", func(b *testing.B) {
-		ip := iputil.Ip2VpnIp(net.IPv4(172, 1, 1, 1))
+		ip := ip2int(net.IPv4(172, 1, 1, 1))
 		c := &cert.NebulaCertificate{
 			Details: cert.NebulaCertificateDetails{
 				InvertedGroups: map[string]struct{}{"nope": {}},
@@ -302,22 +311,23 @@ func BenchmarkFirewallTable_match(b *testing.B) {
 			},
 		}
 		for n := 0; n < b.N; n++ {
-			ft.match(firewall.Packet{Protocol: firewall.ProtoTCP, LocalPort: 100, RemoteIP: ip}, true, c, cp)
+			ft.match(FirewallPacket{Protocol: fwProtoTCP, LocalPort: 100, RemoteIP: ip}, true, c, cp)
 		}
 	})
 }
 func TestFirewall_Drop2(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
-	p := firewall.Packet{
+	p := FirewallPacket{
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
 		10,
 		90,
-		firewall.ProtoUDP,
+		fwProtoUDP,
 		false,
 	}
@@ -337,7 +347,7 @@ func TestFirewall_Drop2(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h.CreateRemoteCIDR(&c)
@@ -355,28 +365,29 @@ func TestFirewall_Drop2(t *testing.T) {
 	}
 	h1.CreateRemoteCIDR(&c1)
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"default-group", "test-group"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"default-group", "test-group"}, "", nil, "", ""))
 	cp := cert.NewCAPool()
 	// h1/c1 lacks the proper groups
-	assert.Error(t, fw.Drop([]byte{}, p, true, &h1, cp, nil), ErrNoMatchingRule)
+	assert.Error(t, fw.Drop([]byte{}, p, true, &h1, cp), ErrNoMatchingRule)
 	// c has the proper groups
 	resetConntrack(fw)
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp))
 }
 func TestFirewall_Drop3(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
-	p := firewall.Packet{
+	p := FirewallPacket{
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
 		1,
 		1,
-		firewall.ProtoUDP,
+		fwProtoUDP,
 		false,
 	}
@@ -403,7 +414,7 @@ func TestFirewall_Drop3(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c1,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h1.CreateRemoteCIDR(&c1)
@@ -418,7 +429,7 @@ func TestFirewall_Drop3(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c2,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h2.CreateRemoteCIDR(&c2)
@@ -433,36 +444,37 @@ func TestFirewall_Drop3(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c3,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h3.CreateRemoteCIDR(&c3)
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 1, 1, []string{}, "host1", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 1, 1, []string{}, "host1", nil, "", ""))
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 1, 1, []string{}, "", nil, "", "signer-sha"))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 1, 1, []string{}, "", nil, "", "signer-sha"))
 	cp := cert.NewCAPool()
 	// c1 should pass because host match
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h1, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h1, cp))
 	// c2 should pass because ca sha match
 	resetConntrack(fw)
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h2, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h2, cp))
 	// c3 should fail because no match
 	resetConntrack(fw)
-	assert.Equal(t, fw.Drop([]byte{}, p, true, &h3, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, true, &h3, cp), ErrNoMatchingRule)
 }
 func TestFirewall_DropConntrackReload(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
-	p := firewall.Packet{
+	p := FirewallPacket{
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
-		iputil.Ip2VpnIp(net.IPv4(1, 2, 3, 4)),
+		ip2int(net.IPv4(1, 2, 3, 4)),
 		10,
 		90,
-		firewall.ProtoUDP,
+		fwProtoUDP,
 		false,
 	}
@@ -484,39 +496,39 @@ func TestFirewall_DropConntrackReload(t *testing.T) {
 		ConnectionState: &ConnectionState{
 			peerCert: &c,
 		},
-		vpnIp: iputil.Ip2VpnIp(ipNet.IP),
+		hostId: ip2int(ipNet.IP),
 	}
 	h.CreateRemoteCIDR(&c)
-	fw := NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw := NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 0, 0, []string{"any"}, "", nil, "", ""))
 	cp := cert.NewCAPool()
 	// Drop outbound
-	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp), ErrNoMatchingRule)
 	// Allow inbound
 	resetConntrack(fw)
-	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, true, &h, cp))
 	// Allow outbound because conntrack
-	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp))
 	oldFw := fw
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 10, 10, []string{"any"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 10, 10, []string{"any"}, "", nil, "", ""))
 	fw.Conntrack = oldFw.Conntrack
 	fw.rulesVersion = oldFw.rulesVersion + 1
 	// Allow outbound because conntrack and new rules allow port 10
-	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp, nil))
+	assert.NoError(t, fw.Drop([]byte{}, p, false, &h, cp))
 	oldFw = fw
-	fw = NewFirewall(l, time.Second, time.Minute, time.Hour, &c)
+	fw = NewFirewall(time.Second, time.Minute, time.Hour, &c)
-	assert.Nil(t, fw.AddRule(true, firewall.ProtoAny, 11, 11, []string{"any"}, "", nil, "", ""))
+	assert.Nil(t, fw.AddRule(true, fwProtoAny, 11, 11, []string{"any"}, "", nil, "", ""))
 	fw.Conntrack = oldFw.Conntrack
 	fw.rulesVersion = oldFw.rulesVersion + 1
 	// Drop outbound because conntrack doesn't match new ruleset
-	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp, nil), ErrNoMatchingRule)
+	assert.Equal(t, fw.Drop([]byte{}, p, false, &h, cp), ErrNoMatchingRule)
 }
 func BenchmarkLookup(b *testing.B) {
@@ -635,126 +647,124 @@ func Test_parsePort(t *testing.T) {
 }
 func TestNewFirewallFromConfig(t *testing.T) {
 	l := test.NewLogger()
 	// Test a bad rule definition
 	c := &cert.NebulaCertificate{}
-	conf := config.NewC(l)
+	conf := NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": "asdf"}
-	_, err := NewFirewallFromConfig(l, c, conf)
+	_, err := NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound failed to parse, should be an array of rules")
 	// Test both port and code
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"port": "1", "code": "2"}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; only one of port or code should be provided")
 	// Test missing host, group, cidr, ca_name and ca_sha
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; at least one of host, group, cidr, ca_name, or ca_sha must be provided")
 	// Test code/port error
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"code": "a", "host": "testh"}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; code was not a number; `a`")
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"port": "a", "host": "testh"}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; port was not a number; `a`")
 	// Test proto error
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"code": "1", "host": "testh"}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; proto was not understood; ``")
 	// Test cidr parse error
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"code": "1", "cidr": "testh", "proto": "any"}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.outbound rule #0; cidr did not parse; invalid CIDR address: testh")
 	// Test both group and groups
-	conf = config.NewC(l)
+	conf = NewConfig()
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "group": "a", "groups": []string{"b", "c"}}}}
-	_, err = NewFirewallFromConfig(l, c, conf)
+	_, err = NewFirewallFromConfig(c, conf)
 	assert.EqualError(t, err, "firewall.inbound rule #0; only one of group or groups should be defined, both provided")
 }
 func TestAddFirewallRulesFromConfig(t *testing.T) {
 	l := test.NewLogger()
 	// Test adding tcp rule
-	conf := config.NewC(l)
+	conf := NewConfig()
 	mf := &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "tcp", "host": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, false, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(false, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: false, proto: firewall.ProtoTCP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: false, proto: fwProtoTCP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
 	// Test adding udp rule
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "udp", "host": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, false, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(false, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: false, proto: firewall.ProtoUDP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: false, proto: fwProtoUDP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
 	// Test adding icmp rule
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"outbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "icmp", "host": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, false, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(false, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: false, proto: firewall.ProtoICMP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: false, proto: fwProtoICMP, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
 	// Test adding any rule
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "host": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: nil, host: "a", ip: nil}, mf.lastCall)
 	// Test adding rule with ca_sha
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "ca_sha": "12312313123"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: nil, ip: nil, caSha: "12312313123"}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: nil, ip: nil, caSha: "12312313123"}, mf.lastCall)
 	// Test adding rule with ca_name
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "ca_name": "root01"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: nil, ip: nil, caName: "root01"}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: nil, ip: nil, caName: "root01"}, mf.lastCall)
 	// Test single group
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "group": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: []string{"a"}, ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: []string{"a"}, ip: nil}, mf.lastCall)
 	// Test single groups
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "groups": "a"}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: []string{"a"}, ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: []string{"a"}, ip: nil}, mf.lastCall)
 	// Test multiple AND groups
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "groups": []string{"a", "b"}}}}
-	assert.Nil(t, AddFirewallRulesFromConfig(l, true, conf, mf))
+	assert.Nil(t, AddFirewallRulesFromConfig(true, conf, mf))
-	assert.Equal(t, addRuleCall{incoming: true, proto: firewall.ProtoAny, startPort: 1, endPort: 1, groups: []string{"a", "b"}, ip: nil}, mf.lastCall)
+	assert.Equal(t, addRuleCall{incoming: true, proto: fwProtoAny, startPort: 1, endPort: 1, groups: []string{"a", "b"}, ip: nil}, mf.lastCall)
 	// Test Add error
-	conf = config.NewC(l)
+	conf = NewConfig()
 	mf = &mockFirewall{}
 	mf.nextCallReturn = errors.New("test error")
 	conf.Settings["firewall"] = map[interface{}]interface{}{"inbound": []interface{}{map[interface{}]interface{}{"port": "1", "proto": "any", "host": "a"}}}
-	assert.EqualError(t, AddFirewallRulesFromConfig(l, true, conf, mf), "firewall.inbound rule #0; `test error`")
+	assert.EqualError(t, AddFirewallRulesFromConfig(true, conf, mf), "firewall.inbound rule #0; `test error`")
 }
 func TestTCPRTTTracking(t *testing.T) {
@@ -849,16 +859,17 @@ func TestTCPRTTTracking(t *testing.T) {
 }
 func TestFirewall_convertRule(t *testing.T) {
 	l := test.NewLogger()
 	ob := &bytes.Buffer{}
 	out := l.Out
 	l.SetOutput(ob)
 	defer l.SetOutput(out)
 	// Ensure group array of 1 is converted and a warning is printed
 	c := map[interface{}]interface{}{
 		"group": []interface{}{"group1"},
 	}
-	r, err := convertRule(l, c, "test", 1)
+	r, err := convertRule(c, "test", 1)
 	assert.Contains(t, ob.String(), "test rule #1; group was an array with a single value, converting to simple value")
 	assert.Nil(t, err)
 	assert.Equal(t, "group1", r.Group)
@@ -869,7 +880,7 @@ func TestFirewall_convertRule(t *testing.T) {
 		"group": []interface{}{"group1", "group2"},
 	}
-	r, err = convertRule(l, c, "test", 1)
+	r, err = convertRule(c, "test", 1)
 	assert.Equal(t, "", ob.String())
 	assert.Error(t, err, "group should contain a single value, an array with more than one entry was provided")
@@ -879,7 +890,7 @@ func TestFirewall_convertRule(t *testing.T) {
 		"group": "group1",
 	}
-	r, err = convertRule(l, c, "test", 1)
+	r, err = convertRule(c, "test", 1)
 	assert.Nil(t, err)
 	assert.Equal(t, "group1", r.Group)
 }
@@ -921,6 +932,6 @@ func (mf *mockFirewall) AddRule(incoming bool, proto uint8, startPort int32, end
 func resetConntrack(fw *Firewall) {
 	fw.Conntrack.Lock()
-	fw.Conntrack.Conns = map[firewall.Packet]*conn{}
+	fw.Conntrack.Conns = map[FirewallPacket]*conn{}
 	fw.Conntrack.Unlock()
 }
--- a/go.mod
+++ b/go.mod
@@ -1,45 +1,33 @@
 module github.com/slackhq/nebula
-go 1.17
+go 1.12
 require (
-	github.com/anmitsu/go-shlex v0.0.0-20200514113438-38f4b401e2be
+	github.com/anmitsu/go-shlex v0.0.0-20161002113705-648efa622239
 	github.com/armon/go-radix v1.0.0
-	github.com/cespare/xxhash/v2 v2.1.2 // indirect
+	github.com/cespare/xxhash/v2 v2.1.1 // indirect
 	github.com/cyberdelia/go-metrics-graphite v0.0.0-20161219230853-39f87cc3b432
-	github.com/flynn/noise v1.0.0
+	github.com/flynn/go-shlex v0.0.0-20150515145356-3f9db97f8568 // indirect
-	github.com/gogo/protobuf v1.3.2
+	github.com/flynn/noise v0.0.0-20180327030543-2492fe189ae6
-	github.com/golang/protobuf v1.5.2
+	github.com/golang/protobuf v1.3.2
 	github.com/google/gopacket v1.1.19
 	github.com/imdario/mergo v0.3.8
-	github.com/kardianos/service v1.2.0
+	github.com/kardianos/service v1.1.0
-	github.com/miekg/dns v1.1.43
+	github.com/konsorten/go-windows-terminal-sequences v1.0.2 // indirect
-	github.com/nbrownus/go-metrics-prometheus v0.0.0-20210712211119-974a6260965f
+	github.com/kr/pretty v0.1.0 // indirect
-	github.com/prometheus/client_golang v1.11.0
+	github.com/miekg/dns v1.1.25
-	github.com/prometheus/client_model v0.2.0 // indirect
+	github.com/nbrownus/go-metrics-prometheus v0.0.0-20180622211546-6e6d5173d99c
-	github.com/prometheus/procfs v0.7.3 // indirect
+	github.com/prometheus/client_golang v1.2.1
-	github.com/rcrowley/go-metrics v0.0.0-20201227073835-cf1acfcdf475
+	github.com/prometheus/client_model v0.0.0-20191202183732-d1d2010b5bee // indirect
-	github.com/sirupsen/logrus v1.8.1
+	github.com/prometheus/procfs v0.0.8 // indirect
-	github.com/skip2/go-qrcode v0.0.0-20200617195104-da1b6568686e
+	github.com/rcrowley/go-metrics v0.0.0-20190826022208-cac0b30c2563
-	github.com/songgao/water v0.0.0-20200317203138-2b4b6d7c09d8
+	github.com/sirupsen/logrus v1.4.2
-	github.com/stretchr/testify v1.7.0
+	github.com/songgao/water v0.0.0-20190725173103-fd331bda3f4b
-	github.com/vishvananda/netlink v1.1.0
+	github.com/stretchr/testify v1.6.1
-	github.com/vishvananda/netns v0.0.0-20211101163701-50045581ed74 // indirect
+	github.com/vishvananda/netlink v1.0.1-0.20190522153524-00009fb8606a
-	golang.org/x/crypto v0.0.0-20211202192323-5770296d904e
+	github.com/vishvananda/netns v0.0.0-20191106174202-0a2b9b5464df // indirect
-	golang.org/x/net v0.0.0-20211112202133-69e39bad7dc2
+	golang.org/x/crypto v0.0.0-20200220183623-bac4c82f6975
-	golang.org/x/sys v0.0.0-20211103235746-7861aae1554b
+	golang.org/x/net v0.0.0-20191209160850-c0dbc17a3553
-	golang.zx2c4.com/wintun v0.0.0-20211104114900-415007cec224
+	golang.org/x/sys v0.0.0-20191210023423-ac6580df4449
-	golang.zx2c4.com/wireguard/windows v0.5.1
+	gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127 // indirect
-	google.golang.org/protobuf v1.27.1
+	gopkg.in/yaml.v2 v2.2.7
 	gopkg.in/yaml.v2 v2.4.0
 )
 require (
 	github.com/beorn7/perks v1.0.1 // indirect
 	github.com/davecgh/go-spew v1.1.1 // indirect
 	github.com/matttproud/golang_protobuf_extensions v1.0.1 // indirect
 	github.com/pmezard/go-difflib v1.0.0 // indirect
 	github.com/prometheus/common v0.32.1 // indirect
 	golang.org/x/term v0.0.0-20210927222741-03fcf44c2211 // indirect
 	gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c // indirect
 )
--- a/go.sum
+++ b/go.sum
@@ -1,548 +1,158 @@
 cloud.google.com/go v0.26.0/go.mod h1:aQUYkXzVsufM+DwF1aE+0xfcU+56JwCaLick0ClmMTw=
 cloud.google.com/go v0.34.0/go.mod h1:aQUYkXzVsufM+DwF1aE+0xfcU+56JwCaLick0ClmMTw=
 cloud.google.com/go v0.38.0/go.mod h1:990N+gfupTy94rShfmMCWGDn0LpTmnzTp2qbd1dvSRU=
 cloud.google.com/go v0.44.1/go.mod h1:iSa0KzasP4Uvy3f1mN/7PiObzGgflwredwwASm/v6AU=
 cloud.google.com/go v0.44.2/go.mod h1:60680Gw3Yr4ikxnPRS/oxxkBccT6SA1yMk63TGekxKY=
 cloud.google.com/go v0.45.1/go.mod h1:RpBamKRgapWJb87xiFSdk4g1CME7QZg3uwTez+TSTjc=
 cloud.google.com/go v0.46.3/go.mod h1:a6bKKbmY7er1mI7TEI4lsAkts/mkhTSZK8w33B4RAg0=
 cloud.google.com/go v0.50.0/go.mod h1:r9sluTvynVuxRIOHXQEHMFffphuXHOMZMycpNR5e6To=
 cloud.google.com/go v0.52.0/go.mod h1:pXajvRH/6o3+F9jDHZWQ5PbGhn+o8w9qiu/CffaVdO4=
 cloud.google.com/go v0.53.0/go.mod h1:fp/UouUEsRkN6ryDKNW/Upv/JBKnv6WDthjR6+vze6M=
 cloud.google.com/go v0.54.0/go.mod h1:1rq2OEkV3YMf6n/9ZvGWI3GWw0VoqH/1x2nd8Is/bPc=
 cloud.google.com/go v0.56.0/go.mod h1:jr7tqZxxKOVYizybht9+26Z/gUq7tiRzu+ACVAMbKVk=
 cloud.google.com/go v0.57.0/go.mod h1:oXiQ6Rzq3RAkkY7N6t3TcE6jE+CIBBbA36lwQ1JyzZs=
 cloud.google.com/go v0.62.0/go.mod h1:jmCYTdRCQuc1PHIIJ/maLInMho30T/Y0M4hTdTShOYc=
 cloud.google.com/go v0.65.0/go.mod h1:O5N8zS7uWy9vkA9vayVHs65eM1ubvY4h553ofrNHObY=
 cloud.google.com/go/bigquery v1.0.1/go.mod h1:i/xbL2UlR5RvWAURpBYZTtm/cXjCha9lbfbpx4poX+o=
 cloud.google.com/go/bigquery v1.3.0/go.mod h1:PjpwJnslEMmckchkHFfq+HTD2DmtT67aNFKH1/VBDHE=
 cloud.google.com/go/bigquery v1.4.0/go.mod h1:S8dzgnTigyfTmLBfrtrhyYhwRxG72rYxvftPBK2Dvzc=
 cloud.google.com/go/bigquery v1.5.0/go.mod h1:snEHRnqQbz117VIFhE8bmtwIDY80NLUZUMb4Nv6dBIg=
 cloud.google.com/go/bigquery v1.7.0/go.mod h1://okPTzCYNXSlb24MZs83e2Do+h+VXtc4gLoIoXIAPc=
 cloud.google.com/go/bigquery v1.8.0/go.mod h1:J5hqkt3O0uAFnINi6JXValWIb1v0goeZM77hZzJN/fQ=
 cloud.google.com/go/datastore v1.0.0/go.mod h1:LXYbyblFSglQ5pkeyhO+Qmw7ukd3C+pD7TKLgZqpHYE=
 cloud.google.com/go/datastore v1.1.0/go.mod h1:umbIZjpQpHh4hmRpGhH4tLFup+FVzqBi1b3c64qFpCk=
 cloud.google.com/go/pubsub v1.0.1/go.mod h1:R0Gpsv3s54REJCy4fxDixWD93lHJMoZTyQ2kNxGRt3I=
 cloud.google.com/go/pubsub v1.1.0/go.mod h1:EwwdRX2sKPjnvnqCa270oGRyludottCI76h+R3AArQw=
 cloud.google.com/go/pubsub v1.2.0/go.mod h1:jhfEVHT8odbXTkndysNHCcx0awwzvfOlguIAii9o8iA=
 cloud.google.com/go/pubsub v1.3.1/go.mod h1:i+ucay31+CNRpDW4Lu78I4xXG+O1r/MAHgjpRVR+TSU=
 cloud.google.com/go/storage v1.0.0/go.mod h1:IhtSnM/ZTZV8YYJWCY8RULGVqBDmpoyjwiyrjsg+URw=
 cloud.google.com/go/storage v1.5.0/go.mod h1:tpKbwo567HUNpVclU5sGELwQWBDZ8gh0ZeosJ0Rtdos=
 cloud.google.com/go/storage v1.6.0/go.mod h1:N7U0C8pVQ/+NIKOBQyamJIeKQKkZ+mxpohlUTyfDhBk=
 cloud.google.com/go/storage v1.8.0/go.mod h1:Wv1Oy7z6Yz3DshWRJFhqM/UCfaWIRTdp0RXyy7KQOVs=
 cloud.google.com/go/storage v1.10.0/go.mod h1:FLPqc6j+Ki4BU591ie1oL6qBQGu2Bl/tZ9ullr3+Kg0=
 dmitri.shuralyov.com/gpu/mtl v0.0.0-20190408044501-666a987793e9/go.mod h1:H6x//7gZCb22OMCxBHrMx7a5I7Hp++hsVxbQ4BYO7hU=
 github.com/BurntSushi/toml v0.3.1/go.mod h1:xHWCNGjB5oqiDr8zfno3MHue2Ht5sIBksp03qcyfWMU=
 github.com/BurntSushi/xgb v0.0.0-20160522181843-27f122750802/go.mod h1:IVnqGOEym/WlBOVXweHU+Q+/VP0lqqI8lqeDx9IjBqo=
 github.com/alecthomas/template v0.0.0-20160405071501-a0175ee3bccc/go.mod h1:LOuyumcjzFXgccqObfd/Ljyb9UuFJ6TxHnclSeseNhc=
 github.com/alecthomas/template v0.0.0-20190718012654-fb15b899a751/go.mod h1:LOuyumcjzFXgccqObfd/Ljyb9UuFJ6TxHnclSeseNhc=
 github.com/alecthomas/units v0.0.0-20151022065526-2efee857e7cf/go.mod h1:ybxpYRFXyAe+OPACYpWeL0wqObRcbAqCMya13uyzqw0=
 github.com/alecthomas/units v0.0.0-20190717042225-c3de453c63f4/go.mod h1:ybxpYRFXyAe+OPACYpWeL0wqObRcbAqCMya13uyzqw0=
-github.com/alecthomas/units v0.0.0-20190924025748-f65c72e2690d/go.mod h1:rBZYJk541a8SKzHPHnH3zbiI+7dagKZ0cgpgrD7Fyho=
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 google.golang.org/genproto v0.0.0-20180817151627-c66870c02cf8/go.mod h1:JiN7NxoALGmiZfu7CAH4rXhgtRTLTxftemlI0sWmxmc=
 google.golang.org/genproto v0.0.0-20190307195333-5fe7a883aa19/go.mod h1:VzzqZJRnGkLBvHegQrXjBqPurQTc5/KpmUdxsrq26oE=
 google.golang.org/genproto v0.0.0-20190418145605-e7d98fc518a7/go.mod h1:VzzqZJRnGkLBvHegQrXjBqPurQTc5/KpmUdxsrq26oE=
 google.golang.org/genproto v0.0.0-20190425155659-357c62f0e4bb/go.mod h1:VzzqZJRnGkLBvHegQrXjBqPurQTc5/KpmUdxsrq26oE=
 google.golang.org/genproto v0.0.0-20190502173448-54afdca5d873/go.mod h1:VzzqZJRnGkLBvHegQrXjBqPurQTc5/KpmUdxsrq26oE=
 google.golang.org/genproto v0.0.0-20190801165951-fa694d86fc64/go.mod h1:DMBHOl98Agz4BDEuKkezgsaosCRResVns1a3J2ZsMNc=
 google.golang.org/genproto v0.0.0-20190819201941-24fa4b261c55/go.mod h1:DMBHOl98Agz4BDEuKkezgsaosCRResVns1a3J2ZsMNc=
 google.golang.org/genproto v0.0.0-20190911173649-1774047e7e51/go.mod h1:IbNlFCBrqXvoKpeg0TB2l7cyZUmoaFKYIwrEpbDKLA8=
 google.golang.org/genproto v0.0.0-20191108220845-16a3f7862a1a/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20191115194625-c23dd37a84c9/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20191216164720-4f79533eabd1/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20191230161307-f3c370f40bfb/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20200115191322-ca5a22157cba/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20200122232147-0452cf42e150/go.mod h1:n3cpQtvxv34hfy77yVDNjmbRyujviMdxYliBSkLhpCc=
 google.golang.org/genproto v0.0.0-20200204135345-fa8e72b47b90/go.mod h1:GmwEX6Z4W5gMy59cAlVYjN9JhxgbQH6Gn+gFDQe2lzA=
 google.golang.org/genproto v0.0.0-20200212174721-66ed5ce911ce/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200224152610-e50cd9704f63/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200228133532-8c2c7df3a383/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200305110556-506484158171/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200312145019-da6875a35672/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200331122359-1ee6d9798940/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200430143042-b979b6f78d84/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200511104702-f5ebc3bea380/go.mod h1:55QSHmfGQM9UVYDPBsyGGes0y52j32PQ3BqQfXhyH3c=
 google.golang.org/genproto v0.0.0-20200515170657-fc4c6c6a6587/go.mod h1:YsZOwe1myG/8QRHRsmBRE1LrgQY60beZKjly0O1fX9U=
 google.golang.org/genproto v0.0.0-20200526211855-cb27e3aa2013/go.mod h1:NbSheEEYHJ7i3ixzK3sjbqSGDJWnxyFXZblF3eUsNvo=
 google.golang.org/genproto v0.0.0-20200618031413-b414f8b61790/go.mod h1:jDfRM7FcilCzHH/e9qn6dsT145K34l5v+OpcnNgKAAA=
 google.golang.org/genproto v0.0.0-20200729003335-053ba62fc06f/go.mod h1:FWY/as6DDZQgahTzZj3fqbO1CbirC29ZNUFHwi0/+no=
 google.golang.org/genproto v0.0.0-20200804131852-c06518451d9c/go.mod h1:FWY/as6DDZQgahTzZj3fqbO1CbirC29ZNUFHwi0/+no=
 google.golang.org/genproto v0.0.0-20200825200019-8632dd797987/go.mod h1:FWY/as6DDZQgahTzZj3fqbO1CbirC29ZNUFHwi0/+no=
 google.golang.org/grpc v1.19.0/go.mod h1:mqu4LbDTu4XGKhr4mRzUsmM4RtVoemTSY81AxZiDr8c=
 google.golang.org/grpc v1.20.1/go.mod h1:10oTOabMzJvdu6/UiuZezV6QK5dSlG84ov/aaiqXj38=
 google.golang.org/grpc v1.21.1/go.mod h1:oYelfM1adQP15Ek0mdvEgi9Df8B9CZIaU1084ijfRaM=
 google.golang.org/grpc v1.23.0/go.mod h1:Y5yQAOtifL1yxbo5wqy6BxZv8vAUGQwXBOALyacEbxg=
 google.golang.org/grpc v1.25.1/go.mod h1:c3i+UQWmh7LiEpx4sFZnkU36qjEYZ0imhYfXVyQciAY=
 google.golang.org/grpc v1.26.0/go.mod h1:qbnxyOmOxrQa7FizSgH+ReBfzJrCY1pSN7KXBS8abTk=
 google.golang.org/grpc v1.27.0/go.mod h1:qbnxyOmOxrQa7FizSgH+ReBfzJrCY1pSN7KXBS8abTk=
 google.golang.org/grpc v1.27.1/go.mod h1:qbnxyOmOxrQa7FizSgH+ReBfzJrCY1pSN7KXBS8abTk=
 google.golang.org/grpc v1.28.0/go.mod h1:rpkK4SK4GF4Ach/+MFLZUBavHOvF2JJB5uozKKal+60=
 google.golang.org/grpc v1.29.1/go.mod h1:itym6AZVZYACWQqET3MqgPpjcuV5QH3BxFS3IjizoKk=
 google.golang.org/grpc v1.30.0/go.mod h1:N36X2cJ7JwdamYAgDz+s+rVMFjt3numwzf/HckM8pak=
 google.golang.org/grpc v1.31.0/go.mod h1:N36X2cJ7JwdamYAgDz+s+rVMFjt3numwzf/HckM8pak=
 google.golang.org/protobuf v0.0.0-20200109180630-ec00e32a8dfd/go.mod h1:DFci5gLYBciE7Vtevhsrf46CRTquxDuWsQurQQe4oz8=
 google.golang.org/protobuf v0.0.0-20200221191635-4d8936d0db64/go.mod h1:kwYJMbMJ01Woi6D6+Kah6886xMZcty6N08ah7+eCXa0=
 google.golang.org/protobuf v0.0.0-20200228230310-ab0ca4ff8a60/go.mod h1:cfTl7dwQJ+fmap5saPgwCLgHXTUD7jkjRqWcaiX5VyM=
 google.golang.org/protobuf v1.20.1-0.20200309200217-e05f789c0967/go.mod h1:A+miEFZTKqfCUM6K7xSMQL9OKL/b6hQv+e19PK+JZNE=
 google.golang.org/protobuf v1.21.0/go.mod h1:47Nbq4nVaFHyn7ilMalzfO3qCViNmqZ2kzikPIcrTAo=
 google.golang.org/protobuf v1.22.0/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
 google.golang.org/protobuf v1.23.0/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
 google.golang.org/protobuf v1.23.1-0.20200526195155-81db48ad09cc/go.mod h1:EGpADcykh3NcUnDUJcl1+ZksZNG86OlYog2l/sGQquU=
 google.golang.org/protobuf v1.24.0/go.mod h1:r/3tXBNzIEhYS9I1OUVjXDlt8tc493IdKGjtUeSXeh4=
 google.golang.org/protobuf v1.25.0/go.mod h1:9JNX74DMeImyA3h4bdi1ymwjUzf21/xIlbajtzgsN7c=
 google.golang.org/protobuf v1.26.0-rc.1/go.mod h1:jlhhOSvTdKEhbULTjvd4ARK9grFBp09yW+WbY/TyQbw=
 google.golang.org/protobuf v1.26.0/go.mod h1:9q0QmTI4eRPtz6boOQmLYwt+qCgq0jsYwAQnmE0givc=
 google.golang.org/protobuf v1.27.1 h1:SnqbnDw1V7RiZcXPx5MEeqPv2s79L9i7BJUlG/+RurQ=
 google.golang.org/protobuf v1.27.1/go.mod h1:9q0QmTI4eRPtz6boOQmLYwt+qCgq0jsYwAQnmE0givc=
 gopkg.in/alecthomas/kingpin.v2 v2.2.6/go.mod h1:FMv+mEhP44yOT+4EoQTLFTRgOQ1FBLkstjWtayDeSgw=
 gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
 gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127 h1:qIbj1fsPNlZgppZ+VLlY7N33q108Sa+fhmuc+sWQYwY=
 gopkg.in/check.v1 v1.0.0-20180628173108-788fd7840127/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
 gopkg.in/check.v1 v1.0.0-20190902080502-41f04d3bba15/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
 gopkg.in/check.v1 v1.0.0-20201130134442-10cb98267c6c h1:Hei/4ADfdWqJk1ZMxUNpqntNwaWcugrBjAiHlqqRiVk=
 gopkg.in/check.v1 v1.0.0-20201130134442-10cb98267c6c/go.mod h1:JHkPIbrfpd72SG/EVd6muEfDQjcINNoR0C8j2r3qZ4Q=
 gopkg.in/errgo.v2 v2.1.0/go.mod h1:hNsd1EY+bozCKY1Ytp96fpM3vjJbqLJn88ws8XvfDNI=
 gopkg.in/yaml.v2 v2.2.1/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
 gopkg.in/yaml.v2 v2.2.2 h1:ZCJp+EgiOT7lHqUV2J862kp8Qj64Jo6az82+3Td9dZw=
 gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
-gopkg.in/yaml.v2 v2.2.4/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
+gopkg.in/yaml.v2 v2.2.7 h1:VUgggvou5XRW9mHwD/yXxIYSMtY0zoKQf/v226p2nyo=
-gopkg.in/yaml.v2 v2.2.5/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
+gopkg.in/yaml.v2 v2.2.7/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
 gopkg.in/yaml.v2 v2.3.0/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
 gopkg.in/yaml.v2 v2.4.0 h1:D8xgwECY7CYvx+Y2n4sBz93Jn9JRvxdiyyo8CTfuKaY=
 gopkg.in/yaml.v2 v2.4.0/go.mod h1:RDklbk79AGWmwhnvt/jBztapEOGDOx6ZbXqjP6csGnQ=
 gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c h1:dUUwHk2QECo/6vqA44rthZ8ie2QXMNeKRTHCNY2nXvo=
 gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
 honnef.co/go/tools v0.0.0-20190102054323-c2f93a96b099/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
 honnef.co/go/tools v0.0.0-20190106161140-3f1c8253044a/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
 honnef.co/go/tools v0.0.0-20190418001031-e561f6794a2a/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
 honnef.co/go/tools v0.0.0-20190523083050-ea95bdfd59fc/go.mod h1:rf3lG4BRIbNafJWhAfAdb/ePZxsR/4RtNHQocxwk9r4=
 honnef.co/go/tools v0.0.1-2019.2.3/go.mod h1:a3bituU0lyd329TUQxRnasdCoJDkEUEAqEt0JzvZhAg=
 honnef.co/go/tools v0.0.1-2020.1.3/go.mod h1:X/FiERA/W4tHapMX5mGpAtMSVEeEUOyHaw9vFzvIQ3k=
 honnef.co/go/tools v0.0.1-2020.1.4/go.mod h1:X/FiERA/W4tHapMX5mGpAtMSVEeEUOyHaw9vFzvIQ3k=
 rsc.io/binaryregexp v0.2.0/go.mod h1:qTv7/COck+e2FymRvadv62gMdZztPaShugOCi3I+8D8=
 rsc.io/quote/v3 v3.1.0/go.mod h1:yEA65RcK8LyAZtP9Kv3t0HmxON59tX3rD+tICJqUlj0=
 rsc.io/sampler v1.3.0/go.mod h1:T1hPZKmBbMNahiBKFy5HrXp6adAjACjK9JXDnKaTXpA=
--- a/handler.go
+++ b/handler.go
@@ -0,0 +1,83 @@
 package nebula
 func (f *Interface) newHook(w func([]byte) error) InsideHandler {
 	fn := func(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 		f.decryptTo(w, hostInfo, header.MessageCounter, out, packet, fwPacket, nb)
 	}
 	return f.encrypted(fn)
 }
 func (f *Interface) encrypted(h InsideHandler) InsideHandler {
 	return func(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 		if !f.handleEncrypted(ci, addr, header) {
 			return
 		}
 		h(hostInfo, ci, addr, header, out, packet, fwPacket, nb)
 		f.handleHostRoaming(hostInfo, addr)
 		f.connectionManager.In(hostInfo.hostId)
 	}
 }
 func (f *Interface) rxMetrics(h InsideHandler) InsideHandler {
 	return func(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 		f.messageMetrics.Rx(header.Type, header.Subtype, 1)
 		h(hostInfo, ci, addr, header, out, packet, fwPacket, nb)
 	}
 }
 func (f *Interface) handleMessagePacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	f.decryptTo(f.inside.WriteRaw, hostInfo, header.MessageCounter, out, packet, fwPacket, nb)
 }
 func (f *Interface) handleLighthousePacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	d, err := f.decrypt(hostInfo, header.MessageCounter, out, packet, header, nb)
 	if err != nil {
 		hostInfo.logger().WithError(err).WithField("udpAddr", addr).
