Older/MediaServer/libmpeg/source/mpeg-ts-dec.c

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2024-10-01 00:12:57 +08:00
// ITU-T H.222.0(06/2012)
// Information technology - Generic coding of moving pictures and associated audio information: Systems
// 2.4.3.1 Transport stream(p34)
#include "mpeg-pes-internal.h"
#include "mpeg-ts-internal.h"
#include "mpeg-util.h"
#include "mpeg-ts.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <stdio.h>
#include <errno.h>
struct ts_demuxer_t
{
struct pat_t pat;
ts_demuxer_onpacket onpacket;
void* param;
struct ts_demuxer_notify_t notify;
void* notify_param;
};
static void ts_demuxer_notify(struct ts_demuxer_t* ts, const struct pmt_t* pmt);
static uint32_t adaptation_filed_read(struct ts_adaptation_field_t *adp, const uint8_t* data, size_t bytes)
{
// 2.4.3.4 Adaptation field
// Table 2-6
uint32_t i = 0;
uint32_t j = 0;
assert(bytes <= TS_PACKET_SIZE);
adp->adaptation_field_length = data[i++];
if(adp->adaptation_field_length > 0)
{
adp->discontinuity_indicator = (data[i] >> 7) & 0x01;
adp->random_access_indicator = (data[i] >> 6) & 0x01;
adp->elementary_stream_priority_indicator = (data[i] >> 5) & 0x01;
adp->PCR_flag = (data[i] >> 4) & 0x01;
adp->OPCR_flag = (data[i] >> 3) & 0x01;
adp->splicing_point_flag = (data[i] >> 2) & 0x01;
adp->transport_private_data_flag = (data[i] >> 1) & 0x01;
adp->adaptation_field_extension_flag = (data[i] >> 0) & 0x01;
i++;
if(adp->PCR_flag && i + 6 <= adp->adaptation_field_length + 1)
{
adp->program_clock_reference_base = ((uint64_t)data[i] << 25) | ((uint64_t)data[i+1] << 17) | ((uint64_t)data[i+2] << 9) | ((uint64_t)data[i+3] << 1) | ((data[i+4] >> 7) & 0x01);
adp->program_clock_reference_extension = ((data[i+4] & 0x01) << 8) | data[i+5];
i += 6;
}
if(adp->OPCR_flag && i + 6 <= adp->adaptation_field_length + 1)
{
adp->original_program_clock_reference_base = (((uint64_t)data[i]) << 25) | ((uint64_t)data[i+1] << 17) | ((uint64_t)data[i+2] << 9) | ((uint64_t)data[i+3] << 1) | ((data[i+4] >> 7) & 0x01);
adp->original_program_clock_reference_extension = ((data[i+4] & 0x01) << 1) | data[i+5];
i += 6;
}
if(adp->splicing_point_flag && i + 1 <= adp->adaptation_field_length + 1)
{
adp->splice_countdown = data[i++];
}
if(adp->transport_private_data_flag && i + 1 <= adp->adaptation_field_length + 1)
{
adp->transport_private_data_length = data[i++];
for(j = 0; j < adp->transport_private_data_length; j++)
{
// uint8_t transport_private_data = data[i+j];
}
i += adp->transport_private_data_length;
}
if(adp->adaptation_field_extension_flag && i + 2 <= adp->adaptation_field_length + 1)
{
//uint8_t reserved;
adp->adaptation_field_extension_length = data[i++];
adp->ltw_flag = (data[i] >> 7) & 0x01;
adp->piecewise_rate_flag = (data[i] >> 6) & 0x01;
adp->seamless_splice_flag = (data[i] >> 5) & 0x01;
//reserved = data[i] & 0x1F;
i++;
if(adp->ltw_flag && i + 2 <= adp->adaptation_field_length + 1)
{
// uint8_t ltw_valid_flag = (data[i] >> 7) & 0x01;
// uint16_t ltw_offset = ((data[i] & 0x7F) << 8) | data[i+1];
i += 2;
}
if(adp->piecewise_rate_flag && i + 3 <= adp->adaptation_field_length + 1)
{
// uint32_t piecewise_rate = ((data[i] & 0x3F) << 16) | (data[i+1] << 8) | data[i+2];
i += 3;
}
if(adp->seamless_splice_flag && i + 5 <= adp->adaptation_field_length + 1)
{
// uint8_t Splice_type = (data[i] >> 4) & 0x0F;
// uint32_t DTS_next_AU = (((data[i] >> 1) & 0x07) << 30) | (data[i+1] << 22) | (((data[i+2] >> 1) & 0x7F) << 15) | (data[i+3] << 7) | ((data[i+4] >> 1) & 0x7F);
