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stream-deploy/ZLM/3rdpart/media-server/librtp/test/mov-rtp-test.cpp

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C++
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#include "mov-reader.h"
#include "mov-format.h"
#include "mpeg4-hevc.h"
#include "mpeg4-avc.h"
#include "mpeg4-aac.h"
#include "webm-vpx.h"
#include "aom-av1.h"
#include "rtp-payload.h"
#include "rtp-profile.h"
#include "rtsp-muxer.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <time.h>
#define RTP_VIDEO_WITH_PS
#define RTP_LOST_PERCENT 5
extern "C" const struct mov_buffer_t* mov_file_buffer(void);
static uint8_t s_packet[2 * 1024 * 1024];
static uint8_t s_buffer[4 * 1024 * 1024];
static struct mpeg4_hevc_t s_hevc;
static struct mpeg4_avc_t s_avc;
static struct mpeg4_aac_t s_aac;
static struct webm_vpx_t s_vpx;
static struct aom_av1_t s_av1;
struct mov_rtp_test_t;
struct mov_rtp_test_stream_t
{
struct mov_rtp_test_t* ctx;
int av;
int object;
int track;
int mid;
int64_t dts;
};
struct mov_rtp_test_t
{
struct mov_rtp_test_stream_t a, v;
struct rtsp_muxer_t* muxer;
int rtp_ps_pid;
};
static unsigned char packet[8 * 1024 * 1024];
static int rtp_encode_packet(void* param, int pid, const void* data, int bytes, uint32_t timestamp, int flags)
{
struct mov_rtp_test_stream_t* ctx = (struct mov_rtp_test_stream_t*)param;
//int x = rand();
//if( (x % 100) < RTP_LOST_PERCENT )
//{
// printf("======== discard [%s] timestamp: %u ==============\n", ctx->av ? "V" : "A", (unsigned int)timestamp);
// return 0;
//}
//int r = rtp_payload_decode_input(ctx->decoder, packet, bytes);
//return r >= 0 ? 0 : r;
uint8_t len[2];
static FILE* fp = fopen("2.mp4.rtp", "wb");
len[0] = bytes >> 8;
len[1] = bytes;
fwrite(len, 1, 2, fp);
fwrite(data, 1, bytes, fp);
fflush(fp);
return 0;
}
inline const char* ftimestamp(uint32_t t, char* buf)
{
sprintf(buf, "%02u:%02u:%02u.%03u", t / 3600000, (t / 60000) % 60, (t / 1000) % 60, t % 1000);
return buf;
}
static void onread(void* param, uint32_t track, const void* buffer, size_t bytes, int64_t pts, int64_t dts, int flags)
{
static char s_pts[64], s_dts[64];
static int64_t v_pts, v_dts;
static int64_t a_pts, a_dts;
struct mov_rtp_test_t* ctx = (struct mov_rtp_test_t*)param;
int n = bytes;
if (ctx->v.track == track)
{
if (MOV_OBJECT_H264 == ctx->v.object)
{
n = h264_mp4toannexb(&s_avc, buffer, bytes, s_packet, sizeof(s_packet));
}
else if (MOV_OBJECT_HEVC == ctx->v.object)
{
n = h265_mp4toannexb(&s_hevc, buffer, bytes, s_packet, sizeof(s_packet));
}
else if (MOV_OBJECT_AV1 == ctx->v.object)
{
n = aom_av1_codec_configuration_record_save(&s_av1, s_packet, sizeof(s_packet));
}
else if (MOV_OBJECT_VP8 == ctx->v.object || MOV_OBJECT_VP9 == ctx->v.object)
{
// nothing to do
}
else
{
assert(0);
}
printf("[V] pts: %s, dts: %s, diff: %03d/%03d, %d%s\n", ftimestamp(pts, s_pts), ftimestamp(dts, s_dts), (int)(pts - v_pts), (int)(dts - v_dts), (int)n, flags ? " [I]" : "");
v_pts = pts;
v_dts = dts;
assert(0 == rtsp_muxer_input(ctx->muxer, ctx->v.mid, pts, dts, s_packet, n, (MOV_AV_FLAG_KEYFREAME & flags) ? 0x0001 : 0));
}
else if (ctx->a.track == track)
{
if (MOV_OBJECT_AAC == ctx->a.object)
{
n = mpeg4_aac_adts_save(&s_aac, bytes, s_packet, sizeof(s_packet));
memcpy(s_packet + n, buffer, bytes);
n += bytes;
}
else if(MOV_OBJECT_OPUS == ctx->a.object)
{
assert(0);
}
else
{
assert(0);
}
printf("[A] pts: %s, dts: %s, diff: %03d/%03d, %d\n", ftimestamp(pts, s_pts), ftimestamp(dts, s_dts), (int)(pts - a_pts), (int)(dts - a_dts), (int)n);
a_pts = pts;
a_dts = dts;
assert(0 == rtsp_muxer_input(ctx->muxer, ctx->a.mid, pts, dts, s_packet, n, 0));
}
else
{
assert(0);
}
}
