void zergpool_loop(int id) {
int i;
int zergpool_queue = event_queue_init();
void *events = event_queue_alloc(ZERGPOOL_EVENTS);
struct zergpool_socket *zps = zergpool_sockets;
while(zps) {
event_queue_add_fd_read(zergpool_queue, zps->fd);
zps = zps->next;
}
for(;;) {
int nevents = event_queue_wait_multi(zergpool_queue, -1, events, ZERGPOOL_EVENTS);
for(i=0;i<nevents;i++) {
int interesting_fd = event_queue_interesting_fd(events, i);
zps = zergpool_sockets;
while(zps) {
if (zps->fd == interesting_fd) {
uwsgi_manage_zerg(zps->fd, zps->num_sockets, zps->sockets);
}
zps = zps->next;
}
}
}
}
int master_loop(char **argv, char **environ) {
uint64_t tmp_counter;
struct timeval last_respawn;
int last_respawn_rate = 0;
int pid_found = 0;
pid_t diedpid;
int waitpid_status;
uint8_t uwsgi_signal;
time_t last_request_timecheck = 0, now = 0;
uint64_t last_request_count = 0;
pthread_t logger_thread;
pthread_t cache_sweeper;
#ifdef UWSGI_UDP
int udp_fd = -1;
#ifdef UWSGI_MULTICAST
char *cluster_opt_buf = NULL;
size_t cluster_opt_size = 4;
#endif
#endif
#ifdef UWSGI_SNMP
int snmp_fd = -1;
#endif
int i = 0;
int rlen;
int check_interval = 1;
struct uwsgi_rb_timer *min_timeout;
struct rb_root *rb_timers = uwsgi_init_rb_timer();
if (uwsgi.procname_master) {
uwsgi_set_processname(uwsgi.procname_master);
}
else if (uwsgi.procname) {
uwsgi_set_processname(uwsgi.procname);
}
else if (uwsgi.auto_procname) {
uwsgi_set_processname("uWSGI master");
}
uwsgi.current_time = uwsgi_now();
uwsgi_unix_signal(SIGTSTP, suspend_resume_them_all);
uwsgi_unix_signal(SIGHUP, grace_them_all);
if (uwsgi.die_on_term) {
uwsgi_unix_signal(SIGTERM, kill_them_all);
uwsgi_unix_signal(SIGQUIT, reap_them_all);
}
else {
uwsgi_unix_signal(SIGTERM, reap_them_all);
uwsgi_unix_signal(SIGQUIT, kill_them_all);
}
uwsgi_unix_signal(SIGINT, kill_them_all);
uwsgi_unix_signal(SIGUSR1, stats);
if (uwsgi.auto_snapshot) {
uwsgi_unix_signal(SIGURG, uwsgi_restore_auto_snapshot);
}
atexit(uwsgi_master_cleanup_hooks);
uwsgi.master_queue = event_queue_init();
/* route signals to workers... */
#ifdef UWSGI_DEBUG
uwsgi_log("adding %d to signal poll\n", uwsgi.shared->worker_signal_pipe[0]);
#endif
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.shared->worker_signal_pipe[0]);
#ifdef UWSGI_SPOOLER
if (uwsgi.spoolers) {
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.shared->spooler_signal_pipe[0]);
}
#endif
if (uwsgi.mules_cnt > 0) {
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.shared->mule_signal_pipe[0]);
}
if (uwsgi.log_master) {
uwsgi.log_master_buf = uwsgi_malloc(uwsgi.log_master_bufsize);
if (!uwsgi.threaded_logger) {
#ifdef UWSGI_DEBUG
uwsgi_log("adding %d to master logging\n", uwsgi.shared->worker_log_pipe[0]);
#endif
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.shared->worker_log_pipe[0]);
}
else {
if (pthread_create(&logger_thread, NULL, logger_thread_loop, NULL)) {
uwsgi_error("pthread_create()");
uwsgi_log("falling back to non-threaded logger...\n");
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.shared->worker_log_pipe[0]);
uwsgi.threaded_logger = 0;
}
}
#ifdef UWSGI_ALARM
// initialize the alarm subsystem
uwsgi_alarms_init();
#endif
}
if (uwsgi.cache_max_items > 0 && !uwsgi.cache_no_expire) {
if (pthread_create(&cache_sweeper, NULL, cache_sweeper_loop, NULL)) {
uwsgi_error("pthread_create()");
uwsgi_log("unable to run the cache sweeper !!!\n");
}
else {
uwsgi_log("cache sweeper thread enabled\n");
}
}
uwsgi.wsgi_req->buffer = uwsgi.workers[0].cores[0].buffer;
if (uwsgi.has_emperor) {
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.emperor_fd);
}
if (uwsgi.zerg_server) {
uwsgi.zerg_server_fd = bind_to_unix(uwsgi.zerg_server, uwsgi.listen_queue, 0, 0);
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.zerg_server_fd);
uwsgi_log("*** Zerg server enabled on %s ***\n", uwsgi.zerg_server);
}
if (uwsgi.stats) {
char *tcp_port = strchr(uwsgi.stats, ':');
if (tcp_port) {
// disable deferred accept for this socket
int current_defer_accept = uwsgi.no_defer_accept;
