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session_srtp.go
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session_srtp.go
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// SPDX-FileCopyrightText: 2023 The Pion community <https://pion.ly>
// SPDX-License-Identifier: MIT
package srtp
import (
"net"
"sync"
"time"
"github.com/pion/logging"
"github.com/pion/rtp"
)
const defaultSessionSRTPReplayProtectionWindow = 64
// SessionSRTP implements io.ReadWriteCloser and provides a bi-directional SRTP session
// SRTP itself does not have a design like this, but it is common in most applications
// for local/remote to each have their own keying material. This provides those patterns
// instead of making everyone re-implement
type SessionSRTP struct {
session
writeStream *WriteStreamSRTP
}
// NewSessionSRTP creates a SRTP session using conn as the underlying transport.
func NewSessionSRTP(conn net.Conn, config *Config) (*SessionSRTP, error) { //nolint:dupl
if config == nil {
return nil, errNoConfig
} else if conn == nil {
return nil, errNoConn
}
loggerFactory := config.LoggerFactory
if loggerFactory == nil {
loggerFactory = logging.NewDefaultLoggerFactory()
}
localOpts := append(
[]ContextOption{},
config.LocalOptions...,
)
remoteOpts := append(
[]ContextOption{
// Default options
SRTPReplayProtection(defaultSessionSRTPReplayProtectionWindow),
},
config.RemoteOptions...,
)
s := &SessionSRTP{
session: session{
nextConn: conn,
localOptions: localOpts,
remoteOptions: remoteOpts,
readStreams: map[uint32]readStream{},
newStream: make(chan readStream),
acceptStreamTimeout: config.AcceptStreamTimeout,
started: make(chan interface{}),
closed: make(chan interface{}),
bufferFactory: config.BufferFactory,
log: loggerFactory.NewLogger("srtp"),
},
}
s.writeStream = &WriteStreamSRTP{s}
err := s.session.start(
config.Keys.LocalMasterKey, config.Keys.LocalMasterSalt,
config.Keys.RemoteMasterKey, config.Keys.RemoteMasterSalt,
config.Profile,
s,
)
if err != nil {
return nil, err
}
return s, nil
}
// OpenWriteStream returns the global write stream for the Session
func (s *SessionSRTP) OpenWriteStream() (*WriteStreamSRTP, error) {
return s.writeStream, nil
}
// OpenReadStream opens a read stream for the given SSRC, it can be used
// if you want a certain SSRC, but don't want to wait for AcceptStream
func (s *SessionSRTP) OpenReadStream(ssrc uint32) (*ReadStreamSRTP, error) {
r, _ := s.session.getOrCreateReadStream(ssrc, s, newReadStreamSRTP)
if readStream, ok := r.(*ReadStreamSRTP); ok {
return readStream, nil
}
return nil, errFailedTypeAssertion
}
// AcceptStream returns a stream to handle RTCP for a single SSRC
func (s *SessionSRTP) AcceptStream() (*ReadStreamSRTP, uint32, error) {
stream, ok := <-s.newStream
if !ok {
return nil, 0, errStreamAlreadyClosed
}
readStream, ok := stream.(*ReadStreamSRTP)
if !ok {
return nil, 0, errFailedTypeAssertion
}
return readStream, stream.GetSSRC(), nil
}
// Close ends the session
func (s *SessionSRTP) Close() error {
return s.session.close()
}
func (s *SessionSRTP) write(b []byte) (int, error) {
packet := &rtp.Packet{}
if err := packet.Unmarshal(b); err != nil {
return 0, err
}
return s.writeRTP(&packet.Header, packet.Payload)
}
// bufferpool is a global pool of buffers used for encrypted packets in
// writeRTP below. Since it's global, buffers can be shared between
// different sessions, which amortizes the cost of allocating the pool.
//
// 1472 is the maximum Ethernet UDP payload. We give ourselves 20 bytes
// of slack for any authentication tags, which is more than enough for
// either CTR or GCM. If the buffer is too small, no harm, it will just
// get expanded by growBuffer.
var bufferpool = sync.Pool{ // nolint:gochecknoglobals
New: func() interface{} {
return make([]byte, 1492)
},
}
func (s *SessionSRTP) writeRTP(header *rtp.Header, payload []byte) (int, error) {
if _, ok := <-s.session.started; ok {
return 0, errStartedChannelUsedIncorrectly
}
// encryptRTP will either return our buffer, or, if it is too
// small, allocate a new buffer itself. In either case, it is
// safe to put the buffer back into the pool, but only after
// nextConn.Write has returned.
ibuf := bufferpool.Get()
defer bufferpool.Put(ibuf)
s.session.localContextMutex.Lock()
encrypted, err := s.localContext.encryptRTP(ibuf.([]byte), header, payload)
s.session.localContextMutex.Unlock()
if err != nil {
return 0, err
}
return s.session.nextConn.Write(encrypted)
}
func (s *SessionSRTP) setWriteDeadline(t time.Time) error {
return s.session.nextConn.SetWriteDeadline(t)
}
func (s *SessionSRTP) decrypt(buf []byte) error {
h := &rtp.Header{}
headerLen, err := h.Unmarshal(buf)
if err != nil {
return err
}
r, isNew := s.session.getOrCreateReadStream(h.SSRC, s, newReadStreamSRTP)
if r == nil {
return nil // Session has been closed
} else if isNew {
if !s.session.acceptStreamTimeout.IsZero() {
_ = s.session.nextConn.SetReadDeadline(time.Time{})
}
s.session.newStream <- r // Notify AcceptStream
}
readStream, ok := r.(*ReadStreamSRTP)
if !ok {
return errFailedTypeAssertion
}
decrypted, err := s.remoteContext.decryptRTP(buf, buf, h, headerLen)
if err != nil {
return err
}
_, err = readStream.write(decrypted)
if err != nil {
return err
}
return nil
}