Xray-core/transport/internet/xtls/config.go

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package xtls
import (
"crypto/hmac"
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"crypto/x509"
"encoding/base64"
"strings"
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"sync"
"time"
xtls "github.com/xtls/go"
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"github.com/xtls/xray-core/common/net"
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"github.com/xtls/xray-core/common/ocsp"
"github.com/xtls/xray-core/common/platform/filesystem"
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"github.com/xtls/xray-core/common/protocol/tls/cert"
"github.com/xtls/xray-core/transport/internet"
"github.com/xtls/xray-core/transport/internet/tls"
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)
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var globalSessionCache = xtls.NewLRUClientSessionCache(128)
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// ParseCertificate converts a cert.Certificate to Certificate.
func ParseCertificate(c *cert.Certificate) *Certificate {
if c != nil {
certPEM, keyPEM := c.ToPEM()
return &Certificate{
Certificate: certPEM,
Key: keyPEM,
}
}
return nil
}
func (c *Config) loadSelfCertPool() (*x509.CertPool, error) {
root := x509.NewCertPool()
for _, cert := range c.Certificate {
if !root.AppendCertsFromPEM(cert.Certificate) {
return nil, newError("failed to append cert").AtWarning()
}
}
return root, nil
}
// BuildCertificates builds a list of TLS certificates from proto definition.
func (c *Config) BuildCertificates() []*xtls.Certificate {
certs := make([]*xtls.Certificate, 0, len(c.Certificate))
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for _, entry := range c.Certificate {
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if entry.Usage != Certificate_ENCIPHERMENT {
continue
}
keyPair, err := xtls.X509KeyPair(entry.Certificate, entry.Key)
if err != nil {
newError("ignoring invalid X509 key pair").Base(err).AtWarning().WriteToLog()
continue
}
keyPair.Leaf, err = x509.ParseCertificate(keyPair.Certificate[0])
if err != nil {
newError("ignoring invalid certificate").Base(err).AtWarning().WriteToLog()
continue
}
certs = append(certs, &keyPair)
if !entry.OneTimeLoading {
var isOcspstapling bool
hotReloadInterval := uint64(3600)
if entry.OcspStapling != 0 {
hotReloadInterval = entry.OcspStapling
isOcspstapling = true
}
index := len(certs) - 1
go func(entry *Certificate, cert *xtls.Certificate, index int) {
t := time.NewTicker(time.Duration(hotReloadInterval) * time.Second)
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for {
if entry.CertificatePath != "" && entry.KeyPath != "" {
newCert, err := filesystem.ReadFile(entry.CertificatePath)
if err != nil {
newError("failed to parse certificate").Base(err).AtError().WriteToLog()
<-t.C
continue
}
newKey, err := filesystem.ReadFile(entry.KeyPath)
if err != nil {
newError("failed to parse key").Base(err).AtError().WriteToLog()
<-t.C
continue
}
if string(newCert) != string(entry.Certificate) && string(newKey) != string(entry.Key) {
newKeyPair, err := xtls.X509KeyPair(newCert, newKey)
if err != nil {
newError("ignoring invalid X509 key pair").Base(err).AtError().WriteToLog()
<-t.C
continue
}
if newKeyPair.Leaf, err = x509.ParseCertificate(newKeyPair.Certificate[0]); err != nil {
newError("ignoring invalid certificate").Base(err).AtError().WriteToLog()
<-t.C
continue
}
cert = &newKeyPair
}
}
if isOcspstapling {
if newOCSPData, err := ocsp.GetOCSPForCert(cert.Certificate); err != nil {
newError("ignoring invalid OCSP").Base(err).AtWarning().WriteToLog()
} else if string(newOCSPData) != string(cert.OCSPStaple) {
cert.OCSPStaple = newOCSPData
}
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}
certs[index] = cert
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<-t.C
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}
}(entry, certs[index], index)
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}
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}
return certs
}
func isCertificateExpired(c *xtls.Certificate) bool {
if c.Leaf == nil && len(c.Certificate) > 0 {
if pc, err := x509.ParseCertificate(c.Certificate[0]); err == nil {
c.Leaf = pc
}
}
// If leaf is not there, the certificate is probably not used yet. We trust user to provide a valid certificate.
