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/ *
NAME
senders . go
DESCRIPTION
See Readme . md
AUTHORS
Saxon A . Nelson - Milton < saxon @ ausocean . org >
Alan Noble < alan @ ausocean . org >
LICENSE
revid is Copyright ( C ) 2017 - 2018 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 http : //www.gnu.org/licenses.
* /
package revid
import (
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"errors"
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"fmt"
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"io"
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"net"
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"os"
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"sync"
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"syscall"
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"time"
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"github.com/Comcast/gots/packet"
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"bitbucket.org/ausocean/av/container/mts"
"bitbucket.org/ausocean/av/protocol/rtmp"
"bitbucket.org/ausocean/av/protocol/rtp"
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"bitbucket.org/ausocean/iot/pi/netsender"
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"bitbucket.org/ausocean/utils/logging"
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"bitbucket.org/ausocean/utils/pool"
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)
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// Sender pool buffer read timeouts.
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const (
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rtmpPoolReadTimeout = 1 * time . Second
mtsPoolReadTimeout = 1 * time . Second
mtsBufferPoolMaxAlloc = 5 << 20 // 5MiB.
maxBuffLen = 50000000
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)
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var (
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adjustedRTMPPoolElementSize int
adjustedMTSPoolElementSize int
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)
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var errReportCallbackNil = errors . New ( "report callback is nil" )
type httpSenderOption func ( s * httpSender ) error
// withReportCallback provides a functional option to set the report callback
// function. This can be used to record the number of bytes sent.
func withReportCallback ( report func ( sent int ) ) httpSenderOption {
return func ( s * httpSender ) error {
if report == nil {
return errReportCallbackNil
}
s . report = report
return nil
}
}
// withHTTPAddress provides a functional option to set the destination http
// address.
func withHTTPAddress ( addr string ) httpSenderOption {
return func ( s * httpSender ) error {
s . addr = addr
return nil
}
}
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// httpSender provides an implemntation of io.Writer to perform sends to a http
// destination.
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type httpSender struct {
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client * netsender . Sender
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log logging . Logger
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report func ( sent int )
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addr string
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}
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// newHttpSender returns a pointer to a new httpSender.
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// report is callback that can be used to report the amount of data sent per write.
// This can be set to nil.
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func newHTTPSender ( ns * netsender . Sender , log logging . Logger , opts ... httpSenderOption ) ( * httpSender , error ) {
s := & httpSender { client : ns , log : log }
for _ , opt := range opts {
err := opt ( s )
if err != nil {
return nil , err
}
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}
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return s , nil
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}
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// Write implements io.Writer.
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func ( s * httpSender ) Write ( d [ ] byte ) ( int , error ) {
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s . log . Debug ( "HTTP sending" , "address" , s . addr )
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err := httpSend ( d , s . client , s . log , s . addr )
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if err == nil {
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s . log . Debug ( "good send" , "len" , len ( d ) )
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if s . report != nil {
s . report ( len ( d ) )
}
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} else {
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s . log . Debug ( "bad send" , "error" , err )
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}
return len ( d ) , err
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}
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func ( s * httpSender ) Close ( ) error { return nil }
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func httpSend ( d [ ] byte , client * netsender . Sender , log logging . Logger , addr string ) error {
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// Only send if "V0" or "S0" are configured as input.
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send := false
ip := client . Param ( "ip" )
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log . Debug ( "making pins, and sending recv request" , "ip" , ip )
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pins := netsender . MakePins ( ip , "V,S" )
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for i , pin := range pins {
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switch pin . Name {
case "V0" :
pins [ i ] . MimeType = "video/mp2t"
case "S0" :
pins [ i ] . MimeType = "audio/x-wav"
default :
continue
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}
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pins [ i ] . Value = len ( d )
pins [ i ] . Data = d
send = true
break
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}
if ! send {
return nil
}
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reply , _ , err := client . Send ( netsender . RequestRecv , pins , netsender . WithRecvAddress ( addr ) )
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if err != nil {
return err
}
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log . Debug ( "good request" , "reply" , reply )
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return extractMeta ( reply , log )
}
// extractMeta looks at a reply at extracts any time or location data - then used
// to update time and location information in the mpegts encoder.
