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media.go
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media.go
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package gostream
import (
"context"
"strings"
"sync"
"sync/atomic"
"github.com/pion/mediadevices/pkg/driver"
"github.com/pion/mediadevices/pkg/driver/camera"
"github.com/pion/mediadevices/pkg/prop"
"github.com/pkg/errors"
"go.uber.org/multierr"
"go.viam.com/utils"
)
type (
// A MediaReader is anything that can read and recycle data. It is expected
// that reader can handle multiple reads at the same time. This would ideally only
// happen during streaming when a specific MIME type is requested. In the future,
// we may be able to notice multiple MIME types and either do deferred encode/decode
// or have the reader do it for us.
MediaReader[T any] interface {
Read(ctx context.Context) (data T, release func(), err error)
Close(ctx context.Context) error
}
// A MediaReaderFunc is a helper to turn a function into a MediaReader.
MediaReaderFunc[T any] func(ctx context.Context) (T, func(), error)
// A MediaStream streams media forever until closed.
MediaStream[T any] interface {
// Next returns the next media element in the sequence (best effort).
// Note: This element is mutable and shared globally; it MUST be copied
// before it is mutated.
Next(ctx context.Context) (T, func(), error)
// Close signals this stream is no longer needed and releases associated
// resources.
Close(ctx context.Context) error
}
// A MediaSource can produce Streams of Ts.
MediaSource[T any] interface {
// Stream returns a stream that makes a best effort to return consecutive media elements
// that may have a MIME type hint dictated in the context via WithMIMETypeHint.
Stream(ctx context.Context, errHandlers ...ErrorHandler) (MediaStream[T], error)
// Close cleans up any associated resources with the Source (e.g. a Driver).
Close(ctx context.Context) error
}
// MediaPropertyProvider providers information about a source.
MediaPropertyProvider[U any] interface {
MediaProperties(ctx context.Context) (U, error)
}
)
// Read calls the underlying function to get a media.
func (mrf MediaReaderFunc[T]) Read(ctx context.Context) (T, func(), error) {
return mrf(ctx)
}
// Close does nothing.
func (mrf MediaReaderFunc[T]) Close(ctx context.Context) error {
return nil
}
// A mediaReaderFuncNoCtx is a helper to turn a function into a MediaReader that cannot
// accept a context argument.
type mediaReaderFuncNoCtx[T any] func() (T, func(), error)
// Read calls the underlying function to get a media.
func (mrf mediaReaderFuncNoCtx[T]) Read(_ context.Context) (T, func(), error) {
return mrf()
}
// Close does nothing.
func (mrf mediaReaderFuncNoCtx[T]) Close(ctx context.Context) error {
return nil
}
// ReadMedia gets a single media from a source. Using this has less of a guarantee
// than MediaSource.Stream that the Nth media element follows the N-1th media element.
func ReadMedia[T any](ctx context.Context, source MediaSource[T]) (T, func(), error) {
if reader, ok := source.(MediaReader[T]); ok {
// more efficient if there is a direct way to read
return reader.Read(ctx)
}
stream, err := source.Stream(ctx)
var zero T
if err != nil {
return zero, nil, err
}
defer func() {
utils.UncheckedError(stream.Close(ctx))
}()
return stream.Next(ctx)
}
type mediaSource[T any, U any] struct {
driver driver.Driver
reader MediaReader[T]
props U
rootCancelCtx context.Context
rootCancel func()
producerConsumers map[string]*producerConsumer[T, U]
producerConsumersMu sync.Mutex
}
type producerConsumer[T any, U any] struct {
rootCancelCtx context.Context
cancelCtx context.Context
cancel func()
mimeType string
activeBackgroundWorkers sync.WaitGroup
readWrapper MediaReader[T]
current *mediaRefReleasePairWithError[T]
currentMu sync.RWMutex
producerCond *sync.Cond
consumerCond *sync.Cond
condMu *sync.RWMutex
interestedConsumers int64
errHandlers map[*mediaStream[T, U]][]ErrorHandler
listeners int
stateMu sync.Mutex
listenersMu sync.Mutex
errHandlersMu sync.Mutex
}
// ErrorHandler receives the error returned by a TSource.Next
// regardless of whether or not the error is nil (This allows
// for error handling logic based on consecutively retrieved errors).