return c.Leaf != nil && c.Leaf.NotAfter.Before(time.Now().Add(-time.Minute))
}
func issueCertificate(rawCA *Certificate, domain string) (*xtls.Certificate, error) {
parent, err := cert.ParseCertificate(rawCA.Certificate, rawCA.Key)
if err != nil {
return nil, newError("failed to parse raw certificate").Base(err)
}
newCert, err := cert.Generate(parent, cert.CommonName(domain), cert.DNSNames(domain))
if err != nil {
return nil, newError("failed to generate new certificate for ", domain).Base(err)
}
newCertPEM, newKeyPEM := newCert.ToPEM()
cert, err := xtls.X509KeyPair(newCertPEM, newKeyPEM)
return &cert, err
}
func (c *Config) getCustomCA() []*Certificate {
certs := make([]*Certificate, 0, len(c.Certificate))
for _, certificate := range c.Certificate {
if certificate.Usage == Certificate_AUTHORITY_ISSUE {
certs = append(certs, certificate)
}
}
return certs
}
func getGetCertificateFunc(c *xtls.Config, ca []*Certificate) func(hello *xtls.ClientHelloInfo) (*xtls.Certificate, error) {
var access sync.RWMutex
return func(hello *xtls.ClientHelloInfo) (*xtls.Certificate, error) {
domain := hello.ServerName
certExpired := false
access.RLock()
certificate, found := c.NameToCertificate[domain]
access.RUnlock()
if found {
if !isCertificateExpired(certificate) {
return certificate, nil
}
certExpired = true
}
if certExpired {
newCerts := make([]xtls.Certificate, 0, len(c.Certificates))
access.Lock()
for _, certificate := range c.Certificates {
if !isCertificateExpired(&certificate) {
newCerts = append(newCerts, certificate)
}
}
c.Certificates = newCerts
access.Unlock()
}
var issuedCertificate *xtls.Certificate
// Create a new certificate from existing CA if possible
for _, rawCert := range ca {
if rawCert.Usage == Certificate_AUTHORITY_ISSUE {
newCert, err := issueCertificate(rawCert, domain)
if err != nil {
newError("failed to issue new certificate for ", domain).Base(err).WriteToLog()
continue
}
access.Lock()
c.Certificates = append(c.Certificates, *newCert)
issuedCertificate = &c.Certificates[len(c.Certificates)-1]
access.Unlock()
break
}
}
if issuedCertificate == nil {
return nil, newError("failed to create a new certificate for ", domain)
}
access.Lock()
c.BuildNameToCertificate()
access.Unlock()
return issuedCertificate, nil
}
}
func getNewGetCertificateFunc(certs []*xtls.Certificate, rejectUnknownSNI bool) func(hello *xtls.ClientHelloInfo) (*xtls.Certificate, error) {
return func(hello *xtls.ClientHelloInfo) (*xtls.Certificate, error) {
if len(certs) == 0 {
return nil, errNoCertificates
}
sni := strings.ToLower(hello.ServerName)
if !rejectUnknownSNI && (len(certs) == 1 || sni == "") {
return certs[0], nil
}
gsni := "*"
if index := strings.IndexByte(sni, '.'); index != -1 {
gsni += sni[index:]
}
for _, keyPair := range certs {
if keyPair.Leaf.Subject.CommonName == sni || keyPair.Leaf.Subject.CommonName == gsni {
return keyPair, nil
}
for _, name := range keyPair.Leaf.DNSNames {
if name == sni || name == gsni {
return keyPair, nil
}
}
}
if rejectUnknownSNI {
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return nil, errNoCertificates
}
return certs[0], nil
}
}
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func (c *Config) parseServerName() string {
return c.ServerName
}
func (c *Config) verifyPeerCert(rawCerts [][]byte, verifiedChains [][]*x509.Certificate) error {
if c.PinnedPeerCertificateChainSha256 != nil {
hashValue := tls.GenerateCertChainHash(rawCerts)
for _, v := range c.PinnedPeerCertificateChainSha256 {
if hmac.Equal(hashValue, v) {
return nil
}
}
return newError("peer cert is unrecognized: ", base64.StdEncoding.EncodeToString(hashValue))
}
return nil
}
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// GetXTLSConfig converts this Config into xtls.Config.
