av/revid/Revid.go

/*
NAME
  Revid.go

DESCRIPTION
  See Readme.md

AUTHORS
	Saxon A. Nelson-Milton <saxon@ausocean.org>
	Alan Noble <alan@ausocean.org>

LICENSE
  revid is Copyright (C) 2017 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
 for more details.

  You should have received a copy of the GNU General Public License
  along with revid in gpl.txt.  If not, see [GNU licenses](http://www.gnu.org/licenses).
*/

// revid is a testbed for re-muxing and re-directing video streams as MPEG-TS over various protocols.
package revid

import (
	"bufio"
	"bytes"
	"errors"
	"fmt"
	"io"
	"io/ioutil"
	"net/http"
	"os"
	"os/exec"
	"path/filepath"
	"strconv"
	"sync"
	"time"

	"bitbucket.org/ausocean/av/generator"
	"bitbucket.org/ausocean/av/parser"
	"bitbucket.org/ausocean/av/ringbuffer"
	"bitbucket.org/ausocean/av/rtmp"
	/*
		"../generator"
		"../parser"
		"../ringbuffer"
		"../rtmp"
	*/)

// Misc constants
const (
	clipDuration            = 1                   // s
	mp2tPacketSize          = 188                 // MPEG-TS packet size
	mp2tMaxPackets          = 2016 * clipDuration // # first multiple of 7 and 8 greater than 2000
	ringBufferSize          = 500
	ringBufferElementSize   = 150000
	httpTimeOut             = 5 // s
	packetsPerFrame         = 7
	bitrateTime             = 60 // s
	mjpegParserInChanLen    = 100000
	ffmpegPath              = "/usr/local/bin/ffmpeg"
	rtmpConnectionTimout    = 10
	outputChanSize          = 1000
	cameraRetryPeriod       = 5 * time.Second
	sendFailedDelay         = 5
	maxSendFailedErrorCount = 500
	clipSizeThreshold       = 11
	rtmpConnectionMaxTries  = 5
	raspividNoOfTries       = 3
)

// Log Types
const (
	Error   = "Error"
	Warning = "Warning"
	Info    = "Info"
	Debug   = "Debug"
)

// Revid provides methods to control a revid session; providing methods
// to start, stop and change the state of an instance using the Config struct.
type Revid interface {
	Start()
	Stop()
	changeState(newconfig Config) error
	GetConfigRef() *Config
	Log(logType, m string)
	IsRunning() bool
}

// The revid struct provides fields to describe the state of a Revid.
type revid struct {
	ffmpegPath     string
	tempDir        string
	ringBuffer     ringbuffer.RingBuffer
	config         Config
	isRunning      bool
	outputFile     *os.File
	inputFile      *os.File
	generator      generator.Generator
	parser         parser.Parser
	cmd            *exec.Cmd
	ffmpegCmd      *exec.Cmd
	inputReader    *bufio.Reader
	ffmpegStdin    io.WriteCloser
	outputChan     chan []byte
	setupInput     func() error
	setupOutput    func() error
	getFrame       func() []byte
	sendClip       func(clip []byte) error
	rtmpInst       rtmp.RTMPSession
	mutex          sync.Mutex
	currentBitrate int64
}

// NewRevid returns a pointer to a new revid with the desired
// configuration, and/or an error if construction of the new instant was not
// successful.
func NewRevid(config Config) (r *revid, err error) {
	r = new(revid)
	r.mutex = sync.Mutex{}
	r.ringBuffer = ringbuffer.NewRingBuffer(ringBufferSize, ringBufferElementSize)
	err = r.changeState(config)
	if err != nil {
		r = nil
		return
	}
	r.outputChan = make(chan []byte, outputChanSize)
	return
}

// Returns the currently saved bitrate from the most recent bitrate check
// check bitrate output delay in consts for this period
func (r *revid) GetBitrate() int64 {
	return r.currentBitrate
}

// GetConfigRef returns a pointer to the revidInst's Config struct object
func (r *revid) GetConfigRef() *Config {
	return &r.config
}