 			WithField("packet", packet).
 			Error("Failed to decrypt lighthouse packet")
 		//TODO: maybe after build 64 is out? 06/14/2018 - NB
 		//f.sendRecvError(net.Addr(addr), header.RemoteIndex)
 		return
 	}
 	f.lightHouse.HandleRequest(addr, hostInfo.hostId, d, hostInfo.GetCert(), f)
 }
 func (f *Interface) handleTestPacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	d, err := f.decrypt(hostInfo, header.MessageCounter, out, packet, header, nb)
 	if err != nil {
 		hostInfo.logger().WithError(err).WithField("udpAddr", addr).
 			WithField("packet", packet).
 			Error("Failed to decrypt test packet")
 		//TODO: maybe after build 64 is out? 06/14/2018 - NB
 		//f.sendRecvError(net.Addr(addr), header.RemoteIndex)
 		return
 	}
 	if header.Subtype == testRequest {
 		// This testRequest might be from TryPromoteBest, so we should roam
 		// to the new IP address before responding
 		f.handleHostRoaming(hostInfo, addr)
 		f.send(test, testReply, ci, hostInfo, hostInfo.remote, d, nb, out)
 	}
 }
 func (f *Interface) handleHandshakePacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	HandleIncomingHandshake(f, addr, packet, header, hostInfo)
 }
 func (f *Interface) handleRecvErrorPacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	// TODO: Remove this with recv_error deprecation
 	f.handleRecvError(addr, header)
 }
 func (f *Interface) handleCloseTunnelPacket(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	hostInfo.logger().WithField("udpAddr", addr).
 		Info("Close tunnel received, tearing down.")
 	f.closeTunnel(hostInfo)
 }
--- a/handshake.go
+++ b/handshake.go
@@ -1,29 +1,36 @@
 package nebula
-import (
+const (
-	"github.com/slackhq/nebula/header"
+	handshakeIXPSK0 = 0
-	"github.com/slackhq/nebula/udp"
+	handshakeXXPSK0 = 1
 )
-func HandleIncomingHandshake(f *Interface, addr *udp.Addr, packet []byte, h *header.H, hostinfo *HostInfo) {
+func HandleIncomingHandshake(f *Interface, addr *udpAddr, packet []byte, h *Header, hostinfo *HostInfo) {
-	// First remote allow list check before we know the vpnIp
+	newHostinfo, _ := f.handshakeManager.QueryIndex(h.RemoteIndex)
-	if !f.lightHouse.remoteAllowList.AllowUnknownVpnIp(addr.IP) {
+	//TODO: For stage 1 we won't have hostinfo yet but stage 2 and above would require it, this check may be helpful in those cases
-		f.l.WithField("udpAddr", addr).Debug("lighthouse.remote_allow_list denied incoming handshake")
+	//if err != nil {
 	//	l.WithError(err).WithField("udpAddr", addr).Error("Error while finding host info for handshake message")
 	//	return
 	//}
 	if !f.lightHouse.remoteAllowList.Allow(udp2ipInt(addr)) {
 		l.WithField("udpAddr", addr).Debug("lighthouse.remote_allow_list denied incoming handshake")
 		return
 	}
 	tearDown := false
 	switch h.Subtype {
-	case header.HandshakeIXPSK0:
+	case handshakeIXPSK0:
 		switch h.MessageCounter {
 		case 1:
-			ixHandshakeStage1(f, addr, packet, h)
+			tearDown = ixHandshakeStage1(f, addr, newHostinfo, packet, h)
 		case 2:
-			newHostinfo, _ := f.handshakeManager.QueryIndex(h.RemoteIndex)
+			tearDown = ixHandshakeStage2(f, addr, newHostinfo, packet, h)
 			tearDown := ixHandshakeStage2(f, addr, newHostinfo, packet, h)
 			if tearDown && newHostinfo != nil {
 				f.handshakeManager.DeleteHostInfo(newHostinfo)
 			}
 		}
 	}
 	if tearDown && newHostinfo != nil {
 		f.handshakeManager.DeleteIndex(newHostinfo.localIndexId)
 		f.handshakeManager.DeleteVpnIP(newHostinfo.hostId)
 	}
 }
--- a/handshake_ix.go
+++ b/handshake_ix.go
@@ -1,40 +1,42 @@
 package nebula
 import (
 	"bytes"
 	"sync/atomic"
 	"time"
 	"github.com/flynn/noise"
 	"github.com/golang/protobuf/proto"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 )
 // NOISE IX Handshakes
 // This function constructs a handshake packet, but does not actually send it
 // Sending is done by the handshake manager
-func ixHandshakeStage0(f *Interface, vpnIp iputil.VpnIp, hostinfo *HostInfo) {
+func ixHandshakeStage0(f *Interface, vpnIp uint32, hostinfo *HostInfo) {
 	// This queries the lighthouse if we don't know a remote for the host
 	// We do it here to provoke the lighthouse to preempt our timer wheel and trigger the stage 1 packet to send
 	// more quickly, effect is a quicker handshake.
 	if hostinfo.remote == nil {
-		f.lightHouse.QueryServer(vpnIp, f)
+		ips, err := f.lightHouse.Query(vpnIp, f)
 		if err != nil {
 			//l.Debugln(err)
 		}
 		for _, ip := range ips {
 			hostinfo.AddRemote(ip)
 		}
 	}
-	err := f.handshakeManager.AddIndexHostInfo(hostinfo)
+	myIndex, err := generateIndex()
 	if err != nil {
-		f.l.WithError(err).WithField("vpnIp", vpnIp).
+		l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).
 			WithField("handshake", m{"stage": 0, "style": "ix_psk0"}).Error("Failed to generate index")
 		return
 	}
 	ci := hostinfo.ConnectionState
 	f.handshakeManager.AddIndexHostInfo(myIndex, hostinfo)
 	hsProto := &NebulaHandshakeDetails{
-		InitiatorIndex: hostinfo.localIndexId,
+		InitiatorIndex: myIndex,
-		Time:           uint64(time.Now().UnixNano()),
+		Time:           uint64(time.Now().Unix()),
 		Cert:           ci.certState.rawCertificateNoKey,
 	}
@@ -46,40 +48,39 @@ func ixHandshakeStage0(f *Interface, vpnIp iputil.VpnIp, hostinfo *HostInfo) {
 	hsBytes, err = proto.Marshal(hs)
 	if err != nil {
-		f.l.WithError(err).WithField("vpnIp", vpnIp).
+		l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).
 			WithField("handshake", m{"stage": 0, "style": "ix_psk0"}).Error("Failed to marshal handshake message")
 		return
 	}
-	h := header.Encode(make([]byte, header.Len), header.Version, header.Handshake, header.HandshakeIXPSK0, 0, 1)
+	header := HeaderEncode(make([]byte, HeaderLen), Version, uint8(handshake), handshakeIXPSK0, 0, 1)
-	atomic.AddUint64(&ci.atomicMessageCounter, 1)
+	atomic.AddUint64(ci.messageCounter, 1)
-	msg, _, _, err := ci.H.WriteMessage(h, hsBytes)
+	msg, _, _, err := ci.H.WriteMessage(header, hsBytes)
 	if err != nil {
-		f.l.WithError(err).WithField("vpnIp", vpnIp).
+		l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).
 			WithField("handshake", m{"stage": 0, "style": "ix_psk0"}).Error("Failed to call noise.WriteMessage")
 		return
 	}
 	// We are sending handshake packet 1, so we don't expect to receive
 	// handshake packet 1 from the responder
 	ci.window.Update(f.l, 1)
 	hostinfo.HandshakePacket[0] = msg
 	hostinfo.HandshakeReady = true
 	hostinfo.handshakeStart = time.Now()
 }
-func ixHandshakeStage1(f *Interface, addr *udp.Addr, packet []byte, h *header.H) {
+func ixHandshakeStage1(f *Interface, addr *udpAddr, hostinfo *HostInfo, packet []byte, h *Header) bool {
-	ci := f.newConnectionState(f.l, false, noise.HandshakeIX, []byte{}, 0)
+	var ip uint32
 	if h.RemoteIndex == 0 {
 		ci := f.newConnectionState(false, noise.HandshakeIX, []byte{}, 0)
 		// Mark packet 1 as seen so it doesn't show up as missed
-	ci.window.Update(f.l, 1)
+		ci.window.Update(1)
-	msg, _, _, err := ci.H.ReadMessage(nil, packet[header.Len:])
+		msg, _, _, err := ci.H.ReadMessage(nil, packet[HeaderLen:])
 		if err != nil {
-		f.l.WithError(err).WithField("udpAddr", addr).
+			l.WithError(err).WithField("udpAddr", addr).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Failed to call noise.ReadMessage")
-		return
+			return true
 		}
 		hs := &NebulaHandshake{}
@@ -88,264 +89,199 @@ func ixHandshakeStage1(f *Interface, addr *udp.Addr, packet []byte, h *header.H)
 			l.Debugln("GOT INDEX: ", hs.Details.InitiatorIndex)
 		*/
 		if err != nil || hs.Details == nil {
-		f.l.WithError(err).WithField("udpAddr", addr).
+			l.WithError(err).WithField("udpAddr", addr).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Failed unmarshal handshake message")
-		return
+			return true
 		}
-	remoteCert, err := RecombineCertAndValidate(ci.H, hs.Details.Cert, f.caPool)
+		hostinfo, _ := f.handshakeManager.pendingHostMap.QueryReverseIndex(hs.Details.InitiatorIndex)
 		if hostinfo != nil && bytes.Equal(hostinfo.HandshakePacket[0], packet[HeaderLen:]) {
 			if msg, ok := hostinfo.HandshakePacket[2]; ok {
 				f.messageMetrics.Tx(handshake, NebulaMessageSubType(msg[1]), 1)
 				err := f.outside.WriteTo(msg, addr)
 				if err != nil {
-		f.l.WithError(err).WithField("udpAddr", addr).
+					l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 						WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("cached", true).
 						WithError(err).Error("Failed to send handshake message")
 				} else {
 					l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 						WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("cached", true).
 						Info("Handshake message sent")
 				}
 				return false
 			}
 			l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).WithField("cached", true).
 				WithField("packets", hostinfo.HandshakePacket).
 				Error("Seen this handshake packet already but don't have a cached packet to return")
 		}
 		remoteCert, err := RecombineCertAndValidate(ci.H, hs.Details.Cert)
 		if err != nil {
 			l.WithError(err).WithField("udpAddr", addr).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).WithField("cert", remoteCert).
 				Info("Invalid certificate from host")
-		return
+			return true
 		}
-	vpnIp := iputil.Ip2VpnIp(remoteCert.Details.Ips[0].IP)
+		vpnIP := ip2int(remoteCert.Details.Ips[0].IP)
 		certName := remoteCert.Details.Name
 		fingerprint, _ := remoteCert.Sha256Sum()
 	issuer := remoteCert.Details.Issuer
-	if vpnIp == f.myVpnIp {
+		myIndex, err := generateIndex()
 		f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 			WithField("certName", certName).
 			WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 			WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Refusing to handshake with myself")
 		return
 	}
 	if !f.lightHouse.remoteAllowList.Allow(vpnIp, addr.IP) {
 		f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).Debug("lighthouse.remote_allow_list denied incoming handshake")
 		return
 	}
 	myIndex, err := generateIndex(f.l)
 		if err != nil {
-		f.l.WithError(err).WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
+			l.WithError(err).WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Failed to generate index")
-		return
+			return true
 		}
-	hostinfo := &HostInfo{
+		hostinfo, err = f.handshakeManager.AddIndex(myIndex, ci)
-		ConnectionState:   ci,
+		if err != nil {
-		localIndexId:      myIndex,
+			l.WithError(err).WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
-		remoteIndexId:     hs.Details.InitiatorIndex,
+				WithField("certName", certName).
-		vpnIp:             vpnIp,
+				WithField("fingerprint", fingerprint).
-		HandshakePacket:   make(map[uint8][]byte, 0),
+				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Error adding index to connection manager")
-		lastHandshakeTime: hs.Details.Time,
+
-	}
+			return true
-
+		}
-	hostinfo.Lock()
+		l.WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 	defer hostinfo.Unlock()
 	f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 			WithField("certName", certName).
 			WithField("fingerprint", fingerprint).
 		WithField("issuer", issuer).
 			WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 			WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 			Info("Handshake message received")
 		hostinfo.remoteIndexId = hs.Details.InitiatorIndex
 		hs.Details.ResponderIndex = myIndex
 		hs.Details.Cert = ci.certState.rawCertificateNoKey
 	// Update the time in case their clock is way off from ours
 	hs.Details.Time = uint64(time.Now().UnixNano())
 		hsBytes, err := proto.Marshal(hs)
 		if err != nil {
-		f.l.WithError(err).WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+			l.WithError(err).WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Failed to marshal handshake message")
-		return
+			return true
 		}
-	nh := header.Encode(make([]byte, header.Len), header.Version, header.Handshake, header.HandshakeIXPSK0, hs.Details.InitiatorIndex, 2)
+		header := HeaderEncode(make([]byte, HeaderLen), Version, uint8(handshake), handshakeIXPSK0, hs.Details.InitiatorIndex, 2)
-	msg, dKey, eKey, err := ci.H.WriteMessage(nh, hsBytes)
+		msg, dKey, eKey, err := ci.H.WriteMessage(header, hsBytes)
 		if err != nil {
-		f.l.WithError(err).WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+			l.WithError(err).WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Failed to call noise.WriteMessage")
-		return
+			return true
 	} else if dKey == nil || eKey == nil {
 		f.l.WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
 			WithField("certName", certName).
 			WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 			WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).Error("Noise did not arrive at a key")
 		return
 		}
-	hostinfo.HandshakePacket[0] = make([]byte, len(packet[header.Len:]))
+		if f.hostMap.CheckHandshakeCompleteIP(vpnIP) && vpnIP < ip2int(f.certState.certificate.Details.Ips[0].IP) {
-	copy(hostinfo.HandshakePacket[0], packet[header.Len:])
+			l.WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 				WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 				WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				Info("Prevented a handshake race")
 			// Send a test packet to trigger an authenticated tunnel test, this should suss out any lingering tunnel issues
 			f.SendMessageToVpnIp(test, testRequest, vpnIP, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 			return true
 		}
 		hostinfo.HandshakePacket[0] = make([]byte, len(packet[HeaderLen:]))
 		copy(hostinfo.HandshakePacket[0], packet[HeaderLen:])
 		// Regardless of whether you are the sender or receiver, you should arrive here
 		// and complete standing up the connection.
 		if dKey != nil && eKey != nil {
 			hostinfo.HandshakePacket[2] = make([]byte, len(msg))
 			copy(hostinfo.HandshakePacket[2], msg)
-	// We are sending handshake packet 2, so we don't expect to receive
+			f.messageMetrics.Tx(handshake, NebulaMessageSubType(msg[1]), 1)
 	// handshake packet 2 from the initiator.
 	ci.window.Update(f.l, 2)
 	ci.peerCert = remoteCert
 	ci.dKey = NewNebulaCipherState(dKey)
 	ci.eKey = NewNebulaCipherState(eKey)
 	hostinfo.remotes = f.lightHouse.QueryCache(vpnIp)
 	hostinfo.SetRemote(addr)
 	hostinfo.CreateRemoteCIDR(remoteCert)
 	// Only overwrite existing record if we should win the handshake race
 	overwrite := vpnIp > f.myVpnIp
 	existing, err := f.handshakeManager.CheckAndComplete(hostinfo, 0, overwrite, f)
 	if err != nil {
 		switch err {
 		case ErrAlreadySeen:
 			// Update remote if preferred (Note we have to switch to locking
 			// the existing hostinfo, and then switch back so the defer Unlock
 			// higher in this function still works)
 			hostinfo.Unlock()
 			existing.Lock()
 			// Update remote if preferred
 			if existing.SetRemoteIfPreferred(f.hostMap, addr) {
 				// Send a test packet to ensure the other side has also switched to
 				// the preferred remote
 				f.SendMessageToVpnIp(header.Test, header.TestRequest, vpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 			}
 			existing.Unlock()
 			hostinfo.Lock()
 			msg = existing.HandshakePacket[2]
 			f.messageMetrics.Tx(header.Handshake, header.MessageSubType(msg[1]), 1)
 			err := f.outside.WriteTo(msg, addr)
 			if err != nil {
-				f.l.WithField("vpnIp", existing.vpnIp).WithField("udpAddr", addr).
+				l.WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 					WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("cached", true).
 					WithError(err).Error("Failed to send handshake message")
 			} else {
 				f.l.WithField("vpnIp", existing.vpnIp).WithField("udpAddr", addr).
 					WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("cached", true).
 					Info("Handshake message sent")
 			}
 			return
 		case ErrExistingHostInfo:
 			// This means there was an existing tunnel and this handshake was older than the one we are currently based on
 			f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("oldHandshakeTime", existing.lastHandshakeTime).
 				WithField("newHandshakeTime", hostinfo.lastHandshakeTime).
 				WithField("fingerprint", fingerprint).
 				WithField("issuer", issuer).
 				WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 				WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				Info("Handshake too old")
 			// Send a test packet to trigger an authenticated tunnel test, this should suss out any lingering tunnel issues
 			f.SendMessageToVpnIp(header.Test, header.TestRequest, vpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 			return
 		case ErrLocalIndexCollision:
 			// This means we failed to insert because of collision on localIndexId. Just let the next handshake packet retry
 			f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 					WithField("certName", certName).
 					WithField("fingerprint", fingerprint).
 				WithField("issuer", issuer).
 				WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 				WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				WithField("localIndex", hostinfo.localIndexId).WithField("collision", existing.vpnIp).
 				Error("Failed to add HostInfo due to localIndex collision")
 			return
 		case ErrExistingHandshake:
 			// We have a race where both parties think they are an initiator and this tunnel lost, let the other one finish
 			f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 				WithField("issuer", issuer).
 				WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 				WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				Error("Prevented a pending handshake race")
 			return
 		default:
 			// Shouldn't happen, but just in case someone adds a new error type to CheckAndComplete
 			// And we forget to update it here
 			f.l.WithError(err).WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 				WithField("issuer", issuer).
 				WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 				WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				Error("Failed to add HostInfo to HostMap")
 			return
 		}
 	}
 	// Do the send
 	f.messageMetrics.Tx(header.Handshake, header.MessageSubType(msg[1]), 1)
 	err = f.outside.WriteTo(msg, addr)
 	if err != nil {
 		f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
 			WithField("certName", certName).
 			WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 					WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 					WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 					WithError(err).Error("Failed to send handshake")
 			} else {
-		f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
+				l.WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 					WithField("certName", certName).
 					WithField("fingerprint", fingerprint).
 			WithField("issuer", issuer).
 					WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 					WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 			WithField("sentCachedPackets", len(hostinfo.packetStore)).
 					Info("Handshake message sent")
 			}
-	hostinfo.handshakeComplete(f.l, f.cachedPacketMetrics)
+			ip = ip2int(remoteCert.Details.Ips[0].IP)
 			ci.peerCert = remoteCert
 			ci.dKey = NewNebulaCipherState(dKey)
 			ci.eKey = NewNebulaCipherState(eKey)
 			//l.Debugln("got symmetric pairs")
-	return
+			//hostinfo.ClearRemotes()
 			hostinfo.AddRemote(*addr)
 			hostinfo.CreateRemoteCIDR(remoteCert)
 			f.lightHouse.AddRemoteAndReset(ip, addr)
 			if f.serveDns {
 				dnsR.Add(remoteCert.Details.Name+".", remoteCert.Details.Ips[0].IP.String())
 			}
-func ixHandshakeStage2(f *Interface, addr *udp.Addr, hostinfo *HostInfo, packet []byte, h *header.H) bool {
+			ho, err := f.hostMap.QueryVpnIP(vpnIP)
-	if hostinfo == nil {
+			if err == nil && ho.localIndexId != 0 {
-		// Nothing here to tear down, got a bogus stage 2 packet
+				l.WithField("vpnIp", vpnIP).
 					WithField("certName", certName).
 					WithField("fingerprint", fingerprint).
 					WithField("action", "removing stale index").
 					WithField("index", ho.localIndexId).
 					Debug("Handshake processing")
 				f.hostMap.DeleteIndex(ho.localIndexId)
 			}
 			f.hostMap.AddIndexHostInfo(hostinfo.localIndexId, hostinfo)
 			f.hostMap.AddVpnIPHostInfo(vpnIP, hostinfo)
 			hostinfo.handshakeComplete()
 		} else {
 			l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 				Error("Noise did not arrive at a key")
 			return true
 		}
-	hostinfo.Lock()
+	}
 	defer hostinfo.Unlock()
-	if !f.lightHouse.remoteAllowList.Allow(hostinfo.vpnIp, addr.IP) {
+	f.hostMap.AddRemote(ip, addr)
-		f.l.WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).Debug("lighthouse.remote_allow_list denied incoming handshake")
+	return false
 }
 func ixHandshakeStage2(f *Interface, addr *udpAddr, hostinfo *HostInfo, packet []byte, h *Header) bool {
 	if hostinfo == nil {
 		return true
 	}
 	if bytes.Equal(hostinfo.HandshakePacket[2], packet[HeaderLen:]) {
 		l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("header", h).
 			Error("Already seen this handshake packet")
 		return false
 	}
 	ci := hostinfo.ConnectionState
-	if ci.ready {
+	// Mark packet 2 as seen so it doesn't show up as missed
-		f.l.WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+	ci.window.Update(2)
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("header", h).
 			Info("Handshake is already complete")
-		// Update remote if preferred
+	hostinfo.HandshakePacket[2] = make([]byte, len(packet[HeaderLen:]))
-		if hostinfo.SetRemoteIfPreferred(f.hostMap, addr) {
+	copy(hostinfo.HandshakePacket[2], packet[HeaderLen:])
 			// Send a test packet to ensure the other side has also switched to
 			// the preferred remote
 			f.SendMessageToVpnIp(header.Test, header.TestRequest, hostinfo.vpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 		}
-		// We already have a complete tunnel, there is nothing that can be done by processing further stage 1 packets
+	msg, eKey, dKey, err := ci.H.ReadMessage(nil, packet[HeaderLen:])
 		return false
 	}
 	msg, eKey, dKey, err := ci.H.ReadMessage(nil, packet[header.Len:])
 	if err != nil {
-		f.l.WithError(err).WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+		l.WithError(err).WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).WithField("header", h).
 			Error("Failed to call noise.ReadMessage")
@@ -353,114 +289,89 @@ func ixHandshakeStage2(f *Interface, addr *udp.Addr, hostinfo *HostInfo, packet
 		// to DOS us. Every other error condition after should to allow a possible good handshake to complete in the
 		// near future
 		return false
 	} else if dKey == nil || eKey == nil {
 		f.l.WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 			Error("Noise did not arrive at a key")
 		// This should be impossible in IX but just in case, if we get here then there is no chance to recover
 		// the handshake state machine. Tear it down
 		return true
 	}
 	hs := &NebulaHandshake{}
 	err = proto.Unmarshal(msg, hs)
 	if err != nil || hs.Details == nil {
-		f.l.WithError(err).WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+		l.WithError(err).WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).Error("Failed unmarshal handshake message")
 		// The handshake state machine is complete, if things break now there is no chance to recover. Tear down and start again
 		return true
 	}
-	remoteCert, err := RecombineCertAndValidate(ci.H, hs.Details.Cert, f.caPool)
+	remoteCert, err := RecombineCertAndValidate(ci.H, hs.Details.Cert)
 	if err != nil {
-		f.l.WithError(err).WithField("vpnIp", hostinfo.vpnIp).WithField("udpAddr", addr).
+		l.WithError(err).WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 			WithField("cert", remoteCert).WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 			Error("Invalid certificate from host")
 		// The handshake state machine is complete, if things break now there is no chance to recover. Tear down and start again
 		return true
 	}
-
+	vpnIP := ip2int(remoteCert.Details.Ips[0].IP)
 	vpnIp := iputil.Ip2VpnIp(remoteCert.Details.Ips[0].IP)
 	certName := remoteCert.Details.Name
 	fingerprint, _ := remoteCert.Sha256Sum()
 	issuer := remoteCert.Details.Issuer
 	// Ensure the right host responded
 	if vpnIp != hostinfo.vpnIp {
 		f.l.WithField("intendedVpnIp", hostinfo.vpnIp).WithField("haveVpnIp", vpnIp).
 			WithField("udpAddr", addr).WithField("certName", certName).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 			Info("Incorrect host responded to handshake")
 		// Release our old handshake from pending, it should not continue
 		f.handshakeManager.pendingHostMap.DeleteHostInfo(hostinfo)
 		// Create a new hostinfo/handshake for the intended vpn ip
 		//TODO: this adds it to the timer wheel in a way that aggressively retries
 		newHostInfo := f.getOrHandshake(hostinfo.vpnIp)
 		newHostInfo.Lock()
 		// Block the current used address
 		newHostInfo.remotes = hostinfo.remotes
 		newHostInfo.remotes.BlockRemote(addr)
 		// Get the correct remote list for the host we did handshake with
 		hostinfo.remotes = f.lightHouse.QueryCache(vpnIp)
 		f.l.WithField("blockedUdpAddrs", newHostInfo.remotes.CopyBlockedRemotes()).WithField("vpnIp", vpnIp).
 			WithField("remotes", newHostInfo.remotes.CopyAddrs(f.hostMap.preferredRanges)).
 			Info("Blocked addresses for handshakes")
 		// Swap the packet store to benefit the original intended recipient
 		hostinfo.ConnectionState.queueLock.Lock()
 		newHostInfo.packetStore = hostinfo.packetStore
 		hostinfo.packetStore = []*cachedPacket{}
 		hostinfo.ConnectionState.queueLock.Unlock()
 		// Finally, put the correct vpn ip in the host info, tell them to close the tunnel, and return true to tear down
 		hostinfo.vpnIp = vpnIp
 		f.sendCloseTunnel(hostinfo)
 		newHostInfo.Unlock()
 		return true
 	}
 	// Mark packet 2 as seen so it doesn't show up as missed
 	ci.window.Update(f.l, 2)
 	duration := time.Since(hostinfo.handshakeStart).Nanoseconds()
-	f.l.WithField("vpnIp", vpnIp).WithField("udpAddr", addr).
+	l.WithField("vpnIp", IntIp(vpnIP)).WithField("udpAddr", addr).
 		WithField("certName", certName).
 		WithField("fingerprint", fingerprint).
 		WithField("issuer", issuer).
 		WithField("initiatorIndex", hs.Details.InitiatorIndex).WithField("responderIndex", hs.Details.ResponderIndex).
 		WithField("remoteIndex", h.RemoteIndex).WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 		WithField("durationNs", duration).
 		WithField("sentCachedPackets", len(hostinfo.packetStore)).
 		Info("Handshake message received")
 	//ci.remoteIndex = hs.ResponderIndex
 	hostinfo.remoteIndexId = hs.Details.ResponderIndex
-	hostinfo.lastHandshakeTime = hs.Details.Time
+	hs.Details.Cert = ci.certState.rawCertificateNoKey
-	// Store their cert and our symmetric keys
+	/*
 		hsBytes, err := proto.Marshal(hs)
 		if err != nil {
 			l.Debugln("Failed to marshal handshake: ", err)
 			return
 		}
 	*/
 	// Regardless of whether you are the sender or receiver, you should arrive here
 	// and complete standing up the connection.
 	if dKey != nil && eKey != nil {
 		ip := ip2int(remoteCert.Details.Ips[0].IP)
 		ci.peerCert = remoteCert
 		ci.dKey = NewNebulaCipherState(dKey)
 		ci.eKey = NewNebulaCipherState(eKey)
 		//l.Debugln("got symmetric pairs")
-	// Make sure the current udpAddr being used is set for responding
+		//hostinfo.ClearRemotes()
-	hostinfo.SetRemote(addr)
+		f.hostMap.AddRemote(ip, addr)
 	// Build up the radix for the firewall if we have subnets in the cert
 		hostinfo.CreateRemoteCIDR(remoteCert)
 		f.lightHouse.AddRemoteAndReset(ip, addr)
 		if f.serveDns {
 			dnsR.Add(remoteCert.Details.Name+".", remoteCert.Details.Ips[0].IP.String())
 		}
-	// Complete our handshake and update metrics, this will replace any existing tunnels for this vpnIp
+		ho, err := f.hostMap.QueryVpnIP(vpnIP)
-	//TODO: Complete here does not do a race avoidance, it will just take the new tunnel. Is this ok?
+		if err == nil && ho.localIndexId != 0 {
-	f.handshakeManager.Complete(hostinfo, f)
+			l.WithField("vpnIp", vpnIP).
-	hostinfo.handshakeComplete(f.l, f.cachedPacketMetrics)
+				WithField("certName", certName).
 				WithField("fingerprint", fingerprint).
 				WithField("action", "removing stale index").
 				WithField("index", ho.localIndexId).
 				Debug("Handshake processing")
 			f.hostMap.DeleteIndex(ho.localIndexId)
 		}
 		f.hostMap.AddVpnIPHostInfo(vpnIP, hostinfo)
 		f.hostMap.AddIndexHostInfo(hostinfo.localIndexId, hostinfo)
 		hostinfo.handshakeComplete()
 		f.metricHandshakes.Update(duration)
 	} else {
 		l.WithField("vpnIp", IntIp(hostinfo.hostId)).WithField("udpAddr", addr).
 			WithField("certName", certName).
 			WithField("fingerprint", fingerprint).
 			WithField("handshake", m{"stage": 2, "style": "ix_psk0"}).