type ErrorHandler func(ctx context.Context, mediaErr error)
// PropertiesFromMediaSource returns properties from underlying driver in the given MediaSource.
func PropertiesFromMediaSource[T, U any](src MediaSource[T]) ([]prop.Media, error) {
d, err := DriverFromMediaSource[T, U](src)
if err != nil {
return nil, err
}
return d.Properties(), nil
}
// LabelsFromMediaSource returns the labels from the underlying driver in the MediaSource.
func LabelsFromMediaSource[T, U any](src MediaSource[T]) ([]string, error) {
d, err := DriverFromMediaSource[T, U](src)
if err != nil {
return nil, err
}
return strings.Split(d.Info().Label, camera.LabelSeparator), nil
}
// DriverFromMediaSource returns the underlying driver from the MediaSource.
func DriverFromMediaSource[T, U any](src MediaSource[T]) (driver.Driver, error) {
if asMedia, ok := src.(*mediaSource[T, U]); ok {
if asMedia.driver != nil {
return asMedia.driver, nil
}
}
return nil, errors.Errorf("cannot convert media source (type %T) to type (%T)", src, (*mediaSource[T, U])(nil))
}
// newMediaSource instantiates a new media read closer and possibly references the given driver.
func newMediaSource[T, U any](d driver.Driver, r MediaReader[T], p U) MediaSource[T] {
if d != nil {
driverRefs.mu.Lock()
defer driverRefs.mu.Unlock()
label := d.Info().Label
if rcv, ok := driverRefs.refs[label]; ok {
rcv.Ref()
} else {
driverRefs.refs[label] = utils.NewRefCountedValue(d)
driverRefs.refs[label].Ref()
}
}
cancelCtx, cancel := context.WithCancel(context.Background())
ms := &mediaSource[T, U]{
driver: d,
reader: r,
props: p,
rootCancelCtx: cancelCtx,
rootCancel: cancel,
producerConsumers: map[string]*producerConsumer[T, U]{},
}
return ms
}
func (pc *producerConsumer[T, U]) start() {
pc.listenersMu.Lock()
defer pc.listenersMu.Unlock()
pc.listeners++
if pc.listeners != 1 {
return
}
pc.activeBackgroundWorkers.Add(1)
utils.ManagedGo(func() {
first := true
for {
if pc.cancelCtx.Err() != nil {
return
}
waitForNext := func() (int64, bool) {
for {
pc.producerCond.L.Lock()
requests := atomic.LoadInt64(&pc.interestedConsumers)
if requests == 0 {
if err := pc.cancelCtx.Err(); err != nil {
pc.producerCond.L.Unlock()
return 0, false
}
pc.producerCond.Wait()
requests = atomic.LoadInt64(&pc.interestedConsumers)
pc.producerCond.L.Unlock()
if requests == 0 {
continue
}
} else {
pc.producerCond.L.Unlock()
}
return requests, true
}
}
requests, cont := waitForNext()
if !cont {
return
}
if err := pc.cancelCtx.Err(); err != nil {
return
}
func() {
defer func() {
pc.producerCond.L.Lock()
atomic.AddInt64(&pc.interestedConsumers, -requests)
pc.consumerCond.Broadcast()
pc.producerCond.L.Unlock()
}()
var lastRelease func()
if !first {
// okay to not hold a lock because we are the only both reader AND writer;
// other goroutines are just readers.
lastRelease = pc.current.Release
} else {
first = false
}
media, release, err := pc.readWrapper.Read(pc.cancelCtx)
ref := utils.NewRefCountedValue(struct{}{})
ref.Ref()
// hold write lock long enough to set current but not for lastRelease
// since the reader (who will call ref) will hold a similar read lock
// to ref before unlocking. This ordering makes sure that we only ever
// call a deref of the previous media once a new one can be fetched.