static void mov_video_info(void* param, uint32_t track, uint8_t object, int /*width*/, int /*height*/, const void* extra, size_t bytes )
{
struct mov_rtp_test_t* ctx = (struct mov_rtp_test_t*)param;
ctx->v.track = track;
ctx->v.object = object;
ctx->v.av = 1;
if (MOV_OBJECT_H264 == object)
{
#if defined(RTP_VIDEO_WITH_PS)
int pid = ctx->rtp_ps_pid;
#else
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", 90000, 96, "H264", 0, 0, 0, extra, bytes);
#endif
ctx->v.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_H264, extra, bytes);
assert(bytes >= mpeg4_avc_decoder_configuration_record_load((const uint8_t*)extra, bytes, &s_avc));
}
else if (MOV_OBJECT_HEVC == object)
{
#if defined(RTP_VIDEO_WITH_PS)
int pid = ctx->rtp_ps_pid;
#else
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", 90000, 96, "H265", 0, 0, 0, extra, bytes);
#endif
ctx->v.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_H265, extra, bytes);
assert(bytes == mpeg4_hevc_decoder_configuration_record_load((const uint8_t*)extra, bytes, &s_hevc));
}
else if (MOV_OBJECT_AV1 == object)
{
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", 90000, RTP_PAYLOAD_AV1X, "AV1X", 0, 0, 0, extra, bytes);
ctx->v.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_AV1X, extra, bytes);
assert(bytes == aom_av1_codec_configuration_record_load((const uint8_t*)extra, bytes, &s_av1));
}
else if (MOV_OBJECT_VP9 == object)
{
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", 90000, 96, "VP9", 0, 0, 0, extra, bytes);
ctx->v.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_VP9, extra, bytes);
assert(bytes == webm_vpx_codec_configuration_record_load((const uint8_t*)extra, bytes, &s_vpx));
}
else if (MOV_OBJECT_VP8 == object)
{
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", 90000, 96, "VP8", 0, 0, 0, extra, bytes);
ctx->v.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_VP8, extra, bytes);
assert(bytes == webm_vpx_codec_configuration_record_load((const uint8_t*)extra, bytes, &s_vpx));
}
else
{
assert(0);
}
}
static void mov_audio_info(void* param, uint32_t track, uint8_t object, int /*channel_count*/, int /*bit_per_sample*/, int sample_rate, const void* extra, size_t bytes)
{
struct mov_rtp_test_t* ctx = (struct mov_rtp_test_t*)param;
ctx->a.track = track;
ctx->a.object = object;
ctx->a.av = 0;
if (MOV_OBJECT_AAC == object)
{
#if defined(RTP_VIDEO_WITH_PS)
int pid = ctx->rtp_ps_pid;
#else
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", sample_rate, 97, "MP4A-LATM", 0, 0, 0, extra, bytes);
#endif
ctx->a.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_LATM, extra, bytes);
assert(bytes == mpeg4_aac_audio_specific_config_load((const uint8_t*)extra, bytes, &s_aac));
}
else if (MOV_OBJECT_OPUS == object)
{
int pid = rtsp_muxer_add_payload(ctx->muxer, "RTP/AVP", sample_rate, 97, "OPUS", 0, 0, 0, extra, bytes);
ctx->a.mid = rtsp_muxer_add_media(ctx->muxer, pid, RTP_PAYLOAD_OPUS, extra, bytes);
}
else
{
assert(0);
}
}
void mov_rtp_test(const char* mp4)
{
struct mov_rtp_test_t ctx;
memset(&ctx, 0, sizeof(ctx));
ctx.a.ctx = &ctx;
ctx.v.ctx = &ctx;
ctx.muxer = rtsp_muxer_create(rtp_encode_packet, &ctx);
#if defined(RTP_VIDEO_WITH_PS)
ctx.rtp_ps_pid = rtsp_muxer_add_payload(ctx.muxer, "RTP/AVP", 90000, 96, "MP2P", 0, 0, 0, NULL, 0);
#endif
FILE* fp = fopen(mp4, "rb");
mov_reader_t* mov = mov_reader_create(mov_file_buffer(), fp);
uint64_t duration = mov_reader_getduration(mov);
struct mov_reader_trackinfo_t info = { mov_video_info, mov_audio_info };
mov_reader_getinfo(mov, &info, &ctx);
//srand((int)time(NULL));
while (mov_reader_read(mov, s_buffer, sizeof(s_buffer), onread, &ctx) > 0)
{
}
rtsp_muxer_destroy(ctx.muxer);
mov_reader_destroy(mov);
fclose(fp);
}
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