#include "objc/runtime.h" #include "lock.h" #include "dtable.h" #include "selector.h" #include "loader.h" #include "objc/hooks.h" #include #include void objc_send_initialize(id object); static long long nil_method(id self, SEL _cmd) { return 0; } static long double nil_method_D(id self, SEL _cmd) { return 0; } static double nil_method_d(id self, SEL _cmd) { return 0; } static float nil_method_f(id self, SEL _cmd) { return 0; } static struct objc_slot nil_slot_v1 = { Nil, Nil, 0, 1, (IMP)nil_method }; static struct objc_slot nil_slot_D_v1 = { Nil, Nil, 0, 1, (IMP)nil_method_D }; static struct objc_slot nil_slot_d_v1 = { Nil, Nil, 0, 1, (IMP)nil_method_d }; static struct objc_slot nil_slot_f_v1 = { Nil, Nil, 0, 1, (IMP)nil_method_f }; static struct objc_method nil_slot = { (IMP)nil_method, NULL, NULL }; static struct objc_method nil_slot_D = { (IMP)nil_method_D, NULL, NULL }; static struct objc_method nil_slot_d = { (IMP)nil_method_d, NULL, NULL }; static struct objc_method nil_slot_f = { (IMP)nil_method_f, NULL, NULL }; static struct objc_slot2* objc_slot_lookup(id *receiver, SEL selector); // Default implementations of the two new hooks. Return NULL. static id objc_proxy_lookup_null(id receiver, SEL op) { return nil; } static struct objc_slot *objc_msg_forward3_null(id receiver, SEL op) { return &nil_slot_v1; } id (*objc_proxy_lookup)(id receiver, SEL op) = objc_proxy_lookup_null; struct objc_slot *(*__objc_msg_forward3)(id receiver, SEL op) = objc_msg_forward3_null; static IMP forward2(id self, SEL _cmd) { return __objc_msg_forward3(self, _cmd)->method; } IMP (*__objc_msg_forward2)(id, SEL) = forward2; __thread struct objc_method uncacheable_slot = { (IMP)nil_method, NULL, NULL }; __thread struct objc_slot uncacheable_slot_v1 = { Nil, Nil, 0, 0, (IMP)nil_method }; #ifndef NO_SELECTOR_MISMATCH_WARNINGS static IMP objc_selector_type_mismatch(Class cls, SEL selector, struct objc_slot2 *result) { fprintf(stderr, "Calling [%s %c%s] with incorrect signature. " "Method has %s (%s), selector has %s\n", cls->name, class_isMetaClass(cls) ? '+' : '-', sel_getName(selector), sel_getType_np(((struct objc_method*)result)->selector), ((struct objc_method*)result)->types, sel_getType_np(selector)); return result->method; } #else static IMP objc_selector_type_mismatch(Class cls, SEL selector, struct objc_slot2 *result) { return result->method; } #endif IMP (*_objc_selector_type_mismatch2)(Class cls, SEL selector, struct objc_slot2 *result) = objc_selector_type_mismatch; struct objc_slot *(*_objc_selector_type_mismatch)(Class cls, SEL selector, struct objc_slot *result); static IMP call_mismatch_hook(Class cls, SEL sel, struct objc_slot2 *slot) { if (_objc_selector_type_mismatch && (!_objc_selector_type_mismatch2 || (_objc_selector_type_mismatch2 == objc_selector_type_mismatch))) { struct objc_slot fwdslot; fwdslot.types = ((struct objc_method*)slot)->types; fwdslot.selector = sel; fwdslot.method = slot->method; struct objc_slot *slot_v1 = _objc_selector_type_mismatch(cls, sel, &uncacheable_slot_v1); return slot_v1->method; } return _objc_selector_type_mismatch2(cls, sel, slot); } static // Uncomment for debugging //__attribute__((noinline)) __attribute__((always_inline)) struct objc_slot2 *objc_msg_lookup_internal(id *receiver, SEL selector, uint64_t *version) { if (version) { *version = objc_method_cache_version; } Class class = classForObject((*receiver)); retry:; struct objc_slot2 * result = objc_dtable_lookup(class->dtable, selector->index); if (UNLIKELY(0 == result)) { dtable_t dtable = dtable_for_class(class); /* Install the dtable if it hasn't already been initialized. */ if (dtable == uninstalled_dtable) { objc_send_initialize(*receiver); dtable = dtable_for_class(class); result = objc_dtable_lookup(dtable, selector->index); } else { // Check again incase another thread updated the dtable while we // weren't looking result = objc_dtable_lookup(dtable, selector->index); } if (0 == result) { if (!isSelRegistered(selector)) { objc_register_selector(selector); // This should be a tail call, but GCC is stupid and won't let // us tail call an always_inline function. goto retry; } if ((result = objc_dtable_lookup(dtable, get_untyped_idx(selector)))) { if (version) { *version = 0; } uncacheable_slot.imp = call_mismatch_hook(class, selector, result); result = (struct objc_slot2*)&uncacheable_slot; } id newReceiver = objc_proxy_lookup(*receiver, selector); // If