/* NAME encoder_test.go AUTHOR Trek Hopton Saxon A. Nelson-Milton LICENSE encoder_test.go is Copyright (C) 2017-2019 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 in gpl.txt. If not, see http://www.gnu.org/licenses. */ package mts import ( "bytes" "io" "io/ioutil" "testing" "github.com/Comcast/gots/packet" "github.com/Comcast/gots/pes" "bitbucket.org/ausocean/av/container/mts/meta" ) type nopCloser struct{ io.Writer } func (nopCloser) Close() error { return nil } type destination struct { packets [][]byte } func (d *destination) Write(p []byte) (int, error) { tmp := make([]byte, PacketSize) copy(tmp, p) d.packets = append(d.packets, tmp) return len(p), nil } // TestEncodeVideo checks that we can correctly encode some dummy data into a // valid MPEG-TS stream. This checks for correct MPEG-TS headers and also that the // original data is stored correctly and is retreivable. func TestEncodeVideo(t *testing.T) { Meta = meta.New() const dataLength = 440 const numOfPackets = 3 const stuffingLen = 100 // Generate test data. data := make([]byte, 0, dataLength) for i := 0; i < dataLength; i++ { data = append(data, byte(i)) } // Expect headers for PID 256 (video) // NB: timing fields like PCR are neglected. expectedHeaders := [][]byte{ { 0x47, // Sync byte. 0x41, // TEI=0, PUSI=1, TP=0, PID=00001 (256). 0x00, // PID(Cont)=00000000. 0x30, // TSC=00, AFC=11(adaptation followed by payload), CC=0000(0). 0x07, // AFL= 7. 0x50, // DI=0,RAI=1,ESPI=0,PCRF=1,OPCRF=0,SPF=0,TPDF=0, AFEF=0. }, { 0x47, // Sync byte. 0x01, // TEI=0, PUSI=0, TP=0, PID=00001 (256). 0x00, // PID(Cont)=00000000. 0x31, // TSC=00, AFC=11(adaptation followed by payload), CC=0001(1). 0x01, // AFL= 1. 0x00, // DI=0,RAI=0,ESPI=0,PCRF=0,OPCRF=0,SPF=0,TPDF=0, AFEF=0. }, { 0x47, // Sync byte. 0x01, // TEI=0, PUSI=0, TP=0, PID=00001 (256). 0x00, // PID(Cont)=00000000. 0x32, // TSC=00, AFC=11(adaptation followed by payload), CC=0010(2). 0x57, // AFL= 1+stuffingLen. 0x00, // DI=0,RAI=0,ESPI=0,PCRF=1,OPCRF=0,SPF=0,TPDF=0, AFEF=0. }, } // Create the dst and write the test data to encoder. dst := &destination{} _, err := NewEncoder(nopCloser{dst}, 25, H264).Write(data) if err != nil { t.Fatalf("could not write data to encoder, failed with err: %v\n", err) } // Check headers. var expectedIdx int for _, p := range dst.packets { // Get PID. var _p packet.Packet copy(_p[:], p) pid := packet.Pid(&_p) if pid == VideoPid { // Get mts header, excluding PCR. gotHeader := p[0:6] wantHeader := expectedHeaders[expectedIdx] if !bytes.Equal(gotHeader, wantHeader) { t.Errorf("did not get expected header for idx: %v.\n Got: %v\n Want: %v\n", expectedIdx, gotHeader, wantHeader) } expectedIdx++ } } // Gather payload data from packets to form the total PES packet. var pesData []byte for _, p := range dst.packets { var _p packet.Packet copy(_p[:], p) pid := packet.Pid(&_p) if pid == VideoPid { payload, err := packet.Payload(&_p) if err != nil { t.Fatalf("could not get payload from mts packet, failed with err: %v\n", err) } pesData = append(pesData, payload...) } } // Get data from the PES packet and compare with the original data. pes, err := pes.NewPESHeader(pesData) if err != nil { t.Fatalf("got error from pes creation: %v\n", err) } _data := pes.Data() if !bytes.Equal(data, _data) { t.Errorf("did not get expected result.\n Got: %v\n Want: %v\n", data, _data) } } // TestEncodePcm tests the MPEG-TS encoder's ability to encode pcm audio data. // It reads and encodes input pcm data into MPEG-TS, then decodes the MPEG-TS and compares the result to the input pcm. func TestEncodePcm(t *testing.T) { Meta = meta.New() var buf bytes.Buffer sampleRate := 48000 sampleSize := 2 blockSize := 16000 writeFreq := float64(sampleRate*sampleSize) / float64(blockSize) e := NewEncoder(nopCloser{&buf}, writeFreq, Audio) inPath := "../../../test/test-data/av/input/sweep_400Hz_20000Hz_-3dBFS_5s_48khz.pcm" inPcm, err := ioutil.ReadFile(inPath) if err != nil { t.Errorf("unable to read file: %v", err) } // Break pcm into blocks and encode to mts and get the resulting bytes. for i := 0; i < len(inPcm); i += blockSize { if len(inPcm)-i < blockSize { block := inPcm[i:] _, err = e.Write(block) if err != nil { t.Errorf("unable to write block: %v", err) } } else { block := inPcm[i : i+blockSize] _, err = e.Write(block) if err != nil { t.Errorf("unable to write block: %v", err) } } } clip := buf.Bytes() // Get the first MTS packet to check var pkt packet.Packet pesPacket := make([]byte, 0, blockSize) got := make([]byte, 0, len(inPcm)) i := 0 if i+PacketSize <= len(clip) { copy(pkt[:], clip[i:i+PacketSize]) } // Loop through MTS packets until all the audio data from PES packets has been retrieved for i+PacketSize <= len(clip) { // Check MTS packet if !(pkt.PID() == audioPid) { i += PacketSize if i+PacketSize <= len(clip) { copy(pkt[:], clip[i:i+PacketSize]) } continue } if !pkt.PayloadUnitStartIndicator() { i += PacketSize if i+PacketSize <= len(clip) { copy(pkt[:], clip[i:i+PacketSize]) } } else { // Copy the first MTS payload payload, err := pkt.Payload() if err != nil { t.Errorf("unable to get MTS payload: %v", err) } pesPacket = append(pesPacket, payload...) i += PacketSize if i+PacketSize <= len(clip) { copy(pkt[:], clip[i:i+PacketSize]) } // Copy the rest of the MTS payloads that are part of the same PES packet for (!pkt.PayloadUnitStartIndicator()) && i+PacketSize <= len(clip) { payload, err = pkt.Payload() if err != nil { t.Errorf("unable to get MTS payload: %v", err) } pesPacket = append(pesPacket, payload...) i += PacketSize if i+PacketSize <= len(clip) { copy(pkt[:], clip[i:i+PacketSize]) } } } // Get the audio data from the current PES packet pesHeader, err := pes.NewPESHeader(pesPacket) if err != nil { t.Errorf("unable to read PES packet: %v", err) } got = append(got, pesHeader.Data()...) pesPacket = pesPacket[:0] } // Compare data from MTS with original data. if !bytes.Equal(got, inPcm) { t.Error("data decoded from mts did not match input data") } }