/* $Id: fpm_status.c 312399 2011-06-23 08:03:52Z fat $ */ /* (c) 2009 Jerome Loyet */ #include "php.h" #include "SAPI.h" #include #include #include "fpm_config.h" #include "fpm_scoreboard.h" #include "fpm_shm.h" #include "fpm_sockets.h" #include "fpm_worker_pool.h" #include "fpm_clock.h" #include "zlog.h" static struct fpm_scoreboard_s *fpm_scoreboard = NULL; static int fpm_scoreboard_i = -1; #ifdef HAVE_TIMES static float fpm_scoreboard_tick; #endif int fpm_scoreboard_init_main() /* {{{ */ { struct fpm_worker_pool_s *wp; unsigned int i; #ifdef HAVE_TIMES #if (defined(HAVE_SYSCONF) && defined(_SC_CLK_TCK)) fpm_scoreboard_tick = sysconf(_SC_CLK_TCK); #else /* _SC_CLK_TCK */ #ifdef HZ fpm_scoreboard_tick = HZ; #else /* HZ */ fpm_scoreboard_tick = 100; #endif /* HZ */ #endif /* _SC_CLK_TCK */ zlog(ZLOG_DEBUG, "got clock tick '%.0f'", fpm_scoreboard_tick); #endif /* HAVE_TIMES */ for (wp = fpm_worker_all_pools; wp; wp = wp->next) { size_t scoreboard_size, scoreboard_nprocs_size; void *shm_mem; if (wp->config->pm_max_children < 1) { zlog(ZLOG_ERROR, "[pool %s] Unable to create scoreboard SHM because max_client is not set", wp->config->name); return -1; } if (wp->scoreboard) { zlog(ZLOG_ERROR, "[pool %s] Unable to create scoreboard SHM because it already exists", wp->config->name); return -1; } scoreboard_size = sizeof(struct fpm_scoreboard_s) + (wp->config->pm_max_children) * sizeof(struct fpm_scoreboard_proc_s *); scoreboard_nprocs_size = sizeof(struct fpm_scoreboard_proc_s) * wp->config->pm_max_children; shm_mem = fpm_shm_alloc(scoreboard_size + scoreboard_nprocs_size); if (!shm_mem) { return -1; } wp->scoreboard = shm_mem; wp->scoreboard->nprocs = wp->config->pm_max_children; shm_mem += scoreboard_size; for (i = 0; i < wp->scoreboard->nprocs; i++, shm_mem += sizeof(struct fpm_scoreboard_proc_s)) { wp->scoreboard->procs[i] = shm_mem; } wp->scoreboard->pm = wp->config->pm; wp->scoreboard->start_epoch = time(NULL); strlcpy(wp->scoreboard->pool, wp->config->name, sizeof(wp->scoreboard->pool)); } return 0; } /* }}} */ void fpm_scoreboard_update(int idle, int active, int lq, int lq_len, int requests, int max_children_reached, int slow_rq, int action, struct fpm_scoreboard_s *scoreboard) /* {{{ */ { if (!scoreboard) { scoreboard = fpm_scoreboard; } if (!scoreboard) { zlog(ZLOG_WARNING, "Unable to update scoreboard: the SHM has not been found"); return; } fpm_spinlock(&scoreboard->lock, 0); if (action == FPM_SCOREBOARD_ACTION_SET) { if (idle >= 0) { scoreboard->idle = idle; } if (active >= 0) { scoreboard->active = active; } if (lq >= 0) { scoreboard->lq = lq; } if (lq_len >= 0) { scoreboard->lq_len = lq_len; } #ifdef HAVE_FPM_LQ /* prevent unnecessary test */ if (scoreboard->lq > scoreboard->lq_max) { scoreboard->lq_max = scoreboard->lq; } #endif if (requests >= 0) { scoreboard->requests = requests; } if (max_children_reached >= 0) { scoreboard->max_children_reached = max_children_reached; } if (slow_rq > 0) { scoreboard->slow_rq = slow_rq; } } else { if (scoreboard->idle + idle > 0) { scoreboard->idle += idle; } else { scoreboard->idle = 0; } if (scoreboard->active + active > 0) { scoreboard->active += active; } else { scoreboard->active = 0; } if (scoreboard->requests + requests > 0) { scoreboard->requests += requests; } else { scoreboard->requests = 0; } if (scoreboard->max_children_reached + max_children_reached > 0) { scoreboard->max_children_reached += max_children_reached; } else { scoreboard->max_children_reached = 0; } if (scoreboard->slow_rq + slow_rq > 0) { scoreboard->slow_rq += slow_rq; } else { scoreboard->slow_rq = 0; } } if (scoreboard->active > scoreboard->active_max) { scoreboard->active_max = scoreboard->active; } fpm_unlock(scoreboard->lock); } /* }}} */ struct fpm_scoreboard_s *fpm_scoreboard_get() /* {{{*/ { return fpm_scoreboard; } /* }}} */ struct fpm_scoreboard_proc_s *fpm_scoreboard_proc_get(struct fpm_scoreboard_s *scoreboard, int child_index) /* {{{*/ { if (!scoreboard) { scoreboard = fpm_scoreboard; } if (!scoreboard) { return NULL; } if (child_index < 0) { child_index = fpm_scoreboard_i; } if (child_index < 0 || child_index >= scoreboard->nprocs) { return NULL; } return scoreboard->procs[child_index]; } /* }}} */ struct fpm_scoreboard_s *fpm_scoreboard_acquire(struct fpm_scoreboard_s *scoreboard, int nohang) /* {{{ */ { struct fpm_scoreboard_s *s; s = scoreboard ? scoreboard : fpm_scoreboard; if (!s) { return NULL; } if (!fpm_spinlock(&s->lock, nohang)) { return NULL; } return s; } /* }}} */ void fpm_scoreboard_release(struct fpm_scoreboard_s *scoreboard) { if (!scoreboard) { return; } scoreboard->lock = 0; } struct fpm_scoreboard_proc_s *fpm_scoreboard_proc_acquire(struct fpm_scoreboard_s *scoreboard, int child_index, int nohang) /* {{{ */ { struct fpm_scoreboard_proc_s *proc; proc = fpm_scoreboard_proc_get(scoreboard, child_index); if (!proc) { return NULL; } if (!fpm_spinlock(&proc->lock, nohang)) { return NULL; } return proc; } /* }}} */ void fpm_scoreboard_proc_release(struct fpm_scoreboard_proc_s *proc) /* {{{ */ { if (!proc) { return; } proc->lock = 0; } void fpm_scoreboard_free(struct fpm_scoreboard_s *scoreboard) /* {{{ */ { size_t scoreboard_size, scoreboard_nprocs_size; if (!scoreboard) { zlog(ZLOG_ERROR, "**scoreboard is NULL"); return; } scoreboard_size = sizeof(struct fpm_scoreboard_s) + (scoreboard->nprocs) * sizeof(struct fpm_scoreboard_proc_s *); scoreboard_nprocs_size = sizeof(struct fpm_scoreboard_proc_s) * scoreboard->nprocs; fpm_shm_free(scoreboard, scoreboard_size + scoreboard_nprocs_size); } /* }}} */ void fpm_scoreboard_child_use(struct fpm_scoreboard_s *scoreboard, int child_index, pid_t pid) /* {{{ */ { struct fpm_scoreboard_proc_s *proc; fpm_scoreboard = scoreboard; fpm_scoreboard_i = child_index; proc = fpm_scoreboard_proc_get(scoreboard, child_index); if (!proc) { return; } proc->pid = pid; proc->start_epoch = time(NULL); } /* }}} */ void fpm_scoreboard_proc_free(struct fpm_scoreboard_s *scoreboard, int child_index) /* {{{ */ { if (!scoreboard) { return; } if (child_index < 0 || child_index >= scoreboard->nprocs) { return; } if (scoreboard->procs[child_index] && scoreboard->procs[child_index]->used > 0) { memset(scoreboard->procs[child_index], 0, sizeof(struct fpm_scoreboard_proc_s)); } /* set this slot as free to avoid search on next alloc */ scoreboard->free_proc = child_index; } /* }}} */ int fpm_scoreboard_proc_alloc(struct fpm_scoreboard_s *scoreboard, int *child_index) /* {{{ */ { int i = -1; if (!scoreboard || !child_index) { return -1; } /* first try the slot which is supposed to be free */ if (scoreboard->free_proc >= 0 && scoreboard->free_proc < scoreboard->nprocs) { if (scoreboard->procs[scoreboard->free_proc] && !scoreboard->procs[scoreboard->free_proc]->used) { i = scoreboard->free_proc; } } if (i < 0) { /* the supposed free slot is not, let's search for a free slot */ zlog(ZLOG_DEBUG, "[pool %s] the proc->free_slot was not free. Let's search", scoreboard->pool); for (i = 0; i < scoreboard->nprocs; i++) { if (scoreboard->procs[i] && !scoreboard->procs[i]->used) { /* found */ break; } } } /* no free slot */ if (i < 0 || i >= scoreboard->nprocs) { zlog(ZLOG_ERROR, "[pool %s] no free scoreboard slot", scoreboard->pool); return -1; } scoreboard->procs[i]->used = 1; *child_index = i; /* supposed next slot is free */ if (i + 1 >= scoreboard->nprocs) { scoreboard->free_proc = 0; } else { scoreboard->free_proc = i + 1; } return 0; } /* }}} */ #ifdef HAVE_TIMES float fpm_scoreboard_get_tick() /* {{{ */ { return fpm_scoreboard_tick; } /* }}} */ #endif