/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013 * Jonathan Schleifer <js@webkeks.org> * * All rights reserved. * * This file is part of ObjFW. It may be distributed under the terms of the * Q Public License 1.0, which can be found in the file LICENSE.QPL included in * the packaging of this file. * * Alternatively, it may be distributed under the terms of the GNU General * Public License, either version 2 or 3, which can be found in the file * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this * file. */ #include "config.h" #include <stdio.h> #include <stdlib.h> #include <string.h> #include <assert.h> #import "runtime.h" #import "runtime-private.h" static struct objc_hashtable *classes = NULL; static Class *load_queue = NULL; static size_t load_queue_cnt = 0; static struct objc_sparsearray *empty_dtable = NULL; static void register_class(struct objc_abi_class *cls) { if (classes == NULL) classes = objc_hashtable_new(2); objc_hashtable_set(classes, cls->name, cls); if (empty_dtable == NULL) empty_dtable = objc_sparsearray_new(); cls->dtable = empty_dtable; cls->metaclass->dtable = empty_dtable; } BOOL class_registerAlias_np(Class cls, const char *name) { if (classes == NULL) return NO; objc_hashtable_set(classes, name, (Class)((uintptr_t)cls | 1)); return YES; } static void register_selectors(struct objc_abi_class *cls) { struct objc_abi_method_list *ml; unsigned int i; for (ml = cls->methodlist; ml != NULL; ml = ml->next) for (i = 0; i < ml->count; i++) objc_register_selector( (struct objc_abi_selector*)&ml->methods[i]); } inline Class objc_classname_to_class(const char *name) { Class c; if (classes == NULL) return Nil; objc_global_mutex_lock(); c = (Class)((uintptr_t)objc_hashtable_get(classes, name) & ~1); objc_global_mutex_unlock(); return c; } static void call_method(Class cls, const char *method) { struct objc_method_list *ml; SEL selector; unsigned int i; selector = sel_registerName(method); for (ml = cls->isa->methodlist; ml != NULL; ml = ml->next) for (i = 0; i < ml->count; i++) if (sel_isEqual((SEL)&ml->methods[i].sel, selector)) ((void(*)(id, SEL))ml->methods[i].imp)(cls, selector); } static bool has_load(Class cls) { struct objc_method_list *ml; SEL selector; unsigned int i; selector = sel_registerName("load"); for (ml = cls->isa->methodlist; ml != NULL; ml = ml->next) for (i = 0; i < ml->count; i++) if (sel_isEqual((SEL)&ml->methods[i].sel, selector)) return true; return false; } static void call_load(Class cls) { if (cls->info & OBJC_CLASS_INFO_LOADED) return; if (cls->superclass != Nil) call_load(cls->superclass); call_method(cls, "load"); cls->info |= OBJC_CLASS_INFO_LOADED; } void objc_update_dtable(Class cls) { struct objc_method_list *ml; struct objc_category **cats; unsigned int i; if (!(cls->info & OBJC_CLASS_INFO_DTABLE)) return; if (cls->dtable == empty_dtable) cls->dtable = objc_sparsearray_new(); if (cls->superclass != Nil) objc_sparsearray_copy(cls->dtable, cls->superclass->dtable); for (ml = cls->methodlist; ml != NULL; ml = ml->next) for (i = 0; i < ml->count; i++) objc_sparsearray_set(cls->dtable, (uint32_t)ml->methods[i].sel.uid, ml->methods[i].imp); if ((cats = objc_categories_for_class(cls)) != NULL) { for (i = 0; cats[i] != NULL; i++) { unsigned int j; ml = (cls->info & OBJC_CLASS_INFO_CLASS ? cats[i]->instance_methods : cats[i]->class_methods); for (; ml != NULL; ml = ml->next) for (j = 0; j < ml->count; j++) objc_sparsearray_set(cls->dtable, (uint32_t)ml->methods[j].sel.uid, ml->methods[j].imp); } } if (cls->subclass_list != NULL) for (i = 0; cls->subclass_list[i] != NULL; i++) objc_update_dtable(cls->subclass_list[i]); } static void add_subclass(Class cls) { size_t i; if (cls->superclass->subclass_list == NULL) { if ((cls->superclass->subclass_list = malloc(2 * sizeof(Class))) == NULL) OBJC_ERROR("Not enough memory for subclass list of " "class %s!", cls->superclass->name); cls->superclass->subclass_list[0] = cls; cls->superclass->subclass_list[1] = Nil; return; } for (i = 0; cls->superclass->subclass_list[i] != Nil; i++); cls->superclass->subclass_list = realloc(cls->superclass->subclass_list, (i + 2) * sizeof(Class)); if (cls->superclass->subclass_list == NULL) OBJC_ERROR("Not enough memory for subclass list of class %s\n", cls->superclass->name); cls->superclass->subclass_list[i] = cls; cls->superclass->subclass_list[i + 1] = Nil; } static void setup_class(Class cls) { const char *superclass; if (cls->info & OBJC_CLASS_INFO_SETUP) return; if ((superclass = ((struct objc_abi_class*)cls)->superclass) != NULL) { Class super = objc_classname_to_class(superclass); if (super == nil) return; setup_class(super); if (!(super->info & OBJC_CLASS_INFO_SETUP)) return; cls->superclass = super; cls->isa->superclass = super->isa; add_subclass(cls); add_subclass(cls->isa); } else cls->isa->superclass = cls; cls->info |= OBJC_CLASS_INFO_SETUP; cls->isa->info |= OBJC_CLASS_INFO_SETUP; } static void initialize_class(Class cls) { if (cls->info & OBJC_CLASS_INFO_INITIALIZED) return; if (cls->superclass) initialize_class(cls->superclass); cls->info |= OBJC_CLASS_INFO_DTABLE; cls->isa->info |= OBJC_CLASS_INFO_DTABLE; objc_update_dtable(cls); objc_update_dtable(cls->isa); /* * Set it first to prevent calling it recursively due to message sends * in the initialize method */ cls->info |= OBJC_CLASS_INFO_INITIALIZED; cls->isa->info |= OBJC_CLASS_INFO_INITIALIZED; call_method(cls, "initialize"); } void objc_initialize_class(Class cls) { if (cls->info & OBJC_CLASS_INFO_INITIALIZED) return; objc_global_mutex_lock(); /* * It's possible that two threads try to initialize a class at the same * time. Make sure that the thread which held the lock did not already * initialize it. */ if (cls->info & OBJC_CLASS_INFO_INITIALIZED) { objc_global_mutex_unlock(); return; } setup_class(cls); if (!(cls->info & OBJC_CLASS_INFO_SETUP)) { objc_global_mutex_unlock(); return; } initialize_class(cls); objc_global_mutex_unlock(); } void objc_register_all_classes(struct objc_abi_symtab *symtab) { uint_fast32_t i; for (i = 0; i < symtab->cls_def_cnt; i++) { struct objc_abi_class *cls = (struct objc_abi_class*)symtab->defs[i]; register_class(cls); register_selectors(cls); register_selectors(cls->metaclass); } for (i = 0; i < symtab->cls_def_cnt; i++) { Class cls = (Class)symtab->defs[i]; if (has_load(cls)) { setup_class(cls); if (cls->info & OBJC_CLASS_INFO_SETUP) call_load(cls); else { load_queue = realloc(load_queue, sizeof(Class) * (load_queue_cnt + 1)); if (load_queue == NULL) OBJC_ERROR("Not enough memory for load " "queue!"); load_queue[load_queue_cnt++] = cls; } } else cls->info |= OBJC_CLASS_INFO_LOADED; } /* Process load queue */ for (i = 0; i < load_queue_cnt; i++) { setup_class(load_queue[i]); if (load_queue[i]->info & OBJC_CLASS_INFO_SETUP) { call_load(load_queue[i]); load_queue_cnt--; if (load_queue_cnt == 0) { free(load_queue); load_queue = NULL; continue; } load_queue[i] = load_queue[load_queue_cnt]; load_queue = realloc(load_queue, sizeof(Class) * load_queue_cnt); if (load_queue == NULL) OBJC_ERROR("Not enough memory for load queue!"); } } } id objc_lookUpClass(const char *name) { Class cls = objc_classname_to_class(name); if (cls == NULL) return Nil; if (cls->info & OBJC_CLASS_INFO_SETUP) return cls; objc_global_mutex_lock(); setup_class(cls); objc_global_mutex_unlock(); if (!