some other library wants us to play forwarding games, try // again with the new object. if (nil != newReceiver) { *receiver = newReceiver; return objc_slot_lookup(receiver, selector); } if (0 == result) { if (version) { *version = 0; } uncacheable_slot.imp = __objc_msg_forward2(*receiver, selector); result = (struct objc_slot2*)&uncacheable_slot; } } } return result; } PRIVATE IMP slowMsgLookup(id *receiver, SEL cmd) { // By the time we've got here, the assembly version of this function has // already done the nil checks. return objc_msg_lookup_internal(receiver, cmd, NULL)->method; } PRIVATE void logInt(void *a) { fprintf(stderr, "Value: %p\n", a); } /** * New Objective-C lookup function. This permits the lookup to modify the * receiver and also supports multi-dimensional dispatch based on the sender. */ struct objc_slot *objc_msg_lookup_sender(id *receiver, SEL selector, id sender) { // Returning a nil slot allows the caller to cache the lookup for nil too, // although this is not particularly useful because the nil method can be // inlined trivially. if (UNLIKELY(*receiver == nil)) { // Return the correct kind of zero, depending on the type encoding. if (selector->types) { const char *t = selector->types; // Skip type qualifiers while ('r' == *t || 'n' == *t || 'N' == *t || 'o' == *t || 'O' == *t || 'R' == *t || 'V' == *t || 'A' == *t) { t++; } switch (selector->types[0]) { case 'D': return &nil_slot_D_v1; case 'd': return &nil_slot_d_v1; case 'f': return &nil_slot_f_v1; } } return &nil_slot_v1; } struct objc_slot2 *slot = objc_msg_lookup_internal(receiver, selector, NULL); uncacheable_slot_v1.owner = Nil; uncacheable_slot_v1.types = sel_getType_np(((struct objc_method*)slot)->selector); uncacheable_slot_v1.selector = selector; uncacheable_slot_v1.method = slot->method; return &uncacheable_slot_v1; } static struct objc_slot2* objc_slot_lookup(id *receiver, SEL selector) { // Returning a nil slot allows the caller to cache the lookup for nil too, // although this is not particularly useful because the nil method can be // inlined trivially. if (UNLIKELY(*receiver == nil)) { // Return the correct kind of zero, depending on the type encoding. if (selector->types) { const char *t = selector->types; // Skip type qualifiers while ('r' == *t || 'n' == *t || 'N' == *t || 'o' == *t || 'O' == *t || 'R' == *t || 'V' == *t || 'A' == *t) { t++; } switch (selector->types[0]) { case 'D': return (struct objc_slot2*)&nil_slot_D; case 'd': return (struct objc_slot2*)&nil_slot_d; case 'f': return (struct objc_slot2*)&nil_slot_f; } } return (struct objc_slot2*)&nil_slot; } return objc_msg_lookup_internal(receiver, selector, NULL); } struct objc_slot2 *objc_slot_lookup_version(id *receiver, SEL selector, uint64_t *version) { // Returning a nil slot allows the caller to cache the lookup for nil too, // although this is not particularly useful because the nil method can be // inlined trivially. if (UNLIKELY(*receiver == nil)) { if (version) { *version = 0; } // Return the correct kind of zero, depending on the type encoding. if (selector->types) { const char *t = selector->types; // Skip type qualifiers while ('r' == *t || 'n' == *t || 'N' == *t || 'o' == *t || 'O' == *t || 'R' == *t || 'V' == *t || 'A' == *t) { t++; } switch (selector->types[0]) { case 'D': return (struct objc_slot2*)&nil_slot_D; case 'd': return (struct objc_slot2*)&nil_slot_d; case 'f': return (struct objc_slot2*)&nil_slot_f; } } return (struct objc_slot2*)&nil_slot; } return objc_msg_lookup_internal(receiver, selector, version); } IMP objc_msg_lookup2(id *receiver, SEL selector) { return objc_slot_lookup(receiver, selector)->method; } struct objc_slot2 *objc_slot_lookup_super2(struct objc_super *super, SEL selector) { id receiver = super->receiver; if (receiver) { Class class = super->class; struct objc_slot2 * result = objc_dtable_lookup(dtable_for_class(class), selector->index); if (0 == result) { Class class = classForObject(receiver); // Dtable should always be installed in the superclass in // Objective-C, but may not be for other languages (Python). if (dtable_for_class(class) == uninstalled_dtable) { if (class_isMetaClass(class)) { objc_send_initialize(receiver); } else { objc_send_initialize((id)class); } objc_send_initialize((id)class); return objc_slot_lookup_super2(super, selector); } return (struct objc_slot2*)&nil_slot; } return result; } return (struct objc_slot2*)&nil_slot; } struct