Exemple #1
0
/*
 * called in the OpenSIPS initialization phase by the main process.
 * forks the binary packet UDP receivers.
 *
 * @return: 0 on success
 */
int start_bin_receivers(void)
{
	pid_t pid;
	int i;

	if (udp_init_listener(bin, 0) != 0)
		return -1;

	for (i = 1; i <= bin_children; i++) {
		if ((pid = internal_fork("BIN receiver")) < 0) {
			LM_CRIT("Cannot fork binary packet receiver process!\n");
			return -1;
		}

		if (pid == 0) {
			LM_DBG("CHILD sock: %d\n", bin->socket);

			child_index = i;
			set_proc_attrs("BIN receiver %.*s ",
							bin->sock_str.len,
							bin->sock_str.s);
			bind_address = bin;

			if (init_child(PROC_BIN) < 0) {
				LM_ERR("init_child failed for BIN listener\n");
				report_failure_status();
				exit(-1);
			}

			bin_receive_loop();
			exit(-1);
		} else
			LM_DBG("PARENT sock: %d\n", bin->socket);
	}

	return 0;
}
Exemple #2
0
/**
 * Main loop, forks the children, bind to addresses,
 * handle signals.
 * \return don't return on sucess, -1 on error
 */
static int main_loop(void)
{
	static int chd_rank;
	int  i;
	pid_t pid;
	struct socket_info* si;
	int* startup_done = NULL;
	atomic_t *load_p;

	chd_rank=0;

	if (dont_fork){
		if (udp_listen==0){
			LM_ERR("no fork mode requires at least one"
					" udp listen address, exiting...\n");
			goto error;
		}
		/* only one address, we ignore all the others */
		if (udp_init(udp_listen)==-1) goto error;
		bind_address=udp_listen;
		sendipv4=bind_address;
		sendipv6=bind_address; /*FIXME*/
		if (udp_listen->next){
			LM_WARN("using only the first listen address (no fork)\n");
		}

		/* try to drop privileges */
		if (do_suid(uid, gid)==-1)
			goto error;

		if (start_module_procs()!=0) {
			LM_ERR("failed to fork module processes\n");
			goto error;
		}

		/* we need another process to act as the timer*/
		if (start_timer_processes()!=0) {
			LM_CRIT("cannot start timer process(es)\n");
			goto error;
		}

		/* main process, receive loop */
		set_proc_attrs("stand-alone SIP receiver %.*s", 
			 bind_address->sock_str.len, bind_address->sock_str.s );

		/* We will call child_init even if we
		 * do not fork - and it will be called with rank 1 because
		 * in fact we behave like a child, not like main process */
		if (init_child(1) < 0) {
			LM_ERR("init_child failed in don't fork\n");
			goto error;
		}

		if (startup_rlist.a)
			run_startup_route();

		is_main=1;
		load_p = shm_malloc(sizeof(atomic_t));
		if (!load_p) {
		/* highly improbable */
			LM_ERR("no more shm\n");
			goto error;
		}
		memset(load_p,0,sizeof(atomic_t));
		pt[process_no].load = load_p;

		register_udp_load_stat(&udp_listen->sock_str,load_p);
		return udp_rcv_loop();
	} else {  /* don't fork */

