av/revid/revid.go

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/*
NAME
revid.go
AUTHORS
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Saxon A. Nelson-Milton <saxon@ausocean.org>
Alan Noble <alan@ausocean.org>
Dan Kortschak <dan@ausocean.org>
Trek Hopton <trek@ausocean.org>
Scott Barnard <scott@ausocean.org>
LICENSE
revid is Copyright (C) 2017-2020 the Australian Ocean Lab (AusOcean)
It is free software: you can redistribute it and/or modify them
under the terms of the GNU General Public License as published by the
Free Software Foundation, either version 3 of the License, or (at your
option) any later version.
It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
You should have received a copy of the GNU General Public License
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in gpl.txt. If not, see http://www.gnu.org/licenses.
*/
// Package revid provides an API for reading, transcoding, and writing audio/video streams and files.
package revid
import (
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"errors"
"fmt"
"io"
"sync"
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"time"
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"bitbucket.org/ausocean/av/codec/codecutil"
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"bitbucket.org/ausocean/av/codec/h264"
"bitbucket.org/ausocean/av/codec/h265"
"bitbucket.org/ausocean/av/codec/mjpeg"
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"bitbucket.org/ausocean/av/container/flv"
"bitbucket.org/ausocean/av/container/mts"
"bitbucket.org/ausocean/av/device"
"bitbucket.org/ausocean/av/device/file"
"bitbucket.org/ausocean/av/device/geovision"
"bitbucket.org/ausocean/av/device/raspivid"
"bitbucket.org/ausocean/av/device/webcam"
"bitbucket.org/ausocean/av/filter"
"bitbucket.org/ausocean/av/revid/config"
"bitbucket.org/ausocean/iot/pi/netsender"
"bitbucket.org/ausocean/utils/bitrate"
"bitbucket.org/ausocean/utils/ioext"
"bitbucket.org/ausocean/utils/logger"
"bitbucket.org/ausocean/utils/ring"
)
// Misc consts.
const (
rbStartingElementSize = 10000 // Bytes.
rtmpConnectionMaxTries = 5
)
type Logger interface {
SetLevel(int8)
Log(level int8, message string, params ...interface{})
}
type encLog struct{ Logger }
func (el *encLog) Debug(msg string, args ...interface{}) { el.Log(logger.Debug, msg, args...) }
func (el *encLog) Info(msg string, args ...interface{}) { el.Log(logger.Info, msg, args...) }
func (el *encLog) Warning(msg string, args ...interface{}) { el.Log(logger.Warning, msg, args...) }
func (el *encLog) Error(msg string, args ...interface{}) { el.Log(logger.Error, msg, args...) }
func (el *encLog) Fatal(msg string, args ...interface{}) { el.Log(logger.Fatal, msg, args...) }
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// Revid provides methods to control a revid session; providing methods
// to start, stop and change the state of an instance using the Config struct.
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type Revid struct {
// config holds the Revid configuration.
// For historical reasons it also handles logging.
// FIXME(kortschak): The relationship of concerns
// in config/ns is weird.
cfg config.Config
// ns holds the netsender.Sender responsible for HTTP.
ns *netsender.Sender
// input will capture audio or video from which we can read data.
input device.AVDevice
// closeInput holds the cleanup function return from setupInput and is called
// in Revid.Stop().
closeInput func() error
// lexTo, encoder and packer handle transcoding the input stream.
lexTo func(dest io.Writer, src io.Reader, delay time.Duration) error
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// filters will hold the filter interface that will write to the chosen filter from the lexer.
filters []filter.Filter
// encoders will hold the multiWriteCloser that writes to encoders from the filter.
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encoders io.WriteCloser
// running is used to keep track of revid's running state between methods.
running bool
// mu is used to protect isRunning during concurrent use.
mu sync.Mutex
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// wg will be used to wait for any processing routines to finish.
wg sync.WaitGroup
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// err will channel errors from revid routines to the handle errors routine.
err chan error
// bitrate is used for bitrate calculations.
bitrate bitrate.Calculator
// stop is used to signal stopping when looping an input.
stop chan struct{}
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}
// New returns a pointer to a new Revid with the desired configuration, and/or
// an error if construction of the new instance was not successful.
func New(c config.Config, ns *netsender.Sender) (*Revid, error) {
r := Revid{ns: ns, err: make(chan error)}
err := r.setConfig(c)
if err != nil {
return nil, fmt.Errorf("could not set config, failed with error: %w", err)
}
go r.handleErrors()
return &r, nil
}
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// Config returns a copy of revids current config.
