/* Execute external script/program */
int
notify_exec(char *cmd)
{
pid_t pid;
int ret;
pid = fork();
/* In case of fork is error. */
if (pid < 0) {
log_message(LOG_INFO, "Failed fork process");
return -1;
}
/* In case of this is parent process */
if (pid)
return 0;
signal_handler_destroy();
closeall(0);
open("/dev/null", O_RDWR);
ret = dup(0);
ret = dup(0);
system_call(cmd);
exit(0);
}
void obs_shutdown(void)
{
if (!obs)
return;
da_free(obs->input_types);
da_free(obs->filter_types);
da_free(obs->encoder_types);
da_free(obs->transition_types);
da_free(obs->output_types);
da_free(obs->service_types);
da_free(obs->modal_ui_callbacks);
da_free(obs->modeless_ui_callbacks);
stop_video();
obs_free_data();
obs_free_video();
obs_free_graphics();
obs_free_audio();
proc_handler_destroy(obs->procs);
signal_handler_destroy(obs->signals);
for (size_t i = 0; i < obs->modules.num; i++)
free_module(obs->modules.array+i);
da_free(obs->modules);
bfree(obs->locale);
bfree(obs);
obs = NULL;
}
/* Daemon stop sequence */
static void
stop_check(void)
{
/* Destroy master thread */
signal_handler_destroy();
thread_destroy_master(master);
free_checkers_queue();
free_ssl();
if (!(debug & 16))
clear_services();
ipvs_stop();
/* Stop daemon */
pidfile_rm(checkers_pidfile);
/* Clean data */
free_global_data(data);
free_check_data(check_data);
#ifdef _WITH_VRRP_
free_interface_queue();
#endif
#ifdef _DEBUG_
keepalived_free_final("Healthcheck child process");
#endif
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
closelog();
exit(0);
}
void obs_shutdown(void)
{
size_t i;
if (!obs)
return;
da_free(obs->input_types);
da_free(obs->filter_types);
da_free(obs->transition_types);
da_free(obs->output_types);
da_free(obs->service_types);
obs_free_data();
obs_free_video();
obs_free_graphics();
obs_free_audio();
media_close(obs->media);
proc_handler_destroy(obs->procs);
signal_handler_destroy(obs->signals);
for (i = 0; i < obs->modules.num; i++)
free_module(obs->modules.array+i);
da_free(obs->modules);
bfree(obs);
obs = NULL;
}
void obs_output_destroy(obs_output_t output)
{
if (output) {
if (output->valid) {
if (output->info.active) {
if (output->info.active(output->data))
output->info.stop(output->data);
}
pthread_mutex_lock(&obs->data.outputs_mutex);
da_erase_item(obs->data.outputs, &output);
pthread_mutex_unlock(&obs->data.outputs_mutex);
}
if (output->data)
output->info.destroy(output->data);
signal_handler_destroy(output->signals);
proc_handler_destroy(output->procs);
obs_data_release(output->settings);
bfree(output->name);
bfree(output);
}
}
void obs_fader_destroy(obs_fader_t *fader)
{
if (!fader)
return;
obs_fader_detach_source(fader);
signal_handler_destroy(fader->signals);
pthread_mutex_destroy(&fader->mutex);
bfree(fader);
}
/* Daemon stop sequence */
static void
stop_vrrp(void)
{
signal_handler_destroy();
if (!(debug & 8))
shutdown_vrrp_instances();
/* Clear static entries */
netlink_rtlist(vrrp_data->static_routes, IPROUTE_DEL);
netlink_iplist(vrrp_data->static_addresses, IPADDRESS_DEL, NULL);
#ifdef _WITH_SNMP_
if (snmp)
vrrp_snmp_agent_close();
#endif
/* Stop daemon */
pidfile_rm(vrrp_pidfile);
#ifdef _WITH_LVS_
if (vrrp_ipvs_needed()) {
/* Clean ipvs related */
ipvs_stop();
}
#endif
/* Clean data */
free_global_data(global_data);
vrrp_dispatcher_release(vrrp_data);
free_vrrp_data(vrrp_data);
free_vrrp_buffer();
free_interface_queue();
kernel_netlink_close();
thread_destroy_master(master);
gratuitous_arp_close();
ndisc_close();
#ifdef _DEBUG_
keepalived_free_final("VRRP Child process");