		for(si=udp_listen;si;si=si->next){
			/* create the listening socket (for each address)*/
			/* udp */
			if (udp_init(si)==-1) goto error;
			/* get first ipv4/ipv6 socket*/
			if ((si->address.af==AF_INET)&&
					((sendipv4==0)||(sendipv4->flags&SI_IS_LO)))
				sendipv4=si;
			#ifdef USE_IPV6
			if((sendipv6==0)&&(si->address.af==AF_INET6))
				sendipv6=si;
			#endif
		}
		#ifdef USE_TCP
		if (!tcp_disable){
			for(si=tcp_listen; si; si=si->next){
				/* same thing for tcp */
				if (tcp_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&&
						((sendipv4_tcp==0)||(sendipv4_tcp->flags&SI_IS_LO)))
					sendipv4_tcp=si;
				#ifdef USE_IPV6
				if((sendipv6_tcp==0)&&(si->address.af==AF_INET6))
					sendipv6_tcp=si;
				#endif
			}
		}
		#ifdef USE_TLS
		if (!tls_disable){
			for(si=tls_listen; si; si=si->next){
				/* same as for tcp*/
				if (tls_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&&
						((sendipv4_tls==0)||(sendipv4_tls->flags&SI_IS_LO)))
					sendipv4_tls=si;
				#ifdef USE_IPV6
				if((sendipv6_tls==0)&&(si->address.af==AF_INET6))
					sendipv6_tls=si;
				#endif
			}
		}
		#endif /* USE_TLS */
		#endif /* USE_TCP */
		#ifdef USE_SCTP
		if (!sctp_disable){
			for(si=sctp_listen; si; si=si->next){
				/* same thing for sctp */
				if (sctp_server_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&&
						((sendipv4_sctp==0)||(sendipv4_sctp->flags&SI_IS_LO)))
					sendipv4_sctp=si;
			#ifdef USE_IPV6
				if((sendipv6_sctp==0)&&(si->address.af==AF_INET6))
					sendipv6_sctp=si;
			#endif
			}
		}
		#endif /* USE_SCTP */

		/* all processes should have access to all the sockets (for sending)
		 * so we open all first*/
		if (do_suid(uid, gid)==-1) goto error; /* try to drop privileges */

		if (start_module_procs()!=0) {
			LM_ERR("failed to fork module processes\n");
			goto error;
		}

		if(startup_rlist.a) {/* if a startup route was defined */
			startup_done = (int*)shm_malloc(sizeof(int));
			if(startup_done == NULL)
			{
				LM_ERR("No more shared memory\n");
				goto error;
			}
			*startup_done = 0;
		}

		/* udp processes */
		for(si=udp_listen; si; si=si->next){
			load_p = shm_malloc(sizeof(atomic_t));
			if (!load_p) {
			/* highly improbable */
				LM_ERR("no more shm\n");
				goto error;
			}
			memset(load_p,0,sizeof(atomic_t));
			register_udp_load_stat(&si->sock_str,load_p);

			for(i=0;i<children_no;i++){
				chd_rank++;
				if ( (pid=internal_fork( "UDP receiver"))<0 ) {
					LM_CRIT("cannot fork UDP process\n");
					goto error;
				} else {
					if (pid==0) {
						/* new UDP process */
						/* set a more detailed description */
						set_proc_attrs("SIP receiver %.*s ",
							si->sock_str.len, si->sock_str.s);
						bind_address=si; /* shortcut */
						if (init_child(chd_rank) < 0) {
							LM_ERR("init_child failed for UDP listener\n");
							exit(-1);
						}

						if(chd_rank == 1 && startup_rlist.a) {
							if(run_startup_route()< 0) {
								LM_ERR("Startup route processing failed\n");
								exit(-1);
							}
							*startup_done = 1;
						}

						/* all UDP listeners on same interface
						 * have same SHM load pointer */
						pt[process_no].load = load_p;
						udp_rcv_loop();
						exit(-1);
					}
					else {
						/* if the first process that runs startup_route*/
						if(chd_rank == 1 && startup_rlist.a) {
							while(!startup_done) {
								usleep(5);
							}
							shm_free(startup_done);
						}
					}
				}
			}
			/*parent*/
			/*close(udp_sock)*/; /*if it's closed=>sendto invalid fd errors?*/
		}
	}

	#ifdef USE_SCTP
	if(!sctp_disable){
		for(si=sctp_listen; si; si=si->next){
			for(i=0;i<children_no;i++){
				chd_rank++;
				if ( (pid=internal_fork( "SCTP receiver"))<0 ) {
					LM_CRIT("cannot fork SCTP process\n");
					goto error;
				} else if (pid==0){
					/* new SCTP process */
					/* set a more detailed description */
					set_proc_attrs("SIP receiver %.*s ",
						si->sock_str.len, si->sock_str.s);
					bind_address=si; /* shortcut */
					if (init_child(chd_rank) < 0) {
						LM_ERR("init_child failed\n");
						exit(-1);
					}
					sctp_server_rcv_loop();
					exit(-1);
				}
			}
		}
	}
	#endif /* USE_SCTP */

