/* +----------------------------------------------------------------------+ | Zend Engine | +----------------------------------------------------------------------+ | Copyright (c) Zend Technologies Ltd. (http://www.zend.com) | +----------------------------------------------------------------------+ | This source file is subject to version 2.00 of the Zend license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.zend.com/license/2_00.txt. | | If you did not receive a copy of the Zend license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@zend.com so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Arnaud Le Blanc | +----------------------------------------------------------------------+ */ /* Lazy objects are standard zend_object whose initialization is deferred until * one of their properties backing store is accessed for the first time. * * This is implemented by using the same fallback mechanism as __get and __set * magic methods that is triggered when an undefined property is accessed. * * Execution of methods or virtual property hooks do not trigger initialization * until they access properties. * * A lazy object can be created via the Reflection API. The user specifies an * initializer function that is called when initialization is required. * * There are two kinds of lazy objects: * * - Ghosts: These are initialized in-place by the initializer function * - Proxy: The initializer returns a new instance. After initialization, * interaction with the proxy object are proxied to the instance. * * Internal objects are not supported. */ #include "zend_API.h" #include "zend_compile.h" #include "zend_execute.h" #include "zend_gc.h" #include "zend_hash.h" #include "zend_object_handlers.h" #include "zend_objects_API.h" #include "zend_operators.h" #include "zend_types.h" #include "zend_variables.h" #include "zend_lazy_objects.h" /** * Information about each lazy object is stored outside of zend_objects, in * EG(lazy_objects_store). For ghost objects, we can release this after the * object is initialized. */ typedef struct _zend_lazy_object_info { union { struct { zend_fcall_info_cache fcc; zval zv; /* ReflectionClass::getLazyInitializer() */ } initializer; zend_object *instance; /* For initialized lazy proxy objects */ } u; zend_lazy_object_flags_t flags; int lazy_properties_count; } zend_lazy_object_info; /* zend_hash dtor_func_t for zend_lazy_objects_store.infos */ static void zend_lazy_object_info_dtor_func(zval *pElement) { zend_lazy_object_info *info = (zend_lazy_object_info*) Z_PTR_P(pElement); if (info->flags & ZEND_LAZY_OBJECT_INITIALIZED) { ZEND_ASSERT(info->flags & ZEND_LAZY_OBJECT_STRATEGY_PROXY); zend_object_release(info->u.instance); } else { zval_ptr_dtor(&info->u.initializer.zv); zend_fcc_dtor(&info->u.initializer.fcc); } efree(info); } void zend_lazy_objects_init(zend_lazy_objects_store *store) { zend_hash_init(&store->infos, 8, NULL, zend_lazy_object_info_dtor_func, false); } void zend_lazy_objects_destroy(zend_lazy_objects_store *store) { ZEND_ASSERT(zend_hash_num_elements(&store->infos) == 0 || CG(unclean_shutdown)); zend_hash_destroy(&store->infos); } static void zend_lazy_object_set_info(const zend_object *obj, zend_lazy_object_info *info) { ZEND_ASSERT(zend_object_is_lazy(obj)); zval *zv = zend_hash_index_add_new_ptr(&EG(lazy_objects_store).infos, obj->handle, info); ZEND_ASSERT(zv); (void)zv; } static zend_lazy_object_info* zend_lazy_object_get_info(const zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy(obj)); zend_lazy_object_info *info = zend_hash_index_find_ptr(&EG(lazy_objects_store).infos, obj->handle); ZEND_ASSERT(info); return info; } static bool zend_lazy_object_has_stale_info(const zend_object *obj) { return zend_hash_index_find_ptr(&EG(lazy_objects_store).infos, obj->handle); } zval* zend_lazy_object_get_initializer_zv(zend_object *obj) { ZEND_ASSERT(!zend_lazy_object_initialized(obj)); zend_lazy_object_info *info = zend_lazy_object_get_info(obj); ZEND_ASSERT(!