 			Error("Noise did not arrive at a key")
 		return true
 	}
 	return false
 }
--- a/handshake_manager.go
+++ b/handshake_manager.go
@@ -1,24 +1,22 @@
 package nebula
 import (
 	"bytes"
 	"context"
 	"crypto/rand"
 	"encoding/binary"
-	"errors"
+	"fmt"
 	"net"
 	"time"
 	"github.com/rcrowley/go-metrics"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 )
 const (
 	// Total time to try a handshake = sequence of HandshakeTryInterval * HandshakeRetries
 	// With 100ms interval and 20 retries is 23.5 seconds
 	DefaultHandshakeTryInterval = time.Millisecond * 100
-	DefaultHandshakeRetries       = 10
+	DefaultHandshakeRetries     = 20
 	// DefaultHandshakeWaitRotation is the number of handshake attempts to do before starting to use other ips addresses
 	DefaultHandshakeWaitRotation  = 5
 	DefaultHandshakeTriggerBuffer = 64
 )
@@ -26,6 +24,7 @@ var (
 	defaultHandshakeConfig = HandshakeConfig{
 		tryInterval:   DefaultHandshakeTryInterval,
 		retries:       DefaultHandshakeRetries,
 		waitRotation:  DefaultHandshakeWaitRotation,
 		triggerBuffer: DefaultHandshakeTriggerBuffer,
 	}
 )
@@ -33,6 +32,7 @@ var (
 type HandshakeConfig struct {
 	tryInterval   time.Duration
 	retries       int
 	waitRotation  int
 	triggerBuffer int
 	messageMetrics *MessageMetrics
@@ -42,319 +42,190 @@ type HandshakeManager struct {
 	pendingHostMap *HostMap
 	mainHostMap    *HostMap
 	lightHouse     *LightHouse
-	outside                *udp.Conn
+	outside        *udpConn
 	config         HandshakeConfig
 	OutboundHandshakeTimer *SystemTimerWheel
 	messageMetrics         *MessageMetrics
 	metricInitiated        metrics.Counter
 	metricTimedOut         metrics.Counter
 	l                      *logrus.Logger
-	// can be used to trigger outbound handshake for the given vpnIp
+	// can be used to trigger outbound handshake for the given vpnIP
-	trigger chan iputil.VpnIp
+	trigger chan uint32
 	OutboundHandshakeTimer *SystemTimerWheel
 	InboundHandshakeTimer  *SystemTimerWheel
 	messageMetrics *MessageMetrics
 }
-func NewHandshakeManager(l *logrus.Logger, tunCidr *net.IPNet, preferredRanges []*net.IPNet, mainHostMap *HostMap, lightHouse *LightHouse, outside *udp.Conn, config HandshakeConfig) *HandshakeManager {
+func NewHandshakeManager(tunCidr *net.IPNet, preferredRanges []*net.IPNet, mainHostMap *HostMap, lightHouse *LightHouse, outside *udpConn, config HandshakeConfig) *HandshakeManager {
 	return &HandshakeManager{
-		pendingHostMap:         NewHostMap(l, "pending", tunCidr, preferredRanges),
+		pendingHostMap: NewHostMap("pending", tunCidr, preferredRanges),
 		mainHostMap:    mainHostMap,
 		lightHouse:     lightHouse,
 		outside:        outside,
 		config: config,
-		trigger:                make(chan iputil.VpnIp, config.triggerBuffer),
+
-		OutboundHandshakeTimer: NewSystemTimerWheel(config.tryInterval, hsTimeout(config.retries, config.tryInterval)),
+		trigger: make(chan uint32, config.triggerBuffer),
 		OutboundHandshakeTimer: NewSystemTimerWheel(config.tryInterval, config.tryInterval*time.Duration(config.retries)),
 		InboundHandshakeTimer:  NewSystemTimerWheel(config.tryInterval, config.tryInterval*time.Duration(config.retries)),
 		messageMetrics: config.messageMetrics,
 		metricInitiated:        metrics.GetOrRegisterCounter("handshake_manager.initiated", nil),
 		metricTimedOut:         metrics.GetOrRegisterCounter("handshake_manager.timed_out", nil),
 		l:                      l,
 	}
 }
-func (c *HandshakeManager) Run(ctx context.Context, f udp.EncWriter) {
+func (c *HandshakeManager) Run(f EncWriter) {
-	clockSource := time.NewTicker(c.config.tryInterval)
+	clockSource := time.Tick(c.config.tryInterval)
 	defer clockSource.Stop()
 	for {
 		select {
 		case <-ctx.Done():
 			return
 		case vpnIP := <-c.trigger:
-			c.l.WithField("vpnIp", vpnIP).Debug("HandshakeManager: triggered")
+			l.WithField("vpnIp", IntIp(vpnIP)).Debug("HandshakeManager: triggered")
 			c.handleOutbound(vpnIP, f, true)
-		case now := <-clockSource.C:
+		case now := <-clockSource:
 			c.NextOutboundHandshakeTimerTick(now, f)
 			c.NextInboundHandshakeTimerTick(now)
 		}
 	}
 }
-func (c *HandshakeManager) NextOutboundHandshakeTimerTick(now time.Time, f udp.EncWriter) {
+func (c *HandshakeManager) NextOutboundHandshakeTimerTick(now time.Time, f EncWriter) {
 	c.OutboundHandshakeTimer.advance(now)
 	for {
 		ep := c.OutboundHandshakeTimer.Purge()
 		if ep == nil {
 			break
 		}
-		vpnIp := ep.(iputil.VpnIp)
+		vpnIP := ep.(uint32)
-		c.handleOutbound(vpnIp, f, false)
+		c.handleOutbound(vpnIP, f, false)
 	}
 }
-func (c *HandshakeManager) handleOutbound(vpnIp iputil.VpnIp, f udp.EncWriter, lighthouseTriggered bool) {
+func (c *HandshakeManager) handleOutbound(vpnIP uint32, f EncWriter, lighthouseTriggered bool) {
-	hostinfo, err := c.pendingHostMap.QueryVpnIp(vpnIp)
+	index, err := c.pendingHostMap.GetIndexByVpnIP(vpnIP)
 	if err != nil {
 		return
 	}
-	hostinfo.Lock()
+	hostinfo, err := c.pendingHostMap.QueryVpnIP(vpnIP)
-	defer hostinfo.Unlock()
+	if err != nil {
 	// We may have raced to completion but now that we have a lock we should ensure we have not yet completed.
 	if hostinfo.HandshakeComplete {
 		// Ensure we don't exist in the pending hostmap anymore since we have completed
 		c.pendingHostMap.DeleteHostInfo(hostinfo)
 		return
 	}
-	// Check if we have a handshake packet to transmit yet
+	// If we haven't finished the handshake and we haven't hit max retries, query
-	if !hostinfo.HandshakeReady {
+	// lighthouse and then send the handshake packet again.
-		// There is currently a slight race in getOrHandshake due to ConnectionState not being part of the HostInfo directly
+	if hostinfo.HandshakeCounter < c.config.retries && !hostinfo.HandshakeComplete {
-		// Our hostinfo here was added to the pending map and the wheel may have ticked to us before we created ConnectionState
+		if hostinfo.remote == nil {
-		c.OutboundHandshakeTimer.Add(vpnIp, c.config.tryInterval*time.Duration(hostinfo.HandshakeCounter))
+			// We continue to query the lighthouse because hosts may
 			// come online during handshake retries. If the query
 			// succeeds (no error), add the lighthouse info to hostinfo
 			ips := c.lightHouse.QueryCache(vpnIP)
 			// If we have no responses yet, or only one IP (the host hadn't
 			// finished reporting its own IPs yet), then send another query to
 			// the LH.
 			if len(ips) <= 1 {
 				ips, err = c.lightHouse.Query(vpnIP, f)
 			}
 			if err == nil {
 				for _, ip := range ips {
 					hostinfo.AddRemote(ip)
 				}
 				hostinfo.ForcePromoteBest(c.mainHostMap.preferredRanges)
 			}
 		} else if lighthouseTriggered {
 			// We were triggered by a lighthouse HostQueryReply packet, but
 			// we have already picked a remote for this host (this can happen
 			// if we are configured with multiple lighthouses). So we can skip
 			// this trigger and let the timerwheel handle the rest of the
 			// process
 			return
 		}
-	// If we are out of time, clean up
+		hostinfo.HandshakeCounter++
-	if hostinfo.HandshakeCounter >= c.config.retries {
+
-		hostinfo.logger(c.l).WithField("udpAddrs", hostinfo.remotes.CopyAddrs(c.pendingHostMap.preferredRanges)).
+		// We want to use the "best" calculated ip for the first 5 attempts, after that we just blindly rotate through
 		// all the others until we can stand up a connection.
 		if hostinfo.HandshakeCounter > c.config.waitRotation {
 			hostinfo.rotateRemote()
 		}
 		// Ensure the handshake is ready to avoid a race in timer tick and stage 0 handshake generation
 		if hostinfo.HandshakeReady && hostinfo.remote != nil {
 			c.messageMetrics.Tx(handshake, NebulaMessageSubType(hostinfo.HandshakePacket[0][1]), 1)
 			err := c.outside.WriteTo(hostinfo.HandshakePacket[0], hostinfo.remote)
 			if err != nil {
 				hostinfo.logger().WithField("udpAddr", hostinfo.remote).
 					WithField("initiatorIndex", hostinfo.localIndexId).
 					WithField("remoteIndex", hostinfo.remoteIndexId).
 					WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 			WithField("durationNs", time.Since(hostinfo.handshakeStart).Nanoseconds()).
 			Info("Handshake timed out")
 		c.metricTimedOut.Inc(1)
 		c.pendingHostMap.DeleteHostInfo(hostinfo)
 		return
 	}
 	// We only care about a lighthouse trigger before the first handshake transmit attempt. This is a very specific
 	// optimization for a fast lighthouse reply
 	//TODO: it would feel better to do this once, anytime, as our delay increases over time
 	if lighthouseTriggered && hostinfo.HandshakeCounter > 0 {
 		// If we didn't return here a lighthouse could cause us to aggressively send handshakes
 		return
 	}
 	// Get a remotes object if we don't already have one.
 	// This is mainly to protect us as this should never be the case
 	if hostinfo.remotes == nil {
 		hostinfo.remotes = c.lightHouse.QueryCache(vpnIp)
 	}
 	//TODO: this will generate a load of queries for hosts with only 1 ip (i'm not using a lighthouse, static mapped)
 	if hostinfo.remotes.Len(c.pendingHostMap.preferredRanges) <= 1 {
 		// If we only have 1 remote it is highly likely our query raced with the other host registered within the lighthouse
 		// Our vpnIp here has a tunnel with a lighthouse but has yet to send a host update packet there so we only know about
 		// the learned public ip for them. Query again to short circuit the promotion counter
 		c.lightHouse.QueryServer(vpnIp, f)
 	}
 	// Send a the handshake to all known ips, stage 2 takes care of assigning the hostinfo.remote based on the first to reply
 	var sentTo []*udp.Addr
 	hostinfo.remotes.ForEach(c.pendingHostMap.preferredRanges, func(addr *udp.Addr, _ bool) {
 		c.messageMetrics.Tx(header.Handshake, header.MessageSubType(hostinfo.HandshakePacket[0][1]), 1)
 		err = c.outside.WriteTo(hostinfo.HandshakePacket[0], addr)
 		if err != nil {
 			hostinfo.logger(c.l).WithField("udpAddr", addr).
 				WithField("initiatorIndex", hostinfo.localIndexId).
 				WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 					WithError(err).Error("Failed to send handshake message")
 			} else {
-			sentTo = append(sentTo, addr)
+				//TODO: this log line is assuming a lot of stuff around the cached stage 0 handshake packet, we should
-		}
+				// keep the real packet struct around for logging purposes
-	})
+				hostinfo.logger().WithField("udpAddr", hostinfo.remote).
 	// Don't be too noisy or confusing if we fail to send a handshake - if we don't get through we'll eventually log a timeout
 	if len(sentTo) > 0 {
 		hostinfo.logger(c.l).WithField("udpAddrs", sentTo).
 					WithField("initiatorIndex", hostinfo.localIndexId).
 					WithField("remoteIndex", hostinfo.remoteIndexId).
 					WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).
 					Info("Handshake message sent")
 			}
 		}
-	// Increment the counter to increase our delay, linear backoff
+		// Readd to the timer wheel so we continue trying wait HandshakeTryInterval * counter longer for next try
 	hostinfo.HandshakeCounter++
 	// If a lighthouse triggered this attempt then we are still in the timer wheel and do not need to re-add
 		if !lighthouseTriggered {
-		//TODO: feel like we dupe handshake real fast in a tight loop, why?
+			//l.Infoln("Interval: ", HandshakeTryInterval*time.Duration(hostinfo.HandshakeCounter))
-		c.OutboundHandshakeTimer.Add(vpnIp, c.config.tryInterval*time.Duration(hostinfo.HandshakeCounter))
+			c.OutboundHandshakeTimer.Add(vpnIP, c.config.tryInterval*time.Duration(hostinfo.HandshakeCounter))
 		}
 	} else {
 		c.pendingHostMap.DeleteVpnIP(vpnIP)
 		c.pendingHostMap.DeleteIndex(index)
 	}
 }
-func (c *HandshakeManager) AddVpnIp(vpnIp iputil.VpnIp, init func(*HostInfo)) *HostInfo {
+func (c *HandshakeManager) NextInboundHandshakeTimerTick(now time.Time) {
-	hostinfo, created := c.pendingHostMap.AddVpnIp(vpnIp, init)
+	c.InboundHandshakeTimer.advance(now)
-
+	for {
-	if created {
+		ep := c.InboundHandshakeTimer.Purge()
-		c.OutboundHandshakeTimer.Add(vpnIp, c.config.tryInterval)
+		if ep == nil {
-		c.metricInitiated.Inc(1)
+			break
 		}
 		index := ep.(uint32)
 		vpnIP, err := c.pendingHostMap.GetVpnIPByIndex(index)
 		if err != nil {
 			continue
 		}
 		c.pendingHostMap.DeleteIndex(index)
 		c.pendingHostMap.DeleteVpnIP(vpnIP)
 	}
 }
 func (c *HandshakeManager) AddVpnIP(vpnIP uint32) *HostInfo {
 	hostinfo := c.pendingHostMap.AddVpnIP(vpnIP)
 	// We lock here and use an array to insert items to prevent locking the
 	// main receive thread for very long by waiting to add items to the pending map
 	c.OutboundHandshakeTimer.Add(vpnIP, c.config.tryInterval)
 	return hostinfo
 }
-var (
+func (c *HandshakeManager) DeleteVpnIP(vpnIP uint32) {
-	ErrExistingHostInfo    = errors.New("existing hostinfo")
+	//l.Debugln("Deleting pending vpn ip :", IntIp(vpnIP))
-	ErrAlreadySeen         = errors.New("already seen")
+	c.pendingHostMap.DeleteVpnIP(vpnIP)
 	ErrLocalIndexCollision = errors.New("local index collision")
 	ErrExistingHandshake   = errors.New("existing handshake")
 )
 // CheckAndComplete checks for any conflicts in the main and pending hostmap
 // before adding hostinfo to main. If err is nil, it was added. Otherwise err will be:
 //
 // ErrAlreadySeen if we already have an entry in the hostmap that has seen the
 // exact same handshake packet
 //
 // ErrExistingHostInfo if we already have an entry in the hostmap for this
 // VpnIp and the new handshake was older than the one we currently have
 //
 // ErrLocalIndexCollision if we already have an entry in the main or pending
 // hostmap for the hostinfo.localIndexId.
 func (c *HandshakeManager) CheckAndComplete(hostinfo *HostInfo, handshakePacket uint8, overwrite bool, f *Interface) (*HostInfo, error) {
 	c.pendingHostMap.Lock()
 	defer c.pendingHostMap.Unlock()
 	c.mainHostMap.Lock()
 	defer c.mainHostMap.Unlock()
 	// Check if we already have a tunnel with this vpn ip
 	existingHostInfo, found := c.mainHostMap.Hosts[hostinfo.vpnIp]
 	if found && existingHostInfo != nil {
 		// Is it just a delayed handshake packet?
 		if bytes.Equal(hostinfo.HandshakePacket[handshakePacket], existingHostInfo.HandshakePacket[handshakePacket]) {
 			return existingHostInfo, ErrAlreadySeen
 }
-		// Is this a newer handshake?
+func (c *HandshakeManager) AddIndex(index uint32, ci *ConnectionState) (*HostInfo, error) {
-		if existingHostInfo.lastHandshakeTime >= hostinfo.lastHandshakeTime {
+	hostinfo, err := c.pendingHostMap.AddIndex(index, ci)
 			return existingHostInfo, ErrExistingHostInfo
 		}
 		existingHostInfo.logger(c.l).Info("Taking new handshake")
 	}
 	existingIndex, found := c.mainHostMap.Indexes[hostinfo.localIndexId]
 	if found {
 		// We have a collision, but for a different hostinfo
 		return existingIndex, ErrLocalIndexCollision
 	}
 	existingIndex, found = c.pendingHostMap.Indexes[hostinfo.localIndexId]
 	if found && existingIndex != hostinfo {
 		// We have a collision, but for a different hostinfo
 		return existingIndex, ErrLocalIndexCollision
 	}
 	existingRemoteIndex, found := c.mainHostMap.RemoteIndexes[hostinfo.remoteIndexId]
 	if found && existingRemoteIndex != nil && existingRemoteIndex.vpnIp != hostinfo.vpnIp {
 		// We have a collision, but this can happen since we can't control
 		// the remote ID. Just log about the situation as a note.
 		hostinfo.logger(c.l).
 			WithField("remoteIndex", hostinfo.remoteIndexId).WithField("collision", existingRemoteIndex.vpnIp).
 			Info("New host shadows existing host remoteIndex")
 	}
 	// Check if we are also handshaking with this vpn ip
 	pendingHostInfo, found := c.pendingHostMap.Hosts[hostinfo.vpnIp]
 	if found && pendingHostInfo != nil {
 		if !overwrite {
 			// We won, let our pending handshake win
 			return pendingHostInfo, ErrExistingHandshake
 		}
 		// We lost, take this handshake and move any cached packets over so they get sent
 		pendingHostInfo.ConnectionState.queueLock.Lock()
 		hostinfo.packetStore = append(hostinfo.packetStore, pendingHostInfo.packetStore...)
 		c.pendingHostMap.unlockedDeleteHostInfo(pendingHostInfo)
 		pendingHostInfo.ConnectionState.queueLock.Unlock()
 		pendingHostInfo.logger(c.l).Info("Handshake race lost, replacing pending handshake with completed tunnel")
 	}
 	if existingHostInfo != nil {
 		// We are going to overwrite this entry, so remove the old references
 		delete(c.mainHostMap.Hosts, existingHostInfo.vpnIp)
 		delete(c.mainHostMap.Indexes, existingHostInfo.localIndexId)
 		delete(c.mainHostMap.RemoteIndexes, existingHostInfo.remoteIndexId)
 	}
 	c.mainHostMap.addHostInfo(hostinfo, f)
 	return existingHostInfo, nil
 }
 // Complete is a simpler version of CheckAndComplete when we already know we
 // won't have a localIndexId collision because we already have an entry in the
 // pendingHostMap
 func (c *HandshakeManager) Complete(hostinfo *HostInfo, f *Interface) {
 	c.pendingHostMap.Lock()
 	defer c.pendingHostMap.Unlock()
 	c.mainHostMap.Lock()
 	defer c.mainHostMap.Unlock()
 	existingHostInfo, found := c.mainHostMap.Hosts[hostinfo.vpnIp]
 	if found && existingHostInfo != nil {
 		// We are going to overwrite this entry, so remove the old references
 		delete(c.mainHostMap.Hosts, existingHostInfo.vpnIp)
 		delete(c.mainHostMap.Indexes, existingHostInfo.localIndexId)
 		delete(c.mainHostMap.RemoteIndexes, existingHostInfo.remoteIndexId)
 	}
 	existingRemoteIndex, found := c.mainHostMap.RemoteIndexes[hostinfo.remoteIndexId]
 	if found && existingRemoteIndex != nil {
 		// We have a collision, but this can happen since we can't control
 		// the remote ID. Just log about the situation as a note.
 		hostinfo.logger(c.l).
 			WithField("remoteIndex", hostinfo.remoteIndexId).WithField("collision", existingRemoteIndex.vpnIp).
 			Info("New host shadows existing host remoteIndex")
 	}
 	c.mainHostMap.addHostInfo(hostinfo, f)
 	c.pendingHostMap.unlockedDeleteHostInfo(hostinfo)
 }
 // AddIndexHostInfo generates a unique localIndexId for this HostInfo
 // and adds it to the pendingHostMap. Will error if we are unable to generate
 // a unique localIndexId
 func (c *HandshakeManager) AddIndexHostInfo(h *HostInfo) error {
 	c.pendingHostMap.Lock()
 	defer c.pendingHostMap.Unlock()
 	c.mainHostMap.RLock()
 	defer c.mainHostMap.RUnlock()
 	for i := 0; i < 32; i++ {
 		index, err := generateIndex(c.l)
 	if err != nil {
-			return err
+		return nil, fmt.Errorf("Issue adding index: %d", index)
 	}
 	//c.mainHostMap.AddIndexHostInfo(index, hostinfo)
 	c.InboundHandshakeTimer.Add(index, time.Second*10)
 	return hostinfo, nil
 }
-		_, inPending := c.pendingHostMap.Indexes[index]
+func (c *HandshakeManager) AddIndexHostInfo(index uint32, h *HostInfo) {
-		_, inMain := c.mainHostMap.Indexes[index]
+	c.pendingHostMap.AddIndexHostInfo(index, h)
 		if !inMain && !inPending {
 			h.localIndexId = index
 			c.pendingHostMap.Indexes[index] = h
 			return nil
 		}
 }
-	return errors.New("failed to generate unique localIndexId")
+func (c *HandshakeManager) DeleteIndex(index uint32) {
-}
+	//l.Debugln("Deleting pending index :", index)
-
+	c.pendingHostMap.DeleteIndex(index)
 func (c *HandshakeManager) addRemoteIndexHostInfo(index uint32, h *HostInfo) {
 	c.pendingHostMap.addRemoteIndexHostInfo(index, h)
 }
 func (c *HandshakeManager) DeleteHostInfo(hostinfo *HostInfo) {
 	//l.Debugln("Deleting pending hostinfo :", hostinfo)
 	c.pendingHostMap.DeleteHostInfo(hostinfo)
 }
 func (c *HandshakeManager) QueryIndex(index uint32) (*HostInfo, error) {
@@ -368,28 +239,18 @@ func (c *HandshakeManager) EmitStats() {
 // Utility functions below
-func generateIndex(l *logrus.Logger) (uint32, error) {
+func generateIndex() (uint32, error) {
 	b := make([]byte, 4)
 	// Let zero mean we don't know the ID, so don't generate zero
 	var index uint32
 	for index == 0 {
 	_, err := rand.Read(b)
 	if err != nil {
 		l.Errorln(err)
 		return 0, err
 	}
-		index = binary.BigEndian.Uint32(b)
+	index := binary.BigEndian.Uint32(b)
 	}
 	if l.Level >= logrus.DebugLevel {
 		l.WithField("index", index).
 			Debug("Generated index")
 	}
 	return index, nil
 }
 func hsTimeout(tries int, interval time.Duration) time.Duration {
 	return time.Duration(tries / 2 * ((2 * int(interval)) + (tries-1)*int(interval)))
 }
--- a/handshake_manager_test.go
+++ b/handshake_manager_test.go
@@ -5,103 +5,140 @@ import (
 	"testing"
 	"time"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/test"
 	"github.com/slackhq/nebula/udp"
 	"github.com/stretchr/testify/assert"
 )
-func Test_NewHandshakeManagerVpnIp(t *testing.T) {
+var indexes []uint32 = []uint32{1000, 2000, 3000, 4000}
-	l := test.NewLogger()
+
 //var ips []uint32 = []uint32{9000, 9999999, 3, 292394923}
 var ips []uint32
 func Test_NewHandshakeManagerIndex(t *testing.T) {
 	_, tuncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
-	ip := iputil.Ip2VpnIp(net.ParseIP("172.1.1.2"))
+	ips = []uint32{ip2int(net.ParseIP("172.1.1.2"))}
 	preferredRanges := []*net.IPNet{localrange}
 	mainHM := NewHostMap("test", vpncidr, preferredRanges)
 	blah := NewHandshakeManager(tuncidr, preferredRanges, mainHM, &LightHouse{}, &udpConn{}, defaultHandshakeConfig)
 	now := time.Now()
 	blah.NextInboundHandshakeTimerTick(now)
 	// Add four indexes
 	for _, v := range indexes {
 		blah.AddIndex(v, &ConnectionState{})
 	}
 	// Confirm they are in the pending index list
 	for _, v := range indexes {
 		assert.Contains(t, blah.pendingHostMap.Indexes, uint32(v))
 	}
 	// Adding something to pending should not affect the main hostmap
 	assert.Len(t, mainHM.Indexes, 0)
 	// Jump ahead 8 seconds
 	for i := 1; i <= DefaultHandshakeRetries; i++ {
 		next_tick := now.Add(DefaultHandshakeTryInterval * time.Duration(i))
 		blah.NextInboundHandshakeTimerTick(next_tick)
 	}
 	// Confirm they are still in the pending index list
 	for _, v := range indexes {
 		assert.Contains(t, blah.pendingHostMap.Indexes, uint32(v))
 	}
 	// Jump ahead 4 more seconds
 	next_tick := now.Add(12 * time.Second)
 	blah.NextInboundHandshakeTimerTick(next_tick)
 	// Confirm they have been removed
 	for _, v := range indexes {
 		assert.NotContains(t, blah.pendingHostMap.Indexes, uint32(v))
 	}
 }
 func Test_NewHandshakeManagerVpnIP(t *testing.T) {
 	_, tuncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
 	ips = []uint32{ip2int(net.ParseIP("172.1.1.2"))}
 	preferredRanges := []*net.IPNet{localrange}
 	mw := &mockEncWriter{}
-	mainHM := NewHostMap(l, "test", vpncidr, preferredRanges)
+	mainHM := NewHostMap("test", vpncidr, preferredRanges)
-	blah := NewHandshakeManager(l, tuncidr, preferredRanges, mainHM, &LightHouse{}, &udp.Conn{}, defaultHandshakeConfig)
+	blah := NewHandshakeManager(tuncidr, preferredRanges, mainHM, &LightHouse{}, &udpConn{}, defaultHandshakeConfig)
 	now := time.Now()
 	blah.NextOutboundHandshakeTimerTick(now, mw)
-	var initCalled bool
+	// Add four "IPs" - which are just uint32s
-	initFunc := func(*HostInfo) {
+	for _, v := range ips {
-		initCalled = true
+		blah.AddVpnIP(v)
 	}
 	i := blah.AddVpnIp(ip, initFunc)
 	assert.True(t, initCalled)
 	initCalled = false
 	i2 := blah.AddVpnIp(ip, initFunc)
 	assert.False(t, initCalled)
 	assert.Same(t, i, i2)
 	i.remotes = NewRemoteList()
 	i.HandshakeReady = true
 	// Adding something to pending should not affect the main hostmap
 	assert.Len(t, mainHM.Hosts, 0)
 	// Confirm they are in the pending index list
-	assert.Contains(t, blah.pendingHostMap.Hosts, ip)
+	for _, v := range ips {
 		assert.Contains(t, blah.pendingHostMap.Hosts, uint32(v))
 	}
-	// Jump ahead `HandshakeRetries` ticks, offset by one to get the sleep logic right
+	// Jump ahead `HandshakeRetries` ticks
-	for i := 1; i <= DefaultHandshakeRetries+1; i++ {
+	cumulative := time.Duration(0)
-		now = now.Add(time.Duration(i) * DefaultHandshakeTryInterval)
+	for i := 0; i <= DefaultHandshakeRetries+1; i++ {
-		blah.NextOutboundHandshakeTimerTick(now, mw)
+		cumulative += time.Duration(i)*DefaultHandshakeTryInterval + 1
 		next_tick := now.Add(cumulative)
 		//l.Infoln(next_tick)
 		blah.NextOutboundHandshakeTimerTick(next_tick, mw)
 	}
 	// Confirm they are still in the pending index list
-	assert.Contains(t, blah.pendingHostMap.Hosts, ip)
+	for _, v := range ips {
-
+		assert.Contains(t, blah.pendingHostMap.Hosts, uint32(v))
-	// Tick 1 more time, a minute will certainly flush it out
+	}
-	blah.NextOutboundHandshakeTimerTick(now.Add(time.Minute), mw)
+	// Jump ahead 1 more second
-
+	cumulative += time.Duration(DefaultHandshakeRetries+1) * DefaultHandshakeTryInterval
 	next_tick := now.Add(cumulative)
 	//l.Infoln(next_tick)
 	blah.NextOutboundHandshakeTimerTick(next_tick, mw)
 	// Confirm they have been removed
-	assert.NotContains(t, blah.pendingHostMap.Hosts, ip)
+	for _, v := range ips {
 		assert.NotContains(t, blah.pendingHostMap.Hosts, uint32(v))
 	}
 }
 func Test_NewHandshakeManagerTrigger(t *testing.T) {
 	l := test.NewLogger()
 	_, tuncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
-	ip := iputil.Ip2VpnIp(net.ParseIP("172.1.1.2"))
+	ip := ip2int(net.ParseIP("172.1.1.2"))
 	preferredRanges := []*net.IPNet{localrange}
 	mw := &mockEncWriter{}
-	mainHM := NewHostMap(l, "test", vpncidr, preferredRanges)
+	mainHM := NewHostMap("test", vpncidr, preferredRanges)
-	lh := &LightHouse{addrMap: make(map[iputil.VpnIp]*RemoteList), l: l}
+	lh := &LightHouse{}
-	blah := NewHandshakeManager(l, tuncidr, preferredRanges, mainHM, lh, &udp.Conn{}, defaultHandshakeConfig)
+	blah := NewHandshakeManager(tuncidr, preferredRanges, mainHM, lh, &udpConn{}, defaultHandshakeConfig)
 	now := time.Now()
 	blah.NextOutboundHandshakeTimerTick(now, mw)
 	assert.Equal(t, 0, testCountTimerWheelEntries(blah.OutboundHandshakeTimer))
-	hi := blah.AddVpnIp(ip, nil)
+	blah.AddVpnIP(ip)
 	hi.HandshakeReady = true
 	assert.Equal(t, 1, testCountTimerWheelEntries(blah.OutboundHandshakeTimer))
 	assert.Equal(t, 0, hi.HandshakeCounter, "Should not have attempted a handshake yet")
 	// Trigger the same method the channel will but, this should set our remotes pointer
 	blah.handleOutbound(ip, mw, true)
 	assert.Equal(t, 1, hi.HandshakeCounter, "Trigger should have done a handshake attempt")
 	assert.NotNil(t, hi.remotes, "Manager should have set my remotes pointer")
 	// Make sure the trigger doesn't double schedule the timer entry
 	assert.Equal(t, 1, testCountTimerWheelEntries(blah.OutboundHandshakeTimer))
-	uaddr := udp.NewAddrFromString("10.1.1.1:4242")
+	// Trigger the same method the channel will
 	hi.remotes.unlockedPrependV4(ip, NewIp4AndPort(uaddr.IP, uint32(uaddr.Port)))
 	// We now have remotes but only the first trigger should have pushed things forward
 	blah.handleOutbound(ip, mw, true)
-	assert.Equal(t, 1, hi.HandshakeCounter, "Trigger should have not done a handshake attempt")
+
 	// Make sure the trigger doesn't schedule another timer entry
 	assert.Equal(t, 1, testCountTimerWheelEntries(blah.OutboundHandshakeTimer))
 	hi := blah.pendingHostMap.Hosts[ip]
 	assert.Nil(t, hi.remote)
 	lh.addrMap = map[uint32][]udpAddr{
 		ip: {*NewUDPAddrFromString("10.1.1.1:4242")},
 	}
 	// This should trigger the hostmap to populate the hostinfo
 	blah.handleOutbound(ip, mw, true)
 	assert.NotNil(t, hi.remote)
 	assert.Equal(t, 1, testCountTimerWheelEntries(blah.OutboundHandshakeTimer))
 }
@@ -116,9 +153,92 @@ func testCountTimerWheelEntries(tw *SystemTimerWheel) (c int) {
 	return c
 }
 func Test_NewHandshakeManagerVpnIPcleanup(t *testing.T) {
 	_, tuncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
 	vpnIP = ip2int(net.ParseIP("172.1.1.2"))
 	preferredRanges := []*net.IPNet{localrange}
 	mw := &mockEncWriter{}
 	mainHM := NewHostMap("test", vpncidr, preferredRanges)
 	blah := NewHandshakeManager(tuncidr, preferredRanges, mainHM, &LightHouse{}, &udpConn{}, defaultHandshakeConfig)
 	now := time.Now()
 	blah.NextOutboundHandshakeTimerTick(now, mw)
 	hostinfo := blah.AddVpnIP(vpnIP)
 	// Pretned we have an index too
 	blah.AddIndexHostInfo(12341234, hostinfo)
 	assert.Contains(t, blah.pendingHostMap.Indexes, uint32(12341234))
 	// Jump ahead `HandshakeRetries` ticks. Eviction should happen in pending
 	// but not main hostmap
 	cumulative := time.Duration(0)
 	for i := 1; i <= DefaultHandshakeRetries+2; i++ {
 		cumulative += DefaultHandshakeTryInterval * time.Duration(i)
 		next_tick := now.Add(cumulative)
 		blah.NextOutboundHandshakeTimerTick(next_tick, mw)
 	}
 	/*
 		for i := 0; i <= HandshakeRetries+1; i++ {
 			next_tick := now.Add(cumulative)
 			//l.Infoln(next_tick)
 			blah.NextOutboundHandshakeTimerTick(next_tick)
 		}
 	*/
 	/*
 		for i := 0; i <= HandshakeRetries+1; i++ {
 			next_tick := now.Add(time.Duration(i) * time.Second)
 			blah.NextOutboundHandshakeTimerTick(next_tick)
 		}
 	*/
 	/*
 		cumulative += HandshakeTryInterval*time.Duration(HandshakeRetries) + 3
 		next_tick := now.Add(cumulative)
 		l.Infoln(cumulative, next_tick)
 		blah.NextOutboundHandshakeTimerTick(next_tick)
 	*/
 	assert.NotContains(t, blah.pendingHostMap.Hosts, uint32(vpnIP))
 	assert.NotContains(t, blah.pendingHostMap.Indexes, uint32(12341234))
 }
 func Test_NewHandshakeManagerIndexcleanup(t *testing.T) {
 	_, tuncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, vpncidr, _ := net.ParseCIDR("172.1.1.1/24")
 	_, localrange, _ := net.ParseCIDR("10.1.1.1/24")
 	preferredRanges := []*net.IPNet{localrange}
 	mainHM := NewHostMap("test", vpncidr, preferredRanges)
 	blah := NewHandshakeManager(tuncidr, preferredRanges, mainHM, &LightHouse{}, &udpConn{}, defaultHandshakeConfig)
 	now := time.Now()
 	blah.NextInboundHandshakeTimerTick(now)
 	hostinfo, _ := blah.AddIndex(12341234, &ConnectionState{})
 	// Pretned we have an index too
 	blah.pendingHostMap.AddVpnIPHostInfo(101010, hostinfo)
 	assert.Contains(t, blah.pendingHostMap.Hosts, uint32(101010))
 	for i := 1; i <= DefaultHandshakeRetries+2; i++ {
 		next_tick := now.Add(DefaultHandshakeTryInterval * time.Duration(i))
 		blah.NextInboundHandshakeTimerTick(next_tick)
 	}
 	next_tick := now.Add(DefaultHandshakeTryInterval*DefaultHandshakeRetries + 3)
 	blah.NextInboundHandshakeTimerTick(next_tick)
 	assert.NotContains(t, blah.pendingHostMap.Hosts, uint32(101010))
 	assert.NotContains(t, blah.pendingHostMap.Indexes, uint32(12341234))
 }
 type mockEncWriter struct {
 }
-func (mw *mockEncWriter) SendMessageToVpnIp(t header.MessageType, st header.MessageSubType, vpnIp iputil.VpnIp, p, nb, out []byte) {
+func (mw *mockEncWriter) SendMessageToVpnIp(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) {
 	return
 }
 func (mw *mockEncWriter) SendMessageToAll(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) {
 	return
 }
--- a/header/header.go
+++ b/header/header.go
@@ -1,4 +1,4 @@
-package header
+package nebula
 import (
 	"encoding/binary"
@@ -19,78 +19,83 @@ import (
 // |-----------------------------------------------------------------------|
 // |                               payload...                              |
 type m map[string]interface{}
 const (
 	Version   uint8 = 1
-	Len           = 16
+	HeaderLen       = 16
 )
-type MessageType uint8
+type NebulaMessageType uint8
-type MessageSubType uint8
+type NebulaMessageSubType uint8
 const (
-	Handshake   MessageType = 0
+	handshake   NebulaMessageType = 0
-	Message     MessageType = 1
+	message     NebulaMessageType = 1
-	RecvError   MessageType = 2
+	recvError   NebulaMessageType = 2
-	LightHouse  MessageType = 3
+	lightHouse  NebulaMessageType = 3
-	Test        MessageType = 4
+	test        NebulaMessageType = 4
-	CloseTunnel MessageType = 5
+	closeTunnel NebulaMessageType = 5
 	//TODO These are deprecated as of 06/12/2018 - NB
 	testRemote      NebulaMessageType = 6
 	testRemoteReply NebulaMessageType = 7
 )
-var typeMap = map[MessageType]string{
+var typeMap = map[NebulaMessageType]string{
-	Handshake:   "handshake",
+	handshake:   "handshake",
-	Message:     "message",
+	message:     "message",
-	RecvError:   "recvError",
+	recvError:   "recvError",
-	LightHouse:  "lightHouse",
+	lightHouse:  "lightHouse",
-	Test:        "test",
+	test:        "test",
-	CloseTunnel: "closeTunnel",
+	closeTunnel: "closeTunnel",
 	//TODO These are deprecated as of 06/12/2018 - NB
 	testRemote:      "testRemote",
 	testRemoteReply: "testRemoteReply",
 }
 const (
-	TestRequest MessageSubType = 0
+	subTypeNone NebulaMessageSubType = 0
-	TestReply   MessageSubType = 1
+	testRequest NebulaMessageSubType = 0
 	testReply   NebulaMessageSubType = 1
 )
-const (
+var eHeaderTooShort = errors.New("header is too short")
 	HandshakeIXPSK0 MessageSubType = 0
 	HandshakeXXPSK0 MessageSubType = 1
 )
-var ErrHeaderTooShort = errors.New("header is too short")
+var subTypeTestMap = map[NebulaMessageSubType]string{
-
+	testRequest: "testRequest",
-var subTypeTestMap = map[MessageSubType]string{
+	testReply:   "testReply",
 	TestRequest: "testRequest",
 	TestReply:   "testReply",
 }
-var subTypeNoneMap = map[MessageSubType]string{0: "none"}
+var subTypeNoneMap = map[NebulaMessageSubType]string{0: "none"}
-var subTypeMap = map[MessageType]*map[MessageSubType]string{
+var subTypeMap = map[NebulaMessageType]*map[NebulaMessageSubType]string{
-	Message:     &subTypeNoneMap,
+	message:     &subTypeNoneMap,
-	RecvError:   &subTypeNoneMap,
+	recvError:   &subTypeNoneMap,
-	LightHouse:  &subTypeNoneMap,
+	lightHouse:  &subTypeNoneMap,
-	Test:        &subTypeTestMap,
+	test:        &subTypeTestMap,
-	CloseTunnel: &subTypeNoneMap,
+	closeTunnel: &subTypeNoneMap,
-	Handshake: {
+	handshake: {
-		HandshakeIXPSK0: "ix_psk0",
+		handshakeIXPSK0: "ix_psk0",
 	},
 	//TODO: these are deprecated
 	testRemote:      &subTypeNoneMap,
 	testRemoteReply: &subTypeNoneMap,
 }
-type H struct {
+type Header struct {
 	Version        uint8
-	Type           MessageType
+	Type           NebulaMessageType
-	Subtype        MessageSubType
+	Subtype        NebulaMessageSubType
 	Reserved       uint16
 	RemoteIndex    uint32
 	MessageCounter uint64
 }
-// Encode uses the provided byte array to encode the provided header values into.