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//
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// Config is not safe for concurrent use.
func (r *Revid) Config() config.Config {
return r.cfg
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}
// TODO(Saxon): put more thought into error severity and how to handle these.
func (r *Revid) handleErrors() {
for {
err := <-r.err
if err != nil {
r.cfg.Logger.Log(logger.Error, "async error", "error", err.Error())
}
}
}
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// Bitrate returns the result of the most recent bitrate check.
func (r *Revid) Bitrate() int {
return r.bitrate.Bitrate()
}
// reset swaps the current config of a Revid with the passed
// configuration; checking validity and returning errors if not valid. It then
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// sets up the data pipeline accordingly to this configuration.
func (r *Revid) reset(c config.Config) error {
r.cfg.Logger.Log(logger.Debug, "setting config")
err := r.setConfig(c)
if err != nil {
return err
}
r.cfg.Logger.Log(logger.Info, "config set")
r.cfg.Logger.Log(logger.Debug, "setting up revid pipeline")
err = r.setupPipeline(
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func(dst io.WriteCloser, fps float64) (io.WriteCloser, error) {
var st int
var encOptions []func(*mts.Encoder) error
switch r.cfg.Input {
case config.InputRaspivid:
switch r.cfg.InputCodec {
case codecutil.H264:
st = mts.EncodeH264
case codecutil.MJPEG:
st = mts.EncodeMJPEG
encOptions = append(encOptions, mts.TimeBasedPSI(time.Duration(r.cfg.PSITime)*time.Second))
r.cfg.CBR = true
default:
panic("unknown input codec for raspivid input")
}
case config.InputFile, config.InputV4L:
switch r.cfg.InputCodec {
case codecutil.H264:
st = mts.EncodeH264
case codecutil.MJPEG:
st = mts.EncodeMJPEG
encOptions = append(encOptions, mts.TimeBasedPSI(time.Duration(r.cfg.PSITime)*time.Second))
r.cfg.CBR = true
default:
panic(fmt.Sprintf("unknown input codec %d for v4l or input file input", r.cfg.InputCodec))
}
case config.InputRTSP:
switch r.cfg.InputCodec {
case codecutil.H265:
st = mts.EncodeH265
case codecutil.H264:
st = mts.EncodeH264
case codecutil.MJPEG:
st = mts.EncodeMJPEG
encOptions = append(encOptions, mts.TimeBasedPSI(time.Duration(r.cfg.PSITime)*time.Second))
r.cfg.CBR = true
default:
panic("unknown input codec for RTSP input")
}
case config.InputAudio:
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st = mts.EncodeAudio
default:
panic("unknown input type")
}
encOptions = append(encOptions, mts.MediaType(st), mts.Rate(int(fps)))
return mts.NewEncoder(dst, &encLog{r.cfg.Logger}, encOptions...)
},
func(dst io.WriteCloser, fps int) (io.WriteCloser, error) {
return flv.NewEncoder(dst, true, true, fps)
},
ioext.MultiWriteCloser,
)
r.cfg.Logger.Log(logger.Info, "finished setting pipeline")
if err != nil {
return err
}
return nil
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}
// setConfig takes a config, checks it's validity and then replaces the current
// revid config.
func (r *Revid) setConfig(config config.Config) error {
r.cfg.Logger = config.Logger
r.cfg.Logger.Log(logger.Debug, "validating config")
err := config.Validate()
if err != nil {
return errors.New("Config struct is bad: " + err.Error())
}
r.cfg.Logger.Log(logger.Info, "config validated")
r.cfg = config
r.cfg.Logger.SetLevel(r.cfg.LogLevel)
return nil
}
// setupPipeline constructs the revid dataPipeline. Inputs, encoders and
// senders are created and linked based on the current revid config.
//
// mtsEnc and flvEnc will be called to obtain an mts encoder and flv encoder
// respectively. multiWriter will be used to create an ioext.multiWriteCloser
// so that encoders can write to multiple senders.