#endif
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
closelog();
exit(0);
}
void obs_context_data_free(struct obs_context_data *context)
{
signal_handler_destroy(context->signals);
proc_handler_destroy(context->procs);
obs_data_release(context->settings);
obs_context_data_remove(context);
pthread_mutex_destroy(&context->rename_cache_mutex);
bfree(context->name);
for (size_t i = 0; i < context->rename_cache.num; i++)
bfree(context->rename_cache.array[i]);
da_free(context->rename_cache);
memset(context, 0, sizeof(*context));
}
/* Reload thread */
int
reload_vrrp_thread(thread_t * thread)
{
/* set the reloading flag */
SET_RELOAD;
/* Signal handling */
signal_reset();
signal_handler_destroy();
/* Destroy master thread */
vrrp_dispatcher_release(vrrp_data);
kernel_netlink_close();
thread_destroy_master(master);
master = thread_make_master();
free_global_data(global_data);
free_interface_queue();
free_vrrp_buffer();
gratuitous_arp_close();
ndisc_close();
#ifdef _WITH_LVS_
if (vrrp_ipvs_needed()) {
/* Clean ipvs related */
ipvs_stop();
}
#endif
/* Save previous conf data */
old_vrrp_data = vrrp_data;
vrrp_data = NULL;
/* Reload the conf */
mem_allocated = 0;
vrrp_signal_init();
signal_set(SIGCHLD, thread_child_handler, master);
start_vrrp();
/* free backup data */
free_vrrp_data(old_vrrp_data);
UNSET_RELOAD;
return 0;
}
/* Daemon stop sequence */
static void
stop_check(int status)
{
/* Destroy master thread */
signal_handler_destroy();
thread_destroy_master(master);
free_checkers_queue();
free_ssl();
if (!__test_bit(DONT_RELEASE_IPVS_BIT, &debug))
clear_services();
ipvs_stop();
#ifdef _WITH_SNMP_CHECKER_
if (global_data->enable_snmp_checker)
check_snmp_agent_close();
#endif
/* Stop daemon */
pidfile_rm(checkers_pidfile);
/* Clean data */
free_global_data(global_data);
free_check_data(check_data);
#ifdef _WITH_VRRP_
free_interface_queue();
#endif
free_parent_mallocs_exit();
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
log_message(LOG_INFO, "Stopped");
closelog();
#ifndef _MEM_CHECK_LOG_
FREE_PTR(check_syslog_ident);
#else
if (check_syslog_ident)
free(check_syslog_ident);
#endif
exit(status);
}
/* Daemon stop sequence */
static void
stop_vrrp(void)
{
/* Destroy master thread */
signal_handler_destroy();
free_vrrp_sockpool(vrrp_data);
thread_destroy_master(master);
/* Clear static entries */
netlink_rtlist_ipv4(vrrp_data->static_routes, IPROUTE_DEL);
netlink_iplist_ipv4(-1, vrrp_data->static_addresses, IPADDRESS_DEL);
if (!(debug & 8))
shutdown_vrrp_instances();
free_interface_queue();
gratuitous_arp_close();
ndisc_close();
vrrp_trackip_close();
/* Stop daemon */
pidfile_rm(vrrp_pidfile);
/* Clean data */
free_global_data(data);
free_vrrp_data(vrrp_data);
free_vrrp_buffer();
#ifdef _WITH_LVS_
/* Clean ipvs related */
//ipvs_stop();
#endif
#ifdef _DEBUG_
keepalived_free_final("VRRP Child process");
#endif
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
closelog();
exit(0);
}
/* Daemon stop sequence */
static void
stop_keepalived(void)
{
/* Just cleanup memory & exit */
signal_handler_destroy();
thread_destroy_master(master);
pidfile_rm(main_pidfile);
if (__test_bit(DAEMON_VRRP, &daemon_mode))
pidfile_rm(vrrp_pidfile);
if (__test_bit(DAEMON_CHECKERS, &daemon_mode))
pidfile_rm(checkers_pidfile);
#ifdef _DEBUG_
keepalived_free_final("Parent process");
#endif
}
/* Daemon stop sequence */
static void
stop_keepalived(void)
{
log_message(LOG_INFO, "Stopping " VERSION_STRING);
/* Just cleanup memory & exit */
signal_handler_destroy();
