package capture import ( "fmt" "sync" "github.com/rs/zerolog" "github.com/rs/zerolog/log" "demodesk/neko/internal/types" "demodesk/neko/internal/types/codec" "demodesk/neko/internal/config" ) type CaptureManagerCtx struct { logger zerolog.Logger mu sync.Mutex desktop types.DesktopManager streaming bool broadcast *BroacastManagerCtx screencast *ScreencastManagerCtx audio *StreamManagerCtx videos map[string]*StreamManagerCtx videoIDs []string } func New(desktop types.DesktopManager, config *config.Capture) *CaptureManagerCtx { logger := log.With().Str("module", "capture").Logger() broadcastPipeline := config.BroadcastPipeline if broadcastPipeline == "" { broadcastPipeline = fmt.Sprintf( "flvmux name=mux ! rtmpsink location='{url} live=1' " + "pulsesrc device=%s " + "! audio/x-raw,channels=2 " + "! audioconvert " + "! queue " + "! voaacenc " + "! mux. " + "ximagesrc display-name=%s show-pointer=true use-damage=false " + "! video/x-raw " + "! videoconvert " + "! queue " + "! x264enc threads=4 bitrate=4096 key-int-max=15 byte-stream=true byte-stream=true tune=zerolatency speed-preset=veryfast " + "! mux.", config.Device, config.Display, ) } screencastPipeline := config.ScreencastPipeline if screencastPipeline == "" { screencastPipeline = fmt.Sprintf( "ximagesrc display-name=%s show-pointer=true use-damage=false " + "! video/x-raw,framerate=%s " + "! videoconvert " + "! queue " + "! jpegenc quality=%s " + "! appsink name=appsink", config.Display, config.ScreencastRate, config.ScreencastQuality, ) } audioPipeline := config.AudioPipeline if audioPipeline == "" { audioPipeline = fmt.Sprintf( "pulsesrc device=%s " + "! audio/x-raw,channels=2 " + "! audioconvert " + "! queue " + "! %s " + "! appsink name=appsink", config.Device, config.AudioCodec.Pipeline, ) } return &CaptureManagerCtx{ logger: logger, desktop: desktop, streaming: false, broadcast: broadcastNew(broadcastPipeline), screencast: screencastNew(config.Screencast, screencastPipeline), audio: streamNew(config.AudioCodec, audioPipeline), videos: map[string]*StreamManagerCtx{ "hd": streamNew(codec.VP8(), fmt.Sprintf( "ximagesrc display-name=%s show-pointer=false use-damage=false " + "! video/x-raw " + "! videoconvert " + "! queue " + "! vp8enc target-bitrate=8192000 cpu-used=16 threads=4 deadline=1 error-resilient=partitions keyframe-max-dist=15 static-threshold=20 " + "! appsink name=appsink", config.Display, )), "hq": streamNew(codec.VP8(), fmt.Sprintf( "ximagesrc display-name=%s show-pointer=false use-damage=false " + "! video/x-raw " + "! videoconvert " + "! queue " + "! vp8enc target-bitrate=4096000 cpu-used=16 threads=4 deadline=1 error-resilient=partitions keyframe-max-dist=15 static-threshold=20 " + "! appsink name=appsink", config.Display, )), "mq": streamNew(codec.VP8(), fmt.Sprintf( "ximagesrc display-name=%s show-pointer=false use-damage=false " + "! video/x-raw " + "! videoconvert " + "! queue " + "! vp8enc target-bitrate=2048000 cpu-used=16 threads=4 deadline=1 error-resilient=partitions keyframe-max-dist=15 static-threshold=20 " + "! appsink name=appsink", config.Display, )), "lq": streamNew(codec.VP8(), fmt.Sprintf( "ximagesrc display-name=%s show-pointer=false use-damage=false " + "! video/x-raw " + "! videoconvert " + "! queue " + "! vp8enc target-bitrate=1024000 cpu-used=16 threads=4 deadline=1 error-resilient=partitions keyframe-max-dist=15 static-threshold=20 " + "! appsink name=appsink", config.Display, )), }, videoIDs: []string{ "hd", "hq", "mq", "lq" }, } } func (manager *CaptureManagerCtx) Start() { if manager.broadcast.Started() { if err := manager.broadcast.createPipeline(); err != nil { manager.logger.Panic().Err(err).Msg("unable to create broadcast pipeline") } } manager.desktop.OnBeforeScreenSizeChange(func() { for _, video := range manager.videos { if video.Started() { video.destroyPipeline() } } if manager.broadcast.Started() { manager.broadcast.destroyPipeline() } if manager.screencast.Started() { manager.screencast.destroyPipeline() } }) manager.desktop.OnAfterScreenSizeChange(func() { for _, video := range manager.videos { if video.Started() { if err := video.createPipeline(); err != nil { manager.logger.Panic().Err(err).Msg("unable to recreate video pipeline") } } } if manager.broadcast.Started() { if err := manager.broadcast.createPipeline(); err != nil { manager.logger.Panic().Err(err).Msg("unable to recreate broadcast pipeline") } } if manager.screencast.Started() { if err := manager.screencast.createPipeline(); err != nil { manager.logger.Panic().Err(err).Msg("unable to recreate screencast pipeline") } } }) } func (manager *CaptureManagerCtx) Shutdown() error { manager.logger.Info().Msgf("capture shutting down") manager.broadcast.shutdown() manager.screencast.shutdown() manager.audio.shutdown() for _, video := range manager.videos { video.shutdown() } return nil } func (manager *CaptureManagerCtx) Broadcast() types.BroadcastManager { return manager.broadcast } func (manager *CaptureManagerCtx) Screencast() types.ScreencastManager { return manager.screencast } func (manager *CaptureManagerCtx) Audio() types.StreamManager { return manager.audio } func (manager *CaptureManagerCtx) Video(videoID string) (types.StreamManager, bool) { video, ok := manager.videos[videoID] return video, ok } func (manager *CaptureManagerCtx) VideoIDs() []string { return manager.videoIDs }