ref: 0ec8eb7fc4df54a579d17ebb46b2a226928d062b
dir: /iso.c/
#include <u.h>
#include <libc.h>
#include <bio.h>
#define MIN(a,b) ((a)<=(b)?(a):(b))
typedef struct Audio Audio;
typedef struct Box Box;
typedef struct Moof Moof;
typedef struct ParamSet ParamSet;
typedef struct RunSample RunSample;
typedef struct SampleEntry SampleEntry;
typedef struct SampleToChunk SampleToChunk;
typedef struct TimeToSample TimeToSample;
typedef struct Track Track;
typedef struct Video Video;
struct Audio {
u32int format;
int channels;
int bps;
int samplerate;
};
struct ParamSet {
int len;
u8int *data;
};
struct Video {
u32int format;
int width;
int height;
u32int hres;
u32int vres;
int framecount;
char compressor[32];
struct {
u8int profile;
u8int compat;
u8int level;
u8int nallen; /* in bytes (1, 2, 4), ie with 1 already added to it */
int nsps;
ParamSet *sps;
int npps;
ParamSet *pps;
}avc;
};
struct SampleEntry {
u32int format;
u16int datarefid;
Video video;
Audio audio;
};
struct Box {
vlong dsz;
vlong offset;
vlong dstart;
char extended[16];
u32int type;
/* full box */
u8int version;
u32int flags;
union {
struct {
u32int brand;
u32int version;
u32int *compat;
int ncompat;
}ftyp;
struct {
u64int creation;
u64int modification;
u64int duration;
u32int timescale;
}mdhd;
struct {
u64int creation;
u64int modification;
u64int duration;
u32int timescale;
u32int rate;
u32int matrix[9];
u32int nexttrack;
u16int volume;
}mvhd;
struct {
u32int trackid;
struct {
u32int descrindex;
u32int duration;
u32int size;
u32int flags;
}defsample;
}trex;
struct {
u32int seqnumber;
}mfhd;
struct {
u64int decodetime;
}tfdt;
struct {
u32int trackid;
u64int baseoffset;
struct {
u32int descrindex;
u32int duration;
u32int size;
u32int flags;
}defsample;
}tfhd;
struct {
u32int samplecount;
s32int dataoffset;
u32int firstsampleflags;
RunSample *samples;
}trun;
struct {
u16int id;
u32int entrycount;
SampleEntry *entry;
}stsd;
struct {
u32int entrycount;
TimeToSample *entry;
}stts;
struct {
u32int entrycount;
/* FIXME entries */
}stss;
struct {
u32int entrycount;
SampleToChunk *entry;
}stsc;
struct {
u32int entrycount;
u64int *chunkoffset;
}stco_co64;
struct {
u32int samplesizeeach;
u32int samplecount;
u32int *samplesize;
}stsz; /* FIXME need stz2 as well */
struct {
u64int creattime;
u64int modtime;
u32int trackid;
u64int duration;
u32int width;
u32int height;
}tkhd;
struct {
u32int handlertype;
char *name;
}hdlr;
};
};
struct RunSample {
u32int duration;
u32int size;
u32int flags;
vlong timeoffset;
vlong offset;
};
struct SampleToChunk {
u32int firstchunk;
u32int samplesperchunk;
u32int sdt;
};
struct TimeToSample {
u32int samplecount;
u32int sampledelta;
};
enum {
HandlerVideo = 0x76696465u,
HandlerAudio = 0x736f756eu,
FmtMp4a = 0x6d703461u,
FmtAv01 = 0x61763031u,
FmtAvc1 = 0x61766331u,
FmtVp09 = 0x76703039u,
BoxUuid = 0x75756964u,
BoxFtyp = 0x66747970u,
BoxMoov = 0x6d6f6f76u,
BoxUdta = 0x75647461u,
BoxMvhd = 0x6d766864u,
BoxMvex = 0x6d766578u,
BoxTrex = 0x74726578u,
BoxTrak = 0x7472616bu,
BoxEdts = 0x65647473u,
BoxElst = 0x656c7374u,
BoxTkhd = 0x746b6864u,
BoxMdia = 0x6d646961u,
BoxMdhd = 0x6d646864u,
BoxHdlr = 0x68646c72u,
BoxMinf = 0x6d696e66u,
BoxDinf = 0x64696e66u,
BoxStbl = 0x7374626cu,
BoxCtts = 0x63747473u,
BoxStsd = 0x73747364u,
BoxAvcc = 0x61766343u,
BoxEsds = 0x65736473u,
BoxStts = 0x73747473u,
BoxStsc = 0x73747363u,
BoxStco = 0x7374636fu,
BoxCo64 = 0x636f3634u,
BoxStsz = 0x7374737au,
BoxStss = 0x73747373u,
BoxVmhd = 0x766d6864u,
BoxSidx = 0x73696478u,
BoxMoof = 0x6d6f6f66u,
BoxMfhd = 0x6d666864u,
BoxTraf = 0x74726166u,
BoxTfdt = 0x74666474u,
BoxTfhd = 0x74666864u,
BoxTrun = 0x7472756eu,
BoxMdat = 0x6d646174u,
};
#define bu16(x) ((x)[0]<<8 | (x)[1])
#define bu32(x) ((x)[0]<<24 | (x)[1]<<16 | (x)[2]<<8 | (x)[3])
#define bu64(x) ((u64int)(x)[0]<<56 | (u64int)(x)[1]<<48 | (u64int)(x)[2]<<40 | (u64int)(x)[3]<<32 | (x)[4]<<24 | (x)[5]<<16 | (x)[6]<<8 | (x)[7])
#define isfullbox(b) ( \
b->type == BoxMvhd || b->type == BoxTrex || b->type == BoxMdhd || b->type == BoxHdlr || \
b->type == BoxMfhd || b->type == BoxTfhd || b->type == BoxTfdt || b->type == BoxTrun || \
b->type == BoxStsd || b->type == BoxStts || b->type == BoxStss || b->type == BoxTkhd || \
b->type == BoxElst || b->type == BoxStsc || b->type == BoxStco || b->type == BoxCo64 || \
b->type == BoxStsz || b->type == BoxCtts || b->type == BoxEsds \
)
#define eBread(sz, e) if(Bread(f, d, (sz)) != (sz)){ werrstr(e); goto err; }
struct Moof {
Box;
Box mfhd;
Box tfhd;
Box trun;
};
struct Track {
u32int handlertype;
u32int timescale;
u64int *chunkoffset;
u32int numchunks;
u32int samplesizeeach;
u32int *samplesize;
u32int numsamples;
SampleToChunk *stc;
u32int numstc;
TimeToSample *tts;
u32int numtts;
Moof *moof;