thread_destroy_master(master);
pidfile_rm(main_pidfile);
if (daemon_mode & 1 || !daemon_mode)
pidfile_rm(vrrp_pidfile);
if (daemon_mode & 2 || !daemon_mode)
pidfile_rm(checkers_pidfile);
#ifdef _DEBUG_
keepalived_free_final("Parent process");
#endif
}
void obs_shutdown(void)
{
struct obs_module *module;
if (!obs)
return;
da_free(obs->input_types);
da_free(obs->filter_types);
da_free(obs->encoder_types);
da_free(obs->transition_types);
da_free(obs->output_types);
da_free(obs->service_types);
da_free(obs->modal_ui_callbacks);
da_free(obs->modeless_ui_callbacks);
stop_video();
obs_free_data();
obs_free_video();
obs_free_graphics();
obs_free_audio();
proc_handler_destroy(obs->procs);
signal_handler_destroy(obs->signals);
module = obs->first_module;
while (module) {
struct obs_module *next = module->next;
free_module(module);
module = next;
}
obs->first_module = NULL;
for (size_t i = 0; i < obs->module_paths.num; i++)
free_module_path(obs->module_paths.array+i);
da_free(obs->module_paths);
bfree(obs->locale);
bfree(obs);
obs = NULL;
}
static void obs_source_destroy(obs_source_t source)
{
size_t i;
obs_source_dosignal(source, "source-destroy");
if (source->filter_parent)
obs_source_filter_remove(source->filter_parent, source);
for (i = 0; i < source->filters.num; i++)
obs_source_release(source->filters.array[i]);
for (i = 0; i < source->audio_wait_buffer.num; i++)
audiobuf_free(source->audio_wait_buffer.array+i);
for (i = 0; i < source->video_frames.num; i++)
source_frame_destroy(source->video_frames.array[i]);
gs_entercontext(obs->video.graphics);
texture_destroy(source->output_texture);
gs_leavecontext();
if (source->data)
source->callbacks.destroy(source->data);
bfree(source->audio_data.data);
audio_line_destroy(source->audio_line);
audio_resampler_destroy(source->resampler);
proc_handler_destroy(source->procs);
signal_handler_destroy(source->signals);
da_free(source->video_frames);
da_free(source->audio_wait_buffer);
da_free(source->filters);
pthread_mutex_destroy(&source->filter_mutex);
pthread_mutex_destroy(&source->audio_mutex);
pthread_mutex_destroy(&source->video_mutex);
dstr_free(&source->settings);
bfree(source->name);
bfree(source);
}
/* Daemon stop sequence */
static void
stop_keepalived(void)
{
#ifndef _DEBUG_
/* Just cleanup memory & exit */
signal_handler_destroy();
thread_destroy_master(master);
#ifdef _WITH_VRRP_
if (__test_bit(DAEMON_VRRP, &daemon_mode))
pidfile_rm(vrrp_pidfile);
#endif
#ifdef _WITH_LVS_
if (__test_bit(DAEMON_CHECKERS, &daemon_mode))
pidfile_rm(checkers_pidfile);
#endif
pidfile_rm(main_pidfile);
#endif
}
/* Reload thread */
int
reload_check_thread(thread_t * thread)
{
/* set the reloading flag */
SET_RELOAD;
log_message(LOG_INFO, "Got SIGHUP, reloading checker configuration");
/* Signals handling */
signal_reset();
signal_handler_destroy();
/* Destroy master thread */
thread_destroy_master(master);
master = thread_make_master();
free_global_data(global_data);
free_checkers_queue();
#ifdef _WITH_VRRP_
free_interface_queue();
#endif
free_ssl();
ipvs_stop();
/* Save previous conf data */
old_check_data = check_data;
check_data = NULL;
/* Reload the conf */
mem_allocated = 0;
check_signal_init();
signal_set(SIGCHLD, thread_child_handler, master);
start_check();
/* free backup data */
free_check_data(old_check_data);
UNSET_RELOAD;
return 0;
}
/* Daemon stop sequence */
static void
stop_check(void)
{
/* Destroy master thread */
signal_handler_destroy();
thread_destroy_master(master);
free_checkers_queue();
