ObjCLegacyAbstraction.hpp [plain text]
/* -*- mode: C++; c-basic-offset: 4; tab-width: 4 -*-
*
* Copyright (c) 2008-2010 Apple Inc. All rights reserved.
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* Version 2.0 (the 'License'). You may not use this file except in
* compliance with the License. Please obtain a copy of the License at
* http://www.opensource.apple.com/apsl/ and read it before using this
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* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
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#define OBJC_IMAGE_SUPPORTS_GC (1<<1)
#define OBJC_IMAGE_REQUIRES_GC (1<<2)
template <typename A>
struct objc_image_info {
uint32_t version;
uint32_t flags;
uint32_t getFlags() INLINE { return A::P::E::get32(flags); }
bool supportsGCFlagSet() INLINE { return getFlags() & OBJC_IMAGE_SUPPORTS_GC; }
bool requiresGCFlagSet() INLINE { return getFlags() & OBJC_IMAGE_REQUIRES_GC; }
void setFlag(uint32_t bits) INLINE { uint32_t old = A::P::E::get32(flags); A::P::E::set32(flags, old | bits); }
void setOptimizedByDyld() INLINE { setFlag(1<<3); }
};
template <typename A>
struct objc_method {
uint32_t method_name; // SEL
uint32_t method_types; // char *
uint32_t method_imp; // IMP
uint32_t getName() const INLINE { return A::P::E::get32(method_name); }
void setName(uint32_t newName) INLINE { A::P::E::set32(method_name, newName); }
};
template <typename A>
struct objc_method_list {
enum { OBJC_FIXED_UP = 1771 };
uint32_t obsolete; // struct objc_method_list *
uint32_t method_count; // int
struct objc_method<A> method_list[0];
uint32_t getCount() const INLINE { return A::P::E::get32(method_count); }
void setFixedUp(bool fixed) INLINE { A::P::E::set32(obsolete, fixed ? OBJC_FIXED_UP : 0); }
};
template <typename A>
struct objc_class {
uint32_t isa; // struct objc_class *
uint32_t super_class; // struct objc_class *
uint32_t name; // const char *
uint32_t version; // long
uint32_t info; // long
uint32_t instance_size; // long
uint32_t ivars; // struct objc_ivar_list *
uint32_t methodList; // struct objc_method_list *
uint32_t method_cache; // struct objc_cache *
uint32_t protocols; // objc_protocol_list *
uint32_t ivar_layout; // const char *
uint32_t ext; // struct objc_class_ext *
struct objc_class<A> *getIsa(SharedCache<A> *cache) const INLINE { return (struct objc_class<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(isa)); }
struct objc_method_list<A> *getMethodList(SharedCache<A> *cache) const INLINE { return (struct objc_method_list<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(methodList)); }
};
template <typename A>
struct objc_category {
uint32_t category_name; // char *
uint32_t class_name; // char *
uint32_t instance_methods; // struct objc_method_list *
uint32_t class_methods; // struct objc_method_list *
uint32_t protocols; // objc_protocol_list *
uint32_t size; // uint32_t
uint32_t instance_properties; // struct objc_property_list *
struct objc_method_list<A> *getInstanceMethods(SharedCache<A> *cache) const INLINE { return (struct objc_method_list<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(instance_methods)); }
struct objc_method_list<A> *getClassMethods(SharedCache<A> *cache) const INLINE { return (struct objc_method_list<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(class_methods)); }
};
template <typename A>
struct objc_symtab {
uint32_t sel_ref_cnt; // unsigned long
uint32_t refs; // SEL *
uint16_t cls_def_cnt; // unsigned short
uint16_t cat_def_cnt; // unsigned short
uint32_t defs[0]; // void *
uint16_t getClassCount(void) const INLINE { return A::P::E::get16(cls_def_cnt); }
uint16_t getCategoryCount(void) const INLINE { return A::P::E::get16(cat_def_cnt); }
struct objc_class<A> *getClass(SharedCache<A> *cache, int index) const INLINE { return (struct objc_class<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(defs[index])); }
struct objc_category<A> *getCategory(SharedCache<A> *cache, int index) const INLINE { return (struct objc_category<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(defs[getClassCount() + index])); }
};
template <typename A>
struct objc_module {
uint32_t version; // unsigned long
uint32_t size; // unsigned long
uint32_t name; // char*
uint32_t symtab; // Symtab
struct objc_symtab<A> *getSymtab(SharedCache<A> *cache) const INLINE { return (struct objc_symtab<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(symtab)); }
};
template <typename A>
struct objc_method_description {
uint32_t name; // SEL
uint32_t types; // char *
uint32_t getName() const INLINE { return A::P::E::get32(name); }
void setName(uint32_t newName) INLINE { A::P::E::set32(name, newName); }
};
template <typename A>
struct objc_method_description_list {
uint32_t count; // int
struct objc_method_description<A> list[0];
uint32_t getCount() const INLINE { return A::P::E::get32(count); }
};
template <typename A>
struct objc_protocol {
uint32_t isa; // danger! contains strange values!
