av/container/mts/payload.go

307 lines
9.3 KiB
Go

/*
NAME
payload.go
DESCRIPTION
payload.go provides functionality for extracting and manipulating the payload
data from MPEG-TS.
AUTHOR
Saxon A. Nelson-Milton <saxon@ausocean.org>
LICENSE
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).
*/
package mts
import (
"errors"
"sort"
"github.com/Comcast/gots/packet"
"github.com/Comcast/gots/pes"
)
// Extract extracts the media, PTS, stream ID and meta for an MPEG-TS clip given
// by p, and returns as a Clip. The MPEG-TS must contain only complete packets.
// The resultant data is a copy of the original.
func Extract(p []byte) (*Clip, error) {
l := len(p)
// Check that clip is divisible by 188, i.e. contains a series of full MPEG-TS clips.
if l%PacketSize != 0 {
return nil, errors.New("MTS clip is not of valid size")
}
var (
frameStart int // Index used to indicate the start of current frame in backing slice.
clip = &Clip{} // The data that will be returned.
meta map[string]string // Holds the most recently extracted meta.
lenOfFrame int // Len of current frame.
dataLen int // Len of data from MPEG-TS packet.
curPTS uint64 // Holds the current PTS.
curStreamID uint8 // Holds current StreamID (shouldn't change)
firstPUSI = true // Indicates that we have not yet received a PUSI.
err error
)
// This will hold a copy of all the media in the MPEG-TS clip.
clip.backing = make([]byte, 0, l/PacketSize)
// Go through the MPEGT-TS packets.
var pkt packet.Packet
for i := 0; i < l; i += PacketSize {
// We will use comcast/gots Packet type, so copy in.
copy(pkt[:], p[i:i+PacketSize])
switch pkt.PID() {
case PatPid: // Do nothing.
case PmtPid:
meta, err = ExtractMeta(pkt[:])
if err != nil {
return nil, err
}
default: // Must be media.
// Get the MPEG-TS payload.
payload, err := pkt.Payload()
if err != nil {
return nil, err
}
// If PUSI is true then we know it's the start of a new frame, and we have
// a PES header in the MTS payload.
if pkt.PayloadUnitStartIndicator() {
_pes, err := pes.NewPESHeader(payload)
if err != nil {
return nil, err
}
// Extract the PTS and ID, then add a new frame to the clip.
curPTS = _pes.PTS()
curStreamID = _pes.StreamId()
clip.frames = append(clip.frames, Frame{
PTS: curPTS,
ID: curStreamID,
Meta: meta,
})
// Append the data to the underlying buffer and get appended length.
clip.backing = append(clip.backing, _pes.Data()...)
dataLen = len(_pes.Data())
// If we haven't hit the first PUSI, then we know we have a full frame
// and can add this data to the frame pertaining to the finish frame.
if !firstPUSI {
clip.frames[len(clip.frames)-2].Media = clip.backing[frameStart:lenOfFrame]
clip.frames[len(clip.frames)-2].idx = frameStart
frameStart = lenOfFrame
}
firstPUSI = false
} else {
// We're not at the start of the frame, so we don't have a PES header.
// We can append the MPEG-TS data directly to the underlying buf.
dataLen = len(payload)
clip.backing = append(clip.backing, payload...)
}
lenOfFrame += dataLen
}
}
// We're finished up with media frames, so give the final Frame it's data.
clip.frames[len(clip.frames)-1].Media = clip.backing[frameStart:lenOfFrame]
clip.frames[len(clip.frames)-1].idx = frameStart
return clip, nil
}
// Clip represents a clip of media, i.e. a sequence of media frames.
type Clip struct {
frames []Frame
backing []byte
}
// Frame describes a media frame that may be extracted from a PES packet.
type Frame struct {
Media []byte // Contains the media from the frame.
PTS uint64 // PTS from PES packet (this gives time relative from start of stream).
ID uint8 // StreamID from the PES packet, identifying media codec.
Meta map[string]string // Contains metadata from PMT relevant to this frame.
idx int // Index in the backing slice.
}
// Bytes returns the concatentated media bytes from each frame in the Clip c.
func (c *Clip) Bytes() []byte {
if c.backing == nil {
panic("the clip backing array cannot be nil")
}
return c.backing
}
// Errors used in BytesForPTSInterval.
var (
errPTSLowerBound = errors.New("PTS 'from' cannot be found")
errPTSUpperBound = errors.New("PTS 'to' cannot be found")
errPTSRange = errors.New("PTS interval invalid")
)
// TrimToPTSRange returns the sub Clip in PTS range defined by from and to.