free_ssl();
if (!__test_bit(DONT_RELEASE_IPVS_BIT, &debug))
clear_services();
ipvs_stop();
#ifdef _WITH_SNMP_CHECKER_
if (global_data->enable_snmp_checker)
check_snmp_agent_close();
#endif
/* Stop daemon */
pidfile_rm(checkers_pidfile);
/* Clean data */
free_global_data(global_data);
free_check_data(check_data);
#ifdef _WITH_VRRP_
free_interface_queue();
#endif
#ifdef _MEM_CHECK_
keepalived_free_final("Healthcheck child process");
#endif
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
log_message(LOG_INFO, "Stopped");
closelog();
exit(0);
}
int
misc_check_thread(thread * thread_obj)
{
checker *checker_obj;
misc_checker *misc_chk;
int status, ret;
pid_t pid;
checker_obj = THREAD_ARG(thread_obj);
misc_chk = CHECKER_ARG(checker_obj);
/*
* Register a new checker thread & return
* if checker is disabled
*/
if (!CHECKER_ENABLED(checker_obj)) {
/* Register next timer checker */
thread_add_timer(thread_obj->master, misc_check_thread, checker_obj,
checker_obj->vs->delay_loop);
return 0;
}
/* Register next timer checker */
thread_add_timer(thread_obj->master, misc_check_thread, checker_obj,
checker_obj->vs->delay_loop);
/* Daemonization to not degrade our scheduling timer */
pid = fork();
/* In case of fork is error. */
if (pid < 0) {
log_message(LOG_INFO, "Failed fork process");
return -1;
}
/* In case of this is parent process */
if (pid) {
long timeout;
timeout = (misc_chk->timeout) ? misc_chk->timeout : checker_obj->vs->delay_loop;
thread_add_child(thread_obj->master, misc_check_child_thread,
checker_obj, pid, timeout);
return 0;
}
/* Child part */
signal_handler_destroy();
closeall(0);
open("/dev/null", O_RDWR);
ret = dup(0);
ret = dup(0);
status = system_call(misc_chk->path);
if (status < 0 || !WIFEXITED(status))
status = 0; /* Script errors aren't server errors */
else
status = WEXITSTATUS(status);
exit(status);
}
/* Register CHECK thread */
int
start_check_child(void)
{
#ifndef _DEBUG_
pid_t pid;
int ret;
char *syslog_ident;
/* Initialize child process */
pid = fork();
if (pid < 0) {
log_message(LOG_INFO, "Healthcheck child process: fork error(%s)"
, strerror(errno));
return -1;
} else if (pid) {
checkers_child = pid;
log_message(LOG_INFO, "Starting Healthcheck child process, pid=%d"
, pid);
/* Start respawning thread */
thread_add_child(master, check_respawn_thread, NULL,
pid, RESPAWN_TIMER);
return 0;
}
if ((instance_name
#if HAVE_DECL_CLONE_NEWNET
|| network_namespace
#endif
) &&
(check_syslog_ident = make_syslog_ident(PROG_CHECK)))
syslog_ident = check_syslog_ident;
else
syslog_ident = PROG_CHECK;
/* Opening local CHECK syslog channel */
openlog(syslog_ident, LOG_PID | ((__test_bit(LOG_CONSOLE_BIT, &debug)) ? LOG_CONS : 0)
, (log_facility==LOG_DAEMON) ? LOG_LOCAL2 : log_facility);
#ifdef _MEM_CHECK_
mem_log_init(PROG_CHECK, "Healthcheck child process");
#endif
free_parent_mallocs_startup(true);
/* Child process part, write pidfile */
if (!pidfile_write(checkers_pidfile, getpid())) {
log_message(LOG_INFO, "Healthcheck child process: cannot write pidfile");
exit(KEEPALIVED_EXIT_FATAL);
}
/* Create the new master thread */
signal_handler_destroy();
thread_destroy_master(master); /* This destroys any residual settings from the parent */
master = thread_make_master();
/* change to / dir */
ret = chdir("/");
if (ret < 0) {
log_message(LOG_INFO, "Healthcheck child process: error chdir");
}
/* Set mask */
umask(0);
#endif
/* If last process died during a reload, we can get there and we
* don't want to loop again, because we're not reloading anymore.
