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base: personal_interest_mirrors:cert-v2-reloads-with-relay-stuff
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personal_interest_mirrors:master personal_interest_mirrors:udpaddr-logging personal_interest_mirrors:e2e-bench-update personal_interest_mirrors:firewall-forward-table personal_interest_mirrors:jay.wren-wireguard-tun-2 personal_interest_mirrors:changelog-1.10.0 personal_interest_mirrors:vhost personal_interest_mirrors:channels-spicy personal_interest_mirrors:channels-sendmmsg-batching personal_interest_mirrors:botched-path personal_interest_mirrors:channels-batching personal_interest_mirrors:channels_and_minimal_gsogro personal_interest_mirrors:batched-path personal_interest_mirrors:channels2 personal_interest_mirrors:no-exit personal_interest_mirrors:io-uring-gso-gro-offtherails personal_interest_mirrors:stinky personal_interest_mirrors:stinkier personal_interest_mirrors:master-1-9-tag personal_interest_mirrors:jay.wren-wireguard-tun personal_interest_mirrors:cross-stack-relay-overlaps personal_interest_mirrors:one-nine-bart-update personal_interest_mirrors:tun-name-template personal_interest_mirrors:cross-stack-relay personal_interest_mirrors:release-1.9 personal_interest_mirrors:changelog-v1.9.7 personal_interest_mirrors:release-1.9-hostmap-networks-fix personal_interest_mirrors:cert-v2-reloads-with-relay-stuff personal_interest_mirrors:channels personal_interest_mirrors:update-lh-on-netlink-addr personal_interest_mirrors:multiport personal_interest_mirrors:fips140 personal_interest_mirrors:synctrace personal_interest_mirrors:remove-olddead-tunnels personal_interest_mirrors:jay.wren-dns-ctx personal_interest_mirrors:jay.wren-lint personal_interest_mirrors:mutex-debug personal_interest_mirrors:psk-v2 personal_interest_mirrors:cert-v2-more-todo personal_interest_mirrors:make-boringcrypto-checklinkname personal_interest_mirrors:prometheus-static-labels personal_interest_mirrors:add-http-pprof personal_interest_mirrors:psk personal_interest_mirrors:windows_udp_buffer_setting personal_interest_mirrors:interface-hooks
personal_interest_mirrors:v1.9.7 personal_interest_mirrors:v1.9.6 personal_interest_mirrors:v1.9.5 personal_interest_mirrors:v1.9.4 personal_interest_mirrors:v1.9.3 personal_interest_mirrors:v1.9.2 personal_interest_mirrors:v1.9.1 personal_interest_mirrors:v1.9.0 personal_interest_mirrors:v1.8.2 personal_interest_mirrors:v1.8.1 personal_interest_mirrors:v1.8.0 personal_interest_mirrors:v1.7.2 personal_interest_mirrors:v1.7.1 personal_interest_mirrors:v1.7.0 personal_interest_mirrors:v1.6.1 personal_interest_mirrors:v1.6.0 personal_interest_mirrors:v1.5.2 personal_interest_mirrors:v1.5.0 personal_interest_mirrors:v1.4.0 personal_interest_mirrors:v1.3.0 personal_interest_mirrors:v1.2.0 personal_interest_mirrors:v1.1.0 personal_interest_mirrors:v1.0.0
..
compare: personal_interest_mirrors:channels-spicy
Branches Tags
personal_interest_mirrors:udpaddr-logging personal_interest_mirrors:e2e-bench-update personal_interest_mirrors:firewall-forward-table personal_interest_mirrors:master personal_interest_mirrors:jay.wren-wireguard-tun-2 personal_interest_mirrors:changelog-1.10.0 personal_interest_mirrors:vhost personal_interest_mirrors:channels-spicy personal_interest_mirrors:channels-sendmmsg-batching personal_interest_mirrors:botched-path personal_interest_mirrors:channels-batching personal_interest_mirrors:channels_and_minimal_gsogro personal_interest_mirrors:batched-path personal_interest_mirrors:channels2 personal_interest_mirrors:no-exit personal_interest_mirrors:io-uring-gso-gro-offtherails personal_interest_mirrors:stinky personal_interest_mirrors:stinkier personal_interest_mirrors:master-1-9-tag personal_interest_mirrors:jay.wren-wireguard-tun personal_interest_mirrors:cross-stack-relay-overlaps personal_interest_mirrors:one-nine-bart-update personal_interest_mirrors:tun-name-template personal_interest_mirrors:cross-stack-relay personal_interest_mirrors:release-1.9 personal_interest_mirrors:changelog-v1.9.7 personal_interest_mirrors:release-1.9-hostmap-networks-fix personal_interest_mirrors:cert-v2-reloads-with-relay-stuff personal_interest_mirrors:channels personal_interest_mirrors:update-lh-on-netlink-addr personal_interest_mirrors:multiport personal_interest_mirrors:fips140 personal_interest_mirrors:synctrace personal_interest_mirrors:remove-olddead-tunnels personal_interest_mirrors:jay.wren-dns-ctx personal_interest_mirrors:jay.wren-lint personal_interest_mirrors:mutex-debug personal_interest_mirrors:psk-v2 personal_interest_mirrors:cert-v2-more-todo personal_interest_mirrors:make-boringcrypto-checklinkname personal_interest_mirrors:prometheus-static-labels personal_interest_mirrors:add-http-pprof personal_interest_mirrors:psk personal_interest_mirrors:windows_udp_buffer_setting personal_interest_mirrors:interface-hooks
personal_interest_mirrors:v1.9.7 personal_interest_mirrors:v1.9.6 personal_interest_mirrors:v1.9.5 personal_interest_mirrors:v1.9.4 personal_interest_mirrors:v1.9.3 personal_interest_mirrors:v1.9.2 personal_interest_mirrors:v1.9.1 personal_interest_mirrors:v1.9.0 personal_interest_mirrors:v1.8.2 personal_interest_mirrors:v1.8.1 personal_interest_mirrors:v1.8.0 personal_interest_mirrors:v1.7.2 personal_interest_mirrors:v1.7.1 personal_interest_mirrors:v1.7.0 personal_interest_mirrors:v1.6.1 personal_interest_mirrors:v1.6.0 personal_interest_mirrors:v1.5.2 personal_interest_mirrors:v1.5.0 personal_interest_mirrors:v1.4.0 personal_interest_mirrors:v1.3.0 personal_interest_mirrors:v1.2.0 personal_interest_mirrors:v1.1.0 personal_interest_mirrors:v1.0.0

15 Commits
cert-v2-re ... channels-s

Author SHA1 Message Date
JackDoan
f2bb43fb42 remove gso, leave nice pretty GRO 2025-11-07 11:24:14 -06:00
JackDoan
7999b62147 cursed gso 2025-11-06 17:56:46 -06:00
JackDoan
2ab75709ad hmm 2025-11-04 15:40:33 -06:00
Nate Brown
2ea8a72d5c dunno 2025-10-05 23:23:30 -05:00
Nate Brown
663232e1fc Testing the concept 2025-10-05 23:23:10 -05:00
Nate Brown
2f48529e8b Cleanup and note more work 2025-10-05 23:23:08 -05:00
Nate Brown
f3e1ad64cd Try the timeout 2025-10-05 23:22:29 -05:00
Nate Brown
1d8112a329 Revert "More playing" way too much garbage emitted 
This reverts commit fa098c551a.
 2025-10-05 23:22:29 -05:00
Nate Brown
31eea0cc94 More playing 2025-10-05 23:22:29 -05:00
Nate Brown
dbba4a4c77 Playing 2025-10-05 23:22:29 -05:00
Nate Brown
194fde45da non-blocking io for linux 2025-10-05 23:22:27 -05:00
Nate Brown
f46b83f2c4 Remove more os.Exit calls and give a more reliable wait for stop function 2025-10-05 23:20:43 -05:00
Nate Brown
fb7f0c3657 Use x/net/route to manage routes directly (#1488) 2025-10-03 10:59:53 -05:00
sl274
b1f53d8d25 Support IPv6 tunneling in FreeBSD (#1399) 
Recent merge of cert-v2 support introduced the ability to tunnel IPv6. However, FreeBSD's IPv6 tunneling does not work for 2 reasons:
* The ifconfig commands did not work for IPv6 addresses
* The tunnel device was not configured for link-layer mode, so it only supported IPv4

This PR improves FreeBSD tunneling support in 3 ways:
* Use ioctl instead of exec'ing ifconfig to configure the interface, with additional logic to support IPv6
* Configure the tunnel in link-layer mode, allowing IPv6 traffic
* Use readv() and writev() to communicate with the tunnel device, to avoid the need to copy the packet buffer
 2025-10-02 21:54:30 -05:00
Jack Doan
8824eeaea2 helper functions to more correctly marshal curve 25519 public keys (#1481) 2025-10-02 13:56:41 -05:00
37 changed files with 1374 additions and 820 deletions
Expand all files Collapse all files

3
bits.go
View File

@@ -5,6 +5,7 @@ import (
"github.com/sirupsen/logrus"
)
// TODO: Pretty sure this is just all sorts of racy now, we need it to be atomic
type Bits struct {
length uint64
current uint64
@@ -43,7 +44,7 @@ func (b *Bits) Check(l logrus.FieldLogger, i uint64) bool {
}
// Not within the window
l.Debugf("rejected a packet (top) %d %d\n", b.current, i)
l.Error("rejected a packet (top) %d %d\n", b.current, i)
return false
}

3
cert/cert.go
View File

@@ -58,6 +58,9 @@ type Certificate interface {
// PublicKey is the raw bytes to be used in asymmetric cryptographic operations.
PublicKey() []byte
// MarshalPublicKeyPEM is the value of PublicKey marshalled to PEM
MarshalPublicKeyPEM() []byte
// Curve identifies which curve was used for the PublicKey and Signature.
Curve() Curve

4
cert/cert_v1.go
View File

@@ -83,6 +83,10 @@ func (c *certificateV1) PublicKey() []byte {
return c.details.publicKey
}
func (c *certificateV1) MarshalPublicKeyPEM() []byte {
return marshalCertPublicKeyToPEM(c)
}
func (c *certificateV1) Signature() []byte {
return c.signature
}

54
cert/cert_v1_test.go
View File

@@ -1,6 +1,7 @@
package cert
import (
"crypto/ed25519"
"fmt"
"net/netip"
"testing"
@@ -13,6 +14,7 @@ import (
)
func TestCertificateV1_Marshal(t *testing.T) {
t.Parallel()
before := time.Now().Add(time.Second * -60).Round(time.Second)
after := time.Now().Add(time.Second * 60).Round(time.Second)
pubKey := []byte("1234567890abcedfghij1234567890ab")
@@ -60,6 +62,58 @@ func TestCertificateV1_Marshal(t *testing.T) {
assert.Equal(t, nc.Groups(), nc2.Groups())
}
func TestCertificateV1_PublicKeyPem(t *testing.T) {
t.Parallel()
before := time.Now().Add(time.Second * -60).Round(time.Second)
after := time.Now().Add(time.Second * 60).Round(time.Second)
pubKey := ed25519.PublicKey("1234567890abcedfghij1234567890ab")
nc := certificateV1{
details: detailsV1{
name: "testing",
networks: []netip.Prefix{},
unsafeNetworks: []netip.Prefix{},
groups: []string{"test-group1", "test-group2", "test-group3"},
notBefore: before,
notAfter: after,
publicKey: pubKey,
isCA: false,
issuer: "1234567890abcedfghij1234567890ab",
},
signature: []byte("1234567890abcedfghij1234567890ab"),
}
assert.Equal(t, Version1, nc.Version())
assert.Equal(t, Curve_CURVE25519, nc.Curve())
pubPem := "-----BEGIN NEBULA X25519 PUBLIC KEY-----\nMTIzNDU2Nzg5MGFiY2VkZmdoaWoxMjM0NTY3ODkwYWI=\n-----END NEBULA X25519 PUBLIC KEY-----\n"
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), pubPem)
assert.False(t, nc.IsCA())
nc.details.isCA = true
assert.Equal(t, Curve_CURVE25519, nc.Curve())
pubPem = "-----BEGIN NEBULA ED25519 PUBLIC KEY-----\nMTIzNDU2Nzg5MGFiY2VkZmdoaWoxMjM0NTY3ODkwYWI=\n-----END NEBULA ED25519 PUBLIC KEY-----\n"
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), pubPem)
assert.True(t, nc.IsCA())
pubP256KeyPem := []byte(`-----BEGIN NEBULA P256 PUBLIC KEY-----
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAA=
-----END NEBULA P256 PUBLIC KEY-----
`)
pubP256Key, _, _, err := UnmarshalPublicKeyFromPEM(pubP256KeyPem)
require.NoError(t, err)
nc.details.curve = Curve_P256
nc.details.publicKey = pubP256Key
assert.Equal(t, Curve_P256, nc.Curve())
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), string(pubP256KeyPem))
assert.True(t, nc.IsCA())
nc.details.isCA = false
assert.Equal(t, Curve_P256, nc.Curve())
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), string(pubP256KeyPem))
assert.False(t, nc.IsCA())
}
func TestCertificateV1_Expired(t *testing.T) {
nc := certificateV1{
details: detailsV1{

4
cert/cert_v2.go
View File

@@ -114,6 +114,10 @@ func (c *certificateV2) PublicKey() []byte {
return c.publicKey
}
func (c *certificateV2) MarshalPublicKeyPEM() []byte {
return marshalCertPublicKeyToPEM(c)
}
func (c *certificateV2) Signature() []byte {
return c.signature
}

