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input.c
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input.c
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/*
* mptsd input handling
* Copyright (C) 2010-2011 Unix Solutions Ltd.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*/
#include <stdio.h>
#include <math.h>
#include <stdlib.h>
#include <unistd.h>
#include <signal.h>
#include <string.h>
#include "libfuncs/io.h"
#include "libfuncs/log.h"
#include "libtsfuncs/tsfuncs.h"
#include "data.h"
#include "config.h"
#include "network.h"
extern int keep_going;
// #define dump_tables 1
#define MAX_ZERO_READS 3
/* Start: 3 seconds on connect */
/* In connection: Max UDP timeout == 3 seconds (read) + 2 seconds (connect) == 5 seconds */
#define UDP_READ_RETRIES 3
#define UDP_READ_TIMEOUT 1000
/* Start: 1/4 seconds on connect */
/* In connection: Max TCP timeout == 5 seconds (read) + 2 seconds (connect) == 7 seconds */
/* In connection: Max TCP timeout == 5 seconds (read) + 8 seconds (connect, host unrch) == 13 seconds */
#define TCP_READ_RETRIES 5
#define TCP_READ_TIMEOUT 1000
// Init pmt_pid and nit_pid
// Return 0 on error, 1 on success
int input_process_pat(INPUT *r) {
int i;
int num_programs = 0;
INPUT_STREAM *s = &r->stream;
struct ts_pat *pat = s->pat;
s->nit_pid = 0x10; // Default NIT pid
for (i=0;i<pat->programs_num;i++) {
struct ts_pat_program *prg = pat->programs[i];
if (prg->pid) {
if (prg->program == 0) { // NIT
s->nit_pid = prg->pid;
} else { // PAT
s->pmt_pid = prg->pid;
num_programs++;
break; // Get only the first program
}
}
}
// MPTS is not supported as input stream in the moment
if (num_programs > 1) {
LOGf("INPUT : %-10s | Can't handle MPTS (%d programs) as input stream\n", r->channel->id, num_programs);
return 0;
}
return 1;
}
void input_rewrite_pat(INPUT *r) {
int i;
INPUT_STREAM *s = &r->stream;
struct ts_pat *new_pat = ts_pat_copy(s->pat);
if (!new_pat)
return;
// Rewrite PAT pids
for (i=0;i<new_pat->programs_num;i++) {
struct ts_pat_program *prg = new_pat->programs[i];
if (prg->program != 0) { // Skip NIT
// Add pid to rewriter
pidref_add(s->pidref, prg->pid, s->pidref->base_pid);
// Rewrite PAT
prg->program = r->channel->service_id;
prg->pid = s->pidref->base_pid;
s->pidref->base_pid++;
}
}
// Save rewritten packet
ts_pat_regenerate_packets(new_pat);
s->pat_rewritten = new_pat;
}
void input_rewrite_pmt(INPUT *r) {
INPUT_STREAM *s = &r->stream;
struct ts_pmt *new_pmt = ts_pmt_copy(s->pmt);
if (!new_pmt)
return;
// Rewrite PMT pids
new_pmt->ts_header.pid = pidref_get_new_pid(s->pidref, s->pmt_pid);
new_pmt->section_header->ts_id_number = r->channel->service_id;
uint16_t org_pcr_pid = new_pmt->PCR_pid;
s->pcr_pid = new_pmt->PCR_pid;
pidref_add(s->pidref, org_pcr_pid, s->pidref->base_pid);
new_pmt->PCR_pid = s->pidref->base_pid;
r->output_pcr_pid = new_pmt->PCR_pid;
s->pidref->base_pid++;
int i;
for (i=0;i<new_pmt->streams_num;i++) {
struct ts_pmt_stream *stream = new_pmt->streams[i];
if (stream->pid == org_pcr_pid) { // Already rewritten and added to pidref
stream->pid = new_pmt->PCR_pid;
continue;
}
pidref_add(s->pidref, stream->pid, s->pidref->base_pid);
stream->pid = s->pidref->base_pid;
s->pidref->base_pid++;
}
ts_pmt_regenerate_packets(new_pmt);
s->pmt_rewritten = new_pmt;
}
extern CONFIG *config;
void input_buffer_add(INPUT *r, uint8_t *data, int datasize) {
if (r->dienow)
return;
if (r->ifd)
write(r->ifd, data, datasize);
if (r->disabled) {
unsigned long bufsize = r->buf->input - r->buf->output;
double buffull = ((double)bufsize / r->buf->size) * 100;
if (buffull <= 50) {
proxy_log(r, "Enable input");
r->disabled = 0;
} else {
return;
}
}
if (cbuf_fill(r->buf, data, datasize) != 0) {
proxy_log(r, "Disable input, buffer is full.");
r->disabled = 1;
}
}
int input_check_state(INPUT *r) {
if (r->dienow) {
// proxy_log(r, "Forced disconnect.");
return 2;
}
if (r->reconnect) {
proxy_log(r, "Forced reconnect.");
return 1;
}
return 0;
}
int process_pat(INPUT *r, uint16_t pid, uint8_t *ts_packet) {
INPUT_STREAM *s = &r->stream;
if (pid != 0)
return 0;
// Process PAT
s->pat = ts_pat_push_packet(s->pat, ts_packet);
if (s->last_pat->initialized) {
if (!ts_pat_is_same(s->pat, s->last_pat)) {