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func extractMeta ( r string , log logging . Logger ) error {
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dec , err := netsender . NewJSONDecoder ( r )
if err != nil {
return nil
}
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// Extract time from reply if mts.Realtime has not been set.
if ! mts . RealTime . IsSet ( ) {
t , err := dec . Int ( "ts" )
if err != nil {
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log . Warning ( "No timestamp in reply" )
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} else {
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log . Debug ( "got timestamp" , "ts" , t )
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mts . RealTime . Set ( time . Unix ( int64 ( t ) , 0 ) )
}
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}
// Extract location from reply
g , err := dec . String ( "ll" )
if err != nil {
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log . Debug ( "No location in reply" )
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} else {
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log . Debug ( fmt . Sprintf ( "got location: %v" , g ) )
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mts . Meta . Add ( mts . LocationKey , g )
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}
return nil
}
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// fileSender implements loadSender for a local file destination.
type fileSender struct {
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file * os . File
data [ ] byte
multiFile bool
maxFileSize uint // maxFileSize is in bytes. A size of 0 means there is no size limit.
path string
log logging . Logger
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}
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// newFileSender returns a new fileSender. Setting multi true will write a new
// file for each write to this sender.
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func newFileSender ( l logging . Logger , path string , multiFile bool , maxFileSize uint ) ( * fileSender , error ) {
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return & fileSender {
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path : path ,
log : l ,
multiFile : multiFile ,
maxFileSize : maxFileSize ,
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} , nil
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}
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// Write implements io.Writer.
func ( s * fileSender ) Write ( d [ ] byte ) ( int , error ) {
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s . log . Debug ( "checking disk space" )
var stat syscall . Statfs_t
if err := syscall . Statfs ( "/" , & stat ) ; err != nil {
return 0 , fmt . Errorf ( "could not read system disk space, abandoning write: %w" , err )
}
availableSpace := stat . Bavail * uint64 ( stat . Bsize )
totalSpace := stat . Blocks * uint64 ( stat . Bsize )
s . log . Debug ( "available, total disk space in bytes" , "availableSpace" , availableSpace , "totalSpace" , totalSpace )
var spaceBuffer uint64 = 50000000 // 50MB.
if availableSpace < spaceBuffer {
return 0 , fmt . Errorf ( "reached limit of disk space with a buffer of %v bytes, abandoning write" , spaceBuffer )
}
// If the write will exceed the max file size, close the file so that a new one can be created.
if s . maxFileSize != 0 && s . file != nil {
fileInfo , err := s . file . Stat ( )
if err != nil {
return 0 , fmt . Errorf ( "could not read files stats: %w" , err )
}
size := uint ( fileInfo . Size ( ) )
s . log . Debug ( "checked file size" , "bytes" , size )
if size + uint ( len ( d ) ) > s . maxFileSize {
s . log . Debug ( "new write would exceed max file size, closing existing file" , "maxFileSize" , s . maxFileSize )
s . file . Close ( )
s . file = nil
}
}
if s . file == nil {
fileName := s . path + time . Now ( ) . Format ( "2006-01-02_15-04-05" )
s . log . Debug ( "creating new output file" , "multiFile" , s . multiFile , "fileName" , fileName )
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f , err := os . Create ( fileName )
if err != nil {
return 0 , fmt . Errorf ( "could not create file to write media to: %w" , err )
}
s . file = f
}
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s . log . Debug ( "writing to output file" , "bytes" , len ( d ) )
n , err := s . file . Write ( d )
if err != nil {
return n , err
}
if s . multiFile {
s . file . Close ( )
s . file = nil
}
return n , nil
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}
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func ( s * fileSender ) Close ( ) error { return s . file . Close ( ) }
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// mtsSender implements io.WriteCloser and provides sending capability specifically
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// for use with MPEGTS packetization. It handles the construction of appropriately
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// lengthed clips based on clip duration and PSI. It also accounts for
// discontinuities by setting the discontinuity indicator for the first packet of a clip.
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type mtsSender struct {
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dst io . WriteCloser
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buf [ ] byte
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pool * pool . Buffer
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next [ ] byte
pkt packet . Packet
repairer * mts . DiscontinuityRepairer
curPid int
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clipDur time . Duration
prev time . Time
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done chan struct { }
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log logging . Logger
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wg sync . WaitGroup
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}
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// newMtsSender returns a new mtsSender.
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func newMTSSender ( dst io . WriteCloser , log logging . Logger , rb * pool . Buffer , clipDur time . Duration ) * mtsSender {
log . Debug ( "setting up mtsSender" , "clip duration" , int ( clipDur ) )
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s := & mtsSender {
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dst : dst ,
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repairer : mts . NewDiscontinuityRepairer ( ) ,
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log : log ,
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pool : rb ,
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done : make ( chan struct { } ) ,
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clipDur : clipDur ,
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}
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// mtsSender will do particularly large writes to the pool buffer; let's
// increase its max allowable allocation.
pool . MaxAlloc ( mtsBufferPoolMaxAlloc )
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s . wg . Add ( 1 )
go s . output ( )
return s
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}
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// output starts an mtsSender's data handling routine.
