darling-libobjc2/sendmsg2.c

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#include "objc/runtime.h"
#include "lock.h"
#include "dtable.h"
#include "selector.h"
#include "loader.h"
#include "objc/hooks.h"
#include <stdint.h>
#include <stdio.h>
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 = { Nil, Nil, 0, 1, (IMP)nil_method };
static struct objc_slot nil_slot_D = { Nil, Nil, 0, 1, (IMP)nil_method_D };
static struct objc_slot nil_slot_d = { Nil, Nil, 0, 1, (IMP)nil_method_d };
static struct objc_slot nil_slot_f = { Nil, Nil, 0, 1, (IMP)nil_method_f };
typedef struct objc_slot *Slot_t;
Slot_t objc_msg_lookup_sender(id *receiver, SEL selector, id sender);
// Default implementations of the two new hooks. Return NULL.
static id objc_proxy_lookup_null(id receiver, SEL op) { return nil; }
static Slot_t objc_msg_forward3_null(id receiver, SEL op) { return &nil_slot; }
id (*objc_proxy_lookup)(id receiver, SEL op) = objc_proxy_lookup_null;
Slot_t (*__objc_msg_forward3)(id receiver, SEL op) = objc_msg_forward3_null;
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#ifndef NO_SELECTOR_MISMATCH_WARNINGS
static struct objc_slot* objc_selector_type_mismatch(Class cls, SEL
selector, Slot_t result)
{
fprintf(stderr, "Calling [%s %c%s] with incorrect signature. "
"Method has %s, selector has %s\n",
cls->name,
class_isMetaClass(cls) ? '+' : '-',
sel_getName(selector),
result->types,
sel_getType_np(selector));
return result;
}
#else
static struct objc_slot* objc_selector_type_mismatch(Class cls, SEL
selector, Slot_t result)
{
return result;
}
#endif
struct objc_slot* (*_objc_selector_type_mismatch)(Class cls, SEL
selector, struct objc_slot *result) = objc_selector_type_mismatch;
static
// Uncomment for debugging
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//__attribute__((noinline))
__attribute__((always_inline))
Slot_t objc_msg_lookup_internal(id *receiver,
SEL selector,
id sender)
{
retry:;
Class class = classForObject((*receiver));
Slot_t result = objc_dtable_lookup(class->dtable, selector->index);
if (UNLIKELY(0 == result))
{
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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);
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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;
}
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if ((result = objc_dtable_lookup(dtable, get_untyped_idx(selector))))
{
return _objc_selector_type_mismatch(class, selector, result);
}
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_msg_lookup_sender(receiver, selector, sender);
}
if (0 == result)
{
result = __objc_msg_forward3(*receiver, selector);
}
}
}
return result;
}
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PRIVATE
IMP slowMsgLookup(id *receiver, SEL cmd)
{
return objc_msg_lookup_sender(receiver, cmd, nil)->method;
}
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PRIVATE void logInt(void *a)
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{
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fprintf(stderr, "Value: %p\n", a);
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}
Slot_t (*objc_plane_lookup)(id *receiver, SEL op, id sender) =
objc_msg_lookup_internal;
Slot_t objc_msg_lookup_sender_non_nil(id *receiver, SEL selector, id sender)
{
return objc_msg_lookup_internal(receiver, selector, sender);
}
/**
* New Objective-C lookup function. This permits the lookup to modify the
* receiver and also supports multi-dimensional dispatch based on the sender.