objc_slot *objc_slot_lookup_super(struct objc_super *super, SEL selector) { id receiver = super->receiver; if (receiver) { Class class = super->class; struct objc_slot2 * result = objc_dtable_lookup(dtable_for_class(class), selector->index); if (0 == result) { Class class = classForObject(receiver); // Dtable should always be installed in the superclass in // Objective-C, but may not be for other languages (Python). if (dtable_for_class(class) == uninstalled_dtable) { if (class_isMetaClass(class)) { objc_send_initialize(receiver); } else { objc_send_initialize((id)class); } objc_send_initialize((id)class); return objc_slot_lookup_super(super, selector); } return &nil_slot_v1; } uncacheable_slot_v1.owner = Nil; uncacheable_slot_v1.types = sel_getType_np(((struct objc_method*)result)->selector); uncacheable_slot_v1.selector = selector; uncacheable_slot_v1.method = result->method; return &uncacheable_slot_v1; } return &nil_slot_v1; } /** * looks up a slot without invoking any forwarding mechanisms */ struct objc_slot2 *objc_get_slot2(Class cls, SEL selector, uint64_t *version) { if (version) { *version = objc_method_cache_version; } struct objc_slot2 * result = objc_dtable_lookup(cls->dtable, selector->index); if (0 == result) { void *dtable = dtable_for_class(cls); /* Install the dtable if it hasn't already been initialized. */ if (dtable == uninstalled_dtable) { dtable = dtable_for_class(cls); result = objc_dtable_lookup(dtable, selector->index); } else { // Check again incase another thread updated the dtable while we // weren't looking result = objc_dtable_lookup(dtable, selector->index); } if (NULL == result) { if (!isSelRegistered(selector)) { objc_register_selector(selector); return objc_get_slot2(cls, selector, version); } if ((result = objc_dtable_lookup(dtable, get_untyped_idx(selector)))) { if (version) { *version = 0; } uncacheable_slot.imp = call_mismatch_hook(cls, selector, result); result = (struct objc_slot2*)&uncacheable_slot; } } } return result; } struct objc_slot *objc_get_slot(Class cls, SEL selector) { struct objc_slot2 *result = objc_get_slot2(cls, selector, NULL); if (result == NULL) { return NULL; } uncacheable_slot_v1.owner = Nil; // Don't leak extended type encodings! uncacheable_slot_v1.types = sel_getType_np(((struct objc_method*)result)->selector); uncacheable_slot_v1.selector = selector; uncacheable_slot_v1.method = result->method; return &uncacheable_slot_v1; } //////////////////////////////////////////////////////////////////////////////// // Public API //////////////////////////////////////////////////////////////////////////////// BOOL class_respondsToSelector(Class cls, SEL selector) { if (0 == selector || 0 == cls) { return NO; } return NULL != objc_get_slot2(cls, selector, NULL); } IMP class_getMethodImplementation(Class cls, SEL name) { if ((Nil == cls) || (NULL == name)) { return (IMP)0; } struct objc_slot2 * slot = objc_get_slot2(cls, name, NULL); return NULL != slot ? slot->method : __objc_msg_forward2(nil, name); } IMP class_getMethodImplementation_stret(Class cls, SEL name) { return class_getMethodImplementation(cls, name); } //////////////////////////////////////////////////////////////////////////////// // Legacy compatibility //////////////////////////////////////////////////////////////////////////////// #ifndef NO_LEGACY /** * Legacy message lookup function. */ BOOL __objc_responds_to(id object, SEL sel) { return class_respondsToSelector(classForObject(object), sel); } IMP get_imp(Class cls, SEL selector) { return class_getMethodImplementation(cls, selector); } /** * Message send function that only ever worked on a small subset of compiler / * architecture combinations. */ void *objc_msg_sendv(void) { fprintf(stderr, "objc_msg_sendv() never worked correctly. Don't use it.\n"); abort(); } #endif /** * Legacy message lookup function. Does not support fast proxies or safe IMP * caching. */ IMP objc_msg_lookup(id receiver, SEL selector) { if (nil == receiver) { return (IMP)nil_method; } id self = receiver; struct objc_slot2 * slot = objc_msg_lookup_internal(&self, selector, NULL); // If the receiver is changed by the lookup mechanism then we have to fall // back to old-style forwarding. if (self != receiver) { return __objc_msg_forward2(receiver, selector); } return slot->method; } IMP objc_msg_lookup_super(struct objc_super *super, SEL selector) { return objc_slot_lookup_super2(super, selector)->method; }