int nmoof;
Audio audio;
Video video;
int id;
};
static int dflag;
static int dind;
static u32int defsamplesize;
static Track track;
static Track *tracks;
static int ntracks;
static Biobuf stderr;
static Moof moof;
static SampleEntry *sampleentry;
static char ind[16] = "\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t";
static int parsebox(Biobuf *f, Box *b, int *eof);
#pragma varargck type "T" u32int
static int
typefmt(Fmt *f)
{
char t[5];
int x;
x = va_arg(f->args, int);
t[0] = x>>24;
t[1] = x>>16;
t[2] = x>>8;
t[3] = x;
t[4] = 0;
return fmtstrcpy(f, t);
}
static u32int
tts(Track *t, u32int s)
{
u32int dt, n, e;
dt = 0;
for(e = 0; e < t->numtts && s > 0; e++){
n = MIN(t->tts[e].samplecount, s);
dt += t->tts[e].sampledelta * n;
s -= n;
}
return dt;
}
static void
printbox(Box *b)
{
int i;
uvlong u;
if(dflag == 0)
return;
Bprint(&stderr, "%.*s%T\n", dind, ind, b->type);
/* full box */
if(isfullbox(b)){
Bprint(&stderr, "\t%.*sversion\t%d\n", dind, ind, b->version);
Bprint(&stderr, "\t%.*sflags\t0x%ux\n", dind, ind, b->flags);
}
if(dflag > 1){
Bprint(&stderr, "\t%.*soffset\t%zd\n", dind, ind, b->offset);
Bprint(&stderr, "\t%.*sdstart\t%zd\n", dind, ind, b->dstart);
Bprint(&stderr, "\t%.*sdsize\t%zd\n", dind, ind, b->dsz);
}
if(b->type == BoxFtyp){
Bprint(&stderr, "\t%.*sbrand\t%T\n", dind, ind, b->ftyp.brand);
Bprint(&stderr, "\t%.*sversion\t%d\n", dind, ind, b->ftyp.version);
Bprint(&stderr, "\t%.*scompat", dind, ind);
for(i = 0; i < b->ftyp.ncompat; i++)
Bprint(&stderr, "\t%.*s%T", dind, ind, b->ftyp.compat[i]);
Bprint(&stderr, "\n");
}else if(b->type == BoxMdhd){
Bprint(&stderr, "\t%.*screation\t%zd\n", dind, ind, b->mdhd.creation);
Bprint(&stderr, "\t%.*smodification\t%zd\n", dind, ind, b->mdhd.modification);
Bprint(&stderr, "\t%.*stimescale\t%ud\n", dind, ind, b->mdhd.timescale);
Bprint(&stderr, "\t%.*sduration\t%zd\n", dind, ind, b->mdhd.duration);
}else if(b->type == BoxMvhd){
Bprint(&stderr, "\t%.*screation\t%zd\n", dind, ind, b->mvhd.creation);
Bprint(&stderr, "\t%.*smodification\t%zd\n", dind, ind, b->mvhd.modification);
Bprint(&stderr, "\t%.*stimescale\t%ud\n", dind, ind, b->mvhd.timescale);
Bprint(&stderr, "\t%.*sduration\t%zd\n", dind, ind, b->mvhd.duration);
Bprint(&stderr, "\t%.*srate\t0x%ux\n", dind, ind, b->mvhd.rate);
Bprint(&stderr, "\t%.*svolume\t0x%ux\n", dind, ind, b->mvhd.volume);
Bprint(&stderr, "\t%.*snexttrack\t0x%ux\n", dind, ind, b->mvhd.nexttrack);
Bprint(&stderr, "\t%.*smatrix\t0x%ux 0x%ux 0x%ux 0x%ux 0x%ux 0x%ux 0x%ux 0x%ux 0x%ux\n", dind, ind,
b->mvhd.matrix[0],
b->mvhd.matrix[1],
b->mvhd.matrix[2],
b->mvhd.matrix[3],
b->mvhd.matrix[4],
b->mvhd.matrix[5],
b->mvhd.matrix[6],
b->mvhd.matrix[7],
b->mvhd.matrix[8]
);
}else if(b->type == BoxTrex){
Bprint(&stderr, "\t%.*strackid\t0x%ux\n", dind, ind, b->trex.trackid);
Bprint(&stderr, "\t%.*sdefsample\n", dind, ind);
Bprint(&stderr, "\t\t%.*sdescrindex\t0x%ux\n", dind, ind, b->trex.defsample.descrindex);
Bprint(&stderr, "\t\t%.*sduration\t%ud\n", dind, ind, b->trex.defsample.duration);
Bprint(&stderr, "\t\t%.*ssize\t0x%ux\n", dind, ind, b->trex.defsample.size);
Bprint(&stderr, "\t\t%.*sflags\t0x%ux\n", dind, ind, b->trex.defsample.flags);
}else if(b->type == BoxMfhd){
Bprint(&stderr, "\t%.*sseqnumber\t%ud\n", dind, ind, b->mfhd.seqnumber);
}else if(b->type == BoxTfhd){
Bprint(&stderr, "\t%.*strackid\t%d\n", dind, ind, b->tfhd.trackid);
if(b->flags & 1)
Bprint(&stderr, "\t%.*sbaseoffset\t%zd\n", dind, ind, b->tfhd.baseoffset);
Bprint(&stderr, "\t%.*sdefsample\n", dind, ind);
if(b->flags & 2)
Bprint(&stderr, "\t\t%.*sdescrindex\t0x%ux\n", dind, ind, b->tfhd.defsample.descrindex);
if(b->flags & 8)
Bprint(&stderr, "\t\t%.*sduration\t%ud\n", dind, ind, b->tfhd.defsample.duration);
if(b->flags & 16)
Bprint(&stderr, "\t\t%.*ssize\t0x%ux\n", dind, ind, b->tfhd.defsample.size);
if(b->flags & 32)
Bprint(&stderr, "\t\t%.*sflags\t0x%ux\n", dind, ind, b->tfhd.defsample.flags);
if(b->flags & 0x10000)
Bprint(&stderr, "\t%.*sduration is empty\n", dind, ind);
if(b->flags & 0x20000)
Bprint(&stderr, "\t%.*sdefault base is moof\n", dind, ind);
}else if(b->type == BoxTfdt){
Bprint(&stderr, "\t%.*sdecodetime\t%zd\n", dind, ind, b->tfdt.decodetime);
}else if(b->type == BoxTrun){
Bprint(&stderr, "\t%.*ssamplecount\t%ud\n", dind, ind, b->trun.samplecount);
if(b->flags & 1)
Bprint(&stderr, "\t%.*sdataoffset\t%d\n", dind, ind, b->trun.dataoffset);
if(b->flags & 2)
Bprint(&stderr, "\t%.*sfirstsampleflags\t0x%ux\n", dind, ind, b->trun.firstsampleflags);
for(u = 0; dflag > 1 && u < b->trun.samplecount; u++){
Bprint(&stderr, "\t%.*ssamples[%zd]\n", dind, ind, u);
Bprint(&stderr, "\t\t%.*sduration\t%ud\n", dind, ind, b->trun.samples[u].duration);
