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DEFINITIONS
This source file includes following definitions.
- fpm_pctl_cleanup
- fpm_pctl_action
- fpm_pctl_timeout_set
- fpm_pctl_exit
- fpm_pctl_exec
- fpm_pctl_action_last
- fpm_pctl_kill
- fpm_pctl_kill_all
- fpm_pctl_action_next
- fpm_pctl
- fpm_pctl_can_spawn_children
- fpm_pctl_child_exited
- fpm_pctl_init_main
- fpm_pctl_check_request_timeout
- fpm_pctl_perform_idle_server_maintenance
- fpm_pctl_heartbeat
- fpm_pctl_perform_idle_server_maintenance_heartbeat
- fpm_pctl_on_socket_accept
/* $Id: fpm_process_ctl.c,v 1.19.2.2 2008/12/13 03:21:18 anight Exp $ */
/* (c) 2007,2008 Andrei Nigmatulin */
#include "fpm_config.h"
#include <sys/types.h>
#include <signal.h>
#include <unistd.h>
#include <stdlib.h>
#include "fpm.h"
#include "fpm_clock.h"
#include "fpm_children.h"
#include "fpm_signals.h"
#include "fpm_events.h"
#include "fpm_process_ctl.h"
#include "fpm_cleanup.h"
#include "fpm_request.h"
#include "fpm_worker_pool.h"
#include "fpm_scoreboard.h"
#include "fpm_sockets.h"
#include "zlog.h"
static int fpm_state = FPM_PCTL_STATE_NORMAL;
static int fpm_signal_sent = 0;
static const char *fpm_state_names[] = {
[FPM_PCTL_STATE_NORMAL] = "normal",
[FPM_PCTL_STATE_RELOADING] = "reloading",
[FPM_PCTL_STATE_TERMINATING] = "terminating",
[FPM_PCTL_STATE_FINISHING] = "finishing"
};
static int saved_argc;
static char **saved_argv;
static void fpm_pctl_cleanup(int which, void *arg) /* {{{ */
{
int i;
if (which != FPM_CLEANUP_PARENT_EXEC) {
for (i = 0; i < saved_argc; i++) {
free(saved_argv[i]);
}
free(saved_argv);
}
}
/* }}} */
static struct fpm_event_s pctl_event;
static void fpm_pctl_action(struct fpm_event_s *ev, short which, void *arg) /* {{{ */
{
fpm_pctl(FPM_PCTL_STATE_UNSPECIFIED, FPM_PCTL_ACTION_TIMEOUT);
}
/* }}} */
static int fpm_pctl_timeout_set(int sec) /* {{{ */
{
fpm_event_set_timer(&pctl_event, 0, &fpm_pctl_action, NULL);
fpm_event_add(&pctl_event, sec * 1000);
return 0;
}
/* }}} */
static void fpm_pctl_exit() /* {{{ */
{
zlog(ZLOG_NOTICE, "exiting, bye-bye!");
fpm_conf_unlink_pid();
fpm_cleanups_run(FPM_CLEANUP_PARENT_EXIT_MAIN);
exit(FPM_EXIT_OK);
}
/* }}} */
#define optional_arg(c) (saved_argc > c ? ", \"" : ""), (saved_argc > c ? saved_argv[c] : ""), (saved_argc > c ? "\"" : "")
static void fpm_pctl_exec() /* {{{ */
{
zlog(ZLOG_NOTICE, "reloading: execvp(\"%s\", {\"%s\""
"%s%s%s" "%s%s%s" "%s%s%s" "%s%s%s" "%s%s%s"
"%s%s%s" "%s%s%s" "%s%s%s" "%s%s%s" "%s%s%s"
"})",
saved_argv[0], saved_argv[0],
optional_arg(1),
optional_arg(2),
optional_arg(3),
optional_arg(4),
optional_arg(5),
optional_arg(6),
optional_arg(7),
optional_arg(8),
optional_arg(9),
optional_arg(10)
);
fpm_cleanups_run(FPM_CLEANUP_PARENT_EXEC);
execvp(saved_argv[0], saved_argv);
zlog(ZLOG_SYSERROR, "failed to reload: execvp() failed");
exit(FPM_EXIT_SOFTWARE);
}
/* }}} */
static void fpm_pctl_action_last() /* {{{ */
{
switch (fpm_state) {
case FPM_PCTL_STATE_RELOADING:
fpm_pctl_exec();
break;
case FPM_PCTL_STATE_FINISHING:
case FPM_PCTL_STATE_TERMINATING:
fpm_pctl_exit();
break;
}
}
/* }}} */
int fpm_pctl_kill(pid_t pid, int how) /* {{{ */
{
int s = 0;
switch (how) {
case FPM_PCTL_TERM :
s = SIGTERM;
break;
case FPM_PCTL_STOP :
s = SIGSTOP;
break;
case FPM_PCTL_CONT :
s = SIGCONT;
break;
case FPM_PCTL_QUIT :
s = SIGQUIT;
break;
default :
break;
}
return kill(pid, s);
}
/* }}} */
void fpm_pctl_kill_all(int signo) /* {{{ */