	/* this is the main process -> it shouldn't send anything */
	bind_address=0;

	/* fork for the timer process*/
	if (start_timer_processes()!=0) {
		LM_CRIT("cannot start timer process(es)\n");
		goto error;
	}

	#ifdef USE_TCP
	if (!tcp_disable){
		/* start tcp  & tls receivers */
		if (tcp_init_children(&chd_rank)<0) goto error;
		/* start tcp+tls master proc */
		if ( (pid=internal_fork( "TCP main"))<0 ) {
			LM_CRIT("cannot fork tcp main process\n");
			goto error;
		}else if (pid==0){
			/* child */
			/* close the TCP inter-process sockets */
			close(unix_tcp_sock);
			unix_tcp_sock = -1;
			close(pt[process_no].unix_sock);
			pt[process_no].unix_sock = -1;
			/* init modules */
			if (init_child(PROC_TCP_MAIN) < 0) {
				LM_ERR("error in init_child for tcp main\n");
				exit(-1);
			}
			tcp_main_loop();
			exit(-1);
		}
	}
	#endif

	/* main process left */
	is_main=1;
	set_proc_attrs("attendant");

	if (init_child(PROC_MAIN) < 0) {
		LM_ERR("error in init_child for PROC_MAIN\n");
		goto error;
	}

	for(;;){
			handle_sigs();
			pause();
	}

	/*return 0; */
error:
	is_main=1;  /* if we are here, we are the "main process",
				  any forked children should exit with exit(-1) and not
				  ever use return */
	return -1;

}
Exemple #3
0
/*! \brief starts the tcp processes */
int tcp_init_children(int *chd_rank)
{
	int r;
	//int sockfd[2];
	int reader_fd[2]; /* for comm. with the tcp children read  */
	pid_t pid;
	struct socket_info *si;
	atomic_t *load_p;
	
	/* estimate max fd. no:
	 * 1 tcp send unix socket/all_proc, 
	 *  + 1 udp sock/udp proc + 1 tcp_child sock/tcp child*
	 *  + no_listen_tcp */
	for(r=0, si=tcp_listen; si; si=si->next, r++);
#ifdef USE_TLS
	if (! tls_disable)
		for (si=tls_listen; si; si=si->next, r++);
#endif
	
	tcp_max_fd_no=counted_processes*2 +r-1 /* timer */ +3; /* stdin/out/err*/
	tcp_max_fd_no+=tcp_max_connections;
	
	/* create the tcp sock_info structures */
	/* copy the sockets --moved to main_loop*/
	
	load_p = shm_malloc(sizeof(atomic_t));
	if (!load_p)
		goto error;
	memset(load_p,0,sizeof(atomic_t));
	register_tcp_load_stat(load_p);

	/* fork children & create the socket pairs*/
	for(r=0; r<tcp_children_no; r++){
		/*if (socketpair(AF_UNIX, SOCK_STREAM, 0, sockfd)<0){
			LM_ERR("socketpair failed: %s\n", strerror(errno));
			goto error;
		}*/
		if (socketpair(AF_UNIX, SOCK_STREAM, 0, reader_fd)<0){
			LM_ERR("socketpair failed: %s\n", strerror(errno));
			goto error;
		}
		
