/* * Copyright (c) 2013-2014 Hugh Bailey * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "../util/darray.h" #include "../util/threading.h" #include "decl.h" #include "signal.h" struct signal_callback { signal_callback_t callback; void *data; bool remove; bool keep_ref; }; struct signal_info { struct decl_info func; DARRAY(struct signal_callback) callbacks; pthread_mutex_t mutex; bool signalling; struct signal_info *next; }; static inline struct signal_info *signal_info_create(struct decl_info *info) { pthread_mutexattr_t attr; struct signal_info *si; if (pthread_mutexattr_init(&attr) != 0) return NULL; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) return NULL; si = bmalloc(sizeof(struct signal_info)); si->func = *info; si->next = NULL; si->signalling = false; da_init(si->callbacks); if (pthread_mutex_init(&si->mutex, &attr) != 0) { blog(LOG_ERROR, "Could not create signal"); decl_info_free(&si->func); bfree(si); return NULL; } return si; } static inline void signal_info_destroy(struct signal_info *si) { if (si) { pthread_mutex_destroy(&si->mutex); decl_info_free(&si->func); da_free(si->callbacks); bfree(si); } } static inline size_t signal_get_callback_idx(struct signal_info *si, signal_callback_t callback, void *data) { for (size_t i = 0; i < si->callbacks.num; i++) { struct signal_callback *sc = si->callbacks.array + i; if (sc->callback == callback && sc->data == data) return i; } return DARRAY_INVALID; } struct global_callback_info { global_signal_callback_t callback; void *data; long signaling; bool remove; }; struct signal_handler { struct signal_info *first; pthread_mutex_t mutex; volatile long refs; DARRAY(struct global_callback_info) global_callbacks; pthread_mutex_t global_callbacks_mutex; }; static struct signal_info *getsignal(signal_handler_t *handler, const char *name, struct signal_info **p_last) { struct signal_info *signal, *last = NULL; signal = handler->first; while (signal != NULL) { if (strcmp(signal->func.name, name) == 0) break; last = signal; signal = signal->next; } if (p_last) *p_last = last; return signal; } /* ------------------------------------------------------------------------- */ signal_handler_t *signal_handler_create(void) { struct signal_handler *handler = bzalloc(sizeof(struct signal_handler)); handler->first = NULL; handler->refs = 1; pthread_mutexattr_t attr; if (pthread_mutexattr_init(&attr) != 0) return NULL; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) return NULL; if (pthread_mutex_init(&handler->mutex, NULL) != 0) { blog(LOG_ERROR, "Couldn't create signal handler mutex!"); bfree(handler); return NULL; } if (pthread_mutex_init(&handler->global_callbacks_mutex, &attr) != 0) { blog(LOG_ERROR, "Couldn't create signal handler global " "callbacks mutex!"); pthread_mutex_destroy(&handler->mutex); bfree(handler); return NULL; } return handler; } static void signal_handler_actually_destroy(signal_handler_t *handler) { struct signal_info *sig = handler->first; while (sig != NULL) { struct signal_info *next = sig->next; signal_info_destroy(sig); sig = next; } da_free(handler->global_callbacks); pthread_mutex_destroy(&handler->global_callbacks_mutex); pthread_mutex_destroy(&handler->mutex); bfree(handler); } void signal_handler_destroy(signal_handler_t *handler) { if (handler && os_atomic_dec_long(&handler->refs) == 0) { signal_handler_actually_destroy(handler); } } bool signal_handler_add(signal_handler_t *handler, const char *signal_decl) { struct decl_info func = {0}; struct signal_info *sig, *last; bool success = true; if (!parse_decl_string(&func, signal_decl)) { blog(LOG_ERROR, "Signal declaration invalid: %s", signal_decl); return false; } pthread_mutex_lock(&handler->mutex); sig = getsignal(handler, func.name, &last); if (sig) { blog(LOG_WARNING, "Signal declaration '%s' exists", func.name); decl_info_free(&func); success = false; } else { sig = signal_info_create(&func); if (!last) handler->first = sig; else last->next = sig; } pthread_mutex_unlock(&handler->mutex); return success; } static void signal_handler_connect_internal(signal_handler_t *handler, const char *signal, signal_callback_t callback, void *data, bool keep_ref) { struct signal_info *sig, *last; struct signal_callback cb_data = {callback, data, false, keep_ref}; size_t idx; if (!handler) return; pthread_mutex_lock(&handler->mutex); sig = getsignal(handler, signal, &last); pthread_mutex_unlock(&handler->mutex); if (!sig) { blog(LOG_WARNING, "signal_handler_connect: " "signal '%s' not found", signal); return; } /* -------------- */ pthread_mutex_lock(&sig->mutex); if (keep_ref) os_atomic_inc_long(&handler->refs); idx = signal_get_callback_idx(sig, callback, data); if (keep_ref || idx == DARRAY_INVALID) da_push_back(sig->callbacks, &cb_data); pthread_mutex_unlock(&sig->mutex); } void signal_handler_connect(signal_handler_t *handler, const char *signal, signal_callback_t callback, void *data) { signal_handler_connect_internal(handler, signal, callback, data, false); } void signal_handler_connect_ref(signal_handler_t *handler, const char *signal, signal_callback_t callback, void *data) { signal_handler_connect_internal(handler, signal, callback, data, true); } static inline struct signal_info *getsignal_locked(signal_handler_t *handler, const char *name) { struct signal_info *sig; if (!handler) return NULL; pthread_mutex_lock(&handler->mutex); sig = getsignal(handler, name, NULL); pthread_mutex_unlock(&handler->mutex); return sig; } void signal_handler_disconnect(signal_handler_t *handler, const char *signal, signal_callback_t callback, void *data) { struct signal_info *sig = getsignal_locked(handler, signal); bool keep_ref = false; size_t idx; if (!sig) return; pthread_mutex_lock(&sig->mutex); idx = signal_get_callback_idx(sig, callback, data); if (idx != DARRAY_INVALID) { if (sig->signalling) { sig->callbacks.array[idx].remove = true; } else { keep_ref = sig->callbacks.array[idx].keep_ref; da_erase(sig->callbacks, idx); } } pthread_mutex_unlock(&sig->mutex); if (keep_ref && os_atomic_dec_long(&handler->refs) == 0) { signal_handler_actually_destroy(handler); } } static THREAD_LOCAL struct signal_callback *current_signal_cb = NULL; static THREAD_LOCAL struct global_callback_info *current_global_cb = NULL; void signal_handler_remove_current(void) { if (current_signal_cb) current_signal_cb->remove = true; else if (current_global_cb) current_global_cb->remove = true; } void signal_handler_signal(signal_handler_t *handler, const char *signal, calldata_t *params) { struct signal_info *sig = getsignal_locked(handler, signal); long remove_refs = 0; if (!sig) return; pthread_mutex_lock(&sig->mutex); sig->signalling = true; for (size_t i = 0; i < sig->callbacks.num; i++) { struct signal_callback *cb = sig->callbacks.array + i; if (!cb->remove) { current_signal_cb = cb; cb->callback(cb->data, params); current_signal_cb = NULL; } } for (size_t i = sig->callbacks.num; i > 0; i--) { struct signal_callback *cb = sig->callbacks.array + i - 1; if (cb->remove) { if (cb->keep_ref) remove_refs++; da_erase(sig->callbacks, i - 1); } } sig->signalling = false; pthread_mutex_unlock(&sig->mutex); pthread_mutex_lock(&handler->global_callbacks_mutex); if (handler->global_callbacks.num) { for (size_t i = 0; i < handler->global_callbacks.num; i++) { struct global_callback_info *cb = handler->global_callbacks.array + i; if (!cb->remove) { cb->signaling++; current_global_cb = cb; cb->callback(cb->data, signal, params); current_global_cb = NULL; cb->signaling--; } } for (size_t i = handler->global_callbacks.num; i > 0; i--) { struct global_callback_info *cb = handler->global_callbacks.array + (i - 1); if (cb->remove && !cb->signaling) da_erase(handler->global_callbacks, i - 1); } } pthread_mutex_unlock(&handler->global_callbacks_mutex); if (remove_refs) { os_atomic_set_long(&handler->refs, os_atomic_load_long(&handler->refs) - remove_refs); } } void signal_handler_connect_global(signal_handler_t *handler, global_signal_callback_t callback, void *data) { struct global_callback_info cb_data = {callback, data, 0, false}; size_t idx; if (!handler || !callback) return; pthread_mutex_lock(&handler->global_callbacks_mutex); idx = da_find(handler->global_callbacks, &cb_data, 0); if (idx == DARRAY_INVALID) da_push_back(handler->global_callbacks, &cb_data); pthread_mutex_unlock(&handler->global_callbacks_mutex); } void signal_handler_disconnect_global(signal_handler_t *handler, global_signal_callback_t callback, void *data) { struct global_callback_info cb_data = {callback, data, false}; size_t idx; if (!handler || !callback) return; pthread_mutex_lock(&handler->global_callbacks_mutex); idx = da_find(handler->global_callbacks, &cb_data, 0); if (idx != DARRAY_INVALID) { struct global_callback_info *cb = handler->global_callbacks.array + idx; if (cb->signaling) cb->remove = true; else da_erase(handler->global_callbacks, idx); } pthread_mutex_unlock(&handler->global_callbacks_mutex); }