{
struct fpm_worker_pool_s *wp;
int alive_children = 0;
for (wp = fpm_worker_all_pools; wp; wp = wp->next) {
struct fpm_child_s *child;
for (child = wp->children; child; child = child->next) {
int res = kill(child->pid, signo);
zlog(ZLOG_DEBUG, "[pool %s] sending signal %d %s to child %d",
child->wp->config->name, signo,
fpm_signal_names[signo] ? fpm_signal_names[signo] : "", (int) child->pid);
if (res == 0) {
++alive_children;
}
}
}
if (alive_children) {
zlog(ZLOG_DEBUG, "%d child(ren) still alive", alive_children);
}
}
/* }}} */
static void fpm_pctl_action_next() /* {{{ */
{
int sig, timeout;
if (!fpm_globals.running_children) {
fpm_pctl_action_last();
}
if (fpm_signal_sent == 0) {
if (fpm_state == FPM_PCTL_STATE_TERMINATING) {
sig = SIGTERM;
} else {
sig = SIGQUIT;
}
timeout = fpm_global_config.process_control_timeout;
} else {
if (fpm_signal_sent == SIGQUIT) {
sig = SIGTERM;
} else {
sig = SIGKILL;
}
timeout = 1;
}
fpm_pctl_kill_all(sig);
fpm_signal_sent = sig;
fpm_pctl_timeout_set(timeout);
}
/* }}} */
void fpm_pctl(int new_state, int action) /* {{{ */
{
switch (action) {
case FPM_PCTL_ACTION_SET :
if (fpm_state == new_state) { /* already in progress - just ignore duplicate signal */
return;
}
switch (fpm_state) { /* check which states can be overridden */
case FPM_PCTL_STATE_NORMAL :
/* 'normal' can be overridden by any other state */
break;
case FPM_PCTL_STATE_RELOADING :
/* 'reloading' can be overridden by 'finishing' */
if (new_state == FPM_PCTL_STATE_FINISHING) break;
case FPM_PCTL_STATE_FINISHING :
/* 'reloading' and 'finishing' can be overridden by 'terminating' */
if (new_state == FPM_PCTL_STATE_TERMINATING) break;
case FPM_PCTL_STATE_TERMINATING :
/* nothing can override 'terminating' state */
zlog(ZLOG_DEBUG, "not switching to '%s' state, because already in '%s' state",
fpm_state_names[new_state], fpm_state_names[fpm_state]);
return;
}
fpm_signal_sent = 0;
fpm_state = new_state;
zlog(ZLOG_DEBUG, "switching to '%s' state", fpm_state_names[fpm_state]);
/* fall down */
case FPM_PCTL_ACTION_TIMEOUT :
fpm_pctl_action_next();
break;
case FPM_PCTL_ACTION_LAST_CHILD_EXITED :
fpm_pctl_action_last();
break;
}
}
/* }}} */
int fpm_pctl_can_spawn_children() /* {{{ */
{
return fpm_state == FPM_PCTL_STATE_NORMAL;
}
/* }}} */
int fpm_pctl_child_exited() /* {{{ */
{
if (fpm_state == FPM_PCTL_STATE_NORMAL) {
return 0;
}
if (!fpm_globals.running_children) {
fpm_pctl(FPM_PCTL_STATE_UNSPECIFIED, FPM_PCTL_ACTION_LAST_CHILD_EXITED);
}
return 0;
}
/* }}} */
int fpm_pctl_init_main() /* {{{ */
{
int i;
saved_argc = fpm_globals.argc;
saved_argv = malloc(sizeof(char *) * (saved_argc + 1));
if (!saved_argv) {
return -1;
}
for (i = 0; i < saved_argc; i++) {
saved_argv[i] = strdup(fpm_globals.argv[i]);
if (!saved_argv[i]) {
return -1;
}
}
saved_argv[i] = 0;
if (0 > fpm_cleanup_add(FPM_CLEANUP_ALL, fpm_pctl_cleanup, 0)) {
return -1;
}
return 0;
}
/* }}} */
static void fpm_pctl_check_request_timeout(struct timeval *now) /* {{{ */
{
struct fpm_worker_pool_s *wp;
for (wp = fpm_worker_all_pools; wp; wp = wp->next) {
int terminate_timeout = wp->config->request_terminate_timeout;
int slowlog_timeout = wp->config->request_slowlog_timeout;
struct fpm_child_s *child;
if (terminate_timeout || slowlog_timeout) {
for (child = wp->children; child; child = child->next) {
fpm_request_check_timed_out(child, now, terminate_timeout, slowlog_timeout);
}
}
}
}
/* }}} */