+// HeaderEncode uses the provided byte array to encode the provided header values into.
 // Byte array must be capped higher than HeaderLen or this will panic
-func Encode(b []byte, v uint8, t MessageType, st MessageSubType, ri uint32, c uint64) []byte {
+func HeaderEncode(b []byte, v uint8, t uint8, st uint8, ri uint32, c uint64) []byte {
-	b = b[:Len]
+	b = b[:HeaderLen]
-	b[0] = v<<4 | byte(t&0x0f)
+	b[0] = byte(v<<4 | (t & 0x0f))
 	b[1] = byte(st)
 	binary.BigEndian.PutUint16(b[2:4], 0)
 	binary.BigEndian.PutUint32(b[4:8], ri)
@@ -99,7 +104,7 @@ func Encode(b []byte, v uint8, t MessageType, st MessageSubType, ri uint32, c ui
 }
 // String creates a readable string representation of a header
-func (h *H) String() string {
+func (h *Header) String() string {
 	if h == nil {
 		return "<nil>"
 	}
@@ -108,7 +113,7 @@ func (h *H) String() string {
 }
 // MarshalJSON creates a json string representation of a header
-func (h *H) MarshalJSON() ([]byte, error) {
+func (h *Header) MarshalJSON() ([]byte, error) {
 	return json.Marshal(m{
 		"version":        h.Version,
 		"type":           h.TypeName(),
@@ -120,24 +125,24 @@ func (h *H) MarshalJSON() ([]byte, error) {
 }
 // Encode turns header into bytes
-func (h *H) Encode(b []byte) ([]byte, error) {
+func (h *Header) Encode(b []byte) ([]byte, error) {
 	if h == nil {
 		return nil, errors.New("nil header")
 	}
-	return Encode(b, h.Version, h.Type, h.Subtype, h.RemoteIndex, h.MessageCounter), nil
+	return HeaderEncode(b, h.Version, uint8(h.Type), uint8(h.Subtype), h.RemoteIndex, h.MessageCounter), nil
 }
 // Parse is a helper function to parses given bytes into new Header struct
-func (h *H) Parse(b []byte) error {
+func (h *Header) Parse(b []byte) error {
-	if len(b) < Len {
+	if len(b) < HeaderLen {
-		return ErrHeaderTooShort
+		return eHeaderTooShort
 	}
 	// get upper 4 bytes
 	h.Version = uint8((b[0] >> 4) & 0x0f)
 	// get lower 4 bytes
-	h.Type = MessageType(b[0] & 0x0f)
+	h.Type = NebulaMessageType(b[0] & 0x0f)
-	h.Subtype = MessageSubType(b[1])
+	h.Subtype = NebulaMessageSubType(b[1])
 	h.Reserved = binary.BigEndian.Uint16(b[2:4])
 	h.RemoteIndex = binary.BigEndian.Uint32(b[4:8])
 	h.MessageCounter = binary.BigEndian.Uint64(b[8:16])
@@ -145,12 +150,12 @@ func (h *H) Parse(b []byte) error {
 }
 // TypeName will transform the headers message type into a human string
-func (h *H) TypeName() string {
+func (h *Header) TypeName() string {
 	return TypeName(h.Type)
 }
 // TypeName will transform a nebula message type into a human string
-func TypeName(t MessageType) string {
+func TypeName(t NebulaMessageType) string {
 	if n, ok := typeMap[t]; ok {
 		return n
 	}
@@ -159,12 +164,12 @@ func TypeName(t MessageType) string {
 }
 // SubTypeName will transform the headers message sub type into a human string
-func (h *H) SubTypeName() string {
+func (h *Header) SubTypeName() string {
 	return SubTypeName(h.Type, h.Subtype)
 }
 // SubTypeName will transform a nebula message sub type into a human string
-func SubTypeName(t MessageType, s MessageSubType) string {
+func SubTypeName(t NebulaMessageType, s NebulaMessageSubType) string {
 	if n, ok := subTypeMap[t]; ok {
 		if x, ok := (*n)[s]; ok {
 			return x
@@ -175,8 +180,8 @@ func SubTypeName(t MessageType, s MessageSubType) string {
 }
 // NewHeader turns bytes into a header
-func NewHeader(b []byte) (*H, error) {
+func NewHeader(b []byte) (*Header, error) {
-	h := new(H)
+	h := new(Header)
 	if err := h.Parse(b); err != nil {
 		return nil, err
 	}
--- a/header/header_test.go
+++ b/header/header_test.go
@@ -1,115 +0,0 @@
 package header
 import (
 	"reflect"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 type headerTest struct {
 	expectedBytes []byte
 	*H
 }
 // 0001 0010 00010010
 var headerBigEndianTests = []headerTest{{
 	expectedBytes: []byte{0x54, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xa, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x9},
 	// 1010 0000
 	H: &H{
 		// 1111 1+2+4+8 = 15
 		Version:        5,
 		Type:           4,
 		Subtype:        0,
 		Reserved:       0,
 		RemoteIndex:    10,
 		MessageCounter: 9,
 	},
 },
 }
 func TestEncode(t *testing.T) {
 	for _, tt := range headerBigEndianTests {
 		b, err := tt.Encode(make([]byte, Len))
 		if err != nil {
 			t.Fatal(err)
 		}
 		assert.Equal(t, tt.expectedBytes, b)
 	}
 }
 func TestParse(t *testing.T) {
 	for _, tt := range headerBigEndianTests {
 		b := tt.expectedBytes
 		parsedHeader := &H{}
 		parsedHeader.Parse(b)
 		if !reflect.DeepEqual(tt.H, parsedHeader) {
 			t.Fatalf("got %#v; want %#v", parsedHeader, tt.H)
 		}
 	}
 }
 func TestTypeName(t *testing.T) {
 	assert.Equal(t, "test", TypeName(Test))
 	assert.Equal(t, "test", (&H{Type: Test}).TypeName())
 	assert.Equal(t, "unknown", TypeName(99))
 	assert.Equal(t, "unknown", (&H{Type: 99}).TypeName())
 }
 func TestSubTypeName(t *testing.T) {
 	assert.Equal(t, "testRequest", SubTypeName(Test, TestRequest))
 	assert.Equal(t, "testRequest", (&H{Type: Test, Subtype: TestRequest}).SubTypeName())
 	assert.Equal(t, "unknown", SubTypeName(99, TestRequest))
 	assert.Equal(t, "unknown", (&H{Type: 99, Subtype: TestRequest}).SubTypeName())
 	assert.Equal(t, "unknown", SubTypeName(Test, 99))
 	assert.Equal(t, "unknown", (&H{Type: Test, Subtype: 99}).SubTypeName())
 	assert.Equal(t, "none", SubTypeName(Message, 0))
 	assert.Equal(t, "none", (&H{Type: Message, Subtype: 0}).SubTypeName())
 }
 func TestTypeMap(t *testing.T) {
 	// Force people to document this stuff
 	assert.Equal(t, map[MessageType]string{
 		Handshake:   "handshake",
 		Message:     "message",
 		RecvError:   "recvError",
 		LightHouse:  "lightHouse",
 		Test:        "test",
 		CloseTunnel: "closeTunnel",
 	}, typeMap)
 	assert.Equal(t, map[MessageType]*map[MessageSubType]string{
 		Message:     &subTypeNoneMap,
 		RecvError:   &subTypeNoneMap,
 		LightHouse:  &subTypeNoneMap,
 		Test:        &subTypeTestMap,
 		CloseTunnel: &subTypeNoneMap,
 		Handshake: {
 			HandshakeIXPSK0: "ix_psk0",
 		},
 	}, subTypeMap)
 }
 func TestHeader_String(t *testing.T) {
 	assert.Equal(
 		t,
 		"ver=100 type=test subtype=testRequest reserved=0x63 remoteindex=98 messagecounter=97",
 		(&H{100, Test, TestRequest, 99, 98, 97}).String(),
 	)
 }
 func TestHeader_MarshalJSON(t *testing.T) {
 	b, err := (&H{100, Test, TestRequest, 99, 98, 97}).MarshalJSON()
 	assert.Nil(t, err)
 	assert.Equal(
 		t,
 		"{\"messageCounter\":97,\"remoteIndex\":98,\"reserved\":99,\"subType\":\"testRequest\",\"type\":\"test\",\"version\":100}",
 		string(b),
 	)
 }
--- a/header_test.go
+++ b/header_test.go
@@ -0,0 +1,119 @@
 package nebula
 import (
 	"reflect"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 type headerTest struct {
 	expectedBytes []byte
 	*Header
 }
 // 0001 0010 00010010
 var headerBigEndianTests = []headerTest{{
 	expectedBytes: []byte{0x54, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xa, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x9},
 	// 1010 0000
 	Header: &Header{
 		// 1111 1+2+4+8 = 15
 		Version:        5,
 		Type:           4,
 		Subtype:        0,
 		Reserved:       0,
 		RemoteIndex:    10,
 		MessageCounter: 9,
 	},
 },
 }
 func TestEncode(t *testing.T) {
 	for _, tt := range headerBigEndianTests {
 		b, err := tt.Encode(make([]byte, HeaderLen))
 		if err != nil {
 			t.Fatal(err)
 		}
 		assert.Equal(t, tt.expectedBytes, b)
 	}
 }
 func TestParse(t *testing.T) {
 	for _, tt := range headerBigEndianTests {
 		b := tt.expectedBytes
 		parsedHeader := &Header{}
 		parsedHeader.Parse(b)
 		if !reflect.DeepEqual(tt.Header, parsedHeader) {
 			t.Fatalf("got %#v; want %#v", parsedHeader, tt.Header)
 		}
 	}
 }
 func TestTypeName(t *testing.T) {
 	assert.Equal(t, "test", TypeName(test))
 	assert.Equal(t, "test", (&Header{Type: test}).TypeName())
 	assert.Equal(t, "unknown", TypeName(99))
 	assert.Equal(t, "unknown", (&Header{Type: 99}).TypeName())
 }
 func TestSubTypeName(t *testing.T) {
 	assert.Equal(t, "testRequest", SubTypeName(test, testRequest))
 	assert.Equal(t, "testRequest", (&Header{Type: test, Subtype: testRequest}).SubTypeName())
 	assert.Equal(t, "unknown", SubTypeName(99, testRequest))
 	assert.Equal(t, "unknown", (&Header{Type: 99, Subtype: testRequest}).SubTypeName())
 	assert.Equal(t, "unknown", SubTypeName(test, 99))
 	assert.Equal(t, "unknown", (&Header{Type: test, Subtype: 99}).SubTypeName())
 	assert.Equal(t, "none", SubTypeName(message, 0))
 	assert.Equal(t, "none", (&Header{Type: message, Subtype: 0}).SubTypeName())
 }
 func TestTypeMap(t *testing.T) {
 	// Force people to document this stuff
 	assert.Equal(t, map[NebulaMessageType]string{
 		handshake:       "handshake",
 		message:         "message",
 		recvError:       "recvError",
 		lightHouse:      "lightHouse",
 		test:            "test",
 		closeTunnel:     "closeTunnel",
 		testRemote:      "testRemote",
 		testRemoteReply: "testRemoteReply",
 	}, typeMap)
 	assert.Equal(t, map[NebulaMessageType]*map[NebulaMessageSubType]string{
 		message:     &subTypeNoneMap,
 		recvError:   &subTypeNoneMap,
 		lightHouse:  &subTypeNoneMap,
 		test:        &subTypeTestMap,
 		closeTunnel: &subTypeNoneMap,
 		handshake: {
 			handshakeIXPSK0: "ix_psk0",
 		},
 		testRemote:      &subTypeNoneMap,
 		testRemoteReply: &subTypeNoneMap,
 	}, subTypeMap)
 }
 func TestHeader_String(t *testing.T) {
 	assert.Equal(
 		t,
 		"ver=100 type=test subtype=testRequest reserved=0x63 remoteindex=98 messagecounter=97",
 		(&Header{100, test, testRequest, 99, 98, 97}).String(),
 	)
 }
 func TestHeader_MarshalJSON(t *testing.T) {
 	b, err := (&Header{100, test, testRequest, 99, 98, 97}).MarshalJSON()
 	assert.Nil(t, err)
 	assert.Equal(
 		t,
 		"{\"messageCounter\":97,\"remoteIndex\":98,\"reserved\":99,\"subType\":\"testRequest\",\"type\":\"test\",\"version\":100}",
 		string(b),
 	)
 }
--- a/hostmap.go
+++ b/hostmap.go
--- a/hostmap_test.go
+++ b/hostmap_test.go
@@ -1 +1,164 @@
 package nebula
 import (
 	"net"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 /*
 func TestHostInfoDestProbe(t *testing.T) {
 	a, _ := net.ResolveUDPAddr("udp", "1.0.0.1:22222")
 	d := NewHostInfoDest(a)
 	// 999 probes that all return should give a 100% success rate
 	for i := 0; i < 999; i++ {
 		meh := d.Probe()
 		d.ProbeReceived(meh)
 	}
 	assert.Equal(t, d.Grade(), float64(1))
 	// 999 probes of which only half return should give a 50% success rate
 	for i := 0; i < 999; i++ {
 		meh := d.Probe()
 		if i%2 == 0 {
 			d.ProbeReceived(meh)
 		}
 	}
 	assert.Equal(t, d.Grade(), float64(.5))
 	// 999 probes of which none return should give a 0% success rate
 	for i := 0; i < 999; i++ {
 		d.Probe()
 	}
 	assert.Equal(t, d.Grade(), float64(0))
 	// 999 probes of which only 1/4 return should give a 25% success rate
 	for i := 0; i < 999; i++ {
 		meh := d.Probe()
 		if i%4 == 0 {
 			d.ProbeReceived(meh)
 		}
 	}
 	assert.Equal(t, d.Grade(), float64(.25))
 	// 999 probes of which only half return and are duplicates should give a 50% success rate
 	for i := 0; i < 999; i++ {
 		meh := d.Probe()
 		if i%2 == 0 {
 			d.ProbeReceived(meh)
 			d.ProbeReceived(meh)
 		}
 	}
 	assert.Equal(t, d.Grade(), float64(.5))
 	// 999 probes of which only way old replies return should give a 0% success rate
 	for i := 0; i < 999; i++ {
 		meh := d.Probe()
 		d.ProbeReceived(meh - 101)
 	}
 	assert.Equal(t, d.Grade(), float64(0))
 }
 */
 func TestHostmap(t *testing.T) {
 	_, myNet, _ := net.ParseCIDR("10.128.0.0/16")
 	_, localToMe, _ := net.ParseCIDR("192.168.1.0/24")
 	myNets := []*net.IPNet{myNet}
 	preferredRanges := []*net.IPNet{localToMe}
 	m := NewHostMap("test", myNet, preferredRanges)
 	a := NewUDPAddrFromString("10.127.0.3:11111")
 	b := NewUDPAddrFromString("1.0.0.1:22222")
 	y := NewUDPAddrFromString("10.128.0.3:11111")
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), a)
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), b)
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), y)
 	info, _ := m.QueryVpnIP(ip2int(net.ParseIP("10.128.1.1")))
 	// There should be three remotes in the host map
 	assert.Equal(t, 3, len(info.Remotes))
 	// Adding an identical remote should not change the count
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), y)
 	assert.Equal(t, 3, len(info.Remotes))
 	// Adding a fresh remote should add one
 	y = NewUDPAddrFromString("10.18.0.3:11111")
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), y)
 	assert.Equal(t, 4, len(info.Remotes))
 	// Query and reference remote should get the first one (and not nil)
 	info, _ = m.QueryVpnIP(ip2int(net.ParseIP("10.128.1.1")))
 	assert.NotNil(t, info.remote)
 	// Promotion should ensure that the best remote is chosen (y)
 	info.ForcePromoteBest(myNets)
 	assert.True(t, myNet.Contains(udp2ip(info.remote)))
 }
 func TestHostmapdebug(t *testing.T) {
 	_, myNet, _ := net.ParseCIDR("10.128.0.0/16")
 	_, localToMe, _ := net.ParseCIDR("192.168.1.0/24")
 	preferredRanges := []*net.IPNet{localToMe}
 	m := NewHostMap("test", myNet, preferredRanges)
 	a := NewUDPAddrFromString("10.127.0.3:11111")
 	b := NewUDPAddrFromString("1.0.0.1:22222")
 	y := NewUDPAddrFromString("10.128.0.3:11111")
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), a)
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), b)
 	m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), y)
 	//t.Errorf("%s", m.DebugRemotes(1))
 }
 func TestHostMap_rotateRemote(t *testing.T) {
 	h := HostInfo{}
 	// 0 remotes, no panic
 	h.rotateRemote()
 	assert.Nil(t, h.remote)
 	// 1 remote, no panic
 	h.AddRemote(*NewUDPAddr(ip2int(net.IP{1, 1, 1, 1}), 0))
 	h.rotateRemote()
 	assert.Equal(t, udp2ipInt(h.remote), ip2int(net.IP{1, 1, 1, 1}))
 	h.AddRemote(*NewUDPAddr(ip2int(net.IP{1, 1, 1, 2}), 0))
 	h.AddRemote(*NewUDPAddr(ip2int(net.IP{1, 1, 1, 3}), 0))
 	h.AddRemote(*NewUDPAddr(ip2int(net.IP{1, 1, 1, 4}), 0))
 	// Rotate through those 3
 	h.rotateRemote()
 	assert.Equal(t, udp2ipInt(h.remote), ip2int(net.IP{1, 1, 1, 2}))
 	h.rotateRemote()
 	assert.Equal(t, udp2ipInt(h.remote), ip2int(net.IP{1, 1, 1, 3}))
 	h.rotateRemote()
 	assert.Equal(t, udp2ipInt(h.remote), ip2int(net.IP{1, 1, 1, 4}))
 	// Finally, we should start over
 	h.rotateRemote()
 	assert.Equal(t, udp2ipInt(h.remote), ip2int(net.IP{1, 1, 1, 1}))
 }
 func BenchmarkHostmappromote2(b *testing.B) {
 	for n := 0; n < b.N; n++ {
 		_, myNet, _ := net.ParseCIDR("10.128.0.0/16")
 		_, localToMe, _ := net.ParseCIDR("192.168.1.0/24")
 		preferredRanges := []*net.IPNet{localToMe}
 		m := NewHostMap("test", myNet, preferredRanges)
 		y := NewUDPAddrFromString("10.128.0.3:11111")
 		a := NewUDPAddrFromString("10.127.0.3:11111")
 		g := NewUDPAddrFromString("1.0.0.1:22222")
 		m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), a)
 		m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), g)
 		m.AddRemote(ip2int(net.ParseIP("10.128.1.1")), y)
 	}
 }
--- a/inside.go
+++ b/inside.go
@@ -5,16 +5,12 @@ import (
 	"github.com/flynn/noise"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/firewall"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 )
-func (f *Interface) consumeInsidePacket(packet []byte, fwPacket *firewall.Packet, nb, out []byte, q int, localCache firewall.ConntrackCache) {
+func (f *Interface) consumeInsidePacket(st NebulaMessageSubType, packet []byte, fwPacket *FirewallPacket, nb, out []byte) {
 	err := newPacket(packet, false, fwPacket)
 	if err != nil {
-		f.l.WithField("packet", packet).Debugf("Error while validating outbound packet: %s", err)
+		l.WithField("packet", packet).Debugf("Error while validating outbound packet: %s", err)
 		return
 	}
@@ -24,7 +20,7 @@ func (f *Interface) consumeInsidePacket(packet []byte, fwPacket *firewall.Packet
 	}
 	// Ignore packets from self to self
-	if fwPacket.RemoteIP == f.myVpnIp {
+	if fwPacket.RemoteIP == f.lightHouse.myIp {
 		return
 	}
@@ -35,8 +31,8 @@ func (f *Interface) consumeInsidePacket(packet []byte, fwPacket *firewall.Packet
 	hostinfo := f.getOrHandshake(fwPacket.RemoteIP)
 	if hostinfo == nil {
-		if f.l.Level >= logrus.DebugLevel {
+		if l.Level >= logrus.DebugLevel {
-			f.l.WithField("vpnIp", fwPacket.RemoteIP).
+			l.WithField("vpnIp", IntIp(fwPacket.RemoteIP)).
 				WithField("fwPacket", fwPacket).
 				Debugln("dropping outbound packet, vpnIp not in our CIDR or in unsafe routes")
 		}
@@ -49,19 +45,22 @@ func (f *Interface) consumeInsidePacket(packet []byte, fwPacket *firewall.Packet
 		// the packet queue.
 		ci.queueLock.Lock()
 		if !ci.ready {
-			hostinfo.cachePacket(f.l, header.Message, 0, packet, f.sendMessageNow, f.cachedPacketMetrics)
+			hostinfo.cachePacket(message, st, packet, f.sendMessageNow)
 			ci.queueLock.Unlock()
 			return
 		}
 		ci.queueLock.Unlock()
 	}
-	dropReason := f.firewall.Drop(packet, *fwPacket, false, hostinfo, f.caPool, localCache)
+	dropReason := f.firewall.Drop(packet, *fwPacket, false, hostinfo, trustedCAs)
 	if dropReason == nil {
-		f.sendNoMetrics(header.Message, 0, ci, hostinfo, hostinfo.remote, packet, nb, out, q)
+		mc := f.sendNoMetrics(message, st, ci, hostinfo, hostinfo.remote, packet, nb, out)
 		if f.lightHouse != nil && mc%5000 == 0 {
 			f.lightHouse.Query(fwPacket.RemoteIP, f)
 		}
-	} else if f.l.Level >= logrus.DebugLevel {
+	} else if l.Level >= logrus.DebugLevel {
-		hostinfo.logger(f.l).
+		hostinfo.logger().
 			WithField("fwPacket", fwPacket).
 			WithField("reason", dropReason).
 			Debugln("dropping outbound packet")
@@ -69,37 +68,37 @@ func (f *Interface) consumeInsidePacket(packet []byte, fwPacket *firewall.Packet
 }
 // getOrHandshake returns nil if the vpnIp is not routable
-func (f *Interface) getOrHandshake(vpnIp iputil.VpnIp) *HostInfo {
+func (f *Interface) getOrHandshake(vpnIp uint32) *HostInfo {
-	//TODO: we can find contains without converting back to bytes
+	if f.hostMap.vpnCIDR.Contains(int2ip(vpnIp)) == false {
-	if f.hostMap.vpnCIDR.Contains(vpnIp.ToIP()) == false {
+		vpnIp = f.hostMap.queryUnsafeRoute(vpnIp)
 		vpnIp = f.inside.RouteFor(vpnIp)
 		if vpnIp == 0 {
 			return nil
 		}
 	}
-	hostinfo, err := f.hostMap.PromoteBestQueryVpnIp(vpnIp, f)
+	hostinfo, err := f.hostMap.PromoteBestQueryVpnIP(vpnIp, f)
 	//if err != nil || hostinfo.ConnectionState == nil {
 	if err != nil {
-		hostinfo, err = f.handshakeManager.pendingHostMap.QueryVpnIp(vpnIp)
+		hostinfo, err = f.handshakeManager.pendingHostMap.QueryVpnIP(vpnIp)
 		if err != nil {
-			hostinfo = f.handshakeManager.AddVpnIp(vpnIp, f.initHostInfo)
+			hostinfo = f.handshakeManager.AddVpnIP(vpnIp)
 		}
 	}
 	ci := hostinfo.ConnectionState
 	if ci != nil && ci.eKey != nil && ci.ready {
 		return hostinfo
 	}
-	// Handshake is not ready, we need to grab the lock now before we start the handshake process
+	if ci == nil {
-	hostinfo.Lock()
+		// if we don't have a connection state, then send a handshake initiation
-	defer hostinfo.Unlock()
+		ci = f.newConnectionState(true, noise.HandshakeIX, []byte{}, 0)
-
+		// FIXME: Maybe make XX selectable, but probably not since psk makes it nearly pointless for us.
-	// Double check, now that we have the lock
+		//ci = f.newConnectionState(true, noise.HandshakeXX, []byte{}, 0)
-	ci = hostinfo.ConnectionState
+		hostinfo.ConnectionState = ci
-	if ci != nil && ci.eKey != nil && ci.ready {
+	} else if ci.eKey == nil {
-		return hostinfo
+		// if we don't have any state at all, create it
 	}
 	// If we have already created the handshake packet, we don't want to call the function at all.
@@ -121,40 +120,37 @@ func (f *Interface) getOrHandshake(vpnIp iputil.VpnIp) *HostInfo {
 	return hostinfo
 }
-// initHostInfo is the init function to pass to (*HandshakeManager).AddVpnIP that
+func (f *Interface) sendMessageNow(t NebulaMessageType, st NebulaMessageSubType, hostInfo *HostInfo, p, nb, out []byte) {
-// will create the initial Noise ConnectionState
+	fp := &FirewallPacket{}
 func (f *Interface) initHostInfo(hostinfo *HostInfo) {
 	hostinfo.ConnectionState = f.newConnectionState(f.l, true, noise.HandshakeIX, []byte{}, 0)
 }
 func (f *Interface) sendMessageNow(t header.MessageType, st header.MessageSubType, hostInfo *HostInfo, p, nb, out []byte) {
 	fp := &firewall.Packet{}
 	err := newPacket(p, false, fp)
 	if err != nil {
-		f.l.Warnf("error while parsing outgoing packet for firewall check; %v", err)
+		l.Warnf("error while parsing outgoing packet for firewall check; %v", err)
 		return
 	}
 	// check if packet is in outbound fw rules
-	dropReason := f.firewall.Drop(p, *fp, false, hostInfo, f.caPool, nil)
+	dropReason := f.firewall.Drop(p, *fp, false, hostInfo, trustedCAs)
 	if dropReason != nil {
-		if f.l.Level >= logrus.DebugLevel {
+		if l.Level >= logrus.DebugLevel {
-			f.l.WithField("fwPacket", fp).
+			l.WithField("fwPacket", fp).
 				WithField("reason", dropReason).
 				Debugln("dropping cached packet")
 		}
 		return
 	}
-	f.sendNoMetrics(header.Message, st, hostInfo.ConnectionState, hostInfo, hostInfo.remote, p, nb, out, 0)
+	f.sendNoMetrics(message, st, hostInfo.ConnectionState, hostInfo, hostInfo.remote, p, nb, out)
 	if f.lightHouse != nil && *hostInfo.ConnectionState.messageCounter%5000 == 0 {
 		f.lightHouse.Query(fp.RemoteIP, f)
 	}
 }
 // SendMessageToVpnIp handles real ip:port lookup and sends to the current best known address for vpnIp
-func (f *Interface) SendMessageToVpnIp(t header.MessageType, st header.MessageSubType, vpnIp iputil.VpnIp, p, nb, out []byte) {
+func (f *Interface) SendMessageToVpnIp(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) {
 	hostInfo := f.getOrHandshake(vpnIp)
 	if hostInfo == nil {
-		if f.l.Level >= logrus.DebugLevel {
+		if l.Level >= logrus.DebugLevel {
-			f.l.WithField("vpnIp", vpnIp).
+			l.WithField("vpnIp", IntIp(vpnIp)).
 				Debugln("dropping SendMessageToVpnIp, vpnIp not in our CIDR or in unsafe routes")
 		}
 		return
@@ -165,7 +161,7 @@ func (f *Interface) SendMessageToVpnIp(t header.MessageType, st header.MessageSu
 		// the packet queue.
 		hostInfo.ConnectionState.queueLock.Lock()
 		if !hostInfo.ConnectionState.ready {
-			hostInfo.cachePacket(f.l, t, st, p, f.sendMessageToVpnIp, f.cachedPacketMetrics)
+			hostInfo.cachePacket(t, st, p, f.sendMessageToVpnIp)
 			hostInfo.ConnectionState.queueLock.Unlock()
 			return
 		}
@@ -176,62 +172,83 @@ func (f *Interface) SendMessageToVpnIp(t header.MessageType, st header.MessageSu
 	return
 }
-func (f *Interface) sendMessageToVpnIp(t header.MessageType, st header.MessageSubType, hostInfo *HostInfo, p, nb, out []byte) {
+func (f *Interface) sendMessageToVpnIp(t NebulaMessageType, st NebulaMessageSubType, hostInfo *HostInfo, p, nb, out []byte) {
 	f.send(t, st, hostInfo.ConnectionState, hostInfo, hostInfo.remote, p, nb, out)
 }
-func (f *Interface) send(t header.MessageType, st header.MessageSubType, ci *ConnectionState, hostinfo *HostInfo, remote *udp.Addr, p, nb, out []byte) {
+// SendMessageToAll handles real ip:port lookup and sends to all known addresses for vpnIp
-	f.messageMetrics.Tx(t, st, 1)
+func (f *Interface) SendMessageToAll(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte) {
-	f.sendNoMetrics(t, st, ci, hostinfo, remote, p, nb, out, 0)
+	hostInfo := f.getOrHandshake(vpnIp)
 	if hostInfo == nil {
 		if l.Level >= logrus.DebugLevel {
 			l.WithField("vpnIp", IntIp(vpnIp)).