// changeState swaps the current config of a revid with the passed
// configuration; checking validity and returning errors if not valid.
func (r *revid) changeState(config Config) error {
	r.config.Logger = config.Logger
	err := config.Validate(r)
	if err != nil {
		return errors.New("Config struct is bad!: " + err.Error())
	}
	r.config = config

	switch r.config.Output {
	case File:
		r.sendClip = r.sendClipToFile
		r.setupOutput = r.setupOutputForFile
	case FfmpegRtmp:
		r.setupOutput = r.setupOutputForFfmpegRtmp
		r.sendClip = r.sendClipToFfmpegRtmp
	case NativeRtmp:
		r.setupOutput = r.setupOutputForLibRtmp
		r.sendClip = r.sendClipToLibRtmp
	case Http:
		r.sendClip = r.sendClipToHTTP
	}

	switch r.config.Input {
	case Raspivid:
		r.setupInput = r.setupInputForRaspivid
	case File:
		r.setupInput = r.setupInputForFile
	}
	switch r.config.InputCodec {
	case H264:
		r.Log(Info, "Using H264 parser!")
		r.parser = parser.NewH264Parser()
	case Mjpeg:
		r.Log(Info, "Using MJPEG parser!")
		r.parser = parser.NewMJPEGParser(mjpegParserInChanLen)
	}

	switch r.config.Packetization {
	case None:
		// no packetisation - Revid output chan grabs raw data straight from parser
		r.parser.SetOutputChan(r.outputChan)
		r.getFrame = r.getFrameNoPacketization
		goto noPacketizationSetup
	case Mpegts:
		r.Log(Info, "Using MPEGTS packetisation!")
		frameRateAsInt, _ := strconv.Atoi(r.config.FrameRate)
		r.generator = generator.NewTsGenerator(uint(frameRateAsInt))
	case Flv:
		r.Log(Info, "Using FLV packetisation!")
		frameRateAsInt, _ := strconv.Atoi(r.config.FrameRate)
		r.generator = generator.NewFlvGenerator(true, true, uint(frameRateAsInt))
	}
	// We have packetization of some sort, so we want to send data to Generator
	// to perform packetization
	r.getFrame = r.getFramePacketization
	r.parser.SetOutputChan(r.generator.GetInputChan())
noPacketizationSetup:

	return nil
}

// ChangeConfig changes the current configuration of the revid instance.
func (r *revid) ChangeConfig(config Config) (err error) {
	r.Stop()
	r, err = NewRevid(config)
	if err != nil {
		return
	}
	r.Start()
	return
}

// Log takes a logtype and message and tries to send this information to the
// logger provided in the revid config - if there is one, otherwise the message
// is sent to stdout
func (r *revid) Log(logType, m string) {
	if r.config.Verbosity == Yes {
		if r.config.Logger != nil {
			r.config.Logger.Log(logType, m)
			return
		}
		fmt.Println(logType + ": " + m)
	}
}

// IsRunning returns true if the revid is currently running and false otherwise
func (r *revid) IsRunning() bool {
	return r.isRunning
}

// Start invokes a revid to start processing video from a defined input
// and packetising (if theres packetization) to a defined output.
func (r *revid) Start() {
	r.mutex.Lock()
	defer r.mutex.Unlock()
	if r.isRunning {
		r.Log(Warning, "revid.Start() called but revid already running!")
		return
	}
	r.Log(Info, "Starting Revid!")
	r.Log(Debug, "Setting up output!")
	if r.setupOutput != nil {
		err := r.setupOutput()
		if err != nil {
			r.Log(Error, err.Error())
			return
		}
	}
	r.isRunning = true
	r.Log(Info, "Starting output routine!")
	go r.outputClips()
	r.Log(Info, "Starting clip packing routine!")
	go r.packClips()
	r.Log(Info, "Starting packetisation generator!")
	r.generator.Start()
	r.Log(Info, "Starting parser!")
	r.parser.Start()
	r.Log(Info, "Setting up input and recieving content!")
	go r.setupInput()
}

// Stop halts any processing of video data from a camera or file
func (r *revid) Stop() {
	r.mutex.Lock()
	defer r.mutex.Unlock()
	if !r.isRunning {
		r.Log(Warning, "revid.Stop() called but revid not running!")
		return
	}
	r.Log(Info, "Stopping revid!")
	r.rtmpInst.EndSession()
	r.isRunning = false

	r.Log(Info, "Stopping generator!")
	if r.generator != nil {
		r.generator.Stop()
	}

	r.Log(Info, "Stopping parser!")
	if r.parser != nil {
		r.parser.Stop()
	}

	r.Log(Info, "Killing input proccess!")
	// If a cmd process is running, we kill!
	if r.cmd != nil && r.cmd.Process != nil {
		r.cmd.Process.Kill()
	}

