/* * * Copyright 2015 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #include "channel.h" #include #include #if PHP_MAJOR_VERSION < 7 #include #else #include #endif #include #include #include #include #include "completion_queue.h" #include "channel_credentials.h" #include "timeval.h" zend_class_entry *grpc_ce_channel; PHP_GRPC_DECLARE_OBJECT_HANDLER(channel_ce_handlers) static gpr_mu global_persistent_list_mu; int le_plink; int le_bound; extern HashTable grpc_persistent_list; extern HashTable grpc_target_upper_bound_map; void free_grpc_channel_wrapper(grpc_channel_wrapper* channel, bool free_channel) { if (free_channel) { grpc_channel_destroy(channel->wrapped); channel->wrapped = NULL; } free(channel->target); free(channel->args_hashstr); free(channel->creds_hashstr); free(channel->key); channel->target = NULL; channel->args_hashstr = NULL; channel->creds_hashstr = NULL; channel->key = NULL; } void php_grpc_channel_ref(grpc_channel_wrapper* wrapper) { gpr_mu_lock(&wrapper->mu); wrapper->ref_count += 1; gpr_mu_unlock(&wrapper->mu); } void php_grpc_channel_unref(grpc_channel_wrapper* wrapper) { gpr_mu_lock(&wrapper->mu); wrapper->ref_count -= 1; if (wrapper->ref_count == 0) { free_grpc_channel_wrapper(wrapper, true); gpr_mu_unlock(&wrapper->mu); free(wrapper); wrapper = NULL; return; } gpr_mu_unlock(&wrapper->mu); } /* Frees and destroys an instance of wrapped_grpc_channel */ PHP_GRPC_FREE_WRAPPED_FUNC_START(wrapped_grpc_channel) // In_persistent_list is used when the user don't close the channel, // In this case, channels not in the list should be freed. if (p->wrapper != NULL) { php_grpc_channel_unref(p->wrapper); p->wrapper = NULL; } PHP_GRPC_FREE_WRAPPED_FUNC_END() /* Initializes an instance of wrapped_grpc_channel to be associated with an * object of a class specified by class_type */ php_grpc_zend_object create_wrapped_grpc_channel(zend_class_entry *class_type TSRMLS_DC) { PHP_GRPC_ALLOC_CLASS_OBJECT(wrapped_grpc_channel); zend_object_std_init(&intern->std, class_type TSRMLS_CC); object_properties_init(&intern->std, class_type); PHP_GRPC_FREE_CLASS_OBJECT(wrapped_grpc_channel, channel_ce_handlers); } int php_grpc_read_args_array(zval *args_array, grpc_channel_args *args TSRMLS_DC) { HashTable *array_hash; int args_index; array_hash = Z_ARRVAL_P(args_array); if (!array_hash) { zend_throw_exception(spl_ce_InvalidArgumentException, "array_hash is NULL", 1 TSRMLS_CC); return FAILURE; } args->num_args = zend_hash_num_elements(array_hash); args->args = ecalloc(args->num_args, sizeof(grpc_arg)); args_index = 0; char *key = NULL; zval *data; int key_type; PHP_GRPC_HASH_FOREACH_STR_KEY_VAL_START(array_hash, key, key_type, data) if (key_type != HASH_KEY_IS_STRING) { zend_throw_exception(spl_ce_InvalidArgumentException, "args keys must be strings", 1 TSRMLS_CC); return FAILURE; } args->args[args_index].key = key; switch (Z_TYPE_P(data)) { case IS_LONG: args->args[args_index].value.integer = (int)Z_LVAL_P(data); args->args[args_index].type = GRPC_ARG_INTEGER; break; case IS_STRING: args->args[args_index].value.string = Z_STRVAL_P(data); args->args[args_index].type = GRPC_ARG_STRING; break; default: zend_throw_exception(spl_ce_InvalidArgumentException, "args values must be int or string", 1 TSRMLS_CC); return FAILURE; } args_index++; PHP_GRPC_HASH_FOREACH_END() return SUCCESS; } void generate_sha1_str(char *sha1str, char *str, php_grpc_int