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galene/diskwriter/diskwriter.go

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package diskwriter
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import (
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crand "crypto/rand"
"encoding/hex"
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"errors"
"fmt"
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"log"
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"os"
"path/filepath"
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"runtime"
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"strings"
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"sync"
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"time"
"github.com/at-wat/ebml-go/mkvcore"
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"github.com/at-wat/ebml-go/webm"
"github.com/pion/rtp"
"github.com/pion/rtp/codecs"
"github.com/pion/webrtc/v3/pkg/media"
"github.com/jech/samplebuilder"
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gcodecs "github.com/jech/galene/codecs"
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"github.com/jech/galene/conn"
"github.com/jech/galene/group"
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)
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var Directory string
type Client struct {
group *group.Group
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id string
mu sync.Mutex
down map[string]*diskConn
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closed bool
}
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func newId() string {
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b := make([]byte, 16)
crand.Read(b)
return hex.EncodeToString(b)
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}
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func New(g *group.Group) *Client {
return &Client{group: g, id: newId()}
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}
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func (client *Client) Group() *group.Group {
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return client.group
}
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func (client *Client) Id() string {
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return client.id
}
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func (client *Client) Username() string {
return "RECORDING"
}
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func (client *Client) SetPermissions(perms group.ClientPermissions) {
return
}
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func (client *Client) Permissions() group.ClientPermissions {
return group.ClientPermissions{
System: true,
}
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}
func (client *Client) Data() map[string]interface{} {
return nil
}
func (client *Client) PushClient(group, kind, id, username string, permissions group.ClientPermissions, data map[string]interface{}) error {
return nil
}
func (client *Client) RequestConns(target group.Client, g *group.Group, id string) error {
return nil
}
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func (client *Client) Close() error {
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client.mu.Lock()
defer client.mu.Unlock()
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for _, down := range client.down {
down.Close()
}
client.down = nil
client.closed = true
return nil
}
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func (client *Client) Kick(id, user, message string) error {
err := client.Close()
group.DelClient(client)
return err
}
func (client *Client) Joined(group, kind string) error {
return nil
}
func (client *Client) PushConn(g *group.Group, id string, up conn.Up, tracks []conn.UpTrack, replace string) error {
if client.group != g {
return nil
}
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client.mu.Lock()
defer client.mu.Unlock()
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if client.closed {
return errors.New("disk client is closed")
}
if replace != "" {
rp := client.down[replace]
if rp != nil {
rp.Close()
delete(client.down, replace)
} else {
log.Printf("Disk writer: replacing unknown connection")
}
}
old := client.down[id]
if old != nil {
old.Close()
delete(client.down, id)
}
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if up == nil {
return nil
}
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directory := filepath.Join(Directory, client.group.Name())
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err := os.MkdirAll(directory, 0700)
if err != nil {
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g.WallOps("Write to disk: " + err.Error())
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return err
}
if client.down == nil {
client.down = make(map[string]*diskConn)
}
down, err := newDiskConn(client, directory, up, tracks)
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if err != nil {
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g.WallOps("Write to disk: " + err.Error())
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return err
}
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client.down[up.Id()] = down
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return nil
}
type diskConn struct {
client *Client
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directory string
username string
hasVideo bool
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mu sync.Mutex
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file *os.File
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remote conn.Up
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tracks []*diskTrack
width, height uint32
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lastWarning time.Time
}
// called locked
func (conn *diskConn) warn(message string) {
now := time.Now()
if now.Sub(conn.lastWarning) < 10*time.Second {
return
}
log.Println(message)
conn.client.group.WallOps(message)