}

// getFrameNoPacketization gets a frame directly from the revid output chan
// as we don't need to go through the generator with no packetization settings
func (r *revid) getFrameNoPacketization() []byte {
	return <-r.outputChan
}

// getFramePacketization gets a frame from the generators output chan - the
// the generator being an mpegts or flv generator depending on the config
func (r *revid) getFramePacketization() []byte {
	return <-(r.generator.GetOutputChan())
}

// flushDataPacketization removes data from the revid inst's coutput chan
func (r *revid) flushData() {
	switch r.config.Packetization {
	case Flv:
		for {
			select {
			case <-(r.generator.GetOutputChan()):
			default:
				goto done
			}
		}
	}
done:
}

// packClips takes data segments; whether that be tsPackets or mjpeg frames and
// packs them into clips consisting of the amount frames specified in the config
func (r *revid) packClips() {
	clipSize := 0
	packetCount := 0
	for r.isRunning {
		// Get some memory from the ring buffer for out clip
		var clip []byte
		var err error
		if clip, err = r.ringBuffer.Get(); err != nil && r.isRunning {
			r.Log(Error, err.Error())
			r.Log(Warning, "Clearing output chan!")
			for clip, err = r.ringBuffer.Get(); err != nil && r.isRunning; {
				time.Sleep(time.Duration(10) * time.Millisecond)
				clip, err = r.ringBuffer.Get()
			}
			r.Log(Debug, "Finally got mem from ringbuffer!")
		}
		for r.isRunning {
			frame := r.getFrame()
			lenOfFrame := len(frame)
			if lenOfFrame > ringBufferElementSize {
				r.Log(Warning, fmt.Sprintf("Frame was too big: %v bytes, getting another one!", lenOfFrame))
				frame = r.getFrame()
				lenOfFrame = len(frame)
			}
			upperBound := clipSize + lenOfFrame
			copy(clip[clipSize:upperBound], frame)
			packetCount++
			clipSize += lenOfFrame
			fpcAsInt, err := strconv.Atoi(r.config.FramesPerClip)
			if err != nil {
				r.Log(Error, "Frames per clip not quite right! Defaulting to 1!")
				r.config.FramesPerClip = "1"
			}
			if packetCount >= fpcAsInt {
				if err := r.ringBuffer.DoneWriting(clipSize); err != nil {
					r.Log(Error, err.Error())
					r.Log(Warning, "Dropping clip!")
				}
				clipSize = 0
				packetCount = 0
				break
			}
		}
	}
}

// outputClips takes the clips produced in the packClips method and outputs them
// to the desired output defined in the revid config
func (r *revid) outputClips() {
	now := time.Now()
	prevTime := now
	bytes := 0
	delay := 0
	for r.isRunning {
		// Here we slow things down as much as we can to decrease cpu usage
		switch {
		case r.ringBuffer.GetNoOfElements() < 2:
			delay++
			time.Sleep(time.Duration(delay) * time.Millisecond)
		case delay > 0:
			delay--
		}

		// If the ringbuffer has something we can read and send off
		if clip, err := r.ringBuffer.Read(); err == nil && r.isRunning {
			bytes += len(clip)
			errorCount := 0
			r.Log(Debug, "About to send!")
			err2 := r.sendClip(clip)
			r.Log(Debug, "Finished send!")

			for ; err2 != nil; errorCount++ {
				r.Log(Warning, "Send failed trying again!")
				// If the clip size is not bigger than the threshold then we classify
				// it as junk and we don't try to send it off again.
				if len(clip) >= clipSizeThreshold {
					err2 = r.sendClip(clip)
					if err2 == nil {
						break
					}
				} else {
					break
				}
				// So that we don't fill up the log, once we reach the maxSendFailedErrorCount
				// we will add some delay to slow things down until we have a connection again
				time.Sleep(time.Duration(sendFailedDelay) * time.Second)
				r.Log(Error, err2.Error())
				if r.config.Output == NativeRtmp {
					r.rtmpInst.EndSession()
					r.flushData()
					err = r.rtmpInst.StartSession()
				}
			}
			// let the ringbuffer know that we're done with the memory we grabbed when
			// we call ringBuffer.Get()
			if err := r.ringBuffer.DoneReading(); err != nil {
				r.Log(Error, err.Error())
			}
			// Log some information regarding bitrate and ring buffer size if it's time
			now = time.Now()
			deltaTime := now.Sub(prevTime)
			if deltaTime > time.Duration(bitrateTime)*time.Second {
				r.currentBitrate = int64(float64(bytes*8) / float64(deltaTime/1e9))
				r.Log(Info, fmt.Sprintf("Bitrate: %v bits/s\n", r.currentBitrate))
				r.Log(Info, fmt.Sprintf("Ring buffer size: %v\n", r.ringBuffer.GetNoOfElements()))
				prevTime = now
				bytes = 0
			}
		} else {
			//r.Log(Error, err.Error())
		}
	}
	r.Log(Info, "Not outputting clips anymore!")
}