Bprint(&stderr, "\t\t%.*ssize\t%ud\n", dind, ind, b->trun.samples[u].size);
Bprint(&stderr, "\t\t%.*sflags\t0x%ux\n", dind, ind, b->trun.samples[u].flags);
if(b->flags & 0x800)
Bprint(&stderr, "\t\t%.*stimeoffset\t%zd\n", dind, ind, b->trun.samples[u].timeoffset);
}
}else if(b->type == BoxStsd){
Bprint(&stderr, "\t%.*sid\t%d\n", dind, ind, b->stsd.id);
Bprint(&stderr, "\t%.*sentry_count\t%ud\n", dind, ind, b->stsd.entrycount);
for(u = 0; u < b->stsd.entrycount; u++){
Bprint(&stderr, "\t%.*sentry[%zd]\n", dind, ind, u);
Bprint(&stderr, "\t\t%.*sdatarefid\t%d\n", dind, ind, b->stsd.entry[u].datarefid);
Bprint(&stderr, "\t\t%.*sformat\t%T\n", dind, ind, b->stsd.entry[u].format);
if(b->stsd.entry[u].video.format != 0){
Bprint(&stderr, "\t\t\t%.*swidth\t%d\n", dind, ind, b->stsd.entry[u].video.width);
Bprint(&stderr, "\t\t\t%.*sheight\t%d\n", dind, ind, b->stsd.entry[u].video.height);
Bprint(&stderr, "\t\t\t%.*shres\t%d\n", dind, ind, b->stsd.entry[u].video.hres);
Bprint(&stderr, "\t\t\t%.*svres\t%d\n", dind, ind, b->stsd.entry[u].video.vres);
Bprint(&stderr, "\t\t\t%.*sframecount\t%d\n", dind, ind, b->stsd.entry[u].video.framecount);
Bprint(&stderr, "\t\t\t%.*scompressor\t%.*s\n", dind, ind, 32, b->stsd.entry[u].video.compressor);
if(b->stsd.entry[u].video.format == FmtAvc1){
Bprint(&stderr, "\t\t\t%.*sprofile\t%d\n", dind, ind, b->stsd.entry[u].video.avc.profile);
Bprint(&stderr, "\t\t\t%.*scompat\t%d\n", dind, ind, b->stsd.entry[u].video.avc.compat);
Bprint(&stderr, "\t\t\t%.*slevel\t%d\n", dind, ind, b->stsd.entry[u].video.avc.level);
Bprint(&stderr, "\t\t\t%.*snallen\t%d\n", dind, ind, b->stsd.entry[u].video.avc.nallen);
Bprint(&stderr, "\t\t\t%.*snsps\t%d\n", dind, ind, b->stsd.entry[u].video.avc.nsps);
for(i = 0; i < b->stsd.entry[u].video.avc.nsps; i++){
Bprint(&stderr, "\t\t\t\t%.*ssps[%d]\n", dind, ind, i);
Bprint(&stderr, "\t\t\t\t\t%.*slen\t%d\n", dind, ind, b->stsd.entry[u].video.avc.sps[i].len);
Bprint(&stderr, "\t\t\t\t\t%.*sdata\t%.*H\n", dind, ind, b->stsd.entry[u].video.avc.sps[i].len, b->stsd.entry[u].video.avc.sps[i].data);
}
Bprint(&stderr, "\t\t\t%.*snpps\t%d\n", dind, ind, b->stsd.entry[u].video.avc.npps);
for(i = 0; i < b->stsd.entry[u].video.avc.npps; i++){
Bprint(&stderr, "\t\t\t\t%.*spps[%d]\n", dind, ind, i);
Bprint(&stderr, "\t\t\t\t\t%.*slen\t%d\n", dind, ind, b->stsd.entry[u].video.avc.pps[i].len);
Bprint(&stderr, "\t\t\t\t\t%.*sdata\t%.*H\n", dind, ind, b->stsd.entry[u].video.avc.pps[i].len, b->stsd.entry[u].video.avc.pps[i].data);
}
}
}
if(b->stsd.entry[u].audio.format != 0){
Bprint(&stderr, "\t\t\t%.*schannels\t%d\n", dind, ind, b->stsd.entry[u].audio.channels);
Bprint(&stderr, "\t\t\t%.*sbps\t%d\n", dind, ind, b->stsd.entry[u].audio.bps);
Bprint(&stderr, "\t\t\t%.*ssample_rate\t%d\n", dind, ind, b->stsd.entry[u].audio.samplerate);
}
}
}else if(b->type == BoxStts){
Bprint(&stderr, "\t%.*sentry_count\t%ud\n", dind, ind, b->stts.entrycount);
for(u = 0; dflag > 1 && u < b->stts.entrycount; u++){
Bprint(&stderr, "\t%.*sentry[%zd]\n", dind, ind, u);
Bprint(&stderr, "\t\t%.*ssample_count\t%ud\n", dind, ind, b->stts.entry[u].samplecount);
Bprint(&stderr, "\t\t%.*ssamples_delta\t%ud\n", dind, ind, b->stts.entry[u].sampledelta);
}
}else if(b->type == BoxStss){
Bprint(&stderr, "\t%.*sentry_count\t%ud\n", dind, ind, b->stss.entrycount);
}else if(b->type == BoxStsc){
Bprint(&stderr, "\t%.*sentry_count\t%ud\n", dind, ind, b->stss.entrycount);
for(u = 0; dflag > 1 && u < b->stsc.entrycount; u++){
Bprint(&stderr, "\t%.*sentry[%zd]\n", dind, ind, u);
Bprint(&stderr, "\t\t%.*sfirst_chunk\t%ud\n", dind, ind, b->stsc.entry[u].firstchunk);
Bprint(&stderr, "\t\t%.*ssamples_per_chunk\t%ud\n", dind, ind, b->stsc.entry[u].samplesperchunk);
Bprint(&stderr, "\t\t%.*ssample_description_table\t%ud\n", dind, ind, b->stsc.entry[u].sdt);
}
}else if(b->type == BoxStsz){
Bprint(&stderr, "\t%.*ssample_size\t%ud\n", dind, ind, b->stsz.samplesizeeach);
Bprint(&stderr, "\t%.*ssample_count\t%ud\n", dind, ind, b->stsz.samplecount);
if(dflag > 1 && b->stsz.samplesizeeach == 0){
for(u = 0; u < b->stsz.samplecount; u++)
Bprint(&stderr, "\t%.*ssamplesize[%zd]\t%ud\n", dind, ind, u, b->stsz.samplesize[u]);
}
}else if(b->type == BoxTkhd){
Bprint(&stderr, "\t%.*screation_time\t%zd\n", dind, ind, b->tkhd.creattime);
Bprint(&stderr, "\t%.*smodification_time\t%zd\n", dind, ind, b->tkhd.modtime);
Bprint(&stderr, "\t%.*strack_id\t%ud\n", dind, ind, b->tkhd.trackid);
Bprint(&stderr, "\t%.*sduration\t%zd\n", dind, ind, b->tkhd.duration);
Bprint(&stderr, "\t%.*swidth\t%ud\n", dind, ind, b->tkhd.width);
Bprint(&stderr, "\t%.*sheight\t%ud\n", dind, ind, b->tkhd.height);
}else if(b->type == BoxHdlr){
Bprint(&stderr, "\t%.*shandler_type\t%T\n", dind, ind, b->hdlr.handlertype);