53
cert/cert_v2_test.go
View File

@@ -15,6 +15,7 @@ import (
)
func TestCertificateV2_Marshal(t *testing.T) {
t.Parallel()
before := time.Now().Add(time.Second * -60).Round(time.Second)
after := time.Now().Add(time.Second * 60).Round(time.Second)
pubKey := []byte("1234567890abcedfghij1234567890ab")
@@ -75,6 +76,58 @@ func TestCertificateV2_Marshal(t *testing.T) {
assert.Equal(t, nc.Groups(), nc2.Groups())
}
func TestCertificateV2_PublicKeyPem(t *testing.T) {
t.Parallel()
before := time.Now().Add(time.Second * -60).Round(time.Second)
after := time.Now().Add(time.Second * 60).Round(time.Second)
pubKey := ed25519.PublicKey("1234567890abcedfghij1234567890ab")
nc := certificateV2{
details: detailsV2{
name: "testing",
networks: []netip.Prefix{},
unsafeNetworks: []netip.Prefix{},
groups: []string{"test-group1", "test-group2", "test-group3"},
notBefore: before,
notAfter: after,
isCA: false,
issuer: "1234567890abcedfghij1234567890ab",
},
publicKey: pubKey,
signature: []byte("1234567890abcedfghij1234567890ab"),
}
assert.Equal(t, Version2, nc.Version())
assert.Equal(t, Curve_CURVE25519, nc.Curve())
pubPem := "-----BEGIN NEBULA X25519 PUBLIC KEY-----\nMTIzNDU2Nzg5MGFiY2VkZmdoaWoxMjM0NTY3ODkwYWI=\n-----END NEBULA X25519 PUBLIC KEY-----\n"
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), pubPem)
assert.False(t, nc.IsCA())
nc.details.isCA = true
assert.Equal(t, Curve_CURVE25519, nc.Curve())
pubPem = "-----BEGIN NEBULA ED25519 PUBLIC KEY-----\nMTIzNDU2Nzg5MGFiY2VkZmdoaWoxMjM0NTY3ODkwYWI=\n-----END NEBULA ED25519 PUBLIC KEY-----\n"
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), pubPem)
assert.True(t, nc.IsCA())
pubP256KeyPem := []byte(`-----BEGIN NEBULA P256 PUBLIC KEY-----
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAA=
-----END NEBULA P256 PUBLIC KEY-----
`)
pubP256Key, _, _, err := UnmarshalPublicKeyFromPEM(pubP256KeyPem)
require.NoError(t, err)
nc.curve = Curve_P256
nc.publicKey = pubP256Key
assert.Equal(t, Curve_P256, nc.Curve())
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), string(pubP256KeyPem))
assert.True(t, nc.IsCA())
nc.details.isCA = false
assert.Equal(t, Curve_P256, nc.Curve())
assert.Equal(t, string(nc.MarshalPublicKeyPEM()), string(pubP256KeyPem))
assert.False(t, nc.IsCA())
}
func TestCertificateV2_Expired(t *testing.T) {
nc := certificateV2{
details: detailsV2{

52
cert/pem.go
View File

@@ -7,19 +7,26 @@ import (
"golang.org/x/crypto/ed25519"
)
const (
CertificateBanner = "NEBULA CERTIFICATE"
CertificateV2Banner = "NEBULA CERTIFICATE V2"
X25519PrivateKeyBanner = "NEBULA X25519 PRIVATE KEY"
X25519PublicKeyBanner = "NEBULA X25519 PUBLIC KEY"
EncryptedEd25519PrivateKeyBanner = "NEBULA ED25519 ENCRYPTED PRIVATE KEY"
Ed25519PrivateKeyBanner = "NEBULA ED25519 PRIVATE KEY"
Ed25519PublicKeyBanner = "NEBULA ED25519 PUBLIC KEY"
const ( //cert banners
CertificateBanner = "NEBULA CERTIFICATE"
CertificateV2Banner = "NEBULA CERTIFICATE V2"
)
P256PrivateKeyBanner = "NEBULA P256 PRIVATE KEY"
P256PublicKeyBanner = "NEBULA P256 PUBLIC KEY"
const ( //key-agreement-key banners
X25519PrivateKeyBanner = "NEBULA X25519 PRIVATE KEY"
X25519PublicKeyBanner = "NEBULA X25519 PUBLIC KEY"
P256PrivateKeyBanner = "NEBULA P256 PRIVATE KEY"
P256PublicKeyBanner = "NEBULA P256 PUBLIC KEY"
)
/* including "ECDSA" in the P256 banners is a clue that these keys should be used only for signing */
const ( //signing key banners
EncryptedECDSAP256PrivateKeyBanner = "NEBULA ECDSA P256 ENCRYPTED PRIVATE KEY"
ECDSAP256PrivateKeyBanner = "NEBULA ECDSA P256 PRIVATE KEY"
ECDSAP256PublicKeyBanner = "NEBULA ECDSA P256 PUBLIC KEY"
EncryptedEd25519PrivateKeyBanner = "NEBULA ED25519 ENCRYPTED PRIVATE KEY"
Ed25519PrivateKeyBanner = "NEBULA ED25519 PRIVATE KEY"
Ed25519PublicKeyBanner = "NEBULA ED25519 PUBLIC KEY"
)
// UnmarshalCertificateFromPEM will try to unmarshal the first pem block in a byte array, returning any non consumed
@@ -51,6 +58,16 @@ func UnmarshalCertificateFromPEM(b []byte) (Certificate, []byte, error) {
}
func marshalCertPublicKeyToPEM(c Certificate) []byte {
if c.IsCA() {
return MarshalSigningPublicKeyToPEM(c.Curve(), c.PublicKey())
} else {
return MarshalPublicKeyToPEM(c.Curve(), c.PublicKey())
}
}
// MarshalPublicKeyToPEM returns a PEM representation of a public key used for ECDH.
// if your public key came from a certificate, prefer Certificate.PublicKeyPEM() if possible, to avoid mistakes!
func MarshalPublicKeyToPEM(curve Curve, b []byte) []byte {
switch curve {
case Curve_CURVE25519:
@@ -62,6 +79,19 @@ func MarshalPublicKeyToPEM(curve Curve, b []byte) []byte {
}
}
// MarshalSigningPublicKeyToPEM returns a PEM representation of a public key used for signing.
// if your public key came from a certificate, prefer Certificate.PublicKeyPEM() if possible, to avoid mistakes!
func MarshalSigningPublicKeyToPEM(curve Curve, b []byte) []byte {
switch curve {
case Curve_CURVE25519:
return pem.EncodeToMemory(&pem.Block{Type: Ed25519PublicKeyBanner, Bytes: b})
case Curve_P256:
return pem.EncodeToMemory(&pem.Block{Type: P256PublicKeyBanner, Bytes: b})
default:
return nil
}
}
func UnmarshalPublicKeyFromPEM(b []byte) ([]byte, []byte, Curve, error) {
k, r := pem.Decode(b)
if k == nil {
@@ -73,7 +103,7 @@ func UnmarshalPublicKeyFromPEM(b []byte) ([]byte, []byte, Curve, error) {
case X25519PublicKeyBanner, Ed25519PublicKeyBanner:
expectedLen = 32
curve = Curve_CURVE25519
case P256PublicKeyBanner:
case P256PublicKeyBanner, ECDSAP256PublicKeyBanner:
// Uncompressed
expectedLen = 65
curve = Curve_P256

19
cert/pem_test.go
View File

@@ -177,6 +177,7 @@ AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
}
func TestUnmarshalPublicKeyFromPEM(t *testing.T) {
t.Parallel()
pubKey := []byte(`# A good key
-----BEGIN NEBULA ED25519 PUBLIC KEY-----
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
@@ -230,6 +231,7 @@ AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
}
func TestUnmarshalX25519PublicKey(t *testing.T) {
t.Parallel()
pubKey := []byte(`# A good key
-----BEGIN NEBULA X25519 PUBLIC KEY-----
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
@@ -240,6 +242,12 @@ AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAA=
-----END NEBULA P256 PUBLIC KEY-----
`)
oldPubP256Key := []byte(`# A good key
-----BEGIN NEBULA ECDSA P256 PUBLIC KEY-----
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAA=
-----END NEBULA ECDSA P256 PUBLIC KEY-----
`)
shortKey := []byte(`# A short key
-----BEGIN NEBULA X25519 PUBLIC KEY-----
@@ -256,15 +264,22 @@ AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=
-END NEBULA X25519 PUBLIC KEY-----`)
keyBundle := appendByteSlices(pubKey, pubP256Key, shortKey, invalidBanner, invalidPem)
keyBundle := appendByteSlices(pubKey, pubP256Key, oldPubP256Key, shortKey, invalidBanner, invalidPem)
// Success test case
k, rest, curve, err := UnmarshalPublicKeyFromPEM(keyBundle)
assert.Len(t, k, 32)
require.NoError(t, err)
assert.Equal(t, rest, appendByteSlices(pubP256Key, shortKey, invalidBanner, invalidPem))
assert.Equal(t, rest, appendByteSlices(pubP256Key, oldPubP256Key, shortKey, invalidBanner, invalidPem))
assert.Equal(t, Curve_CURVE25519, curve)
// Success test case
k, rest, curve, err = UnmarshalPublicKeyFromPEM(rest)
assert.Len(t, k, 65)
require.NoError(t, err)
assert.Equal(t, rest, appendByteSlices(oldPubP256Key, shortKey, invalidBanner, invalidPem))
assert.Equal(t, Curve_P256, curve)
// Success test case
k, rest, curve, err = UnmarshalPublicKeyFromPEM(rest)
assert.Len(t, k, 65)

27
cert_test/cert.go
View File

@@ -114,33 +114,6 @@ func NewTestCert(v cert.Version, curve cert.Curve, ca cert.Certificate, key []by
return c, pub, cert.MarshalPrivateKeyToPEM(curve, priv), pem
}
func NewTestCertDifferentVersion(c cert.Certificate, v cert.Version, ca cert.Certificate, key []byte) (cert.Certificate, []byte) {
nc := &cert.TBSCertificate{
Version: v,
Curve: c.Curve(),
Name: c.Name(),
Networks: c.Networks(),
UnsafeNetworks: c.UnsafeNetworks(),
Groups: c.Groups(),
NotBefore: time.Unix(c.NotBefore().Unix(), 0),
NotAfter: time.Unix(c.NotAfter().Unix(), 0),
PublicKey: c.PublicKey(),
IsCA: false,
}
c, err := nc.Sign(ca, ca.Curve(), key)
if err != nil {
panic(err)
}
pem, err := c.MarshalPEM()
if err != nil {
panic(err)
}
return c, pem
}
func X25519Keypair() ([]byte, []byte) {
privkey := make([]byte, 32)
if _, err := io.ReadFull(rand.Reader, privkey); err != nil {

191
cmd/gso/gso.go Normal file
View File

@@ -0,0 +1,191 @@
package main
import (
"encoding/binary"
"errors"
"flag"
"fmt"
"log"
"net"
"net/netip"
"time"
"unsafe"
"golang.org/x/sys/unix"
)
const (
// UDP_SEGMENT enables GSO segmentation
UDP_SEGMENT = 103
// Maximum GSO segment size (typical MTU - headers)
maxGSOSize = 1400
)
func main() {
destAddr := flag.String("dest", "10.4.0.16:4202", "Destination address")
gsoSize := flag.Int("gso", 1400, "GSO segment size")
totalSize := flag.Int("size", 14000, "Total payload size to send")
count := flag.Int("count", 1, "Number of packets to send")
flag.Parse()
if *gsoSize > maxGSOSize {
log.Fatalf("GSO size %d exceeds maximum %d", *gsoSize, maxGSOSize)
}
// Resolve destination address
_, err := net.ResolveUDPAddr("udp", *destAddr)
if err != nil {
log.Fatalf("Failed to resolve address: %v", err)
}
// Create a raw UDP socket with GSO support
fd, err := unix.Socket(unix.AF_INET, unix.SOCK_DGRAM, unix.IPPROTO_UDP)
if err != nil {
log.Fatalf("Failed to create socket: %v", err)
}
defer unix.Close(fd)
// Bind to a local address
localAddr := &unix.SockaddrInet4{
Port: 0, // Let the system choose a port
}
if err := unix.Bind(fd, localAddr); err != nil {
log.Fatalf("Failed to bind socket: %v", err)
}
fmt.Printf("Sending UDP packets with GSO enabled\n")
fmt.Printf("Destination: %s\n", *destAddr)
fmt.Printf("GSO segment size: %d bytes\n", *gsoSize)
fmt.Printf("Total payload size: %d bytes\n", *totalSize)
fmt.Printf("Number of packets: %d\n\n", *count)
// Create payload
payload := make([]byte, *totalSize)
for i := range payload {
payload[i] = byte(i % 256)
}
dest := netip.MustParseAddrPort(*destAddr)
//if err := unix.SetsockoptInt(fd, unix.SOL_UDP, unix.UDP_SEGMENT, 1400); err != nil {
// panic(err)
//}
for i := 0; i < *count; i++ {
err := WriteBatch(fd, payload, dest, uint16(*gsoSize), true)
if err != nil {
log.Printf("Send error on packet %d: %v", i, err)
continue
}
if (i+1)%100 == 0 || i == *count-1 {
fmt.Printf("Sent %d packets\n", i+1)
}
}
fmt.Printf("now, let's send without the correct ctrl header\n")
time.Sleep(time.Second)
for i := 0; i < *count; i++ {
err := WriteBatch(fd, payload, dest, uint16(*gsoSize), false)
if err != nil {
log.Printf("Send error on packet %d: %v", i, err)
continue
}
if (i+1)%100 == 0 || i == *count-1 {
fmt.Printf("Sent %d packets\n", i+1)
}
}
}
func WriteBatch(fd int, payload []byte, addr netip.AddrPort, segSize uint16, withHeader bool) error {
msgs := make([]rawMessage, 0, 1)
iovs := make([]iovec, 0, 1)
names := make([][unix.SizeofSockaddrInet6]byte, 0, 1)
sent := 0
pkts := []BatchPacket{
{
Payload: payload,
Addr: addr,
},
}
for _, pkt := range pkts {
if len(pkt.Payload) == 0 {
sent++
continue
}
msgs = append(msgs, rawMessage{})
iovs = append(iovs, iovec{})
names = append(names, [unix.SizeofSockaddrInet6]byte{})
idx := len(msgs) - 1
msg := &msgs[idx]
iov := &iovs[idx]
name := &names[idx]
setIovecSlice(iov, pkt.Payload)
msg.Hdr.Iov = iov
msg.Hdr.Iovlen = 1
if withHeader {
setRawMessageControl(msg, buildGSOControlMessage(segSize)) //
} else {
setRawMessageControl(msg, nil) //
}
msg.Hdr.Flags = 0
nameLen, err := encodeSockaddr(name[:], pkt.Addr)
if err != nil {
return err
}
msg.Hdr.Name = &name[0]
msg.Hdr.Namelen = nameLen
}
if len(msgs) == 0 {
return errors.New("nothing to write")
}
offset := 0
for offset < len(msgs) {
n, _, errno := unix.Syscall6(
unix.SYS_SENDMMSG,
uintptr(fd),
uintptr(unsafe.Pointer(&msgs[offset])),
uintptr(len(msgs)-offset),
0,
0,
0,
)
if errno != 0 {
if errno == unix.EINTR {
continue
}
return &net.OpError{Op: "sendmmsg", Err: errno}
}
if n == 0 {
break
}
offset += int(n)
}
return nil
}
func buildGSOControlMessage(segSize uint16) []byte {
control := make([]byte, unix.CmsgSpace(2))
hdr := (*unix.Cmsghdr)(unsafe.Pointer(&control[0]))
hdr.Level = unix.SOL_UDP
hdr.Type = unix.UDP_SEGMENT
setCmsgLen(hdr, unix.CmsgLen(2))
binary.NativeEndian.PutUint16(control[unix.CmsgLen(0):unix.CmsgLen(0)+2], uint16(segSize))
return control
}