		(*chd_rank)++;
		pid=internal_fork("SIP receiver TCP");
		if (pid<0){
			LM_ERR("fork failed\n");
			goto error;
		}else if (pid>0){
			/* parent */
			close(reader_fd[1]);
			tcp_children[r].pid=pid;
			tcp_children[r].proc_no=process_no;
			tcp_children[r].busy=0;
			tcp_children[r].n_reqs=0;
			tcp_children[r].unix_sock=reader_fd[0];
		}else{
			/* child */
			set_proc_attrs("TCP receiver");
			pt[process_no].idx=r;
			pt[process_no].load = load_p;
			bind_address=0; /* force a SEGFAULT if someone uses a non-init.
							   bind address on tcp */
			if (init_child(*chd_rank) < 0) {
				LM_ERR("init_children failed\n");
				exit(-1);
			}
	
			tcp_receive_loop(reader_fd[1]);
			exit(-1);
		}
	}
	return 0;
error:
	return -1;
}
Exemple #4
0
int tcp_start_processes(int *chd_rank, int *startup_done)
{
	int r, n;
	int reader_fd[2]; /* for comm. with the tcp children read  */
	pid_t pid;
	struct socket_info *si;
	stat_var *load_p = NULL;

	if (tcp_disabled)
		return 0;

	/* estimate max fd. no:
	 * 1 tcp send unix socket/all_proc,
	 *  + 1 udp sock/udp proc + 1 tcp_child sock/tcp child*
	 *  + no_listen_tcp */
	for( r=0,n=PROTO_FIRST ; n<PROTO_LAST ; n++ )
		if ( is_tcp_based_proto(n) )
			for(si=protos[n].listeners; si ; si=si->next,r++ );

	if (register_tcp_load_stat( &load_p )!=0) {
		LM_ERR("failed to init tcp load statistic\n");
		goto error;
	}

	/* start the TCP workers & create the socket pairs */
	for(r=0; r<tcp_children_no; r++){
		/* create sock to communicate from TCP main to worker */
		if (socketpair(AF_UNIX, SOCK_STREAM, 0, reader_fd)<0){
			LM_ERR("socketpair failed: %s\n", strerror(errno));
			goto error;
		}

		(*chd_rank)++;
		pid=internal_fork("SIP receiver TCP");
		if (pid<0){
			LM_ERR("fork failed\n");
			goto error;
		}else if (pid>0){
			/* parent */
			close(reader_fd[1]);
			tcp_children[r].pid=pid;
			tcp_children[r].proc_no=process_no;
			tcp_children[r].busy=0;
			tcp_children[r].n_reqs=0;
			tcp_children[r].unix_sock=reader_fd[0];
		}else{
			/* child */
			set_proc_attrs("TCP receiver");
			pt[process_no].idx=r;
			pt[process_no].load = load_p;
			if (init_child(*chd_rank) < 0) {
				LM_ERR("init_children failed\n");
				report_failure_status();
				if (startup_done)
					*startup_done = -1;
				exit(-1);
			}

			/* was startup route executed so far ? */
			if (startup_done!=NULL && *startup_done==0 && r==0) {
				LM_DBG("runing startup for first TCP\n");
				if(run_startup_route()< 0) {
					LM_ERR("Startup route processing failed\n");
					report_failure_status();
					*startup_done = -1;
					exit(-1);
				}
				*startup_done = 1;
			}

			report_conditional_status( 1, 0);

			tcp_worker_proc( reader_fd[1] );
			exit(-1);
		}
	}

	/* wait for the startup route to be executed */
	if (startup_done)
		while (!(*startup_done)) {
			usleep(5);
			handle_sigs();
		}

	/* start the TCP manager process */
	if ( (pid=internal_fork( "TCP main"))<0 ) {
		LM_CRIT("cannot fork tcp main process\n");
		goto error;
	}else if (pid==0){
			/* child */
		/* close the TCP inter-process sockets */
		close(unix_tcp_sock);
		unix_tcp_sock = -1;
		close(pt[process_no].unix_sock);
		pt[process_no].unix_sock = -1;

		report_conditional_status( (!no_daemon_mode), 0);

		tcp_main_server();
		exit(-1);
	}

	return 0;
error:
	return -1;
}
Exemple #5
0
/**
 * Main loop, forks the children, bind to addresses,
 * handle signals.
 * \return don't return on sucess, -1 on error
 */
static int main_loop(void)
{
	static int chd_rank;
	int  i,rc;
	pid_t pid;
	struct socket_info* si;
	int* startup_done = NULL;
	stat_var *load_p = NULL;

