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tdt.c
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tdt.c
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/*
* TDT/TOT table parser and generator
* Copyright (C) 2010-2011 Unix Solutions Ltd.
*
* Released under MIT license.
* See LICENSE-MIT.txt for license terms.
*/
#include <stdio.h>
#include <unistd.h>
#include <netdb.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include "tsfuncs.h"
struct ts_tdt *ts_tdt_alloc() {
struct ts_tdt *tdt = calloc(1, sizeof(struct ts_tdt));
tdt->section_header = ts_section_data_alloc();
return tdt;
}
void ts_tdt_clear(struct ts_tdt *tdt) {
if (!tdt)
return;
// save
struct ts_section_header *section_header = tdt->section_header;
// free
FREE(tdt->descriptors);
// clear
ts_section_data_clear(section_header);
memset(tdt, 0, sizeof(struct ts_tdt));
// restore
tdt->section_header = section_header;
}
void ts_tdt_free(struct ts_tdt **ptdt) {
struct ts_tdt *tdt = *ptdt;
if (tdt) {
ts_section_data_free(&tdt->section_header);
FREE(tdt->descriptors);
FREE(*ptdt);
}
}
struct ts_tdt *ts_tdt_push_packet(struct ts_tdt *tdt, uint8_t *ts_packet) {
struct ts_header ts_header;
memset(&ts_header, 0, sizeof(struct ts_header));
if (ts_packet_header_parse(ts_packet, &ts_header)) {
// TDT/TOT should be with PID 0x11
if (ts_header.pid != 0x14)
goto OUT;
// Received PUSI packet before table END, clear the table to start gathering new one
if (ts_header.pusi && tdt->ts_header.pusi)
ts_tdt_clear(tdt);
if (!tdt->ts_header.pusi)
tdt->ts_header = ts_header;
}
if (ts_header.pusi) {
struct ts_section_header section_header;
memset(§ion_header, 0, sizeof(struct ts_section_header));
uint8_t *section_data = ts_section_header_parse(ts_packet, &tdt->ts_header, §ion_header);
if (!section_data) {
memset(&tdt->ts_header, 0, sizeof(struct ts_header));
goto OUT;
}
// table_id should be 0x70 (time_date_section)
// or table_id should be 0x73 (time_offset_section)
if (section_header.table_id != 0x70 && section_header.table_id != 0x73) {
memset(&tdt->ts_header, 0, sizeof(struct ts_header));
goto OUT;
}
// Set correct section_header
ts_section_header_parse(ts_packet, &tdt->ts_header, tdt->section_header);
}
if (!tdt->initialized) {
ts_section_add_packet(tdt->section_header, &ts_header, ts_packet);
if (tdt->section_header->initialized) {
if (!ts_tdt_parse(tdt))
goto ERROR;
}
}
OUT:
return tdt;
ERROR:
ts_tdt_clear(tdt);
return tdt;
}
int ts_tdt_parse(struct ts_tdt *tdt) {
struct ts_section_header *sec = tdt->section_header;
uint8_t *data = sec->data;
tdt->mjd = (data[0] << 8) | data[1];
tdt->bcd = ((data[2] << 16) | (data[3] << 8)) | data[4];
data += 5;
tdt->utc = ts_time_decode_mjd(tdt->mjd, tdt->bcd, &tdt->tm);
if (sec->table_id == 0x73) { // TOT
tdt->reserved_3 = data[0] >> 4; // xxxx1111
tdt->descriptors_size = data[0] &~ 0xf0; // 1111xxxx
tdt->descriptors_size |= data[1]; // xxxxxxxx
data += 2;
if (tdt->descriptors_size) {
tdt->descriptors = malloc(tdt->descriptors_size);
memcpy(tdt->descriptors, data, tdt->descriptors_size);
}
if (!ts_crc32_section_check(tdt->section_header, "TOT"))
return 0;
}
tdt->initialized = 1;
return 1;
}
void ts_tdt_generate(struct ts_tdt *tdt, uint8_t **ts_packets, int *num_packets) {
uint8_t *secdata = ts_section_data_alloc_section();
ts_section_header_generate(secdata, tdt->section_header, 0);
int curpos = 3; // Compensate for the section header, first data byte is at offset 3