static void fpm_pctl_perform_idle_server_maintenance(struct timeval *now) /* {{{ */
{
struct fpm_worker_pool_s *wp;
for (wp = fpm_worker_all_pools; wp; wp = wp->next) {
struct fpm_child_s *child;
struct fpm_child_s *last_idle_child = NULL;
int idle = 0;
int active = 0;
int children_to_fork;
unsigned cur_lq = 0;
if (wp->config == NULL) continue;
for (child = wp->children; child; child = child->next) {
if (fpm_request_is_idle(child)) {
if (last_idle_child == NULL) {
last_idle_child = child;
} else {
if (timercmp(&child->started, &last_idle_child->started, <)) {
last_idle_child = child;
}
}
idle++;
} else {
active++;
}
}
/* update status structure for all PMs */
if (wp->listen_address_domain == FPM_AF_INET) {
if (0 > fpm_socket_get_listening_queue(wp->listening_socket, &cur_lq, NULL)) {
cur_lq = 0;
#if 0
} else {
if (cur_lq > 0) {
if (!wp->warn_lq) {
zlog(ZLOG_WARNING, "[pool %s] listening queue is not empty, #%d requests are waiting to be served, consider raising pm.max_children setting (%d)", wp->config->name, cur_lq, wp->config->pm_max_children);
wp->warn_lq = 1;
}
} else {
wp->warn_lq = 0;
}
#endif
}
}
fpm_scoreboard_update(idle, active, cur_lq, -1, -1, -1, 0, FPM_SCOREBOARD_ACTION_SET, wp->scoreboard);
/* this is specific to PM_STYLE_ONDEMAND */
if (wp->config->pm == PM_STYLE_ONDEMAND) {
struct timeval last, now;
zlog(ZLOG_DEBUG, "[pool %s] currently %d active children, %d spare children", wp->config->name, active, idle);
if (!last_idle_child) continue;
fpm_request_last_activity(last_idle_child, &last);
fpm_clock_get(&now);
if (last.tv_sec < now.tv_sec - wp->config->pm_process_idle_timeout) {
last_idle_child->idle_kill = 1;
fpm_pctl_kill(last_idle_child->pid, FPM_PCTL_QUIT);
}
continue;
}
/* the rest is only used by PM_STYLE_DYNAMIC */
if (wp->config->pm != PM_STYLE_DYNAMIC) continue;
zlog(ZLOG_DEBUG, "[pool %s] currently %d active children, %d spare children, %d running children. Spawning rate %d", wp->config->name, active, idle, wp->running_children, wp->idle_spawn_rate);
if (idle > wp->config->pm_max_spare_servers && last_idle_child) {
last_idle_child->idle_kill = 1;
fpm_pctl_kill(last_idle_child->pid, FPM_PCTL_QUIT);
wp->idle_spawn_rate = 1;
continue;
}
if (idle < wp->config->pm_min_spare_servers) {
if (wp->running_children >= wp->config->pm_max_children) {
if (!wp->warn_max_children) {
fpm_scoreboard_update(0, 0, 0, 0, 0, 1, 0, FPM_SCOREBOARD_ACTION_INC, wp->scoreboard);
zlog(ZLOG_WARNING, "[pool %s] server reached pm.max_children setting (%d), consider raising it", wp->config->name, wp->config->pm_max_children);
wp->warn_max_children = 1;
}
wp->idle_spawn_rate = 1;
continue;
}
if (wp->idle_spawn_rate >= 8) {
zlog(ZLOG_WARNING, "[pool %s] seems busy (you may need to increase pm.start_servers, or pm.min/max_spare_servers), spawning %d children, there are %d idle, and %d total children", wp->config->name, wp->idle_spawn_rate, idle, wp->running_children);
}
/* compute the number of idle process to spawn */
children_to_fork = MIN(wp->idle_spawn_rate, wp->config->pm_min_spare_servers - idle);
/* get sure it won't exceed max_children */
children_to_fork = MIN(children_to_fork, wp->config->pm_max_children - wp->running_children);
if (children_to_fork <= 0) {
if (!wp->warn_max_children) {
fpm_scoreboard_update(0, 0, 0, 0, 0, 1, 0, FPM_SCOREBOARD_ACTION_INC, wp->scoreboard);