*/
Slot_t 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)
{
t++;
}
switch (selector->types[0])
{
case 'D': return &nil_slot_D;
case 'd': return &nil_slot_d;
case 'f': return &nil_slot_f;
}
}
return &nil_slot;
}
/*
* The self pointer is invalid in some code. This test is disabled until
* we can guarantee that it is not (e.g. with GCKit)
if (__builtin_expect(sender == nil
||
(sender->isa->info & (*receiver)->isa->info & _CLS_PLANE_AWARE),1))
*/
{
return objc_msg_lookup_internal(receiver, selector, sender);
}
// If we are in plane-aware code
void *senderPlaneID = *((void**)sender - 1);
void *receiverPlaneID = *((void**)receiver - 1);
if (senderPlaneID == receiverPlaneID)
{
return objc_msg_lookup_internal(receiver, selector, sender);
}
return objc_plane_lookup(receiver, selector, sender);
}
Slot_t objc_slot_lookup_super(struct objc_super *super, SEL selector)
{
id receiver = super->receiver;
if (receiver)
{
Class class = super->class;
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Slot_t 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
// Unfortunately, some stupid code (PyObjC) decides to use this
// mechanism for everything
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);
}
result = &nil_slot;
}
return result;
}
else
{
return &nil_slot;
}
}
////////////////////////////////////////////////////////////////////////////////
// Profiling
////////////////////////////////////////////////////////////////////////////////
/**
* Mutex used to protect non-thread-safe parts of the profiling subsystem.
*/
static mutex_t profileLock;
/**
* File used for writing the profiling symbol table.
*/
static FILE *profileSymbols;
/**
* File used for writing the profiling data.
*/
static FILE *profileData;
struct profile_info
{
const char *module;
int32_t callsite;
IMP method;
};
static void profile_init(void)
{
INIT_LOCK(profileLock);
profileSymbols = fopen("objc_profile.symbols", "a");
profileData = fopen("objc_profile.data", "a");
// Write markers indicating a new run.
fprintf(profileSymbols, "=== NEW TRACE ===\n");
struct profile_info profile_data = { 0, 0, 0 };
fwrite(&profile_data, sizeof(profile_data), 1, profileData);
}
void objc_profile_write_symbols(char **symbols)
{
if (NULL == profileData)
{
LOCK_RUNTIME_FOR_SCOPE();
if (NULL == profileData)
{
profile_init();
}
}
LOCK(&profileLock);
while(*symbols)
{
char *address = *(symbols++);
char *symbol = *(symbols++);
fprintf(profileSymbols, "%zx %s\n", (size_t)address, symbol);
}
UNLOCK(&profileLock);
fflush(profileSymbols);
}
/**
* Profiling version of the slot lookup. This takes a unique ID for the module
* and the callsite as extra arguments. The type of the receiver and the
* address of the resulting function are then logged to a file. These can then
* be used to determine whether adding slot caching is worthwhile, and whether
* any of the resulting methods should be speculatively inlined.
*/
void objc_msg_profile(id receiver, IMP method,
const char *module, int32_t callsite)
{
// Initialize the logging lazily. This prevents us from wasting any memory
// when we are not profiling.
if (NULL == profileData)
{
LOCK_RUNTIME_FOR_SCOPE();
if (NULL == profileData)
{
profile_init();
}
}
struct profile_info profile_data = { module, callsite, method };
fwrite(&profile_data, sizeof(profile_data), 1, profileData);
}
/**
* Looks up a slot without invoking any forwarding mechanisms
*/
Slot_t objc_get_slot(Class cls, SEL selector)
{
Slot_t 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_slot(cls, selector);
}
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if ((result = objc_dtable_lookup(dtable, get_untyped_idx(selector))))
{
return _objc_selector_type_mismatch(cls, selector, result);
}
}
}
return result;
}
////////////////////////////////////////////////////////////////////////////////
// Public API
////////////////////////////////////////////////////////////////////////////////
BOOL class_respondsToSelector(Class cls, SEL selector)
{
if (0 == selector || 0 == cls) { return NO; }
return NULL != objc_get_slot(cls, selector);
}
IMP class_getMethodImplementation(Class cls, SEL name)
{
if ((Nil == cls) || (NULL == name)) { return (IMP)0; }
Slot_t slot = objc_get_slot(cls, name);
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;
Slot_t slot = objc_msg_lookup_internal(&self, selector, nil);
if (self != receiver)
{
slot = __objc_msg_forward3(receiver, selector);
}
return slot->method;
}
IMP objc_msg_lookup_super(struct objc_super *super, SEL selector)
{
return objc_slot_lookup_super(super, selector)->method;
}