	chd_rank=0;

	if (init_debug() != 0) {
		LM_ERR("failed to init logging levels\n");
		goto error;
	}

	if (dont_fork){

		if (create_status_pipe() < 0) {
			LM_ERR("failed to create status pipe");
			goto error;
		}

		if (udp_listen==0){
			LM_ERR("no fork mode requires at least one"
					" udp listen address, exiting...\n");
			goto error;
		}
		/* only one address, we ignore all the others */
		if (udp_init(udp_listen)==-1) goto error;
		bind_address=udp_listen;
		sendipv4=bind_address;
		sendipv6=bind_address; /*FIXME*/
		if (udp_listen->next){
			LM_WARN("using only the first listen address (no fork)\n");
		}

		/* try to drop privileges */
		if (do_suid(uid, gid)==-1)
			goto error;

		if (start_module_procs()!=0) {
			LM_ERR("failed to fork module processes\n");
			goto error;
		}

		/* we need another process to act as the timer*/
		if (start_timer_processes()!=0) {
			LM_CRIT("cannot start timer process(es)\n");
			goto error;
		}

		/* main process, receive loop */
		set_proc_attrs("stand-alone SIP receiver %.*s",
			 bind_address->sock_str.len, bind_address->sock_str.s );

		/* We will call child_init even if we
		 * do not fork - and it will be called with rank 1 because
		 * in fact we behave like a child, not like main process */
		if (init_child(1) < 0) {
			LM_ERR("init_child failed in don't fork\n");
			goto error;
		}

		if (startup_rlist.a)
			run_startup_route();

		is_main=1;

		if (register_udp_load_stat(&udp_listen->sock_str,
		&pt[process_no].load, 1)!=0) {
			LM_ERR("failed to init udp load statistics\n");
			goto error;
		}

		clean_write_pipeend();
		LM_DBG("waiting for status code from children\n");
		rc = wait_for_all_children();
		if (rc < 0) {
			LM_ERR("failed to succesfully init children\n");
			return rc;
		}

		return udp_rcv_loop();
	} else {  /* don't fork */

		for(si=udp_listen;si;si=si->next){
			/* create the listening socket (for each address)*/
			/* udp */
			if (udp_init(si)==-1) goto error;
			/* get first ipv4/ipv6 socket*/
			if ((si->address.af==AF_INET)&&
					((sendipv4==0)||(sendipv4->flags&SI_IS_LO)))
				sendipv4=si;
			#ifdef USE_IPV6
			if((sendipv6==0)&&(si->address.af==AF_INET6))
				sendipv6=si;
			#endif
		}
		#ifdef USE_TCP
		if (!tcp_disable){
			for(si=tcp_listen; si; si=si->next){
				/* same thing for tcp */
				if (tcp_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&
						((sendipv4_tcp==0)||(sendipv4_tcp->flags&SI_IS_LO)))
					sendipv4_tcp=si;
				#ifdef USE_IPV6
				if((sendipv6_tcp==0)&&(si->address.af==AF_INET6))
					sendipv6_tcp=si;
				#endif
			}
		}
		#ifdef USE_TLS
		if (!tls_disable){
			for(si=tls_listen; si; si=si->next){
				/* same as for tcp*/
				if (tls_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&&
						((sendipv4_tls==0)||(sendipv4_tls->flags&SI_IS_LO)))
					sendipv4_tls=si;
				#ifdef USE_IPV6
				if((sendipv6_tls==0)&&(si->address.af==AF_INET6))
					sendipv6_tls=si;
				#endif
			}
		}
		#endif /* USE_TLS */
		#endif /* USE_TCP */
		#ifdef USE_SCTP
		if (!sctp_disable){
			for(si=sctp_listen; si; si=si->next){
				/* same thing for sctp */
				if (sctp_server_init(si)==-1)  goto error;
				/* get first ipv4/ipv6 socket*/
				if ((si->address.af==AF_INET)&&
						((sendipv4_sctp==0)||(sendipv4_sctp->flags&SI_IS_LO)))
					sendipv4_sctp=si;
			#ifdef USE_IPV6
				if((sendipv6_sctp==0)&&(si->address.af==AF_INET6))
					sendipv6_sctp=si;
			#endif
			}
		}
		#endif /* USE_SCTP */