85
cmd/gso/helper.go Normal file
View File

@@ -0,0 +1,85 @@
package main
import (
"encoding/binary"
"fmt"
"net/netip"
"unsafe"
"golang.org/x/sys/unix"
)
type iovec struct {
Base *byte
Len uint64
}
type msghdr struct {
Name *byte
Namelen uint32
Pad0 [4]byte
Iov *iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad1 [4]byte
}
type rawMessage struct {
Hdr msghdr
Len uint32
Pad0 [4]byte
}
type BatchPacket struct {
Payload []byte
Addr netip.AddrPort
}
func encodeSockaddr(dst []byte, addr netip.AddrPort) (uint32, error) {
if addr.Addr().Is4() {
if !addr.Addr().Is4() {
return 0, fmt.Errorf("Listener is IPv4, but writing to IPv6 remote")
}
var sa unix.RawSockaddrInet4
sa.Family = unix.AF_INET
sa.Addr = addr.Addr().As4()
binary.BigEndian.PutUint16((*[2]byte)(unsafe.Pointer(&sa.Port))[:], addr.Port())
size := unix.SizeofSockaddrInet4
copy(dst[:size], (*(*[unix.SizeofSockaddrInet4]byte)(unsafe.Pointer(&sa)))[:])
return uint32(size), nil
}
var sa unix.RawSockaddrInet6
sa.Family = unix.AF_INET6
sa.Addr = addr.Addr().As16()
binary.BigEndian.PutUint16((*[2]byte)(unsafe.Pointer(&sa.Port))[:], addr.Port())
size := unix.SizeofSockaddrInet6
copy(dst[:size], (*(*[unix.SizeofSockaddrInet6]byte)(unsafe.Pointer(&sa)))[:])
return uint32(size), nil
}
func setRawMessageControl(msg *rawMessage, buf []byte) {
if len(buf) == 0 {
msg.Hdr.Control = nil
msg.Hdr.Controllen = 0
return
}
msg.Hdr.Control = &buf[0]
msg.Hdr.Controllen = uint64(len(buf))
}
func setCmsgLen(h *unix.Cmsghdr, l int) {
h.Len = uint64(l)
}
func setIovecSlice(iov *iovec, b []byte) {
if len(b) == 0 {
iov.Base = nil
iov.Len = 0
return
}
iov.Base = &b[0]
iov.Len = uint64(len(b))
}

12
cmd/nebula-service/main.go
View File

@@ -65,8 +65,16 @@ func main() {
}
if !*configTest {
ctrl.Start()
ctrl.ShutdownBlock()
wait, err := ctrl.Start()
if err != nil {
util.LogWithContextIfNeeded("Error while running", err, l)
os.Exit(1)
}
go ctrl.ShutdownBlock()
wait()
l.Info("Goodbye")
}
os.Exit(0)

19
cmd/nebula/main.go
View File

@@ -3,6 +3,9 @@ package main
import (
"flag"
"fmt"
"log"
"net/http"
_ "net/http/pprof"
"os"
"github.com/sirupsen/logrus"
@@ -58,10 +61,22 @@ func main() {
os.Exit(1)
}
go func() {
log.Println(http.ListenAndServe("0.0.0.0:6060", nil))
}()
if !*configTest {
ctrl.Start()
wait, err := ctrl.Start()
if err != nil {
util.LogWithContextIfNeeded("Error while running", err, l)
os.Exit(1)
}
go ctrl.ShutdownBlock()
notifyReady(l)
ctrl.ShutdownBlock()
wait()
l.Info("Goodbye")
}
os.Exit(0)

82
connection_manager.go
View File

@@ -354,6 +354,7 @@ func (cm *connectionManager) makeTrafficDecision(localIndex uint32, now time.Tim
if mainHostInfo {
decision = tryRehandshake
} else {
if cm.shouldSwapPrimary(hostinfo) {
decision = swapPrimary
@@ -460,10 +461,6 @@ func (cm *connectionManager) shouldSwapPrimary(current *HostInfo) bool {
}
crt := cm.intf.pki.getCertState().getCertificate(current.ConnectionState.myCert.Version())
if crt == nil {
//my cert was reloaded away. We should definitely swap from this tunnel
return true
}
// If this tunnel is using the latest certificate then we should swap it to primary for a bit and see if things
// settle down.
return bytes.Equal(current.ConnectionState.myCert.Signature(), crt.Signature())
@@ -478,34 +475,31 @@ func (cm *connectionManager) swapPrimary(current, primary *HostInfo) {
cm.hostMap.Unlock()
}
// isInvalidCertificate decides if we should destroy a tunnel.
// returns true if pki.disconnect_invalid is true and the certificate is no longer valid.
// Blocklisted certificates will skip the pki.disconnect_invalid check and return true.
// isInvalidCertificate will check if we should destroy a tunnel if pki.disconnect_invalid is true and
// the certificate is no longer valid. Block listed certificates will skip the pki.disconnect_invalid
// check and return true.
func (cm *connectionManager) isInvalidCertificate(now time.Time, hostinfo *HostInfo) bool {
remoteCert := hostinfo.GetCert()
if remoteCert == nil {
return false //don't tear down tunnels for handshakes in progress
return false
}
caPool := cm.intf.pki.GetCAPool()
err := caPool.VerifyCachedCertificate(now, remoteCert)
if err == nil {
return false //cert is still valid! yay!
} else if err == cert.ErrBlockListed { //avoiding errors.Is for speed
// Block listed certificates should always be disconnected
hostinfo.logger(cm.l).WithError(err).
WithField("fingerprint", remoteCert.Fingerprint).
Info("Remote certificate is blocked, tearing down the tunnel")
return true
} else if cm.intf.disconnectInvalid.Load() {
hostinfo.logger(cm.l).WithError(err).
WithField("fingerprint", remoteCert.Fingerprint).
Info("Remote certificate is no longer valid, tearing down the tunnel")
return true
} else {
//if we reach here, the cert is no longer valid, but we're configured to keep tunnels from now-invalid certs open
return false
}
if !cm.intf.disconnectInvalid.Load() && err != cert.ErrBlockListed {
// Block listed certificates should always be disconnected
return false
}
hostinfo.logger(cm.l).WithError(err).
WithField("fingerprint", remoteCert.Fingerprint).
Info("Remote certificate is no longer valid, tearing down the tunnel")
return true
}
func (cm *connectionManager) sendPunch(hostinfo *HostInfo) {
@@ -536,45 +530,15 @@ func (cm *connectionManager) sendPunch(hostinfo *HostInfo) {
func (cm *connectionManager) tryRehandshake(hostinfo *HostInfo) {
cs := cm.intf.pki.getCertState()
curCrt := hostinfo.ConnectionState.myCert
curCrtVersion := curCrt.Version()
myCrt := cs.getCertificate(curCrtVersion)
if myCrt == nil {
cm.l.WithField("vpnAddrs", hostinfo.vpnAddrs).
WithField("version", curCrtVersion).
WithField("reason", "local certificate removed").
Info("Re-handshaking with remote")
cm.intf.handshakeManager.StartHandshake(hostinfo.vpnAddrs[0], nil)
myCrt := cs.getCertificate(curCrt.Version())
if curCrt.Version() >= cs.initiatingVersion && bytes.Equal(curCrt.Signature(), myCrt.Signature()) == true {
// The current tunnel is using the latest certificate and version, no need to rehandshake.
return
}
peerCrt := hostinfo.ConnectionState.peerCert
if peerCrt != nil && curCrtVersion < peerCrt.Certificate.Version() {
// if our certificate version is less than theirs, and we have a matching version available, rehandshake?
if cs.getCertificate(peerCrt.Certificate.Version()) != nil {
cm.l.WithField("vpnAddrs", hostinfo.vpnAddrs).
WithField("version", curCrtVersion).
WithField("peerVersion", peerCrt.Certificate.Version()).
WithField("reason", "local certificate version lower than peer, attempting to correct").
Info("Re-handshaking with remote")
cm.intf.handshakeManager.StartHandshake(hostinfo.vpnAddrs[0], func(hh *HandshakeHostInfo) {
hh.initiatingVersionOverride = peerCrt.Certificate.Version()
})
return
}
}
if !bytes.Equal(curCrt.Signature(), myCrt.Signature()) {
cm.l.WithField("vpnAddrs", hostinfo.vpnAddrs).
WithField("reason", "local certificate is not current").
Info("Re-handshaking with remote")
cm.intf.handshakeManager.StartHandshake(hostinfo.vpnAddrs[0], nil)
return
}
if curCrtVersion < cs.initiatingVersion {
cm.l.WithField("vpnAddrs", hostinfo.vpnAddrs).
WithField("reason", "current cert version < pki.initiatingVersion").
Info("Re-handshaking with remote")
cm.l.WithField("vpnAddrs", hostinfo.vpnAddrs).
WithField("reason", "local certificate is not current").
Info("Re-handshaking with remote")
cm.intf.handshakeManager.StartHandshake(hostinfo.vpnAddrs[0], nil)
return
}
cm.intf.handshakeManager.StartHandshake(hostinfo.vpnAddrs[0], nil)
}

4
connection_manager_test.go
View File

@@ -446,6 +446,10 @@ func (d *dummyCert) PublicKey() []byte {
return d.publicKey
}
func (d *dummyCert) MarshalPublicKeyPEM() []byte {
return cert.MarshalPublicKeyToPEM(d.curve, d.publicKey)
}
func (d *dummyCert) Signature() []byte {
return d.signature
}

4
connection_state.go
View File

@@ -13,7 +13,9 @@ import (
"github.com/slackhq/nebula/noiseutil"
)
const ReplayWindow = 1024
// TODO: In a 5Gbps test, 1024 is not sufficient. With a 1400 MTU this is about 1.4Gbps of window, assuming full packets.
// 4092 should be sufficient for 5Gbps
const ReplayWindow = 8192
type ConnectionState struct {
eKey *NebulaCipherState

56
control.go
View File

@@ -2,9 +2,11 @@ package nebula
import (
"context"
"errors"
"net/netip"
"os"
"os/signal"
"sync"
"syscall"
"github.com/sirupsen/logrus"
@@ -13,6 +15,16 @@ import (
"github.com/slackhq/nebula/overlay"
)
type RunState int
const (
Stopped RunState = 0 // The control has yet to be started
Started RunState = 1 // The control has been started
Stopping RunState = 2 // The control is stopping
)
var ErrAlreadyStarted = errors.New("nebula is already started")
// Every interaction here needs to take extra care to copy memory and not return or use arguments "as is" when touching
// core. This means copying IP objects, slices, de-referencing pointers and taking the actual value, etc
@@ -26,6 +38,9 @@ type controlHostLister interface {
}
type Control struct {
stateLock sync.Mutex
state RunState
f *Interface
l *logrus.Logger
ctx context.Context
@@ -49,10 +64,21 @@ type ControlHostInfo struct {
CurrentRelaysThroughMe []netip.Addr `json:"currentRelaysThroughMe"`
}
// Start actually runs nebula, this is a nonblocking call. To block use Control.ShutdownBlock()
func (c *Control) Start() {
// Start actually runs nebula, this is a nonblocking call.
// The returned function can be used to wait for nebula to fully stop.
func (c *Control) Start() (func(), error) {
c.stateLock.Lock()
if c.state != Stopped {
c.stateLock.Unlock()
return nil, ErrAlreadyStarted
}
// Activate the interface
c.f.activate()
err := c.f.activate()
if err != nil {
c.stateLock.Unlock()
return nil, err
}
// Call all the delayed funcs that waited patiently for the interface to be created.
if c.sshStart != nil {
@@ -72,15 +98,33 @@ func (c *Control) Start() {
}
// Start reading packets.
c.f.run()
c.state = Started
c.stateLock.Unlock()
return c.f.run(c.ctx)
}
func (c *Control) State() RunState {
c.stateLock.Lock()
defer c.stateLock.Unlock()
return c.state
}
func (c *Control) Context() context.Context {
return c.ctx
}
// Stop signals nebula to shutdown and close all tunnels, returns after the shutdown is complete
// Stop is a non-blocking call that signals nebula to close all tunnels and shut down
func (c *Control) Stop() {
c.stateLock.Lock()
if c.state != Started {
c.stateLock.Unlock()
// We are stopping or stopped already
return
}
c.state = Stopping
c.stateLock.Unlock()
// Stop the handshakeManager (and other services), to prevent new tunnels from
// being created while we're shutting them all down.
c.cancel()
@@ -89,7 +133,7 @@ func (c *Control) Stop() {
if err := c.f.Close(); err != nil {
c.l.WithError(err).Error("Close interface failed")
}
c.l.Info("Goodbye")
c.state = Stopped
}
// ShutdownBlock will listen for and block on term and interrupt signals, calling Control.Stop() once signalled