 				Debugln("dropping SendMessageToAll, vpnIp not in our CIDR or in unsafe routes")
 		}
 		return
 	}
-func (f *Interface) sendNoMetrics(t header.MessageType, st header.MessageSubType, ci *ConnectionState, hostinfo *HostInfo, remote *udp.Addr, p, nb, out []byte, q int) {
+	if hostInfo.ConnectionState.ready == false {
 		// Because we might be sending stored packets, lock here to stop new things going to
 		// the packet queue.
 		hostInfo.ConnectionState.queueLock.Lock()
 		if !hostInfo.ConnectionState.ready {
 			hostInfo.cachePacket(t, st, p, f.sendMessageToAll)
 			hostInfo.ConnectionState.queueLock.Unlock()
 			return
 		}
 		hostInfo.ConnectionState.queueLock.Unlock()
 	}
 	f.sendMessageToAll(t, st, hostInfo, p, nb, out)
 	return
 }
 func (f *Interface) sendMessageToAll(t NebulaMessageType, st NebulaMessageSubType, hostInfo *HostInfo, p, nb, b []byte) {
 	for _, r := range hostInfo.RemoteUDPAddrs() {
 		f.send(t, st, hostInfo.ConnectionState, hostInfo, r, p, nb, b)
 	}
 }
 func (f *Interface) send(t NebulaMessageType, st NebulaMessageSubType, ci *ConnectionState, hostinfo *HostInfo, remote *udpAddr, p, nb, out []byte) {
 	f.messageMetrics.Tx(t, st, 1)
 	f.sendNoMetrics(t, st, ci, hostinfo, remote, p, nb, out)
 }
 func (f *Interface) sendNoMetrics(t NebulaMessageType, st NebulaMessageSubType, ci *ConnectionState, hostinfo *HostInfo, remote *udpAddr, p, nb, out []byte) uint64 {
 	if ci.eKey == nil {
 		//TODO: log warning
-		return
+		return 0
 	}
 	var err error
 	//TODO: enable if we do more than 1 tun queue
 	//ci.writeLock.Lock()
-	c := atomic.AddUint64(&ci.atomicMessageCounter, 1)
+	c := atomic.AddUint64(ci.messageCounter, 1)
 	//l.WithField("trace", string(debug.Stack())).Error("out Header ", &Header{Version, t, st, 0, hostinfo.remoteIndexId, c}, p)
-	out = header.Encode(out, header.Version, t, st, hostinfo.remoteIndexId, c)
+	out = HeaderEncode(out, Version, uint8(t), uint8(st), hostinfo.remoteIndexId, c)
-	f.connectionManager.Out(hostinfo.vpnIp)
+	f.connectionManager.Out(hostinfo.hostId)
 	// Query our LH if we haven't since the last time we've been rebound, this will cause the remote to punch against
 	// all our IPs and enable a faster roaming.
 	if t != header.CloseTunnel && hostinfo.lastRebindCount != f.rebindCount {
 		//NOTE: there is an update hole if a tunnel isn't used and exactly 256 rebinds occur before the tunnel is
 		// finally used again. This tunnel would eventually be torn down and recreated if this action didn't help.
 		f.lightHouse.QueryServer(hostinfo.vpnIp, f)
 		hostinfo.lastRebindCount = f.rebindCount
 		if f.l.Level >= logrus.DebugLevel {
 			f.l.WithField("vpnIp", hostinfo.vpnIp).Debug("Lighthouse update triggered for punch due to rebind counter")
 		}
 	}
 	out, err = ci.eKey.EncryptDanger(out, out, p, c, nb)
 	//TODO: see above note on lock
 	//ci.writeLock.Unlock()
 	if err != nil {
-		hostinfo.logger(f.l).WithError(err).
+		hostinfo.logger().WithError(err).
 			WithField("udpAddr", remote).WithField("counter", c).
-			WithField("attemptedCounter", c).
+			WithField("attemptedCounter", ci.messageCounter).
 			Error("Failed to encrypt outgoing packet")
-		return
+		return c
 	}
-	err = f.writers[q].WriteTo(out, remote)
+	err = f.outside.WriteTo(out, remote)
 	if err != nil {
-		hostinfo.logger(f.l).WithError(err).
+		hostinfo.logger().WithError(err).
 			WithField("udpAddr", remote).Error("Failed to write outgoing packet")
 	}
-	return
+	return c
 }
-func isMulticast(ip iputil.VpnIp) bool {
+func isMulticast(ip uint32) bool {
 	// Class D multicast
 	if (((ip >> 24) & 0xff) & 0xf0) == 0xe0 {
 		return true
--- a/interface.go
+++ b/interface.go
@@ -1,30 +1,31 @@
 package nebula
 import (
 	"context"
 	"errors"
 	"io"
 	"net"
 	"os"
 	"runtime"
 	"sync/atomic"
 	"time"
 	"github.com/rcrowley/go-metrics"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/firewall"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/overlay"
 	"github.com/slackhq/nebula/udp"
 )
 const mtu = 9001
 type Inside interface {
 	io.ReadWriteCloser
 	Activate() error
 	CidrNet() *net.IPNet
 	DeviceName() string
 	WriteRaw([]byte) error
 }
 type InsideHandler func(hostInfo *HostInfo, ci *ConnectionState, addr *udpAddr, header *Header, out []byte, packet []byte, fp *FirewallPacket, nb []byte)
 type InterfaceConfig struct {
 	HostMap                 *HostMap
-	Outside                 *udp.Conn
+	Outside                 *udpConn
-	Inside                  overlay.Device
+	Inside                  Inside
 	certState               *CertState
 	Cipher                  string
 	Firewall                *Firewall
@@ -35,20 +36,17 @@ type InterfaceConfig struct {
 	pendingDeletionInterval int
 	DropLocalBroadcast      bool
 	DropMulticast           bool
-	routines                int
+	UDPBatchSize            int
 	udpQueues               int
 	tunQueues               int
 	MessageMetrics          *MessageMetrics
 	version                 string
 	caPool                  *cert.NebulaCAPool
 	disconnectInvalid       bool
 	ConntrackCacheTimeout time.Duration
 	l                     *logrus.Logger
 }
 type Interface struct {
 	hostMap            *HostMap
-	outside            *udp.Conn
+	outside            *udpConn
-	inside             overlay.Device
+	inside             Inside
 	certState          *CertState
 	cipher             string
 	firewall           *Firewall
@@ -57,32 +55,22 @@ type Interface struct {
 	serveDns           bool
 	createTime         time.Time
 	lightHouse         *LightHouse
-	localBroadcast     iputil.VpnIp
+	localBroadcast     uint32
 	myVpnIp            iputil.VpnIp
 	dropLocalBroadcast bool
 	dropMulticast      bool
-	routines           int
+	udpBatchSize       int
-	caPool             *cert.NebulaCAPool
+	udpQueues          int
-	disconnectInvalid  bool
+	tunQueues          int
 	closed             int32
 	// rebindCount is used to decide if an active tunnel should trigger a punch notification through a lighthouse
 	rebindCount int8
 	version            string
-	conntrackCacheTimeout time.Duration
+	// handlers are mapped by protocol version -> type -> subtype
-
+	handlers map[uint8]map[NebulaMessageType]map[NebulaMessageSubType]InsideHandler
 	writers []*udp.Conn
 	readers []io.ReadWriteCloser
 	metricHandshakes metrics.Histogram
 	messageMetrics   *MessageMetrics
 	cachedPacketMetrics *cachedPacketMetrics
 	l *logrus.Logger
 }
-func NewInterface(ctx context.Context, c *InterfaceConfig) (*Interface, error) {
+func NewInterface(c *InterfaceConfig) (*Interface, error) {
 	if c.Outside == nil {
 		return nil, errors.New("no outside connection")
 	}
@@ -96,7 +84,6 @@ func NewInterface(ctx context.Context, c *InterfaceConfig) (*Interface, error) {
 		return nil, errors.New("no firewall rules")
 	}
 	myVpnIp := iputil.Ip2VpnIp(c.certState.certificate.Details.Ips[0].IP)
 	ifce := &Interface{
 		hostMap:            c.HostMap,
 		outside:            c.Outside,
@@ -108,150 +95,136 @@ func NewInterface(ctx context.Context, c *InterfaceConfig) (*Interface, error) {
 		handshakeManager:   c.HandshakeManager,
 		createTime:         time.Now(),
 		lightHouse:         c.lightHouse,
-		localBroadcast:     myVpnIp | ^iputil.Ip2VpnIp(c.certState.certificate.Details.Ips[0].Mask),
+		localBroadcast:     ip2int(c.certState.certificate.Details.Ips[0].IP) | ^ip2int(c.certState.certificate.Details.Ips[0].Mask),
 		dropLocalBroadcast: c.DropLocalBroadcast,
 		dropMulticast:      c.DropMulticast,
-		routines:           c.routines,
+		udpBatchSize:       c.UDPBatchSize,
 		udpQueues:          c.udpQueues,
 		tunQueues:          c.tunQueues,
 		version:            c.version,
 		writers:            make([]*udp.Conn, c.routines),
 		readers:            make([]io.ReadWriteCloser, c.routines),
 		caPool:             c.caPool,
 		disconnectInvalid:  c.disconnectInvalid,
 		myVpnIp:            myVpnIp,
 		conntrackCacheTimeout: c.ConntrackCacheTimeout,
 		metricHandshakes: metrics.GetOrRegisterHistogram("handshakes", nil, metrics.NewExpDecaySample(1028, 0.015)),
 		messageMetrics:   c.MessageMetrics,
 		cachedPacketMetrics: &cachedPacketMetrics{
 			sent:    metrics.GetOrRegisterCounter("hostinfo.cached_packets.sent", nil),
 			dropped: metrics.GetOrRegisterCounter("hostinfo.cached_packets.dropped", nil),
 		},
 		l: c.l,
 	}
-	ifce.connectionManager = newConnectionManager(ctx, c.l, ifce, c.checkInterval, c.pendingDeletionInterval)
+	ifce.connectionManager = newConnectionManager(ifce, c.checkInterval, c.pendingDeletionInterval)
 	ifce.handlers = map[uint8]map[NebulaMessageType]map[NebulaMessageSubType]InsideHandler{
 		Version: {
 			handshake: {
 				handshakeIXPSK0: ifce.rxMetrics(ifce.handleHandshakePacket),
 			},
 			message: {
 				subTypeNone: ifce.encrypted(ifce.handleMessagePacket),
 			},
 			recvError: {
 				subTypeNone: ifce.rxMetrics(ifce.handleRecvErrorPacket),
 			},
 			lightHouse: {
 				subTypeNone: ifce.rxMetrics(ifce.encrypted(ifce.handleLighthousePacket)),
 			},
 			test: {
 				testRequest: ifce.rxMetrics(ifce.encrypted(ifce.handleTestPacket)),
 				testReply:   ifce.rxMetrics(ifce.encrypted(ifce.handleTestPacket)),
 			},
 			closeTunnel: {
 				subTypeNone: ifce.rxMetrics(ifce.encrypted(ifce.handleCloseTunnelPacket)),
 			},
 		},
 	}
 	return ifce, nil
 }
-// activate creates the interface on the host. After the interface is created, any
+func (f *Interface) run() {
 // other services that want to bind listeners to its IP may do so successfully. However,
 // the interface isn't going to process anything until run() is called.
 func (f *Interface) activate() {
 	// actually turn on tun dev
 	if err := f.inside.Activate(); err != nil {
 		l.Fatal(err)
 	}
 	addr, err := f.outside.LocalAddr()
 	if err != nil {
-		f.l.WithError(err).Error("Failed to get udp listen address")
+		l.WithError(err).Error("Failed to get udp listen address")
 	}
-	f.l.WithField("interface", f.inside.Name()).WithField("network", f.inside.Cidr().String()).
+	l.WithField("interface", f.inside.DeviceName()).WithField("network", f.inside.CidrNet().String()).
 		WithField("build", f.version).WithField("udpAddr", addr).
 		Info("Nebula interface is active")
 	metrics.GetOrRegisterGauge("routines", nil).Update(int64(f.routines))
 	// Prepare n tun queues
 	var reader io.ReadWriteCloser = f.inside
 	for i := 0; i < f.routines; i++ {
 		if i > 0 {
 			reader, err = f.inside.NewMultiQueueReader()
 			if err != nil {
 				f.l.Fatal(err)
 			}
 		}
 		f.readers[i] = reader
 	}
 	if err := f.inside.Activate(); err != nil {
 		f.inside.Close()
 		f.l.Fatal(err)
 	}
 }
 func (f *Interface) run() {
 	// Launch n queues to read packets from udp
-	for i := 0; i < f.routines; i++ {
+	for i := 0; i < f.udpQueues; i++ {
 		go f.listenOut(i)
 	}
 	// Launch n queues to read packets from tun dev
-	for i := 0; i < f.routines; i++ {
+	for i := 0; i < f.tunQueues; i++ {
-		go f.listenIn(f.readers[i], i)
+		go f.listenIn(i)
 	}
 }
 func (f *Interface) listenOut(i int) {
-	runtime.LockOSThread()
+	//TODO: handle error
 	addr, err := f.outside.LocalAddr()
 	if err != nil {
 		l.WithError(err).Error("failed to discover udp listening address")
 	}
-	var li *udp.Conn
+	var li *udpConn
 	// TODO clean this up with a coherent interface for each outside connection
 	if i > 0 {
-		li = f.writers[i]
+		//TODO: handle error
 		li, err = NewListener(udp2ip(addr).String(), int(addr.Port), i > 0)
 		if err != nil {
 			l.WithError(err).Error("failed to make a new udp listener")
 		}
 	} else {
 		li = f.outside
 	}
-	lhh := f.lightHouse.NewRequestHandler()
+	li.ListenOut(f)
 	conntrackCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
 	li.ListenOut(f.readOutsidePackets, lhh.HandleRequest, conntrackCache, i)
 }
-func (f *Interface) listenIn(reader io.ReadWriteCloser, i int) {
+func (f *Interface) listenIn(i int) {
 	runtime.LockOSThread()
 	packet := make([]byte, mtu)
 	out := make([]byte, mtu)
-	fwPacket := &firewall.Packet{}
+	fwPacket := &FirewallPacket{}
 	nb := make([]byte, 12, 12)
 	conntrackCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
 	for {
-		n, err := reader.Read(packet)
+		n, err := f.inside.Read(packet)
 		if err != nil {
-			if errors.Is(err, os.ErrClosed) && atomic.LoadInt32(&f.closed) != 0 {
+			l.WithError(err).Error("Error while reading outbound packet")
 				return
 			}
 			f.l.WithError(err).Error("Error while reading outbound packet")
 			// This only seems to happen when something fatal happens to the fd, so exit.
 			os.Exit(2)
 		}
-		f.consumeInsidePacket(packet[:n], fwPacket, nb, out, i, conntrackCache.Get(f.l))
+		f.consumeInsidePacket(subTypeNone, packet[:n], fwPacket, nb, out)
 	}
 }
-func (f *Interface) RegisterConfigChangeCallbacks(c *config.C) {
+func (f *Interface) RegisterConfigChangeCallbacks(c *Config) {
 	c.RegisterReloadCallback(f.reloadCA)
 	c.RegisterReloadCallback(f.reloadCertKey)
 	c.RegisterReloadCallback(f.reloadFirewall)
-	for _, udpConn := range f.writers {
+	c.RegisterReloadCallback(f.outside.reloadConfig)
 		c.RegisterReloadCallback(udpConn.ReloadConfig)
 	}
 }
-func (f *Interface) reloadCA(c *config.C) {
+func (f *Interface) reloadCA(c *Config) {
 	// reload and check regardless
 	// todo: need mutex?
-	newCAs, err := loadCAFromConfig(f.l, c)
+	newCAs, err := loadCAFromConfig(c)
 	if err != nil {
-		f.l.WithError(err).Error("Could not refresh trusted CA certificates")
+		l.WithError(err).Error("Could not refresh trusted CA certificates")
 		return
 	}
-	f.caPool = newCAs
+	trustedCAs = newCAs
-	f.l.WithField("fingerprints", f.caPool.GetFingerprints()).Info("Trusted CA certificates refreshed")
+	l.WithField("fingerprints", trustedCAs.GetFingerprints()).Info("Trusted CA certificates refreshed")
 }
-func (f *Interface) reloadCertKey(c *config.C) {
+func (f *Interface) reloadCertKey(c *Config) {
 	// reload and check in all cases
 	cs, err := NewCertStateFromConfig(c)
 	if err != nil {
-		f.l.WithError(err).Error("Could not refresh client cert")
+		l.WithError(err).Error("Could not refresh client cert")
 		return
 	}
@@ -259,24 +232,24 @@ func (f *Interface) reloadCertKey(c *config.C) {
 	oldIPs := f.certState.certificate.Details.Ips
 	newIPs := cs.certificate.Details.Ips
 	if len(oldIPs) > 0 && len(newIPs) > 0 && oldIPs[0].String() != newIPs[0].String() {
-		f.l.WithField("new_ip", newIPs[0]).WithField("old_ip", oldIPs[0]).Error("IP in new cert was different from old")
+		l.WithField("new_ip", newIPs[0]).WithField("old_ip", oldIPs[0]).Error("IP in new cert was different from old")
 		return
 	}
 	f.certState = cs
-	f.l.WithField("cert", cs.certificate).Info("Client cert refreshed from disk")
+	l.WithField("cert", cs.certificate).Info("Client cert refreshed from disk")
 }
-func (f *Interface) reloadFirewall(c *config.C) {
+func (f *Interface) reloadFirewall(c *Config) {
 	//TODO: need to trigger/detect if the certificate changed too
 	if c.HasChanged("firewall") == false {
-		f.l.Debug("No firewall config change detected")
+		l.Debug("No firewall config change detected")
 		return
 	}
-	fw, err := NewFirewallFromConfig(f.l, f.certState.certificate, c)
+	fw, err := NewFirewallFromConfig(f.certState.certificate, c)
 	if err != nil {
-		f.l.WithError(err).Error("Error while creating firewall during reload")
+		l.WithError(err).Error("Error while creating firewall during reload")
 		return
 	}
@@ -289,7 +262,7 @@ func (f *Interface) reloadFirewall(c *config.C) {
 	// If rulesVersion is back to zero, we have wrapped all the way around. Be
 	// safe and just reset conntrack in this case.
 	if fw.rulesVersion == 0 {
-		f.l.WithField("firewallHash", fw.GetRuleHash()).
+		l.WithField("firewallHash", fw.GetRuleHash()).
 			WithField("oldFirewallHash", oldFw.GetRuleHash()).
 			WithField("rulesVersion", fw.rulesVersion).
 			Warn("firewall rulesVersion has overflowed, resetting conntrack")
@@ -300,33 +273,16 @@ func (f *Interface) reloadFirewall(c *config.C) {
 	f.firewall = fw
 	oldFw.Destroy()
-	f.l.WithField("firewallHash", fw.GetRuleHash()).
+	l.WithField("firewallHash", fw.GetRuleHash()).
 		WithField("oldFirewallHash", oldFw.GetRuleHash()).
 		WithField("rulesVersion", fw.rulesVersion).
 		Info("New firewall has been installed")
 }
-func (f *Interface) emitStats(ctx context.Context, i time.Duration) {
+func (f *Interface) emitStats(i time.Duration) {
 	ticker := time.NewTicker(i)
-	defer ticker.Stop()
+	for range ticker.C {
 	udpStats := udp.NewUDPStatsEmitter(f.writers)
 	for {
 		select {
 		case <-ctx.Done():
 			return
 		case <-ticker.C:
 		f.firewall.EmitStats()
 		f.handshakeManager.EmitStats()
 			udpStats()
 	}
 }
 }
 func (f *Interface) Close() error {
 	atomic.StoreInt32(&f.closed, 1)
 	// Release the tun device
 	return f.inside.Close()
 }
--- a/iputil/util.go
+++ b/iputil/util.go
@@ -1,66 +0,0 @@
 package iputil
 import (
 	"encoding/binary"
 	"fmt"
 	"net"
 )
 type VpnIp uint32
 const maxIPv4StringLen = len("255.255.255.255")
 func (ip VpnIp) String() string {
 	b := make([]byte, maxIPv4StringLen)
 	n := ubtoa(b, 0, byte(ip>>24))
 	b[n] = '.'
 	n++
 	n += ubtoa(b, n, byte(ip>>16&255))
 	b[n] = '.'
 	n++
 	n += ubtoa(b, n, byte(ip>>8&255))
 	b[n] = '.'
 	n++
 	n += ubtoa(b, n, byte(ip&255))
 	return string(b[:n])
 }
 func (ip VpnIp) MarshalJSON() ([]byte, error) {
 	return []byte(fmt.Sprintf("\"%s\"", ip.String())), nil
 }
 func (ip VpnIp) ToIP() net.IP {
 	nip := make(net.IP, 4)
 	binary.BigEndian.PutUint32(nip, uint32(ip))
 	return nip
 }
 func Ip2VpnIp(ip []byte) VpnIp {
 	if len(ip) == 16 {
 		return VpnIp(binary.BigEndian.Uint32(ip[12:16]))
 	}
 	return VpnIp(binary.BigEndian.Uint32(ip))
 }
 // ubtoa encodes the string form of the integer v to dst[start:] and
 // returns the number of bytes written to dst. The caller must ensure
 // that dst has sufficient length.
 func ubtoa(dst []byte, start int, v byte) int {
 	if v < 10 {
 		dst[start] = v + '0'
 		return 1
 	} else if v < 100 {
 		dst[start+1] = v%10 + '0'
 		dst[start] = v/10 + '0'
 		return 2
 	}
 	dst[start+2] = v%10 + '0'
 	dst[start+1] = (v/10)%10 + '0'
 	dst[start] = v/100 + '0'
 	return 3
 }
--- a/iputil/util_test.go
+++ b/iputil/util_test.go
@@ -1,17 +0,0 @@
 package iputil
 import (
 	"net"
 	"testing"
 	"github.com/stretchr/testify/assert"
 )
 func TestVpnIp_String(t *testing.T) {
 	assert.Equal(t, "255.255.255.255", Ip2VpnIp(net.ParseIP("255.255.255.255")).String())
 	assert.Equal(t, "1.255.255.255", Ip2VpnIp(net.ParseIP("1.255.255.255")).String())
 	assert.Equal(t, "1.1.255.255", Ip2VpnIp(net.ParseIP("1.1.255.255")).String())
 	assert.Equal(t, "1.1.1.255", Ip2VpnIp(net.ParseIP("1.1.1.255")).String())
 	assert.Equal(t, "1.1.1.1", Ip2VpnIp(net.ParseIP("1.1.1.1")).String())
 	assert.Equal(t, "0.0.0.0", Ip2VpnIp(net.ParseIP("0.0.0.0")).String())
 }
--- a/lighthouse.go
+++ b/lighthouse.go
@@ -1,9 +1,6 @@
 package nebula
 import (
 	"context"
 	"encoding/binary"
 	"errors"
 	"fmt"
 	"net"
 	"sync"
@@ -11,71 +8,61 @@ import (
 	"github.com/golang/protobuf/proto"
 	"github.com/rcrowley/go-metrics"
-	"github.com/sirupsen/logrus"
+	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 )
 //TODO: if a lighthouse doesn't have an answer, clients AGGRESSIVELY REQUERY.. why? handshake manager and/or getOrHandshake?
 //TODO: nodes are roaming lighthouses, this is bad. How are they learning?
 var ErrHostNotKnown = errors.New("host not known")
 type LightHouse struct {
 	//TODO: We need a timer wheel to kick out vpnIps that haven't reported in a long time
 	sync.RWMutex //Because we concurrently read and write to our maps
 	amLighthouse bool
-	myVpnIp      iputil.VpnIp
+	myIp         uint32
-	myVpnZeros   iputil.VpnIp
+	punchConn    *udpConn
 	punchConn    *udp.Conn
 	// Local cache of answers from light houses
-	// map of vpn Ip to answers
+	addrMap map[uint32][]udpAddr
 	addrMap map[iputil.VpnIp]*RemoteList
 	// filters remote addresses allowed for each host
 	// - When we are a lighthouse, this filters what addresses we store and
 	// respond with.
 	// - When we are not a lighthouse, this filters which addresses we accept
 	// from lighthouses.
-	remoteAllowList *RemoteAllowList
+	remoteAllowList *AllowList
 	// filters local addresses that we advertise to lighthouses
-	localAllowList *LocalAllowList
+	localAllowList *AllowList
 	// used to trigger the HandshakeManager when we receive HostQueryReply
-	handshakeTrigger chan<- iputil.VpnIp
+	handshakeTrigger chan<- uint32
 	// staticList exists to avoid having a bool in each addrMap entry
 	// since static should be rare
-	staticList  map[iputil.VpnIp]struct{}
+	staticList  map[uint32]struct{}
-	lighthouses map[iputil.VpnIp]struct{}
+	lighthouses map[uint32]struct{}
 	interval    int
-	nebulaPort  uint32 // 32 bits because protobuf does not have a uint16
+	nebulaPort  int
 	punchBack   bool
 	punchDelay  time.Duration
 	metrics           *MessageMetrics
 	metricHolepunchTx metrics.Counter
 	l                 *logrus.Logger
 }
-func NewLightHouse(l *logrus.Logger, amLighthouse bool, myVpnIpNet *net.IPNet, ips []iputil.VpnIp, interval int, nebulaPort uint32, pc *udp.Conn, punchBack bool, punchDelay time.Duration, metricsEnabled bool) *LightHouse {
+type EncWriter interface {
-	ones, _ := myVpnIpNet.Mask.Size()
+	SendMessageToVpnIp(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte)
 	SendMessageToAll(t NebulaMessageType, st NebulaMessageSubType, vpnIp uint32, p, nb, out []byte)
 }
 func NewLightHouse(amLighthouse bool, myIp uint32, ips []uint32, interval int, nebulaPort int, pc *udpConn, punchBack bool, punchDelay time.Duration, metricsEnabled bool) *LightHouse {
 	h := LightHouse{
 		amLighthouse: amLighthouse,
-		myVpnIp:      iputil.Ip2VpnIp(myVpnIpNet.IP),
+		myIp:         myIp,
-		myVpnZeros:   iputil.VpnIp(32 - ones),
+		addrMap:      make(map[uint32][]udpAddr),
 		addrMap:      make(map[iputil.VpnIp]*RemoteList),
 		nebulaPort:   nebulaPort,
-		lighthouses:  make(map[iputil.VpnIp]struct{}),
+		lighthouses:  make(map[uint32]struct{}),
-		staticList:   make(map[iputil.VpnIp]struct{}),
+		staticList:   make(map[uint32]struct{}),
 		interval:     interval,
 		punchConn:    pc,
 		punchBack:    punchBack,
 		punchDelay:   punchDelay,
 		l:            l,
 	}
 	if metricsEnabled {
@@ -93,14 +80,14 @@ func NewLightHouse(l *logrus.Logger, amLighthouse bool, myVpnIpNet *net.IPNet, i
 	return &h
 }
-func (lh *LightHouse) SetRemoteAllowList(allowList *RemoteAllowList) {
+func (lh *LightHouse) SetRemoteAllowList(allowList *AllowList) {
 	lh.Lock()
 	defer lh.Unlock()
 	lh.remoteAllowList = allowList
 }
-func (lh *LightHouse) SetLocalAllowList(allowList *LocalAllowList) {
+func (lh *LightHouse) SetLocalAllowList(allowList *AllowList) {
 	lh.Lock()
 	defer lh.Unlock()
@@ -110,39 +97,32 @@ func (lh *LightHouse) SetLocalAllowList(allowList *LocalAllowList) {
 func (lh *LightHouse) ValidateLHStaticEntries() error {
 	for lhIP, _ := range lh.lighthouses {
 		if _, ok := lh.staticList[lhIP]; !ok {
-			return fmt.Errorf("Lighthouse %s does not have a static_host_map entry", lhIP)
+			return fmt.Errorf("Lighthouse %s does not have a static_host_map entry", IntIp(lhIP))
 		}
 	}
 	return nil
 }
-func (lh *LightHouse) Query(ip iputil.VpnIp, f udp.EncWriter) *RemoteList {
+func (lh *LightHouse) Query(ip uint32, f EncWriter) ([]udpAddr, error) {
 	if !lh.IsLighthouseIP(ip) {
 		lh.QueryServer(ip, f)
 	}
 	lh.RLock()
 	if v, ok := lh.addrMap[ip]; ok {
 		lh.RUnlock()
-		return v
+		return v, nil
 	}
 	lh.RUnlock()
-	return nil
+	return nil, fmt.Errorf("host %s not known, queries sent to lighthouses", IntIp(ip))
 }
 // This is asynchronous so no reply should be expected
-func (lh *LightHouse) QueryServer(ip iputil.VpnIp, f udp.EncWriter) {
+func (lh *LightHouse) QueryServer(ip uint32, f EncWriter) {
-	if lh.amLighthouse {
+	if !lh.amLighthouse {
 		return
 	}
 	if lh.IsLighthouseIP(ip) {
 		return
 	}
 		// Send a query to the lighthouses and hope for the best next time
 		query, err := proto.Marshal(NewLhQueryByInt(ip))
 		if err != nil {
-		lh.l.WithError(err).WithField("vpnIp", ip).Error("Failed to marshal lighthouse query payload")
+			l.WithError(err).WithField("vpnIp", IntIp(ip)).Error("Failed to marshal lighthouse query payload")
 			return
 		}
@@ -150,504 +130,313 @@ func (lh *LightHouse) QueryServer(ip iputil.VpnIp, f udp.EncWriter) {
 		nb := make([]byte, 12, 12)
 		out := make([]byte, mtu)
 		for n := range lh.lighthouses {
-		f.SendMessageToVpnIp(header.LightHouse, 0, n, query, nb, out)
+			f.SendMessageToVpnIp(lightHouse, 0, n, query, nb, out)
 		}
 	}
 }
-func (lh *LightHouse) QueryCache(ip iputil.VpnIp) *RemoteList {
+// Query our local lighthouse cached results
 func (lh *LightHouse) QueryCache(ip uint32) []udpAddr {
 	lh.RLock()
 	if v, ok := lh.addrMap[ip]; ok {
 		lh.RUnlock()
 		return v
 	}
 	lh.RUnlock()
-
+	return nil
 	lh.Lock()
 	defer lh.Unlock()
 	// Add an entry if we don't already have one
 	return lh.unlockedGetRemoteList(ip)
 }
-// queryAndPrepMessage is a lock helper on RemoteList, assisting the caller to build a lighthouse message containing
+func (lh *LightHouse) DeleteVpnIP(vpnIP uint32) {
 // details from the remote list. It looks for a hit in the addrMap and a hit in the RemoteList under the owner vpnIp
 // If one is found then f() is called with proper locking, f() must return result of n.MarshalTo()
 func (lh *LightHouse) queryAndPrepMessage(vpnIp iputil.VpnIp, f func(*cache) (int, error)) (bool, int, error) {
 	lh.RLock()
 	// Do we have an entry in the main cache?
 	if v, ok := lh.addrMap[vpnIp]; ok {
 		// Swap lh lock for remote list lock
 		v.RLock()
 		defer v.RUnlock()
 		lh.RUnlock()
 		// vpnIp should also be the owner here since we are a lighthouse.