// senClipToFile writes the passed clip to a file
func (r *revid) sendClipToFile(clip []byte) error {
	_, err := r.outputFile.Write(clip)
	if err != nil {
		return err
	}
	return nil
}

// sendClipToHTTP takes a clip and an output url and posts through http.
func (r *revid) sendClipToHTTP(clip []byte) error {
	timeout := time.Duration(httpTimeOut * time.Second)
	client := http.Client{Timeout: timeout}
	url := r.config.HttpAddress + strconv.Itoa(len(clip))
	r.Log(Debug, fmt.Sprintf("Posting %s (%d bytes)\n", url, len(clip)))
	resp, err := client.Post(url, "video/mp2t", bytes.NewReader(clip))
	if err != nil {
		return fmt.Errorf("Error posting to %s: %s", url, err)
	}
	defer resp.Body.Close()
	body, err := ioutil.ReadAll(resp.Body)
	if err == nil {
		r.Log(Debug, fmt.Sprintf("%s\n", body))
	} else {
		r.Log(Error, err.Error())
	}
	return nil
}

// sendClipToFfmpegRtmp sends the clip over the current rtmp connection using
// an ffmpeg process.
func (r *revid) sendClipToFfmpegRtmp(clip []byte) (err error) {
	_, err = r.ffmpegStdin.Write(clip)
	return
}

// sendClipToLibRtmp send the clip over the current rtmp connection using the
// c based librtmp library
func (r *revid) sendClipToLibRtmp(clip []byte) (err error) {
	err = r.rtmpInst.WriteFrame(clip, uint(len(clip)))
	return
}

// setupOutputForFfmpegRtmp sets up output to rtmp using an ffmpeg process
func (r *revid) setupOutputForFfmpegRtmp() error {
	r.ffmpegCmd = exec.Command(ffmpegPath,
		"-f", "h264",
		"-r", r.config.FrameRate,
		"-i", "-",
		"-f", "lavfi",
		"-i", "aevalsrc=0",
		"-fflags", "nobuffer",
		"-vcodec", "copy",
		"-acodec", "aac",
		"-map", "0:0",
		"-map", "1:0",
		"-strict", "experimental",
		"-f", "flv",
		r.config.RtmpUrl,
	)
	var err error
	r.ffmpegStdin, err = r.ffmpegCmd.StdinPipe()
	if err != nil {
		r.Log(Error, err.Error())
		r.Stop()
		return err
	}
	err = r.ffmpegCmd.Start()
	if err != nil {
		r.Log(Error, err.Error())
		r.Stop()
		return err
	}
	return nil
}

// setupOutputForLibRtmp sets up rtmp output using the wrapper for the c based
// librtmp library - makes connection and starts comms etc.
func (r *revid) setupOutputForLibRtmp() error {
	r.rtmpInst = rtmp.NewRTMPSession(r.config.RtmpUrl, rtmpConnectionTimout)
	err := r.rtmpInst.StartSession()
	for noOfTries := 0; err != nil && noOfTries < rtmpConnectionMaxTries; noOfTries++ {
		r.rtmpInst.EndSession()
		r.Log(Error, err.Error())
		r.Log(Info, "Trying to establish rtmp connection again!")
		r.rtmpInst = rtmp.NewRTMPSession(r.config.RtmpUrl, rtmpConnectionTimout)
		err = r.rtmpInst.StartSession()
	}
	if err != nil {
		return err
	}
	return err
}