uwsgi.no_defer_accept = 1;
uwsgi.stats_fd = bind_to_tcp(uwsgi.stats, uwsgi.listen_queue, tcp_port);
uwsgi.no_defer_accept = current_defer_accept;
}
else {
uwsgi.stats_fd = bind_to_unix(uwsgi.stats, uwsgi.listen_queue, uwsgi.chmod_socket, uwsgi.abstract_socket);
}
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.stats_fd);
uwsgi_log("*** Stats server enabled on %s fd: %d ***\n", uwsgi.stats, uwsgi.stats_fd);
}
#ifdef UWSGI_UDP
if (uwsgi.udp_socket) {
udp_fd = bind_to_udp(uwsgi.udp_socket, 0, 0);
if (udp_fd < 0) {
uwsgi_log("unable to bind to udp socket. SNMP and cluster management services will be disabled.\n");
}
else {
uwsgi_log("UDP server enabled.\n");
event_queue_add_fd_read(uwsgi.master_queue, udp_fd);
}
}
#ifdef UWSGI_MULTICAST
if (uwsgi.cluster) {
event_queue_add_fd_read(uwsgi.master_queue, uwsgi.cluster_fd);
cluster_opt_buf = uwsgi_setup_clusterbuf(&cluster_opt_size);
}
#endif
#endif
#ifdef UWSGI_SNMP
snmp_fd = uwsgi_setup_snmp();
#endif
if (uwsgi.cheap) {
uwsgi_add_sockets_to_queue(uwsgi.master_queue, -1);
for (i = 1; i <= uwsgi.numproc; i++) {
uwsgi.workers[i].cheaped = 1;
}
uwsgi_log("cheap mode enabled: waiting for socket connection...\n");
}
// spawn mules
for (i = 0; i < uwsgi.mules_cnt; i++) {
size_t mule_patch_size = 0;
uwsgi.mules[i].patch = uwsgi_string_get_list(&uwsgi.mules_patches, i, &mule_patch_size);
uwsgi_mule(i + 1);
}
// spawn gateways
for (i = 0; i < ushared->gateways_cnt; i++) {
if (ushared->gateways[i].pid == 0) {
gateway_respawn(i);
}
}
// spawn daemons
uwsgi_daemons_spawn_all();
// first subscription
struct uwsgi_string_list *subscriptions = uwsgi.subscriptions;
while (subscriptions) {
uwsgi_subscribe(subscriptions->value, 0);
subscriptions = subscriptions->next;
}
// sync the cache store if needed
if (uwsgi.cache_store && uwsgi.cache_filesize) {
if (msync(uwsgi.cache_items, uwsgi.cache_filesize, MS_ASYNC)) {
uwsgi_error("msync()");
}
}
if (uwsgi.queue_store && uwsgi.queue_filesize) {
if (msync(uwsgi.queue_header, uwsgi.queue_filesize, MS_ASYNC)) {
uwsgi_error("msync()");
}
}
// update touches timestamps
uwsgi_check_touches(uwsgi.touch_reload);
uwsgi_check_touches(uwsgi.touch_logrotate);
uwsgi_check_touches(uwsgi.touch_logreopen);
// setup cheaper algos
uwsgi.cheaper_algo = uwsgi_cheaper_algo_spare;
if (uwsgi.requested_cheaper_algo) {
uwsgi.cheaper_algo = NULL;
struct uwsgi_cheaper_algo *uca = uwsgi.cheaper_algos;
while (uca) {
if (!strcmp(uca->name, uwsgi.requested_cheaper_algo)) {
uwsgi.cheaper_algo = uca->func;
break;
}
uca = uca->next;
}
if (!uwsgi.cheaper_algo) {
uwsgi_log("unable to find requested cheaper algorithm, falling back to spare\n");
uwsgi.cheaper_algo = uwsgi_cheaper_algo_spare;
}
}
// here really starts the master loop
for (;;) {
//uwsgi_log("uwsgi.ready_to_reload %d %d\n", uwsgi.ready_to_reload, uwsgi.numproc);
// run master_cycle hook for every plugin
for (i = 0; i < uwsgi.gp_cnt; i++) {
if (uwsgi.gp[i]->master_cycle) {
uwsgi.gp[i]->master_cycle();
}
}
for (i = 0; i < 256; i++) {
if (uwsgi.p[i]->master_cycle) {
uwsgi.p[i]->master_cycle();
}
}
uwsgi_daemons_smart_check();
// count the number of active workers
int active_workers = 0;
for (i = 1; i <= uwsgi.numproc; i++) {
if (uwsgi.workers[i].cheaped == 0 && uwsgi.workers[i].pid > 0) {
active_workers++;
}
}
if (uwsgi.to_outworld) {
//uwsgi_log("%d/%d\n", uwsgi.lazy_respawned, uwsgi.numproc);
if (uwsgi.lazy_respawned >= active_workers) {
uwsgi.to_outworld = 0;
uwsgi.master_mercy = 0;
uwsgi.lazy_respawned = 0;
}
}
if (uwsgi_master_check_mercy())
return 0;
if (uwsgi.respawn_workers) {
for (i = 1; i <= uwsgi.respawn_workers; i++) {
if (uwsgi_respawn_worker(i))
return 0;
}
uwsgi.respawn_workers = 0;
}
if (uwsgi.restore_snapshot) {
uwsgi_master_restore_snapshot();
continue;
}
// cheaper management
if (uwsgi.cheaper && !uwsgi.cheap && !uwsgi.to_heaven && !uwsgi.to_hell && !uwsgi.to_outworld && !uwsgi.workers[0].suspended) {
if (!uwsgi_calc_cheaper())
return 0;
}
if ((uwsgi.cheap || uwsgi.ready_to_die >= active_workers) && uwsgi.to_hell) {