124
e2e/helpers_test.go
View File

@@ -29,6 +29,8 @@ type m = map[string]any
// newSimpleServer creates a nebula instance with many assumptions
func newSimpleServer(v cert.Version, caCrt cert.Certificate, caKey []byte, name string, sVpnNetworks string, overrides m) (*nebula.Control, []netip.Prefix, netip.AddrPort, *config.C) {
l := NewTestLogger()
var vpnNetworks []netip.Prefix
for _, sn := range strings.Split(sVpnNetworks, ",") {
vpnIpNet, err := netip.ParsePrefix(strings.TrimSpace(sn))
@@ -54,25 +56,6 @@ func newSimpleServer(v cert.Version, caCrt cert.Certificate, caKey []byte, name
budpIp[3] = 239
udpAddr = netip.AddrPortFrom(netip.AddrFrom16(budpIp), 4242)
}
return newSimpleServerWithUdp(v, caCrt, caKey, name, sVpnNetworks, udpAddr, overrides)
}
func newSimpleServerWithUdp(v cert.Version, caCrt cert.Certificate, caKey []byte, name string, sVpnNetworks string, udpAddr netip.AddrPort, overrides m) (*nebula.Control, []netip.Prefix, netip.AddrPort, *config.C) {
l := NewTestLogger()
var vpnNetworks []netip.Prefix
for _, sn := range strings.Split(sVpnNetworks, ",") {
vpnIpNet, err := netip.ParsePrefix(strings.TrimSpace(sn))
if err != nil {
panic(err)
}
vpnNetworks = append(vpnNetworks, vpnIpNet)
}
if len(vpnNetworks) == 0 {
panic("no vpn networks")
}
_, _, myPrivKey, myPEM := cert_test.NewTestCert(v, cert.Curve_CURVE25519, caCrt, caKey, name, time.Now(), time.Now().Add(5*time.Minute), vpnNetworks, nil, []string{})
caB, err := caCrt.MarshalPEM()
@@ -146,109 +129,6 @@ func newSimpleServerWithUdp(v cert.Version, caCrt cert.Certificate, caKey []byte
return control, vpnNetworks, udpAddr, c
}
// newServer creates a nebula instance with fewer assumptions
func newServer(caCrt []cert.Certificate, certs []cert.Certificate, key []byte, overrides m) (*nebula.Control, []netip.Prefix, netip.AddrPort, *config.C) {
l := NewTestLogger()
vpnNetworks := certs[len(certs)-1].Networks()
var udpAddr netip.AddrPort
if vpnNetworks[0].Addr().Is4() {
budpIp := vpnNetworks[0].Addr().As4()
budpIp[1] -= 128
udpAddr = netip.AddrPortFrom(netip.AddrFrom4(budpIp), 4242)
} else {
budpIp := vpnNetworks[0].Addr().As16()
// beef for funsies
budpIp[2] = 190
budpIp[3] = 239
udpAddr = netip.AddrPortFrom(netip.AddrFrom16(budpIp), 4242)
}
caStr := ""
for _, ca := range caCrt {
x, err := ca.MarshalPEM()
if err != nil {
panic(err)
}
caStr += string(x)
}
certStr := ""
for _, c := range certs {
x, err := c.MarshalPEM()
if err != nil {
panic(err)
}
certStr += string(x)
}
mc := m{
"pki": m{
"ca": caStr,
"cert": certStr,
"key": string(key),
},
//"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.Addr().String(),
"port": udpAddr.Port(),
},
"logging": m{
"timestamp_format": fmt.Sprintf("%v 15:04:05.000000", certs[0].Name()),
"level": l.Level.String(),
},
"timers": m{
"pending_deletion_interval": 2,
"connection_alive_interval": 2,
},
}
if overrides != nil {
final := m{}
err := mergo.Merge(&final, overrides, mergo.WithAppendSlice)
if err != nil {
panic(err)
}
err = mergo.Merge(&final, mc, mergo.WithAppendSlice)
if err != nil {
panic(err)
}
mc = final
}
cb, err := yaml.Marshal(mc)
if err != nil {
panic(err)
}
c := config.NewC(l)
cStr := string(cb)
c.LoadString(cStr)
control, err := nebula.Main(c, false, "e2e-test", l, nil)
if err != nil {
panic(err)
}
return control, vpnNetworks, udpAddr, c
}
type doneCb func()
func deadline(t *testing.T, seconds time.Duration) doneCb {

310
e2e/tunnels_test.go
View File

@@ -4,16 +4,12 @@
package e2e
import (
"fmt"
"net/netip"
"testing"
"time"
"github.com/slackhq/nebula/cert"
"github.com/slackhq/nebula/cert_test"
"github.com/slackhq/nebula/e2e/router"
"github.com/stretchr/testify/assert"
"gopkg.in/yaml.v3"
)
func TestDropInactiveTunnels(t *testing.T) {
@@ -59,309 +55,3 @@ func TestDropInactiveTunnels(t *testing.T) {
myControl.Stop()
theirControl.Stop()
}
func TestCertUpgrade(t *testing.T) {
// The goal of this test is to ensure the shortest inactivity timeout will close the tunnel on both sides
// under ideal conditions
ca, _, caKey, _ := cert_test.NewTestCaCert(cert.Version1, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
caB, err := ca.MarshalPEM()
if err != nil {
panic(err)
}
ca2, _, caKey2, _ := cert_test.NewTestCaCert(cert.Version2, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
ca2B, err := ca2.MarshalPEM()
if err != nil {
panic(err)
}
caStr := fmt.Sprintf("%s\n%s", caB, ca2B)
myCert, _, myPrivKey, _ := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "me", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.1/24")}, nil, []string{})
_, myCert2Pem := cert_test.NewTestCertDifferentVersion(myCert, cert.Version2, ca2, caKey2)
theirCert, _, theirPrivKey, _ := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "them", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.2/24")}, nil, []string{})
theirCert2, _ := cert_test.NewTestCertDifferentVersion(theirCert, cert.Version2, ca2, caKey2)
myControl, myVpnIpNet, myUdpAddr, myC := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{myCert}, myPrivKey, m{})
theirControl, theirVpnIpNet, theirUdpAddr, _ := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{theirCert, theirCert2}, theirPrivKey, m{})
// Share our underlay information
myControl.InjectLightHouseAddr(theirVpnIpNet[0].Addr(), theirUdpAddr)
theirControl.InjectLightHouseAddr(myVpnIpNet[0].Addr(), myUdpAddr)
// Start the servers
myControl.Start()
theirControl.Start()
r := router.NewR(t, myControl, theirControl)
defer r.RenderFlow()
r.Log("Assert the tunnel between me and them works")
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
r.Log("yay")
//todo ???
time.Sleep(1 * time.Second)
r.FlushAll()
mc := m{
"pki": m{
"ca": caStr,
"cert": string(myCert2Pem),
"key": string(myPrivKey),
},
//"tun": m{"disabled": true},
"firewall": myC.Settings["firewall"],
//"handshakes": m{
// "try_interval": "1s",
//},
"listen": myC.Settings["listen"],
"logging": myC.Settings["logging"],
"timers": myC.Settings["timers"],
}
cb, err := yaml.Marshal(mc)
if err != nil {
panic(err)
}
r.Logf("reload new v2-only config")
err = myC.ReloadConfigString(string(cb))
assert.NoError(t, err)
r.Log("yay, spin until their sees it")
waitStart := time.Now()
for {
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
c := theirControl.GetHostInfoByVpnAddr(myVpnIpNet[0].Addr(), false)
if c == nil {
r.Log("nil")
} else {
version := c.Cert.Version()
r.Logf("version %d", version)
if version == cert.Version2 {
break
}
}
since := time.Since(waitStart)
if since > time.Second*10 {
t.Fatal("Cert should be new by now")
}
time.Sleep(time.Second)
}
r.RenderHostmaps("Final hostmaps", myControl, theirControl)
myControl.Stop()
theirControl.Stop()
}
func TestCertDowngrade(t *testing.T) {
// The goal of this test is to ensure the shortest inactivity timeout will close the tunnel on both sides
// under ideal conditions
ca, _, caKey, _ := cert_test.NewTestCaCert(cert.Version1, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
caB, err := ca.MarshalPEM()
if err != nil {
panic(err)
}
ca2, _, caKey2, _ := cert_test.NewTestCaCert(cert.Version2, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
ca2B, err := ca2.MarshalPEM()
if err != nil {
panic(err)
}
caStr := fmt.Sprintf("%s\n%s", caB, ca2B)
myCert, _, myPrivKey, myCertPem := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "me", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.1/24")}, nil, []string{})
myCert2, _ := cert_test.NewTestCertDifferentVersion(myCert, cert.Version2, ca2, caKey2)
theirCert, _, theirPrivKey, _ := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "them", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.2/24")}, nil, []string{})
theirCert2, _ := cert_test.NewTestCertDifferentVersion(theirCert, cert.Version2, ca2, caKey2)
myControl, myVpnIpNet, myUdpAddr, myC := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{myCert2}, myPrivKey, m{})
theirControl, theirVpnIpNet, theirUdpAddr, _ := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{theirCert, theirCert2}, theirPrivKey, m{})
// Share our underlay information
myControl.InjectLightHouseAddr(theirVpnIpNet[0].Addr(), theirUdpAddr)
theirControl.InjectLightHouseAddr(myVpnIpNet[0].Addr(), myUdpAddr)
// Start the servers
myControl.Start()
theirControl.Start()
r := router.NewR(t, myControl, theirControl)
defer r.RenderFlow()
r.Log("Assert the tunnel between me and them works")
//assertTunnel(t, theirVpnIpNet[0].Addr(), myVpnIpNet[0].Addr(), theirControl, myControl, r)
//r.Log("yay")
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
r.Log("yay")
//todo ???
time.Sleep(1 * time.Second)
r.FlushAll()
mc := m{
"pki": m{
"ca": caStr,
"cert": string(myCertPem),
"key": string(myPrivKey),
},
"firewall": myC.Settings["firewall"],
"listen": myC.Settings["listen"],
"logging": myC.Settings["logging"],
"timers": myC.Settings["timers"],
}
cb, err := yaml.Marshal(mc)
if err != nil {
panic(err)
}
r.Logf("reload new v1-only config")
err = myC.ReloadConfigString(string(cb))
assert.NoError(t, err)
r.Log("yay, spin until their sees it")
waitStart := time.Now()
for {
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
c := theirControl.GetHostInfoByVpnAddr(myVpnIpNet[0].Addr(), false)
c2 := myControl.GetHostInfoByVpnAddr(theirVpnIpNet[0].Addr(), false)
if c == nil || c2 == nil {
r.Log("nil")
} else {
version := c.Cert.Version()
theirVersion := c2.Cert.Version()
r.Logf("version %d,%d", version, theirVersion)
if version == cert.Version1 {
break
}
}
since := time.Since(waitStart)
if since > time.Second*5 {
r.Log("wtf")
}
if since > time.Second*10 {
r.Log("wtf")
t.Fatal("Cert should be new by now")
}
time.Sleep(time.Second)
}
r.RenderHostmaps("Final hostmaps", myControl, theirControl)
myControl.Stop()
theirControl.Stop()
}
func TestCertMismatchCorrection(t *testing.T) {
// The goal of this test is to ensure the shortest inactivity timeout will close the tunnel on both sides
// under ideal conditions
ca, _, caKey, _ := cert_test.NewTestCaCert(cert.Version1, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
ca2, _, caKey2, _ := cert_test.NewTestCaCert(cert.Version2, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
myCert, _, myPrivKey, _ := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "me", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.1/24")}, nil, []string{})
myCert2, _ := cert_test.NewTestCertDifferentVersion(myCert, cert.Version2, ca2, caKey2)
theirCert, _, theirPrivKey, _ := cert_test.NewTestCert(cert.Version1, cert.Curve_CURVE25519, ca, caKey, "them", time.Now(), time.Now().Add(5*time.Minute), []netip.Prefix{netip.MustParsePrefix("10.128.0.2/24")}, nil, []string{})
theirCert2, _ := cert_test.NewTestCertDifferentVersion(theirCert, cert.Version2, ca2, caKey2)
myControl, myVpnIpNet, myUdpAddr, _ := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{myCert2}, myPrivKey, m{})
theirControl, theirVpnIpNet, theirUdpAddr, _ := newServer([]cert.Certificate{ca, ca2}, []cert.Certificate{theirCert, theirCert2}, theirPrivKey, m{})
// Share our underlay information
myControl.InjectLightHouseAddr(theirVpnIpNet[0].Addr(), theirUdpAddr)
theirControl.InjectLightHouseAddr(myVpnIpNet[0].Addr(), myUdpAddr)
// Start the servers
myControl.Start()
theirControl.Start()
r := router.NewR(t, myControl, theirControl)
defer r.RenderFlow()
r.Log("Assert the tunnel between me and them works")
//assertTunnel(t, theirVpnIpNet[0].Addr(), myVpnIpNet[0].Addr(), theirControl, myControl, r)
//r.Log("yay")
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
r.Log("yay")
//todo ???
time.Sleep(1 * time.Second)
r.FlushAll()
waitStart := time.Now()
for {
assertTunnel(t, myVpnIpNet[0].Addr(), theirVpnIpNet[0].Addr(), myControl, theirControl, r)
c := theirControl.GetHostInfoByVpnAddr(myVpnIpNet[0].Addr(), false)
c2 := myControl.GetHostInfoByVpnAddr(theirVpnIpNet[0].Addr(), false)
if c == nil || c2 == nil {
r.Log("nil")
} else {
version := c.Cert.Version()
theirVersion := c2.Cert.Version()
r.Logf("version %d,%d", version, theirVersion)
if version == theirVersion {
break
}
}
since := time.Since(waitStart)
if since > time.Second*5 {
r.Log("wtf")
}
if since > time.Second*10 {
r.Log("wtf")
t.Fatal("Cert should be new by now")
}
time.Sleep(time.Second)
}
r.RenderHostmaps("Final hostmaps", myControl, theirControl)
myControl.Stop()
theirControl.Stop()
}
func TestCrossStackRelaysWork(t *testing.T) {
ca, _, caKey, _ := cert_test.NewTestCaCert(cert.Version2, cert.Curve_CURVE25519, time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
myControl, myVpnIpNet, _, _ := newSimpleServer(cert.Version2, ca, caKey, "me ", "10.128.0.1/24,fc00::1/64", m{"relay": m{"use_relays": true}})
relayControl, relayVpnIpNet, relayUdpAddr, _ := newSimpleServer(cert.Version2, ca, caKey, "relay ", "10.128.0.128/24,fc00::128/64", m{"relay": m{"am_relay": true}})
theirUdp := netip.MustParseAddrPort("10.0.0.2:4242")
theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServerWithUdp(cert.Version2, ca, caKey, "them ", "fc00::2/64", theirUdp, m{"relay": m{"use_relays": true}})
//myVpnV4 := myVpnIpNet[0]
myVpnV6 := myVpnIpNet[1]
relayVpnV4 := relayVpnIpNet[0]
relayVpnV6 := relayVpnIpNet[1]
theirVpnV6 := theirVpnIpNet[0]
// Teach my how to get to the relay and that their can be reached via the relay
myControl.InjectLightHouseAddr(relayVpnV4.Addr(), relayUdpAddr)
myControl.InjectLightHouseAddr(relayVpnV6.Addr(), relayUdpAddr)
myControl.InjectRelays(theirVpnV6.Addr(), []netip.Addr{relayVpnV6.Addr()})
relayControl.InjectLightHouseAddr(theirVpnV6.Addr(), theirUdpAddr)
// Build a router so we don't have to reason who gets which packet
r := router.NewR(t, myControl, relayControl, theirControl)
defer r.RenderFlow()
// Start the servers
myControl.Start()
relayControl.Start()
theirControl.Start()
t.Log("Trigger a handshake from me to them via the relay")
myControl.InjectTunUDPPacket(theirVpnV6.Addr(), 80, myVpnV6.Addr(), 80, []byte("Hi from me"))
p := r.RouteForAllUntilTxTun(theirControl)
r.Log("Assert the tunnel works")
assertUdpPacket(t, []byte("Hi from me"), p, myVpnV6.Addr(), theirVpnV6.Addr(), 80, 80)
t.Log("reply?")
theirControl.InjectTunUDPPacket(myVpnV6.Addr(), 80, theirVpnV6.Addr(), 80, []byte("Hi from them"))
p = r.RouteForAllUntilTxTun(myControl)
assertUdpPacket(t, []byte("Hi from them"), p, theirVpnV6.Addr(), myVpnV6.Addr(), 80, 80)
r.RenderHostmaps("Final hostmaps", myControl, relayControl, theirControl)
//t.Log("finish up")
//myControl.Stop()
//theirControl.Stop()
//relayControl.Stop()
}