		/* all processes should have access to all the sockets (for sending)
		 * so we open all first*/
		if (do_suid(uid, gid)==-1) goto error; /* try to drop privileges */

		if (start_module_procs()!=0) {
			LM_ERR("failed to fork module processes\n");
			goto error;
		}

		if(startup_rlist.a) {/* if a startup route was defined */
			startup_done = (int*)shm_malloc(sizeof(int));
			if(startup_done == NULL) {
				LM_ERR("No more shared memory\n");
				goto error;
			}
			*startup_done = 0;
		}

		if (fix_socket_list(&bin) != 0) {
			LM_ERR("failed to initialize binary interface socket list!\n");
			goto error;
		}

		/* OpenSIPS <--> OpenSIPS communication interface */
		if (bin && start_bin_receivers() != 0) {
			LM_CRIT("cannot start binary interface receiver processes!\n");
			goto error;
		}

		/* udp processes */
		for(si=udp_listen; si; si=si->next){

			if(register_udp_load_stat(&si->sock_str,&load_p,si->children)!=0){
				LM_ERR("failed to init load statistics\n");
				goto error;
			}

			for(i=0;i<si->children;i++){
				chd_rank++;
				if ( (pid=internal_fork( "UDP receiver"))<0 ) {
					LM_CRIT("cannot fork UDP process\n");
					goto error;
				} else {
					if (pid==0) {
						/* new UDP process */
						/* set a more detailed description */
						set_proc_attrs("SIP receiver %.*s ",
							si->sock_str.len, si->sock_str.s);
						bind_address=si; /* shortcut */
						if (init_child(chd_rank) < 0) {
							LM_ERR("init_child failed for UDP listener\n");
							if (send_status_code(-1) < 0)
								LM_ERR("failed to send status code\n");
							clean_write_pipeend();
							if (chd_rank == 1 && startup_done)
								*startup_done = -1;
							exit(-1);
						}

						/* first UDP proc runs statup_route (if defined) */
						if(chd_rank == 1 && startup_done!=NULL) {
							LM_DBG("runing startup for first UDP\n");
							if(run_startup_route()< 0) {
								if (send_status_code(-1) < 0)
									LM_ERR("failed to send status code\n");
								clean_write_pipeend();
								*startup_done = -1;
								LM_ERR("Startup route processing failed\n");
								exit(-1);
							}
							*startup_done = 1;
						}

						if (!no_daemon_mode && send_status_code(0) < 0)
							LM_ERR("failed to send status code\n");
						clean_write_pipeend();


						/* all UDP listeners on same interface
						 * have same SHM load pointer */
						pt[process_no].load = load_p;
						udp_rcv_loop();
						exit(-1);
					}
					else {
						/* wait for first proc to finish the startup route */
						if(chd_rank == 1 && startup_done!=NULL)
							while( !(*startup_done) ) {usleep(5);handle_sigs();}
					}
				}
			}
			/*parent*/
			/*close(udp_sock)*/; /*if it's closed=>sendto invalid fd errors?*/
		}
	}

	#ifdef USE_SCTP
	if(!sctp_disable){
		for(si=sctp_listen; si; si=si->next){
			for(i=0;i<si->children;i++){
				chd_rank++;
				if ( (pid=internal_fork( "SCTP receiver"))<0 ) {
					LM_CRIT("cannot fork SCTP process\n");
					goto error;
				} else if (pid==0){
					/* new SCTP process */
					/* set a more detailed description */
					set_proc_attrs("SIP receiver %.*s ",
						si->sock_str.len, si->sock_str.s);
					bind_address=si; /* shortcut */
					if (init_child(chd_rank) < 0) {
						LM_ERR("init_child failed\n");
						if (send_status_code(-1) < 0)
							LM_ERR("failed to send status code\n");
						clean_write_pipeend();
						if( (si==sctp_listen && i==0) && startup_done)
							*startup_done = -1;
						exit(-1);
					}