// call a series of waitpid to ensure all processes (gateways, mules and daemons) are dead
for (i = 0; i < (ushared->gateways_cnt + uwsgi.daemons_cnt + uwsgi.mules_cnt); i++) {
diedpid = waitpid(WAIT_ANY, &waitpid_status, WNOHANG);
}
uwsgi_log("goodbye to uWSGI.\n");
exit(0);
}
if ((uwsgi.cheap || uwsgi.ready_to_reload >= active_workers) && uwsgi.to_heaven) {
uwsgi_reload(argv);
// never here (unless in shared library mode)
return -1;
}
diedpid = waitpid(WAIT_ANY, &waitpid_status, WNOHANG);
if (diedpid == -1) {
if (errno == ECHILD) {
// something did not work as expected, just assume all has been cleared
if (uwsgi.to_heaven) {
uwsgi.ready_to_reload = uwsgi.numproc;
continue;
}
else if (uwsgi.to_hell) {
uwsgi.ready_to_die = uwsgi.numproc;
continue;
}
else if (uwsgi.to_outworld) {
uwsgi.lazy_respawned = uwsgi.numproc;
uwsgi_log("*** no workers to reload found ***\n");
continue;
}
diedpid = 0;
}
else {
uwsgi_error("waitpid()");
/* here is better to reload all the uWSGI stack */
uwsgi_log("something horrible happened...\n");
reap_them_all(0);
exit(1);
}
}
if (diedpid == 0) {
/* all processes ok, doing status scan after N seconds */
check_interval = uwsgi.shared->options[UWSGI_OPTION_MASTER_INTERVAL];
if (!check_interval)
check_interval = 1;
// add unregistered file monitors
// locking is not needed as monitors can only increase
for (i = 0; i < ushared->files_monitored_cnt; i++) {
if (!ushared->files_monitored[i].registered) {
ushared->files_monitored[i].fd = event_queue_add_file_monitor(uwsgi.master_queue, ushared->files_monitored[i].filename, &ushared->files_monitored[i].id);
ushared->files_monitored[i].registered = 1;
}
}
// add unregistered timers
// locking is not needed as timers can only increase
for (i = 0; i < ushared->timers_cnt; i++) {
if (!ushared->timers[i].registered) {
ushared->timers[i].fd = event_queue_add_timer(uwsgi.master_queue, &ushared->timers[i].id, ushared->timers[i].value);
ushared->timers[i].registered = 1;
}
}
// add unregistered rb_timers
// locking is not needed as rb_timers can only increase
for (i = 0; i < ushared->rb_timers_cnt; i++) {
if (!ushared->rb_timers[i].registered) {
ushared->rb_timers[i].uwsgi_rb_timer = uwsgi_add_rb_timer(rb_timers, uwsgi_now() + ushared->rb_timers[i].value, &ushared->rb_timers[i]);
ushared->rb_timers[i].registered = 1;
}
}
int interesting_fd = -1;
if (ushared->rb_timers_cnt > 0) {
min_timeout = uwsgi_min_rb_timer(rb_timers);
if (min_timeout == NULL) {
check_interval = uwsgi.shared->options[UWSGI_OPTION_MASTER_INTERVAL];
}
else {
check_interval = min_timeout->key - uwsgi_now();
if (check_interval <= 0) {
expire_rb_timeouts(rb_timers);
check_interval = 0;
}
}
}
// wait for event
rlen = event_queue_wait(uwsgi.master_queue, check_interval, &interesting_fd);
if (rlen == 0) {
if (ushared->rb_timers_cnt > 0) {
expire_rb_timeouts(rb_timers);
}
}
// check uwsgi-cron table
if (ushared->cron_cnt) {
uwsgi_manage_signal_cron(uwsgi_now());
}
if (uwsgi.crons) {
uwsgi_manage_command_cron(uwsgi_now());
}
// check for probes
if (ushared->probes_cnt > 0) {
uwsgi_lock(uwsgi.probe_table_lock);
for (i = 0; i < ushared->probes_cnt; i++) {
if (interesting_fd == -1) {
// increment cycles
ushared->probes[i].cycles++;
}
if (ushared->probes[i].func(interesting_fd, &ushared->probes[i])) {
uwsgi_route_signal(ushared->probes[i].sig);
}
}
uwsgi_unlock(uwsgi.probe_table_lock);
}
if (rlen > 0) {
if (uwsgi.log_master && !uwsgi.threaded_logger) {
if (interesting_fd == uwsgi.shared->worker_log_pipe[0]) {
uwsgi_master_log();
goto health_cycle;
}
}
if (uwsgi.stats && uwsgi.stats_fd > -1) {
if (interesting_fd == uwsgi.stats_fd) {
uwsgi_send_stats(uwsgi.stats_fd);
goto health_cycle;
}
}
if (uwsgi.zerg_server) {
if (interesting_fd == uwsgi.zerg_server_fd) {
uwsgi_manage_zerg(uwsgi.zerg_server_fd, 0, NULL);
goto health_cycle;
}
}
if (uwsgi.has_emperor) {
if (interesting_fd == uwsgi.emperor_fd) {
uwsgi_master_manage_emperor();
goto health_cycle;
}
}
if (uwsgi.cheap) {
int found = 0;