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func (r *Revid) setupPipeline(mtsEnc func(dst io.WriteCloser, rate float64) (io.WriteCloser, error), flvEnc func(dst io.WriteCloser, rate int) (io.WriteCloser, error), multiWriter func(...io.WriteCloser) io.WriteCloser) error {
// encoders will hold the encoders that are required for revid's current
// configuration.
var encoders []io.WriteCloser
// mtsSenders will hold the senders the require MPEGTS encoding, and flvSenders
// will hold senders that require FLV encoding.
var mtsSenders, flvSenders []io.WriteCloser
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// Calculate no. of ring buffer elements based on starting element size
// const and config directed max ring buffer size, then create buffer.
// This is only used if the selected output uses a ring buffer.
nElements := r.cfg.RBCapacity / rbStartingElementSize
writeTimeout := time.Duration(r.cfg.RBWriteTimeout) * time.Second
// We will go through our outputs and create the corresponding senders to add
// to mtsSenders if the output requires MPEGTS encoding, or flvSenders if the
// output requires FLV encoding.
var w io.WriteCloser
for _, out := range r.cfg.Outputs {
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switch out {
case config.OutputHTTP:
r.cfg.Logger.Log(logger.Debug, "using HTTP output")
rb := ring.NewBuffer(rbStartingElementSize, int(nElements), writeTimeout)
hs := newHTTPSender(r.ns, r.cfg.Logger.Log, r.bitrate.Report)
w = newMTSSender(hs, r.cfg.Logger.Log, rb, r.cfg.ClipDuration)
mtsSenders = append(mtsSenders, w)
case config.OutputRTP:
r.cfg.Logger.Log(logger.Debug, "using RTP output")
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w, err := newRtpSender(r.cfg.RTPAddress, r.cfg.Logger.Log, r.cfg.FrameRate, r.bitrate.Report)
if err != nil {
r.cfg.Logger.Log(logger.Warning, "rtp connect error", "error", err.Error())
}
mtsSenders = append(mtsSenders, w)
case config.OutputFile:
r.cfg.Logger.Log(logger.Debug, "using File output")
w, err := newFileSender(r.cfg.OutputPath)
if err != nil {
return err
}
mtsSenders = append(mtsSenders, w)
case config.OutputRTMP:
r.cfg.Logger.Log(logger.Debug, "using RTMP output")
rb := ring.NewBuffer(rbStartingElementSize, int(nElements), writeTimeout)
w, err := newRtmpSender(r.cfg.RTMPURL, rtmpConnectionMaxTries, rb, r.cfg.Logger.Log, r.bitrate.Report)
if err != nil {
r.cfg.Logger.Log(logger.Warning, "rtmp connect error", "error", err.Error())
}
flvSenders = append(flvSenders, w)
}
}
// If we have some senders that require MPEGTS encoding then add an MPEGTS
// encoder to revid's encoder slice, and give this encoder the mtsSenders
// as a destination.
if len(mtsSenders) != 0 {
mw := multiWriter(mtsSenders...)
e, _ := mtsEnc(mw, r.cfg.WriteRate)
encoders = append(encoders, e)
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}
// If we have some senders that require FLV encoding then add an FLV
// encoder to revid's encoder slice, and give this encoder the flvSenders
// as a destination.
if len(flvSenders) != 0 {
mw := multiWriter(flvSenders...)
e, err := flvEnc(mw, int(r.cfg.FrameRate))
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if err != nil {
return err
}
encoders = append(encoders, e)
}
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r.encoders = multiWriter(encoders...)