i += 5;
}
// reserved byte
}
// stuffing byte
}
return adp->adaptation_field_length + 1;
}
#define TS_IS_SYNC_BYTE(data) (data[0] == TS_SYNC_BYTE)
#define TS_TRANSPORT_ERROR_INDICATOR(data) (data[1] & 0x80)
#define TS_PAYLOAD_UNIT_START_INDICATOR(data) (data[1] & 0x40)
#define TS_TRANSPORT_PRIORITY(data) (data[1] & 0x20)
int ts_demuxer_flush(struct ts_demuxer_t* ts)
{
uint32_t i, j;
size_t consume;
for (i = 0; i < ts->pat.pmt_count; i++)
{
for (j = 0; j < ts->pat.pmts[i].stream_count; j++)
{
struct pes_t* pes = &ts->pat.pmts[i].streams[j];
if (pes->pkt.size < 5)
continue;
if (PSI_STREAM_H264 == pes->codecid)
{
const uint8_t aud[] = {0,0,0,1,0x09,0xf0};
pes_packet(&pes->pkt, pes, aud, sizeof(aud), &consume, 0, ts->onpacket, ts->param);
}
else if (PSI_STREAM_H265 == pes->codecid)
{
const uint8_t aud[] = {0,0,0,1,0x46,0x01,0x50};
pes_packet(&pes->pkt, pes, aud, sizeof(aud), &consume, 0, ts->onpacket, ts->param);
}
else if (PSI_STREAM_H266 == pes->codecid)
{
const uint8_t aud[] = { 0,0,0,1,0x00,0xA1,0x18 };
pes_packet(&pes->pkt, pes, aud, sizeof(aud), &consume, 0, ts->onpacket, ts->param);
}
else
{
//assert(0);
pes_packet(&pes->pkt, pes, NULL, 0, &consume, 0, ts->onpacket, ts->param);
}
}
}
return 0;
}
int ts_demuxer_input(struct ts_demuxer_t* ts, const uint8_t* data, size_t bytes)
{
int r = 0;
uint32_t i, j, k;
uint32_t PID;
size_t consume;
unsigned int count, ver;
struct mpeg_bits_t reader;
struct ts_packet_header_t pkhd;
// 2.4.3 Specification of the transport stream syntax and semantics
// Transport stream packets shall be 188 bytes long.
assert(188 == bytes);
// 2.4.3.2 Transport stream packet layer
// Table 2-2
memset(&pkhd, 0, sizeof(pkhd));
assert(0x47 == data[0]); // sync_byte
PID = ((data[1] << 8) | data[2]) & 0x1FFF;
pkhd.transport_error_indicator = (data[1] >> 7) & 0x01;
pkhd.payload_unit_start_indicator = (data[1] >> 6) & 0x01;
pkhd.transport_priority = (data[1] >> 5) & 0x01;
pkhd.transport_scrambling_control = (data[3] >> 6) & 0x03;
pkhd.adaptation_field_control = (data[3] >> 4) & 0x03;
pkhd.continuity_counter = data[3] & 0x0F;
// printf("-----------------------------------------------\n");
// printf("PID[%u]: Error: %u, Start:%u, Priority:%u, Scrambler:%u, AF: %u, CC: %u\n", PID, pkhd.transport_error_indicator, pkhd.payload_unit_start_indicator, pkhd.transport_priority, pkhd.transport_scrambling_control, pkhd.adaptation_field_control, pkhd.continuity_counter);
i = 4;
if(0x02 & pkhd.adaptation_field_control)
{
i += adaptation_filed_read(&pkhd.adaptation, data + 4, bytes - 4);
if(pkhd.adaptation.adaptation_field_length > 0 && pkhd.adaptation.PCR_flag)
{
//int64_t t;
//t = pkhd.adaptation.program_clock_reference_base / 90L; // ms;
//printf("pcr: %02d:%02d:%02d.%03d - %" PRId64 "/%u\n", (int)(t / 3600000), (int)(t % 3600000)/60000, (int)((t/1000) % 60), (int)(t % 1000), pkhd.adaptation.program_clock_reference_base, pkhd.adaptation.program_clock_reference_extension);
}
assert(i <= bytes);
if (i + (pkhd.payload_unit_start_indicator ? 1 : 0) >= bytes)
return 0; // ignore
}
if(0x01 & pkhd.adaptation_field_control)
{
if(TS_PID_PAT == PID)
{
if(pkhd.payload_unit_start_indicator)
i += 1; // pointer 0x00
// TODO: PAT lost
pat_read(&ts->pat, data + i, bytes - i);
}
else if(TS_PID_SDT == PID)
{
if(pkhd.payload_unit_start_indicator)
i += 1; // pointer 0x00
sdt_read(&ts->pat, data + i, bytes - i);
}
else