(info->flags & ZEND_LAZY_OBJECT_INITIALIZED)); return &info->u.initializer.zv; } static zend_fcall_info_cache* zend_lazy_object_get_initializer_fcc(zend_object *obj) { ZEND_ASSERT(!zend_lazy_object_initialized(obj)); zend_lazy_object_info *info = zend_lazy_object_get_info(obj); ZEND_ASSERT(!(info->flags & ZEND_LAZY_OBJECT_INITIALIZED)); return &info->u.initializer.fcc; } zend_object* zend_lazy_object_get_instance(zend_object *obj) { ZEND_ASSERT(zend_lazy_object_initialized(obj)); if (zend_object_is_lazy_proxy(obj)) { zend_lazy_object_info *info = zend_lazy_object_get_info(obj); ZEND_ASSERT(info->flags & ZEND_LAZY_OBJECT_INITIALIZED); return info->u.instance; } return obj; } zend_lazy_object_flags_t zend_lazy_object_get_flags(const zend_object *obj) { return zend_lazy_object_get_info(obj)->flags; } void zend_lazy_object_del_info(const zend_object *obj) { zend_result res = zend_hash_index_del(&EG(lazy_objects_store).infos, obj->handle); ZEND_ASSERT(res == SUCCESS); } bool zend_lazy_object_decr_lazy_props(const zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy(obj)); ZEND_ASSERT(!zend_lazy_object_initialized(obj)); zend_lazy_object_info *info = zend_lazy_object_get_info(obj); ZEND_ASSERT(info->lazy_properties_count > 0); info->lazy_properties_count--; return info->lazy_properties_count == 0; } /** * Making objects lazy */ ZEND_API bool zend_class_can_be_lazy(const zend_class_entry *ce) { /* Internal classes are not supported */ if (UNEXPECTED(ce->type == ZEND_INTERNAL_CLASS && ce != zend_standard_class_def)) { return false; } for (zend_class_entry *parent = ce->parent; parent; parent = parent->parent) { if (UNEXPECTED(parent->type == ZEND_INTERNAL_CLASS && parent != zend_standard_class_def)) { return false; } } return true; } static int zlo_hash_remove_dyn_props_func(zval *pDest) { if (Z_TYPE_P(pDest) == IS_INDIRECT) { return ZEND_HASH_APPLY_STOP; } return ZEND_HASH_APPLY_REMOVE; } static bool zlo_is_iterating(zend_object *object) { if (object->properties && HT_ITERATORS_COUNT(object->properties)) { return true; } if (zend_object_is_lazy_proxy(object) && zend_lazy_object_initialized(object)) { return zlo_is_iterating(zend_lazy_object_get_instance(object)); } return false; } /* Make object 'obj' lazy. If 'obj' is NULL, create a lazy instance of * class 'reflection_ce' */ ZEND_API zend_object *zend_object_make_lazy(zend_object *obj, zend_class_entry *reflection_ce, zval *initializer_zv, zend_fcall_info_cache *initializer_fcc, zend_lazy_object_flags_t flags) { ZEND_ASSERT(!(flags & ~(ZEND_LAZY_OBJECT_USER_MASK|ZEND_LAZY_OBJECT_STRATEGY_MASK))); ZEND_ASSERT((flags & ZEND_LAZY_OBJECT_STRATEGY_MASK) == ZEND_LAZY_OBJECT_STRATEGY_GHOST || (flags & ZEND_LAZY_OBJECT_STRATEGY_MASK) == ZEND_LAZY_OBJECT_STRATEGY_PROXY); ZEND_ASSERT(!obj || (!zend_object_is_lazy(obj) || zend_lazy_object_initialized(obj))); ZEND_ASSERT(!obj || instanceof_function(obj->ce, reflection_ce)); /* Internal classes are not supported */ if (UNEXPECTED(reflection_ce->type == ZEND_INTERNAL_CLASS && reflection_ce != zend_standard_class_def)) { zend_throw_error(NULL, "Cannot make instance of internal class lazy: %s is internal", ZSTR_VAL(reflection_ce->name)); return