Bprint(&stderr, "\t%.*sname\t%s\n", dind, ind, b->hdlr.name);
}else if(b->type == BoxStco || b->type == BoxCo64){
Bprint(&stderr, "\t%.*sentry_count\t%ud\n", dind, ind, b->stss.entrycount);
for(u = 0; dflag > 1 && u < b->stco_co64.entrycount; u++)
Bprint(&stderr, "\t%.*schunkoffset[%zd]\t%zd\n", dind, ind, u, b->stco_co64.chunkoffset[u]);
}
}
static void
addtrack(void)
{
tracks = realloc(tracks, (ntracks+1)*sizeof(*tracks));
memmove(&tracks[ntracks++], &track, sizeof(track));
}
static Track *
gettrack(int id)
{
Track *t;
int i;
for(t = tracks, i = 0; i < ntracks && t->id != id; i++, t++);
if(i >= ntracks){
werrstr("no track %d", id);
t = nil;
}
return t;
}
static void
addtrun(Box *trun)
{
Track *t;
Moof *m;
if((t = gettrack(moof.tfhd.tfhd.trackid)) == nil)
sysfatal("trun without a track");
t->moof = realloc(t->moof, (t->nmoof+1)*sizeof(Moof));
m = &t->moof[t->nmoof++];
memmove(&moof.trun, trun, sizeof(moof.trun));
memmove(m, &moof, sizeof(moof));
}
static int srate2mpeg4fi[] = {
96000,
88200,
64000,
48000,
44100,
32000,
24000,
22050,
16000,
12000,
11025,
8000,
7350,
};
static int
dumpstc(Biobuf *f, Biobuf *out, Track *t, u8int *frame)
{
SampleToChunk *stc;
u32int si, ch, nextch, n, len;
u32int samplelast, sample, rawsz, samplesz;
u64int ts;
u8int *raw;
raw = nil;
rawsz = 0;
sample = samplelast = 0;
stc = t->stc;
ch = 0;
for(si = 0; si < t->numstc; si++, stc++){
nextch = t->numchunks;
if(si+1 < t->numstc)
nextch = stc[1].firstchunk - 1;
for(; ch < nextch; ch++){
if(Bseek(f, t->chunkoffset[ch], 0) != t->chunkoffset[ch]){
werrstr("chunk %ud: %r", ch);
return -1;
}
for(; sample < samplelast+stc->samplesperchunk && sample < t->numsamples; sample++){
if((samplesz = t->samplesizeeach) == 0)
samplesz = t->samplesize[sample];
if(samplesz == 0)
break;
if(rawsz < samplesz){
rawsz = samplesz * 2;
raw = realloc(raw, rawsz);
}
if(Bread(f, raw, samplesz) != samplesz){
werrstr("chunk %ud sample %ud size %ud: %r", ch, sample, samplesz);
return -1;
}
if(t->audio.format == FmtMp4a){
samplesz += 7;
frame[3] = (t->audio.channels&3)<<6 | (samplesz>>11)&3; /* channels, frame length */
frame[4] = (samplesz>>3); /* frame length */
frame[5] = (samplesz&7)<<5 | 0x1f; /* frame length, fullness */
frame[6] = 0xfc; /* fullness, number of frames */
samplesz -= 7;
if(Bwrite(out, frame, 7) != 7){ /* EOF */
werrstr("eof");
break;
}
}else if(t->video.format != 0){ /* all video goes out as IVF */
ts = tts(t, sample);
frame[0] = samplesz;
frame[1] = samplesz >> 8;
frame[2] = samplesz >> 16;
frame[3] = samplesz >> 24;
frame[4] = ts;
frame[5] = ts >> 8;
frame[6] = ts >> 16;
frame[7] = ts >> 24;
frame[8] = ts >> 32;
frame[9] = ts >> 40;
frame[10] = ts >> 48;
frame[11] = ts >> 56;
if(Bwrite(out, frame, 12) != 12){ /* EOF */
werrstr("eof");
break;
}
}
if(t->video.format == FmtAvc1){
for(n = 0; n < samplesz; n += len+4){
len = raw[n+0]<<24 | raw[n+1]<<16 | raw[n+2]<<8 | raw[n+3];
raw[n+0] = 0;
raw[n+1] = 0;
raw[n+2] = 0;
raw[n+3] = 1;
}
}
if(Bwrite(out, raw, samplesz) != samplesz){ /* EOF? */
werrstr("eof");
break;
}
}
samplelast = sample;
}
}
free(raw);
return 0;
}
static int
dumptrun(Biobuf *f, Biobuf *out, Track *t, u8int *frame)
{
int i, j, len, n;
u64int ts;
u8int *raw;
int maxsz, sz;
RunSample *s;
Moof *m;
USED(frame);
ts = 0;
maxsz = 0;
raw = nil;
for(i = 0, m = t->moof; i < t->nmoof; i++, m++){
for(j = 0; j < m->trun.trun.samplecount; j++){
s = &m->trun.trun.samples[j];
if(12 + s->size > maxsz){
maxsz = 12 + s->size;
raw = realloc(raw, maxsz);
}
if(t->audio.format == FmtMp4a){
sz = 7 + s->size;
raw[0] = frame[0];
raw[1] = frame[1];
raw[2] = frame[2];
raw[3] = (t->audio.channels&3)<<6 | (sz>>11)&3; /* channels, frame length */
raw[4] = (sz>>3); /* frame length */
raw[5] = (sz&7)<<5 | 0x1f; /* frame length, fullness */
raw[6] = 0xfc; /* fullness, number of frames */
if(Bseek(f, s->offset, 0) != s->offset){
werrstr("couldn't seek to offset %zd", s->offset);
return -1;
}
if(Bread(f, raw+7, s->size) != s->size){
werrstr("couldn't read sample (%d bytes)", s->size);
return -1;
}
if(Bwrite(out, raw, 7 + s->size) != 7 + s->size) /* eof? */
break;
}else if(t->video.format != 0){
raw[0] = s->size;
raw[1] = s->size >> 8;
raw[2] = s->size >> 16;
raw[3] = s->size >> 24;
raw[4] = ts;
raw[5] = ts >> 8;
raw[6] = ts >> 16;
raw[7] = ts >> 24;
raw[8] = ts >> 32;
raw[9] = ts >> 40;
raw[10] = ts >> 48;
raw[11] = ts >> 56;
if(Bseek(f, s->offset, 0) != s->offset){
werrstr("couldn't seek to offset %zd", s->offset);
return -1;
}
if(Bread(f, raw+12, s->size) != s->size){
werrstr("couldn't read sample (%d bytes)", s->size);
return -1;
}
if(t->video.format == FmtAvc1){
for(n = 12; n < 12+s->size; n += len+4){
len = raw[n+0]<<24 | raw[n+1]<<16 | raw[n+2]<<8 | raw[n+3];
raw[n+0] = 0;