secdata[curpos + 0] = (tdt->mjd &~ 0x00ff) >> 8;
secdata[curpos + 1] = (tdt->mjd &~ 0xff00);
secdata[curpos + 2] = (tdt->bcd >> 16);
secdata[curpos + 3] = (tdt->bcd >> 8) &~ 0xff00;
secdata[curpos + 4] = (tdt->bcd << 16) >> 16;
curpos += 5; // For the fields above
if (tdt->section_header->table_id == 0x73) { // TOT
secdata[curpos + 0] = tdt->reserved_3 << 4;
secdata[curpos + 0] |= tdt->descriptors_size >> 8;
secdata[curpos + 1] = tdt->descriptors_size &~ 0xf00;
curpos += 2;
if (tdt->descriptors_size > 0) {
memcpy(secdata + curpos, tdt->descriptors, tdt->descriptors_size);
curpos += tdt->descriptors_size;
}
tdt->section_header->CRC = ts_section_data_calculate_crc(secdata, curpos);
curpos += 4; // CRC
}
ts_section_data_gen_ts_packets(&tdt->ts_header, secdata, curpos, tdt->section_header->pointer_field, ts_packets, num_packets);
FREE(secdata);
}
struct ts_tdt *ts_tdt_copy(struct ts_tdt *tdt) {
struct ts_tdt *newtdt = ts_tdt_alloc();
int i;
for (i=0;i<tdt->section_header->num_packets; i++) {
newtdt = ts_tdt_push_packet(newtdt, tdt->section_header->packet_data + (i * TS_PACKET_SIZE));
}
if (newtdt->initialized) {
return newtdt;
} else {
ts_LOGf("Error copying tdt!\n");
ts_tdt_free(&newtdt);
return NULL;
}
}
void ts_tdt_check_generator(struct ts_tdt *tdt) {
struct ts_tdt *tdt1 = ts_tdt_alloc();
int i;
char *prefix1 = "TDT (tspacket->struct)";
char *prefix2 = "TDT (struct->tspacket)";
if (tdt->section_header->table_id == 0x73) {
prefix1[1] = 'O';
prefix2[1] = 'O';
}
for (i=0;i<tdt->section_header->num_packets;i++) {
tdt1 = ts_tdt_push_packet(tdt1, tdt->section_header->packet_data + (i * TS_PACKET_SIZE));
}
ts_compare_data(prefix1, // "TDT (tspacket->struct)",
tdt1->section_header->packet_data,
tdt->section_header->packet_data,
tdt->section_header->num_packets * TS_PACKET_SIZE);
ts_tdt_free(&tdt1);
uint8_t *ts_packets;
int num_packets;
ts_tdt_generate(tdt, &ts_packets, &num_packets);
if (num_packets != tdt->section_header->num_packets) {
ts_LOGf("ERROR: num_packets:%d != sec->num_packets:%d\n", num_packets, tdt->section_header->num_packets);
}
ts_compare_data(prefix2 /* "TDT (struct->tspacket)" */, tdt->section_header->packet_data, ts_packets, num_packets * TS_PACKET_SIZE);
free(ts_packets);
}
void ts_tdt_dump(struct ts_tdt *tdt) {
struct ts_section_header *sec = tdt->section_header;
struct tm tm;
time_t ts;
uint16_t mjd_check;
uint32_t bcd_check;
ts_section_dump(sec);
ts = ts_time_decode_mjd(tdt->mjd, tdt->bcd, &tm);
ts_time_encode_mjd(&mjd_check, &bcd_check, &ts, &tm);
ts_LOGf(" * %s data\n", sec->table_id == 0x70 ? "TDT" : "TOT");
ts_LOGf(" - MJD : 0x%04x (%04d-%02d-%02d) unixts: %ld check:0x%04x\n",
tdt->mjd,
tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday,
ts, mjd_check);
ts_LOGf(" - BCD : 0x%06x (%02d:%02d:%02d) check:0x%06x\n",
tdt->bcd,
tm.tm_hour, tm.tm_min, tm.tm_sec,
bcd_check);
ts_LOGf(" - UTC Time : %lu (%04d-%02d-%02d %02d:%02d:%02d)\n" , tdt->utc,
tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday,
tm.tm_hour, tm.tm_min, tm.tm_sec);
if (sec->table_id == 0x73 && tdt->descriptors_size) { // TOT
ts_descriptor_dump(tdt->descriptors, tdt->descriptors_size);
}
ts_tdt_check_generator(tdt);
}
int ts_tdt_is_same(struct ts_tdt *tdt1, struct ts_tdt *tdt2) {
if (tdt1 == tdt2) return 1; // Same
if (tdt1 && tdt2)
return ts_section_is_same(tdt1->section_header, tdt2->section_header);
else
return 0;
}