len) { PHP_SHA1_CTX context; unsigned char digest[20]; sha1str[0] = '\0'; PHP_SHA1Init(&context); PHP_GRPC_SHA1Update(&context, str, len); PHP_SHA1Final(digest, &context); make_sha1_digest(sha1str, digest); } bool php_grpc_persistent_list_delete_unused_channel( char* target, target_bound_le_t* target_bound_status TSRMLS_DC) { zval *data; PHP_GRPC_HASH_FOREACH_VAL_START(&grpc_persistent_list, data) php_grpc_zend_resource *rsrc = (php_grpc_zend_resource*) PHP_GRPC_HASH_VALPTR_TO_VAL(data) if (rsrc == NULL) { break; } channel_persistent_le_t* le = rsrc->ptr; // Find the channel sharing the same target. if (strcmp(le->channel->target, target) == 0) { // ref_count=1 means that only the map holds the reference to the channel. if (le->channel->ref_count == 1) { php_grpc_delete_persistent_list_entry(le->channel->key, strlen(le->channel->key) TSRMLS_CC); target_bound_status->current_count -= 1; if (target_bound_status->current_count < target_bound_status->upper_bound) { return true; } } } PHP_GRPC_HASH_FOREACH_END() return false; } target_bound_le_t* update_and_get_target_upper_bound(char* target, int bound) { php_grpc_zend_resource *rsrc; target_bound_le_t* target_bound_status; php_grpc_int key_len = strlen(target); if (!(PHP_GRPC_PERSISTENT_LIST_FIND(&grpc_target_upper_bound_map, target, key_len, rsrc))) { // Target is not not persisted. php_grpc_zend_resource new_rsrc; target_bound_status = malloc(sizeof(target_bound_le_t)); if (bound == -1) { // If the bound is not set, use 1 as default.s bound = 1; } target_bound_status->upper_bound = bound; // Init current_count with 1. It should be add 1 when the channel is successfully // created and minus 1 when it is removed from the persistent list. target_bound_status->current_count = 0; new_rsrc.type = le_bound; new_rsrc.ptr = target_bound_status; gpr_mu_lock(&global_persistent_list_mu); PHP_GRPC_PERSISTENT_LIST_UPDATE(&grpc_target_upper_bound_map, target, key_len, (void *)&new_rsrc); gpr_mu_unlock(&global_persistent_list_mu); } else { // The target already in the map recording the upper bound. // If no newer bound set, use the original now. target_bound_status = (target_bound_le_t *)rsrc->ptr; if (bound != -1) { target_bound_status->upper_bound = bound; } } return target_bound_status; } void create_channel( wrapped_grpc_channel *channel, char *target, grpc_channel_args args, wrapped_grpc_channel_credentials *creds) { if (creds == NULL) { channel->wrapper->wrapped = grpc_insecure_channel_create(target, &args, NULL); } else { channel->wrapper->wrapped = grpc_secure_channel_create(creds->wrapped, target, &args, NULL); } // There is an Grpc\Channel object refer to it. php_grpc_channel_ref(channel->wrapper); efree(args.args); } void create_and_add_channel_to_persistent_list( wrapped_grpc_channel *channel, char *target, grpc_channel_args args, wrapped_grpc_channel_credentials *creds, char *key, php_grpc_int key_len, int target_upper_bound TSRMLS_DC) { target_bound_le_t* target_bound_status = update_and_get_target_upper_bound(target, target_upper_bound); // Check the upper bound status before inserting to the persistent map. if (target_bound_status->current_count >= target_bound_status->upper_bound) { if (!php_grpc_persistent_list_delete_unused_channel( target, target_bound_status TSRMLS_CC)) { // If no channel can be deleted from the persistent map, // do not persist this one. create_channel(channel, target, args, creds); php_printf("[Warning] The number of channel for the" " target %s is maxed out bounded.