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l := len(r.cfg.Filters)
r.filters = []filter.Filter{filter.NewNoOp(r.encoders)}
if l != 0 {
r.cfg.Logger.Log(logger.Debug, "setting up filters", "filters", r.cfg.Filters)
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r.filters = make([]filter.Filter, l)
dst := r.encoders
for i := l - 1; i >= 0; i-- {
switch r.cfg.Filters[i] {
case config.FilterNoOp:
r.cfg.Logger.Log(logger.Debug, "using NoOp filter")
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r.filters[i] = filter.NewNoOp(dst)
case config.FilterMOG:
r.cfg.Logger.Log(logger.Debug, "using MOG filter")
r.filters[i] = filter.NewMOG(dst, r.cfg)
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case config.FilterVariableFPS:
r.cfg.Logger.Log(logger.Debug, "using Variable FPS MOG filter")
r.filters[i] = filter.NewVariableFPS(dst, r.cfg.MinFPS, filter.NewMOG(dst, r.cfg))
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case config.FilterKNN:
r.cfg.Logger.Log(logger.Debug, "using KNN filter")
r.filters[i] = filter.NewKNN(dst, r.cfg)
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case config.FilterDiff:
r.cfg.Logger.Log(logger.Debug, "using gocv difference filter")
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r.filters[i] = filter.NewDiff(dst, r.cfg)
case config.FilterBasic:
r.cfg.Logger.Log(logger.Debug, "using go difference filter")
r.filters[i] = filter.NewBasic(dst, r.cfg)
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default:
panic("Undefined Filter")
}
dst = r.filters[i]
}
r.cfg.Logger.Log(logger.Info, "filters set up")
}
switch r.cfg.Input {
case config.InputRaspivid:
r.cfg.Logger.Log(logger.Debug, "using raspivid input")
r.input = raspivid.New(r.cfg.Logger)
r.setLexer(r.cfg.InputCodec, false)
case config.InputV4L:
r.cfg.Logger.Log(logger.Debug, "using V4L input")
r.input = webcam.New(r.cfg.Logger)
r.setLexer(r.cfg.InputCodec, false)
case config.InputFile:
r.cfg.Logger.Log(logger.Debug, "using file input")
r.input = file.New()
r.setLexer(r.cfg.InputCodec, false)
case config.InputRTSP:
r.cfg.Logger.Log(logger.Debug, "using RTSP input")
r.input = geovision.New(r.cfg.Logger)
r.setLexer(r.cfg.InputCodec, true)
case config.InputAudio:
r.cfg.Logger.Log(logger.Debug, "using audio input")
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err := r.setupAudio()
if err != nil {
return err
}
}
// Configure the input device. We know that defaults are set, so no need to
// return error, but we should log.
r.cfg.Logger.Log(logger.Debug, "configuring input device")
err := r.input.Set(r.cfg)
if err != nil {
r.cfg.Logger.Log(logger.Warning, "errors from configuring input device", "errors", err)
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}
r.cfg.Logger.Log(logger.Info, "input device configured")
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return nil
}
// setLexer sets the revid input lexer based on input codec and whether input
// is RTSP or not, in which case an RTP/<codec> extractor is used.
func (r *Revid) setLexer(c uint8, isRTSP bool) {
switch c {
case codecutil.H264:
r.cfg.Logger.Log(logger.Debug, "using H.264 codec")
r.lexTo = h264.Lex
if isRTSP {
r.lexTo = h264.NewExtractor().Extract
}
case codecutil.H265:
r.cfg.Logger.Log(logger.Debug, "using H.265 codec")
r.lexTo = h265.NewExtractor(false).Extract
if !isRTSP {
panic("byte stream H.265 lexing not implemented")
}
case codecutil.MJPEG:
r.cfg.Logger.Log(logger.Debug, "using MJPEG codec")
r.lexTo = mjpeg.Lex
if isRTSP {
r.lexTo = mjpeg.NewExtractor().Extract
}
default:
panic("unrecognised codec")
}
}
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// Start invokes a Revid to start processing video from a defined input
// and packetising (if theres packetization) to a defined output.
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//
// Start is safe for concurrent use.
func (r *Revid) Start() error {
if r.IsRunning() {
r.cfg.Logger.Log(logger.Warning, "start called, but revid already running")
return nil
}
r.mu.Lock()
defer r.mu.Unlock()
r.stop = make(chan struct{})
r.cfg.Logger.Log(logger.Debug, "resetting revid")
err := r.reset(r.cfg)
if err != nil {
r.Stop()
return err
}
r.cfg.Logger.Log(logger.Info, "revid reset")
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// Calculate delay between frames based on FileFPS.
d := time.Duration(0)
if r.cfg.FileFPS != 0 {
d = time.Duration(1000/r.cfg.FileFPS) * time.Millisecond
}
r.cfg.Logger.Log(logger.Debug, "starting input processing routine")
r.wg.Add(1)
go r.processFrom(r.input, d)
r.running = true
return nil
}
// Stop closes down the pipeline. This closes encoders and sender output routines,
// connections, and/or files.