NULL; } for (zend_class_entry *parent = reflection_ce->parent; parent; parent = parent->parent) { if (UNEXPECTED(parent->type == ZEND_INTERNAL_CLASS && parent != zend_standard_class_def)) { zend_throw_error(NULL, "Cannot make instance of internal class lazy: %s inherits internal class %s", ZSTR_VAL(reflection_ce->name), ZSTR_VAL(parent->name)); return NULL; } } int lazy_properties_count = 0; if (!obj) { if (UNEXPECTED(reflection_ce->ce_flags & ZEND_ACC_UNINSTANTIABLE)) { zval zobj; /* Call object_init_ex() for the generated exception */ zend_result result = object_init_ex(&zobj, reflection_ce); ZEND_ASSERT(result == FAILURE && EG(exception)); (void)result; return NULL; } if (UNEXPECTED(!(reflection_ce->ce_flags & ZEND_ACC_CONSTANTS_UPDATED))) { if (UNEXPECTED(zend_update_class_constants(reflection_ce) != SUCCESS)) { ZEND_ASSERT(EG(exception)); return NULL; } } obj = zend_objects_new(reflection_ce); /* Iterate in reverse to avoid overriding Z_PROP_FLAG_P() of child props with added hooks (GH-17870). */ for (int i = obj->ce->default_properties_count - 1; i >= 0; i--) { zval *p = &obj->properties_table[i]; ZVAL_UNDEF(p); Z_PROP_FLAG_P(p) = 0; zend_property_info *prop_info = obj->ce->properties_info_table[i]; if (prop_info) { zval *p = &obj->properties_table[OBJ_PROP_TO_NUM(prop_info->offset)]; Z_PROP_FLAG_P(p) = IS_PROP_UNINIT | IS_PROP_LAZY; lazy_properties_count++; } } } else { if (zlo_is_iterating(obj)) { zend_throw_error(NULL, "Can not reset an object during property iteration"); return NULL; } if (zend_object_is_lazy(obj)) { ZEND_ASSERT(zend_object_is_lazy_proxy(obj) && zend_lazy_object_initialized(obj)); OBJ_EXTRA_FLAGS(obj) &= ~(IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY); zend_lazy_object_del_info(obj); } else { if (zend_lazy_object_has_stale_info(obj)) { zend_throw_error(NULL, "Can not reset an object while it is being initialized"); return NULL; } if (!(flags & ZEND_LAZY_OBJECT_SKIP_DESTRUCTOR) && !(OBJ_FLAGS(obj) & IS_OBJ_DESTRUCTOR_CALLED)) { if (obj->handlers->dtor_obj != zend_objects_destroy_object || obj->ce->destructor) { GC_ADD_FLAGS(obj, IS_OBJ_DESTRUCTOR_CALLED); GC_ADDREF(obj); obj->handlers->dtor_obj(obj); GC_DELREF(obj); if (EG(exception)) { return NULL; } } } } GC_DEL_FLAGS(obj, IS_OBJ_DESTRUCTOR_CALLED); /* unset() dynamic properties. Do not NULL out obj->properties, as this * would be unexpected. */ if (obj->properties) { if (UNEXPECTED(GC_REFCOUNT(obj->properties) > 1)) { if (EXPECTED(!(GC_FLAGS(obj->properties) & IS_ARRAY_IMMUTABLE))) { GC_DELREF(obj->properties); } obj->properties = zend_array_dup(obj->properties); } zend_hash_reverse_apply(obj->properties, zlo_hash_remove_dyn_props_func); } /* unset() declared properties */ for (int i = 0; i < reflection_ce->default_properties_count; i++) { zend_property_info *prop_info = obj->ce->properties_info_table[i]; if (EXPECTED(prop_info)) { zval *p = &obj->properties_table[OBJ_PROP_TO_NUM(prop_info->offset)]; if (Z_TYPE_P(p) != IS_UNDEF) { if ((prop_info->flags & ZEND_ACC_READONLY) && !