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func ( s * mtsSender ) output ( ) {
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var chunk * pool . Chunk
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for {
select {
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case <- s . done :
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s . log . Info ( "terminating sender output routine" )
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defer s . wg . Done ( )
return
default :
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// If chunk is nil then we're ready to get another from the ringBuffer.
if chunk == nil {
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var err error
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chunk , err = s . pool . Next ( mtsPoolReadTimeout )
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switch err {
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case nil , io . EOF :
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continue
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case pool . ErrTimeout :
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s . log . Debug ( "mtsSender: pool buffer read timeout" )
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continue
default :
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s . log . Error ( "unexpected error" , "error" , err . Error ( ) )
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continue
}
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}
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err := s . repairer . Repair ( chunk . Bytes ( ) )
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if err != nil {
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chunk . Close ( )
chunk = nil
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continue
}
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s . log . Debug ( "mtsSender: writing" )
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_ , err = s . dst . Write ( chunk . Bytes ( ) )
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if err != nil {
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s . log . Debug ( "failed write, repairing MTS" , "error" , err )
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s . repairer . Failed ( )
continue
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} else {
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s . log . Debug ( "good write" )
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}
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chunk . Close ( )
chunk = nil
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}
}
}
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// Write implements io.Writer.
func ( s * mtsSender ) Write ( d [ ] byte ) ( int , error ) {
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if len ( d ) < mts . PacketSize {
return 0 , errors . New ( "do not have full MTS packet" )
}
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if s . next != nil {
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s . log . Debug ( "appending packet to clip" )
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s . buf = append ( s . buf , s . next ... )
}
bytes := make ( [ ] byte , len ( d ) )
copy ( bytes , d )
s . next = bytes
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p , _ := mts . PID ( bytes )
s . curPid = int ( p )
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curDur := time . Now ( ) . Sub ( s . prev )
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s . log . Debug ( "checking send conditions" , "curDuration" , int ( curDur ) , "sendDur" , int ( s . clipDur ) , "curPID" , s . curPid , "len" , len ( s . buf ) )
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if curDur >= s . clipDur && s . curPid == mts . PatPid && len ( s . buf ) > 0 {
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s . log . Debug ( "writing clip to pool buffer for sending" , "size" , len ( s . buf ) )
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s . prev = time . Now ( )
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n , err := s . pool . Write ( s . buf )
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if err == nil {
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s . pool . Flush ( )
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}
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if err != nil {
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s . log . Warning ( "ringBuffer write error" , "error" , err . Error ( ) , "n" , n , "writeSize" , len ( s . buf ) , "rbElementSize" , adjustedMTSPoolElementSize )
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if err == pool . ErrTooLong {
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adjustedMTSPoolElementSize = len ( s . buf ) * 2
numElements := maxBuffLen / adjustedMTSPoolElementSize
s . pool = pool . NewBuffer ( maxBuffLen / adjustedMTSPoolElementSize , adjustedMTSPoolElementSize , 5 * time . Second )
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s . log . Info ( "adjusted MTS pool buffer element size" , "new size" , adjustedMTSPoolElementSize , "num elements" , numElements , "size(MB)" , numElements * adjustedMTSPoolElementSize )
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}
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}
s . buf = s . buf [ : 0 ]
}
return len ( d ) , nil
}
// Close implements io.Closer.
func ( s * mtsSender ) Close ( ) error {
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s . log . Debug ( "closing sender output routine" )
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close ( s . done )
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s . wg . Wait ( )
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s . log . Info ( "sender output routine closed" )
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return nil
}
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// rtmpSender implements loadSender for a native RTMP destination.
type rtmpSender struct {
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conn * rtmp . Conn
url string
retries int
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log logging . Logger
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pool * pool . Buffer
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done chan struct { }
wg sync . WaitGroup
report func ( sent int )
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}
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func newRtmpSender ( url string , retries int , rb * pool . Buffer , log logging . Logger , report func ( sent int ) ) ( * rtmpSender , error ) {
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var conn * rtmp . Conn
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var err error
for n := 0 ; n < retries ; n ++ {
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conn , err = rtmp . Dial ( url , log . Log )
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if err == nil {
break
}
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log . Error ( "dial error" , "error" , err )
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if n < retries - 1 {
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log . Info ( "retrying dial" )
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}
}
s := & rtmpSender {
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conn : conn ,
url : url ,
retries : retries ,
log : log ,
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pool : rb ,
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done : make ( chan struct { } ) ,
report : report ,
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}
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s . wg . Add ( 1 )
go s . output ( )
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return s , err
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}
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// output starts an mtsSender's data handling routine.
func ( s * rtmpSender ) output ( ) {
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var chunk * pool . Chunk
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for {
select {
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case <- s . done :
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s . log . Info ( "terminating sender output routine" )
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defer s . wg . Done ( )
return
default :
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// If chunk is nil then we're ready to get another from the pool buffer.