35
handshake_ix.go
View File

@@ -23,17 +23,13 @@ func ixHandshakeStage0(f *Interface, hh *HandshakeHostInfo) bool {
return false
}
// If we're connecting to a v6 address we must use a v2 cert
cs := f.pki.getCertState()
v := cs.initiatingVersion
if hh.initiatingVersionOverride != cert.VersionPre1 {
v = hh.initiatingVersionOverride
} else if v < cert.Version2 {
// If we're connecting to a v6 address we must use a v2 cert
for _, a := range hh.hostinfo.vpnAddrs {
if a.Is6() {
v = cert.Version2
break
}
for _, a := range hh.hostinfo.vpnAddrs {
if a.Is6() {
v = cert.Version2
break
}
}
@@ -167,19 +163,16 @@ func ixHandshakeStage1(f *Interface, addr netip.AddrPort, via *ViaSender, packet
if remoteCert.Certificate.Version() != ci.myCert.Version() {
// We started off using the wrong certificate version, lets see if we can match the version that was sent to us
myCertOtherVersion := cs.getCertificate(remoteCert.Certificate.Version())
if myCertOtherVersion == nil {
if f.l.Level >= logrus.DebugLevel {
f.l.WithError(err).WithFields(m{
"udpAddr": addr,
"handshake": m{"stage": 1, "style": "ix_psk0"},
"cert": remoteCert,
}).Debug("Might be unable to handshake with host due to missing certificate version")
}
} else {
// Record the certificate we are actually using
ci.myCert = myCertOtherVersion
rc := cs.getCertificate(remoteCert.Certificate.Version())
if rc == nil {
f.l.WithError(err).WithField("udpAddr", addr).
WithField("handshake", m{"stage": 1, "style": "ix_psk0"}).WithField("cert", remoteCert).
Info("Unable to handshake with host due to missing certificate version")
return
}
// Record the certificate we are actually using
ci.myCert = rc
}
if len(remoteCert.Certificate.Networks()) == 0 {

36
handshake_manager.go
View File

@@ -68,12 +68,11 @@ type HandshakeManager struct {
type HandshakeHostInfo struct {
sync.Mutex
startTime time.Time // Time that we first started trying with this handshake
ready bool // Is the handshake ready
initiatingVersionOverride cert.Version // Should we use a non-default cert version for this handshake?
counter int64 // How many attempts have we made so far
lastRemotes []netip.AddrPort // Remotes that we sent to during the previous attempt
packetStore []*cachedPacket // A set of packets to be transmitted once the handshake completes
startTime time.Time // Time that we first started trying with this handshake
ready bool // Is the handshake ready
counter int64 // How many attempts have we made so far
lastRemotes []netip.AddrPort // Remotes that we sent to during the previous attempt
packetStore []*cachedPacket // A set of packets to be transmitted once the handshake completes
hostinfo *HostInfo
}
@@ -300,8 +299,6 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
InitiatorRelayIndex: idx,
}
relayFrom := hm.f.myVpnAddrs[0]
switch relayHostInfo.GetCert().Certificate.Version() {
case cert.Version1:
if !hm.f.myVpnAddrs[0].Is4() {
@@ -319,13 +316,7 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
b = vpnIp.As4()
m.OldRelayToAddr = binary.BigEndian.Uint32(b[:])
case cert.Version2:
if vpnIp.Is4() {
relayFrom = hm.f.myVpnAddrs[0]
} else {
//todo do this smarter
relayFrom = hm.f.myVpnAddrs[len(hm.f.myVpnAddrs)-1]
}
m.RelayFromAddr = netAddrToProtoAddr(relayFrom)
m.RelayFromAddr = netAddrToProtoAddr(hm.f.myVpnAddrs[0])
m.RelayToAddr = netAddrToProtoAddr(vpnIp)
default:
hostinfo.logger(hm.l).Error("Unknown certificate version found while creating relay")
@@ -340,7 +331,7 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
} else {
hm.f.SendMessageToHostInfo(header.Control, 0, relayHostInfo, msg, make([]byte, 12), make([]byte, mtu))
hm.l.WithFields(logrus.Fields{
"relayFrom": relayFrom,
"relayFrom": hm.f.myVpnAddrs[0],
"relayTo": vpnIp,
"initiatorRelayIndex": idx,
"relay": relay}).
@@ -366,8 +357,6 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
InitiatorRelayIndex: existingRelay.LocalIndex,
}
relayFrom := hm.f.myVpnAddrs[0]
switch relayHostInfo.GetCert().Certificate.Version() {
case cert.Version1:
if !hm.f.myVpnAddrs[0].Is4() {
@@ -385,14 +374,7 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
b = vpnIp.As4()
m.OldRelayToAddr = binary.BigEndian.Uint32(b[:])
case cert.Version2:
if vpnIp.Is4() {
relayFrom = hm.f.myVpnAddrs[0]
} else {
//todo do this smarter
relayFrom = hm.f.myVpnAddrs[len(hm.f.myVpnAddrs)-1]
}
m.RelayFromAddr = netAddrToProtoAddr(relayFrom)
m.RelayFromAddr = netAddrToProtoAddr(hm.f.myVpnAddrs[0])
m.RelayToAddr = netAddrToProtoAddr(vpnIp)
default:
hostinfo.logger(hm.l).Error("Unknown certificate version found while creating relay")
@@ -407,7 +389,7 @@ func (hm *HandshakeManager) handleOutbound(vpnIp netip.Addr, lighthouseTriggered
// This must send over the hostinfo, not over hm.Hosts[ip]
hm.f.SendMessageToHostInfo(header.Control, 0, relayHostInfo, msg, make([]byte, 12), make([]byte, mtu))
hm.l.WithFields(logrus.Fields{
"relayFrom": relayFrom,
"relayFrom": hm.f.myVpnAddrs[0],
"relayTo": vpnIp,
"initiatorRelayIndex": existingRelay.LocalIndex,
"relay": relay}).

6
hostmap.go
View File

@@ -2,7 +2,6 @@ package nebula
import (
"errors"
"fmt"
"net"
"net/netip"
"slices"
@@ -522,7 +521,6 @@ func (hm *HostMap) QueryVpnAddrsRelayFor(targetIps []netip.Addr, relayHostIp net
return nil, nil, errors.New("unable to find host")
}
lastH := h
for h != nil {
for _, targetIp := range targetIps {
r, ok := h.relayState.QueryRelayForByIp(targetIp)
@@ -530,12 +528,10 @@ func (hm *HostMap) QueryVpnAddrsRelayFor(targetIps []netip.Addr, relayHostIp net
return h, r, nil
}
}
lastH = h
h = h.next
}
//todo no merge
return nil, nil, fmt.Errorf("unable to find host with relay: %v", lastH)
return nil, nil, errors.New("unable to find host with relay")
}
func (hm *HostMap) unlockedDisestablishVpnAddrRelayFor(hi *HostInfo) {

158
interface.go
View File

@@ -6,8 +6,8 @@ import (
"fmt"
"io"
"net/netip"
"os"
"runtime"
"sync"
"sync/atomic"
"time"
@@ -18,6 +18,7 @@ import (
"github.com/slackhq/nebula/firewall"
"github.com/slackhq/nebula/header"
"github.com/slackhq/nebula/overlay"
"github.com/slackhq/nebula/packet"
"github.com/slackhq/nebula/udp"
)
@@ -87,12 +88,17 @@ type Interface struct {
writers []udp.Conn
readers []io.ReadWriteCloser
wg sync.WaitGroup
metricHandshakes metrics.Histogram
messageMetrics *MessageMetrics
cachedPacketMetrics *cachedPacketMetrics
l *logrus.Logger
pktPool *packet.Pool
inbound chan *packet.Packet
outbound chan *packet.Packet
}
type EncWriter interface {
@@ -194,9 +200,15 @@ func NewInterface(ctx context.Context, c *InterfaceConfig) (*Interface, error) {
dropped: metrics.GetOrRegisterCounter("hostinfo.cached_packets.dropped", nil),
},
//TODO: configurable size
inbound: make(chan *packet.Packet, 2048),
outbound: make(chan *packet.Packet, 2048),
l: c.l,
}
ifce.pktPool = packet.GetPool()
ifce.tryPromoteEvery.Store(c.tryPromoteEvery)
ifce.reQueryEvery.Store(c.reQueryEvery)
ifce.reQueryWait.Store(int64(c.reQueryWait))
@@ -209,7 +221,7 @@ func NewInterface(ctx context.Context, c *InterfaceConfig) (*Interface, error) {
// activate creates the interface on the host. After the interface is created, any
// 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() {
func (f *Interface) activate() error {
// actually turn on tun dev
addr, err := f.outside.LocalAddr()
@@ -230,33 +242,46 @@ func (f *Interface) activate() {
if i > 0 {
reader, err = f.inside.NewMultiQueueReader()
if err != nil {
f.l.Fatal(err)
return err
}
}
f.readers[i] = reader
}
if err := f.inside.Activate(); err != nil {
if err = f.inside.Activate(); err != nil {
f.inside.Close()
f.l.Fatal(err)
return err
}
return nil
}
func (f *Interface) run() {
// Launch n queues to read packets from udp
func (f *Interface) run(c context.Context) (func(), error) {
for i := 0; i < f.routines; i++ {
// read packets from udp and queue to f.inbound
f.wg.Add(1)
go f.listenOut(i)
// Launch n queues to read packets from inside tun dev and queue to f.outbound
//todo this never stops f.wg.Add(1)
go f.listenIn(f.readers[i], i)
// Launch n workers to process traffic from f.inbound and smash it onto the inside of the tun
f.wg.Add(1)
go f.workerIn(i, c)
f.wg.Add(1)
go f.workerIn(i, c)
// read from f.outbound and write to UDP (outside the tun)
f.wg.Add(1)
go f.workerOut(i, c)
}
// Launch n queues to read packets from tun dev
for i := 0; i < f.routines; i++ {
go f.listenIn(f.readers[i], i)
}
return f.wg.Wait, nil
}
func (f *Interface) listenOut(i int) {
runtime.LockOSThread()
var li udp.Conn
if i > 0 {
li = f.writers[i]
@@ -264,41 +289,90 @@ func (f *Interface) listenOut(i int) {
li = f.outside
}
ctCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
lhh := f.lightHouse.NewRequestHandler()
plaintext := make([]byte, udp.MTU)
h := &header.H{}
fwPacket := &firewall.Packet{}
nb := make([]byte, 12, 12)
err := li.ListenOut(f.pktPool.Get, f.inbound)
if err != nil && !f.closed.Load() {
f.l.WithError(err).Error("Error while reading packet inbound packet, closing")
//TODO: Trigger Control to close
}
li.ListenOut(func(fromUdpAddr netip.AddrPort, payload []byte) {
f.readOutsidePackets(fromUdpAddr, nil, plaintext[:0], payload, h, fwPacket, lhh, nb, i, ctCache.Get(f.l))
})
f.l.Debugf("underlay reader %v is done", i)
f.wg.Done()
}
func (f *Interface) listenIn(reader io.ReadWriteCloser, i int) {
runtime.LockOSThread()
packet := make([]byte, mtu)
out := make([]byte, mtu)
fwPacket := &firewall.Packet{}
nb := make([]byte, 12, 12)
conntrackCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
for {
n, err := reader.Read(packet)
p := f.pktPool.Get()
n, err := reader.Read(p.Payload)
if err != nil {
if errors.Is(err, os.ErrClosed) && f.closed.Load() {
return
if !f.closed.Load() {
f.l.WithError(err).Error("Error while reading outbound packet, closing")
//TODO: Trigger Control to close
}
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)
break
}
f.consumeInsidePacket(packet[:n], fwPacket, nb, out, i, conntrackCache.Get(f.l))
p.Payload = (p.Payload)[:n]
//TODO: nonblocking channel write
f.outbound <- p
//select {
//case f.outbound <- p:
//default:
// f.l.Error("Dropped packet from outbound channel")
//}
}
f.l.Debugf("overlay reader %v is done", i)
f.wg.Done()
}
func (f *Interface) workerIn(i int, ctx context.Context) {
lhh := f.lightHouse.NewRequestHandler()
conntrackCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
fwPacket2 := &firewall.Packet{}
nb2 := make([]byte, 12, 12)
result2 := make([]byte, mtu)
h := &header.H{}
for {
select {
case p := <-f.inbound:
if p.SegSize > 0 && p.SegSize < len(p.Payload) {
for offset := 0; offset < len(p.Payload); offset += p.SegSize {
end := offset + p.SegSize
if end > len(p.Payload) {
end = len(p.Payload)
}
f.readOutsidePackets(p.Addr, nil, result2[:0], p.Payload[offset:end], h, fwPacket2, lhh, nb2, i, conntrackCache.Get(f.l))
}
} else {
f.readOutsidePackets(p.Addr, nil, result2[:0], p.Payload, h, fwPacket2, lhh, nb2, i, conntrackCache.Get(f.l))
}
f.pktPool.Put(p)
case <-ctx.Done():
f.wg.Done()
return
}
}
}
func (f *Interface) workerOut(i int, ctx context.Context) {
conntrackCache := firewall.NewConntrackCacheTicker(f.conntrackCacheTimeout)
fwPacket1 := &firewall.Packet{}
nb1 := make([]byte, 12, 12)
result1 := make([]byte, mtu)
for {
select {
case data := <-f.outbound:
f.consumeInsidePacket(data.Payload, fwPacket1, nb1, result1, i, conntrackCache.Get(f.l))
f.pktPool.Put(data)
case <-ctx.Done():
f.wg.Done()
return
}
}
}
@@ -451,6 +525,7 @@ func (f *Interface) GetCertState() *CertState {
func (f *Interface) Close() error {
f.closed.Store(true)
// Release the udp readers
for _, u := range f.writers {
err := u.Close()
if err != nil {
@@ -458,6 +533,13 @@ func (f *Interface) Close() error {
}
}
// Release the tun device
return f.inside.Close()
// Release the tun readers
for _, u := range f.readers {
err := u.Close()
if err != nil {
f.l.WithError(err).Error("Error while closing tun device")
}
}
return nil
}