raw[n+1] = 0;
raw[n+2] = 0;
raw[n+3] = 1;
}
}
if(Bwrite(out, raw, 12 + s->size) != 12 + s->size) /* eof? */
break;
ts += s->duration; /* sample's "time offset" is ignored here */
}else{
sysfatal("don't know how to dump this one");
}
}
}
return 0;
}
static int
dumptrack(Biobuf *f, int id)
{
int i, j, x, res;
Biobuf out;
u64int dur;
Track *t;
Moof *m;
u8int frame[0x20];
if((t = gettrack(id)) == nil)
return -1;
if(dflag)
Bprint(&stderr, "track %d: handler=%T ", t->id, t->handlertype);
if(t->numstc > 0){
if(dflag)
Bprint(&stderr, "numstc=%ud chunks=%ud samples=%ud\n", t->numstc, t->numchunks, t->numsamples);
}else if(t->nmoof > 0){
if(dflag)
Bprint(&stderr, "numtrun: %d\n", t->nmoof);
}else{
if(dflag)
Bprint(&stderr, "no samples\n");
werrstr("track %d has no samples", t->id);
return -1;
}
Binit(&out, 1, OWRITE);
if(t->audio.format != 0){
if(t->audio.format == FmtMp4a){
for(i = 0; i < nelem(srate2mpeg4fi) && srate2mpeg4fi[i] != t->audio.samplerate; i++);
if(i >= nelem(srate2mpeg4fi)){
werrstr("audio: mpeg4: invalid sample rate %d", t->audio.samplerate);
return -1;
}
frame[0] = 0xff; /* syncword */
frame[1] = 0xf1; /* syncword, mpeg4, no crc */
frame[2] = 1<<6 | i<<2 | t->audio.channels>>2; /* AAC(LC)??? FIXME, frequency index, channels */
}else{
werrstr("audio: unknown format %T\n", t->audio.format);
return -1;
}
}else if(t->video.format != 0){
/* video is remuxed into IVF */
memset(frame, 0, 0x20);
memmove(frame, "DKIF", 4);
frame[4] = 0;
frame[5] = 0;
frame[6] = 0x20;
frame[7] = 0;
if(t->video.format == FmtAv01){
memmove(frame+8, "AV01", 4);
}else if(t->video.format == FmtAvc1){
memmove(frame+8, "AVC1", 4);
}else if(t->video.format == FmtVp09){
memmove(frame+8, "VP90", 4);
}else{
werrstr("video: unsupported video format %T", t->video.format);
return -1;
}
frame[12] = t->video.width;
frame[13] = t->video.width >> 8;
frame[14] = t->video.height;
frame[15] = t->video.height >> 8;
/* timebase denum */
frame[16] = t->timescale;
frame[17] = t->timescale >> 8;
frame[18] = t->timescale >> 16;
frame[19] = t->timescale >> 24;
/* timebase num */
frame[20] = 1;
frame[21] = 0;
frame[22] = 0;
frame[23] = 0;
/* FIXME is it a "number of frames" or "total duration?" */
dur = 0;
for(i = 0, m = t->moof; i < t->nmoof; i++, m++){
for(j = 0; j < m->trun.trun.samplecount; j++){
dur += m->trun.trun.samples[j].duration;
}
}
frame[24] = dur;
frame[25] = dur >> 8;
frame[26] = dur >> 16;
frame[27] = dur >> 24;
frame[28] = dur >> 32; /* FIXME is it 64 bits? */
frame[29] = dur >> 40;
frame[30] = dur >> 48;
frame[31] = dur >> 56;
Bwrite(&out, frame, 0x20);
if(t->video.format == FmtAvc1){
if(t->video.avc.nallen != 4){
werrstr("avc1 nallen != 4 isn't supported yet");
return -1;
}
memset(frame, 0, 4+8+4);
frame[4+8+3] = 1;
for(i = 0; i < t->video.avc.nsps; i++){
x = 4 + t->video.avc.sps[i].len;
frame[0] = x;
frame[1] = x >> 8;
frame[2] = x >> 16;
frame[3] = x >> 24;
Bwrite(&out, frame, 4+8+4);
Bwrite(&out, t->video.avc.sps[i].data, t->video.avc.sps[i].len);
}
for(i = 0; i < t->video.avc.npps; i++){
x = 4 + t->video.avc.pps[i].len;
frame[0] = x;
frame[1] = x >> 8;
frame[2] = x >> 16;
frame[3] = x >> 24;
Bwrite(&out, frame, 4+8+4);
Bwrite(&out, t->video.avc.pps[i].data, t->video.avc.pps[i].len);
}
}
}
res = -1;
if(t->numstc > 0)
res = dumpstc(f, &out, t, frame);
else if(t->nmoof > 0)
res = dumptrun(f, &out, t, frame);
Bterm(&out);
return res;
};
int
parsesampleentry(Biobuf *f, SampleEntry *e, int n)
{
u8int d[96];
int sz, eof;
vlong off;
Box b;
if(track.handlertype == HandlerVideo){
e->video.format = e->format;
/* predefined+reserved+predefined, width+height, hres+vres, reserved, framecount, compressor, depth, predefined */
sz = 2+2+4*3 + 2+2 + 4+4 + 4 + 2 + 32 + 2 + 2;
eBread(sz, "SampleEntry: video");
e->video.width = bu16(d+16);
e->video.height = bu16(d+18);
e->video.hres = bu32(d+20) >> 16;
e->video.vres = bu32(d+24) >> 16;
e->video.framecount = bu16(d+32);
memmove(e->video.compressor, d+34, 32);
n -= sz;
sampleentry = e;
while(n > 8){
off = Boffset(f);
if(parsebox(f, &b, &eof) != 0)
return -1;
Bseek(f, b.dstart+b.dsz, 0);
n -= b.dstart+b.dsz - off;
}
sampleentry = nil;
memmove(&track.video, &e->video, sizeof(Video));
}else if(track.handlertype == HandlerAudio){
e->audio.format = e->format;
/* <depends on the version>, channels+bps, predefined+reserved, samplerate */
sz = 8 + 2+2 + 2+2 + 4;
eBread(sz, "SampleEntry: audio");
if(bu16(d) == 0){ /* version */
e->audio.channels = bu16(d+8);
e->audio.bps = bu16(d+10);
e->audio.samplerate = bu32(d+16)>>16;
}else{
sysfatal("AudioSampleEntryV1 unsupported");
}
n -= sz;
sampleentry = e;
while(n > 8){
off = Boffset(f);
if(parsebox(f, &b, &eof) != 0)
return -1;
Bseek(f, b.dstart+b.dsz, 0);
n -= b.dstart+b.dsz - off;