\n", target); php_printf("[Warning] Target upper bound: %d. Current size: %d.\n", target_bound_status->upper_bound, target_bound_status->current_count); php_printf("[Warning] Target %s will not be persisted.\n", target); return; } } // There is space in the persistent map. php_grpc_zend_resource new_rsrc; channel_persistent_le_t *le; // this links each persistent list entry to a destructor new_rsrc.type = le_plink; le = malloc(sizeof(channel_persistent_le_t)); create_channel(channel, target, args, creds); target_bound_status->current_count += 1; le->channel = channel->wrapper; new_rsrc.ptr = le; gpr_mu_lock(&global_persistent_list_mu); PHP_GRPC_PERSISTENT_LIST_UPDATE(&grpc_persistent_list, key, key_len, (void *)&new_rsrc); // Persistent map refer to it. php_grpc_channel_ref(channel->wrapper); gpr_mu_unlock(&global_persistent_list_mu); } /** * Construct an instance of the Channel class. * * By default, the underlying grpc_channel is "persistent". That is, given * the same set of parameters passed to the constructor, the same underlying * grpc_channel will be returned. * * If the $args array contains a "credentials" key mapping to a * ChannelCredentials object, a secure channel will be created with those * credentials. * * If the $args array contains a "force_new" key mapping to a boolean value * of "true", a new and separate underlying grpc_channel will be created * and returned. This will not affect existing channels. * * @param string $target The hostname to associate with this channel * @param array $args_array The arguments to pass to the Channel */ PHP_METHOD(Channel, __construct) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); zval *creds_obj = NULL; char *target; php_grpc_int target_length; zval *args_array = NULL; grpc_channel_args args; HashTable *array_hash; wrapped_grpc_channel_credentials *creds = NULL; php_grpc_zend_resource *rsrc; bool force_new = false; zval *force_new_obj = NULL; int target_upper_bound = -1; /* "sa" == 1 string, 1 array */ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "sa", &target, &target_length, &args_array) == FAILURE) { zend_throw_exception(spl_ce_InvalidArgumentException, "Channel expects a string and an array", 1 TSRMLS_CC); return; } array_hash = Z_ARRVAL_P(args_array); if (php_grpc_zend_hash_find(array_hash, "credentials", sizeof("credentials"), (void **)&creds_obj) == SUCCESS) { if (Z_TYPE_P(creds_obj) == IS_NULL) { creds = NULL; php_grpc_zend_hash_del(array_hash, "credentials", sizeof("credentials")); } else if (PHP_GRPC_GET_CLASS_ENTRY(creds_obj) != grpc_ce_channel_credentials) { zend_throw_exception(spl_ce_InvalidArgumentException, "credentials must be a ChannelCredentials object", 1 TSRMLS_CC); return; } else { creds = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel_credentials, creds_obj); php_grpc_zend_hash_del(array_hash, "credentials", sizeof("credentials")); } } if (php_grpc_zend_hash_find(array_hash, "force_new", sizeof("force_new"), (void **)&force_new_obj) == SUCCESS) { if (PHP_GRPC_BVAL_IS_TRUE(force_new_obj)) { force_new = true; } php_grpc_zend_hash_del(array_hash, "force_new", sizeof("force_new")); } if (php_grpc_zend_hash_find(array_hash, "grpc_target_persist_bound", sizeof("grpc_target_persist_bound"), (void **)&force_new_obj) == SUCCESS) { if (Z_TYPE_P(force_new_obj) != IS_LONG) { zend_throw_exception(spl_ce_InvalidArgumentException, "plist_bound must be a number", 1 TSRMLS_CC); } target_upper_bound = (int)Z_LVAL_P(force_new_obj); php_grpc_zend_hash_del(array_hash, "grpc_target_persist_bound", sizeof("grpc_target_persist_bound")); } // parse the rest of the channel args array if (php_grpc_read_args_array(args_array, &args TSRMLS_CC) == FAILURE) { efree(args.args); return; } // Construct a hashkey for the persistent channel // Currently, the hashkey contains 3 parts: // 1. hostname // 2. hash value of the channel args array (excluding "credentials" // and "force_new") // 3. (optional) hash value of the ChannelCredentials object php_serialize_data_t var_hash; smart_str buf = {0}; PHP_VAR_SERIALIZE_INIT(var_hash); PHP_GRPC_VAR_SERIALIZE(&buf, args_array, &var_hash); PHP_VAR_SERIALIZE_DESTROY(var_hash); char sha1str[41]; generate_sha1_str(sha1str, PHP_GRPC_SERIALIZED_BUF_STR(buf), PHP_GRPC_SERIALIZED_BUF_LEN(buf)); php_grpc_int key_len = target_length + strlen(sha1str); if (creds != NULL && creds->hashstr != NULL) { key_len += strlen(creds->hashstr); } char *key = malloc(key_len + 1); strcpy(key, target); strcat(key, sha1str); if (creds != NULL && creds->hashstr != NULL) { strcat(key, creds->hashstr); } channel->wrapper = malloc(sizeof(grpc_channel_wrapper)); channel->wrapper->ref_count = 0; channel->wrapper->key = key; channel->wrapper->target = strdup(target); channel->wrapper->args_hashstr = strdup(sha1str); channel->wrapper->creds_hashstr = NULL; channel->wrapper->creds = creds; channel->wrapper->args = args; if (creds != NULL && creds->hashstr != NULL) { php_grpc_int creds_hashstr_len = strlen(creds->hashstr); char *channel_creds_hashstr = malloc(creds_hashstr_len + 1); strcpy(channel_creds_hashstr, creds->hashstr); channel->wrapper->creds_hashstr = channel_creds_hashstr; } gpr_mu_init(&channel->wrapper->mu); smart_str_free(&buf); if (force_new || (creds != NULL && creds->has_call_creds)) { // If the ChannelCredentials object was composed with a CallCredentials // object, there is no way we can tell them apart. Do NOT persist // them. They should be individually destroyed. create_channel(channel, target, args, creds); } else if (!(PHP_GRPC_PERSISTENT_LIST_FIND(&grpc_persistent_list, key, key_len, rsrc))) { create_and_add_channel_to_persistent_list( channel, target, args, creds, key, key_len, target_upper_bound TSRMLS_CC); } else { // Found a previously stored channel in the persistent list channel_persistent_le_t *le = (channel_persistent_le_t *)rsrc->ptr; if (strcmp(target, le->channel->target) != 0 || strcmp(sha1str, le->channel->args_hashstr) != 0 || (creds != NULL && creds->hashstr != NULL && strcmp(creds->hashstr, le->channel->creds_hashstr) != 0)) { // somehow hash collision create_and_add_channel_to_persistent_list( channel, target, args, creds, key, key_len, target_upper_bound TSRMLS_CC); } else { efree(args.args); free_grpc_channel_wrapper(channel->wrapper, false); gpr_mu_destroy(&channel->wrapper->mu); free(channel->wrapper); channel->wrapper = NULL; channel->wrapper = le->channel; // One more Grpc\Channel object refer to it. php_grpc_channel_ref(channel->wrapper); update_and_get_target_upper_bound(target, target_upper_bound); } } } /** * Get the endpoint this call/stream is connected to * @return string The URI of the endpoint */ PHP_METHOD(Channel, getTarget) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); if (channel->wrapper == NULL) { zend_throw_exception(spl_ce_RuntimeException, "getTarget error." "Channel is already closed.", 1 TSRMLS_CC); return; } gpr_mu_lock(&channel->wrapper->mu); char *target = grpc_channel_get_target(channel->wrapper->wrapped); gpr_mu_unlock(&channel->wrapper->mu); PHP_GRPC_RETVAL_STRING(target, 1); gpr_free(target); } /** * Get the connectivity state of the channel * @param bool $try_to_connect Try to connect on the channel (optional) * @return long The grpc connectivity state */ PHP_METHOD(Channel, getConnectivityState) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); if (channel->wrapper == NULL) { zend_throw_exception(spl_ce_RuntimeException, "getConnectivityState error." "Channel is already closed.", 1 TSRMLS_CC); return; } gpr_mu_lock(&channel->wrapper->mu); bool try_to_connect = false; /* "|b" == 1 optional bool */ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|b", &try_to_connect) == FAILURE) { zend_throw_exception(spl_ce_InvalidArgumentException, "getConnectivityState expects a bool", 1 TSRMLS_CC); gpr_mu_unlock(&channel->wrapper->mu); return; } int state = grpc_channel_check_connectivity_state(channel->wrapper->wrapped, (int)try_to_connect); gpr_mu_unlock(&channel->wrapper->mu); RETURN_LONG(state); } /** * Watch the connectivity state of the channel until it changed * @param long $last_state The previous connectivity state of the channel * @param Timeval $deadline_obj The deadline this function should wait until * @return bool If the connectivity state changes from last_state * before deadline */ PHP_METHOD(Channel, watchConnectivityState) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); if (channel->wrapper == NULL) { zend_throw_exception(spl_ce_RuntimeException, "watchConnectivityState error" "Channel is already closed.", 1 TSRMLS_CC); return; } gpr_mu_lock(&channel->wrapper->mu); php_grpc_long last_state; zval *deadline_obj; /* "lO" == 1 long 1 object */ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "lO", &last_state, &deadline_obj, grpc_ce_timeval) == FAILURE) { zend_throw_exception(spl_ce_InvalidArgumentException, "watchConnectivityState expects 1 long 1 timeval", 1 TSRMLS_CC); gpr_mu_unlock(&channel->wrapper->mu); return; } wrapped_grpc_timeval *deadline = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_timeval, deadline_obj); grpc_channel_watch_connectivity_state(channel->wrapper->wrapped, (grpc_connectivity_state)last_state, deadline->wrapped, completion_queue, NULL); grpc_event event = grpc_completion_queue_pluck(completion_queue, NULL, gpr_inf_future(GPR_CLOCK_REALTIME), NULL); gpr_mu_unlock(&channel->wrapper->mu); RETURN_BOOL(event.success); } /** * Close the channel * @return void */ PHP_METHOD(Channel, close) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); if (channel->wrapper != NULL) { php_grpc_channel_unref(channel->wrapper); channel->wrapper = NULL; } } // Delete an entry from the persistent list // Note: this does not destroy or close the underlying grpc_channel void php_grpc_delete_persistent_list_entry(char *key, php_grpc_int key_len TSRMLS_DC) { php_grpc_zend_resource *rsrc; gpr_mu_lock(&global_persistent_list_mu); if (PHP_GRPC_PERSISTENT_LIST_FIND(&grpc_persistent_list, key, key_len, rsrc)) { php_grpc_zend_hash_del(&grpc_persistent_list, key, key_len+1); } gpr_mu_unlock(&global_persistent_list_mu); } // A