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if chunk == nil {
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var err error
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chunk , err = s . pool . Next ( rtmpPoolReadTimeout )
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switch err {
case nil , io . EOF :
continue
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case pool . ErrTimeout :
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s . log . Debug ( "rtmpSender: pool buffer read timeout" )
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continue
default :
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s . log . Error ( "unexpected error" , "error" , err . Error ( ) )
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continue
}
}
if s . conn == nil {
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s . log . Warning ( "no rtmp connection, re-dialing" )
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err := s . restart ( )
if err != nil {
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s . log . Warning ( "could not restart connection" , "error" , err )
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continue
}
}
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_ , err := s . conn . Write ( chunk . Bytes ( ) )
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switch err {
case nil , rtmp . ErrInvalidFlvTag :
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s . log . Debug ( "good write to conn" )
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default :
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s . log . Warning ( "send error, re-dialing" , "error" , err )
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err = s . restart ( )
if err != nil {
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s . log . Warning ( "could not restart connection" , "error" , err )
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}
continue
}
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chunk . Close ( )
chunk = nil
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}
}
}
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// Write implements io.Writer.
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func ( s * rtmpSender ) Write ( d [ ] byte ) ( int , error ) {
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s . log . Debug ( "writing to pool buffer" )
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_ , err := s . pool . Write ( d )
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if err == nil {
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s . pool . Flush ( )
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s . log . Debug ( "good pool buffer write" , "len" , len ( d ) )
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} else {
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s . log . Warning ( "pool buffer write error" , "error" , err . Error ( ) )
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if err == pool . ErrTooLong {
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adjustedRTMPPoolElementSize = len ( d ) * 2
numElements := maxBuffLen / adjustedRTMPPoolElementSize
s . pool = pool . NewBuffer ( numElements , adjustedRTMPPoolElementSize , 5 * time . Second )
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s . log . Info ( "adjusted RTMP pool buffer element size" , "new size" , adjustedRTMPPoolElementSize , "num elements" , numElements , "size(MB)" , numElements * adjustedRTMPPoolElementSize )
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}
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}
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s . report ( len ( d ) )
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return len ( d ) , nil
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}
func ( s * rtmpSender ) restart ( ) error {
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s . close ( )
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var err error
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for n := 0 ; n < s . retries ; n ++ {
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s . log . Debug ( "dialing" , "dials" , n )
s . conn , err = rtmp . Dial ( s . url , s . log . Log )
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if err == nil {
break
}
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s . log . Error ( "dial error" , "error" , err )
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if n < s . retries - 1 {
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s . log . Info ( "retry rtmp connection" )
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}
}
return err
}
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func ( s * rtmpSender ) Close ( ) error {
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s . log . Debug ( "closing output routine" )
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if s . done != nil {
close ( s . done )
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}
s . wg . Wait ( )
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s . log . Info ( "output routine closed" )
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return s . close ( )
}
func ( s * rtmpSender ) close ( ) error {
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s . log . Debug ( "closing connection" )
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if s . conn == nil {
return nil
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}
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return s . conn . Close ( )
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}
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// TODO: Write restart func for rtpSender
// rtpSender implements loadSender for a native udp destination with rtp packetization.
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type rtpSender struct {
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log logging . Logger
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encoder * rtp . Encoder
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data [ ] byte
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report func ( sent int )
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}
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func newRtpSender ( addr string , log logging . Logger , fps uint , report func ( sent int ) ) ( * rtpSender , error ) {
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conn , err := net . Dial ( "udp" , addr )
if err != nil {
return nil , err
}
s := & rtpSender {
log : log ,
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encoder : rtp . NewEncoder ( conn , int ( fps ) ) ,
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report : report ,
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}
return s , nil
}
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// Write implements io.Writer.
func ( s * rtpSender ) Write ( d [ ] byte ) ( int , error ) {
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s . data = make ( [ ] byte , len ( d ) )
copy ( s . data , d )
_ , err := s . encoder . Write ( s . data )
if err != nil {
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s . log . Warning ( "rtpSender: write error" , err . Error ( ) )
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}
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s . report ( len ( d ) )
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return len ( d ) , nil
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}
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func ( s * rtpSender ) Close ( ) error { return nil }