					/* was startup route executed so far ? if not, run it only by the
					 * first SCTP proc (first proc from first interface) */
					if( (si==sctp_listen && i==0) && startup_done!=NULL && *startup_done==0) {
						LM_DBG("runing startup for first SCTP\n");
						if(run_startup_route()< 0) {
							LM_ERR("Startup route processing failed\n");
							if (send_status_code(-1) < 0)
								LM_ERR("failed to send status code\n");
							clean_write_pipeend();
							*startup_done = -1;
							exit(-1);
						}
						*startup_done = 1;
					}

					if (!no_daemon_mode && send_status_code(0) < 0)
						LM_ERR("failed to send status code\n");
					clean_write_pipeend();

					sctp_server_rcv_loop();
					exit(-1);
				} else {
					/* wait for first proc to finish the startup route */
					if( (si==sctp_listen && i==0) && startup_done!=NULL)
						while( !(*startup_done) ) {usleep(5);handle_sigs();}
				}
			}
		}
	}
	#endif /* USE_SCTP */

	/* this is the main process -> it shouldn't send anything */
	bind_address=0;

	/* fork for the timer process*/
	if (start_timer_processes()!=0) {
		LM_CRIT("cannot start timer process(es)\n");
		goto error;
	}

	#ifdef USE_TCP
	if (!tcp_disable){
		/* start tcp  & tls receivers */
		if (tcp_init_children(&chd_rank, startup_done)<0) goto error;
		/* wait for the startup route to be executed */
		if( startup_done!=NULL)
			while( !(*startup_done) ) {usleep(5);handle_sigs();}
		/* start tcp+tls master proc */
		if ( (pid=internal_fork( "TCP main"))<0 ) {
			LM_CRIT("cannot fork tcp main process\n");
			goto error;
		}else if (pid==0){
			/* child */
			/* close the TCP inter-process sockets */
			close(unix_tcp_sock);
			unix_tcp_sock = -1;
			close(pt[process_no].unix_sock);
			pt[process_no].unix_sock = -1;
			/* init modules */
			if (init_child(PROC_TCP_MAIN) < 0) {
				LM_ERR("error in init_child for tcp main\n");
				if (send_status_code(-1) < 0)
					LM_ERR("failed to send status code\n");
				clean_write_pipeend();

				exit(-1);
			}

			if (!no_daemon_mode && send_status_code(0) < 0)
				LM_ERR("failed to send status code\n");
			clean_write_pipeend();

			tcp_main_loop();
			exit(-1);
		}
	}
	#endif

	if (startup_done) {
		if (*startup_done==0)
			LM_CRIT("BUG: startup route defined, but not run :( \n");
		shm_free(startup_done);
	}

	/* main process left */
	is_main=1;
	set_proc_attrs("attendant");

	if (init_child(PROC_MAIN) < 0) {
		if (send_status_code(-1) < 0)
			LM_ERR("failed to send status code\n");
		clean_write_pipeend();
		LM_ERR("error in init_child for PROC_MAIN\n");
		goto error;
	}

	if (!no_daemon_mode && send_status_code(0) < 0)
		LM_ERR("failed to send status code\n");
	clean_write_pipeend();

	for(;;){
			handle_sigs();
			pause();
	}

	/*return 0; */
error:
	is_main=1;  /* if we are here, we are the "main process",
				  any forked children should exit with exit(-1) and not
				  ever use return */
	if (!dont_fork && send_status_code(-1) < 0)
		LM_ERR("failed to send status code\n");
	clean_write_pipeend();

	return -1;

}
Exemple #6
0
int start_timer_processes(void)
{
    struct sr_timer_process *tpl;
    pid_t pid;