struct uwsgi_socket *uwsgi_sock = uwsgi.sockets;
while (uwsgi_sock) {
if (interesting_fd == uwsgi_sock->fd) {
found = 1;
uwsgi.cheap = 0;
uwsgi_del_sockets_from_queue(uwsgi.master_queue);
int needed = uwsgi.numproc;
if (uwsgi.cheaper) {
needed = uwsgi.cheaper_count;
}
for (i = 1; i <= needed; i++) {
if (uwsgi_respawn_worker(i))
return 0;
}
break;
}
uwsgi_sock = uwsgi_sock->next;
}
// here is better to continue instead going to health_cycle
if (found)
continue;
}
#ifdef UWSGI_SNMP
if (uwsgi.snmp_addr && interesting_fd == snmp_fd) {
uwsgi_master_manage_snmp(snmp_fd);
goto health_cycle;
}
#endif
#ifdef UWSGI_UDP
if (uwsgi.udp_socket && interesting_fd == udp_fd) {
uwsgi_master_manage_udp(udp_fd);
goto health_cycle;
}
#ifdef UWSGI_MULTICAST
if (interesting_fd == uwsgi.cluster_fd) {
if (uwsgi_get_dgram(uwsgi.cluster_fd, &uwsgi.workers[0].cores[0].req)) {
goto health_cycle;
}
manage_cluster_message(cluster_opt_buf, cluster_opt_size);
goto health_cycle;
}
#endif
#endif
int next_iteration = 0;
uwsgi_lock(uwsgi.fmon_table_lock);
for (i = 0; i < ushared->files_monitored_cnt; i++) {
if (ushared->files_monitored[i].registered) {
if (interesting_fd == ushared->files_monitored[i].fd) {
struct uwsgi_fmon *uf = event_queue_ack_file_monitor(uwsgi.master_queue, interesting_fd);
// now call the file_monitor handler
if (uf)
uwsgi_route_signal(uf->sig);
break;
}
}
}
uwsgi_unlock(uwsgi.fmon_table_lock);
if (next_iteration)
goto health_cycle;;
next_iteration = 0;
uwsgi_lock(uwsgi.timer_table_lock);
for (i = 0; i < ushared->timers_cnt; i++) {
if (ushared->timers[i].registered) {
if (interesting_fd == ushared->timers[i].fd) {
struct uwsgi_timer *ut = event_queue_ack_timer(interesting_fd);
// now call the file_monitor handler
if (ut)
uwsgi_route_signal(ut->sig);
break;
}
}
}
uwsgi_unlock(uwsgi.timer_table_lock);
if (next_iteration)
goto health_cycle;;
// check for worker signal
if (interesting_fd == uwsgi.shared->worker_signal_pipe[0]) {
rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("read()");
}
else if (rlen > 0) {
#ifdef UWSGI_DEBUG
uwsgi_log_verbose("received uwsgi signal %d from a worker\n", uwsgi_signal);
#endif
uwsgi_route_signal(uwsgi_signal);
}
else {
uwsgi_log_verbose("lost connection with worker %d\n", i);
close(interesting_fd);
}
goto health_cycle;
}
#ifdef UWSGI_SPOOLER
// check for spooler signal
if (uwsgi.spoolers) {
if (interesting_fd == uwsgi.shared->spooler_signal_pipe[0]) {
rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("read()");
}
else if (rlen > 0) {
#ifdef UWSGI_DEBUG
uwsgi_log_verbose("received uwsgi signal %d from a spooler\n", uwsgi_signal);
#endif
uwsgi_route_signal(uwsgi_signal);
}
else {
uwsgi_log_verbose("lost connection with the spooler\n");
close(interesting_fd);
}
goto health_cycle;
}
}
#endif
// check for mules signal
if (uwsgi.mules_cnt > 0) {
if (interesting_fd == uwsgi.shared->mule_signal_pipe[0]) {
rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("read()");
}
else if (rlen > 0) {
#ifdef UWSGI_DEBUG
uwsgi_log_verbose("received uwsgi signal %d from a mule\n", uwsgi_signal);
#endif
uwsgi_route_signal(uwsgi_signal);
}
else {
uwsgi_log_verbose("lost connection with a mule\n");
close(interesting_fd);
}
goto health_cycle;
}
}
}
health_cycle:
now = uwsgi_now();
if (now - uwsgi.current_time < 1) {
continue;
}
uwsgi.current_time = now;
// checking logsize
if (uwsgi.logfile) {
uwsgi_check_logrotate();
}
// this will be incremented at (more or less) regular intervals
uwsgi.master_cycles++;
// recalculate requests counter on race conditions risky configurations
// a bit of inaccuracy is better than locking;)
if (uwsgi.numproc > 1) {
tmp_counter = 0;
for (i = 1; i < uwsgi.numproc + 1; i++)
tmp_counter += uwsgi.workers[i].requests;
uwsgi.workers[0].requests = tmp_counter;
}
if (uwsgi.idle > 0 && !uwsgi.cheap) {
uwsgi.current_time = uwsgi_now();
if (!last_request_timecheck)
last_request_timecheck = uwsgi.current_time;
int busy_workers = 0;
for (i = 1; i <= uwsgi.numproc; i++) {
