/**
* 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;
}
/**
* 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;
}
/* main loop */
int main_loop()
{
int i;
pid_t pid;
struct socket_info* si;
#ifdef USE_TCP
int sockfd[2];
#endif
/* one "main" process and n children handling i/o */
is_main=0;
if (dont_fork){
#ifdef STATS
setstats( 0 );
#endif
if (udp_listen==0){
LOG(L_ERR, "ERROR: 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){
LOG(L_WARN, "WARNING: using only the first listen address"
" (no fork)\n");
}
/* initialize fifo server -- we need to open the fifo before
* do_suid() and start the fifo server after all the socket
* are initialized, to inherit them*/
if (init_fifo_server()<0) {
LOG(L_ERR, "initializing fifo server failed\n");
goto error;
}
/* Initialize Unix domain socket server */
if (init_unixsock_socket()<0) {
LOG(L_ERR, "Error while creating unix domain sockets\n");
goto error;
}
if (do_suid()==-1) goto error; /* try to drop privileges */
/* process_no now initialized to zero -- increase from now on
as new processes are forked (while skipping 0 reserved for main
*/
/* we need another process to act as the timer*/
#ifdef USE_TCP
/* if we are using tcp we always need a timer process,
* we cannot count on select timeout to measure time
* (it works only on linux)
*/
if ((!tcp_disable)||(timer_list))
#else
if (timer_list)
#endif
{
process_no++;
if ((pid=fork())<0){
LOG(L_CRIT, "ERROR: main_loop: Cannot fork\n");
goto error;
}
if (pid==0){
/* child */
/* timer!*/
/* process_bit = 0; */
if (init_child(PROC_TIMER) < 0) {
LOG(L_ERR, "timer: init_child failed\n");
goto error;
}
for(;;){
sleep(TIMER_TICK);
timer_ticker();
}
}else{
pt[process_no].pid=pid; /*should be shared mem anyway*/
strncpy(pt[process_no].desc, "timer", MAX_PT_DESC );
}
}
/* if configured, start a server for accepting FIFO commands,
* we need to do it after all the sockets are initialized, to
* inherit them*/
if (start_fifo_server()<0) {
LOG(L_ERR, "starting fifo server failed\n");
goto error;
}
if (init_unixsock_children()<0) {
LOG(L_ERR, "Error while initializing Unix domain socket server\n");
goto error;
}
/* main process, receive loop */
process_no=0; /*main process number*/
pt[process_no].pid=getpid();
snprintf(pt[process_no].desc, MAX_PT_DESC,
"stand-alone receiver @ %s:%s",
bind_address->name.s, bind_address->port_no_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) {
LOG(L_ERR, "main_dontfork: init_child failed\n");
goto error;
}
is_main=1; /* hack 42: call init_child with is_main=0 in case
some modules wants to fork a child */
return udp_rcv_loop();
}else{
/* process_no now initialized to zero -- increase from now on
as new processes are forked (while skipping 0 reserved for main )
*/
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 */
/* initialize fifo server -- we need to open the fifo before
* do_suid() and start the fifo server after all the socket
* are initialized, to inherit them*/
if (init_fifo_server()<0) {
LOG(L_ERR, "initializing fifo server failed\n");
goto error;
}
/* Initialize Unix domain socket server */
/* Create the unix domain sockets */
if (init_unixsock_socket()<0) {
LOG(L_ERR, "ERROR: Could not create unix domain sockets\n");
goto error;
}
/* all processes should have access to all the sockets (for sending)
* so we open all first*/
if (do_suid()==-1) goto error; /* try to drop privileges */
/* if configured, start a server for accepting FIFO commands,
* we need to do it after all the sockets are initialized, to
* inherit them*/
if (start_fifo_server()<0) {
LOG(L_ERR, "starting fifo server failed\n");
goto error;
}
/* Spawn children listening on unix domain socket if and only if
* the unix domain socket server has not been disabled (i == 0)
*/
if (init_unixsock_children()<0) {