destructor associated with each list entry from the persistent list static void php_grpc_channel_plink_dtor(php_grpc_zend_resource *rsrc TSRMLS_DC) { channel_persistent_le_t *le = (channel_persistent_le_t *)rsrc->ptr; if (le == NULL) { return; } if (le->channel != NULL) { php_grpc_channel_unref(le->channel); le->channel = NULL; } free(le); le = NULL; } // A destructor associated with each list entry from the target_bound map static void php_grpc_target_bound_dtor(php_grpc_zend_resource *rsrc TSRMLS_DC) { target_bound_le_t *le = (target_bound_le_t *) rsrc->ptr; if (le == NULL) { return; } free(le); le = NULL; } #ifdef GRPC_PHP_DEBUG /** * Clean all channels in the persistent. Test only. * @return void */ PHP_METHOD(Channel, cleanPersistentList) { zend_hash_clean(&grpc_persistent_list); zend_hash_clean(&grpc_target_upper_bound_map); } char *grpc_connectivity_state_name(grpc_connectivity_state state) { switch (state) { case GRPC_CHANNEL_IDLE: return "IDLE"; case GRPC_CHANNEL_CONNECTING: return "CONNECTING"; case GRPC_CHANNEL_READY: return "READY"; case GRPC_CHANNEL_TRANSIENT_FAILURE: return "TRANSIENT_FAILURE"; case GRPC_CHANNEL_SHUTDOWN: return "SHUTDOWN"; } return "UNKNOWN"; } /** * Return the info about the current channel. Test only. * @return array */ PHP_METHOD(Channel, getChannelInfo) { wrapped_grpc_channel *channel = PHP_GRPC_GET_WRAPPED_OBJECT(wrapped_grpc_channel, getThis()); array_init(return_value); // Info about the target PHP_GRPC_ADD_STRING_TO_ARRAY(return_value, "target", sizeof("target"), channel->wrapper->target, true); // Info about the upper bound for the target target_bound_le_t* target_bound_status = update_and_get_target_upper_bound(channel->wrapper->target, -1); PHP_GRPC_ADD_LONG_TO_ARRAY(return_value, "target_upper_bound", sizeof("target_upper_bound"), target_bound_status->upper_bound); PHP_GRPC_ADD_LONG_TO_ARRAY(return_value, "target_current_size", sizeof("target_current_size"), target_bound_status->current_count); // Info about key PHP_GRPC_ADD_STRING_TO_ARRAY(return_value, "key", sizeof("key"), channel->wrapper->key, true); // Info about persistent channel ref_count PHP_GRPC_ADD_LONG_TO_ARRAY(return_value, "ref_count", sizeof("ref_count"), channel->wrapper->ref_count); // Info about connectivity status int state = grpc_channel_check_connectivity_state(channel->wrapper->wrapped, (int)0); // It should be set to 'true' in PHP 5.6.33 PHP_GRPC_ADD_LONG_TO_ARRAY(return_value, "connectivity_status", sizeof("connectivity_status"), state); PHP_GRPC_ADD_STRING_TO_ARRAY(return_value, "ob", sizeof("ob"), grpc_connectivity_state_name(state), true); // Info about the channel is closed or not PHP_GRPC_ADD_BOOL_TO_ARRAY(return_value, "is_valid", sizeof("is_valid"), (channel->wrapper == NULL)); } /** * Return an array of all channels in the persistent list. Test only. * @return array */ PHP_METHOD(Channel, getPersistentList) { array_init(return_value); zval *data; PHP_GRPC_HASH_FOREACH_VAL_START(&grpc_persistent_list, data) php_grpc_zend_resource *rsrc = (php_grpc_zend_resource*) PHP_GRPC_HASH_VALPTR_TO_VAL(data) if (rsrc == NULL) { break; } channel_persistent_le_t* le = rsrc->ptr; zval* ret_arr; PHP_GRPC_MAKE_STD_ZVAL(ret_arr); array_init(ret_arr); // Info about the target PHP_GRPC_ADD_STRING_TO_ARRAY(ret_arr, "target", sizeof("target"), le->channel->target, true); // Info about the upper