if (uwsgi.workers[i].cheaped == 0 && uwsgi.workers[i].pid > 0) {
if (uwsgi.workers[i].busy == 1) {
busy_workers = 1;
break;
}
}
}
if (last_request_count != uwsgi.workers[0].requests) {
last_request_timecheck = uwsgi.current_time;
last_request_count = uwsgi.workers[0].requests;
}
// a bit of over-engeneering to avoid clock skews
else if (last_request_timecheck < uwsgi.current_time && (uwsgi.current_time - last_request_timecheck > uwsgi.idle) && !busy_workers) {
uwsgi_log("workers have been inactive for more than %d seconds (%llu-%llu)\n", uwsgi.idle, (unsigned long long) uwsgi.current_time, (unsigned long long) last_request_timecheck);
uwsgi.cheap = 1;
if (uwsgi.die_on_idle) {
if (uwsgi.has_emperor) {
char byte = 22;
if (write(uwsgi.emperor_fd, &byte, 1) != 1) {
uwsgi_error("write()");
kill_them_all(0);
}
}
else {
kill_them_all(0);
}
continue;
}
for (i = 1; i <= uwsgi.numproc; i++) {
uwsgi.workers[i].cheaped = 1;
if (uwsgi.workers[i].pid == 0)
continue;
kill(uwsgi.workers[i].pid, SIGKILL);
if (waitpid(uwsgi.workers[i].pid, &waitpid_status, 0) < 0) {
if (errno != ECHILD)
uwsgi_error("waitpid()");
}
}
uwsgi_add_sockets_to_queue(uwsgi.master_queue, -1);
uwsgi_log("cheap mode enabled: waiting for socket connection...\n");
last_request_timecheck = 0;
continue;
}
}
check_interval = uwsgi.shared->options[UWSGI_OPTION_MASTER_INTERVAL];
if (!check_interval)
check_interval = 1;
#ifdef __linux__
// get listen_queue status
struct uwsgi_socket *uwsgi_sock = uwsgi.sockets;
while (uwsgi_sock) {
if (uwsgi_sock->family == AF_INET) {
get_linux_tcp_info(uwsgi_sock->fd);
}
#ifdef SIOBKLGQ
else if (uwsgi_sock->family == AF_UNIX) {
get_linux_unbit_SIOBKLGQ(uwsgi_sock->fd);
}
#endif
uwsgi_sock = uwsgi_sock->next;
}
#endif
for (i = 1; i <= uwsgi.numproc; i++) {
/* first check for harakiri */
if (uwsgi.workers[i].harakiri > 0) {
if (uwsgi.workers[i].harakiri < (time_t) uwsgi.current_time) {
trigger_harakiri(i);
}
}
/* then user-defined harakiri */
if (uwsgi.workers[i].user_harakiri > 0) {
if (uwsgi.workers[i].user_harakiri < (time_t) uwsgi.current_time) {
trigger_harakiri(i);
}
}
// then for evil memory checkers
if (uwsgi.evil_reload_on_as) {
if ((rlim_t) uwsgi.workers[i].vsz_size >= uwsgi.evil_reload_on_as) {
uwsgi_log("*** EVIL RELOAD ON WORKER %d ADDRESS SPACE: %lld (pid: %d) ***\n", i, (long long) uwsgi.workers[i].vsz_size, uwsgi.workers[i].pid);
kill(uwsgi.workers[i].pid, SIGKILL);
uwsgi.workers[i].vsz_size = 0;
}
}
if (uwsgi.evil_reload_on_rss) {
if ((rlim_t) uwsgi.workers[i].rss_size >= uwsgi.evil_reload_on_rss) {
uwsgi_log("*** EVIL RELOAD ON WORKER %d RSS: %lld (pid: %d) ***\n", i, (long long) uwsgi.workers[i].rss_size, uwsgi.workers[i].pid);
kill(uwsgi.workers[i].pid, SIGKILL);
uwsgi.workers[i].rss_size = 0;
}
}
// need to find a better way
//uwsgi.workers[i].last_running_time = uwsgi.workers[i].running_time;
}
for (i = 0; i < ushared->gateways_cnt; i++) {
if (ushared->gateways_harakiri[i] > 0) {
if (ushared->gateways_harakiri[i] < (time_t) uwsgi.current_time) {
if (ushared->gateways[i].pid > 0) {
kill(ushared->gateways[i].pid, SIGKILL);
}
ushared->gateways_harakiri[i] = 0;
}
}
}
for (i = 0; i < uwsgi.mules_cnt; i++) {
if (uwsgi.mules[i].harakiri > 0) {
if (uwsgi.mules[i].harakiri < (time_t) uwsgi.current_time) {
uwsgi_log("*** HARAKIRI ON MULE %d HANDLING SIGNAL %d (pid: %d) ***\n", i + 1, uwsgi.mules[i].signum, uwsgi.mules[i].pid);
kill(uwsgi.mules[i].pid, SIGKILL);
uwsgi.mules[i].harakiri = 0;
}
}
}
#ifdef UWSGI_SPOOLER
struct uwsgi_spooler *uspool = uwsgi.spoolers;
while (uspool) {
if (uspool->harakiri > 0 && uspool->harakiri < (time_t) uwsgi.current_time) {
uwsgi_log("*** HARAKIRI ON THE SPOOLER (pid: %d) ***\n", uspool->pid);
kill(uspool->pid, SIGKILL);
uspool->harakiri = 0;
}
uspool = uspool->next;
}
#endif
#ifdef __linux__
#ifdef MADV_MERGEABLE
if (uwsgi.linux_ksm > 0 && (uwsgi.master_cycles % uwsgi.linux_ksm) == 0) {
uwsgi_linux_ksm_map();
}
#endif
#endif
#ifdef UWSGI_UDP
// check for cluster nodes
master_check_cluster_nodes();
// reannounce myself every 10 cycles