(Z_PROP_FLAG_P(p) & IS_PROP_REINITABLE) /* TODO: test final property */ && ((obj->ce->ce_flags & ZEND_ACC_FINAL) || (prop_info->flags & ZEND_ACC_FINAL))) { continue; } zend_object_dtor_property(obj, p); ZVAL_UNDEF(p); } Z_PROP_FLAG_P(p) = IS_PROP_UNINIT | IS_PROP_LAZY; lazy_properties_count++; } } } /* Objects become non-lazy if all properties are made non-lazy before * initialization is triggered. If the object has no properties to begin * with, this happens immediately. */ if (UNEXPECTED(!lazy_properties_count)) { return obj; } OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED; if (flags & ZEND_LAZY_OBJECT_STRATEGY_PROXY) { OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_PROXY; } else { ZEND_ASSERT(flags & ZEND_LAZY_OBJECT_STRATEGY_GHOST); } zend_lazy_object_info *info = emalloc(sizeof(*info)); zend_fcc_dup(&info->u.initializer.fcc, initializer_fcc); ZVAL_COPY(&info->u.initializer.zv, initializer_zv); info->flags = flags; info->lazy_properties_count = lazy_properties_count; zend_lazy_object_set_info(obj, info); return obj; } /** * Initialization of lazy objects */ /* Mark object as initialized. Lazy properties are initialized to their default * value and the initializer is not called. */ ZEND_API zend_object *zend_lazy_object_mark_as_initialized(zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy(obj)); ZEND_ASSERT(!zend_lazy_object_initialized(obj)); zend_class_entry *ce = obj->ce; ZEND_ASSERT(ce->ce_flags & ZEND_ACC_CONSTANTS_UPDATED); zval *default_properties_table = CE_DEFAULT_PROPERTIES_TABLE(ce); zval *properties_table = obj->properties_table; OBJ_EXTRA_FLAGS(obj) &= ~(IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY); for (int i = 0; i < ce->default_properties_count; i++) { if (Z_PROP_FLAG_P(&properties_table[i]) & IS_PROP_LAZY) { ZVAL_COPY_PROP(&properties_table[i], &default_properties_table[i]); } } zend_lazy_object_del_info(obj); return obj; } /* Revert initializer effects */ static void zend_lazy_object_revert_init(zend_object *obj, zval *properties_table_snapshot, HashTable *properties_snapshot) { zend_class_entry *ce = obj->ce; if (ce->default_properties_count) { ZEND_ASSERT(properties_table_snapshot); zval *properties_table = obj->properties_table; for (int i = 0; i < ce->default_properties_count; i++) { zend_property_info *prop_info = ce->properties_info_table[i]; if (!prop_info) { continue; } zval *p = &properties_table[OBJ_PROP_TO_NUM(prop_info->offset)]; zend_object_dtor_property(obj, p); ZVAL_COPY_VALUE_PROP(p, &properties_table_snapshot[OBJ_PROP_TO_NUM(prop_info->offset)]); if (Z_ISREF_P(p) && ZEND_TYPE_IS_SET(prop_info->type)) { ZEND_REF_ADD_TYPE_SOURCE(Z_REF_P(p), prop_info); } } efree(properties_table_snapshot); } if (properties_snapshot) { if (obj->properties != properties_snapshot) { ZEND_ASSERT((GC_FLAGS(properties_snapshot) & IS_ARRAY_IMMUTABLE) || GC_REFCOUNT(properties_snapshot) >= 1); zend_release_properties(obj->properties); obj->properties = properties_snapshot; } else { ZEND_ASSERT((GC_FLAGS(properties_snapshot) & IS_ARRAY_IMMUTABLE) || GC_REFCOUNT(properties_snapshot) > 1); zend_release_properties(properties_snapshot); } } else if (obj->properties) { zend_release_properties(obj->properties); obj->properties = NULL; } OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED; } static bool zend_lazy_object_compatible(const zend_object *real_object, const zend_object *lazy_object) { if (EXPECTED(real_object->ce == lazy_object->ce)) { return true; } if (!instanceof_function(lazy_object->ce, real_object->ce)) { return false; } /* zend_hash_num_elements(ce.properties_info) reports the actual number of * properties. ce.default_properties_count is off by the number of property * overrides. */ if (zend_hash_num_elements(&lazy_object->ce->properties_info) != zend_hash_num_elements(&real_object->ce->properties_info)) { return false; } return lazy_object->ce->destructor == real_object->ce->destructor && lazy_object->ce->clone == real_object->ce->clone; } /* Initialize a lazy proxy object */ static zend_object *zend_lazy_object_init_proxy(zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy_proxy(obj)); ZEND_ASSERT(!zend_lazy_object_initialized(obj)); /* Prevent object from being released during initialization */ GC_ADDREF(obj); zend_lazy_object_info *info = zend_lazy_object_get_info(obj); /* prevent reentrant initialization */ OBJ_EXTRA_FLAGS(obj) &= ~(IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY); /* Call factory */ zval retval; int argc = 1; zval zobj; HashTable *named_params = NULL; zend_fcall_info_cache *initializer = &info->u.initializer.fcc; zend_object *instance = NULL; ZVAL_OBJ(&zobj, obj); zend_call_known_fcc(initializer, &retval, argc, &zobj, named_params); if (UNEXPECTED(EG(exception))) { OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY; goto exit; } if (UNEXPECTED(Z_TYPE(retval) != IS_OBJECT)) { OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY; zend_type_error("Lazy proxy factory must return an instance of a class compatible with %s, %s returned", ZSTR_VAL(obj->ce->name), zend_zval_value_name(&retval)); zval_ptr_dtor(&retval); goto exit; } if (UNEXPECTED(Z_TYPE(retval) != IS_OBJECT || !zend_lazy_object_compatible(Z_OBJ(retval), obj))) { OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY; zend_type_error("The real instance class %s is not compatible with the proxy class %s. The proxy must be a instance of the same class as the real instance, or a sub-class with no additional properties, and no overrides of the __destructor or __clone methods.", zend_zval_value_name(&retval), ZSTR_VAL(obj->ce->name)); zval_ptr_dtor(&retval); goto exit; } if (UNEXPECTED(Z_OBJ(retval) == obj || zend_object_is_lazy(Z_OBJ(retval)))) { OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_UNINITIALIZED|IS_OBJ_LAZY_PROXY; zend_throw_error(NULL, "Lazy proxy factory must return a non-lazy object"); zval_ptr_dtor(&retval); goto exit; } zend_fcc_dtor(&info->u.initializer.fcc); zval_ptr_dtor(&info->u.initializer.zv); info->u.instance = Z_OBJ(retval); info->flags |= ZEND_LAZY_OBJECT_INITIALIZED; OBJ_EXTRA_FLAGS(obj) |= IS_OBJ_LAZY_PROXY; /* unset() properties of the proxy. This ensures that all accesses are be * delegated to the backing instance from now on. */ zend_object_dtor_dynamic_properties(obj); obj->properties = NULL; for (int i = 0; i < Z_OBJ(retval)->ce->default_properties_count; i++) { zend_property_info *prop_info = Z_OBJ(retval)->ce->properties_info_table[i]; if (EXPECTED(prop_info)) { zval *prop = &obj->properties_table[OBJ_PROP_TO_NUM(prop_info->offset)]; zend_object_dtor_property(obj, prop); ZVAL_UNDEF(prop); Z_PROP_FLAG_P(prop) = IS_PROP_UNINIT | IS_PROP_LAZY; } } instance = Z_OBJ(retval); exit: if (UNEXPECTED(GC_DELREF(obj) == 0)) { zend_throw_error(NULL, "Lazy object was released during initialization"); zend_objects_store_del(obj); instance = NULL; } else { gc_check_possible_root((zend_refcounted*) obj); } return instance; } /* Initialize a lazy object. */ ZEND_API zend_object *zend_lazy_object_init(zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy(obj)); /* If obj is an initialized lazy proxy, return the real instance. This * supports the following pattern: * if (zend_lazy_object_must_init(obj)) { * instance = zend_lazy_object_init(obj); * } */ if (zend_lazy_object_initialized(obj)) { ZEND_ASSERT(zend_object_is_lazy_proxy(obj)); zend_lazy_object_info *info = zend_lazy_object_get_info(obj); ZEND_ASSERT(info->flags & ZEND_LAZY_OBJECT_INITIALIZED); if (zend_object_is_lazy(info->u.instance)) { return zend_lazy_object_init(info->u.instance); } return info->u.instance; } zend_class_entry *ce = obj->ce; ZEND_ASSERT(ce->ce_flags & ZEND_ACC_CONSTANTS_UPDATED); if (zend_object_is_lazy_proxy(obj)) { return zend_lazy_object_init_proxy(obj); } /* Prevent object from being released during initialization */ GC_ADDREF(obj); zend_fcall_info_cache *initializer = zend_lazy_object_get_initializer_fcc(obj); /* Prevent reentrant initialization */ OBJ_EXTRA_FLAGS(obj) &= ~IS_OBJ_LAZY_UNINITIALIZED; /* Snapshot dynamic properties */ HashTable *properties_snapshot = obj->properties; if (properties_snapshot) { GC_TRY_ADDREF(properties_snapshot); } zval *properties_table_snapshot = NULL; /* Snapshot declared properties and initialize lazy properties to their * default value */ if (ce->default_properties_count) { zval *default_properties_table = CE_DEFAULT_PROPERTIES_TABLE(ce); zval *properties_table = obj->properties_table; properties_table_snapshot = emalloc(sizeof(*properties_table_snapshot) * ce->default_properties_count); for (int i = 0; i < ce->default_properties_count; i++) { ZVAL_COPY_PROP(&properties_table_snapshot[i], &properties_table[i]); if (Z_PROP_FLAG_P(&properties_table[i]) & IS_PROP_LAZY) { ZVAL_COPY_PROP(&properties_table[i], &default_properties_table[i]); } } } /* Call initializer */ zval retval; int argc = 1; zval zobj; HashTable *named_params = NULL; zend_object *instance = NULL; ZVAL_OBJ(&zobj, obj); zend_call_known_fcc(initializer, &retval, argc, &zobj, named_params); if (EG(exception)) { zend_lazy_object_revert_init(obj, properties_table_snapshot, properties_snapshot); goto exit; } if (Z_TYPE(retval) != IS_NULL) { zend_lazy_object_revert_init(obj, properties_table_snapshot, properties_snapshot); zval_ptr_dtor(&retval); zend_type_error("Lazy object initializer must return NULL or no value"); goto exit; } if (properties_table_snapshot) { for (int i = 0; i < obj->ce->default_properties_count; i++) { zval *p = &properties_table_snapshot[i]; /* Use zval_ptr_dtor directly here (not zend_object_dtor_property), * as any reference type_source will have already been deleted in * case the prop is not bound to this value anymore. */ i_zval_ptr_dtor(p); } efree(properties_table_snapshot); } if (properties_snapshot) { zend_release_properties(properties_snapshot); } /* Must be very last in this function, for the * zend_lazy_object_has_stale_info() check */ zend_lazy_object_del_info(obj); instance = obj; exit: if (UNEXPECTED(GC_DELREF(obj) == 0)) { zend_throw_error(NULL, "Lazy object was released during initialization"); zend_objects_store_del(obj); instance = NULL; } else { gc_check_possible_root((zend_refcounted*) obj); } return instance; } /* Mark an object as non-lazy (after all properties were initialized) */ void zend_lazy_object_realize(zend_object *obj) { ZEND_ASSERT(zend_object_is_lazy(obj)); ZEND_ASSERT(!zend_lazy_object_initialized(obj)); zend_lazy_object_del_info(obj); #if ZEND_DEBUG for (int i = 0; i < obj->ce->default_properties_count; i++) { ZEND_ASSERT(!(Z_PROP_FLAG_P(&obj->properties_table[i]) & IS_PROP_LAZY)); } #endif OBJ_EXTRA_FLAGS(obj) &= ~(IS_OBJ_LAZY_UNINITIALIZED | IS_OBJ_LAZY_PROXY); } ZEND_API HashTable *zend_lazy_object_get_properties(zend_object *object) { ZEND_ASSERT(zend_object_is_lazy(object)); zend_object *tmp = zend_lazy_object_init(object); if (UNEXPECTED(!tmp)) { if (object->properties) { return object->properties; } return object->properties = zend_new_array(0); } object = tmp; ZEND_ASSERT(!zend_lazy_object_must_init(object)); return zend_std_get_properties_ex(object); } /* Initialize object and clone it. For proxies, we clone both the proxy and its * real instance, and we don't call __clone() on the proxy. */ zend_object *zend_lazy_object_clone(zend_object *old_obj) { ZEND_ASSERT(zend_object_is_lazy(old_obj)); if (UNEXPECTED(!zend_lazy_object_initialized(old_obj) && !zend_lazy_object_init(old_obj))) { ZEND_ASSERT(EG(exception)); /* Clone handler must always return an object. It is discarded later due * to the exception. */ zval zv; object_init_ex(&zv, old_obj->ce); GC_ADD_FLAGS(Z_OBJ(zv), IS_OBJ_DESTRUCTOR_CALLED); return Z_OBJ(zv); } if (!zend_object_is_lazy_proxy(old_obj)) { return zend_objects_clone_obj(old_obj); } zend_lazy_object_info *info = zend_lazy_object_get_info(old_obj); zend_class_entry *ce = old_obj->ce; zend_object *new_proxy = zend_objects_new(ce); /* Iterate in reverse to avoid overriding Z_PROP_FLAG_P() of child props with added hooks (GH-17870). */ for (int i = ce->default_properties_count - 1; i >= 0; i--) { zval *p = &new_proxy->properties_table[i]; ZVAL_UNDEF(p); Z_PROP_FLAG_P(p) = 0; zend_property_info *prop_info = ce->properties_info_table[i]; if (prop_info) { zval *p = &new_proxy->properties_table[OBJ_PROP_TO_NUM(prop_info->offset)]; Z_PROP_FLAG_P(p) = IS_PROP_UNINIT | IS_PROP_LAZY; } } OBJ_EXTRA_FLAGS(new_proxy) = OBJ_EXTRA_FLAGS(old_obj); zend_lazy_object_info *new_info = emalloc(sizeof(*info)); *new_info = *info; new_info->u.instance = zend_objects_clone_obj(info->u.instance); zend_lazy_object_set_info(new_proxy, new_info); return new_proxy; } HashTable *zend_lazy_object_debug_info(zend_object *object, int *is_temp) { ZEND_ASSERT(zend_object_is_lazy(object)); if (zend_object_is_lazy_proxy(object)) { if (zend_lazy_object_initialized(object)) { HashTable *properties = zend_new_array(0); zval instance; ZVAL_OBJ(&instance, zend_lazy_object_get_instance(object)); Z_ADDREF(instance); zend_hash_str_add(properties, "instance", strlen("instance"), &instance); *is_temp = 1; return properties; } } *is_temp = 0; return zend_get_properties_no_lazy_init(object); } HashTable *zend_lazy_object_get_gc(zend_object *zobj, zval **table, int *n) { ZEND_ASSERT(zend_object_is_lazy(zobj)); zend_lazy_object_info *info = zend_lazy_object_get_info(zobj); zend_get_gc_buffer *gc_buffer = zend_get_gc_buffer_create(); if (zend_lazy_object_initialized(zobj)) { ZEND_ASSERT(zend_object_is_lazy_proxy(zobj)); zend_get_gc_buffer_add_obj(gc_buffer, info->u.instance); zend_get_gc_buffer_use(gc_buffer, table, n); /* Initialized proxy object can not have properties */ return NULL; } zend_fcall_info_cache *fcc = &info->u.initializer.fcc; if (fcc->object) { zend_get_gc_buffer_add_obj(gc_buffer, fcc->object); } if (fcc->closure) { zend_get_gc_buffer_add_obj(gc_buffer, fcc->closure); } zend_get_gc_buffer_add_zval(gc_buffer, &info->u.initializer.zv); /* Uninitialized lazy objects can not have dynamic properties, so we can * ignore zobj->properties. */ zval *prop = zobj->properties_table; zval *end = prop + zobj->ce->default_properties_count; for ( ; prop < end; prop++) { zend_get_gc_buffer_add_zval(gc_buffer, prop); } zend_get_gc_buffer_use(gc_buffer, table, n); return NULL; } zend_property_info *zend_lazy_object_get_property_info_for_slot(zend_object *obj, zval *slot) { ZEND_ASSERT(zend_object_is_lazy_proxy(obj)); zend_property_info **table = obj->ce->properties_info_table; intptr_t prop_num = slot - obj->properties_table; if (prop_num >= 0 && prop_num < obj->ce->default_properties_count) { if (table[prop_num]) { return table[prop_num]; } else { return zend_get_property_info_for_slot_slow(obj, slot); } } if (!zend_lazy_object_initialized(obj)) { return NULL; } obj = zend_lazy_object_get_instance(obj); return zend_get_property_info_for_slot(obj, slot); }