*/
UNSET_RELOAD;
/* Signal handling initialization */
check_signal_init();
/* Start Healthcheck daemon */
start_check();
/* Launch the scheduling I/O multiplexer */
launch_scheduler();
/* Finish healthchecker daemon process */
stop_check(EXIT_SUCCESS);
/* unreachable */
exit(EXIT_SUCCESS);
}
/* Daemon stop sequence */
static void
stop_vrrp(void)
{
/* Ensure any interfaces are in backup mode,
* sending a priority 0 vrrp message
*/
restore_vrrp_interfaces();
#ifdef _HAVE_LIBIPTC_
iptables_fini();
#endif
/* Clear static entries */
netlink_rtlist(vrrp_data->static_routes, IPROUTE_DEL);
netlink_rulelist(vrrp_data->static_rules, IPRULE_DEL);
netlink_iplist(vrrp_data->static_addresses, IPADDRESS_DEL);
#ifdef _WITH_SNMP_
if (global_data->enable_snmp_keepalived || global_data->enable_snmp_rfc)
vrrp_snmp_agent_close();
#endif
/* Stop daemon */
pidfile_rm(vrrp_pidfile);
#ifdef _WITH_LVS_
if (vrrp_ipvs_needed()) {
/* Clean ipvs related */
ipvs_stop();
}
#endif
/* Clean data */
free_global_data(global_data);
vrrp_dispatcher_release(vrrp_data);
/* This is not nice, but it significantly increases the chances
* of an IGMP leave group being sent for some reason.
* Since we are about to exit, it doesn't affect anything else
* running. */
sleep ( 1 );
if (!__test_bit(DONT_RELEASE_VRRP_BIT, &debug))
shutdown_vrrp_instances();
free_vrrp_data(vrrp_data);
free_vrrp_buffer();
free_interface_queue();
kernel_netlink_close();
thread_destroy_master(master);
gratuitous_arp_close();
ndisc_close();
signal_handler_destroy();
#ifdef _DEBUG_
keepalived_free_final("VRRP Child process");
#endif
/*
* Reached when terminate signal catched.
* finally return to parent process.
*/
closelog();
exit(0);
}
/* Register VRRP thread */
int
start_vrrp_child(void)
{
#ifndef _DEBUG_
pid_t pid;
int ret;
/* Initialize child process */
pid = fork();
if (pid < 0) {
log_message(LOG_INFO, "VRRP child process: fork error(%s)"
, strerror(errno));
return -1;
} else if (pid) {
vrrp_child = pid;
log_message(LOG_INFO, "Starting VRRP child process, pid=%d"
, pid);
/* Start respawning thread */
thread_add_child(master, vrrp_respawn_thread, NULL,
pid, RESPAWN_TIMER);
return 0;
}
signal_handler_destroy();
/* Opening local VRRP syslog channel */
openlog(PROG_VRRP, LOG_PID | ((__test_bit(LOG_CONSOLE_BIT, &debug)) ? LOG_CONS : 0)
, (log_facility==LOG_DAEMON) ? LOG_LOCAL1 : log_facility);
/* Child process part, write pidfile */
if (!pidfile_write(vrrp_pidfile, getpid())) {
/* Fatal error */
log_message(LOG_INFO, "VRRP child process: cannot write pidfile");
exit(0);
}
/* Create the new master thread */
thread_destroy_master(master);
master = thread_make_master();
/* change to / dir */
ret = chdir("/");
if (ret < 0) {
log_message(LOG_INFO, "VRRP child process: error chdir");
}
/* Set mask */
umask(0);
#endif
/* If last process died during a reload, we can get there and we
* don't want to loop again, because we're not reloading anymore.
*/
UNSET_RELOAD;
/* Signal handling initialization */
vrrp_signal_init();
/* Start VRRP daemon */
start_vrrp();
/* Launch the scheduling I/O multiplexer */
launch_scheduler();
/* Finish VRRP daemon process */
stop_vrrp();
exit(0);
}
