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srtp_cipher_aead_aes_gcm.go
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srtp_cipher_aead_aes_gcm.go
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package srtp
import (
"crypto/aes"
"crypto/cipher"
"encoding/binary"
"github.com/pion/rtp"
)
const (
rtcpEncryptionFlag = 0x80
)
type srtpCipherAeadAesGcm struct {
srtpCipher, srtcpCipher cipher.AEAD
srtpSessionSalt, srtcpSessionSalt []byte
}
func newSrtpCipherAeadAesGcm(masterKey, masterSalt []byte) (*srtpCipherAeadAesGcm, error) {
s := &srtpCipherAeadAesGcm{}
srtpSessionKey, err := aesCmKeyDerivation(labelSRTPEncryption, masterKey, masterSalt, 0, len(masterKey))
if err != nil {
return nil, err
}
srtpBlock, err := aes.NewCipher(srtpSessionKey)
if err != nil {
return nil, err
}
s.srtpCipher, err = cipher.NewGCM(srtpBlock)
if err != nil {
return nil, err
}
srtcpSessionKey, err := aesCmKeyDerivation(labelSRTCPEncryption, masterKey, masterSalt, 0, len(masterKey))
if err != nil {
return nil, err
}
srtcpBlock, err := aes.NewCipher(srtcpSessionKey)
if err != nil {
return nil, err
}
s.srtcpCipher, err = cipher.NewGCM(srtcpBlock)
if err != nil {
return nil, err
}
if s.srtpSessionSalt, err = aesCmKeyDerivation(labelSRTPSalt, masterKey, masterSalt, 0, len(masterSalt)); err != nil {
return nil, err
} else if s.srtcpSessionSalt, err = aesCmKeyDerivation(labelSRTCPSalt, masterKey, masterSalt, 0, len(masterSalt)); err != nil {
return nil, err
}
return s, nil
}
func (s *srtpCipherAeadAesGcm) authTagLen() int {
return 0
}
func (s *srtpCipherAeadAesGcm) aeadAuthTagLen() int {
return 16
}
func (s *srtpCipherAeadAesGcm) encryptRTP(dst []byte, header *rtp.Header, payload []byte, roc uint32) (ciphertext []byte, err error) {
// Grow the given buffer to fit the output.
dst = growBufferSize(dst, header.MarshalSize()+len(payload)+s.aeadAuthTagLen())
hdr, err := header.Marshal()
if err != nil {
return nil, err
}
iv := s.rtpInitializationVector(header, roc)
nHdr := len(hdr)
s.srtpCipher.Seal(dst[nHdr:nHdr], iv, payload, hdr)
copy(dst[:nHdr], hdr)
return dst, nil
}
func (s *srtpCipherAeadAesGcm) decryptRTP(dst, ciphertext []byte, header *rtp.Header, headerLen int, roc uint32) ([]byte, error) {
// Grow the given buffer to fit the output.
nDst := len(ciphertext) - s.aeadAuthTagLen()
if nDst < 0 {
// Size of ciphertext is shorter than AEAD auth tag len.
return nil, errFailedToVerifyAuthTag
}
dst = growBufferSize(dst, nDst)
iv := s.rtpInitializationVector(header, roc)
if _, err := s.srtpCipher.Open(
dst[headerLen:headerLen], iv, ciphertext[headerLen:], ciphertext[:headerLen],
); err != nil {
return nil, err
}
copy(dst[:headerLen], ciphertext[:headerLen])
return dst, nil
}
func (s *srtpCipherAeadAesGcm) encryptRTCP(dst, decrypted []byte, srtcpIndex uint32, ssrc uint32) ([]byte, error) {
aadPos := len(decrypted) + s.aeadAuthTagLen()
// Grow the given buffer to fit the output.
dst = growBufferSize(dst, aadPos+srtcpIndexSize)
iv := s.rtcpInitializationVector(srtcpIndex, ssrc)
aad := s.rtcpAdditionalAuthenticatedData(decrypted, srtcpIndex)
s.srtcpCipher.Seal(dst[8:8], iv, decrypted[8:], aad)
copy(dst[:8], decrypted[:8])
copy(dst[aadPos:aadPos+4], aad[8:12])
return dst, nil
}
func (s *srtpCipherAeadAesGcm) decryptRTCP(dst, encrypted []byte, srtcpIndex, ssrc uint32) ([]byte, error) {
aadPos := len(encrypted) - srtcpIndexSize
// Grow the given buffer to fit the output.
nDst := aadPos - s.aeadAuthTagLen()
if nDst < 0 {
// Size of ciphertext is shorter than AEAD auth tag len.
return nil, errFailedToVerifyAuthTag
}
dst = growBufferSize(dst, nDst)
iv := s.rtcpInitializationVector(srtcpIndex, ssrc)
aad := s.rtcpAdditionalAuthenticatedData(encrypted, srtcpIndex)
if _, err := s.srtcpCipher.Open(dst[8:8], iv, encrypted[8:aadPos], aad); err != nil {
return nil, err
}
copy(dst[:8], encrypted[:8])
return dst, nil
}
// The 12-octet IV used by AES-GCM SRTP is formed by first concatenating
// 2 octets of zeroes, the 4-octet SSRC, the 4-octet rollover counter
// (ROC), and the 2-octet sequence number (SEQ). The resulting 12-octet
// value is then XORed to the 12-octet salt to form the 12-octet IV.
//
// https://tools.ietf.org/html/rfc7714#section-8.1
func (s *srtpCipherAeadAesGcm) rtpInitializationVector(header *rtp.Header, roc uint32) []byte {
iv := make([]byte, 12)
binary.BigEndian.PutUint32(iv[2:], header.SSRC)
binary.BigEndian.PutUint32(iv[6:], roc)
binary.BigEndian.PutUint16(iv[10:], header.SequenceNumber)
for i := range iv {
iv[i] ^= s.srtpSessionSalt[i]
}
return iv
}
// The 12-octet IV used by AES-GCM SRTCP is formed by first
// concatenating 2 octets of zeroes, the 4-octet SSRC identifier,
// 2 octets of zeroes, a single "0" bit, and the 31-bit SRTCP index.
// The resulting 12-octet value is then XORed to the 12-octet salt to
// form the 12-octet IV.
//
// https://tools.ietf.org/html/rfc7714#section-9.1
func (s *srtpCipherAeadAesGcm) rtcpInitializationVector(srtcpIndex uint32, ssrc uint32) []byte {
iv := make([]byte, 12)
binary.BigEndian.PutUint32(iv[2:], ssrc)
binary.BigEndian.PutUint32(iv[8:], srtcpIndex)
for i := range iv {
iv[i] ^= s.srtcpSessionSalt[i]
}
return iv
}
// In an SRTCP packet, a 1-bit Encryption flag is prepended to the
// 31-bit SRTCP index to form a 32-bit value we shall call the
// "ESRTCP word"
//
// https://tools.ietf.org/html/rfc7714#section-17
func (s *srtpCipherAeadAesGcm) rtcpAdditionalAuthenticatedData(rtcpPacket []byte, srtcpIndex uint32) []byte {
aad := make([]byte, 12)
copy(aad, rtcpPacket[:8])
binary.BigEndian.PutUint32(aad[8:], srtcpIndex)
aad[8] |= rtcpEncryptionFlag
return aad
}
func (s *srtpCipherAeadAesGcm) getRTCPIndex(in []byte) uint32 {
return binary.BigEndian.Uint32(in[len(in)-4:]) &^ (rtcpEncryptionFlag << 24)
}