}
sampleentry = nil;
memmove(&track.audio, &e->audio, sizeof(Audio));
/* FIXME do we care about the rest? */
}else{
Bprint(&stderr, "SampleEntry: unknown handler type %T\n", track.handlertype);
}
return n;
err:
return -1;
}
static int
parseavcc(Biobuf *f, SampleEntry *e, int n)
{
int i;
u8int d[2];
u32int x;
USED(n); /* FIXME we don't really validate anything here */
if((x = Bgetc(f)) != 1){
werrstr("unsupported config version %d", x);
goto err;
}
e->video.avc.profile = Bgetc(f);
e->video.avc.compat = Bgetc(f);
e->video.avc.level = Bgetc(f);
e->video.avc.nallen = (Bgetc(f) & 3) + 1;
e->video.avc.nsps = Bgetc(f) & 0x1f;
e->video.avc.sps = calloc(e->video.avc.nsps, sizeof(ParamSet));
for(i = 0; i < e->video.avc.nsps; i++){
eBread(2, "sps len");
x = bu16(d);
e->video.avc.sps[i].len = x;
e->video.avc.sps[i].data = malloc(x);
Bread(f, e->video.avc.sps[i].data, x);
}
e->video.avc.npps = Bgetc(f) & 0x1f;
e->video.avc.pps = calloc(e->video.avc.npps, sizeof(ParamSet));
for(i = 0; i < e->video.avc.npps; i++){
eBread(2, "pps len");
x = bu16(d);
e->video.avc.pps[i].len = x;
e->video.avc.pps[i].data = malloc(x);
Bread(f, e->video.avc.pps[i].data, x);
}
return 0;
err:
return -1;
}
static int
descrlen(Biobuf *f, int *len)
{
int i, c;
*len = 0;
for(i = 1; i <= 4; i++){
c = Bgetc(f);
*len = *len << 7 | c & 0x7f;
if((c & 0x80) == 0)
break;
}
return i;
}
static int aacchans[] = {0, 1, 2, 3, 4, 5, 6, 8};
static int
parseesds(Biobuf *f, SampleEntry *e, int n)
{
int tag, len, o, x, srate;
o = -1;
while(n > 1){
tag = Bgetc(f);
n -= 1 + descrlen(f, &len);
if(tag == 3){ /* es descriptor */
Bseek(f, 2, 1); /* id */
n -= 2;
x = Bgetc(f);
n--;
if(x & 0x80){
Bseek(f, 2, 1); /* dep id */
n -= 2;
}
if(x & 0x40){ /* skip URL */
x = Bgetc(f);
Bseek(f, x, 1);
n -= x;
}
if(x & 0x20){ /* OCR */
Bseek(f, 2, 1);
n -= 2;
}
}else if(tag == 4){ /* decoder config descriptor */
o = Bgetc(f); /* object type id */
n--;
Bgetc(f); /* stream type (6 bits) */
n--;
Bseek(f, 3, 1); /* buffer size */
n -= 3;
Bseek(f, 4, 1); /* max bitrate */
n -= 4;
Bseek(f, 4, 1); /* avg bitrate */
n -= 4;
}else if(tag == 5){ /* decoder specific descriptor */
x = Bgetc(f)<<8;
x |= Bgetc(f);
n -= 2;
if(o == 0x40){ /* AAC */
if((x >> 11) == 0x1f){
werrstr("extended object type not supported");
return -1;
}
srate = (x >> 7) & 0xf;
if(srate == 0xf){
werrstr("extended sample rate not supported");
return -1;
}
e->audio.samplerate = srate2mpeg4fi[srate];
e->audio.channels = aacchans[(x >> 3) & 0xf];
if(e->audio.channels == 0){
werrstr("zero channels?");
return -1;
}
break;
}
}
}
return 0;
}
static int
parseboxdata(Biobuf *f, Box *b)
{
u8int d[128], *p;
Box inner;
int i, n, eof;
u64int u, off;
RunSample *s;
if(b->type == BoxFtyp){
eBread(8, "brand and version");
b->ftyp.brand = bu32(d);
b->ftyp.version = bu32(d+4);
if(b->dsz % 4 != 0){
werrstr("compatible_brands size");
goto err;
}
b->ftyp.ncompat = (b->dsz - 8) / 4;
b->ftyp.compat = calloc(b->ftyp.ncompat, 4);
for(i = 0; i < b->ftyp.ncompat; i++){
eBread(4, "compatible_brands");
b->ftyp.compat[i] = bu32(d);
}
printbox(b);
}else if(b->type == BoxMoov || b->type == BoxMvex || b->type == BoxTrak ||
b->type == BoxMdia || b->type == BoxMinf || b->type == BoxStbl ||
b->type == BoxMoof || b->type == BoxTraf || b->type == BoxEdts ||
b->type == BoxDinf || b->type == BoxUdta){
if(b->type == BoxMoof){
memset(&moof, 0, sizeof(moof));
memmove(&moof, b, sizeof(Box));
}
printbox(b);
dind++;
for(;;){
memset(&inner, 0, sizeof(inner));
if(parsebox(f, &inner, &eof) != 0)
goto err;
Bseek(f, inner.dstart+inner.dsz, 0);
if(inner.dstart+inner.dsz >= b->dstart+b->dsz)
break;
}
if(b->type == BoxTrak){
addtrack();
memset(&track, 0, sizeof(track));
}
dind--;
if(b->type == BoxMoof)
memset(&moof, 0, sizeof(moof));
}else if(b->type == BoxMdhd){
n = b->version == 0 ? 16 : 28;
eBread(n, "short read");
p = d;
b->mdhd.creation = bu32(p); p += 4;
if(b->version == 1){
b->mdhd.creation = b->mdhd.creation<<32 | bu32(p); p += 4;
}
b->mdhd.modification = bu32(p); p += 4;
if(b->version == 1){
b->mdhd.modification = b->mdhd.modification<<32 | bu32(p); p += 4;
}
b->mdhd.timescale = bu32(p); p += 4;
track.timescale = b->mdhd.timescale; /* it's used for IVF timebase */
b->mdhd.duration = bu32(p); p += 4;
if(b->version == 1){
b->mdhd.duration = b->mdhd.duration<<32 | bu32(p);
}
printbox(b);
}else if(b->type == BoxMvhd){
n = b->version == 0 ? 96 : 108;
eBread(n, "short read");
p = d;
b->mvhd.creation = bu32(p); p += 4;
if(b->version == 1){
b->mvhd.creation = b->mvhd.creation<<32 | bu32(p); p += 4;
}
b->mvhd.modification = bu32(p); p += 4;
if(b->version == 1){
b->mvhd.modification = b->mvhd.modification<<32 | bu32(p); p += 4;
}
b->mvhd.timescale = bu32(p); p += 4;
b->mvhd.duration = bu32(p); p += 4;
