ref: c2f18c2da2fb32360843df37e0f168c5d558a254
dir: /decoder_h264.c/
#include <decoder/core/inc/decoder.h>
#include <decoder/core/inc/manage_dec_ref.h>
#include <decoder/core/inc/decoder9.h>
#include <thread.h>
#include "frame.h"
#include "stream.h"
#include "decoder.h"
#include "misc.h"
#pragma lib "../openh264/codec/libopenh264.$M.a"
static void
logfun(void *ctx, const int32_t level, const char *fmt, va_list argv)
{
USED(ctx);
if(debug >= level){
fprint(2, "h264: ");
vfprint(2, fmt, argv);
fprint(2, "\n");
}
}
static int
sendframe(H264Aux *a, uvlong dt, Channel *c)
{
int w, h, *stride;
Frame *f;
w = a->info.UsrData.sSystemBuffer.iWidth;
h = a->info.UsrData.sSystemBuffer.iHeight;
stride = a->info.UsrData.sSystemBuffer.iStride;
if((f = newframe(w, h, a->data, stride[0], stride[1])) == nil)
return -1;
f->crop.left = a->ctx.sFrameCrop.iLeftOffset;
f->crop.top = a->ctx.sFrameCrop.iTopOffset;
f->crop.right = w - a->ctx.sFrameCrop.iRightOffset;
f->crop.bottom = h - a->ctx.sFrameCrop.iBottomOffset;
f->dt = dt;
if(sendp(c, f) < 0){
free(f);
return -1;
}
return 0;
}
static void
decode(void *x)
{
uvlong start, framenum, lasttimestamp, ts;
Streamframe sf;
Decoder *d;
Channel *c;
int res, n;
H264Aux *a;
threadsetname("decoder/h264");
d = x;
a = d->aux;
lasttimestamp = 0;
for(res = 0, framenum = 0; res >= 0 && (res = Sread(d->s, &sf)) == 0 && sf.sz > 0; framenum++){
if(sf.sz > 4 && sf.buf[0] == 0 && sf.buf[1] == 0){
if(sf.buf[2] == 1)
n = sf.buf[3];
else if(sf.buf[3] == 1)
n = sf.buf[4];
else
n = 0;
n &= 0x1f;
if(n == 7 || n == 8){
/*
* FIXME not sure whether that is correct (most likely not)
* flush everything on sps/pps
* obviously, there might be multiple NALs in a single stream frame
*/
while(a->iNumOfPicts > 0){
h264flush(a);
ts = a->info.uiOutYuvTimeStamp;
if(ts < lasttimestamp){
/* FIXME this happens in some videos... */
//werrstr("wrong timestamp at flush: %llud < %llud", ts, lasttimestamp);
//res = -1;
//break;
continue;
}
if(sendframe(a, (ts - lasttimestamp) * d->timebase * 1000000000ULL, d->frames) < 0)
goto done;
lasttimestamp = ts;
}
if(res < 0)
break;
}
}
start = nanosec();
if((res = h264decode(a, sf.buf, sf.sz, &sf.timestamp)) != 0)
break;
sf.buf = nil;
sf.sz = 0;
if((res = h264decode(a, sf.buf, sf.sz, &sf.timestamp)) != 0)
break;
d->decodetime = nanosec() - start;
if(a->data[0] == nil || sf.timestamp < lasttimestamp)
continue;
if(sendframe(a, (sf.timestamp - lasttimestamp) * d->timebase * 1000000000ULL, d->frames) < 0)
goto done;
lasttimestamp = sf.timestamp;
}
if(res != 0)
fprint(2, "h264: frame %llud: %r\n", framenum);
else{
/* FIXME the frames are finished but there might still be left-overs */
ResetReorderingPictureBuffers(a, a->pics, false);
WelsResetRefPic(&a->ctx);
}
done:
WelsEndDecoder(&a->ctx);
free(a);
c = d->finished;
sendp(c, res == 0 ? nil : "error");
chanclose(c);
threadexits(nil);
}
static int
h264open(Decoder *d)
{
H264Aux *a;
int res;
a = calloc(1, sizeof(*a));
a->ctx.pLastDecPicInfo = &a->pic;
a->ctx.pVlcTable = &a->vlctbl;
a->ctx.pDecoderStatistics = &a->stat;
a->ctx.pMemAlign = &cMemoryAlign;
a->ctx.pPictInfoList = a->pics;
a->ctx.pPictReoderingStatus = a;
a->logctx.pfLog = logfun;
a->ctx.sLogCtx = a->logctx;
WelsDecoderDefaults(&a->ctx, &a->logctx);
WelsDecoderSpsPpsDefaults(&a->ctx.sSpsPpsCtx);
a->ctx.pParam = calloc(1, sizeof(SDecodingParam));
a->ctx.pParam->sVideoProperty.eVideoBsType = VIDEO_BITSTREAM_DEFAULT;
if((res = WelsInitDecoder(&a->ctx, &a->logctx)) != 0){
werrstr("WelsInitDecoder: %s", h264err2s(res));
free(a);
return -1;
}
ResetReorderingPictureBuffers(a, a->pics, true);
d->aux = a;
proccreate(decode, d, 65536);
return res;
}
static void
h264close(Decoder *d)
{
USED(d);
}
Decoderops h264ops = {
.open = h264open,
.close = h264close,
};