pc.currentMu.Lock()
pc.current = &mediaRefReleasePairWithError[T]{media, ref, func() {
if ref.Deref() {
if release != nil {
release()
}
}
}, err}
pc.currentMu.Unlock()
if lastRelease != nil {
lastRelease()
}
}()
}
}, func() { defer pc.activeBackgroundWorkers.Done(); pc.cancel() })
}
type mediaRefReleasePairWithError[T any] struct {
Media T
Ref utils.RefCountedValue
Release func()
Err error
}
func (pc *producerConsumer[T, U]) Stop() {
pc.stateMu.Lock()
defer pc.stateMu.Unlock()
pc.stop()
}
// assumes stateMu lock is held.
func (pc *producerConsumer[T, U]) stop() {
pc.cancel()
pc.producerCond.L.Lock()
pc.producerCond.Signal()
pc.producerCond.L.Unlock()
pc.consumerCond.L.Lock()
pc.consumerCond.Broadcast()
pc.consumerCond.L.Unlock()
pc.activeBackgroundWorkers.Wait()
// reset
cancelCtx, cancel := context.WithCancel(WithMIMETypeHint(pc.rootCancelCtx, pc.mimeType))
pc.cancelCtx = cancelCtx
pc.cancel = cancel
}
func (pc *producerConsumer[T, U]) stopOne() {
pc.stateMu.Lock()
defer pc.stateMu.Unlock()
pc.listenersMu.Lock()
defer pc.listenersMu.Unlock()
pc.listeners--
if pc.listeners == 0 {
pc.stop()
}
}
func (ms *mediaSource[T, U]) MediaProperties(_ context.Context) (U, error) {
return ms.props, nil
}
// MediaReleasePairWithError contains the result of fetching media.
type MediaReleasePairWithError[T any] struct {
Media T
Release func()
Err error
}
// NewMediaStreamForChannel returns a MediaStream backed by a channel.
func NewMediaStreamForChannel[T any](ctx context.Context) (context.Context, MediaStream[T], chan<- MediaReleasePairWithError[T]) {
cancelCtx, cancel := context.WithCancel(ctx)
ch := make(chan MediaReleasePairWithError[T])
return cancelCtx, &mediaStreamFromChannel[T]{
media: ch,
cancelCtx: cancelCtx,
cancel: cancel,
}, ch
}
type mediaStreamFromChannel[T any] struct {
media chan MediaReleasePairWithError[T]
cancelCtx context.Context
cancel func()
}
func (ms *mediaStreamFromChannel[T]) Next(ctx context.Context) (T, func(), error) {
var zero T
select {
case <-ms.cancelCtx.Done():
return zero, nil, ms.cancelCtx.Err()
case <-ctx.Done():
return zero, nil, ctx.Err()
case pair := <-ms.media:
return pair.Media, pair.Release, pair.Err
}
}
func (ms *mediaStreamFromChannel[T]) Close(ctx context.Context) error {
ms.cancel()
return nil
}
type mediaStream[T any, U any] struct {
mu sync.Mutex
ms *mediaSource[T, U]
prodCon *producerConsumer[T, U]
cancelCtx context.Context
cancel func()
}
func (ms *mediaStream[T, U]) Next(ctx context.Context) (T, func(), error) {
ms.mu.Lock()
defer ms.mu.Unlock()
// lock keeps us sequential and prevents misuse
var zero T
if err := ms.cancelCtx.Err(); err != nil {
return zero, nil, err
}
ms.prodCon.consumerCond.L.Lock()
// Even though interestedConsumers is atomic, this is a critical section!
// That's because if the producer sees zero interested consumers, it's going
// to Wait but we only want it to do that once we are ready to signal it.
// It's also a RLock because we have many consumers (readers) and one producer (writer).
atomic.AddInt64(&ms.prodCon.interestedConsumers, 1)
ms.prodCon.producerCond.Signal()
select {
case <-ms.cancelCtx.Done():
ms.prodCon.consumerCond.L.Unlock()
return zero, nil, ms.cancelCtx.Err()
case <-ctx.Done():
ms.prodCon.consumerCond.L.Unlock()
return zero, nil, ctx.Err()
default:
}
waitForNext := func() error {
ms.prodCon.consumerCond.Wait()
ms.prodCon.consumerCond.L.Unlock()
if err := ms.cancelCtx.Err(); err != nil {
return err
}
if err := ctx.Err(); err != nil {
return err
}
return nil
}
if err := waitForNext(); err != nil {
return zero, nil, err
}
isAvailable := func() bool {
ms.prodCon.currentMu.RLock()
available := ms.prodCon.current != nil
ms.prodCon.currentMu.RUnlock()
return available
}
for !isAvailable() {
ms.prodCon.consumerCond.L.Lock()
if err := waitForNext(); err != nil {
return zero, nil, err
}
}
// hold a read lock long enough before current.Ref can be dereffed
// due to a new current being set.