// The first Frame in the new Clip will be the Frame for which from corresponds
// exactly with Frame.PTS, or the Frame in which from lies within. The final
// Frame in the Clip will be the previous of that for which to coincides with,
// or the Frame that to lies within.
func (c *Clip) TrimToPTSRange(from, to uint64) (*Clip, error) {
// First check that the interval makes sense.
if from >= to {
return nil, errPTSRange
}
// Use binary search to find 'from'.
n := len(c.frames) - 1
startFrameIdx := sort.Search(
n,
func(i int) bool {
if from < c.frames[i+1].PTS {
return true
}
return false
},
)
if startFrameIdx == n {
return nil, errPTSLowerBound
}
// Now get the start index for the backing slice from this Frame.
startBackingIdx := c.frames[startFrameIdx].idx
// Now use binary search again to find 'to'.
off := startFrameIdx + 1
n = n - (off)
endFrameIdx := sort.Search(
n,
func(i int) bool {
if to <= c.frames[i+off].PTS {
return true
}
return false
},
)
if endFrameIdx == n {
return nil, errPTSUpperBound
}
// Now get the end index for the backing slice from this Frame.
endBackingIdx := c.frames[endFrameIdx+off-1].idx
// Now return a new clip. NB: data is not copied.
return &Clip{
frames: c.frames[startFrameIdx : endFrameIdx+1],
backing: c.backing[startBackingIdx : endBackingIdx+len(c.frames[endFrameIdx+off].Media)],
}, nil
}
// Errors that maybe returned from BytesForMetaInterval.
var (
errMetaRange = errors.New("invalid meta range")
errMetaLowerBound = errors.New("meta 'from' cannot be found")
errMetaUpperBound = errors.New("meta 'to' cannot be found")
)
// TrimToMetaRange returns a sub Clip with meta range described by from and to
// with key 'key'. The meta values must not be equivalent.
func (c *Clip) TrimToMetaRange(key, from, to string) (*Clip, error) {
// First check that the interval makes sense.
if from == to {
return nil, errMetaRange
}
var start, end int
// Try and find from.
for i := 0; i < len(c.frames); i++ {
f := c.frames[i]
startFrameIdx := i
if f.Meta[key] == from {
start = f.idx
// Now try and find to.
for ; i < len(c.frames); i++ {
f = c.frames[i]
if f.Meta[key] == to {
end = f.idx
endFrameIdx := i
return &Clip{
frames: c.frames[startFrameIdx : endFrameIdx+1],
backing: c.backing[start : end+len(f.Media)],
}, nil
}
}
return nil, errMetaUpperBound
}
}
return nil, errMetaLowerBound
}
// SegmentForMeta segments sequences of frames within c possesing meta described
// by key and val and are appended to a []Clip which is subsequently returned.
func (c *Clip) SegmentForMeta(key, val string) []Clip {
var (
segmenting bool // If true we are currently in a segment corresponsing to given meta.
res []Clip // The resultant [][]Clip holding the segments.
start int // The start index of the current segment.
)
// Go through frames of clip.
for i, frame := range c.frames {
// If there is no meta (meta = nil) and we are segmenting, then append the
// current segment to res.
if frame.Meta == nil {
if segmenting {
res = appendSegment(res, c, start, i)
segmenting = false
}
continue
}
// If we've got the meta of interest in current frame and we're not
// segmenting, set this i as start and set segmenting true. If we don't
// have the meta of interest and we are segmenting then we
// want to stop and append the segment to res.
if frame.Meta[key] == val && !segmenting {
start = i
segmenting = true
} else if frame.Meta[key] != val && segmenting {
res = appendSegment(res, c, start, i)
segmenting = false
}
}
// We've reached the end of the entire clip so if we're segmenting we need
// to append current segment to res.
if segmenting {
res = appendSegment(res, c, start, len(c.frames))
}
return res
}
// appendSegment is a helper function used by Clip.SegmentForMeta to append a
// clip to a []Clip.
func appendSegment(segs []Clip, c *Clip, start, end int) []Clip {
return append(segs, Clip{
frames: c.frames[start:end],
backing: c.backing[c.frames[start].idx : c.frames[end-1].idx+len(c.frames[end-1].Media)],
},
)
}