if (uwsgi.cluster && uwsgi.cluster_fd >= 0 && !uwsgi.cluster_nodes && (uwsgi.master_cycles % 10) == 0) {
uwsgi_cluster_add_me();
}
// resubscribe every 10 cycles by default
if ((uwsgi.subscriptions && ((uwsgi.master_cycles % uwsgi.subscribe_freq) == 0 || uwsgi.master_cycles == 1)) && !uwsgi.to_heaven && !uwsgi.to_hell && !uwsgi.workers[0].suspended) {
struct uwsgi_string_list *subscriptions = uwsgi.subscriptions;
while (subscriptions) {
uwsgi_subscribe(subscriptions->value, 0);
subscriptions = subscriptions->next;
}
}
#endif
if (uwsgi.cache_store && uwsgi.cache_filesize && uwsgi.cache_store_sync && ((uwsgi.master_cycles % uwsgi.cache_store_sync) == 0)) {
if (msync(uwsgi.cache_items, uwsgi.cache_filesize, MS_ASYNC)) {
uwsgi_error("msync()");
}
}
if (uwsgi.queue_store && uwsgi.queue_filesize && uwsgi.queue_store_sync && ((uwsgi.master_cycles % uwsgi.queue_store_sync) == 0)) {
if (msync(uwsgi.queue_header, uwsgi.queue_filesize, MS_ASYNC)) {
uwsgi_error("msync()");
}
}
// check touch_reload
if (!uwsgi.to_heaven && !uwsgi.to_hell) {
char *touched = uwsgi_check_touches(uwsgi.touch_reload);
if (touched) {
uwsgi_log("*** %s has been touched... grace them all !!! ***\n", touched);
uwsgi_block_signal(SIGHUP);
grace_them_all(0);
uwsgi_unblock_signal(SIGHUP);
}
}
continue;
}
// no one died
if (diedpid <= 0)
continue;
// check for deadlocks first
uwsgi_deadlock_check(diedpid);
// reload gateways and daemons only on normal workflow (+outworld status)
if (!uwsgi.to_heaven && !uwsgi.to_hell) {
#ifdef UWSGI_SPOOLER
/* reload the spooler */
struct uwsgi_spooler *uspool = uwsgi.spoolers;
pid_found = 0;
while (uspool) {
if (uspool->pid > 0 && diedpid == uspool->pid) {
uwsgi_log("OOOPS the spooler is no more...trying respawn...\n");
uspool->respawned++;
uspool->pid = spooler_start(uspool);
pid_found = 1;
break;
}
uspool = uspool->next;
}
if (pid_found)
continue;
#endif
pid_found = 0;
for (i = 0; i < uwsgi.mules_cnt; i++) {
if (uwsgi.mules[i].pid == diedpid) {
uwsgi_log("OOOPS mule %d (pid: %d) crippled...trying respawn...\n", i + 1, uwsgi.mules[i].pid);
uwsgi_mule(i + 1);
pid_found = 1;
break;
}
}
if (pid_found)
continue;
/* reload the gateways */
pid_found = 0;
for (i = 0; i < ushared->gateways_cnt; i++) {
if (ushared->gateways[i].pid == diedpid) {
gateway_respawn(i);
pid_found = 1;
break;
}
}
if (pid_found)
continue;
/* reload the daemons */
pid_found = uwsgi_daemon_check_pid_reload(diedpid);
if (pid_found)
continue;
}
/* What happens here ?
case 1) the diedpid is not a worker, report it and continue
case 2) the diedpid is a worker and we are not in a reload procedure -> reload it
case 3) the diedpid is a worker and we are in graceful reload -> uwsgi.ready_to_reload++ and continue
case 3) the diedpid is a worker and we are in brutal reload -> uwsgi.ready_to_die++ and continue
*/
uwsgi.mywid = find_worker_id(diedpid);
if (uwsgi.mywid <= 0) {
// check spooler, mules, gateways and daemons
#ifdef UWSGI_SPOOLER
struct uwsgi_spooler *uspool = uwsgi.spoolers;
while (uspool) {
if (uspool->pid > 0 && diedpid == uspool->pid) {
uwsgi_log("spooler (pid: %d) annihilated\n", (int) diedpid);
goto next;
}
uspool = uspool->next;
}
#endif
for (i = 0; i < uwsgi.mules_cnt; i++) {
if (uwsgi.mules[i].pid == diedpid) {
uwsgi_log("mule %d (pid: %d) annihilated\n", i + 1, (int) diedpid);
goto next;
}
}
for (i = 0; i < ushared->gateways_cnt; i++) {
if (ushared->gateways[i].pid == diedpid) {
uwsgi_log("gateway %d (%s, pid: %d) annihilated\n", i + 1, ushared->gateways[i].fullname, (int) diedpid);
goto next;
}
}
if (uwsgi_daemon_check_pid_death(diedpid)) goto next;
if (WIFEXITED(waitpid_status)) {
uwsgi_log("subprocess %d exited with code %d\n", (int) diedpid, WEXITSTATUS(waitpid_status));
}
else if (WIFSIGNALED(waitpid_status)) {
uwsgi_log("subprocess %d exited by signal %d\n", (int) diedpid, WTERMSIG(waitpid_status));
}
else if (WIFSTOPPED(waitpid_status)) {
uwsgi_log("subprocess %d stopped\n", (int) diedpid);
}
next:
continue;
}
// ok a worker died...