if(b->version == 1){
b->mvhd.duration = b->mvhd.duration<<32 | bu32(p); p += 4;
}
b->mvhd.rate = bu32(p); p += 4;
b->mvhd.volume = bu16(p); p += 2;
p += 2;
p += 4*2;
for(i = 0; i < 9; i++){
b->mvhd.matrix[i] = bu32(p); p += 4;
}
p += 4*6;
b->mvhd.nexttrack = bu32(p);
printbox(b);
}else if(b->type == BoxTrex){
eBread(20, "short read");
b->trex.trackid = bu32(d);
b->trex.defsample.descrindex = bu32(d+4);
b->trex.defsample.duration = bu32(d+8);
b->trex.defsample.size = bu32(d+12);
b->trex.defsample.flags = bu32(d+16);
defsamplesize = b->trex.defsample.size;
printbox(b);
}else if(b->type == BoxMfhd){
eBread(4, "short read");
b->mfhd.seqnumber = bu32(d);
memmove(&moof.mfhd, b, sizeof(*b));
printbox(b);
}else if(b->type == BoxTfhd){
eBread(4, "track_id");
b->tfhd.trackid = bu32(d);
if(b->flags & 1){
eBread(8, "base_data_offset");
b->tfhd.baseoffset = bu64(d);
}
if(b->flags & 2){
eBread(4, "sample_description_index");
b->tfhd.defsample.descrindex = bu32(d);
}
if(b->flags & 8){
eBread(4, "default_sample_duration");
b->tfhd.defsample.duration = bu32(d);
}
if(b->flags & 16){
eBread(4, "default_sample_size");
b->tfhd.defsample.size = bu32(d);
defsamplesize = b->tfhd.defsample.size;
}
if(b->flags & 32){
eBread(4, "default_sample_flags");
b->tfhd.defsample.flags = bu32(d);
}
memmove(&moof.tfhd, b, sizeof(*b));
printbox(b);
}else if(b->type == BoxTfdt){
if(b->version == 1){
eBread(8, "base_media_decode_time");
b->tfdt.decodetime = bu64(d);
}else{
eBread(4, "base_media_decode_time");
b->tfdt.decodetime = bu32(d);
}
printbox(b);
}else if(b->type == BoxTrun){
eBread(4, "sample_count");
b->trun.samplecount = bu32(d);
if(b->flags & 1){
eBread(4, "data_offset");
b->trun.dataoffset = bu32(d);
}
if(b->flags & 4){
eBread(4, "first_sample_flags");
b->trun.firstsampleflags = bu32(d);
}
/* FIXME free those */
b->trun.samples = calloc(b->trun.samplecount, sizeof(RunSample));
off = 0;
for(u = 0; u < b->trun.samplecount; u++){
s = &b->trun.samples[u];
if(b->flags & 0x100){
eBread(4, "sample_duration");
s->duration = bu32(d);
}else if(moof.tfhd.flags & 8)
s->duration = moof.tfhd.tfhd.defsample.duration;
if(b->flags & 0x200){
eBread(4, "sample_size");
s->size = bu32(d);
}else if(moof.tfhd.flags & 16)
s->size = moof.tfhd.tfhd.defsample.size;
if(b->flags & 0x400){
eBread(4, "sample_flags");
s->flags = bu32(d);
}else if((b->flags & 4) && u == 0){
// FIXME default flags???
s->flags = b->trun.firstsampleflags;
}else if(moof.tfhd.flags & 32)
s->flags = moof.tfhd.tfhd.defsample.flags;
if(b->flags & 0x800){
eBread(4, "sample_composition_time_offset");
if(b->version == 0)
s->timeoffset = bu32(d);
else
s->timeoffset = (s32int)bu32(d);
}
s->offset = b->trun.dataoffset + off;
if(moof.tfhd.flags & 1)
Bprint(&stderr, "tfhd has base-data-offset-present set, this isn't supported atm\n");
else if(moof.tfhd.flags & 0x20000)
s->offset += moof.offset + moof.tfhd.tfhd.baseoffset;
else
Bprint(&stderr, "couldn't calculate sample offset\n");
off += s->size;
}
addtrun(b);
printbox(b);
}else if(b->type == BoxStsd){
eBread(4, "entry_count");
b->stsd.entrycount = bu32(d);
b->stsd.entry = calloc(b->stsd.entrycount, sizeof(SampleEntry));
for(u = 0; u < b->stsd.entrycount; u++){
eBread(4, "size");
n = bu32(d);
n -= 4;
eBread(4, "format");
b->stsd.entry[u].format = bu32(d);
n -= 4;
Bseek(f, 6, 1); /* skip reserved */
n -= 6;
eBread(2, "id");
b->stsd.entry[u].datarefid = bu16(d);
n -= 2;
if((n = parsesampleentry(f, &b->stsd.entry[u], n)) < 0)
goto err;
Bseek(f, n, 1);
}
printbox(b);
}else if(b->type == BoxAvcc){
assert(sampleentry != nil);
if(parseavcc(f, sampleentry, b->dsz) != 0)
goto err;
/* print it with the sample entry */
}else if(b->type == BoxEsds){
assert(sampleentry != nil);
if(parseesds(f, sampleentry, b->dsz) != 0)
goto err;
/* print it with the sample entry */
}else if(b->type == BoxStts){
eBread(4, "entry_count");
b->stts.entrycount = bu32(d);
b->stts.entry = calloc(b->stts.entrycount, sizeof(TimeToSample));
for(u = 0; u < b->stts.entrycount; u++){
eBread(4, "sample_count");
b->stts.entry[u].samplecount = bu32(d);
eBread(4, "sample_delta");
b->stts.entry[u].sampledelta = bu32(d);
}
track.tts = b->stts.entry;
track.numtts = b->stts.entrycount;
printbox(b);
}else if(b->type == BoxStss){
eBread(4, "entry_count");
b->stss.entrycount = bu32(d);
/* FIXME not reading actual entries here */
printbox(b);
}else if(b->type == BoxStsc){
eBread(4, "entry_count");
b->stsc.entrycount = bu32(d);
b->stsc.entry = calloc(b->stsc.entrycount, sizeof(SampleToChunk));
for(u = 0; u < b->stsc.entrycount; u++){
eBread(4, "first_chunk");
b->stsc.entry[u].firstchunk = bu32(d);
eBread(4, "samples_per_chunk");
b->stsc.entry[u].samplesperchunk = bu32(d);
eBread(4, "sample_description_table");