 		c := v.cache[vpnIp]
 		// Make sure we have
 		if c != nil {
 			n, err := f(c)
 			return true, n, err
 		}
 		return false, 0, nil
 	}
 	lh.RUnlock()
 	return false, 0, nil
 }
 func (lh *LightHouse) DeleteVpnIp(vpnIp iputil.VpnIp) {
 	// First we check the static mapping
 	// and do nothing if it is there
-	if _, ok := lh.staticList[vpnIp]; ok {
+	if _, ok := lh.staticList[vpnIP]; ok {
 		return
 	}
 	lh.Lock()
 	//l.Debugln(lh.addrMap)
-	delete(lh.addrMap, vpnIp)
+	delete(lh.addrMap, vpnIP)
-
+	l.Debugf("deleting %s from lighthouse.", IntIp(vpnIP))
 	if lh.l.Level >= logrus.DebugLevel {
 		lh.l.Debugf("deleting %s from lighthouse.", vpnIp)
 	}
 	lh.Unlock()
 }
-// AddStaticRemote adds a static host entry for vpnIp as ourselves as the owner
+func (lh *LightHouse) AddRemote(vpnIP uint32, toIp *udpAddr, static bool) {
-// We are the owner because we don't want a lighthouse server to advertise for static hosts it was configured with
+	// First we check if the sender thinks this is a static entry
-// And we don't want a lighthouse query reply to interfere with our learned cache if we are a client
+	// and do nothing if it is not, but should be considered static
-func (lh *LightHouse) AddStaticRemote(vpnIp iputil.VpnIp, toAddr *udp.Addr) {
+	if static == false {
 		if _, ok := lh.staticList[vpnIP]; ok {
 			return
 		}
 	}
 	lh.Lock()
-	am := lh.unlockedGetRemoteList(vpnIp)
+	for _, v := range lh.addrMap[vpnIP] {
-	am.Lock()
+		if v.Equals(toIp) {
 	defer am.Unlock()
 			lh.Unlock()
 	if ipv4 := toAddr.IP.To4(); ipv4 != nil {
 		to := NewIp4AndPort(ipv4, uint32(toAddr.Port))
 		if !lh.unlockedShouldAddV4(vpnIp, to) {
 			return
 		}
 		am.unlockedPrependV4(lh.myVpnIp, to)
 	} else {
 		to := NewIp6AndPort(toAddr.IP, uint32(toAddr.Port))
 		if !lh.unlockedShouldAddV6(vpnIp, to) {
 			return
 		}
 		am.unlockedPrependV6(lh.myVpnIp, to)
 	}
-	// Mark it as static
+	allow := lh.remoteAllowList.Allow(udp2ipInt(toIp))
-	lh.staticList[vpnIp] = struct{}{}
+	l.WithField("remoteIp", toIp).WithField("allow", allow).Debug("remoteAllowList.Allow")
 }
 // unlockedGetRemoteList assumes you have the lh lock
 func (lh *LightHouse) unlockedGetRemoteList(vpnIp iputil.VpnIp) *RemoteList {
 	am, ok := lh.addrMap[vpnIp]
 	if !ok {
 		am = NewRemoteList()
 		lh.addrMap[vpnIp] = am
 	}
 	return am
 }
 // unlockedShouldAddV4 checks if to is allowed by our allow list
 func (lh *LightHouse) unlockedShouldAddV4(vpnIp iputil.VpnIp, to *Ip4AndPort) bool {
 	allow := lh.remoteAllowList.AllowIpV4(vpnIp, iputil.VpnIp(to.Ip))
 	if lh.l.Level >= logrus.TraceLevel {
 		lh.l.WithField("remoteIp", vpnIp).WithField("allow", allow).Trace("remoteAllowList.Allow")
 	}
 	if !allow || ipMaskContains(lh.myVpnIp, lh.myVpnZeros, iputil.VpnIp(to.Ip)) {
 		return false
 	}
 	return true
 }
 // unlockedShouldAddV6 checks if to is allowed by our allow list
 func (lh *LightHouse) unlockedShouldAddV6(vpnIp iputil.VpnIp, to *Ip6AndPort) bool {
 	allow := lh.remoteAllowList.AllowIpV6(vpnIp, to.Hi, to.Lo)
 	if lh.l.Level >= logrus.TraceLevel {
 		lh.l.WithField("remoteIp", lhIp6ToIp(to)).WithField("allow", allow).Trace("remoteAllowList.Allow")
 	}
 	// We don't check our vpn network here because nebula does not support ipv6 on the inside
 	if !allow {
-		return false
+		return
 	}
-	return true
+	//l.Debugf("Adding reply of %s as %s\n", IntIp(vpnIP), toIp)
 	if static {
 		lh.staticList[vpnIP] = struct{}{}
 	}
 	lh.addrMap[vpnIP] = append(lh.addrMap[vpnIP], *toIp)
 	lh.Unlock()
 }
-func lhIp6ToIp(v *Ip6AndPort) net.IP {
+func (lh *LightHouse) AddRemoteAndReset(vpnIP uint32, toIp *udpAddr) {
-	ip := make(net.IP, 16)
+	if lh.amLighthouse {
-	binary.BigEndian.PutUint64(ip[:8], v.Hi)
+		lh.DeleteVpnIP(vpnIP)
-	binary.BigEndian.PutUint64(ip[8:], v.Lo)
+		lh.AddRemote(vpnIP, toIp, false)
 	return ip
 	}
-func (lh *LightHouse) IsLighthouseIP(vpnIp iputil.VpnIp) bool {
+}
-	if _, ok := lh.lighthouses[vpnIp]; ok {
+
 func (lh *LightHouse) IsLighthouseIP(vpnIP uint32) bool {
 	if _, ok := lh.lighthouses[vpnIP]; ok {
 		return true
 	}
 	return false
 }
-func NewLhQueryByInt(VpnIp iputil.VpnIp) *NebulaMeta {
+// Quick generators for protobuf
 func NewLhQueryByIpString(VpnIp string) *NebulaMeta {
 	return NewLhQueryByInt(ip2int(net.ParseIP(VpnIp)))
 }
 func NewLhQueryByInt(VpnIp uint32) *NebulaMeta {
 	return &NebulaMeta{
 		Type: NebulaMeta_HostQuery,
 		Details: &NebulaMetaDetails{
-			VpnIp: uint32(VpnIp),
+			VpnIp: VpnIp,
 		},
 	}
 }
-func NewIp4AndPort(ip net.IP, port uint32) *Ip4AndPort {
+func NewLhWhoami() *NebulaMeta {
-	ipp := Ip4AndPort{Port: port}
+	return &NebulaMeta{
-	ipp.Ip = uint32(iputil.Ip2VpnIp(ip))
+		Type:    NebulaMeta_HostWhoami,
-	return &ipp
+		Details: &NebulaMetaDetails{},
 }
 func NewIp6AndPort(ip net.IP, port uint32) *Ip6AndPort {
 	return &Ip6AndPort{
 		Hi:   binary.BigEndian.Uint64(ip[:8]),
 		Lo:   binary.BigEndian.Uint64(ip[8:]),
 		Port: port,
 	}
 }
-func NewUDPAddrFromLH4(ipp *Ip4AndPort) *udp.Addr {
+// End Quick generators for protobuf
-	ip := ipp.Ip
+
-	return udp.NewAddr(
+func NewIpAndPortFromUDPAddr(addr udpAddr) *IpAndPort {
-		net.IPv4(byte(ip&0xff000000>>24), byte(ip&0x00ff0000>>16), byte(ip&0x0000ff00>>8), byte(ip&0x000000ff)),
+	return &IpAndPort{Ip: udp2ipInt(&addr), Port: uint32(addr.Port)}
 		uint16(ipp.Port),
 	)
 }
-func NewUDPAddrFromLH6(ipp *Ip6AndPort) *udp.Addr {
+func NewIpAndPortsFromNetIps(ips []udpAddr) *[]*IpAndPort {
-	return udp.NewAddr(lhIp6ToIp(ipp), uint16(ipp.Port))
+	var iap []*IpAndPort
 	for _, e := range ips {
 		// Only add IPs that aren't my VPN/tun IP
 		iap = append(iap, NewIpAndPortFromUDPAddr(e))
 	}
 	return &iap
 }
-func (lh *LightHouse) LhUpdateWorker(ctx context.Context, f udp.EncWriter) {
+func (lh *LightHouse) LhUpdateWorker(f EncWriter) {
 	if lh.amLighthouse || lh.interval == 0 {
 		return
 	}
 	clockSource := time.NewTicker(time.Second * time.Duration(lh.interval))
 	defer clockSource.Stop()
 	for {
-		lh.SendUpdate(f)
+		ipp := []*IpAndPort{}
 		select {
 		case <-ctx.Done():
 			return
 		case <-clockSource.C:
 			continue
 		}
 	}
 }
 func (lh *LightHouse) SendUpdate(f udp.EncWriter) {
 	var v4 []*Ip4AndPort
 	var v6 []*Ip6AndPort
 	for _, e := range *localIps(lh.l, lh.localAllowList) {
 		if ip4 := e.To4(); ip4 != nil && ipMaskContains(lh.myVpnIp, lh.myVpnZeros, iputil.Ip2VpnIp(ip4)) {
 			continue
 		}
 		for _, e := range *localIps(lh.localAllowList) {
 			// Only add IPs that aren't my VPN/tun IP
-		if ip := e.To4(); ip != nil {
+			if ip2int(e) != lh.myIp {
-			v4 = append(v4, NewIp4AndPort(e, lh.nebulaPort))
+				ipp = append(ipp, &IpAndPort{Ip: ip2int(e), Port: uint32(lh.nebulaPort)})
-		} else {
+				//fmt.Println(e)
 			v6 = append(v6, NewIp6AndPort(e, lh.nebulaPort))
 			}
 		}
 		m := &NebulaMeta{
 			Type: NebulaMeta_HostUpdateNotification,
 			Details: &NebulaMetaDetails{
-			VpnIp:       uint32(lh.myVpnIp),
+				VpnIp:      lh.myIp,
-			Ip4AndPorts: v4,
+				IpAndPorts: ipp,
 			Ip6AndPorts: v6,
 			},
 		}
 		lh.metricTx(NebulaMeta_HostUpdateNotification, int64(len(lh.lighthouses)))
 		nb := make([]byte, 12, 12)
 		out := make([]byte, mtu)
-
+		for vpnIp := range lh.lighthouses {
 			mm, err := proto.Marshal(m)
 			if err != nil {
-		lh.l.WithError(err).Error("Error while marshaling for lighthouse update")
+				l.Debugf("Invalid marshal to update")
 		return
 			}
 			//l.Error("LIGHTHOUSE PACKET SEND", mm)
 			f.SendMessageToVpnIp(lightHouse, 0, vpnIp, mm, nb, out)
-	for vpnIp := range lh.lighthouses {
+		}
-		f.SendMessageToVpnIp(header.LightHouse, 0, vpnIp, mm, nb, out)
+		time.Sleep(time.Second * time.Duration(lh.interval))
 	}
 }
-type LightHouseHandler struct {
+func (lh *LightHouse) HandleRequest(rAddr *udpAddr, vpnIp uint32, p []byte, c *cert.NebulaCertificate, f EncWriter) {
-	lh   *LightHouse
+	n := &NebulaMeta{}
-	nb   []byte
+	err := proto.Unmarshal(p, n)
 	out  []byte
 	pb   []byte
 	meta *NebulaMeta
 	l    *logrus.Logger
 }
 func (lh *LightHouse) NewRequestHandler() *LightHouseHandler {
 	lhh := &LightHouseHandler{
 		lh:  lh,
 		nb:  make([]byte, 12, 12),
 		out: make([]byte, mtu),
 		l:   lh.l,
 		pb:  make([]byte, mtu),
 		meta: &NebulaMeta{
 			Details: &NebulaMetaDetails{},
 		},
 	}
 	return lhh
 }
 func (lh *LightHouse) metricRx(t NebulaMeta_MessageType, i int64) {
 	lh.metrics.Rx(header.MessageType(t), 0, i)
 }
 func (lh *LightHouse) metricTx(t NebulaMeta_MessageType, i int64) {
 	lh.metrics.Tx(header.MessageType(t), 0, i)
 }
 // This method is similar to Reset(), but it re-uses the pointer structs
 // so that we don't have to re-allocate them
 func (lhh *LightHouseHandler) resetMeta() *NebulaMeta {
 	details := lhh.meta.Details
 	lhh.meta.Reset()
 	// Keep the array memory around
 	details.Ip4AndPorts = details.Ip4AndPorts[:0]
 	details.Ip6AndPorts = details.Ip6AndPorts[:0]
 	lhh.meta.Details = details
 	return lhh.meta
 }
 func (lhh *LightHouseHandler) HandleRequest(rAddr *udp.Addr, vpnIp iputil.VpnIp, p []byte, w udp.EncWriter) {
 	n := lhh.resetMeta()
 	err := n.Unmarshal(p)
 	if err != nil {
-		lhh.l.WithError(err).WithField("vpnIp", vpnIp).WithField("udpAddr", rAddr).
+		l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).WithField("udpAddr", rAddr).
 			Error("Failed to unmarshal lighthouse packet")
 		//TODO: send recv_error?
 		return
 	}
 	if n.Details == nil {
-		lhh.l.WithField("vpnIp", vpnIp).WithField("udpAddr", rAddr).
+		l.WithField("vpnIp", IntIp(vpnIp)).WithField("udpAddr", rAddr).
 			Error("Invalid lighthouse update")
 		//TODO: send recv_error?
 		return
 	}
-	lhh.lh.metricRx(n.Type, 1)
+	lh.metricRx(n.Type, 1)
 	switch n.Type {
 	case NebulaMeta_HostQuery:
 		lhh.handleHostQuery(n, vpnIp, rAddr, w)
 	case NebulaMeta_HostQueryReply:
 		lhh.handleHostQueryReply(n, vpnIp)
 	case NebulaMeta_HostUpdateNotification:
 		lhh.handleHostUpdateNotification(n, vpnIp)
 	case NebulaMeta_HostMovedNotification:
 	case NebulaMeta_HostPunchNotification:
 		lhh.handleHostPunchNotification(n, vpnIp, w)
 	}
 }
 func (lhh *LightHouseHandler) handleHostQuery(n *NebulaMeta, vpnIp iputil.VpnIp, addr *udp.Addr, w udp.EncWriter) {
 		// Exit if we don't answer queries
-	if !lhh.lh.amLighthouse {
+		if !lh.amLighthouse {
-		if lhh.l.Level >= logrus.DebugLevel {
+			l.Debugln("I don't answer queries, but received from: ", rAddr)
 			lhh.l.Debugln("I don't answer queries, but received from: ", addr)
 		}
 		return
 	}
 	//TODO: we can DRY this further
 	reqVpnIp := n.Details.VpnIp
 	//TODO: Maybe instead of marshalling into n we marshal into a new `r` to not nuke our current request data
 	found, ln, err := lhh.lh.queryAndPrepMessage(iputil.VpnIp(n.Details.VpnIp), func(c *cache) (int, error) {
 		n = lhh.resetMeta()
 		n.Type = NebulaMeta_HostQueryReply
 		n.Details.VpnIp = reqVpnIp
 		lhh.coalesceAnswers(c, n)
 		return n.MarshalTo(lhh.pb)
 	})
 	if !found {
 			return
 		}
 		//l.Debugln("Got Query")
 		ips, err := lh.Query(n.Details.VpnIp, f)
 		if err != nil {
-		lhh.l.WithError(err).WithField("vpnIp", vpnIp).Error("Failed to marshal lighthouse host query reply")
+			//l.Debugf("Can't answer query %s from %s because error: %s", IntIp(n.Details.VpnIp), rAddr, err)
 			return
 		} else {
 			iap := NewIpAndPortsFromNetIps(ips)
 			answer := &NebulaMeta{
 				Type: NebulaMeta_HostQueryReply,
 				Details: &NebulaMetaDetails{
 					VpnIp:      n.Details.VpnIp,
 					IpAndPorts: *iap,
 				},
 			}
 			reply, err := proto.Marshal(answer)
 			if err != nil {
 				l.WithError(err).WithField("vpnIp", IntIp(vpnIp)).Error("Failed to marshal lighthouse host query reply")
 				return
 			}
-
+			lh.metricTx(NebulaMeta_HostQueryReply, 1)
-	lhh.lh.metricTx(NebulaMeta_HostQueryReply, 1)
+			f.SendMessageToVpnIp(lightHouse, 0, vpnIp, reply, make([]byte, 12, 12), make([]byte, mtu))
 	w.SendMessageToVpnIp(header.LightHouse, 0, vpnIp, lhh.pb[:ln], lhh.nb, lhh.out[:0])
 			// This signals the other side to punch some zero byte udp packets
-	found, ln, err = lhh.lh.queryAndPrepMessage(vpnIp, func(c *cache) (int, error) {
+			ips, err = lh.Query(vpnIp, f)
 		n = lhh.resetMeta()
 		n.Type = NebulaMeta_HostPunchNotification
 		n.Details.VpnIp = uint32(vpnIp)
 		lhh.coalesceAnswers(c, n)
 		return n.MarshalTo(lhh.pb)
 	})
 	if !found {
 		return
 	}
 			if err != nil {
-		lhh.l.WithError(err).WithField("vpnIp", vpnIp).Error("Failed to marshal lighthouse host was queried for")
+				l.WithField("vpnIp", IntIp(vpnIp)).Debugln("Can't notify host to punch")
 				return
 			} else {
 				//l.Debugln("Notify host to punch", iap)
 				iap = NewIpAndPortsFromNetIps(ips)
 				answer = &NebulaMeta{
 					Type: NebulaMeta_HostPunchNotification,
 					Details: &NebulaMetaDetails{
 						VpnIp:      vpnIp,
 						IpAndPorts: *iap,
 					},
 				}
 				reply, _ := proto.Marshal(answer)
 				lh.metricTx(NebulaMeta_HostPunchNotification, 1)
 				f.SendMessageToVpnIp(lightHouse, 0, n.Details.VpnIp, reply, make([]byte, 12, 12), make([]byte, mtu))
 			}
 			//fmt.Println(reply, remoteaddr)
 		}
 	case NebulaMeta_HostQueryReply:
 		if !lh.IsLighthouseIP(vpnIp) {
 			return
 		}
-
+		for _, a := range n.Details.IpAndPorts {
-	lhh.lh.metricTx(NebulaMeta_HostPunchNotification, 1)
+			//first := n.Details.IpAndPorts[0]
-	w.SendMessageToVpnIp(header.LightHouse, 0, iputil.VpnIp(reqVpnIp), lhh.pb[:ln], lhh.nb, lhh.out[:0])
+			ans := NewUDPAddr(a.Ip, uint16(a.Port))
 			lh.AddRemote(n.Details.VpnIp, ans, false)
 		}
 func (lhh *LightHouseHandler) coalesceAnswers(c *cache, n *NebulaMeta) {
 	if c.v4 != nil {
 		if c.v4.learned != nil {
 			n.Details.Ip4AndPorts = append(n.Details.Ip4AndPorts, c.v4.learned)
 		}
 		if c.v4.reported != nil && len(c.v4.reported) > 0 {
 			n.Details.Ip4AndPorts = append(n.Details.Ip4AndPorts, c.v4.reported...)
 		}
 	}
 	if c.v6 != nil {
 		if c.v6.learned != nil {
 			n.Details.Ip6AndPorts = append(n.Details.Ip6AndPorts, c.v6.learned)
 		}
 		if c.v6.reported != nil && len(c.v6.reported) > 0 {
 			n.Details.Ip6AndPorts = append(n.Details.Ip6AndPorts, c.v6.reported...)
 		}
 	}
 }
 func (lhh *LightHouseHandler) handleHostQueryReply(n *NebulaMeta, vpnIp iputil.VpnIp) {
 	if !lhh.lh.IsLighthouseIP(vpnIp) {
 		return
 	}
 	lhh.lh.Lock()
 	am := lhh.lh.unlockedGetRemoteList(iputil.VpnIp(n.Details.VpnIp))
 	am.Lock()
 	lhh.lh.Unlock()
 	certVpnIp := iputil.VpnIp(n.Details.VpnIp)
 	am.unlockedSetV4(vpnIp, certVpnIp, n.Details.Ip4AndPorts, lhh.lh.unlockedShouldAddV4)
 	am.unlockedSetV6(vpnIp, certVpnIp, n.Details.Ip6AndPorts, lhh.lh.unlockedShouldAddV6)
 	am.Unlock()
 		// Non-blocking attempt to trigger, skip if it would block
 		select {
-	case lhh.lh.handshakeTrigger <- iputil.VpnIp(n.Details.VpnIp):
+		case lh.handshakeTrigger <- n.Details.VpnIp:
 		default:
 		}
 }
 func (lhh *LightHouseHandler) handleHostUpdateNotification(n *NebulaMeta, vpnIp iputil.VpnIp) {
 	if !lhh.lh.amLighthouse {
 		if lhh.l.Level >= logrus.DebugLevel {
 			lhh.l.Debugln("I am not a lighthouse, do not take host updates: ", vpnIp)
 		}
 		return
 	}
 	case NebulaMeta_HostUpdateNotification:
 		//Simple check that the host sent this not someone else
-	if n.Details.VpnIp != uint32(vpnIp) {
+		if n.Details.VpnIp != vpnIp {
-		if lhh.l.Level >= logrus.DebugLevel {
+			l.WithField("vpnIp", IntIp(vpnIp)).WithField("answer", IntIp(n.Details.VpnIp)).Debugln("Host sent invalid update")
 			lhh.l.WithField("vpnIp", vpnIp).WithField("answer", iputil.VpnIp(n.Details.VpnIp)).Debugln("Host sent invalid update")
 		}
 			return
 		}
-
+		for _, a := range n.Details.IpAndPorts {
-	lhh.lh.Lock()
+			ans := NewUDPAddr(a.Ip, uint16(a.Port))
-	am := lhh.lh.unlockedGetRemoteList(vpnIp)
+			lh.AddRemote(n.Details.VpnIp, ans, false)
 	am.Lock()
 	lhh.lh.Unlock()
 	certVpnIp := iputil.VpnIp(n.Details.VpnIp)
 	am.unlockedSetV4(vpnIp, certVpnIp, n.Details.Ip4AndPorts, lhh.lh.unlockedShouldAddV4)
 	am.unlockedSetV6(vpnIp, certVpnIp, n.Details.Ip6AndPorts, lhh.lh.unlockedShouldAddV6)
 	am.Unlock()
 		}
-
+	case NebulaMeta_HostMovedNotification:
-func (lhh *LightHouseHandler) handleHostPunchNotification(n *NebulaMeta, vpnIp iputil.VpnIp, w udp.EncWriter) {
+	case NebulaMeta_HostPunchNotification:
-	if !lhh.lh.IsLighthouseIP(vpnIp) {
+		if !lh.IsLighthouseIP(vpnIp) {
 			return
 		}
 		empty := []byte{0}
-	punch := func(vpnPeer *udp.Addr) {
+		for _, a := range n.Details.IpAndPorts {
-		if vpnPeer == nil {
+			vpnPeer := NewUDPAddr(a.Ip, uint16(a.Port))
 			return
 		}
 			go func() {
-			time.Sleep(lhh.lh.punchDelay)
+				time.Sleep(lh.punchDelay)
-			lhh.lh.metricHolepunchTx.Inc(1)
+				lh.metricHolepunchTx.Inc(1)
-			lhh.lh.punchConn.WriteTo(empty, vpnPeer)
+				lh.punchConn.WriteTo(empty, vpnPeer)
 			}()
-
+			l.Debugf("Punching %s on %d for %s", IntIp(a.Ip), a.Port, IntIp(n.Details.VpnIp))
 		if lhh.l.Level >= logrus.DebugLevel {
 			//TODO: lacking the ip we are actually punching on, old: l.Debugf("Punching %s on %d for %s", IntIp(a.Ip), a.Port, IntIp(n.Details.VpnIp))
 			lhh.l.Debugf("Punching on %d for %s", vpnPeer.Port, iputil.VpnIp(n.Details.VpnIp))
 		}
 	}
 	for _, a := range n.Details.Ip4AndPorts {
 		punch(NewUDPAddrFromLH4(a))
 	}
 	for _, a := range n.Details.Ip6AndPorts {
 		punch(NewUDPAddrFromLH6(a))
 	}
 		// This sends a nebula test packet to the host trying to contact us. In the case
 		// of a double nat or other difficult scenario, this may help establish
 		// a tunnel.
-	if lhh.lh.punchBack {
+		if lh.punchBack {
 		queryVpnIp := iputil.VpnIp(n.Details.VpnIp)
 			go func() {
 				time.Sleep(time.Second * 5)
-			if lhh.l.Level >= logrus.DebugLevel {
+				l.Debugf("Sending a nebula test packet to vpn ip %s", IntIp(n.Details.VpnIp))
-				lhh.l.Debugf("Sending a nebula test packet to vpn ip %s", queryVpnIp)
+				f.SendMessageToVpnIp(test, testRequest, n.Details.VpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 			}
 			//NOTE: we have to allocate a new output buffer here since we are spawning a new goroutine
 			// for each punchBack packet. We should move this into a timerwheel or a single goroutine
 			// managed by a channel.
 			w.SendMessageToVpnIp(header.Test, header.TestRequest, queryVpnIp, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
 			}()
 		}
 	}
 // ipMaskContains checks if testIp is contained by ip after applying a cidr
 // zeros is 32 - bits from net.IPMask.Size()
 func ipMaskContains(ip iputil.VpnIp, zeros iputil.VpnIp, testIp iputil.VpnIp) bool {
 	return (testIp^ip)>>zeros == 0
 }
 func (lh *LightHouse) metricRx(t NebulaMeta_MessageType, i int64) {
 	lh.metrics.Rx(NebulaMessageType(t), 0, i)
 }
 func (lh *LightHouse) metricTx(t NebulaMeta_MessageType, i int64) {
 	lh.metrics.Tx(NebulaMessageType(t), 0, i)
 }
 /*
 func (f *Interface) sendPathCheck(ci *ConnectionState, endpoint *net.UDPAddr, counter int) {
 	c := ci.messageCounter
    b := HeaderEncode(nil, Version, uint8(path_check), 0, ci.remoteIndex, c)
 	ci.messageCounter++
 	if ci.eKey != nil {
 		msg := ci.eKey.EncryptDanger(b, nil, []byte(strconv.Itoa(counter)), c)
 		//msg := ci.eKey.EncryptDanger(b, nil, []byte(fmt.Sprintf("%d", counter)), c)
 		f.outside.WriteTo(msg, endpoint)
 		l.Debugf("path_check sent, remote index: %d, pathCounter %d", ci.remoteIndex, counter)
 	}
 }
 func (f *Interface) sendPathCheckReply(ci *ConnectionState, endpoint *net.UDPAddr, counter []byte) {
 	c := ci.messageCounter
    b := HeaderEncode(nil, Version, uint8(path_check_reply), 0, ci.remoteIndex, c)
 	ci.messageCounter++
 	if ci.eKey != nil {
 		msg := ci.eKey.EncryptDanger(b, nil, counter, c)
 		f.outside.WriteTo(msg, endpoint)
 		l.Debugln("path_check sent, remote index: ", ci.remoteIndex)
 	}
 }
 */
--- a/lighthouse_test.go
+++ b/lighthouse_test.go
@@ -1,32 +1,16 @@
 package nebula
 import (
 	"fmt"
 	"net"
 	"testing"
 	"github.com/golang/protobuf/proto"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/test"
 	"github.com/slackhq/nebula/udp"
 	"github.com/stretchr/testify/assert"
 )
 //TODO: Add a test to ensure udpAddr is copied and not reused
 func TestOldIPv4Only(t *testing.T) {
 	// This test ensures our new ipv6 enabled LH protobuf IpAndPorts works with the old style to enable backwards compatibility
 	b := []byte{8, 129, 130, 132, 80, 16, 10}
 	var m Ip4AndPort
 	err := proto.Unmarshal(b, &m)
 	assert.NoError(t, err)
 	assert.Equal(t, "10.1.1.1", iputil.VpnIp(m.GetIp()).String())
 }
 func TestNewLhQuery(t *testing.T) {
 	myIp := net.ParseIP("192.1.1.1")
-	myIpint := iputil.Ip2VpnIp(myIp)
+	myIpint := ip2int(myIp)
 	// Generating a new lh query should work
 	a := NewLhQueryByInt(myIpint)
@@ -45,346 +29,70 @@ func TestNewLhQuery(t *testing.T) {
 }
 func TestNewipandportfromudpaddr(t *testing.T) {
 	blah := NewUDPAddrFromString("1.2.2.3:12345")
 	meh := NewIpAndPortFromUDPAddr(*blah)
 	assert.Equal(t, uint32(16908803), meh.Ip)
 	assert.Equal(t, uint32(12345), meh.Port)
 }
 func TestNewipandportsfromudpaddrs(t *testing.T) {
 	blah := NewUDPAddrFromString("1.2.2.3:12345")
 	blah2 := NewUDPAddrFromString("9.9.9.9:47828")
 	group := []udpAddr{*blah, *blah2}
 	hah := NewIpAndPortsFromNetIps(group)
 	assert.IsType(t, &[]*IpAndPort{}, hah)
 	//t.Error(reflect.TypeOf(hah))
 }
 func Test_lhStaticMapping(t *testing.T) {
 	l := test.NewLogger()
 	lh1 := "10.128.0.2"
 	lh1IP := net.ParseIP(lh1)
-	udpServer, _ := udp.NewListener(l, "0.0.0.0", 0, true, 2)
+	udpServer, _ := NewListener("0.0.0.0", 0, true)
-	meh := NewLightHouse(l, true, &net.IPNet{IP: net.IP{0, 0, 0, 1}, Mask: net.IPMask{255, 255, 255, 255}}, []iputil.VpnIp{iputil.Ip2VpnIp(lh1IP)}, 10, 10003, udpServer, false, 1, false)
+	meh := NewLightHouse(true, 1, []uint32{ip2int(lh1IP)}, 10, 10003, udpServer, false, 1, false)
-	meh.AddStaticRemote(iputil.Ip2VpnIp(lh1IP), udp.NewAddr(lh1IP, uint16(4242)))
+	meh.AddRemote(ip2int(lh1IP), NewUDPAddr(ip2int(lh1IP), uint16(4242)), true)
 	err := meh.ValidateLHStaticEntries()
 	assert.Nil(t, err)
 	lh2 := "10.128.0.3"
 	lh2IP := net.ParseIP(lh2)
-	meh = NewLightHouse(l, true, &net.IPNet{IP: net.IP{0, 0, 0, 1}, Mask: net.IPMask{255, 255, 255, 255}}, []iputil.VpnIp{iputil.Ip2VpnIp(lh1IP), iputil.Ip2VpnIp(lh2IP)}, 10, 10003, udpServer, false, 1, false)
+	meh = NewLightHouse(true, 1, []uint32{ip2int(lh1IP), ip2int(lh2IP)}, 10, 10003, udpServer, false, 1, false)
-	meh.AddStaticRemote(iputil.Ip2VpnIp(lh1IP), udp.NewAddr(lh1IP, uint16(4242)))
+	meh.AddRemote(ip2int(lh1IP), NewUDPAddr(ip2int(lh1IP), uint16(4242)), true)
 	err = meh.ValidateLHStaticEntries()
 	assert.EqualError(t, err, "Lighthouse 10.128.0.3 does not have a static_host_map entry")
 }
-func BenchmarkLighthouseHandleRequest(b *testing.B) {
+//func NewLightHouse(amLighthouse bool, myIp uint32, ips []string, interval int, nebulaPort int, pc *udpConn, punchBack bool) *LightHouse {
 	l := test.NewLogger()
 	lh1 := "10.128.0.2"
 	lh1IP := net.ParseIP(lh1)
-	udpServer, _ := udp.NewListener(l, "0.0.0.0", 0, true, 2)
+/*
 func TestLHQuery(t *testing.T) {
 	//n := NewLhQueryByIpString("10.128.0.3")
 	_, myNet, _ := net.ParseCIDR("10.128.0.0/16")
 	m := NewHostMap(myNet)
 	y, _ := net.ResolveUDPAddr("udp", "10.128.0.3:11111")
 	m.Add(ip2int(net.ParseIP("127.0.0.1")), y)
 	//t.Errorf("%s", m)
 	_ = m
-	lh := NewLightHouse(l, true, &net.IPNet{IP: net.IP{0, 0, 0, 1}, Mask: net.IPMask{0, 0, 0, 0}}, []iputil.VpnIp{iputil.Ip2VpnIp(lh1IP)}, 10, 10003, udpServer, false, 1, false)
+	_, n, _ := net.ParseCIDR("127.0.0.1/8")
-	hAddr := udp.NewAddrFromString("4.5.6.7:12345")
+	/*udpServer, err := net.ListenUDP("udp", &net.UDPAddr{Port: 10009})
 	hAddr2 := udp.NewAddrFromString("4.5.6.7:12346")
 	lh.addrMap[3] = NewRemoteList()
 	lh.addrMap[3].unlockedSetV4(
 		3,
 		3,
 		[]*Ip4AndPort{
 			NewIp4AndPort(hAddr.IP, uint32(hAddr.Port)),
 			NewIp4AndPort(hAddr2.IP, uint32(hAddr2.Port)),
 		},
 		func(iputil.VpnIp, *Ip4AndPort) bool { return true },
 	)
 	rAddr := udp.NewAddrFromString("1.2.2.3:12345")
 	rAddr2 := udp.NewAddrFromString("1.2.2.3:12346")
 	lh.addrMap[2] = NewRemoteList()
 	lh.addrMap[2].unlockedSetV4(
 		3,
 		3,
 		[]*Ip4AndPort{
 			NewIp4AndPort(rAddr.IP, uint32(rAddr.Port)),
 			NewIp4AndPort(rAddr2.IP, uint32(rAddr2.Port)),
 		},
 		func(iputil.VpnIp, *Ip4AndPort) bool { return true },
 	)
 	mw := &mockEncWriter{}
 	b.Run("notfound", func(b *testing.B) {
 		lhh := lh.NewRequestHandler()
 		req := &NebulaMeta{
 			Type: NebulaMeta_HostQuery,
 			Details: &NebulaMetaDetails{
 				VpnIp:       4,
 				Ip4AndPorts: nil,
 			},
 		}
 		p, err := proto.Marshal(req)
 		assert.NoError(b, err)
 		for n := 0; n < b.N; n++ {
 			lhh.HandleRequest(rAddr, 2, p, mw)
 		}
 	})
 	b.Run("found", func(b *testing.B) {
 		lhh := lh.NewRequestHandler()
 		req := &NebulaMeta{
 			Type: NebulaMeta_HostQuery,
 			Details: &NebulaMetaDetails{
 				VpnIp:       3,
 				Ip4AndPorts: nil,
 			},
 		}
 		p, err := proto.Marshal(req)
 		assert.NoError(b, err)
 		for n := 0; n < b.N; n++ {
 			lhh.HandleRequest(rAddr, 2, p, mw)
 		}
 	})
 }
 func TestLighthouse_Memory(t *testing.T) {
 	l := test.NewLogger()
 	myUdpAddr0 := &udp.Addr{IP: net.ParseIP("10.0.0.2"), Port: 4242}
 	myUdpAddr1 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4242}
 	myUdpAddr2 := &udp.Addr{IP: net.ParseIP("172.16.0.2"), Port: 4242}
 	myUdpAddr3 := &udp.Addr{IP: net.ParseIP("100.152.0.2"), Port: 4242}
 	myUdpAddr4 := &udp.Addr{IP: net.ParseIP("24.15.0.2"), Port: 4242}
 	myUdpAddr5 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4243}
 	myUdpAddr6 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4244}
 	myUdpAddr7 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4245}
 	myUdpAddr8 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4246}
 	myUdpAddr9 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4247}
 	myUdpAddr10 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4248}
 	myUdpAddr11 := &udp.Addr{IP: net.ParseIP("192.168.0.2"), Port: 4249}
 	myVpnIp := iputil.Ip2VpnIp(net.ParseIP("10.128.0.2"))
 	theirUdpAddr0 := &udp.Addr{IP: net.ParseIP("10.0.0.3"), Port: 4242}
 	theirUdpAddr1 := &udp.Addr{IP: net.ParseIP("192.168.0.3"), Port: 4242}
 	theirUdpAddr2 := &udp.Addr{IP: net.ParseIP("172.16.0.3"), Port: 4242}
 	theirUdpAddr3 := &udp.Addr{IP: net.ParseIP("100.152.0.3"), Port: 4242}
 	theirUdpAddr4 := &udp.Addr{IP: net.ParseIP("24.15.0.3"), Port: 4242}
 	theirVpnIp := iputil.Ip2VpnIp(net.ParseIP("10.128.0.3"))
 	udpServer, _ := udp.NewListener(l, "0.0.0.0", 0, true, 2)
 	lh := NewLightHouse(l, true, &net.IPNet{IP: net.IP{10, 128, 0, 1}, Mask: net.IPMask{255, 255, 255, 0}}, []iputil.VpnIp{}, 10, 10003, udpServer, false, 1, false)
 	lhh := lh.NewRequestHandler()
 	// Test that my first update responds with just that
 	newLHHostUpdate(myUdpAddr0, myVpnIp, []*udp.Addr{myUdpAddr1, myUdpAddr2}, lhh)
 	r := newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, myUdpAddr1, myUdpAddr2)
 	// Ensure we don't accumulate addresses
 	newLHHostUpdate(myUdpAddr0, myVpnIp, []*udp.Addr{myUdpAddr3}, lhh)
 	r = newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, myUdpAddr3)
 	// Grow it back to 2
 	newLHHostUpdate(myUdpAddr0, myVpnIp, []*udp.Addr{myUdpAddr1, myUdpAddr4}, lhh)
 	r = newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, myUdpAddr1, myUdpAddr4)
 	// Update a different host