conn.lastWarning = now
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}
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// called locked
func (conn *diskConn) reopen(extension string) error {
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for _, t := range conn.tracks {
t.writeBuffered(true)
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if t.writer != nil {
t.writer.Close()
t.writer = nil
}
}
conn.file = nil
file, err := openDiskFile(conn.directory, conn.username, extension)
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if err != nil {
return err
}
conn.file = file
return nil
}
func (conn *diskConn) Close() error {
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conn.remote.DelLocal(conn)
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conn.mu.Lock()
tracks := make([]*diskTrack, 0, len(conn.tracks))
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for _, t := range conn.tracks {
t.writeBuffered(true)
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if t.writer != nil {
t.writer.Close()
t.writer = nil
}
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tracks = append(tracks, t)
}
conn.mu.Unlock()
for _, t := range tracks {
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t.remote.DelLocal(t)
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}
return nil
}
func openDiskFile(directory, username, extension string) (*os.File, error) {
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filenameFormat := "2006-01-02T15:04:05.000"
if runtime.GOOS == "windows" {
filenameFormat = "2006-01-02T15-04-05-000"
}
filename := time.Now().Format(filenameFormat)
if username != "" {
filename = filename + "-" + username
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}
for counter := 0; counter < 100; counter++ {
var fn string
if counter == 0 {
fn = fmt.Sprintf("%v.%v", filename, extension)
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} else {
fn = fmt.Sprintf("%v-%02d.%v",
filename, counter, extension,
)
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}
fn = filepath.Join(directory, fn)
f, err := os.OpenFile(
fn, os.O_WRONLY|os.O_CREATE|os.O_EXCL, 0600,
)
if err == nil {
return f, nil
} else if !os.IsExist(err) {
return nil, err
}
}
return nil, errors.New("couldn't create file")
}
type maybeUint32 uint64
const none maybeUint32 = 0
func some(value uint32) maybeUint32 {
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return maybeUint32(uint64(1<<32) | uint64(value))
}
func valid(m maybeUint32) bool {
return (m & (1 << 32)) != 0
}
func value(m maybeUint32) uint32 {
return uint32(m)
}
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type diskTrack struct {
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remote conn.UpTrack
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conn *diskConn
writer mkvcore.BlockWriteCloser
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builder *samplebuilder.SampleBuilder
lastSeqno maybeUint32
origin maybeUint32
kfRequested time.Time
lastKf time.Time
savedKf *rtp.Packet
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}
func newDiskConn(client *Client, directory string, up conn.Up, remoteTracks []conn.UpTrack) (*diskConn, error) {
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var audio, video conn.UpTrack
for _, remote := range remoteTracks {
codec := remote.Codec().MimeType
if strings.EqualFold(codec, "audio/opus") {
if audio == nil {
audio = remote
} else {
client.group.WallOps("Multiple audio tracks, recording just one")
}
} else if strings.EqualFold(codec, "video/vp8") ||
strings.EqualFold(codec, "video/vp9") ||
strings.EqualFold(codec, "video/h264") {
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if video == nil || video.Label() == "l" {
video = remote
} else if remote.Label() != "l" {
client.group.WallOps("Multiple video tracks, recording just one")
}
} else {
client.group.WallOps("Unknown codec, " + codec + ", not recording")
}
}
if video == nil && audio == nil {
return nil, errors.New("no usable tracks found")
}
tracks := make([]conn.UpTrack, 0, 2)
if audio != nil {
tracks = append(tracks, audio)
}
if video != nil {
tracks = append(tracks, video)
}
_, username := up.User()
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conn := diskConn{
client: client,
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directory: directory,
username: username,
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tracks: make([]*diskTrack, 0, len(tracks)),
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remote: up,
}
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for _, remote := range tracks {
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var builder *samplebuilder.SampleBuilder
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codec := remote.Codec()
if strings.EqualFold(codec.MimeType, "audio/opus") {
builder = samplebuilder.New(
32, &codecs.OpusPacket{}, codec.ClockRate,
)
} else if strings.EqualFold(codec.MimeType, "video/vp8") {
builder = samplebuilder.New(
1024, &codecs.VP8Packet{}, codec.ClockRate,
)
conn.hasVideo = true
} else if strings.EqualFold(codec.MimeType, "video/vp9") {
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builder = samplebuilder.New(
1024, &codecs.VP9Packet{}, codec.ClockRate,
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)
conn.hasVideo = true
} else if strings.EqualFold(codec.MimeType, "video/h264") {
builder = samplebuilder.New(
1024, &codecs.H264Packet{}, codec.ClockRate,
)
conn.hasVideo = true
} else {
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// this shouldn't happen
return nil, errors.New(
"cannot record codec " + codec.MimeType,
)
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}
track := &diskTrack{
remote: remote,
builder: builder,
conn: &conn,
}
conn.tracks = append(conn.tracks, track)
}
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// Only do this after all tracks have been added to conn, to avoid
// racing on hasVideo.