proxy_log(r, "========================PAT changed.========================");
return -1; // Reconnect
}
ts_pat_free(&s->last_pat);
s->last_pat = ts_pat_alloc();
}
s->last_pat = ts_pat_push_packet(s->last_pat, ts_packet);
if (s->pat->initialized) {
// PMT pid is still unknown
if (!s->pmt_pid) {
if (!input_process_pat(r)) {
proxy_log(r, "Can't parse PAT to find PMT pid.");
return -1;
}
}
// Rewritten PAT is not yet initialized
if (!s->pat_rewritten || !s->pat_rewritten->initialized) {
input_rewrite_pat(r);
#if dump_tables
proxy_log(r, "PAT found!");
proxy_log(r, "*** Original PAT ***");
ts_pat_dump(s->pat);
proxy_log(r, "*** Rewritten PAT ***");
ts_pat_dump(s->pat_rewritten);
pidref_dump(s->pidref);
#endif
}
// Only if output file is written
if (r->ifd && s->pat_rewritten && s->pat_rewritten->initialized) {
int j;
struct ts_pat *P = s->pat_rewritten;
for (j=0;j<P->section_header->num_packets;j++) {
ts_packet_set_cont(P->section_header->packet_data + (j * TS_PACKET_SIZE), j + s->pid_pat_cont);
}
P->ts_header.continuity = s->pid_pat_cont;
s->pid_pat_cont += P->section_header->num_packets;
write(r->ifd, P->section_header->packet_data, P->section_header->num_packets * TS_PACKET_SIZE);
}
}
// Stuff packet with NULL data
memset(ts_packet, 0xff, TS_PACKET_SIZE);
ts_packet[0] = 0x47;
ts_packet[1] = 0x1F;
ts_packet[2] = 0xFF;
ts_packet[3] = 0x10;
return 1;
}
int process_pmt(INPUT *r, uint16_t pid, uint8_t *ts_packet) {
INPUT_STREAM *s = &r->stream;
if (!pid || pid != s->pmt_pid)
return 0;
s->pmt = ts_pmt_push_packet(s->pmt, ts_packet);
if (s->last_pmt->initialized) {
if (!ts_pmt_is_same(s->pmt, s->last_pmt)) {
proxy_log(r, "========================PMT changed.========================");
return -2; // Reconnect
}
ts_pmt_free(&s->last_pmt);
s->last_pmt = ts_pmt_alloc();
}
s->last_pmt = ts_pmt_push_packet(s->last_pmt, ts_packet);
if (s->pmt->initialized) {
if (!s->pmt_rewritten || !s->pmt_rewritten->initialized) {
input_rewrite_pmt(r);
#if dump_tables
proxy_log(r, "PMT found!");
proxy_log(r, "*** Original PMT ***");
ts_pmt_dump(s->pmt);
proxy_log(r, "*** Rewritten PMT ***");
ts_pmt_dump(s->pmt_rewritten);
// pidref_dump(s->pidref);
#endif
}
if (s->pmt_rewritten && s->pmt_rewritten->initialized) {
int j;
struct ts_pmt *P = s->pmt_rewritten;
for (j=0;j<P->section_header->num_packets;j++) {
ts_packet_set_cont(P->section_header->packet_data + (j * TS_PACKET_SIZE), j + s->pid_pmt_cont);
}
P->ts_header.continuity = s->pid_pmt_cont;
s->pid_pmt_cont += P->section_header->num_packets;
input_buffer_add(r, P->section_header->packet_data, P->section_header->num_packets * TS_PACKET_SIZE);
}
return -1;
}
return 1;
}
int in_worktime(int start, int end) {
if (!start && !end)
return 1;
struct tm ltime;
time_t timep = time(NULL);
localtime_r(&timep, <ime);
int seconds = ltime.tm_sec + ltime.tm_min * 60 + ltime.tm_hour * 3600;
if (start > end) {
if (start >= seconds && end < seconds)
return 0;
else
return 1;
} else {
if (start <= seconds && end > seconds)
return 1;
else
return 0;
}
return 1;
}
void * input_stream(void *self) {
INPUT *r = self;
INPUT_STREAM *s = &r->stream;
char buffer[RTP_HEADER_SIZE + FRAME_PACKET_SIZE];
char *buf = buffer + RTP_HEADER_SIZE;
signal(SIGPIPE, SIG_IGN);
proxy_log(r, "Start");
r->working = in_worktime(r->channel->worktime_start, r->channel->worktime_end);
if (!r->working)
proxy_log(r, "Worktime has not yet begin, sleeping.");
int http_code = 0;
while (keep_going) {
if (input_check_state(r) == 2) // r->dienow is on
goto QUIT;
while (!r->working) {
usleep(250000);
r->working = in_worktime(r->channel->worktime_start, r->channel->worktime_end);
if (r->working)
proxy_log(r, "Worktime started.");
if (!keep_going)
goto QUIT;
}
r->working = in_worktime(r->channel->worktime_start, r->channel->worktime_end);
int result = connect_source(self, 1, FRAME_PACKET_SIZE * 1000, &http_code);
if (result != 0)
goto RECONNECT;
channel_source sproto = get_sproto(r->channel->source);
int rtp = is_rtp(r->channel->source);
if (!rtp && mpeg_sync(r, sproto) != 0) {
proxy_log(r, "Can't sync input MPEG TS");
sleep(2);
goto RECONNECT;
}
ssize_t readen;
int max_zero_reads = MAX_ZERO_READS;
// Reset all stream parameters on reconnect.