if (uwsgi.to_heaven) {
uwsgi.ready_to_reload++;
uwsgi.workers[uwsgi.mywid].pid = 0;
// only to be safe :P
uwsgi.workers[uwsgi.mywid].harakiri = 0;
continue;
}
else if (uwsgi.to_hell) {
uwsgi.ready_to_die++;
uwsgi.workers[uwsgi.mywid].pid = 0;
// only to be safe :P
uwsgi.workers[uwsgi.mywid].harakiri = 0;
continue;
}
else if (uwsgi.to_outworld) {
uwsgi.lazy_respawned++;
uwsgi.workers[uwsgi.mywid].destroy = 0;
uwsgi.workers[uwsgi.mywid].pid = 0;
// only to be safe :P
uwsgi.workers[uwsgi.mywid].harakiri = 0;
}
if (WIFEXITED(waitpid_status) && WEXITSTATUS(waitpid_status) == UWSGI_FAILED_APP_CODE) {
uwsgi_log("OOPS ! failed loading app in worker %d (pid %d) :( trying again...\n", uwsgi.mywid, (int) diedpid);
}
else if (WIFEXITED(waitpid_status) && WEXITSTATUS(waitpid_status) == UWSGI_DE_HIJACKED_CODE) {
uwsgi_log("...restoring worker %d (pid: %d)...\n", uwsgi.mywid, (int) diedpid);
}
else if (WIFEXITED(waitpid_status) && WEXITSTATUS(waitpid_status) == UWSGI_EXCEPTION_CODE) {
uwsgi_log("... monitored exception detected, respawning worker %d (pid: %d)...\n", uwsgi.mywid, (int) diedpid);
}
else if (WIFEXITED(waitpid_status) && WEXITSTATUS(waitpid_status) == UWSGI_QUIET_CODE) {
// noop
}
else if (uwsgi.workers[uwsgi.mywid].manage_next_request) {
if (WIFSIGNALED(waitpid_status)) {
uwsgi_log("DAMN ! worker %d (pid: %d) died, killed by signal %d :( trying respawn ...\n", uwsgi.mywid, (int) diedpid, (int) WTERMSIG(waitpid_status));
}
else {
uwsgi_log("DAMN ! worker %d (pid: %d) died :( trying respawn ...\n", uwsgi.mywid, (int) diedpid);
}
}
else {
uwsgi_log("DAMN ! worker %d (pid: %d) MISTERIOUSLY died :( trying respawn ...\n", uwsgi.mywid, (int) diedpid);
}
if (uwsgi.workers[uwsgi.mywid].cheaped == 1) {
uwsgi.workers[uwsgi.mywid].pid = 0;
uwsgi_log("uWSGI worker %d cheaped.\n", uwsgi.mywid);
uwsgi.workers[uwsgi.mywid].harakiri = 0;
continue;
}
gettimeofday(&last_respawn, NULL);
if (last_respawn.tv_sec <= uwsgi.respawn_delta + check_interval) {
last_respawn_rate++;
if (last_respawn_rate > uwsgi.numproc) {
if (uwsgi.forkbomb_delay > 0) {
uwsgi_log("worker respawning too fast !!! i have to sleep a bit (%d seconds)...\n", uwsgi.forkbomb_delay);
/* use --forkbomb-delay 0 to disable sleeping */
sleep(uwsgi.forkbomb_delay);
}
last_respawn_rate = 0;
}
}
else {
last_respawn_rate = 0;
}
gettimeofday(&last_respawn, NULL);
uwsgi.respawn_delta = last_respawn.tv_sec;
if (uwsgi_respawn_worker(uwsgi.mywid))
return 0;
// end of the loop
}
// never here
}
int uwsgi_master_manage_events(int interesting_fd) {
// is a logline ?
if (uwsgi.log_master && !uwsgi.threaded_logger) {
// stderr log ?
if (interesting_fd == uwsgi.shared->worker_log_pipe[0]) {
uwsgi_master_log();
return 0;
}
// req log ?
if (uwsgi.req_log_master && interesting_fd == uwsgi.shared->worker_req_log_pipe[0]) {
uwsgi_master_req_log();
return 0;
}
}
// stats server ?
if (uwsgi.stats && uwsgi.stats_fd > -1) {
if (interesting_fd == uwsgi.stats_fd) {
uwsgi_send_stats(uwsgi.stats_fd, uwsgi_master_generate_stats);
return 0;
}
}
// a zerg connection ?
if (uwsgi.zerg_server) {
if (interesting_fd == uwsgi.zerg_server_fd) {
uwsgi_manage_zerg(uwsgi.zerg_server_fd, 0, NULL);
return 0;
}
}
// emperor event ?