 	newLHHostUpdate(theirUdpAddr0, theirVpnIp, []*udp.Addr{theirUdpAddr1, theirUdpAddr2, theirUdpAddr3, theirUdpAddr4}, lhh)
 	r = newLHHostRequest(theirUdpAddr0, theirVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, theirUdpAddr1, theirUdpAddr2, theirUdpAddr3, theirUdpAddr4)
 	// Make sure we didn't get changed
 	r = newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, myUdpAddr1, myUdpAddr4)
 	// Ensure proper ordering and limiting
 	// Send 12 addrs, get 10 back, the last 2 removed, allowing the duplicate to remain (clients dedupe)
 	newLHHostUpdate(
 		myUdpAddr0,
 		myVpnIp,
 		[]*udp.Addr{
 			myUdpAddr1,
 			myUdpAddr2,
 			myUdpAddr3,
 			myUdpAddr4,
 			myUdpAddr5,
 			myUdpAddr5, //Duplicated on purpose
 			myUdpAddr6,
 			myUdpAddr7,
 			myUdpAddr8,
 			myUdpAddr9,
 			myUdpAddr10,
 			myUdpAddr11, // This should get cut
 		}, lhh)
 	r = newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(
 		t,
 		r.msg.Details.Ip4AndPorts,
 		myUdpAddr1, myUdpAddr2, myUdpAddr3, myUdpAddr4, myUdpAddr5, myUdpAddr5, myUdpAddr6, myUdpAddr7, myUdpAddr8, myUdpAddr9,
 	)
 	// Make sure we won't add ips in our vpn network
 	bad1 := &udp.Addr{IP: net.ParseIP("10.128.0.99"), Port: 4242}
 	bad2 := &udp.Addr{IP: net.ParseIP("10.128.0.100"), Port: 4242}
 	good := &udp.Addr{IP: net.ParseIP("1.128.0.99"), Port: 4242}
 	newLHHostUpdate(myUdpAddr0, myVpnIp, []*udp.Addr{bad1, bad2, good}, lhh)
 	r = newLHHostRequest(myUdpAddr0, myVpnIp, myVpnIp, lhh)
 	assertIp4InArray(t, r.msg.Details.Ip4AndPorts, good)
 }
 func newLHHostRequest(fromAddr *udp.Addr, myVpnIp, queryVpnIp iputil.VpnIp, lhh *LightHouseHandler) testLhReply {
 	req := &NebulaMeta{
 		Type: NebulaMeta_HostQuery,
 		Details: &NebulaMetaDetails{
 			VpnIp: uint32(queryVpnIp),
 		},
 	}
 	b, err := req.Marshal()
 	if err != nil {
-		panic(err)
+		t.Errorf("%s", err)
 	}
-	w := &testEncWriter{}
+	meh := NewLightHouse(n, m, []string{"10.128.0.2"}, false, 10, 10003, 10004)
-	lhh.HandleRequest(fromAddr, myVpnIp, b, w)
+	//t.Error(m.Hosts)
-	return w.lastReply
+	meh2, err := meh.Query(ip2int(net.ParseIP("10.128.0.3")))
-}
+	t.Error(err)
 func newLHHostUpdate(fromAddr *udp.Addr, vpnIp iputil.VpnIp, addrs []*udp.Addr, lhh *LightHouseHandler) {
 	req := &NebulaMeta{
 		Type: NebulaMeta_HostUpdateNotification,
 		Details: &NebulaMetaDetails{
 			VpnIp:       uint32(vpnIp),
 			Ip4AndPorts: make([]*Ip4AndPort, len(addrs)),
 		},
 	}
 	for k, v := range addrs {
 		req.Details.Ip4AndPorts[k] = &Ip4AndPort{Ip: uint32(iputil.Ip2VpnIp(v.IP)), Port: uint32(v.Port)}
 	}
 	b, err := req.Marshal()
 	if err != nil {
-		panic(err)
+		return
 	}
-
+	t.Errorf("%s", meh2)
-	w := &testEncWriter{}
+	t.Errorf("%s", n)
 	lhh.HandleRequest(fromAddr, vpnIp, b, w)
 }
 //TODO: this is a RemoteList test
 //func Test_lhRemoteAllowList(t *testing.T) {
 //	l := NewLogger()
 //	c := NewConfig(l)
 //	c.Settings["remoteallowlist"] = map[interface{}]interface{}{
 //		"10.20.0.0/12": false,
 //	}
 //	allowList, err := c.GetAllowList("remoteallowlist", false)
 //	assert.Nil(t, err)
 //
 //	lh1 := "10.128.0.2"
 //	lh1IP := net.ParseIP(lh1)
 //
 //	udpServer, _ := NewListener(l, "0.0.0.0", 0, true)
 //
 //	lh := NewLightHouse(l, true, &net.IPNet{IP: net.IP{0, 0, 0, 1}, Mask: net.IPMask{255, 255, 255, 0}}, []uint32{ip2int(lh1IP)}, 10, 10003, udpServer, false, 1, false)
 //	lh.SetRemoteAllowList(allowList)
 //
 //	// A disallowed ip should not enter the cache but we should end up with an empty entry in the addrMap
 //	remote1IP := net.ParseIP("10.20.0.3")
 //	remotes := lh.unlockedGetRemoteList(ip2int(remote1IP))
 //	remotes.unlockedPrependV4(ip2int(remote1IP), NewIp4AndPort(remote1IP, 4242))
 //	assert.NotNil(t, lh.addrMap[ip2int(remote1IP)])
 //	assert.Empty(t, lh.addrMap[ip2int(remote1IP)].CopyAddrs([]*net.IPNet{}))
 //
 //	// Make sure a good ip enters the cache and addrMap
 //	remote2IP := net.ParseIP("10.128.0.3")
 //	remote2UDPAddr := NewUDPAddr(remote2IP, uint16(4242))
 //	lh.addRemoteV4(ip2int(remote2IP), ip2int(remote2IP), NewIp4AndPort(remote2UDPAddr.IP, uint32(remote2UDPAddr.Port)), false, false)
 //	assertUdpAddrInArray(t, lh.addrMap[ip2int(remote2IP)].CopyAddrs([]*net.IPNet{}), remote2UDPAddr)
 //
 //	// Another good ip gets into the cache, ordering is inverted
 //	remote3IP := net.ParseIP("10.128.0.4")
 //	remote3UDPAddr := NewUDPAddr(remote3IP, uint16(4243))
 //	lh.addRemoteV4(ip2int(remote2IP), ip2int(remote2IP), NewIp4AndPort(remote3UDPAddr.IP, uint32(remote3UDPAddr.Port)), false, false)
 //	assertUdpAddrInArray(t, lh.addrMap[ip2int(remote2IP)].CopyAddrs([]*net.IPNet{}), remote2UDPAddr, remote3UDPAddr)
 //
 //	// If we exceed the length limit we should only have the most recent addresses
 //	addedAddrs := []*udpAddr{}
 //	for i := 0; i < 11; i++ {
 //		remoteUDPAddr := NewUDPAddr(net.IP{10, 128, 0, 4}, uint16(4243+i))
 //		lh.addRemoteV4(ip2int(remote2IP), ip2int(remote2IP), NewIp4AndPort(remoteUDPAddr.IP, uint32(remoteUDPAddr.Port)), false, false)
 //		// The first entry here is a duplicate, don't add it to the assert list
 //		if i != 0 {
 //			addedAddrs = append(addedAddrs, remoteUDPAddr)
 //		}
 //	}
 //
 //	// We should only have the last 10 of what we tried to add
 //	assert.True(t, len(addedAddrs) >= 10, "We should have tried to add at least 10 addresses")
 //	assertUdpAddrInArray(
 //		t,
 //		lh.addrMap[ip2int(remote2IP)].CopyAddrs([]*net.IPNet{}),
 //		addedAddrs[0],
 //		addedAddrs[1],
 //		addedAddrs[2],
 //		addedAddrs[3],
 //		addedAddrs[4],
 //		addedAddrs[5],
 //		addedAddrs[6],
 //		addedAddrs[7],
 //		addedAddrs[8],
 //		addedAddrs[9],
 //	)
 //}
 func Test_ipMaskContains(t *testing.T) {
 	assert.True(t, ipMaskContains(iputil.Ip2VpnIp(net.ParseIP("10.0.0.1")), 32-24, iputil.Ip2VpnIp(net.ParseIP("10.0.0.255"))))
 	assert.False(t, ipMaskContains(iputil.Ip2VpnIp(net.ParseIP("10.0.0.1")), 32-24, iputil.Ip2VpnIp(net.ParseIP("10.0.1.1"))))
 	assert.True(t, ipMaskContains(iputil.Ip2VpnIp(net.ParseIP("10.0.0.1")), 32, iputil.Ip2VpnIp(net.ParseIP("10.0.1.1"))))
 }
 type testLhReply struct {
 	nebType    header.MessageType
 	nebSubType header.MessageSubType
 	vpnIp      iputil.VpnIp
 	msg        *NebulaMeta
 }
 type testEncWriter struct {
 	lastReply testLhReply
 }
 func (tw *testEncWriter) SendMessageToVpnIp(t header.MessageType, st header.MessageSubType, vpnIp iputil.VpnIp, p, _, _ []byte) {
 	tw.lastReply = testLhReply{
 		nebType:    t,
 		nebSubType: st,
 		vpnIp:      vpnIp,
 		msg:        &NebulaMeta{},
 	}
 	err := proto.Unmarshal(p, tw.lastReply.msg)
 	if err != nil {
 		panic(err)
 	}
 }
 // assertIp4InArray asserts every address in want is at the same position in have and that the lengths match
 func assertIp4InArray(t *testing.T, have []*Ip4AndPort, want ...*udp.Addr) {
 	assert.Len(t, have, len(want))
 	for k, w := range want {
 		if !(have[k].Ip == uint32(iputil.Ip2VpnIp(w.IP)) && have[k].Port == uint32(w.Port)) {
 			assert.Fail(t, fmt.Sprintf("Response did not contain: %v:%v at %v; %v", w.IP, w.Port, k, translateV4toUdpAddr(have)))
 		}
 	}
 }
 // assertUdpAddrInArray asserts every address in want is at the same position in have and that the lengths match
 func assertUdpAddrInArray(t *testing.T, have []*udp.Addr, want ...*udp.Addr) {
 	assert.Len(t, have, len(want))
 	for k, w := range want {
 		if !(have[k].IP.Equal(w.IP) && have[k].Port == w.Port) {
 			assert.Fail(t, fmt.Sprintf("Response did not contain: %v at %v; %v", w, k, have))
 		}
 	}
 }
 func translateV4toUdpAddr(ips []*Ip4AndPort) []*udp.Addr {
 	addrs := make([]*udp.Addr, len(ips))
 	for k, v := range ips {
 		addrs[k] = NewUDPAddrFromLH4(v)
 	}
 	return addrs
 }
 */
--- a/logger.go
+++ b/logger.go
@@ -1,45 +1,39 @@
 package nebula
 import (
-	"fmt"
+	"errors"
 	"strings"
 	"time"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/config"
 )
-func configLogger(l *logrus.Logger, c *config.C) error {
+type ContextualError struct {
-	// set up our logging level
+	RealError error
-	logLevel, err := logrus.ParseLevel(strings.ToLower(c.GetString("logging.level", "info")))
+	Fields    map[string]interface{}
-	if err != nil {
+	Context   string
 		return fmt.Errorf("%s; possible levels: %s", err, logrus.AllLevels)
 	}
 	l.SetLevel(logLevel)
 	disableTimestamp := c.GetBool("logging.disable_timestamp", false)
 	timestampFormat := c.GetString("logging.timestamp_format", "")
 	fullTimestamp := (timestampFormat != "")
 	if timestampFormat == "" {
 		timestampFormat = time.RFC3339
 }
-	logFormat := strings.ToLower(c.GetString("logging.format", "text"))
+func NewContextualError(msg string, fields map[string]interface{}, realError error) ContextualError {
-	switch logFormat {
+	return ContextualError{Context: msg, Fields: fields, RealError: realError}
 	case "text":
 		l.Formatter = &logrus.TextFormatter{
 			TimestampFormat:  timestampFormat,
 			FullTimestamp:    fullTimestamp,
 			DisableTimestamp: disableTimestamp,
 		}
 	case "json":
 		l.Formatter = &logrus.JSONFormatter{
 			TimestampFormat:  timestampFormat,
 			DisableTimestamp: disableTimestamp,
 		}
 	default:
 		return fmt.Errorf("unknown log format `%s`. possible formats: %s", logFormat, []string{"text", "json"})
 }
-	return nil
+func (ce ContextualError) Error() string {
 	if ce.RealError == nil {
 		return ce.Context
 	}
 	return ce.RealError.Error()
 }
 func (ce ContextualError) Unwrap() error {
 	if ce.RealError == nil {
 		return errors.New(ce.Context)
 	}
 	return ce.RealError
 }
 func (ce *ContextualError) Log(lr *logrus.Logger) {
 	if ce.RealError != nil {
 		lr.WithFields(ce.Fields).WithError(ce.RealError).Error(ce.Context)
 	} else {
 		lr.WithFields(ce.Fields).Error(ce.Context)
 	}
 }
--- a/util/error_test.go
+++ b/util/error_test.go
@@ -1,4 +1,4 @@
-package util
+package nebula
 import (
 	"errors"
@@ -8,8 +8,6 @@ import (
 	"github.com/stretchr/testify/assert"
 )
 type m map[string]interface{}
 type TestLogWriter struct {
 	Logs []string
 }
--- a/main.go
+++ b/main.go
@@ -1,41 +1,32 @@
 package nebula
 import (
 	"context"
 	"encoding/binary"
 	"fmt"
 	"net"
 	"strconv"
 	"strings"
 	"time"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/overlay"
 	"github.com/slackhq/nebula/sshd"
 	"github.com/slackhq/nebula/udp"
 	"github.com/slackhq/nebula/util"
 	"gopkg.in/yaml.v2"
 )
 // The caller should provide a real logger, we have one just in case
 var l = logrus.New()
 type m map[string]interface{}
-func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logger, tunFd *int) (retcon *Control, reterr error) {
+func Main(config *Config, configTest bool, buildVersion string, logger *logrus.Logger, tunFd *int) (*Control, error) {
-	ctx, cancel := context.WithCancel(context.Background())
+	l = logger
 	// Automatically cancel the context if Main returns an error, to signal all created goroutines to quit.
 	defer func() {
 		if reterr != nil {
 			cancel()
 		}
 	}()
 	l := logger
 	l.Formatter = &logrus.TextFormatter{
 		FullTimestamp: true,
 	}
 	// Print the config if in test, the exit comes later
 	if configTest {
-		b, err := yaml.Marshal(c.Settings)
+		b, err := yaml.Marshal(config.Settings)
 		if err != nil {
 			return nil, err
 		}
@@ -44,48 +35,56 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 		l.Println(string(b))
 	}
-	err := configLogger(l, c)
+	err := configLogger(config)
 	if err != nil {
-		return nil, util.NewContextualError("Failed to configure the logger", nil, err)
+		return nil, NewContextualError("Failed to configure the logger", nil, err)
 	}
-	c.RegisterReloadCallback(func(c *config.C) {
+	config.RegisterReloadCallback(func(c *Config) {
-		err := configLogger(l, c)
+		err := configLogger(c)
 		if err != nil {
 			l.WithError(err).Error("Failed to configure the logger")
 		}
 	})
-	caPool, err := loadCAFromConfig(l, c)
+	// trustedCAs is currently a global, so loadCA operates on that global directly
 	trustedCAs, err = loadCAFromConfig(config)
 	if err != nil {
 		//The errors coming out of loadCA are already nicely formatted
-		return nil, util.NewContextualError("Failed to load ca from config", nil, err)
+		return nil, NewContextualError("Failed to load ca from config", nil, err)
 	}
-	l.WithField("fingerprints", caPool.GetFingerprints()).Debug("Trusted CA fingerprints")
+	l.WithField("fingerprints", trustedCAs.GetFingerprints()).Debug("Trusted CA fingerprints")
-	cs, err := NewCertStateFromConfig(c)
+	cs, err := NewCertStateFromConfig(config)
 	if err != nil {
 		//The errors coming out of NewCertStateFromConfig are already nicely formatted
-		return nil, util.NewContextualError("Failed to load certificate from config", nil, err)
+		return nil, NewContextualError("Failed to load certificate from config", nil, err)
 	}
 	l.WithField("cert", cs.certificate).Debug("Client nebula certificate")
-	fw, err := NewFirewallFromConfig(l, cs.certificate, c)
+	fw, err := NewFirewallFromConfig(cs.certificate, config)
 	if err != nil {
-		return nil, util.NewContextualError("Error while loading firewall rules", nil, err)
+		return nil, NewContextualError("Error while loading firewall rules", nil, err)
 	}
 	l.WithField("firewallHash", fw.GetRuleHash()).Info("Firewall started")
 	// TODO: make sure mask is 4 bytes
 	tunCidr := cs.certificate.Details.Ips[0]
 	routes, err := parseRoutes(config, tunCidr)
 	if err != nil {
 		return nil, NewContextualError("Could not parse tun.routes", nil, err)
 	}
 	unsafeRoutes, err := parseUnsafeRoutes(config, tunCidr)
 	if err != nil {
 		return nil, NewContextualError("Could not parse tun.unsafe_routes", nil, err)
 	}
 	ssh, err := sshd.NewSSHServer(l.WithField("subsystem", "sshd"))
-	wireSSHReload(l, ssh, c)
+	wireSSHReload(ssh, config)
-	var sshStart func()
+	if config.GetBool("sshd.enabled", false) {
-	if c.GetBool("sshd.enabled", false) {
+		err = configSSH(ssh, config)
 		sshStart, err = configSSH(l, ssh, c)
 		if err != nil {
-			return nil, util.NewContextualError("Error while configuring the sshd", nil, err)
+			return nil, NewContextualError("Error while configuring the sshd", nil, err)
 		}
 	}
@@ -94,91 +93,59 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 	// tun config, listeners, anything modifying the computer should be below
 	////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-	var routines int
+	var tun Inside
 	// If `routines` is set, use that and ignore the specific values
 	if routines = c.GetInt("routines", 0); routines != 0 {
 		if routines < 1 {
 			routines = 1
 		}
 		if routines > 1 {
 			l.WithField("routines", routines).Info("Using multiple routines")
 		}
 	} else {
 		// deprecated and undocumented
 		tunQueues := c.GetInt("tun.routines", 1)
 		udpQueues := c.GetInt("listen.routines", 1)
 		if tunQueues > udpQueues {
 			routines = tunQueues
 		} else {
 			routines = udpQueues
 		}
 		if routines != 1 {
 			l.WithField("routines", routines).Warn("Setting tun.routines and listen.routines is deprecated. Use `routines` instead")
 		}
 	}
 	// EXPERIMENTAL
 	// Intentionally not documented yet while we do more testing and determine
 	// a good default value.
 	conntrackCacheTimeout := c.GetDuration("firewall.conntrack.routine_cache_timeout", 0)
 	if routines > 1 && !c.IsSet("firewall.conntrack.routine_cache_timeout") {
 		// Use a different default if we are running with multiple routines
 		conntrackCacheTimeout = 1 * time.Second
 	}
 	if conntrackCacheTimeout > 0 {
 		l.WithField("duration", conntrackCacheTimeout).Info("Using routine-local conntrack cache")
 	}
 	var tun overlay.Device
 	if !configTest {
-		c.CatchHUP(ctx)
+		config.CatchHUP()
 		switch {
 		case config.GetBool("tun.disabled", false):
 			tun = newDisabledTun(tunCidr, l)
 		case tunFd != nil:
 			tun, err = newTunFromFd(
 				*tunFd,
 				tunCidr,
 				config.GetInt("tun.mtu", DEFAULT_MTU),
 				routes,
 				unsafeRoutes,
 				config.GetInt("tun.tx_queue", 500),
 			)
 		default:
 			tun, err = newTun(
 				config.GetString("tun.dev", ""),
 				tunCidr,
 				config.GetInt("tun.mtu", DEFAULT_MTU),
 				routes,
 				unsafeRoutes,
 				config.GetInt("tun.tx_queue", 500),
 			)
 		}
 		tun, err = overlay.NewDeviceFromConfig(c, l, tunCidr, tunFd, routines)
 		if err != nil {
-			return nil, util.NewContextualError("Failed to get a tun/tap device", nil, err)
+			return nil, NewContextualError("Failed to get a tun/tap device", nil, err)
 		}
 		defer func() {
 			if reterr != nil {
 				tun.Close()
 			}
 		}()
 	}
 	// set up our UDP listener
-	udpConns := make([]*udp.Conn, routines)
+	udpQueues := config.GetInt("listen.routines", 1)
-	port := c.GetInt("listen.port", 0)
+	var udpServer *udpConn
 	if !configTest {
-		for i := 0; i < routines; i++ {
+		udpServer, err = NewListener(config.GetString("listen.host", "0.0.0.0"), config.GetInt("listen.port", 0), udpQueues > 1)
 			udpServer, err := udp.NewListener(l, c.GetString("listen.host", "0.0.0.0"), port, routines > 1, c.GetInt("listen.batch", 64))
 		if err != nil {
-				return nil, util.NewContextualError("Failed to open udp listener", m{"queue": i}, err)
+			return nil, NewContextualError("Failed to open udp listener", nil, err)
 			}
 			udpServer.ReloadConfig(c)
 			udpConns[i] = udpServer
 			// If port is dynamic, discover it
 			if port == 0 {
 				uPort, err := udpServer.LocalAddr()
 				if err != nil {
 					return nil, util.NewContextualError("Failed to get listening port", nil, err)
 				}
 				port = int(uPort.Port)
 			}
 		}
 		udpServer.reloadConfig(config)
 	}
 	// Set up my internal host map
 	var preferredRanges []*net.IPNet
-	rawPreferredRanges := c.GetStringSlice("preferred_ranges", []string{})
+	rawPreferredRanges := config.GetStringSlice("preferred_ranges", []string{})
 	// First, check if 'preferred_ranges' is set and fallback to 'local_range'
 	if len(rawPreferredRanges) > 0 {
 		for _, rawPreferredRange := range rawPreferredRanges {
 			_, preferredRange, err := net.ParseCIDR(rawPreferredRange)
 			if err != nil {
-				return nil, util.NewContextualError("Failed to parse preferred ranges", nil, err)
+				return nil, NewContextualError("Failed to parse preferred ranges", nil, err)
 			}
 			preferredRanges = append(preferredRanges, preferredRange)
 		}
@@ -187,11 +154,11 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 	// local_range was superseded by preferred_ranges. If it is still present,
 	// merge the local_range setting into preferred_ranges. We will probably
 	// deprecate local_range and remove in the future.
-	rawLocalRange := c.GetString("local_range", "")
+	rawLocalRange := config.GetString("local_range", "")
 	if rawLocalRange != "" {
 		_, localRange, err := net.ParseCIDR(rawLocalRange)
 		if err != nil {
-			return nil, util.NewContextualError("Failed to parse local_range", nil, err)
+			return nil, NewContextualError("Failed to parse local_range", nil, err)
 		}
 		// Check if the entry for local_range was already specified in
@@ -208,8 +175,10 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 		}
 	}
-	hostMap := NewHostMap(l, "main", tunCidr, preferredRanges)
+	hostMap := NewHostMap("main", tunCidr, preferredRanges)
-	hostMap.metricsEnabled = c.GetBool("stats.message_metrics", false)
+	hostMap.SetDefaultRoute(ip2int(net.ParseIP(config.GetString("default_route", "0.0.0.0"))))
 	hostMap.addUnsafeRoutes(&unsafeRoutes)
 	hostMap.metricsEnabled = config.GetBool("stats.message_metrics", false)
 	l.WithField("network", hostMap.vpnCIDR).WithField("preferredRanges", hostMap.preferredRanges).Info("Main HostMap created")
@@ -218,89 +187,99 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 		go hostMap.Promoter(config.GetInt("promoter.interval"))
 	*/
-	punchy := NewPunchyFromConfig(c)
+	punchy := NewPunchyFromConfig(config)
 	if punchy.Punch && !configTest {
 		l.Info("UDP hole punching enabled")
-		go hostMap.Punchy(ctx, udpConns[0])
+		go hostMap.Punchy(udpServer)
 	}
-	amLighthouse := c.GetBool("lighthouse.am_lighthouse", false)
+	port := config.GetInt("listen.port", 0)
-
+	// If port is dynamic, discover it
-	// fatal if am_lighthouse is enabled but we are using an ephemeral port
+	if port == 0 && !configTest {
-	if amLighthouse && (c.GetInt("listen.port", 0) == 0) {
+		uPort, err := udpServer.LocalAddr()
-		return nil, util.NewContextualError("lighthouse.am_lighthouse enabled on node but no port number is set in config", nil, nil)
+		if err != nil {
 			return nil, NewContextualError("Failed to get listening port", nil, err)
 		}
 		port = int(uPort.Port)
 	}
 	amLighthouse := config.GetBool("lighthouse.am_lighthouse", false)
 	// warn if am_lighthouse is enabled but upstream lighthouses exists
-	rawLighthouseHosts := c.GetStringSlice("lighthouse.hosts", []string{})
+	rawLighthouseHosts := config.GetStringSlice("lighthouse.hosts", []string{})
 	if amLighthouse && len(rawLighthouseHosts) != 0 {
 		l.Warn("lighthouse.am_lighthouse enabled on node but upstream lighthouses exist in config")
 	}
-	lighthouseHosts := make([]iputil.VpnIp, len(rawLighthouseHosts))
+	lighthouseHosts := make([]uint32, len(rawLighthouseHosts))
 	for i, host := range rawLighthouseHosts {
 		ip := net.ParseIP(host)
 		if ip == nil {
-			return nil, util.NewContextualError("Unable to parse lighthouse host entry", m{"host": host, "entry": i + 1}, nil)
+			return nil, NewContextualError("Unable to parse lighthouse host entry", m{"host": host, "entry": i + 1}, nil)
 		}
 		if !tunCidr.Contains(ip) {
-			return nil, util.NewContextualError("lighthouse host is not in our subnet, invalid", m{"vpnIp": ip, "network": tunCidr.String()}, nil)
+			return nil, NewContextualError("lighthouse host is not in our subnet, invalid", m{"vpnIp": ip, "network": tunCidr.String()}, nil)
 		}
-		lighthouseHosts[i] = iputil.Ip2VpnIp(ip)
+		lighthouseHosts[i] = ip2int(ip)
 	}
 	if !amLighthouse && len(lighthouseHosts) == 0 {
 		l.Warn("No lighthouses.hosts configured, this host will only be able to initiate tunnels with static_host_map entries")
 	}
 	lightHouse := NewLightHouse(
 		l,
 		amLighthouse,
-		tunCidr,
+		ip2int(tunCidr.IP),
 		lighthouseHosts,
 		//TODO: change to a duration
-		c.GetInt("lighthouse.interval", 10),
+		config.GetInt("lighthouse.interval", 10),
-		uint32(port),
+		port,
-		udpConns[0],
+		udpServer,
 		punchy.Respond,
 		punchy.Delay,
-		c.GetBool("stats.lighthouse_metrics", false),
+		config.GetBool("stats.lighthouse_metrics", false),
 	)
-	remoteAllowList, err := NewRemoteAllowListFromConfig(c, "lighthouse.remote_allow_list", "lighthouse.remote_allow_ranges")
+	remoteAllowList, err := config.GetAllowList("lighthouse.remote_allow_list", false)
 	if err != nil {
-		return nil, util.NewContextualError("Invalid lighthouse.remote_allow_list", nil, err)
+		return nil, NewContextualError("Invalid lighthouse.remote_allow_list", nil, err)
 	}
 	lightHouse.SetRemoteAllowList(remoteAllowList)
-	localAllowList, err := NewLocalAllowListFromConfig(c, "lighthouse.local_allow_list")
+	localAllowList, err := config.GetAllowList("lighthouse.local_allow_list", true)
 	if err != nil {
-		return nil, util.NewContextualError("Invalid lighthouse.local_allow_list", nil, err)
+		return nil, NewContextualError("Invalid lighthouse.local_allow_list", nil, err)
 	}
 	lightHouse.SetLocalAllowList(localAllowList)
 	//TODO: Move all of this inside functions in lighthouse.go
-	for k, v := range c.GetMap("static_host_map", map[interface{}]interface{}{}) {
+	for k, v := range config.GetMap("static_host_map", map[interface{}]interface{}{}) {
-		ip := net.ParseIP(fmt.Sprintf("%v", k))
+		vpnIp := net.ParseIP(fmt.Sprintf("%v", k))
-		vpnIp := iputil.Ip2VpnIp(ip)
+		if !tunCidr.Contains(vpnIp) {
-		if !tunCidr.Contains(ip) {
+			return nil, NewContextualError("static_host_map key is not in our subnet, invalid", m{"vpnIp": vpnIp, "network": tunCidr.String()}, nil)
 			return nil, util.NewContextualError("static_host_map key is not in our subnet, invalid", m{"vpnIp": vpnIp, "network": tunCidr.String()}, nil)
 		}
 		vals, ok := v.([]interface{})
 		if ok {
 			for _, v := range vals {
-				ip, port, err := udp.ParseIPAndPort(fmt.Sprintf("%v", v))
+				parts := strings.Split(fmt.Sprintf("%v", v), ":")
 				addr, err := net.ResolveIPAddr("ip", parts[0])
 				if err == nil {
 					ip := addr.IP
 					port, err := strconv.Atoi(parts[1])
 					if err != nil {
-					return nil, util.NewContextualError("Static host address could not be parsed", m{"vpnIp": vpnIp}, err)
+						return nil, NewContextualError("Static host address could not be parsed", m{"vpnIp": vpnIp}, err)
 					}
 					lightHouse.AddRemote(ip2int(vpnIp), NewUDPAddr(ip2int(ip), uint16(port)), true)
 				}
 				lightHouse.AddStaticRemote(vpnIp, udp.NewAddr(ip, port))
 			}
 		} else {
-			ip, port, err := udp.ParseIPAndPort(fmt.Sprintf("%v", v))
+			//TODO: make this all a helper
 			parts := strings.Split(fmt.Sprintf("%v", v), ":")
 			addr, err := net.ResolveIPAddr("ip", parts[0])
 			if err == nil {
 				ip := addr.IP
 				port, err := strconv.Atoi(parts[1])
 				if err != nil {
-				return nil, util.NewContextualError("Static host address could not be parsed", m{"vpnIp": vpnIp}, err)
+					return nil, NewContextualError("Static host address could not be parsed", m{"vpnIp": vpnIp}, err)
 				}
 				lightHouse.AddRemote(ip2int(vpnIp), NewUDPAddr(ip2int(ip), uint16(port)), true)
 			}
 			lightHouse.AddStaticRemote(vpnIp, udp.NewAddr(ip, port))
 		}
 	}
@@ -310,60 +289,50 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 	}
 	var messageMetrics *MessageMetrics
-	if c.GetBool("stats.message_metrics", false) {
+	if config.GetBool("stats.message_metrics", false) {
 		messageMetrics = newMessageMetrics()
 	} else {
 		messageMetrics = newMessageMetricsOnlyRecvError()
 	}
 	handshakeConfig := HandshakeConfig{
-		tryInterval:   c.GetDuration("handshakes.try_interval", DefaultHandshakeTryInterval),
+		tryInterval:   config.GetDuration("handshakes.try_interval", DefaultHandshakeTryInterval),
-		retries:       c.GetInt("handshakes.retries", DefaultHandshakeRetries),
+		retries:       config.GetInt("handshakes.retries", DefaultHandshakeRetries),
-		triggerBuffer: c.GetInt("handshakes.trigger_buffer", DefaultHandshakeTriggerBuffer),
+		waitRotation:  config.GetInt("handshakes.wait_rotation", DefaultHandshakeWaitRotation),
 		triggerBuffer: config.GetInt("handshakes.trigger_buffer", DefaultHandshakeTriggerBuffer),
 		messageMetrics: messageMetrics,
 	}
-	handshakeManager := NewHandshakeManager(l, tunCidr, preferredRanges, hostMap, lightHouse, udpConns[0], handshakeConfig)
+	handshakeManager := NewHandshakeManager(tunCidr, preferredRanges, hostMap, lightHouse, udpServer, handshakeConfig)
 	lightHouse.handshakeTrigger = handshakeManager.trigger
 	//TODO: These will be reused for psk
 	//handshakeMACKey := config.GetString("handshake_mac.key", "")
 	//handshakeAcceptedMACKeys := config.GetStringSlice("handshake_mac.accepted_keys", []string{})
-	serveDns := false
+	serveDns := config.GetBool("lighthouse.serve_dns", false)
-	if c.GetBool("lighthouse.serve_dns", false) {
+	checkInterval := config.GetInt("timers.connection_alive_interval", 5)
-		if c.GetBool("lighthouse.am_lighthouse", false) {
+	pendingDeletionInterval := config.GetInt("timers.pending_deletion_interval", 10)
 			serveDns = true
 		} else {
 			l.Warn("DNS server refusing to run because this host is not a lighthouse.")