18
main.go
View File

@@ -284,14 +284,14 @@ func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logg
}
return &Control{
ifce,
l,
ctx,
cancel,
sshStart,
statsStart,
dnsStart,
lightHouse.StartUpdateWorker,
connManager.Start,
f: ifce,
l: l,
ctx: ctx,
cancel: cancel,
sshStart: sshStart,
statsStart: statsStart,
dnsStart: dnsStart,
lighthouseStart: lightHouse.StartUpdateWorker,
connectionManagerStart: connManager.Start,
}, nil
}

5
outside.go
View File

@@ -29,7 +29,7 @@ func (f *Interface) readOutsidePackets(ip netip.AddrPort, via *ViaSender, out []
return
}
//l.Error("in packet ", header, packet[HeaderLen:])
//f.l.Error("in packet ", h)
if ip.IsValid() {
if f.myVpnNetworksTable.Contains(ip.Addr()) {
if f.l.Level >= logrus.DebugLevel {
@@ -245,6 +245,7 @@ func (f *Interface) handleHostRoaming(hostinfo *HostInfo, udpAddr netip.AddrPort
return
}
//TODO: Seems we have a bunch of stuff racing here, since we don't have a lock on hostinfo anymore we announce roaming in bursts
hostinfo.logger(f.l).WithField("udpAddr", hostinfo.remote).WithField("newAddr", udpAddr).
Info("Host roamed to new udp ip/port.")
hostinfo.lastRoam = time.Now()
@@ -470,7 +471,7 @@ func (f *Interface) decryptToTun(hostinfo *HostInfo, messageCounter uint64, out
out, err = hostinfo.ConnectionState.dKey.DecryptDanger(out, packet[:header.Len], packet[header.Len:], messageCounter, nb)
if err != nil {
hostinfo.logger(f.l).WithError(err).Error("Failed to decrypt packet")
hostinfo.logger(f.l).WithError(err).WithField("fwPacket", fwPacket).Error("Failed to decrypt packet")
return false
}

11
overlay/tun.go
View File

@@ -1,6 +1,7 @@
package overlay
import (
"net"
"net/netip"
"github.com/sirupsen/logrus"
@@ -70,3 +71,13 @@ func findRemovedRoutes(newRoutes, oldRoutes []Route) []Route {
return removed
}
func prefixToMask(prefix netip.Prefix) netip.Addr {
pLen := 128
if prefix.Addr().Is4() {
pLen = 32
}
addr, _ := netip.AddrFromSlice(net.CIDRMask(prefix.Bits(), pLen))
return addr
}

11
overlay/tun_darwin.go
View File

@@ -7,7 +7,6 @@ import (
"errors"
"fmt"
"io"
"net"
"net/netip"
"os"
"sync/atomic"
@@ -554,13 +553,3 @@ func (t *tun) Name() string {
func (t *tun) NewMultiQueueReader() (io.ReadWriteCloser, error) {
return nil, fmt.Errorf("TODO: multiqueue not implemented for darwin")
}
func prefixToMask(prefix netip.Prefix) netip.Addr {
pLen := 128
if prefix.Addr().Is4() {
pLen = 32
}
addr, _ := netip.AddrFromSlice(net.CIDRMask(prefix.Bits(), pLen))
return addr
}