if (uwsgi.has_emperor) {
if (interesting_fd == uwsgi.emperor_fd) {
uwsgi_master_manage_emperor();
return 0;
}
}
if (uwsgi_fsmon_event(interesting_fd)) {
return 0;
}
// reload on fd
if (uwsgi.reload_on_fd) {
// custom -> fd
// custom2 -> len (optional, default 1)
// custom_ptr -> log message (optional)
struct uwsgi_string_list *usl = uwsgi.reload_on_fd;
while(usl) {
if (interesting_fd == (int) usl->custom) {
char stack_tmp[8];
char *tmp = stack_tmp;
if (usl->custom2 > 8) {
tmp = uwsgi_malloc(usl->custom2);
}
if (read(interesting_fd, tmp, usl->custom2) <= 0) {
uwsgi_error("[reload-on-fd] read()");
}
if (usl->custom_ptr) {
uwsgi_log_verbose("*** fd %d ready: %s ***\n", interesting_fd, usl->custom_ptr);
}
else {
uwsgi_log_verbose("*** fd %d ready !!! ***\n", interesting_fd);
}
uwsgi_block_signal(SIGHUP);
grace_them_all(0);
uwsgi_unblock_signal(SIGHUP);
return 0;
}
usl = usl->next;
}
}
// brutal reload on fd
if (uwsgi.brutal_reload_on_fd) {
// custom -> fd
// custom2 -> len (optional, default 1)
// custom_ptr -> log message (optional)
struct uwsgi_string_list *usl = uwsgi.brutal_reload_on_fd;
while(usl) {
if (interesting_fd == (int) usl->custom) {
char stack_tmp[8];
char *tmp = stack_tmp;
if (usl->custom2 > 8) {
tmp = uwsgi_malloc(usl->custom2);
}
if (read(interesting_fd, tmp, usl->custom2) <= 0) {
uwsgi_error("[brutal-reload-on-fd] read()");
}
if (usl->custom_ptr) {
uwsgi_log_verbose("*** fd %d ready: %s ***\n", interesting_fd, usl->custom_ptr);
}
else {
uwsgi_log_verbose("*** fd %d ready !!! ***\n", interesting_fd);
}
if (uwsgi.die_on_term) {
uwsgi_block_signal(SIGQUIT);
reap_them_all(0);
uwsgi_unblock_signal(SIGQUIT);
}
else {
uwsgi_block_signal(SIGTERM);
reap_them_all(0);
uwsgi_unblock_signal(SIGTERM);
}
return 0;
}
usl = usl->next;
}
}
// wakeup from cheap mode ?
if (uwsgi.status.is_cheap) {
struct uwsgi_socket *uwsgi_sock = uwsgi.sockets;
while (uwsgi_sock) {
if (interesting_fd == uwsgi_sock->fd) {
uwsgi.status.is_cheap = 0;
uwsgi_del_sockets_from_queue(uwsgi.master_queue);
// how many worker we need to respawn ?
int needed = uwsgi.numproc;
// if in cheaper mode, just respawn the minimal amount
if (uwsgi.cheaper) {
needed = uwsgi.cheaper_count;
}
int i;
for (i = 1; i <= needed; i++) {
if (uwsgi_respawn_worker(i))
return -1;
}
// here we continue instead of returning
break;
}
uwsgi_sock = uwsgi_sock->next;
}
}
// an SNMP request ?
if (uwsgi.snmp_addr && interesting_fd == uwsgi.snmp_fd) {
uwsgi_master_manage_snmp(uwsgi.snmp_fd);
return 0;
}
// a UDP request ?
if (uwsgi.udp_socket && interesting_fd == uwsgi.udp_fd) {
uwsgi_master_manage_udp(uwsgi.udp_fd);
return 0;
}
// check if some file monitor is ready
// no need to lock as we are only getting registered items (and only the master can register them)
int i;
for (i = 0; i < ushared->files_monitored_cnt; i++) {
if (ushared->files_monitored[i].registered) {
if (interesting_fd == ushared->files_monitored[i].fd) {
struct uwsgi_fmon *uf = event_queue_ack_file_monitor(uwsgi.master_queue, interesting_fd);
// now call the file_monitor handler
if (uf)
uwsgi_route_signal(uf->sig);
return 0;
}
}
}
// check if some timer elapsed
// no need to lock again
for (i = 0; i < ushared->timers_cnt; i++) {
if (ushared->timers[i].registered) {
if (interesting_fd == ushared->timers[i].fd) {
struct uwsgi_timer *ut = event_queue_ack_timer(interesting_fd);
// now call the timer handler
if (ut)
uwsgi_route_signal(ut->sig);
return 0;
}
}
}
uint8_t uwsgi_signal;
// check for worker signal
if (interesting_fd == uwsgi.shared->worker_signal_pipe[0]) {
ssize_t rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("uwsgi_master_manage_events()/read()");
}
else if (rlen > 0) {
uwsgi_route_signal(uwsgi_signal);
}
else {
// TODO restart workers here
uwsgi_log_verbose("lost connection with workers !!!\n");
close(interesting_fd);
}
return 0;
}
// check for spooler signal
if (uwsgi.spoolers) {
if (interesting_fd == uwsgi.shared->spooler_signal_pipe[0]) {
ssize_t rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("uwsgi_master_manage_events()/read()");
}
else if (rlen > 0) {
uwsgi_route_signal(uwsgi_signal);
}
else {
// TODO restart spoolers here
uwsgi_log_verbose("lost connection with spoolers\n");
close(interesting_fd);
}
return 0;
}
}
// check for mules signal
if (uwsgi.mules_cnt > 0) {
if (interesting_fd == uwsgi.shared->mule_signal_pipe[0]) {
ssize_t rlen = read(interesting_fd, &uwsgi_signal, 1);
if (rlen < 0) {
uwsgi_error("uwsgi_master_manage_events()/read()");
}
else if (rlen > 0) {
uwsgi_route_signal(uwsgi_signal);
}
else {
// TODO respawn mules here
uwsgi_log_verbose("lost connection with mules\n");
close(interesting_fd);
}
// return 0;
}
}
return 0;
}