input_stream_reset(r);
for (;;) {
r->working = in_worktime(r->channel->worktime_start, r->channel->worktime_end);
if (!r->working) {
proxy_log(r, "Worktime ended.");
goto STOP;
}
switch (input_check_state(r)) {
case 1: goto RECONNECT; // r->reconnect is on
case 2: goto QUIT; // r->dienow is on
}
if (sproto == tcp_sock) {
readen = fdread_ex(r->sock, buf, FRAME_PACKET_SIZE, TCP_READ_TIMEOUT, TCP_READ_RETRIES, 1);
} else {
if (!rtp) {
readen = fdread_ex(r->sock, buf, FRAME_PACKET_SIZE, UDP_READ_TIMEOUT, UDP_READ_RETRIES, 0);
} else {
readen = fdread_ex(r->sock, buffer, FRAME_PACKET_SIZE + RTP_HEADER_SIZE, UDP_READ_TIMEOUT, UDP_READ_RETRIES, 0);
if (readen > RTP_HEADER_SIZE)
readen -= RTP_HEADER_SIZE;
}
}
if (readen < 0)
goto RECONNECT;
if (readen == 0) { // ho, hum, wtf is going on here?
proxy_log(r, "Zero read, continuing...");
if (--max_zero_reads == 0) {
proxy_log(r, "Max zero reads reached, reconnecting.");
break;
}
continue;
}
int i;
for (i=0; i<readen; i+=188) {
if (r->dienow)
goto QUIT;
uint8_t *ts_packet = (uint8_t *)buf + i;
uint16_t pid = ts_packet_get_pid(ts_packet);
if (process_pat(r, pid, ts_packet) < 0)
goto RECONNECT;
int pmt_result = process_pmt(r, pid, ts_packet);
if (pmt_result == -2)
goto RECONNECT;
if (pmt_result < 0) // PMT rewritten
continue;
pid = ts_packet_get_pid(ts_packet);
// Kill incomming NIT, SDT, EIT, RST, TDT/TOT
if (pid == s->nit_pid || pid == 0x10 || pid == 0x11 || pid == 0x12 || pid == 0x13 || pid == 0x14 || pid == 0x1fff) {
// LOGf("INPUT: %-10s: Remove PID %03x\n", r->channel->id, pid);
continue;
}
// Do we have PAT and PMT? (if we have pmt we have PAT, so check only for PMT)
if (s->pmt_rewritten && pid == s->pcr_pid && ts_packet_has_pcr(ts_packet)) {
s->input_pcr = ts_packet_get_pcr(ts_packet);
// LOGf("INPUT : [%-12s] PCR: %llu\n", r->channel->id, s->input_pcr);
}
// Yes, we have enough data to start outputing
if (s->input_pcr) {
pidref_change_packet_pid(ts_packet, pid, s->pidref);
input_buffer_add(r, ts_packet, TS_PACKET_SIZE);
if (!r->input_ready)
r->input_ready = 1;
}
}
max_zero_reads = MAX_ZERO_READS;
}
proxy_log(r, "fdread timeout");
RECONNECT:
proxy_log(r, "Reconnect");
shutdown_fd(&(r->sock));
chansrc_next(r->channel);
continue;
STOP:
proxy_log(r, "Stop");
shutdown_fd(&(r->sock));
continue;
QUIT:
break;
}
proxy_close(config->inputs, &r);
return 0;
}