471
overlay/tun_freebsd.go
View File

@@ -10,11 +10,9 @@ import (
"io"
"io/fs"
"net/netip"
"os"
"os/exec"
"strconv"
"sync/atomic"
"syscall"
"time"
"unsafe"
"github.com/gaissmai/bart"
@@ -22,12 +20,18 @@ import (
"github.com/slackhq/nebula/config"
"github.com/slackhq/nebula/routing"
"github.com/slackhq/nebula/util"
netroute "golang.org/x/net/route"
"golang.org/x/sys/unix"
)
const (
// FIODGNAME is defined in sys/sys/filio.h on FreeBSD
// For 32-bit systems, use FIODGNAME_32 (not defined in this file: 0x80086678)
FIODGNAME = 0x80106678
FIODGNAME = 0x80106678
TUNSIFMODE = 0x8004745e
TUNSIFHEAD = 0x80047460
OSIOCAIFADDR_IN6 = 0x8088691b
IN6_IFF_NODAD = 0x0020
)
type fiodgnameArg struct {
@@ -37,43 +41,159 @@ type fiodgnameArg struct {
}
type ifreqRename struct {
Name [16]byte
Name [unix.IFNAMSIZ]byte
Data uintptr
}
type ifreqDestroy struct {
Name [16]byte
Name [unix.IFNAMSIZ]byte
pad [16]byte
}
type ifReq struct {
Name [unix.IFNAMSIZ]byte
Flags uint16
}
type ifreqMTU struct {
Name [unix.IFNAMSIZ]byte
MTU int32
}
type addrLifetime struct {
Expire uint64
Preferred uint64
Vltime uint32
Pltime uint32
}
type ifreqAlias4 struct {
Name [unix.IFNAMSIZ]byte
Addr unix.RawSockaddrInet4
DstAddr unix.RawSockaddrInet4
MaskAddr unix.RawSockaddrInet4
VHid uint32
}
type ifreqAlias6 struct {
Name [unix.IFNAMSIZ]byte
Addr unix.RawSockaddrInet6
DstAddr unix.RawSockaddrInet6
PrefixMask unix.RawSockaddrInet6
Flags uint32
Lifetime addrLifetime
VHid uint32
}
type tun struct {
Device string
vpnNetworks []netip.Prefix
MTU int
Routes atomic.Pointer[[]Route]
routeTree atomic.Pointer[bart.Table[routing.Gateways]]
linkAddr *netroute.LinkAddr
l *logrus.Logger
devFd int
}
io.ReadWriteCloser
func (t *tun) Read(to []byte) (int, error) {
// use readv() to read from the tunnel device, to eliminate the need for copying the buffer
if t.devFd < 0 {
return -1, syscall.EINVAL
}
// first 4 bytes is protocol family, in network byte order
head := make([]byte, 4)
iovecs := []syscall.Iovec{
{&head[0], 4},
{&to[0], uint64(len(to))},
}
n, _, errno := syscall.Syscall(syscall.SYS_READV, uintptr(t.devFd), uintptr(unsafe.Pointer(&iovecs[0])), uintptr(2))
var err error
if errno != 0 {
err = syscall.Errno(errno)
} else {
err = nil
}
// fix bytes read number to exclude header
bytesRead := int(n)
if bytesRead < 0 {
return bytesRead, err
} else if bytesRead < 4 {
return 0, err
} else {
return bytesRead - 4, err
}
}
// Write is only valid for single threaded use
func (t *tun) Write(from []byte) (int, error) {
// use writev() to write to the tunnel device, to eliminate the need for copying the buffer
if t.devFd < 0 {
return -1, syscall.EINVAL
}
if len(from) <= 1 {
return 0, syscall.EIO
}
ipVer := from[0] >> 4
var head []byte
// first 4 bytes is protocol family, in network byte order
if ipVer == 4 {
head = []byte{0, 0, 0, syscall.AF_INET}
} else if ipVer == 6 {
head = []byte{0, 0, 0, syscall.AF_INET6}
} else {
return 0, fmt.Errorf("unable to determine IP version from packet")
}
iovecs := []syscall.Iovec{
{&head[0], 4},
{&from[0], uint64(len(from))},
}
n, _, errno := syscall.Syscall(syscall.SYS_WRITEV, uintptr(t.devFd), uintptr(unsafe.Pointer(&iovecs[0])), uintptr(2))
var err error
if errno != 0 {
err = syscall.Errno(errno)
} else {
err = nil
}
return int(n) - 4, err
}
func (t *tun) Close() error {
if t.ReadWriteCloser != nil {
if err := t.ReadWriteCloser.Close(); err != nil {
return err
}
s, err := syscall.Socket(syscall.AF_INET, syscall.SOCK_DGRAM, syscall.IPPROTO_IP)
if t.devFd >= 0 {
err := syscall.Close(t.devFd)
if err != nil {
return err
t.l.WithError(err).Error("Error closing device")
}
defer syscall.Close(s)
t.devFd = -1
ifreq := ifreqDestroy{Name: t.deviceBytes()}
c := make(chan struct{})
go func() {
// destroying the interface can block if a read() is still pending. Do this asynchronously.
defer close(c)
s, err := syscall.Socket(syscall.AF_INET, syscall.SOCK_DGRAM, syscall.IPPROTO_IP)
if err == nil {
defer syscall.Close(s)
ifreq := ifreqDestroy{Name: t.deviceBytes()}
err = ioctl(uintptr(s), syscall.SIOCIFDESTROY, uintptr(unsafe.Pointer(&ifreq)))
}
if err != nil {
t.l.WithError(err).Error("Error destroying tunnel")
}
}()
// Destroy the interface
err = ioctl(uintptr(s), syscall.SIOCIFDESTROY, uintptr(unsafe.Pointer(&ifreq)))
return err
// wait up to 1 second so we start blocking at the ioctl
select {
case <-c:
case <-time.After(1 * time.Second):
}
}
return nil
@@ -85,32 +205,37 @@ func newTunFromFd(_ *config.C, _ *logrus.Logger, _ int, _ []netip.Prefix) (*tun,
func newTun(c *config.C, l *logrus.Logger, vpnNetworks []netip.Prefix, _ bool) (*tun, error) {
// Try to open existing tun device
var file *os.File
var fd int
var err error
deviceName := c.GetString("tun.dev", "")
if deviceName != "" {
file, err = os.OpenFile("/dev/"+deviceName, os.O_RDWR, 0)
fd, err = syscall.Open("/dev/"+deviceName, syscall.O_RDWR, 0)
}
if errors.Is(err, fs.ErrNotExist) || deviceName == "" {
// If the device doesn't already exist, request a new one and rename it
file, err = os.OpenFile("/dev/tun", os.O_RDWR, 0)
fd, err = syscall.Open("/dev/tun", syscall.O_RDWR, 0)
}
if err != nil {
return nil, err
}
rawConn, err := file.SyscallConn()
if err != nil {
return nil, fmt.Errorf("SyscallConn: %v", err)
// Read the name of the interface
var name [16]byte
arg := fiodgnameArg{length: 16, buf: unsafe.Pointer(&name)}
ctrlErr := ioctl(uintptr(fd), FIODGNAME, uintptr(unsafe.Pointer(&arg)))
if ctrlErr == nil {
// set broadcast mode and multicast
ifmode := uint32(unix.IFF_BROADCAST | unix.IFF_MULTICAST)
ctrlErr = ioctl(uintptr(fd), TUNSIFMODE, uintptr(unsafe.Pointer(&ifmode)))
}
if ctrlErr == nil {
// turn on link-layer mode, to support ipv6
ifhead := uint32(1)
ctrlErr = ioctl(uintptr(fd), TUNSIFHEAD, uintptr(unsafe.Pointer(&ifhead)))
}
var name [16]byte
var ctrlErr error
rawConn.Control(func(fd uintptr) {
// Read the name of the interface
arg := fiodgnameArg{length: 16, buf: unsafe.Pointer(&name)}
ctrlErr = ioctl(fd, FIODGNAME, uintptr(unsafe.Pointer(&arg)))
})
if ctrlErr != nil {
return nil, err
}
@@ -122,11 +247,7 @@ func newTun(c *config.C, l *logrus.Logger, vpnNetworks []netip.Prefix, _ bool) (
// If the name doesn't match the desired interface name, rename it now
if ifName != deviceName {
s, err := syscall.Socket(
syscall.AF_INET,
syscall.SOCK_DGRAM,
syscall.IPPROTO_IP,
)
s, err := unix.Socket(unix.AF_INET, unix.SOCK_DGRAM, unix.IPPROTO_IP)
if err != nil {
return nil, err
}
@@ -149,11 +270,11 @@ func newTun(c *config.C, l *logrus.Logger, vpnNetworks []netip.Prefix, _ bool) (
}
t := &tun{
ReadWriteCloser: file,
Device: deviceName,
vpnNetworks: vpnNetworks,
MTU: c.GetInt("tun.mtu", DefaultMTU),
l: l,
Device: deviceName,
vpnNetworks: vpnNetworks,
MTU: c.GetInt("tun.mtu", DefaultMTU),
l: l,
devFd: fd,
}
err = t.reload(c, true)
@@ -172,38 +293,111 @@ func newTun(c *config.C, l *logrus.Logger, vpnNetworks []netip.Prefix, _ bool) (
}
func (t *tun) addIp(cidr netip.Prefix) error {
var err error
// TODO use syscalls instead of exec.Command
cmd := exec.Command("/sbin/ifconfig", t.Device, cidr.String(), cidr.Addr().String())
t.l.Debug("command: ", cmd.String())
if err = cmd.Run(); err != nil {
return fmt.Errorf("failed to run 'ifconfig': %s", err)
if cidr.Addr().Is4() {
ifr := ifreqAlias4{
Name: t.deviceBytes(),
Addr: unix.RawSockaddrInet4{
Len: unix.SizeofSockaddrInet4,
Family: unix.AF_INET,
Addr: cidr.Addr().As4(),
},
DstAddr: unix.RawSockaddrInet4{
Len: unix.SizeofSockaddrInet4,
Family: unix.AF_INET,
Addr: getBroadcast(cidr).As4(),
},
MaskAddr: unix.RawSockaddrInet4{
Len: unix.SizeofSockaddrInet4,
Family: unix.AF_INET,
Addr: prefixToMask(cidr).As4(),
},
VHid: 0,
}
s, err := unix.Socket(unix.AF_INET, unix.SOCK_DGRAM, unix.IPPROTO_IP)
if err != nil {
return err
}
defer syscall.Close(s)
// Note: unix.SIOCAIFADDR corresponds to FreeBSD's OSIOCAIFADDR
if err := ioctl(uintptr(s), unix.SIOCAIFADDR, uintptr(unsafe.Pointer(&ifr))); err != nil {
return fmt.Errorf("failed to set tun address %s: %s", cidr.Addr().String(), err)
}
return nil
}
cmd = exec.Command("/sbin/route", "-n", "add", "-net", cidr.String(), "-interface", t.Device)
t.l.Debug("command: ", cmd.String())
if err = cmd.Run(); err != nil {
return fmt.Errorf("failed to run 'route add': %s", err)
if cidr.Addr().Is6() {
ifr := ifreqAlias6{
Name: t.deviceBytes(),
Addr: unix.RawSockaddrInet6{
Len: unix.SizeofSockaddrInet6,
Family: unix.AF_INET6,
Addr: cidr.Addr().As16(),
},
PrefixMask: unix.RawSockaddrInet6{
Len: unix.SizeofSockaddrInet6,
Family: unix.AF_INET6,
Addr: prefixToMask(cidr).As16(),
},
Lifetime: addrLifetime{
Expire: 0,
Preferred: 0,
Vltime: 0xffffffff,
Pltime: 0xffffffff,
},
Flags: IN6_IFF_NODAD,
}
s, err := syscall.Socket(syscall.AF_INET6, syscall.SOCK_DGRAM, syscall.IPPROTO_IP)
if err != nil {
return err
}
defer syscall.Close(s)
if err := ioctl(uintptr(s), OSIOCAIFADDR_IN6, uintptr(unsafe.Pointer(&ifr))); err != nil {
return fmt.Errorf("failed to set tun address %s: %s", cidr.Addr().String(), err)
}
return nil
}
cmd = exec.Command("/sbin/ifconfig", t.Device, "mtu", strconv.Itoa(t.MTU))
t.l.Debug("command: ", cmd.String())
if err = cmd.Run(); err != nil {
return fmt.Errorf("failed to run 'ifconfig': %s", err)
}
// Unsafe path routes
return t.addRoutes(false)
return fmt.Errorf("unknown address type %v", cidr)
}
func (t *tun) Activate() error {
// Setup our default MTU
err := t.setMTU()
if err != nil {
return err
}
linkAddr, err := getLinkAddr(t.Device)
if err != nil {
return err
}
if linkAddr == nil {
return fmt.Errorf("unable to discover link_addr for tun interface")
}
t.linkAddr = linkAddr
for i := range t.vpnNetworks {
err := t.addIp(t.vpnNetworks[i])
if err != nil {
return err
}
}
return nil
return t.addRoutes(false)
}
func (t *tun) setMTU() error {
// Set the MTU on the device
s, err := unix.Socket(unix.AF_INET, unix.SOCK_DGRAM, unix.IPPROTO_IP)
if err != nil {
return err
}
defer syscall.Close(s)
ifm := ifreqMTU{Name: t.deviceBytes(), MTU: int32(t.MTU)}
err = ioctl(uintptr(s), unix.SIOCSIFMTU, uintptr(unsafe.Pointer(&ifm)))
return err
}
func (t *tun) reload(c *config.C, initial bool) error {
@@ -268,15 +462,16 @@ func (t *tun) addRoutes(logErrors bool) error {
continue
}
cmd := exec.Command("/sbin/route", "-n", "add", "-net", r.Cidr.String(), "-interface", t.Device)
t.l.Debug("command: ", cmd.String())
if err := cmd.Run(); err != nil {
retErr := util.NewContextualError("failed to run 'route add' for unsafe_route", map[string]any{"route": r}, err)
err := addRoute(r.Cidr, t.linkAddr)
if err != nil {
retErr := util.NewContextualError("Failed to add route", map[string]any{"route": r}, err)
if logErrors {
retErr.Log(t.l)
} else {
return retErr
}
} else {
t.l.WithField("route", r).Info("Added route")
}
}
@@ -289,9 +484,8 @@ func (t *tun) removeRoutes(routes []Route) error {
continue
}
cmd := exec.Command("/sbin/route", "-n", "delete", "-net", r.Cidr.String(), "-interface", t.Device)
t.l.Debug("command: ", cmd.String())
if err := cmd.Run(); err != nil {
err := delRoute(r.Cidr, t.linkAddr)
if err != nil {
t.l.WithError(err).WithField("route", r).Error("Failed to remove route")
} else {
t.l.WithField("route", r).Info("Removed route")
@@ -306,3 +500,144 @@ func (t *tun) deviceBytes() (o [16]byte) {
}
return
}
func flipBytes(b []byte) []byte {
for i := 0; i < len(b); i++ {
b[i] ^= 0xFF
}
return b
}
func orBytes(a []byte, b []byte) []byte {
ret := make([]byte, len(a))
for i := 0; i < len(a); i++ {
ret[i] = a[i] | b[i]
}
return ret
}
func getBroadcast(cidr netip.Prefix) netip.Addr {
broadcast, _ := netip.AddrFromSlice(
orBytes(
cidr.Addr().AsSlice(),
flipBytes(prefixToMask(cidr).AsSlice()),
),
)
return broadcast
}
func addRoute(prefix netip.Prefix, gateway netroute.Addr) error {
sock, err := unix.Socket(unix.AF_ROUTE, unix.SOCK_RAW, unix.AF_UNSPEC)
if err != nil {
return fmt.Errorf("unable to create AF_ROUTE socket: %v", err)
}
defer unix.Close(sock)
route := &netroute.RouteMessage{
Version: unix.RTM_VERSION,
Type: unix.RTM_ADD,
Flags: unix.RTF_UP,
Seq: 1,
}
if prefix.Addr().Is4() {
route.Addrs = []netroute.Addr{
unix.RTAX_DST: &netroute.Inet4Addr{IP: prefix.Masked().Addr().As4()},
unix.RTAX_NETMASK: &netroute.Inet4Addr{IP: prefixToMask(prefix).As4()},
unix.RTAX_GATEWAY: gateway,
}
} else {
route.Addrs = []netroute.Addr{
unix.RTAX_DST: &netroute.Inet6Addr{IP: prefix.Masked().Addr().As16()},
unix.RTAX_NETMASK: &netroute.Inet6Addr{IP: prefixToMask(prefix).As16()},
unix.RTAX_GATEWAY: gateway,
}
}
data, err := route.Marshal()
if err != nil {
return fmt.Errorf("failed to create route.RouteMessage: %w", err)
}
_, err = unix.Write(sock, data[:])
if err != nil {
if errors.Is(err, unix.EEXIST) {
// Try to do a change
route.Type = unix.RTM_CHANGE
data, err = route.Marshal()
if err != nil {
return fmt.Errorf("failed to create route.RouteMessage for change: %w", err)
}
_, err = unix.Write(sock, data[:])
fmt.Println("DOING CHANGE")
return err
}
return fmt.Errorf("failed to write route.RouteMessage to socket: %w", err)
}
return nil
}
func delRoute(prefix netip.Prefix, gateway netroute.Addr) error {
sock, err := unix.Socket(unix.AF_ROUTE, unix.SOCK_RAW, unix.AF_UNSPEC)
if err != nil {
return fmt.Errorf("unable to create AF_ROUTE socket: %v", err)
}
defer unix.Close(sock)
route := netroute.RouteMessage{
Version: unix.RTM_VERSION,
Type: unix.RTM_DELETE,
Seq: 1,
}
if prefix.Addr().Is4() {
route.Addrs = []netroute.Addr{
unix.RTAX_DST: &netroute.Inet4Addr{IP: prefix.Masked().Addr().As4()},
unix.RTAX_NETMASK: &netroute.Inet4Addr{IP: prefixToMask(prefix).As4()},
unix.RTAX_GATEWAY: gateway,
}
} else {
route.Addrs = []netroute.Addr{
unix.RTAX_DST: &netroute.Inet6Addr{IP: prefix.Masked().Addr().As16()},
unix.RTAX_NETMASK: &netroute.Inet6Addr{IP: prefixToMask(prefix).As16()},
unix.RTAX_GATEWAY: gateway,
}
}
data, err := route.Marshal()
if err != nil {
return fmt.Errorf("failed to create route.RouteMessage: %w", err)
}
_, err = unix.Write(sock, data[:])
if err != nil {
return fmt.Errorf("failed to write route.RouteMessage to socket: %w", err)
}
return nil
}
// getLinkAddr Gets the link address for the interface of the given name
func getLinkAddr(name string) (*netroute.LinkAddr, error) {
rib, err := netroute.FetchRIB(unix.AF_UNSPEC, unix.NET_RT_IFLIST, 0)
if err != nil {
return nil, err
}
msgs, err := netroute.ParseRIB(unix.NET_RT_IFLIST, rib)
if err != nil {
return nil, err
}
for _, m := range msgs {
switch m := m.(type) {
case *netroute.InterfaceMessage:
if m.Name == name {
sa, ok := m.Addrs[unix.RTAX_IFP].(*netroute.LinkAddr)
if ok {
return sa, nil
}
}
}
}
return nil, nil
}

45
packet/packet.go Normal file
View File

@@ -0,0 +1,45 @@
package packet
import (
"net/netip"
"sync"
"golang.org/x/sys/unix"
)
const Size = 0xffff
type Packet struct {
Payload []byte
Control []byte
SegSize int
Addr netip.AddrPort
}
func New() *Packet {
return &Packet{
Payload: make([]byte, Size),
Control: make([]byte, unix.CmsgSpace(2)),
}
}
type Pool struct {
pool sync.Pool
}
var bigPool = &Pool{
pool: sync.Pool{New: func() any { return New() }},
}
func GetPool() *Pool {
return bigPool
}
func (p *Pool) Get() *Packet {
return p.pool.Get().(*Packet)
}
func (p *Pool) Put(x *Packet) {
x.Payload = x.Payload[:Size]
p.pool.Put(x)
}

83
pki.go
View File

@@ -100,62 +100,55 @@ func (p *PKI) reloadCerts(c *config.C, initial bool) *util.ContextualError {
currentState := p.cs.Load()
if newState.v1Cert != nil {
if currentState.v1Cert == nil {
//adding certs is fine, actually. Networks-in-common confirmed in newCertState().
} else {
// did IP in cert change? if so, don't set
if !slices.Equal(currentState.v1Cert.Networks(), newState.v1Cert.Networks()) {
return util.NewContextualError(
"Networks in new cert was different from old",
m{"new_networks": newState.v1Cert.Networks(), "old_networks": currentState.v1Cert.Networks(), "cert_version": cert.Version1},
nil,
)
}
if currentState.v1Cert.Curve() != newState.v1Cert.Curve() {
return util.NewContextualError(
"Curve in new v1 cert was different from old",
m{"new_curve": newState.v1Cert.Curve(), "old_curve": currentState.v1Cert.Curve(), "cert_version": cert.Version1},
nil,
)
}
return util.NewContextualError("v1 certificate was added, restart required", nil, err)
}
// did IP in cert change? if so, don't set
if !slices.Equal(currentState.v1Cert.Networks(), newState.v1Cert.Networks()) {
return util.NewContextualError(
"Networks in new cert was different from old",
m{"new_networks": newState.v1Cert.Networks(), "old_networks": currentState.v1Cert.Networks()},
nil,
)
}
if currentState.v1Cert.Curve() != newState.v1Cert.Curve() {
return util.NewContextualError(
"Curve in new cert was different from old",
m{"new_curve": newState.v1Cert.Curve(), "old_curve": currentState.v1Cert.Curve()},
nil,
)
}
} else if currentState.v1Cert != nil {
//TODO: CERT-V2 we should be able to tear this down
return util.NewContextualError("v1 certificate was removed, restart required", nil, err)
}
if newState.v2Cert != nil {
if currentState.v2Cert == nil {
//adding certs is fine, actually
} else {
// did IP in cert change? if so, don't set
if !slices.Equal(currentState.v2Cert.Networks(), newState.v2Cert.Networks()) {
return util.NewContextualError(
"Networks in new cert was different from old",
m{"new_networks": newState.v2Cert.Networks(), "old_networks": currentState.v2Cert.Networks(), "cert_version": cert.Version2},
nil,
)
}
if currentState.v2Cert.Curve() != newState.v2Cert.Curve() {
return util.NewContextualError(
"Curve in new cert was different from old",
m{"new_curve": newState.v2Cert.Curve(), "old_curve": currentState.v2Cert.Curve(), "cert_version": cert.Version2},
nil,
)
}
return util.NewContextualError("v2 certificate was added, restart required", nil, err)
}
} else if currentState.v2Cert != nil {
//newState.v1Cert is non-nil bc empty certstates aren't permitted
if newState.v1Cert == nil {
return util.NewContextualError("v1 and v2 certs are nil, this should be impossible", nil, err)
}
//if we're going to v1-only, we need to make sure we didn't orphan any v2-cert vpnaddrs
if !slices.Equal(currentState.v2Cert.Networks(), newState.v1Cert.Networks()) {
// did IP in cert change? if so, don't set
if !slices.Equal(currentState.v2Cert.Networks(), newState.v2Cert.Networks()) {
return util.NewContextualError(
"Removing a V2 cert is not permitted unless it has identical networks to the new V1 cert",
m{"new_v1_networks": newState.v1Cert.Networks(), "old_v2_networks": currentState.v2Cert.Networks()},
"Networks in new cert was different from old",
m{"new_networks": newState.v2Cert.Networks(), "old_networks": currentState.v2Cert.Networks()},
nil,
)
}
if currentState.v2Cert.Curve() != newState.v2Cert.Curve() {
return util.NewContextualError(
"Curve in new cert was different from old",
m{"new_curve": newState.v2Cert.Curve(), "old_curve": currentState.v2Cert.Curve()},
nil,
)
}
} else if currentState.v2Cert != nil {
return util.NewContextualError("v2 certificate was removed, restart required", nil, err)
}
// Cipher cant be hot swapped so just leave it at what it was before