bound for the target target_bound_le_t* target_bound_status = update_and_get_target_upper_bound(le->channel->target, -1); PHP_GRPC_ADD_LONG_TO_ARRAY(ret_arr, "target_upper_bound", sizeof("target_upper_bound"), target_bound_status->upper_bound); PHP_GRPC_ADD_LONG_TO_ARRAY(ret_arr, "target_current_size", sizeof("target_current_size"), target_bound_status->current_count); // Info about key PHP_GRPC_ADD_STRING_TO_ARRAY(ret_arr, "key", sizeof("key"), le->channel->key, true); // Info about persistent channel ref_count PHP_GRPC_ADD_LONG_TO_ARRAY(ret_arr, "ref_count", sizeof("ref_count"), le->channel->ref_count); // Info about connectivity status int state = grpc_channel_check_connectivity_state(le->channel->wrapped, (int)0); // It should be set to 'true' in PHP 5.6.33 PHP_GRPC_ADD_LONG_TO_ARRAY(ret_arr, "connectivity_status", sizeof("connectivity_status"), state); PHP_GRPC_ADD_STRING_TO_ARRAY(ret_arr, "ob", sizeof("ob"), grpc_connectivity_state_name(state), true); add_assoc_zval(return_value, le->channel->key, ret_arr); PHP_GRPC_FREE_STD_ZVAL(ret_arr); PHP_GRPC_HASH_FOREACH_END() } #endif ZEND_BEGIN_ARG_INFO_EX(arginfo_construct, 0, 0, 2) ZEND_ARG_INFO(0, target) ZEND_ARG_INFO(0, args) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_getTarget, 0, 0, 0) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_getConnectivityState, 0, 0, 0) ZEND_ARG_INFO(0, try_to_connect) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_watchConnectivityState, 0, 0, 2) ZEND_ARG_INFO(0, last_state) ZEND_ARG_INFO(0, deadline) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_close, 0, 0, 0) ZEND_END_ARG_INFO() #ifdef GRPC_PHP_DEBUG ZEND_BEGIN_ARG_INFO_EX(arginfo_getChannelInfo, 0, 0, 0) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_cleanPersistentList, 0, 0, 0) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_getPersistentList, 0, 0, 0) ZEND_END_ARG_INFO() #endif static zend_function_entry channel_methods[] = { PHP_ME(Channel, __construct, arginfo_construct, ZEND_ACC_PUBLIC | ZEND_ACC_CTOR) PHP_ME(Channel, getTarget, arginfo_getTarget, ZEND_ACC_PUBLIC) PHP_ME(Channel, getConnectivityState, arginfo_getConnectivityState, ZEND_ACC_PUBLIC) PHP_ME(Channel, watchConnectivityState, arginfo_watchConnectivityState, ZEND_ACC_PUBLIC) PHP_ME(Channel, close, arginfo_close, ZEND_ACC_PUBLIC) #ifdef GRPC_PHP_DEBUG PHP_ME(Channel, getChannelInfo, arginfo_getChannelInfo, ZEND_ACC_PUBLIC) PHP_ME(Channel, cleanPersistentList, arginfo_cleanPersistentList, ZEND_ACC_PUBLIC) PHP_ME(Channel, getPersistentList, arginfo_getPersistentList, ZEND_ACC_PUBLIC) #endif PHP_FE_END }; GRPC_STARTUP_FUNCTION(channel) { zend_class_entry ce; INIT_CLASS_ENTRY(ce, "Grpc\\Channel", channel_methods); ce.create_object = create_wrapped_grpc_channel; grpc_ce_channel = zend_register_internal_class(&ce TSRMLS_CC); gpr_mu_init(&global_persistent_list_mu); le_plink = zend_register_list_destructors_ex( NULL, php_grpc_channel_plink_dtor, "Persistent Channel", module_number); zend_hash_init_ex(&grpc_persistent_list, 20, NULL, EG(persistent_list).pDestructor, 1, 0); // Register the target->upper_bound map. le_bound = zend_register_list_destructors_ex( NULL, php_grpc_target_bound_dtor, "Target Bound", module_number); zend_hash_init_ex(&grpc_target_upper_bound_map, 20, NULL, EG(persistent_list).pDestructor, 1, 0); PHP_GRPC_INIT_HANDLER(wrapped_grpc_channel, channel_ce_handlers); return SUCCESS; }