uint32_t protocol_name; // const char *
uint32_t protocol_list; // struct objc_protocol_list
uint32_t instance_methods; // struct objc_method_description_list *
uint32_t class_methods; // struct objc_method_description_list *
struct objc_method_description_list<A> *getInstanceMethodDescriptions(SharedCache<A> *cache) const INLINE { return (struct objc_method_description_list<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(instance_methods)); }
struct objc_method_description_list<A> *getClassMethodDescriptions(SharedCache<A> *cache) const INLINE { return (struct objc_method_description_list<A> *)cache->mappedAddressForVMAddress(A::P::E::get32(class_methods)); }
};
template <typename A, typename V>
class LegacySelectorUpdater {
typedef typename A::P P;
static void visitMethodList(objc_method_list<A> *mlist, V& visitor)
{
for (uint32_t m = 0; m < mlist->getCount(); m++) {
uint64_t oldValue = mlist->method_list[m].getName();
uint64_t newValue = visitor.visit(oldValue);
mlist->method_list[m].setName(newValue);
}
mlist->setFixedUp(true);
}
static void visitMethodDescriptionList(objc_method_description_list<A> *mlist, V& visitor)
{
for (uint32_t m = 0; m < mlist->getCount(); m++) {
uint64_t oldValue = mlist->list[m].getName();
uint64_t newValue = visitor.visit(oldValue);
mlist->list[m].setName(newValue);
}
}
public:
static void update(SharedCache<A>* cache, const macho_header<P>* header,
V& visitor)
{
ArraySection<A, objc_module<A> >
modules(cache, header, "__OBJC", "__module_info");
for (uint64_t m = 0; m < modules.count(); m++) {
objc_symtab<A> *symtab = modules.get(m).getSymtab(cache);
if (!symtab) continue;
// Method lists in classes
for (uint64_t c = 0; c < symtab->getClassCount(); c++) {
objc_class<A> *cls = symtab->getClass(cache, c);
objc_class<A> *isa = cls->getIsa(cache);
objc_method_list<A> *mlist;
if ((mlist = cls->getMethodList(cache))) {
visitMethodList(mlist, visitor);
}
if ((mlist = isa->getMethodList(cache))) {
visitMethodList(mlist, visitor);
}
}
// Method lists from categories
for (uint64_t c = 0; c < symtab->getCategoryCount(); c++) {
objc_category<A> *cat = symtab->getCategory(cache, c);
objc_method_list<A> *mlist;
if ((mlist = cat->getInstanceMethods(cache))) {
visitMethodList(mlist, visitor);
}
if ((mlist = cat->getClassMethods(cache))) {
visitMethodList(mlist, visitor);
}
}
}
// Method description lists from protocols
ArraySection<A, objc_protocol<A> >
protocols(cache, header, "__OBJC", "__protocol");
for (uint64_t p = 0; p < protocols.count(); p++) {
objc_protocol<A>& protocol = protocols.get(p);
objc_method_description_list<A> *mlist;
if ((mlist = protocol.getInstanceMethodDescriptions(cache))) {
visitMethodDescriptionList(mlist, visitor);
}
if ((mlist = protocol.getClassMethodDescriptions(cache))) {
visitMethodDescriptionList(mlist, visitor);
}
}
// Message refs
PointerSection<A, const char *> selrefs(cache, header, "__OBJC", "__message_refs");
for (uint64_t s = 0; s < selrefs.count(); s++) {
uint64_t oldValue = selrefs.getUnmapped(s);
uint64_t newValue = visitor.visit(oldValue);
selrefs.set(s, newValue);
}
}
};