neko/internal/capture/streamsink.go
2022-01-22 17:58:05 +01:00

257 lines
5.6 KiB
Go

package capture
import (
"errors"
"reflect"
"sync"
"github.com/rs/zerolog"
"github.com/rs/zerolog/log"
"demodesk/neko/internal/capture/gst"
"demodesk/neko/internal/types"
"demodesk/neko/internal/types/codec"
)
var moveSinkListenerMu = sync.Mutex{}
type StreamSinkManagerCtx struct {
logger zerolog.Logger
mu sync.Mutex
wg sync.WaitGroup
codec codec.RTPCodec
pipeline *gst.Pipeline
pipelineMu sync.Mutex
pipelineStr func() string
listeners map[uintptr]*func(sample types.Sample)
listenersMu sync.Mutex
}
func streamSinkNew(codec codec.RTPCodec, pipelineStr func() string, video_id string) *StreamSinkManagerCtx {
logger := log.With().
Str("module", "capture").
Str("submodule", "stream-sink").
Str("video_id", video_id).Logger()
manager := &StreamSinkManagerCtx{
logger: logger,
codec: codec,
pipelineStr: pipelineStr,
listeners: map[uintptr]*func(sample types.Sample){},
}
return manager
}
func (manager *StreamSinkManagerCtx) shutdown() {
manager.logger.Info().Msgf("shutdown")
manager.listenersMu.Lock()
for key := range manager.listeners {
delete(manager.listeners, key)
}
manager.listenersMu.Unlock()
manager.destroyPipeline()
manager.wg.Wait()
}
func (manager *StreamSinkManagerCtx) Codec() codec.RTPCodec {
return manager.codec
}
func (manager *StreamSinkManagerCtx) start() error {
if len(manager.listeners) == 0 {
err := manager.createPipeline()
if err != nil && !errors.Is(err, types.ErrCapturePipelineAlreadyExists) {
return err
}
manager.logger.Info().Msgf("first listener, starting")
}
return nil
}
func (manager *StreamSinkManagerCtx) stop() {
if len(manager.listeners) == 0 {
manager.destroyPipeline()
manager.logger.Info().Msgf("last listener, stopping")
}
}
func (manager *StreamSinkManagerCtx) addListener(listener *func(sample types.Sample)) {
ptr := reflect.ValueOf(listener).Pointer()
manager.listenersMu.Lock()
manager.listeners[ptr] = listener
manager.listenersMu.Unlock()
manager.logger.Debug().Interface("ptr", ptr).Msgf("adding listener")
}
func (manager *StreamSinkManagerCtx) removeListener(listener *func(sample types.Sample)) {
ptr := reflect.ValueOf(listener).Pointer()
manager.listenersMu.Lock()
delete(manager.listeners, ptr)
manager.listenersMu.Unlock()
manager.logger.Debug().Interface("ptr", ptr).Msgf("removing listener")
}
func (manager *StreamSinkManagerCtx) AddListener(listener *func(sample types.Sample)) error {
manager.mu.Lock()
defer manager.mu.Unlock()
if listener == nil {
return errors.New("listener cannot be nil")
}
// start if stopped
if err := manager.start(); err != nil {
return err
}
// add listener
manager.addListener(listener)
return nil
}
func (manager *StreamSinkManagerCtx) RemoveListener(listener *func(sample types.Sample)) error {
manager.mu.Lock()
defer manager.mu.Unlock()
if listener == nil {
return errors.New("listener cannot be nil")
}
// remove listener
manager.removeListener(listener)
// stop if started
manager.stop()
return nil
}
// moving listeners between streams ensures, that target pipeline is running
// before listener is added, and stops source pipeline if there are 0 listeners
func (manager *StreamSinkManagerCtx) MoveListenerTo(listener *func(sample types.Sample), stream types.StreamSinkManager) error {
if listener == nil {
return errors.New("listener cannot be nil")
}
targetStream, ok := stream.(*StreamSinkManagerCtx)
if !ok {
return errors.New("target stream manager does not support moving listeners")
}
// we need to acquire both mutextes, from source stream and from target stream
// in order to do that safely (without possibility of deadlock) we need third
// global mutex, that ensures atomic locking
// lock global mutex
moveSinkListenerMu.Lock()
// lock source stream
manager.mu.Lock()
defer manager.mu.Unlock()
// lock target stream
targetStream.mu.Lock()
defer targetStream.mu.Unlock()
// unlock global mutex
moveSinkListenerMu.Unlock()
// start if stopped
if err := targetStream.start(); err != nil {
return err
}
// swap listeners
manager.removeListener(listener)
targetStream.addListener(listener)
// stop if started
manager.stop()
return nil
}
func (manager *StreamSinkManagerCtx) ListenersCount() int {
manager.listenersMu.Lock()
defer manager.listenersMu.Unlock()
return len(manager.listeners)
}
func (manager *StreamSinkManagerCtx) Started() bool {
return manager.ListenersCount() > 0
}
func (manager *StreamSinkManagerCtx) createPipeline() error {
manager.pipelineMu.Lock()
defer manager.pipelineMu.Unlock()
if manager.pipeline != nil {
return types.ErrCapturePipelineAlreadyExists
}
var err error
pipelineStr := manager.pipelineStr()
manager.logger.Info().
Str("codec", manager.codec.Name).
Str("src", pipelineStr).
Msgf("creating pipeline")
manager.pipeline, err = gst.CreatePipeline(pipelineStr)
if err != nil {
return err
}
manager.pipeline.AttachAppsink("appsink")
manager.pipeline.Play()
manager.wg.Add(1)
go func() {
manager.logger.Debug().Msg("started emitting samples")
defer manager.wg.Done()
for {
sample, ok := <-manager.pipeline.Sample
if !ok {
manager.logger.Debug().Msg("stopped emitting samples")
return
}
manager.listenersMu.Lock()
for _, emit := range manager.listeners {
(*emit)(sample)
}
manager.listenersMu.Unlock()
}
}()
return nil
}
func (manager *StreamSinkManagerCtx) destroyPipeline() {
manager.pipelineMu.Lock()
defer manager.pipelineMu.Unlock()
if manager.pipeline == nil {
return
}
manager.pipeline.Destroy()
manager.logger.Info().Msgf("destroying pipeline")
manager.pipeline = nil
}