// setupOutputForFile sets up an output file to output data to
func (r *revid) setupOutputForFile() (err error) {
	r.outputFile, err = os.Create(r.config.OutputFileName)
	return
}

// setupInputForRaspivid sets up things for input from raspivid i.e. starts
// a raspivid process and pipes it's data output.
func (r *revid) setupInputForRaspivid() error {
	r.Log(Info, "Starting raspivid!")
	switch r.config.InputCodec {
	case H264:
		arguments := []string{"-cd", "H264",
			"-o", "-",
			"-n",
			"-t", r.config.Timeout,
			"-b", r.config.Bitrate,
			"-w", r.config.Width,
			"-h", r.config.Height,
			"-fps", r.config.FrameRate,
			"-ih",
			"-g", r.config.IntraRefreshPeriod,
		}

		if r.config.QuantizationMode == QuantizationOn {
			arguments = append(arguments, "-qp")
			arguments = append(arguments, r.config.Quantization)
		}

		if r.config.HorizontalFlip == Yes {
			arguments = append(arguments, "-hf")
		}

		if r.config.VerticalFlip == Yes {
			arguments = append(arguments, "-vf")
		}
		name := "raspivid"
		r.cmd = &exec.Cmd{
			Path: name,
			Args: append([]string{name}, arguments...),
		}
		r.Log(Info, fmt.Sprintf("Startin raspivid with args: %v", r.cmd.Args))
		if filepath.Base(name) == name {
			if lp, err := exec.LookPath(name); err != nil {
				r.Log(Error, err.Error())
				return err
			} else {
				r.cmd.Path = lp
			}
		}

	case Mjpeg:
		r.cmd = exec.Command("raspivid",
			"-cd", "MJPEG",
			"-o", "-",
			"-n",
			"-t", r.config.Timeout,
			"-fps", r.config.FrameRate,
		)
	}
	stdout, _ := r.cmd.StdoutPipe()
	err := r.cmd.Start()
	if err != nil {
		for i := 0; i < raspividNoOfTries; i++ {
			r.Log(Error, err.Error())
			err = r.cmd.Start()
			if err == nil {
				goto raspividSuccess
			}
		}
		return err
	}
raspividSuccess:
	r.inputReader = bufio.NewReader(stdout)
	go r.readCamera()
	return nil
}

// setupInputForFile sets things up for getting input from a file
func (r *revid) setupInputForFile() error {
	fps, _ := strconv.Atoi(r.config.FrameRate)
	r.parser.SetDelay(uint(float64(1000) / float64(fps)))
	r.readFile()
	return nil
}

// testRtmp is useful to check robustness of connections. Intended to be run as
// goroutine. After every 'delayTime' the rtmp connection is ended and then
// restarted
func (r *revid) testRtmp(delayTime uint) {
	for {
		time.Sleep(time.Duration(delayTime) * time.Millisecond)
		r.rtmpInst.EndSession()
		r.rtmpInst.StartSession()
	}
}

// readCamera reads data from the defined camera while the revid is running.
// TODO: use ringbuffer here instead of allocating mem every time!
func (r *revid) readCamera() {
	r.Log(Info, "Reading camera data!")
	for r.isRunning {
		data := make([]byte, 1)
		_, err := io.ReadFull(r.inputReader, data)
		switch {
		// We know this means we're getting nothing from the cam
		case (err != nil && err.Error() == "EOF" && r.isRunning) || (err != nil && r.isRunning):
			r.Log(Error, "No data from camera!")
			time.Sleep(cameraRetryPeriod)
		default:
			r.parser.GetInputChan() <- data[0]
		}
	}
	r.Log(Info, "Not trying to read from camera anymore!")
}

// readFile reads data from the defined file while the revid is running.
func (r *revid) readFile() error {
	var err error
	r.inputFile, err = os.Open(r.config.InputFileName)
	if err != nil {
		r.Log(Error, err.Error())
		r.Stop()
		return err
	}
	stats, err := r.inputFile.Stat()
	if err != nil {
		r.Log(Error, "Could not get input file stats!")
		r.Stop()
		return err
	}
	data := make([]byte, stats.Size())
	_, err = r.inputFile.Read(data)
	if err != nil {
		r.Log(Error, err.Error())
		r.Stop()
		return err
	}
	for i := range data {
		r.parser.GetInputChan() <- data[i]
	}
	r.inputFile.Close()
	return nil
}