av/stream/mts/encoder.go

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/*
NAME
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encoder.go
DESCRIPTION
See Readme.md
AUTHOR
Dan Kortschak <dan@ausocean.org>
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Saxon Nelson-Milton <saxon@ausocean.org>
LICENSE
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encoder.go is Copyright (C) 2017-2018 the Australian Ocean Lab (AusOcean)
It is free software: you can redistribute it and/or modify them
under the terms of the GNU General Public License as published by the
Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with revid in gpl.txt. If not, see http://www.gnu.org/licenses.
*/
package mts
import (
"io"
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"time"
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"bitbucket.org/ausocean/av/stream/mts/pes"
"bitbucket.org/ausocean/av/stream/mts/psi"
)
const (
psiPacketSize = 184
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psiSendCount = 7
)
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type MetaData struct {
time uint64
location string
}
var metaData = MetaData{time: 0, location: ""}
func SetTimeStamp(t uint64) {
metaData.time = t
}
func SetLocation(g string) {
metaData.location = g
}
var (
patTable = psi.StdPat.Bytes()
pmtTable = psi.StdPmtTimeLocation.Bytes()
)
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const (
sdtPid = 17
patPid = 0
pmtPid = 4096
videoPid = 256
streamID = 0xe0 // First video stream ID.
)
// Time related constants.
const (
// ptsOffset is the offset added to the clock to determine
// the current presentation timestamp,
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ptsOffset = 700 * time.Millisecond
// pcrFreq is the base Program Clock Reference frequency.
pcrFreq = 90000 // Hz
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)
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// Encoder encapsulates properties of an mpegts generator.
type Encoder struct {
dst io.Writer
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clock time.Duration
frameInterval time.Duration
ptsOffset time.Duration
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tsSpace [PktLen]byte
pesSpace [pes.MaxPesSize]byte
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psiCount int
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continuity map[int]byte
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}
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// NewEncoder returns an Encoder with the specified frame rate.
func NewEncoder(dst io.Writer, fps float64) *Encoder {
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return &Encoder{
dst: dst,
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frameInterval: time.Duration(float64(time.Second) / fps),
ptsOffset: ptsOffset,
continuity: map[int]byte{
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patPid: 0,
pmtPid: 0,
videoPid: 0,
},
}
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}
const (
hasPayload = 0x1
hasAdaptationField = 0x2
)
const (
hasDTS = 0x1
hasPTS = 0x2
)
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// generate handles the incoming data and generates equivalent mpegts packets -
// sending them to the output channel
func (e *Encoder) Encode(nalu []byte) error {
// Prepare PES data.
pesPkt := pes.Packet{
StreamID: streamID,
PDI: hasPTS,
PTS: e.pts(),
Data: nalu,
HeaderLength: 5,
}
buf := pesPkt.Bytes(e.pesSpace[:pes.MaxPesSize])
pusi := true
for len(buf) != 0 {
pkt := Packet{
PUSI: pusi,
PID: videoPid,
RAI: pusi,
CC: e.ccFor(videoPid),
AFC: hasAdaptationField | hasPayload,
PCRF: pusi,
}
n := pkt.FillPayload(buf)
buf = buf[n:]
if pusi {
// If the packet has a Payload Unit Start Indicator
// flag set then we need to write a PCR.
pkt.PCR = e.pcr()
pusi = false
}
if e.psiCount <= 0 {
err := e.writePSI()
if err != nil {
return err
}
}
e.psiCount--
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_, err := e.dst.Write(pkt.Bytes(e.tsSpace[:PktLen]))
if err != nil {
return err
}
}
e.tick()
return nil
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}
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// writePSI creates mpegts with pat and pmt tables - with pmt table having updated
// location and time data.
func (e *Encoder) writePSI() error {
// Write PAT
patPkt := Packet{
PUSI: true,
PID: patPid,
CC: e.ccFor(patPid),
AFC: hasPayload,
Payload: addPadding(patTable),
}
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_, err := e.dst.Write(patPkt.Bytes(e.tsSpace[:PktLen]))
if err != nil {
return err
}
// Update pmt table time and location
err = psi.UpdateTime(pmtTable, metaData.time)
if err != nil {
return err
}
err = psi.UpdateLocation(pmtTable, metaData.location)
if err != nil {
return nil
}
// Create mts packet from pmt table
pmtPkt := Packet{
PUSI: true,
PID: pmtPid,
CC: e.ccFor(pmtPid),
AFC: hasPayload,
Payload: addPadding(pmtTable),
}
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_, err = e.dst.Write(pmtPkt.Bytes(e.tsSpace[:PktLen]))
if err != nil {
return err
}
e.psiCount = psiSendCount
return nil
}
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// addPadding adds an appropriate amount of padding to a pat or pmt table for
// addition to an mpegts packet
func addPadding(d []byte) []byte {
for len(d) < psiPacketSize {
d = append(d, 0xff)
}
return d
}
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// tick advances the clock one frame interval.
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func (e *Encoder) tick() {
e.clock += e.frameInterval
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}
// pts retuns the current presentation timestamp.
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func (e *Encoder) pts() uint64 {
return uint64((e.clock + e.ptsOffset).Seconds() * pcrFreq)
}
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// pcr returns the current program clock reference.
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func (e *Encoder) pcr() uint64 {
return uint64(e.clock.Seconds() * pcrFreq)
}
// ccFor returns the next continuity counter for pid.
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func (e *Encoder) ccFor(pid int) byte {
cc := e.continuity[pid]
const continuityCounterMask = 0xf
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e.continuity[pid] = (cc + 1) & continuityCounterMask
return cc
}