    /*
     * A change of the way timers were run. In the pre-1.5 times,
     * all timer processes had their own jiffies and just the first
     * one was doing the global ones. Now, there's a separate process
    * that increases jiffies - run_timer_process_jif(), and the rest
     * just use that one.
     *
     * The main reason for this change was when a function that relied
     * on jiffies for its timeouts got called from the timer thread and
     * was unable to detect timeouts.
     */

    if ( (pid=internal_fork("time_keeper"))<0 ) {
        LM_CRIT("cannot fork time keeper process\n");
        goto error;
    } else if (pid==0) {
        /* new process */
        clean_write_pipeend();

        run_timer_process_jif();
        exit(-1);
    }

    for( tpl=timer_proc_list ; tpl ; tpl=tpl->next ) {
        if (tpl->timer_list==NULL && tpl->utimer_list==NULL)
            continue;
        /* fork a new process */
        if ( (pid=internal_fork("timer"))<0 ) {
            LM_CRIT("cannot fork timer process\n");
            goto error;
        } else if (pid==0) {
            /* new process */
            /* run init if required */
            if ( tpl->flags&TIMER_PROC_INIT_FLAG ) {
                LM_DBG("initializing timer\n");
                inc_init_timer();
                if (init_child(PROC_TIMER)<0 ) {
                    LM_ERR("init_child failed for timer proc\n");

                    if (send_status_code(-1) < 0)
                        LM_ERR("failed to send status code\n");
                    clean_write_pipeend();

                    exit(-1);
                }

                if (!no_daemon_mode && send_status_code(0) < 0)
                    LM_ERR("failed to send status code\n");
                clean_write_pipeend();
            } else
                clean_write_pipeend();

            run_timer_process( tpl );
            exit(-1);
        }
    }

    return 0;
error:
    return -1;
}
Exemple #7
0
int start_module_procs(void)
{
	struct sr_module *m;
	unsigned int n;
	unsigned int l;
	pid_t x;

	for( m=modules ; m ; m=m->next) {
		if (m->exports->procs==NULL)
			continue;
		for( n=0 ; m->exports->procs[n].name ; n++) {
			if ( !m->exports->procs[n].no || !m->exports->procs[n].function )
				continue;
			/* run pre-fork function */
			if (m->exports->procs[n].pre_fork_function)
				if (m->exports->procs[n].pre_fork_function()!=0) {
					LM_ERR("pre-fork function failed for process \"%s\" "
						"in module %s\n",
						m->exports->procs[n].name, m->exports->name);
					return -1;
				}
			/* fork the processes */
			for ( l=0; l<m->exports->procs[n].no ; l++) {
				LM_DBG("forking process \"%s\"/%d for module %s\n",
					m->exports->procs[n].name, l, m->exports->name);
				x = internal_fork(m->exports->procs[n].name);
				if (x<0) {
					LM_ERR("failed to fork process \"%s\"/%d for module %s\n",
						m->exports->procs[n].name, l, m->exports->name);
					return -1;
				} else if (x==0) {
					/* new process */
					/* initialize the process for the rest of the modules */
					if ( m->exports->procs[n].flags&PROC_FLAG_INITCHILD ) {
						if (init_child(PROC_MODULE) < 0) {
							LM_ERR("error in init_child for PROC_MODULE\n");
							if (send_status_code(-1) < 0)
								LM_ERR("failed to send status code\n");
							clean_write_pipeend();
							exit(-1);
						}

						if (send_status_code(0) < 0)
							LM_ERR("failed to send status code\n");
						clean_write_pipeend();
					} else
						clean_write_pipeend();

					/* run the function */
					m->exports->procs[n].function(l);
					/* we shouldn't get here */
					exit(0);
				}
			}
			/* run post-fork function */
			if (m->exports->procs[n].post_fork_function)
				if (m->exports->procs[n].post_fork_function()!=0) {
					LM_ERR("post-fork function failed for process \"%s\" "
						"in module %s\n",
						m->exports->procs[n].name, m->exports->name);
					return -1;
				}
		}
	}

	return 0;
}