 		}
 	}
 	checkInterval := c.GetInt("timers.connection_alive_interval", 5)
 	pendingDeletionInterval := c.GetInt("timers.pending_deletion_interval", 10)
 	ifConfig := &InterfaceConfig{
 		HostMap:                 hostMap,
 		Inside:                  tun,
-		Outside:                 udpConns[0],
+		Outside:                 udpServer,
 		certState:               cs,
-		Cipher:                  c.GetString("cipher", "aes"),
+		Cipher:                  config.GetString("cipher", "aes"),
 		Firewall:                fw,
 		ServeDns:                serveDns,
 		HandshakeManager:        handshakeManager,
 		lightHouse:              lightHouse,
 		checkInterval:           checkInterval,
 		pendingDeletionInterval: pendingDeletionInterval,
-		DropLocalBroadcast:      c.GetBool("tun.drop_local_broadcast", false),
+		DropLocalBroadcast:      config.GetBool("tun.drop_local_broadcast", false),
-		DropMulticast:           c.GetBool("tun.drop_multicast", false),
+		DropMulticast:           config.GetBool("tun.drop_multicast", false),
-		routines:                routines,
+		UDPBatchSize:            config.GetInt("listen.batch", 64),
 		udpQueues:               udpQueues,
 		tunQueues:               config.GetInt("tun.routines", 1),
 		MessageMetrics:          messageMetrics,
 		version:                 buildVersion,
 		caPool:                  caPool,
 		disconnectInvalid:       c.GetBool("pki.disconnect_invalid", false),
 		ConntrackCacheTimeout: conntrackCacheTimeout,
 		l:                     l,
 	}
 	switch ifConfig.Cipher {
@@ -377,27 +346,20 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 	var ifce *Interface
 	if !configTest {
-		ifce, err = NewInterface(ctx, ifConfig)
+		ifce, err = NewInterface(ifConfig)
 		if err != nil {
 			return nil, fmt.Errorf("failed to initialize interface: %s", err)
 		}
-		// TODO: Better way to attach these, probably want a new interface in InterfaceConfig
+		ifce.RegisterConfigChangeCallbacks(config)
 		// I don't want to make this initial commit too far-reaching though
 		ifce.writers = udpConns
-		ifce.RegisterConfigChangeCallbacks(c)
+		go handshakeManager.Run(ifce)
-
+		go lightHouse.LhUpdateWorker(ifce)
 		go handshakeManager.Run(ctx, ifce)
 		go lightHouse.LhUpdateWorker(ctx, ifce)
 	}
-	// TODO - stats third-party modules start uncancellable goroutines. Update those libs to accept
+	err = startStats(config, configTest)
 	// a context so that they can exit when the context is Done.
 	statsStart, err := startStats(l, c, buildVersion, configTest)
 	if err != nil {
-		return nil, util.NewContextualError("Failed to start stats emitter", nil, err)
+		return nil, NewContextualError("Failed to start stats emitter", nil, err)
 	}
 	if configTest {
@@ -405,16 +367,15 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
 	}
 	//TODO: check if we _should_ be emitting stats
-	go ifce.emitStats(ctx, c.GetDuration("stats.interval", time.Second*10))
+	go ifce.emitStats(config.GetDuration("stats.interval", time.Second*10))
-	attachCommands(l, ssh, hostMap, handshakeManager.pendingHostMap, lightHouse, ifce)
+	attachCommands(ssh, hostMap, handshakeManager.pendingHostMap, lightHouse, ifce)
 	// Start DNS server last to allow using the nebula IP as lighthouse.dns.host
 	var dnsStart func()
 	if amLighthouse && serveDns {
 		l.Debugln("Starting dns server")
-		dnsStart = dnsMain(l, hostMap, c)
+		go dnsMain(hostMap, config)
 	}
-	return &Control{ifce, l, cancel, sshStart, statsStart, dnsStart}, nil
+	return &Control{ifce, l}, nil
 }
--- a/main_test.go
+++ b/main_test.go
@@ -0,0 +1 @@
 package nebula
--- a/message_metrics.go
+++ b/message_metrics.go
@@ -4,11 +4,8 @@ import (
 	"fmt"
 	"github.com/rcrowley/go-metrics"
 	"github.com/slackhq/nebula/header"
 )
 //TODO: this can probably move into the header package
 type MessageMetrics struct {
 	rx [][]metrics.Counter
 	tx [][]metrics.Counter
@@ -17,7 +14,7 @@ type MessageMetrics struct {
 	txUnknown metrics.Counter
 }
-func (m *MessageMetrics) Rx(t header.MessageType, s header.MessageSubType, i int64) {
+func (m *MessageMetrics) Rx(t NebulaMessageType, s NebulaMessageSubType, i int64) {
 	if m != nil {
 		if t >= 0 && int(t) < len(m.rx) && s >= 0 && int(s) < len(m.rx[t]) {
 			m.rx[t][s].Inc(i)
@@ -26,7 +23,7 @@ func (m *MessageMetrics) Rx(t header.MessageType, s header.MessageSubType, i int
 		}
 	}
 }
-func (m *MessageMetrics) Tx(t header.MessageType, s header.MessageSubType, i int64) {
+func (m *MessageMetrics) Tx(t NebulaMessageType, s NebulaMessageSubType, i int64) {
 	if m != nil {
 		if t >= 0 && int(t) < len(m.tx) && s >= 0 && int(s) < len(m.tx[t]) {
 			m.tx[t][s].Inc(i)
--- a/nebula.pb.go
+++ b/nebula.pb.go
--- a/nebula.proto
+++ b/nebula.proto
@@ -1,8 +1,6 @@
 syntax = "proto3";
 package nebula;
 option go_package = "github.com/slackhq/nebula";
 message NebulaMeta {
  enum MessageType {
    None = 0;
@@ -22,23 +20,19 @@ message NebulaMeta {
  NebulaMetaDetails Details = 2;
 }
 message NebulaMetaDetails {
  uint32 VpnIp = 1;
-  repeated Ip4AndPort Ip4AndPorts = 2;
+  repeated IpAndPort IpAndPorts = 2;
  repeated Ip6AndPort Ip6AndPorts = 4;
  uint32 counter = 3;
 }
-message Ip4AndPort {
+message IpAndPort {
  uint32 Ip = 1;
  uint32 Port = 2;
 }
 message Ip6AndPort {
  uint64 Hi = 1;
  uint64 Lo = 2;
  uint32 Port = 3;
 }
 message NebulaPing {
  enum MessageType {
--- a/outside.go
+++ b/outside.go
@@ -10,10 +10,6 @@ import (
 	"github.com/golang/protobuf/proto"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/cert"
 	"github.com/slackhq/nebula/firewall"
 	"github.com/slackhq/nebula/header"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/slackhq/nebula/udp"
 	"golang.org/x/net/ipv4"
 )
@@ -21,14 +17,14 @@ const (
 	minFwPacketLen = 4
 )
-func (f *Interface) readOutsidePackets(addr *udp.Addr, out []byte, packet []byte, h *header.H, fwPacket *firewall.Packet, lhf udp.LightHouseHandlerFunc, nb []byte, q int, localCache firewall.ConntrackCache) {
+func (f *Interface) readOutsidePackets(addr *udpAddr, out []byte, packet []byte, header *Header, fwPacket *FirewallPacket, nb []byte) {
-	err := h.Parse(packet)
+	err := header.Parse(packet)
 	if err != nil {
 		// TODO: best if we return this and let caller log
 		// TODO: Might be better to send the literal []byte("holepunch") packet and ignore that?
 		// Hole punch packets are 0 or 1 byte big, so lets ignore printing those errors
 		if len(packet) > 1 {
-			f.l.WithField("packet", packet).Infof("Error while parsing inbound packet from %s: %s", addr, err)
+			l.WithField("packet", packet).Infof("Error while parsing inbound packet from %s: %s", addr, err)
 		}
 		return
 	}
@@ -36,154 +32,65 @@ func (f *Interface) readOutsidePackets(addr *udp.Addr, out []byte, packet []byte
 	//l.Error("in packet ", header, packet[HeaderLen:])
 	// verify if we've seen this index before, otherwise respond to the handshake initiation
-	hostinfo, err := f.hostMap.QueryIndex(h.RemoteIndex)
+	hostinfo, err := f.hostMap.QueryIndex(header.RemoteIndex)
 	var ci *ConnectionState
 	if err == nil {
 		ci = hostinfo.ConnectionState
 	}
-	switch h.Type {
+	handle := f.handlers[header.Version][header.Type][header.Subtype]
-	case header.Message:
+
-		if !f.handleEncrypted(ci, addr, h) {
+	if handle == nil {
 		f.messageMetrics.Rx(header.Type, header.Subtype, 1)
 		hostinfo.logger().Debugf("Unexpected packet received from %s", addr)
 		return
 	}
-		f.decryptToTun(hostinfo, h.MessageCounter, out, packet, fwPacket, nb, q, localCache)
+	handle(hostinfo, ci, addr, header, out, packet, fwPacket, nb)
 		// Fallthrough to the bottom to record incoming traffic
 	case header.LightHouse:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		if !f.handleEncrypted(ci, addr, h) {
 			return
 }
-		d, err := f.decrypt(hostinfo, h.MessageCounter, out, packet, h, nb)
+func (f *Interface) closeTunnel(hostInfo *HostInfo) {
 		if err != nil {
 			hostinfo.logger(f.l).WithError(err).WithField("udpAddr", addr).
 				WithField("packet", packet).
 				Error("Failed to decrypt lighthouse packet")
 			//TODO: maybe after build 64 is out? 06/14/2018 - NB
 			//f.sendRecvError(net.Addr(addr), header.RemoteIndex)
 			return
 		}
 		lhf(addr, hostinfo.vpnIp, d, f)
 		// Fallthrough to the bottom to record incoming traffic
 	case header.Test:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		if !f.handleEncrypted(ci, addr, h) {
 			return
 		}
 		d, err := f.decrypt(hostinfo, h.MessageCounter, out, packet, h, nb)
 		if err != nil {
 			hostinfo.logger(f.l).WithError(err).WithField("udpAddr", addr).
 				WithField("packet", packet).
 				Error("Failed to decrypt test packet")
 			//TODO: maybe after build 64 is out? 06/14/2018 - NB
 			//f.sendRecvError(net.Addr(addr), header.RemoteIndex)
 			return
 		}
 		if h.Subtype == header.TestRequest {
 			// This testRequest might be from TryPromoteBest, so we should roam
 			// to the new IP address before responding
 			f.handleHostRoaming(hostinfo, addr)
 			f.send(header.Test, header.TestReply, ci, hostinfo, hostinfo.remote, d, nb, out)
 		}
 		// Fallthrough to the bottom to record incoming traffic
 		// Non encrypted messages below here, they should not fall through to avoid tracking incoming traffic since they
 		// are unauthenticated
 	case header.Handshake:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		HandleIncomingHandshake(f, addr, packet, h, hostinfo)
 		return
 	case header.RecvError:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		f.handleRecvError(addr, h)
 		return
 	case header.CloseTunnel:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		if !f.handleEncrypted(ci, addr, h) {
 			return
 		}
 		hostinfo.logger(f.l).WithField("udpAddr", addr).
 			Info("Close tunnel received, tearing down.")
 		f.closeTunnel(hostinfo, false)
 		return
 	default:
 		f.messageMetrics.Rx(h.Type, h.Subtype, 1)
 		hostinfo.logger(f.l).Debugf("Unexpected packet received from %s", addr)
 		return
 	}
 	f.handleHostRoaming(hostinfo, addr)
 	f.connectionManager.In(hostinfo.vpnIp)
 }
 // closeTunnel closes a tunnel locally, it does not send a closeTunnel packet to the remote
 func (f *Interface) closeTunnel(hostInfo *HostInfo, hasHostMapLock bool) {
 	//TODO: this would be better as a single function in ConnectionManager that handled locks appropriately
-	f.connectionManager.ClearIP(hostInfo.vpnIp)
+	f.connectionManager.ClearIP(hostInfo.hostId)
-	f.connectionManager.ClearPendingDeletion(hostInfo.vpnIp)
+	f.connectionManager.ClearPendingDeletion(hostInfo.hostId)
-	f.lightHouse.DeleteVpnIp(hostInfo.vpnIp)
+	f.lightHouse.DeleteVpnIP(hostInfo.hostId)
-
+	f.hostMap.DeleteVpnIP(hostInfo.hostId)
-	if hasHostMapLock {
+	f.hostMap.DeleteIndex(hostInfo.localIndexId)
 		f.hostMap.unlockedDeleteHostInfo(hostInfo)
 	} else {
 		f.hostMap.DeleteHostInfo(hostInfo)
 	}
 }
-// sendCloseTunnel is a helper function to send a proper close tunnel packet to a remote
+func (f *Interface) handleHostRoaming(hostinfo *HostInfo, addr *udpAddr) {
-func (f *Interface) sendCloseTunnel(h *HostInfo) {
+	if hostDidRoam(hostinfo.remote, addr) {
-	f.send(header.CloseTunnel, 0, h.ConnectionState, h, h.remote, []byte{}, make([]byte, 12, 12), make([]byte, mtu))
+		if !f.lightHouse.remoteAllowList.Allow(udp2ipInt(addr)) {
-}
+			hostinfo.logger().WithField("newAddr", addr).Debug("lighthouse.remote_allow_list denied roaming")
 func (f *Interface) handleHostRoaming(hostinfo *HostInfo, addr *udp.Addr) {
 	if !hostinfo.remote.Equals(addr) {
 		if !f.lightHouse.remoteAllowList.Allow(hostinfo.vpnIp, addr.IP) {
 			hostinfo.logger(f.l).WithField("newAddr", addr).Debug("lighthouse.remote_allow_list denied roaming")
 			return
 		}
-		if !hostinfo.lastRoam.IsZero() && addr.Equals(hostinfo.lastRoamRemote) && time.Since(hostinfo.lastRoam) < RoamingSuppressSeconds*time.Second {
+		if !hostinfo.lastRoam.IsZero() && addr.Equals(hostinfo.lastRoamRemote) && time.Since(hostinfo.lastRoam) < RoamingSupressSeconds*time.Second {
-			if f.l.Level >= logrus.DebugLevel {
+			if l.Level >= logrus.DebugLevel {
-				hostinfo.logger(f.l).WithField("udpAddr", hostinfo.remote).WithField("newAddr", addr).
+				hostinfo.logger().WithField("udpAddr", hostinfo.remote).WithField("newAddr", addr).
-					Debugf("Suppressing roam back to previous remote for %d seconds", RoamingSuppressSeconds)
+					Debugf("Supressing roam back to previous remote for %d seconds", RoamingSupressSeconds)
 			}
 			return
 		}
-		hostinfo.logger(f.l).WithField("udpAddr", hostinfo.remote).WithField("newAddr", addr).
+		hostinfo.logger().WithField("udpAddr", hostinfo.remote).WithField("newAddr", addr).
 			Info("Host roamed to new udp ip/port.")
 		hostinfo.lastRoam = time.Now()
 		remoteCopy := *hostinfo.remote
 		hostinfo.lastRoamRemote = &remoteCopy
-		hostinfo.SetRemote(addr)
+		hostinfo.SetRemote(*addr)
 		if f.lightHouse.amLighthouse {
 			f.lightHouse.AddRemote(hostinfo.hostId, addr, false)
 		}
 	}
 }
-func (f *Interface) handleEncrypted(ci *ConnectionState, addr *udp.Addr, h *header.H) bool {
+func (f *Interface) handleEncrypted(ci *ConnectionState, addr *udpAddr, header *Header) bool {
 	// If connectionstate exists and the replay protector allows, process packet
 	// Else, send recv errors for 300 seconds after a restart to allow fast reconnection.
-	if ci == nil || !ci.window.Check(f.l, h.MessageCounter) {
+	if ci == nil || !ci.window.Check(header.MessageCounter) {
-		f.sendRecvError(addr, h.RemoteIndex)
+		f.sendRecvError(addr, header.RemoteIndex)
 		return false
 	}
@@ -191,7 +98,7 @@ func (f *Interface) handleEncrypted(ci *ConnectionState, addr *udp.Addr, h *head
 }
 // newPacket validates and parses the interesting bits for the firewall out of the ip and sub protocol headers
-func newPacket(data []byte, incoming bool, fp *firewall.Packet) error {
+func newPacket(data []byte, incoming bool, fp *FirewallPacket) error {
 	// Do we at least have an ipv4 header worth of data?
 	if len(data) < ipv4.HeaderLen {
 		return fmt.Errorf("packet is less than %v bytes", ipv4.HeaderLen)
@@ -219,7 +126,7 @@ func newPacket(data []byte, incoming bool, fp *firewall.Packet) error {
 	// Accounting for a variable header length, do we have enough data for our src/dst tuples?
 	minLen := ihl
-	if !fp.Fragment && fp.Protocol != firewall.ProtoICMP {
+	if !fp.Fragment && fp.Protocol != fwProtoICMP {
 		minLen += minFwPacketLen
 	}
 	if len(data) < minLen {
@@ -228,9 +135,9 @@ func newPacket(data []byte, incoming bool, fp *firewall.Packet) error {
 	// Firewall packets are locally oriented
 	if incoming {
-		fp.RemoteIP = iputil.Ip2VpnIp(data[12:16])
+		fp.RemoteIP = binary.BigEndian.Uint32(data[12:16])
-		fp.LocalIP = iputil.Ip2VpnIp(data[16:20])
+		fp.LocalIP = binary.BigEndian.Uint32(data[16:20])
-		if fp.Fragment || fp.Protocol == firewall.ProtoICMP {
+		if fp.Fragment || fp.Protocol == fwProtoICMP {
 			fp.RemotePort = 0
 			fp.LocalPort = 0
 		} else {
@@ -238,9 +145,9 @@ func newPacket(data []byte, incoming bool, fp *firewall.Packet) error {
 			fp.LocalPort = binary.BigEndian.Uint16(data[ihl+2 : ihl+4])
 		}
 	} else {
-		fp.LocalIP = iputil.Ip2VpnIp(data[12:16])
+		fp.LocalIP = binary.BigEndian.Uint32(data[12:16])
-		fp.RemoteIP = iputil.Ip2VpnIp(data[16:20])
+		fp.RemoteIP = binary.BigEndian.Uint32(data[16:20])
-		if fp.Fragment || fp.Protocol == firewall.ProtoICMP {
+		if fp.Fragment || fp.Protocol == fwProtoICMP {
 			fp.RemotePort = 0
 			fp.LocalPort = 0
 		} else {
@@ -252,15 +159,15 @@ func newPacket(data []byte, incoming bool, fp *firewall.Packet) error {
 	return nil
 }
-func (f *Interface) decrypt(hostinfo *HostInfo, mc uint64, out []byte, packet []byte, h *header.H, nb []byte) ([]byte, error) {
+func (f *Interface) decrypt(hostinfo *HostInfo, mc uint64, out []byte, packet []byte, header *Header, nb []byte) ([]byte, error) {
 	var err error
-	out, err = hostinfo.ConnectionState.dKey.DecryptDanger(out, packet[:header.Len], packet[header.Len:], mc, nb)
+	out, err = hostinfo.ConnectionState.dKey.DecryptDanger(out, packet[:HeaderLen], packet[HeaderLen:], mc, nb)
 	if err != nil {
 		return nil, err
 	}
-	if !hostinfo.ConnectionState.window.Update(f.l, mc) {
+	if !hostinfo.ConnectionState.window.Update(mc) {
-		hostinfo.logger(f.l).WithField("header", h).
+		hostinfo.logger().WithField("header", header).
 			Debugln("dropping out of window packet")
 		return nil, errors.New("out of window packet")
 	}
@@ -268,12 +175,12 @@ func (f *Interface) decrypt(hostinfo *HostInfo, mc uint64, out []byte, packet []
 	return out, nil
 }
-func (f *Interface) decryptToTun(hostinfo *HostInfo, messageCounter uint64, out []byte, packet []byte, fwPacket *firewall.Packet, nb []byte, q int, localCache firewall.ConntrackCache) {
+func (f *Interface) decryptTo(write func([]byte) error, hostinfo *HostInfo, messageCounter uint64, out []byte, packet []byte, fwPacket *FirewallPacket, nb []byte) {
 	var err error
-	out, err = hostinfo.ConnectionState.dKey.DecryptDanger(out, packet[:header.Len], packet[header.Len:], messageCounter, nb)
+	out, err = hostinfo.ConnectionState.dKey.DecryptDanger(out, packet[:HeaderLen], packet[HeaderLen:], messageCounter, nb)
 	if err != nil {
-		hostinfo.logger(f.l).WithError(err).Error("Failed to decrypt packet")
+		hostinfo.logger().WithError(err).Error("Failed to decrypt packet")
 		//TODO: maybe after build 64 is out? 06/14/2018 - NB
 		//f.sendRecvError(hostinfo.remote, header.RemoteIndex)
 		return
@@ -281,78 +188,81 @@ func (f *Interface) decryptToTun(hostinfo *HostInfo, messageCounter uint64, out
 	err = newPacket(out, true, fwPacket)
 	if err != nil {
-		hostinfo.logger(f.l).WithError(err).WithField("packet", out).
+		hostinfo.logger().WithError(err).WithField("packet", out).
 			Warnf("Error while validating inbound packet")
 		return
 	}
-	if !hostinfo.ConnectionState.window.Update(f.l, messageCounter) {
+	if !hostinfo.ConnectionState.window.Update(messageCounter) {
-		hostinfo.logger(f.l).WithField("fwPacket", fwPacket).
+		hostinfo.logger().WithField("fwPacket", fwPacket).
 			Debugln("dropping out of window packet")
 		return
 	}
-	dropReason := f.firewall.Drop(out, *fwPacket, true, hostinfo, f.caPool, localCache)
+	dropReason := f.firewall.Drop(out, *fwPacket, true, hostinfo, trustedCAs)
 	if dropReason != nil {
-		if f.l.Level >= logrus.DebugLevel {
+		if l.Level >= logrus.DebugLevel {
-			hostinfo.logger(f.l).WithField("fwPacket", fwPacket).
+			hostinfo.logger().WithField("fwPacket", fwPacket).
 				WithField("reason", dropReason).
 				Debugln("dropping inbound packet")
 		}
 		return
 	}
-	f.connectionManager.In(hostinfo.vpnIp)
+	f.connectionManager.In(hostinfo.hostId)
-	_, err = f.readers[q].Write(out)
+	err = write(out)
 	if err != nil {
-		f.l.WithError(err).Error("Failed to write to tun")
+		l.WithError(err).Error("Failed to write to tun")
 	}
 }
-func (f *Interface) sendRecvError(endpoint *udp.Addr, index uint32) {
+func (f *Interface) sendRecvError(endpoint *udpAddr, index uint32) {
-	f.messageMetrics.Tx(header.RecvError, 0, 1)
+	f.messageMetrics.Tx(recvError, 0, 1)
 	//TODO: this should be a signed message so we can trust that we should drop the index
-	b := header.Encode(make([]byte, header.Len), header.Version, header.RecvError, 0, index, 0)
+	b := HeaderEncode(make([]byte, HeaderLen), Version, uint8(recvError), 0, index, 0)
 	f.outside.WriteTo(b, endpoint)
-	if f.l.Level >= logrus.DebugLevel {
+	if l.Level >= logrus.DebugLevel {
-		f.l.WithField("index", index).
+		l.WithField("index", index).
 			WithField("udpAddr", endpoint).
 			Debug("Recv error sent")
 	}
 }
-func (f *Interface) handleRecvError(addr *udp.Addr, h *header.H) {
+func (f *Interface) handleRecvError(addr *udpAddr, h *Header) {
-	if f.l.Level >= logrus.DebugLevel {
+	// This flag is to stop caring about recv_error from old versions
-		f.l.WithField("index", h.RemoteIndex).
+	// This should go away when the old version is gone from prod
 	if l.Level >= logrus.DebugLevel {
 		l.WithField("index", h.RemoteIndex).
 			WithField("udpAddr", addr).
 			Debug("Recv error received")
 	}
 	// First, clean up in the pending hostmap
 	f.handshakeManager.pendingHostMap.DeleteReverseIndex(h.RemoteIndex)
 	hostinfo, err := f.hostMap.QueryReverseIndex(h.RemoteIndex)
 	if err != nil {
-		f.l.Debugln(err, ": ", h.RemoteIndex)
+		l.Debugln(err, ": ", h.RemoteIndex)
 		return
 	}
 	hostinfo.Lock()
 	defer hostinfo.Unlock()
 	if !hostinfo.RecvErrorExceeded() {
 		return
 	}
-	if hostinfo.remote != nil && !hostinfo.remote.Equals(addr) {
+	if hostinfo.remote != nil && hostinfo.remote.String() != addr.String() {
-		f.l.Infoln("Someone spoofing recv_errors? ", addr, hostinfo.remote)
+		l.Infoln("Someone spoofing recv_errors? ", addr, hostinfo.remote)
 		return
 	}
-	f.closeTunnel(hostinfo, false)
+	id := hostinfo.localIndexId
-	// We also delete it from pending hostmap to allow for
+	host := hostinfo.hostId
-	// fast reconnect.
+	// We delete this host from the main hostmap
-	f.handshakeManager.DeleteHostInfo(hostinfo)
+	f.hostMap.DeleteIndex(id)
 	f.hostMap.DeleteVpnIP(host)
 	// We also delete it from pending to allow for
 	// fast reconnect. We must null the connectionstate
 	// or a counter reuse may happen
 	hostinfo.ConnectionState = nil
 	f.handshakeManager.DeleteIndex(id)
 	f.handshakeManager.DeleteVpnIP(host)
 }
 /*
@@ -377,7 +287,7 @@ func (f *Interface) sendMeta(ci *ConnectionState, endpoint *net.UDPAddr, meta *N
 }
 */
-func RecombineCertAndValidate(h *noise.HandshakeState, rawCertBytes []byte, caPool *cert.NebulaCAPool) (*cert.NebulaCertificate, error) {
+func RecombineCertAndValidate(h *noise.HandshakeState, rawCertBytes []byte) (*cert.NebulaCertificate, error) {
 	pk := h.PeerStatic()
 	if pk == nil {
@@ -406,7 +316,7 @@ func RecombineCertAndValidate(h *noise.HandshakeState, rawCertBytes []byte, caPo
 	}
 	c, _ := cert.UnmarshalNebulaCertificate(recombined)
-	isValid, err := c.Verify(time.Now(), caPool)
+	isValid, err := c.Verify(time.Now(), trustedCAs)
 	if err != nil {
 		return c, fmt.Errorf("certificate validation failed: %s", err)
 	} else if !isValid {
--- a/outside_test.go
+++ b/outside_test.go
@@ -4,14 +4,12 @@ import (
 	"net"
 	"testing"
 	"github.com/slackhq/nebula/firewall"
 	"github.com/slackhq/nebula/iputil"
 	"github.com/stretchr/testify/assert"
 	"golang.org/x/net/ipv4"
 )
 func Test_newPacket(t *testing.T) {
-	p := &firewall.Packet{}
+	p := &FirewallPacket{}
 	// length fail
 	err := newPacket([]byte{0, 1}, true, p)
@@ -46,7 +44,7 @@ func Test_newPacket(t *testing.T) {
 		Src:      net.IPv4(10, 0, 0, 1),
 		Dst:      net.IPv4(10, 0, 0, 2),
 		Options:  []byte{0, 1, 0, 2},
-		Protocol: firewall.ProtoTCP,
+		Protocol: fwProtoTCP,
 	}
 	b, _ = h.Marshal()
@@ -54,9 +52,9 @@ func Test_newPacket(t *testing.T) {
 	err = newPacket(b, true, p)
 	assert.Nil(t, err)
-	assert.Equal(t, p.Protocol, uint8(firewall.ProtoTCP))
+	assert.Equal(t, p.Protocol, uint8(fwProtoTCP))
-	assert.Equal(t, p.LocalIP, iputil.Ip2VpnIp(net.IPv4(10, 0, 0, 2)))
+	assert.Equal(t, p.LocalIP, ip2int(net.IPv4(10, 0, 0, 2)))
-	assert.Equal(t, p.RemoteIP, iputil.Ip2VpnIp(net.IPv4(10, 0, 0, 1)))
+	assert.Equal(t, p.RemoteIP, ip2int(net.IPv4(10, 0, 0, 1)))
 	assert.Equal(t, p.RemotePort, uint16(3))
 	assert.Equal(t, p.LocalPort, uint16(4))
@@ -76,8 +74,8 @@ func Test_newPacket(t *testing.T) {
 	assert.Nil(t, err)
 	assert.Equal(t, p.Protocol, uint8(2))
-	assert.Equal(t, p.LocalIP, iputil.Ip2VpnIp(net.IPv4(10, 0, 0, 1)))
+	assert.Equal(t, p.LocalIP, ip2int(net.IPv4(10, 0, 0, 1)))
-	assert.Equal(t, p.RemoteIP, iputil.Ip2VpnIp(net.IPv4(10, 0, 0, 2)))
+	assert.Equal(t, p.RemoteIP, ip2int(net.IPv4(10, 0, 0, 2)))
 	assert.Equal(t, p.RemotePort, uint16(6))
 	assert.Equal(t, p.LocalPort, uint16(5))
 }
--- a/overlay/device.go
+++ b/overlay/device.go
@@ -1,17 +0,0 @@
 package overlay
 import (
 	"io"
 	"net"
 	"github.com/slackhq/nebula/iputil"
 )
 type Device interface {
 	io.ReadWriteCloser
 	Activate() error
 	Cidr() *net.IPNet
 	Name() string
 	RouteFor(iputil.VpnIp) iputil.VpnIp
 	NewMultiQueueReader() (io.ReadWriteCloser, error)
 }
--- a/overlay/tun.go
+++ b/overlay/tun.go
@@ -1,51 +0,0 @@
 package overlay
 import (
 	"net"
 	"github.com/sirupsen/logrus"
 	"github.com/slackhq/nebula/config"
 	"github.com/slackhq/nebula/util"
 )
 const DefaultMTU = 1300
 func NewDeviceFromConfig(c *config.C, l *logrus.Logger, tunCidr *net.IPNet, fd *int, routines int) (Device, error) {
 	routes, err := parseRoutes(c, tunCidr)
 	if err != nil {
 		return nil, util.NewContextualError("Could not parse tun.routes", nil, err)
 	}
 	unsafeRoutes, err := parseUnsafeRoutes(c, tunCidr)
 	if err != nil {
 		return nil, util.NewContextualError("Could not parse tun.unsafe_routes", nil, err)
 	}
 	routes = append(routes, unsafeRoutes...)
 	switch {
 	case c.GetBool("tun.disabled", false):
 		tun := newDisabledTun(tunCidr, c.GetInt("tun.tx_queue", 500), c.GetBool("stats.message_metrics", false), l)
 		return tun, nil
 	case fd != nil:
 		return newTunFromFd(
 			l,
 			*fd,
 			tunCidr,
 			c.GetInt("tun.mtu", DefaultMTU),
 			routes,
 			c.GetInt("tun.tx_queue", 500),
 		)
 	default:
 		return newTun(
 			l,
 			c.GetString("tun.dev", ""),
 			tunCidr,
 			c.GetInt("tun.mtu", DefaultMTU),
 			routes,
 			c.GetInt("tun.tx_queue", 500),
 			routines > 1,
 		)
 	}
 }
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Dave Russell	db11e2f1af	Revert "smoke test" This reverts commit `fa034a6d83`.	2020-10-03 00:09:18 +10:00
Dave Russell	2ee428b067	Hook send should use a code path that actually firewalls This change enforces that outbound hook traffic will actually be checked by the firewall and added to the conntrack if allowed.	2020-10-02 23:42:20 +10:00
Dave Russell	e9657d571e	control->Send: Also set the src port With the source port also set, we only need to enable inbound firewall rules on the 'server' side of the connection, as the conntrack will allow replies.	2020-10-02 22:25:31 +10:00
Dave Russell	3cebf38504	The custom message packet sender needs a dest port Source/Dest ports are required for the nebula firewall on the receiving side, allow the port to be configured so that it can be matched to specific rules as required.	2020-10-02 20:46:08 +10:00
Dave Russell	ae3ee42469	Provide hooks for custom message packet handlers This commit augments the Control API by providing new methods to inject message packets destined peer nodes, and/or to intercept message packets of a custom message subtype that are received from peer nodes.	2020-09-28 22:31:19 +10:00
Dave Russell	fa034a6d83	smoke test	2020-09-27 22:43:24 +10:00
Dave Russell	55d72ac46f	Tighten up the inside handlers with a bit of DRY	2020-09-27 22:37:20 +10:00
Dave Russell	2c931d5691	Move inside packet handlers into map This commit moves the inside packet handlers into a map of functions from the large switch statement. The functions are mapped by packet protocol version, type and subtype; which makes it simpler to inject either a new protocol version and/or custom handlers.	2020-09-27 22:04:14 +10:00
		`@@ -1,3 +0,0 @@`
			`package e2e`

			// This file exists to allow `go fmt` to traverse here on its own. The build tags were keeping it out before
		`@@ -1,3 +0,0 @@`
			`package router`

			// This file exists to allow `go fmt` to traverse here on its own. The build tags were keeping it out before