func (c *Config) GetXTLSConfig(opts ...Option) *xtls.Config {
root, err := c.getCertPool()
if err != nil {
newError("failed to load system root certificate").AtError().Base(err).WriteToLog()
}
if c == nil {
return &xtls.Config{
ClientSessionCache: globalSessionCache,
RootCAs: root,
InsecureSkipVerify: false,
NextProtos: nil,
SessionTicketsDisabled: true,
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}
}
config := &xtls.Config{
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ClientSessionCache: globalSessionCache,
RootCAs: root,
InsecureSkipVerify: c.AllowInsecure,
NextProtos: c.NextProtocol,
SessionTicketsDisabled: !c.EnableSessionResumption,
VerifyPeerCertificate: c.verifyPeerCert,
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}
for _, opt := range opts {
opt(config)
}
caCerts := c.getCustomCA()
if len(caCerts) > 0 {
config.GetCertificate = getGetCertificateFunc(config, caCerts)
} else {
config.GetCertificate = getNewGetCertificateFunc(c.BuildCertificates(), c.RejectUnknownSni)
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}
if sn := c.parseServerName(); len(sn) > 0 {
config.ServerName = sn
}
if len(config.NextProtos) == 0 {
config.NextProtos = []string{"h2", "http/1.1"}
}
switch c.MinVersion {
case "1.0":
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config.MinVersion = xtls.VersionTLS10
case "1.1":
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config.MinVersion = xtls.VersionTLS11
case "1.2":
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config.MinVersion = xtls.VersionTLS12
case "1.3":
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config.MinVersion = xtls.VersionTLS13
}
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switch c.MaxVersion {
case "1.0":
config.MaxVersion = xtls.VersionTLS10
case "1.1":
config.MaxVersion = xtls.VersionTLS11
case "1.2":
config.MaxVersion = xtls.VersionTLS12
case "1.3":
config.MaxVersion = xtls.VersionTLS13
}
if len(c.CipherSuites) > 0 {
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id := make(map[string]uint16)
for _, s := range xtls.CipherSuites() {
id[s.Name] = s.ID
}
for _, n := range strings.Split(c.CipherSuites, ":") {
if id[n] != 0 {
config.CipherSuites = append(config.CipherSuites, id[n])
}
}
}
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config.PreferServerCipherSuites = c.PreferServerCipherSuites
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return config
}
// Option for building XTLS config.
type Option func(*xtls.Config)
// WithDestination sets the server name in XTLS config.
func WithDestination(dest net.Destination) Option {
return func(config *xtls.Config) {
if dest.Address.Family().IsDomain() && config.ServerName == "" {
config.ServerName = dest.Address.Domain()
}
}
}
// WithNextProto sets the ALPN values in XTLS config.
func WithNextProto(protocol ...string) Option {
return func(config *xtls.Config) {
if len(config.NextProtos) == 0 {
config.NextProtos = protocol
}
}
}
// ConfigFromStreamSettings fetches Config from stream settings. Nil if not found.
func ConfigFromStreamSettings(settings *internet.MemoryStreamConfig) *Config {
if settings == nil {
return nil
}
config, ok := settings.SecuritySettings.(*Config)
if !ok {
return nil
}
return config
}