(cls->info & OBJC_CLASS_INFO_SETUP)) return Nil; return cls; } id objc_getClass(const char *name) { return objc_lookUpClass(name); } id objc_getRequiredClass(const char *name) { Class cls; if ((cls = objc_getClass(name)) == Nil) OBJC_ERROR("Class %s not found!", name); return cls; } Class objc_lookup_class(const char *name) { return objc_getClass(name); } Class objc_get_class(const char *name) { return objc_getRequiredClass(name); } bool class_isMetaClass(Class cls) { return (cls->info & OBJC_CLASS_INFO_METACLASS); } const char* class_getName(Class cls) { return cls->name; } Class class_getSuperclass(Class cls) { return cls->superclass; } bool class_isKindOfClass(Class cls1, Class cls2) { Class iter; for (iter = cls1; iter != Nil; iter = iter->superclass) if (iter == cls2) return true; return false; } unsigned long class_getInstanceSize(Class cls) { return cls->instance_size; } IMP class_getMethodImplementation(Class cls, SEL sel) { return objc_sparsearray_get(cls->dtable, (uint32_t)sel->uid); } const char* objc_get_type_encoding(Class cls, SEL sel) { struct objc_method_list *ml; struct objc_category **cats; unsigned int i; objc_global_mutex_lock(); for (ml = cls->methodlist; ml != NULL; ml = ml->next) { for (i = 0; i < ml->count; i++) { if (sel_isEqual((SEL)&ml->methods[i].sel, sel)) { const char *ret = ml->methods[i].sel.types; objc_global_mutex_unlock(); return ret; } } } if ((cats = objc_categories_for_class(cls)) != NULL) { for (; *cats != NULL; cats++) { for (ml = (*cats)->instance_methods; ml != NULL; ml = ml->next) { for (i = 0; i < ml->count; i++) { if (ml->methods[i].sel.uid == sel->uid) { const char *ret = ml->methods[i].sel.types; objc_global_mutex_unlock(); return ret; } } } } } objc_global_mutex_unlock(); if (cls->superclass != NULL) return objc_get_type_encoding(cls->superclass, sel); return NULL; } IMP class_replaceMethod(Class cls, SEL sel, IMP newimp, const char *types) { struct objc_method_list *ml; struct objc_category **cats; unsigned int i; IMP oldimp; objc_global_mutex_lock(); for (ml = cls->methodlist; ml != NULL; ml = ml->next) { for (i = 0; i < ml->count; i++) { if (ml->methods[i].sel.uid == sel->uid) { oldimp = ml->methods[i].imp; ml->methods[i].imp = newimp; objc_update_dtable(cls); objc_global_mutex_unlock(); return oldimp; } } } if ((cats = objc_categories_for_class(cls)) != NULL) { for (; *cats != NULL; cats++) { if (cls->info & OBJC_CLASS_INFO_METACLASS) ml = (*cats)->class_methods; else ml = (*cats)->instance_methods; for (; ml != NULL; ml = ml->next) { for (i = 0; i < ml->count; i++) { if (ml->methods[i].sel.uid == sel->uid) { oldimp = ml->methods[i].imp; ml->methods[i].imp = newimp; objc_update_dtable(cls); objc_global_mutex_unlock(); return oldimp; } } } } } /* FIXME: We need a way to free this at objc_exit() */ if ((ml = malloc(sizeof(struct objc_method_list))) == NULL) OBJC_ERROR("Not enough memory to replace method!"); ml->next = cls->methodlist; ml->count = 1; ml->methods[0].sel.uid = sel->uid; ml->methods[0].sel.types = types; ml->methods[0].imp = newimp; cls->methodlist = ml; objc_update_dtable(cls); objc_global_mutex_unlock(); return (IMP)nil; } Class object_getClass(id obj_) { struct objc_object *obj = (struct objc_object*)obj_; return obj->isa; } Class object_setClass(id obj_, Class cls) { struct objc_object *obj = (struct objc_object*)obj_; Class old; old = obj->isa; obj->isa = cls; return old; } const char* object_getClassName(id obj) { return object_getClass(obj)->name; } void objc_free_class(Class rcls) { struct objc_abi_class *cls = (struct objc_abi_class*)rcls; if (rcls->subclass_list != NULL) { free(rcls->subclass_list); rcls->subclass_list = NULL; } if (rcls->dtable != NULL && rcls->dtable != empty_dtable) objc_sparsearray_free(rcls->dtable); rcls->dtable = NULL; if (rcls->superclass != Nil) cls->superclass = rcls->superclass->name; objc_hashtable_set(classes, cls->name, NULL); } void objc_free_all_classes(void) { uint32_t i; if (classes == NULL) return; for (i = 0; i <= classes->last_idx; i++) { if (classes->data[i] != NULL) { Class cls = (Class)classes->data[i]->obj; if (cls == Nil || (uintptr_t)cls & 1) continue; objc_free_class(cls); objc_free_class(cls->isa); } } if (empty_dtable != NULL) { objc_sparsearray_free(empty_dtable); empty_dtable = NULL; } objc_hashtable_free(classes); classes = NULL; }