21
relay_manager.go
View File

@@ -190,7 +190,6 @@ func (rm *relayManager) handleCreateRelayResponse(v cert.Version, h *HostInfo, f
InitiatorRelayIndex: peerRelay.RemoteIndex,
}
relayFrom := h.vpnAddrs[0]
if v == cert.Version1 {
peer := peerHostInfo.vpnAddrs[0]
if !peer.Is4() {
@@ -208,13 +207,7 @@ func (rm *relayManager) handleCreateRelayResponse(v cert.Version, h *HostInfo, f
b = targetAddr.As4()
resp.OldRelayToAddr = binary.BigEndian.Uint32(b[:])
} else {
if targetAddr.Is4() {
relayFrom = h.vpnAddrs[0]
} else {
//todo do this smarter
relayFrom = h.vpnAddrs[len(h.vpnAddrs)-1]
}
resp.RelayFromAddr = netAddrToProtoAddr(relayFrom)
resp.RelayFromAddr = netAddrToProtoAddr(peerHostInfo.vpnAddrs[0])
resp.RelayToAddr = target
}
@@ -367,7 +360,7 @@ func (rm *relayManager) handleCreateRelayRequest(v cert.Version, h *HostInfo, f
Type: NebulaControl_CreateRelayRequest,
InitiatorRelayIndex: index,
}
relayFrom := h.vpnAddrs[0]
if v == cert.Version1 {
if !h.vpnAddrs[0].Is4() {
rm.l.WithField("relayFrom", h.vpnAddrs[0]).
@@ -384,13 +377,7 @@ func (rm *relayManager) handleCreateRelayRequest(v cert.Version, h *HostInfo, f
b = target.As4()
req.OldRelayToAddr = binary.BigEndian.Uint32(b[:])
} else {
if target.Is4() {
relayFrom = h.vpnAddrs[0]
} else {
//todo do this smarter
relayFrom = h.vpnAddrs[len(h.vpnAddrs)-1]
}
req.RelayFromAddr = netAddrToProtoAddr(relayFrom)
req.RelayFromAddr = netAddrToProtoAddr(h.vpnAddrs[0])
req.RelayToAddr = netAddrToProtoAddr(target)
}
@@ -401,7 +388,7 @@ func (rm *relayManager) handleCreateRelayRequest(v cert.Version, h *HostInfo, f
} else {
f.SendMessageToHostInfo(header.Control, 0, peer, msg, make([]byte, 12), make([]byte, mtu))
rm.l.WithFields(logrus.Fields{
"relayFrom": relayFrom,
"relayFrom": h.vpnAddrs[0],
"relayTo": target,
"initiatorRelayIndex": req.InitiatorRelayIndex,
"responderRelayIndex": req.ResponderRelayIndex,

24
service/service.go
View File

@@ -9,10 +9,13 @@ import (
"math"
"net"
"net/netip"
"os"
"strings"
"sync"
"github.com/sirupsen/logrus"
"github.com/slackhq/nebula"
"github.com/slackhq/nebula/config"
"github.com/slackhq/nebula/overlay"
"golang.org/x/sync/errgroup"
"gvisor.dev/gvisor/pkg/buffer"
@@ -43,8 +46,19 @@ type Service struct {
}
}
func New(control *nebula.Control) (*Service, error) {
control.Start()
func New(config *config.C) (*Service, error) {
logger := logrus.New()
logger.Out = os.Stdout
control, err := nebula.Main(config, false, "custom-app", logger, overlay.NewUserDeviceFromConfig)
if err != nil {
return nil, err
}
wait, err := control.Start()
if err != nil {
return nil, err
}
ctx := control.Context()
eg, ctx := errgroup.WithContext(ctx)
@@ -141,6 +155,12 @@ func New(control *nebula.Control) (*Service, error) {
}
})
// Add the nebula wait function to the group
eg.Go(func() error {
wait()
return nil
})
return &s, nil
}

10
udp/conn.go
View File

@@ -4,19 +4,19 @@ import (
"net/netip"
"github.com/slackhq/nebula/config"
"github.com/slackhq/nebula/packet"
)
const MTU = 9001
type EncReader func(
addr netip.AddrPort,
payload []byte,
)
type EncReader func(*packet.Packet)
type PacketBufferGetter func() *packet.Packet
type Conn interface {
Rebind() error
LocalAddr() (netip.AddrPort, error)
ListenOut(r EncReader)
ListenOut(pg PacketBufferGetter, pc chan *packet.Packet) error
WriteTo(b []byte, addr netip.AddrPort) error
ReloadConfig(c *config.C)
Close() error

5
udp/udp_generic.go
View File

@@ -71,15 +71,14 @@ type rawMessage struct {
Len uint32
}
func (u *GenericConn) ListenOut(r EncReader) {
func (u *GenericConn) ListenOut(r EncReader) error {
buffer := make([]byte, MTU)
for {
// Just read one packet at a time
n, rua, err := u.ReadFromUDPAddrPort(buffer)
if err != nil {
u.l.WithError(err).Debug("udp socket is closed, exiting read loop")
return
return err
}
r(netip.AddrPortFrom(rua.Addr().Unmap(), rua.Port()), buffer[:n])

107
udp/udp_linux.go
View File

@@ -9,27 +9,26 @@ import (
"net"
"net/netip"
"syscall"
"time"
"unsafe"
"github.com/rcrowley/go-metrics"
"github.com/sirupsen/logrus"
"github.com/slackhq/nebula/config"
"github.com/slackhq/nebula/packet"
"golang.org/x/sys/unix"
)
type StdConn struct {
sysFd int
isV4 bool
l *logrus.Logger
batch int
}
var readTimeout = unix.NsecToTimeval(int64(time.Millisecond * 500))
func maybeIPV4(ip net.IP) (net.IP, bool) {
ip4 := ip.To4()
if ip4 != nil {
return ip4, true
}
return ip, false
type StdConn struct {
sysFd int
isV4 bool
l *logrus.Logger
batch int
enableGRO bool
enableGSO bool
//gso gsoState
}
func NewListener(l *logrus.Logger, ip netip.Addr, port int, multi bool, batch int) (Conn, error) {
@@ -55,6 +54,11 @@ func NewListener(l *logrus.Logger, ip netip.Addr, port int, multi bool, batch in
}
}
// Set a read timeout
if err = unix.SetsockoptTimeval(fd, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &readTimeout); err != nil {
return nil, fmt.Errorf("unable to set SO_RCVTIMEO: %s", err)
}
var sa unix.Sockaddr
if ip.Is4() {
sa4 := &unix.SockaddrInet4{Port: port}
@@ -118,10 +122,10 @@ func (u *StdConn) LocalAddr() (netip.AddrPort, error) {
}
}
func (u *StdConn) ListenOut(r EncReader) {
func (u *StdConn) ListenOut(pg PacketBufferGetter, pc chan *packet.Packet) error {
var ip netip.Addr
msgs, buffers, names := u.PrepareRawMessages(u.batch)
msgs, packets, names := u.PrepareRawMessages(u.batch, pg)
read := u.ReadMulti
if u.batch == 1 {
read = u.ReadSingle
@@ -130,22 +134,61 @@ func (u *StdConn) ListenOut(r EncReader) {
for {
n, err := read(msgs)
if err != nil {
u.l.WithError(err).Debug("udp socket is closed, exiting read loop")
return
return err
}
for i := 0; i < n; i++ {
out := packets[i]
out.Payload = out.Payload[:msgs[i].Len]
// Its ok to skip the ok check here, the slicing is the only error that can occur and it will panic
if u.isV4 {
ip, _ = netip.AddrFromSlice(names[i][4:8])
} else {
ip, _ = netip.AddrFromSlice(names[i][8:24])
}
r(netip.AddrPortFrom(ip.Unmap(), binary.BigEndian.Uint16(names[i][2:4])), buffers[i][:msgs[i].Len])
out.Addr = netip.AddrPortFrom(ip.Unmap(), binary.BigEndian.Uint16(names[i][2:4]))
ctrlLen := getRawMessageControlLen(&msgs[i])
if ctrlLen > 0 {
packets[i].SegSize = parseGROControl(packets[i].Control[:ctrlLen])
} else {
packets[i].SegSize = 0
}
pc <- out
//rotate this packet out so we don't overwrite it
packets[i] = pg()
msgs[i].Hdr.Iov.Base = &packets[i].Payload[0]
if u.enableGRO {
msgs[i].Hdr.Control = &packets[i].Control[0]
msgs[i].Hdr.Controllen = uint64(cap(packets[i].Control))
}
}
}
}
func parseGROControl(control []byte) int {
if len(control) == 0 {
return 0
}
cmsgs, err := unix.ParseSocketControlMessage(control)
if err != nil {
return 0
}
for _, c := range cmsgs {
if c.Header.Level == unix.SOL_UDP && c.Header.Type == unix.UDP_GRO && len(c.Data) >= 2 {
segSize := int(binary.LittleEndian.Uint16(c.Data[:2]))
return segSize
}
}
return 0
}
func (u *StdConn) ReadSingle(msgs []rawMessage) (int, error) {
for {
n, _, err := unix.Syscall6(
@@ -159,6 +202,9 @@ func (u *StdConn) ReadSingle(msgs []rawMessage) (int, error) {
)
if err != 0 {
if err == unix.EAGAIN || err == unix.EINTR {
continue
}
return 0, &net.OpError{Op: "recvmsg", Err: err}
}
@@ -180,6 +226,9 @@ func (u *StdConn) ReadMulti(msgs []rawMessage) (int, error) {
)
if err != 0 {
if err == unix.EAGAIN || err == unix.EINTR {
continue
}
return 0, &net.OpError{Op: "recvmmsg", Err: err}
}
@@ -221,7 +270,7 @@ func (u *StdConn) writeTo6(b []byte, ip netip.AddrPort) error {
func (u *StdConn) writeTo4(b []byte, ip netip.AddrPort) error {
if !ip.Addr().Is4() {
return ErrInvalidIPv6RemoteForSocket
return fmt.Errorf("Listener is IPv4, but writing to IPv6 remote")
}
var rsa unix.RawSockaddrInet4
@@ -294,6 +343,28 @@ func (u *StdConn) ReloadConfig(c *config.C) {
u.l.WithError(err).Error("Failed to set listen.so_mark")
}
}
u.configureGRO(true)
}
func (u *StdConn) configureGRO(enable bool) {
if enable == u.enableGRO {
return
}
if enable {
if err := unix.SetsockoptInt(u.sysFd, unix.SOL_UDP, unix.UDP_GRO, 1); err != nil {
u.l.WithError(err).Warn("Failed to enable UDP GRO")
return
}
u.enableGRO = true
u.l.Info("UDP GRO enabled")
return
}
if err := unix.SetsockoptInt(u.sysFd, unix.SOL_UDP, unix.UDP_GRO, 0); err != nil && err != unix.ENOPROTOOPT {
u.l.WithError(err).Warn("Failed to disable UDP GRO")
}
u.enableGRO = false
}
func (u *StdConn) getMemInfo(meminfo *[unix.SK_MEMINFO_VARS]uint32) error {

40
udp/udp_linux_64.go
View File

@@ -7,6 +7,7 @@
package udp
import (
"github.com/slackhq/nebula/packet"
"golang.org/x/sys/unix"
)
@@ -33,17 +34,39 @@ type rawMessage struct {
Pad0 [4]byte
}
func (u *StdConn) PrepareRawMessages(n int) ([]rawMessage, [][]byte, [][]byte) {
func setRawMessageControl(msg *rawMessage, buf []byte) {
if len(buf) == 0 {
msg.Hdr.Control = nil
msg.Hdr.Controllen = 0
return
}
msg.Hdr.Control = &buf[0]
msg.Hdr.Controllen = uint64(len(buf))
}
func getRawMessageControlLen(msg *rawMessage) int {
return int(msg.Hdr.Controllen)
}
func setCmsgLen(h *unix.Cmsghdr, l int) {
h.Len = uint64(l)
}
func (u *StdConn) PrepareRawMessages(n int, pg PacketBufferGetter) ([]rawMessage, []*packet.Packet, [][]byte) {
msgs := make([]rawMessage, n)
buffers := make([][]byte, n)
names := make([][]byte, n)
packets := make([]*packet.Packet, n)
for i := range packets {
packets[i] = pg()
}
//todo?
for i := range msgs {
buffers[i] = make([]byte, MTU)
names[i] = make([]byte, unix.SizeofSockaddrInet6)
vs := []iovec{
{Base: &buffers[i][0], Len: uint64(len(buffers[i]))},
{Base: &packets[i].Payload[0], Len: uint64(packet.Size)},
}
msgs[i].Hdr.Iov = &vs[0]
@@ -51,7 +74,14 @@ func (u *StdConn) PrepareRawMessages(n int) ([]rawMessage, [][]byte, [][]byte) {
msgs[i].Hdr.Name = &names[i][0]
msgs[i].Hdr.Namelen = uint32(len(names[i]))
if u.enableGRO {
msgs[i].Hdr.Control = &packets[i].Control[0]
msgs[i].Hdr.Controllen = uint64(len(packets[i].Control))
} else {
msgs[i].Hdr.Control = nil
msgs[i].Hdr.Controllen = 0
}
}
return msgs, buffers, names
return msgs, packets, names
}

2
udp/udp_rio_windows.go
View File

@@ -134,7 +134,7 @@ func (u *RIOConn) bind(sa windows.Sockaddr) error {
return nil
}
func (u *RIOConn) ListenOut(r EncReader) {
func (u *RIOConn) ListenOut(r EncReader) error {
buffer := make([]byte, MTU)
for {