b->stsc.entry[u].sdt = bu32(d);
}
track.numstc = b->stsc.entrycount;
track.stc = b->stsc.entry;
printbox(b);
}else if(b->type == BoxStco || b->type == BoxCo64){
eBread(4, "entry_count");
b->stco_co64.entrycount = bu32(d);
b->stco_co64.chunkoffset = calloc(b->stco_co64.entrycount, sizeof(u64int));
for(u = 0; u < b->stco_co64.entrycount; u++){
eBread(b->type == BoxStco ? 4 : 8, "chunk_offset");
b->stco_co64.chunkoffset[u] = b->type == BoxStco ? bu32(d) : bu64(d);
}
track.numchunks = b->stco_co64.entrycount;
track.chunkoffset = b->stco_co64.chunkoffset;
printbox(b);
}else if(b->type == BoxStsz){
eBread(4, "sample_size");
b->stsz.samplesizeeach = bu32(d);
track.samplesizeeach = b->stsz.samplesizeeach;
eBread(4, "sample_count");
b->stsz.samplecount = bu32(d);
if(b->stsz.samplesizeeach == 0){
b->stsz.samplesize = calloc(b->stsz.samplecount, sizeof(u32int));
for(u = 0; u < b->stsz.samplecount; u++){
eBread(4, "chunk_offset");
b->stsz.samplesize[u] = bu32(d);
}
track.numsamples = b->stsz.samplecount;
track.samplesize = b->stsz.samplesize;
}
printbox(b);
}else if(b->type == BoxTkhd){
if(b->version == 1){
eBread(8, "creation_time");
b->tkhd.creattime = bu64(d);
eBread(8, "modification_time");
b->tkhd.modtime = bu64(d);
eBread(8, "track_id"); /* skipping 4 reserved as well */
b->tkhd.trackid = bu32(d);
track.id = b->tkhd.trackid;
eBread(8, "duration");
b->tkhd.duration = bu64(d);
}else if(b->version == 0){
eBread(4, "creation_time");
b->tkhd.creattime = bu32(d);
eBread(4, "modification_time");
b->tkhd.modtime = bu32(d);
eBread(8, "track_id"); /* skipping 4 reserved as well */
b->tkhd.trackid = bu32(d);
track.id = b->tkhd.trackid;
eBread(4, "duration");
b->tkhd.duration = bu32(d);
}else{
werrstr("uknown version %d", b->version);
goto err;
}
eBread(8+2+2+2+2, "reserved, layer, alternate_group, volume, reserved");
eBread(9*4, "matrix");
eBread(4, "width");
b->tkhd.width = bu32(d)>>16; /* FIXME fixed-point 16.16 */
eBread(4, "height");
b->tkhd.height = bu32(d)>>16; /* FIXME fixed-point 16.16 */
printbox(b);
}else if(b->type == BoxHdlr){
eBread(4, "pre_defined");
eBread(4, "handler_type");
b->hdlr.handlertype = bu32(d);
track.handlertype = b->hdlr.handlertype;
eBread(3*4, "reserved");
for(u = 0; u < sizeof(d)-1; u++){
if(Bread(f, d+u, 1) != 1){
werrstr("name");
goto err;
}
if(d[u] == 0)
break;
}
d[u] = 0;
b->hdlr.name = strdup((char*)d);
printbox(b);
}else{
printbox(b);
}
return 0;
err:
werrstr("%T: %r", b->type);
return -1;
}
static int
parsebox(Biobuf *f, Box *b, int *eof)
{
vlong sz, start;
u8int d[8];
int r;
*eof = 0;
b->dstart = b->offset = start = Boffset(f);
if((r = Bread(f, d, 8)) != 8){
if(r == 0)
*eof = 1;
else
werrstr("size and type");
goto err;
}
b->dstart += 8;
b->dsz = sz = d[0]<<24 | d[1]<<16 | d[2]<<8 | d[3];
b->type = d[4]<<24 | d[5]<<16 | d[6]<<8 | d[7];
if(sz == 1){
if(Bread(f, d, 8) != 8){
werrstr("largesize");
goto err;
}
b->dstart += 8;
b->dsz = (vlong)d[0]<<56 | (vlong)d[1]<<48 | (vlong)d[2]<<40 | (vlong)d[3]<<32 | d[4]<<24 | d[5]<<16 | d[6]<<8 | d[7];
}else if(sz == 0){
b->dsz = (vlong)1<<63 - 1;
}
if(b->type == BoxUuid){
if(Bread(f, b->extended, 16) != 16){
werrstr("extended_type");
goto err;
}
b->dstart += 16;
}else if(isfullbox(b)){
if(Bread(f, d, 4) != 4){
werrstr("full box");
goto err;
}
b->version = d[0];
b->flags = d[1]<<16 | d[2]<<8 | d[3];
b->dstart += 4;
}
b->dsz -= b->dstart - start;
if(parseboxdata(f, b) == 0)
return 0;
err:
werrstr("parsebox: %r");
return -1;
}
static void
usage(void)
{
fprint(2, "usage: %s [-i | -t TRACK] FILE\n", argv0);
exits("usage");
}
void
main(int argc, char **argv)
{
Box b;
Biobuf *f;
char *status;
Track *t;
int eof, trackdump, iflag, i;
dflag = 0;
iflag = 0;
trackdump = -1;
ARGBEGIN{
case 'i':
iflag++;
break;
case 'd':
dflag++;
break;
case 't':
trackdump = atoi(EARGF(usage()));
break;
default:
usage();
}ARGEND
if(argc != 1 || (iflag && trackdump >= 0))
usage();
fmtinstall('T', typefmt);
fmtinstall('H', encodefmt);
Binit(&stderr, 2, OWRITE);
if((f = Bopen(*argv, OREAD)) == nil)
sysfatal("%s: %r", *argv);
for(;;){
dind = 0;
memset(&b, 0, sizeof(b));
if(parsebox(f, &b, &eof) != 0){
if(eof)
break;
sysfatal("%s: %r", *argv);
}
Bseek(f, b.dstart+b.dsz, 0);
}
status = nil;
if(iflag){
for(i = 0; i < ntracks; i++){
t = &tracks[i];
print("%d ", t->id);
if(t->handlertype == HandlerVideo)
print("video %T %d %d", t->video.format, t->video.width, t->video.height);
else if(t->handlertype == HandlerAudio)
print("audio %T %d %d", t->audio.format, t->audio.channels, t->audio.samplerate);
else
print("%T ???", t->handlertype);
print("\n");
}
}else if(trackdump >= 0 && dumptrack(f, trackdump) != 0){
Bprint(&stderr, "%r\n");
status = "dump";
}
Bterm(f);
Bterm(&stderr);
exits(status);
}