ms.prodCon.currentMu.RLock()
defer ms.prodCon.currentMu.RUnlock()
current := ms.prodCon.current
if current.Err != nil {
return zero, nil, current.Err
}
current.Ref.Ref()
return current.Media, current.Release, nil
}
func (ms *mediaStream[T, U]) Close(ctx context.Context) error {
ms.cancel()
ms.prodCon.errHandlersMu.Lock()
delete(ms.prodCon.errHandlers, ms)
ms.prodCon.errHandlersMu.Unlock()
ms.prodCon.stopOne()
return nil
}
func (ms *mediaSource[T, U]) Stream(ctx context.Context, errHandlers ...ErrorHandler) (MediaStream[T], error) {
ms.producerConsumersMu.Lock()
mimeType := MIMETypeHint(ctx, "")
prodCon, ok := ms.producerConsumers[mimeType]
if !ok {
// TODO(erd): better to have no max like this and instead clean up over time.
if len(ms.producerConsumers)+1 == 256 {
return nil, errors.New("reached max producer consumers of 256")
}
cancelCtx, cancel := context.WithCancel(WithMIMETypeHint(ms.rootCancelCtx, mimeType))
condMu := &sync.RWMutex{}
producerCond := sync.NewCond(condMu)
consumerCond := sync.NewCond(condMu.RLocker())
prodCon = &producerConsumer[T, U]{
rootCancelCtx: ms.rootCancelCtx,
cancelCtx: cancelCtx,
cancel: cancel,
mimeType: mimeType,
producerCond: producerCond,
consumerCond: consumerCond,
condMu: condMu,
errHandlers: map[*mediaStream[T, U]][]ErrorHandler{},
}
prodCon.readWrapper = MediaReaderFunc[T](func(ctx context.Context) (T, func(), error) {
media, release, err := ms.reader.Read(ctx)
if err == nil {
return media, release, nil
}
prodCon.errHandlersMu.Lock()
defer prodCon.errHandlersMu.Unlock()
for _, handlers := range prodCon.errHandlers {
for _, handler := range handlers {
handler(ctx, err)
}
}
var zero T
return zero, nil, err
})
ms.producerConsumers[mimeType] = prodCon
}
ms.producerConsumersMu.Unlock()
prodCon.stateMu.Lock()
defer prodCon.stateMu.Unlock()
cancelCtx, cancel := context.WithCancel(prodCon.cancelCtx)
stream := &mediaStream[T, U]{
ms: ms,
prodCon: prodCon,
cancelCtx: cancelCtx,
cancel: cancel,
}
if len(errHandlers) != 0 {
prodCon.errHandlersMu.Lock()
prodCon.errHandlers[stream] = errHandlers
prodCon.errHandlersMu.Unlock()
}
prodCon.start()
return stream, nil
}
func (ms *mediaSource[T, U]) Close(ctx context.Context) error {
func() {
ms.producerConsumersMu.Lock()
defer ms.producerConsumersMu.Unlock()
for _, prodCon := range ms.producerConsumers {
prodCon.Stop()
}
}()
err := ms.reader.Close(ctx)
if ms.driver == nil {
return err
}
driverRefs.mu.Lock()
defer driverRefs.mu.Unlock()
label := ms.driver.Info().Label
if rcv, ok := driverRefs.refs[label]; ok {
if rcv.Deref() {
delete(driverRefs.refs, label)
return multierr.Combine(err, ms.driver.Close())
}
} else {
return multierr.Combine(err, ms.driver.Close())
}
// Do not close if a driver is being referenced. Client will decide what to do if
// they encounter this error.
return multierr.Combine(err, &DriverInUseError{label})
}