for _, t := range conn.tracks {
err := t.remote.AddLocal(t)
if err != nil {
log.Printf("Couldn't add disk track: %v", err)
conn.warn("Couldn't add disk track: " + err.Error())
}
}
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err := up.AddLocal(&conn)
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if err != nil {
return nil, err
}
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return &conn, nil
}
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func (t *diskTrack) SetTimeOffset(ntp uint64, rtp uint32) {
}
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func (t *diskTrack) SetCname(string) {
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}
func (t *diskTrack) Write(buf []byte) (int, error) {
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t.conn.mu.Lock()
defer t.conn.mu.Unlock()
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if t.builder == nil {
return 0, nil
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}
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// samplebuilder retains packets
data := make([]byte, len(buf))
copy(data, buf)
p := new(rtp.Packet)
err := p.Unmarshal(data)
if err != nil {
log.Printf("Diskwriter: %v", err)
return 0, nil
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}
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if valid(t.lastSeqno) {
lastSeqno := uint16(value(t.lastSeqno))
if ((p.SequenceNumber - lastSeqno) & 0x8000) == 0 {
// jump forward
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count := p.SequenceNumber - lastSeqno
if count < 256 {
for i := uint16(1); i < count; i++ {
fetch(t, lastSeqno+i)
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}
} else {
requestKeyframe(t)
}
t.lastSeqno = some(uint32(p.SequenceNumber))
} else {
// jump backward
count := lastSeqno - p.SequenceNumber
if count >= 512 {
t.lastSeqno = none
requestKeyframe(t)
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}
}
} else {
t.lastSeqno = some(uint32(p.SequenceNumber))
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}
err = t.writeRTP(p)
if err != nil {
return 0, err
}
return len(buf), nil
}
func fetch(t *diskTrack, seqno uint16) {
// since the samplebuilder retains packets, use a fresh buffer
buf := make([]byte, 1504)
n := t.remote.GetPacket(seqno, buf, false)
if n == 0 {
return
}
p := new(rtp.Packet)
err := p.Unmarshal(buf)
if err != nil {
return
}
t.writeRTP(p)
}
func requestKeyframe(t *diskTrack) {
now := time.Now()
if now.Sub(t.kfRequested) > 500*time.Millisecond {
t.remote.RequestKeyframe()
t.kfRequested = now
}
}
// writeRTP writes the packet without fetching lost packets
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// Called locked.
func (t *diskTrack) writeRTP(p *rtp.Packet) error {
codec := t.remote.Codec().MimeType
if len(codec) > 6 && strings.EqualFold(codec[:6], "video/") {
kf, _ := gcodecs.Keyframe(codec, p)
if kf {
t.savedKf = p
t.lastKf = time.Now()
} else if time.Since(t.lastKf) > 4*time.Second {
requestKeyframe(t)
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}
}
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t.builder.Push(p)
return t.writeBuffered(false)
}
// writeBuffered writes any buffered samples to disk. If force is true,
// then samples will be flushed even if they are preceded by incomplete
// samples.