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//
// Stop is safe for concurrent use.
func (r *Revid) Stop() {
if !r.IsRunning() {
r.cfg.Logger.Log(logger.Warning, "stop called but revid isn't running")
return
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}
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r.mu.Lock()
defer r.mu.Unlock()
close(r.stop)
r.cfg.Logger.Log(logger.Debug, "stopping input")
err := r.input.Stop()
if err != nil {
r.cfg.Logger.Log(logger.Error, "could not stop input", "error", err.Error())
} else {
r.cfg.Logger.Log(logger.Info, "input stopped")
}
r.cfg.Logger.Log(logger.Debug, "closing pipeline")
err = r.encoders.Close()
if err != nil {
r.cfg.Logger.Log(logger.Error, "failed to close pipeline", "error", err.Error())
} else {
r.cfg.Logger.Log(logger.Info, "pipeline closed")
}
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for _, filter := range r.filters {
err = filter.Close()
if err != nil {
r.cfg.Logger.Log(logger.Error, "failed to close filters", "error", err.Error())
} else {
r.cfg.Logger.Log(logger.Info, "filters closed")
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}
}
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r.cfg.Logger.Log(logger.Debug, "waiting for routines to finish")
r.wg.Wait()
r.cfg.Logger.Log(logger.Info, "routines finished")
r.running = false
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}
// Burst starts revid, waits for time specified, and then stops revid.
func (r *Revid) Burst() error {
r.cfg.Logger.Log(logger.Debug, "starting revid")
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err := r.Start()
if err != nil {
return fmt.Errorf("could not start revid: %w", err)
}
r.cfg.Logger.Log(logger.Info, "revid started")
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dur := time.Duration(r.cfg.BurstPeriod) * time.Second
time.Sleep(dur)
r.cfg.Logger.Log(logger.Debug, "stopping revid")
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r.Stop()
r.cfg.Logger.Log(logger.Info, "revid stopped")
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return nil
}
func (r *Revid) IsRunning() bool {
r.mu.Lock()
defer r.mu.Unlock()
return r.running
}
// Update takes a map of variables and their values and edits the current config
// if the variables are recognised as valid parameters.
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//
// Update is safe for concurrent use.
func (r *Revid) Update(vars map[string]string) error {
if r.IsRunning() {
r.cfg.Logger.Log(logger.Debug, "revid running; stopping for re-config")
r.Stop()
r.cfg.Logger.Log(logger.Info, "revid was running; stopped for re-config")
}
r.mu.Lock()
defer r.mu.Unlock()
//look through the vars and update revid where needed
r.cfg.Logger.Log(logger.Debug, "checking vars from server", "vars", vars)
r.cfg.Update(vars)
r.cfg.Logger.Log(logger.Info, "finished reconfig")
r.cfg.Logger.Log(logger.Debug, "config changed", "config", r.cfg)
return nil
}
// processFrom is run as a routine to read from a input data source, lex and
// then send individual access units to revid's encoders.
func (r *Revid) processFrom(in device.AVDevice, delay time.Duration) {
defer r.wg.Done()
for l := true; l; l = r.cfg.Loop {
err := in.Start()
if err != nil {
r.err <- fmt.Errorf("could not start input device: %w", err)
return
}
// Lex data from input device, in, until finished or an error is encountered.
// For a continuous source e.g. a camera or microphone, we should remain
// in this call indefinitely unless in.Stop() is called and an io.EOF is forced.
r.cfg.Logger.Log(logger.Debug, "lexing")
err = r.lexTo(r.filters[0], in, delay)
switch err {
case nil, io.EOF:
r.cfg.Logger.Log(logger.Info, "end of file")
case io.ErrUnexpectedEOF:
r.cfg.Logger.Log(logger.Info, "unexpected EOF from input")
default:
r.err <- err
}
r.cfg.Logger.Log(logger.Info, "finished reading input")
r.cfg.Logger.Log(logger.Debug, "stopping input")
err = in.Stop()
if err != nil {
r.err <- fmt.Errorf("could not stop input source: %w", err)
} else {
r.cfg.Logger.Log(logger.Info, "input stopped")
}
// If we're looping and we get a stop signal we return.
select {
case <-r.stop:
return
default:
}
}
}