{
for(j = 0; j < ts->pat.pmt_count; j++)
{
if(PID == ts->pat.pmts[j].pid)
{
// TODO: PMT lost
if(pkhd.payload_unit_start_indicator)
i += 1; // pointer 0x00
ver = ts->pat.pmts[j].ver;
count = ts->pat.pmts[j].stream_count;
pmt_read(&ts->pat.pmts[j], data + i, bytes - i);
if(ver != ts->pat.pmts[j].ver || count != ts->pat.pmts[j].stream_count)
ts_demuxer_notify(ts, &ts->pat.pmts[j]);
break;
}
else
{
for (k = 0; k < ts->pat.pmts[j].stream_count; k++)
{
struct pes_t* pes = &ts->pat.pmts[j].streams[k];
if (PID != pes->pid)
continue;
pes->flags |= ((ts->pat.pmts[j].streams[k].cc + 1) % 16) != (uint8_t)pkhd.continuity_counter ? (MPEG_FLAG_PACKET_CORRUPT | MPEG_FLAG_PACKET_LOST) : 0;
ts->pat.pmts[j].streams[k].cc = (uint8_t)pkhd.continuity_counter;
if (pkhd.payload_unit_start_indicator)
{
size_t s;
mpeg_bits_init(&reader, data + i, bytes - i);
s = mpeg_bits_readn(&reader, 3);
pes->sid = mpeg_bits_read8(&reader);
if (MPEG_ERROR_OK != pes_read_header(pes, &reader) || s != 0x000001)
{
assert(0);
return 0; // ignore
}
i += (uint32_t)mpeg_bits_tell(&reader);
pes->flags = (pes->flags & MPEG_FLAG_PACKET_CORRUPT) ? MPEG_FLAG_PACKET_LOST : 0;
pes->flags |= pes->data_alignment_indicator ? MPEG_FLAG_IDR_FRAME : 0;
pes->have_pes_header = 1;
}
else if (!pes->have_pes_header)
{
return 0; // ignore, don't have pes header yet
}
r = pes_packet(&pes->pkt, pes, data + i, bytes - i, &consume, pkhd.payload_unit_start_indicator, ts->onpacket, ts->param);
pes->have_pes_header = (r || (0 == pes->pkt.size && pes->len > 0)) ? 0 : 1; // packet completed
return r; // find stream
}
} // PMT handler
}
} // PAT handler
}
return r;
}
static inline int mpeg_ts_is_idr_first_packet(const void* packet, int bytes)
{
const unsigned char *data;
struct ts_packet_header_t pkhd;
int payload_unit_start_indicator;
memset(&pkhd, 0, sizeof(pkhd));
data = (const unsigned char *)packet;
payload_unit_start_indicator = data[1] & 0x40;
pkhd.adaptation_field_control = (data[3] >> 4) & 0x03;
pkhd.continuity_counter = data[3] & 0x0F;
if(0x02 == pkhd.adaptation_field_control || 0x03 == pkhd.adaptation_field_control)
{
adaptation_filed_read(&pkhd.adaptation, data + 4, bytes - 4);
}
return (payload_unit_start_indicator && pkhd.adaptation.random_access_indicator) ? 1 : 0;
}
struct ts_demuxer_t* ts_demuxer_create(ts_demuxer_onpacket onpacket, void* param)
{
struct ts_demuxer_t* ts;
ts = calloc(1, sizeof(struct ts_demuxer_t));
if (!ts)
return NULL;
ts->onpacket = onpacket;
ts->param = param;
return ts;
}
int ts_demuxer_destroy(struct ts_demuxer_t* ts)
{
pat_clear(&ts->pat);
free(ts);
return 0;
}
int ts_demuxer_getservice(struct ts_demuxer_t* ts, int program, char* provider, int nprovider, char* name, int nname)
{
struct pmt_t* pmt;
pmt = pat_find(&ts->pat, (uint16_t)program);
if(NULL == pmt)
return -1;
snprintf(provider, nprovider, "%s", pmt->provider);
snprintf(name, nname, "%s", pmt->name);
return 0;
}
void ts_demuxer_set_notify(struct ts_demuxer_t* ts, struct ts_demuxer_notify_t* notify, void* param)
{
ts->notify_param = param;
memcpy(&ts->notify, notify, sizeof(ts->notify));
}
static void ts_demuxer_notify(struct ts_demuxer_t* ts, const struct pmt_t* pmt)
{
unsigned int i;
const struct pes_t* pes;
if (!ts->notify.onstream)
return;
for (i = 0; i < pmt->stream_count; i++)
{
pes = &pmt->streams[i];
ts->notify.onstream(ts->notify_param, pes->pid, pes->codecid, pes->esinfo, pes->esinfo_len, i + 1 >= pmt->stream_count ? 1 : 0);
}
}