func (t *diskTrack) writeBuffered(force bool) error {
codec := t.remote.Codec().MimeType
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for {
var sample *media.Sample
var ts uint32
if !force {
sample, ts = t.builder.PopWithTimestamp()
} else {
sample, ts = t.builder.ForcePopWithTimestamp()
}
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if sample == nil {
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return nil
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}
var keyframe bool
if len(codec) > 6 && strings.EqualFold(codec[:6], "video/") {
if t.savedKf == nil {
keyframe = false
} else {
keyframe = (ts == t.savedKf.Timestamp)
}
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if keyframe {
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err := t.conn.initWriter(
gcodecs.KeyframeDimensions(
codec, t.savedKf,
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),
)
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if err != nil {
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t.conn.warn(
"Write to disk " + err.Error(),
)
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return err
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}
}
} else {
if t.writer == nil {
if !t.conn.hasVideo {
err := t.conn.initWriter(0, 0)
if err != nil {
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t.conn.warn(
"Write to disk " +
err.Error(),
)
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return err
}
}
}
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}
if t.writer == nil {
continue
}
if !valid(t.origin) {
t.origin = some(ts)
}
ts -= value(t.origin)
tm := ts / (t.remote.Codec().ClockRate / 1000)
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_, err := t.writer.Write(keyframe, int64(tm), sample.Data)
if err != nil {
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return err
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}
}
}
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// called locked
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func (conn *diskConn) initWriter(width, height uint32) error {
if conn.file != nil && width == conn.width && height == conn.height {
return nil
}
isWebm := true
var desc []mkvcore.TrackDescription
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for i, t := range conn.tracks {
var entry webm.TrackEntry
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codec := t.remote.Codec()
if strings.EqualFold(codec.MimeType, "audio/opus") {
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entry = webm.TrackEntry{
Name: "Audio",
TrackNumber: uint64(i + 1),
CodecID: "A_OPUS",
TrackType: 2,
Audio: &webm.Audio{
SamplingFrequency: float64(codec.ClockRate),
Channels: uint64(codec.Channels),
},
}
} else if strings.EqualFold(codec.MimeType, "video/vp8") {
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entry = webm.TrackEntry{
Name: "Video",
TrackNumber: uint64(i + 1),
CodecID: "V_VP8",
TrackType: 1,
Video: &webm.Video{
PixelWidth: uint64(width),
PixelHeight: uint64(height),
},
}
} else if strings.EqualFold(codec.MimeType, "video/vp9") {
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entry = webm.TrackEntry{
Name: "Video",
TrackNumber: uint64(i + 1),
CodecID: "V_VP9",
TrackType: 1,
Video: &webm.Video{
PixelWidth: uint64(width),
PixelHeight: uint64(height),
},
}
} else if strings.EqualFold(codec.MimeType, "video/h264") {
entry = webm.TrackEntry{
Name: "Video",
TrackNumber: uint64(i + 1),
CodecID: "V_MPEG4/ISO/AVC",
TrackType: 1,
Video: &webm.Video{
PixelWidth: uint64(width),
PixelHeight: uint64(height),
},
}
isWebm = false
} else {
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return errors.New("unknown track type")
}
desc = append(desc,
mkvcore.TrackDescription{
TrackNumber: uint64(i + 1),
TrackEntry: entry,
},
)
}
extension := "webm"
header := webm.DefaultEBMLHeader
if !isWebm {
extension = "mkv"
h := *header
h.DocType = "matroska"
header = &h
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}
err := conn.reopen(extension)
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if err != nil {
return err
}
ws, err := mkvcore.NewSimpleBlockWriter(
conn.file, desc,
mkvcore.WithEBMLHeader(header),
mkvcore.WithSegmentInfo(webm.DefaultSegmentInfo),
mkvcore.WithBlockInterceptor(webm.DefaultBlockInterceptor),
)
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if err != nil {
conn.file.Close()
conn.file = nil
return err
}
if len(ws) != len(conn.tracks) {
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conn.file.Close()
conn.file = nil
return errors.New("unexpected number of writers")
}
conn.width = width
conn.height = height
for i, t := range conn.tracks {
t.writer = ws[i]
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}
return nil
}
func (t *diskTrack) GetMaxBitrate() (uint64, int, int) {
return ^uint64(0), -1, -1
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}