LOG(L_ERR, "ERROR: Could not initialize unix domain socket server\n");
goto error;
}
/* udp processes */
for(si=udp_listen; si; si=si->next){
for(i=0;i<children_no;i++){
process_no++;
#ifdef USE_TCP
if(!tcp_disable){
if (socketpair(AF_UNIX, SOCK_STREAM, 0, sockfd)<0){
LOG(L_ERR, "ERROR: main_loop: socketpair failed: %s\n",
strerror(errno));
goto error;
}
}
#endif
if ((pid=fork())<0){
LOG(L_CRIT, "main_loop: Cannot fork\n");
goto error;
}else if (pid==0){
/* child */
#ifdef USE_TCP
if (!tcp_disable){
close(sockfd[0]);
unix_tcp_sock=sockfd[1];
}
#endif
bind_address=si; /* shortcut */
if (init_child(i + 1) < 0) {
LOG(L_ERR, "init_child failed\n");
goto error;
}
#ifdef STATS
setstats( i+r*children_no );
#endif
return udp_rcv_loop();
}else{
pt[process_no].pid=pid; /*should be in shared mem.*/
snprintf(pt[process_no].desc, MAX_PT_DESC,
"receiver child=%d sock= %s:%s", i,
si->name.s, si->port_no_str.s );
#ifdef USE_TCP
if (!tcp_disable){
close(sockfd[1]);
pt[process_no].unix_sock=sockfd[0];
pt[process_no].idx=-1; /* this is not a "tcp"
process*/
}
#endif
}
}
/*parent*/
/*close(udp_sock)*/; /*if it's closed=>sendto invalid fd errors?*/
}
}
/*this is the main process*/
bind_address=0; /* main proc -> it shouldn't send anything, */
#ifdef USE_TCP
/* if we are using tcp we always need the timer */
if ((!tcp_disable)||(timer_list))
#else
if (timer_list)
#endif
{
#ifdef USE_TCP
if (!tcp_disable){
if (socketpair(AF_UNIX, SOCK_STREAM, 0, sockfd)<0){
LOG(L_ERR, "ERROR: main_loop: socketpair failed: %s\n",
strerror(errno));
goto error;
}
}
#endif
/* fork again for the attendant process*/
process_no++;
if ((pid=fork())<0){
LOG(L_CRIT, "main_loop: cannot fork timer process\n");
goto error;
}else if (pid==0){
/* child */
/* is_main=0; */
#ifdef USE_TCP
if (!tcp_disable){
close(sockfd[0]);
unix_tcp_sock=sockfd[1];
}
#endif
if (init_child(PROC_TIMER) < 0) {
LOG(L_ERR, "timer: init_child failed\n");
goto error;
}
for(;;){
/* debug: instead of doing something useful */
/* (placeholder for timers, etc.) */
sleep(TIMER_TICK);
/* if we received a signal => TIMER_TICK may have not elapsed*/
timer_ticker();
}
}else{
pt[process_no].pid=pid;
strncpy(pt[process_no].desc, "timer", MAX_PT_DESC );
#ifdef USE_TCP
if(!tcp_disable){
close(sockfd[1]);
pt[process_no].unix_sock=sockfd[0];
pt[process_no].idx=-1; /* this is not a "tcp" process*/
}
#endif
}
}
#ifdef USE_TCP
if (!tcp_disable){
/* start tcp & tls receivers */
if (tcp_init_children()<0) goto error;
/* start tcp+tls master proc */
process_no++;
if ((pid=fork())<0){
LOG(L_CRIT, "main_loop: cannot fork tcp main process\n");
goto error;
}else if (pid==0){
/* child */
/* is_main=0; */
if (init_child(PROC_TCP_MAIN) < 0) {
LOG(L_ERR, "tcp_main: error in init_child\n");
goto error;
}
tcp_main_loop();
}else{
pt[process_no].pid=pid;
strncpy(pt[process_no].desc, "tcp main process", MAX_PT_DESC );
pt[process_no].unix_sock=-1;
pt[process_no].idx=-1; /* this is not a "tcp" process*/
unix_tcp_sock=-1;
}
}
#endif
/* main */
pt[0].pid=getpid();
strncpy(pt[0].desc, "attendant", MAX_PT_DESC );
#ifdef USE_TCP
if(!tcp_disable){
pt[process_no].unix_sock=-1;
pt[process_no].idx=-1; /* this is not a "tcp" process*/
unix_tcp_sock=-1;
}
#endif
/*DEBUG- remove it*/
#ifdef DEBUG
fprintf(stderr, "\n% 3d processes (%3d), % 3d children * "
"listening addresses + tcp listeners + tls listeners"
"+ main + fifo %s\n", process_no+1, process_count(), children_no,
(timer_list)?"+ timer":"");
for (r=0; r<=process_no; r++){
fprintf(stderr, "% 3d % 5d - %s\n", r, pt[r].pid, pt[r].desc);
}
#endif
process_no=0;
/* process_bit = 0; */
is_main=1;
if (init_child(PROC_MAIN) < 0) {
LOG(L_ERR, "main: error in init_child\n");
goto error;
}
for(;;){
pause();
handle_sigs();
}
/*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;
}