package rtp import ( "time" ) const ( absSendTimeExtensionSize = 3 ) // AbsSendTimeExtension is a extension payload format in // http://www.webrtc.org/experiments/rtp-hdrext/abs-send-time type AbsSendTimeExtension struct { Timestamp uint64 } // Marshal serializes the members to buffer. func (t *AbsSendTimeExtension) Marshal() ([]byte, error) { return []byte{ byte(t.Timestamp & 0xFF0000 >> 16), byte(t.Timestamp & 0xFF00 >> 8), byte(t.Timestamp & 0xFF), }, nil } // Unmarshal parses the passed byte slice and stores the result in the members. func (t *AbsSendTimeExtension) Unmarshal(rawData []byte) error { if len(rawData) < absSendTimeExtensionSize { return errTooSmall } t.Timestamp = uint64(rawData[0])<<16 | uint64(rawData[1])<<8 | uint64(rawData[2]) return nil } // Estimate absolute send time according to the receive time. // Note that if the transmission delay is larger than 64 seconds, estimated time will be wrong. func (t *AbsSendTimeExtension) Estimate(receive time.Time) time.Time { receiveNTP := toNtpTime(receive) ntp := receiveNTP&0xFFFFFFC000000000 | (t.Timestamp&0xFFFFFF)<<14 if receiveNTP < ntp { // Receive time must be always later than send time ntp -= 0x1000000 << 14 } return toTime(ntp) } // NewAbsSendTimeExtension makes new AbsSendTimeExtension from time.Time. func NewAbsSendTimeExtension(sendTime time.Time) *AbsSendTimeExtension { return &AbsSendTimeExtension{ Timestamp: toNtpTime(sendTime) >> 14, } } func toNtpTime(t time.Time) uint64 { var s uint64 var f uint64 u := uint64(t.UnixNano()) s = u / 1e9 s += 0x83AA7E80 // offset in seconds between unix epoch and ntp epoch f = u % 1e9 f <<= 32 f /= 1e9 s <<= 32 return s | f } func toTime(t uint64) time.Time { s := t >> 32 f := t & 0xFFFFFFFF f *= 1e9 f >>= 32 s -= 0x83AA7E80 u := s*1e9 + f return time.Unix(0, int64(u)) }