neko/pkg/types/capture.go
Miroslav Šedivý 124c5ae117
Wait for keyframe on switching streams (#28)
* stream sink add keyframe lobby.

* change streamsink keyframe identifier.

* add h264.

* use gstreamers is delta unit for sample.

* use delta unit.
2023-02-14 21:19:02 +01:00

245 lines
5.6 KiB
Go

package types
import (
"context"
"errors"
"fmt"
"math"
"strings"
"time"
"github.com/PaesslerAG/gval"
"github.com/demodesk/neko/pkg/types/codec"
)
var (
ErrCapturePipelineAlreadyExists = errors.New("capture pipeline already exists")
)
type Sample struct {
Data []byte
Duration time.Duration
DeltaUnit bool // this unit cannot be decoded independently.
}
type Receiver interface {
SetStream(stream StreamSinkManager) (changed bool, err error)
RemoveStream()
OnBitrateChange(f func(bitrate int) (changed bool, err error))
OnVideoChange(f func(videoID string) (changed bool, err error))
VideoAuto() bool
SetVideoAuto(videoAuto bool)
}
type BucketsManager interface {
IDs() []string
Codec() codec.RTPCodec
SetReceiver(receiver Receiver)
RemoveReceiver(receiver Receiver) error
DestroyAll()
RecreateAll() error
Shutdown()
}
type BroadcastManager interface {
Start(url string) error
Stop()
Started() bool
Url() string
}
type ScreencastManager interface {
Enabled() bool
Started() bool
Image() ([]byte, error)
}
type StreamSinkManager interface {
ID() string
Codec() codec.RTPCodec
Bitrate() int
AddListener(listener *func(sample Sample)) error
RemoveListener(listener *func(sample Sample)) error
MoveListenerTo(listener *func(sample Sample), targetStream StreamSinkManager) error
ListenersCount() int
Started() bool
CreatePipeline() error
DestroyPipeline()
}
type StreamSrcManager interface {
Codec() codec.RTPCodec
Start(codec codec.RTPCodec) error
Stop()
Push(bytes []byte)
Started() bool
}
type CaptureManager interface {
Start()
Shutdown() error
GetBitrateFromVideoID(videoID string) (int, error)
Broadcast() BroadcastManager
Screencast() ScreencastManager
Audio() StreamSinkManager
Video() BucketsManager
Webcam() StreamSrcManager
Microphone() StreamSrcManager
}
type VideoConfig struct {
Width string `mapstructure:"width"` // expression
Height string `mapstructure:"height"` // expression
Fps string `mapstructure:"fps"` // expression
Bitrate int `mapstructure:"bitrate"` // pipeline bitrate
GstPrefix string `mapstructure:"gst_prefix"` // pipeline prefix, starts with !
GstEncoder string `mapstructure:"gst_encoder"` // gst encoder name
GstParams map[string]string `mapstructure:"gst_params"` // map of expressions
GstSuffix string `mapstructure:"gst_suffix"` // pipeline suffix, starts with !
GstPipeline string `mapstructure:"gst_pipeline"` // whole pipeline as a string
}
func (config *VideoConfig) GetPipeline(screen ScreenSize) (string, error) {
values := map[string]any{
"width": screen.Width,
"height": screen.Height,
"fps": screen.Rate,
}
language := []gval.Language{
gval.Function("round", func(args ...any) (any, error) {
return (int)(math.Round(args[0].(float64))), nil
}),
}
// get fps pipeline
fpsPipeline := "! video/x-raw ! videoconvert ! queue"
if config.Fps != "" {
eval, err := gval.Full(language...).NewEvaluable(config.Fps)
if err != nil {
return "", err
}
val, err := eval.EvalFloat64(context.Background(), values)
if err != nil {
return "", err
}
fpsPipeline = fmt.Sprintf("! capsfilter caps=video/x-raw,framerate=%d/100 name=framerate ! videoconvert ! queue", int(val*100))
}
// get scale pipeline
scalePipeline := ""
if config.Width != "" && config.Height != "" {
eval, err := gval.Full(language...).NewEvaluable(config.Width)
if err != nil {
return "", err
}
w, err := eval.EvalInt(context.Background(), values)
if err != nil {
return "", err
}
eval, err = gval.Full(language...).NewEvaluable(config.Height)
if err != nil {
return "", err
}
h, err := eval.EvalInt(context.Background(), values)
if err != nil {
return "", err
}
scalePipeline = fmt.Sprintf("! videoscale ! capsfilter caps=video/x-raw,width=%d,height=%d name=resolution ! queue", w, h)
}
// get encoder pipeline
encPipeline := fmt.Sprintf("! %s name=encoder", config.GstEncoder)
for key, expr := range config.GstParams {
if expr == "" {
continue
}
val, err := gval.Evaluate(expr, values, language...)
if err != nil {
return "", err
}
if val != nil {
encPipeline += fmt.Sprintf(" %s=%v", key, val)
} else {
encPipeline += fmt.Sprintf(" %s=%s", key, expr)
}
}
// join strings with space
return strings.Join([]string{
fpsPipeline,
scalePipeline,
config.GstPrefix,
encPipeline,
config.GstSuffix,
}[:], " "), nil
}
func (config *VideoConfig) GetBitrateFn(getScreen func() ScreenSize) func() (int, error) {
return func() (int, error) {
if config.Bitrate > 0 {
return config.Bitrate, nil
}
screen := getScreen()
values := map[string]any{
"width": screen.Width,
"height": screen.Height,
"fps": screen.Rate,
}
language := []gval.Language{
gval.Function("round", func(args ...any) (any, error) {
return (int)(math.Round(args[0].(float64))), nil
}),
}
// TOOD: do not read target-bitrate from pipeline, but only from config.
// TODO: This is only for vp8.
expr, ok := config.GstParams["target-bitrate"]
if !ok {
// TODO: This is only for h264.
expr, ok = config.GstParams["bitrate"]
if !ok {
return 0, fmt.Errorf("bitrate not found")
}
}
bitrate, err := gval.Evaluate(expr, values, language...)
if err != nil {
return 0, fmt.Errorf("failed to evaluate bitrate: %w", err)
}
var bitrateInt int
switch val := bitrate.(type) {
case int:
bitrateInt = val
case float64:
bitrateInt = (int)(val)
default:
return 0, fmt.Errorf("bitrate is not int or float64")
}
return bitrateInt, nil
}
}