zlog(ZLOG_WARNING, "[pool %s] server reached pm.max_children setting (%d), consider raising it", wp->config->name, wp->config->pm_max_children);
wp->warn_max_children = 1;
}
wp->idle_spawn_rate = 1;
continue;
}
wp->warn_max_children = 0;
fpm_children_make(wp, 1, children_to_fork, 1);
/* if it's a child, stop here without creating the next event
* this event is reserved to the master process
*/
if (fpm_globals.is_child) {
return;
}
zlog(ZLOG_DEBUG, "[pool %s] %d child(ren) have been created dynamically", wp->config->name, children_to_fork);
/* Double the spawn rate for the next iteration */
if (wp->idle_spawn_rate < FPM_MAX_SPAWN_RATE) {
wp->idle_spawn_rate *= 2;
}
continue;
}
wp->idle_spawn_rate = 1;
}
}
/* }}} */
void fpm_pctl_heartbeat(struct fpm_event_s *ev, short which, void *arg) /* {{{ */
{
static struct fpm_event_s heartbeat;
struct timeval now;
if (fpm_globals.parent_pid != getpid()) {
return; /* sanity check */
}
if (which == FPM_EV_TIMEOUT) {
fpm_clock_get(&now);
fpm_pctl_check_request_timeout(&now);
return;
}
/* ensure heartbeat is not lower than FPM_PCTL_MIN_HEARTBEAT */
fpm_globals.heartbeat = MAX(fpm_globals.heartbeat, FPM_PCTL_MIN_HEARTBEAT);
/* first call without setting to initialize the timer */
zlog(ZLOG_DEBUG, "heartbeat have been set up with a timeout of %dms", fpm_globals.heartbeat);
fpm_event_set_timer(&heartbeat, FPM_EV_PERSIST, &fpm_pctl_heartbeat, NULL);
fpm_event_add(&heartbeat, fpm_globals.heartbeat);
}
/* }}} */
void fpm_pctl_perform_idle_server_maintenance_heartbeat(struct fpm_event_s *ev, short which, void *arg) /* {{{ */
{
static struct fpm_event_s heartbeat;
struct timeval now;
if (fpm_globals.parent_pid != getpid()) {
return; /* sanity check */
}
if (which == FPM_EV_TIMEOUT) {
fpm_clock_get(&now);
if (fpm_pctl_can_spawn_children()) {
fpm_pctl_perform_idle_server_maintenance(&now);
/* if it's a child, stop here without creating the next event
* this event is reserved to the master process
*/
if (fpm_globals.is_child) {
return;
}
}
return;
}
/* first call without setting which to initialize the timer */
fpm_event_set_timer(&heartbeat, FPM_EV_PERSIST, &fpm_pctl_perform_idle_server_maintenance_heartbeat, NULL);
fpm_event_add(&heartbeat, FPM_IDLE_SERVER_MAINTENANCE_HEARTBEAT);
}
/* }}} */
void fpm_pctl_on_socket_accept(struct fpm_event_s *ev, short which, void *arg) /* {{{ */
{
struct fpm_worker_pool_s *wp = (struct fpm_worker_pool_s *)arg;
struct fpm_child_s *child;
if (fpm_globals.parent_pid != getpid()) {
/* prevent a event race condition when child process
* have not set up its own event loop */
return;
}
wp->socket_event_set = 0;
/* zlog(ZLOG_DEBUG, "[pool %s] heartbeat running_children=%d", wp->config->name, wp->running_children);*/
if (wp->running_children >= wp->config->pm_max_children) {
if (!wp->warn_max_children) {
fpm_scoreboard_update(0, 0, 0, 0, 0, 1, 0, FPM_SCOREBOARD_ACTION_INC, wp->scoreboard);
zlog(ZLOG_WARNING, "[pool %s] server reached max_children setting (%d), consider raising it", wp->config->name, wp->config->pm_max_children);
wp->warn_max_children = 1;
}
return;
}
for (child = wp->children; child; child = child->next) {
/* if there is at least on idle child, it will handle the connection, stop here */
if (fpm_request_is_idle(child)) {
return;
}
}
wp->warn_max_children = 0;
fpm_children_make(wp, 1, 1, 1);
if (fpm_globals.is_child) {
return;
}
zlog(ZLOG_DEBUG, "[pool %s] got accept without idle child available .... I forked", wp->config->name);
}
/* }}} */