chrome/common/mac/objc_zombie.mm - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #import "chrome/common/mac/objc_zombie.h"

 #include <AvailabilityMacros.h>

 #include <execinfo.h>
 #import <objc/runtime.h>

 #include <algorithm>

 #include "base/debug/crash_logging.h"
 #include "base/debug/stack_trace.h"
 #include "base/lazy_instance.h"
 #include "base/logging.h"
 #include "base/strings/stringprintf.h"
 #include "base/synchronization/lock.h"
 #include "chrome/common/crash_keys.h"
 #import "chrome/common/mac/objc_method_swizzle.h"

 #if !defined(OS_IOS) && (MAC_OS_X_VERSION_MAX_ALLOWED <= MAC_OS_X_VERSION_10_6)
 // Apparently objc/runtime.h doesn't define this with the 10.6 SDK yet.
 // The docs say it exists since 10.6 however.
 OBJC_EXPORT void *objc_destructInstance(id obj);
 #endif

 // Deallocated objects are re-classed as |CrZombie|.  No superclass
 // because then the class would have to override many/most of the
 // inherited methods (|NSObject| is like a category magnet!).
 // Without the __attribute__, clang's -Wobjc-root-class warns on the missing
 // superclass.
 __attribute__((objc_root_class))
 @interface CrZombie  {
   Class isa;
 }
 @end

 // Objects with enough space are made into "fat" zombies, which
 // directly remember which class they were until reallocated.
 @interface CrFatZombie : CrZombie {
  @public
   Class wasa;
 }
 @end

 namespace {

 // The depth of backtrace to store with zombies.  This directly influences
 // the amount of memory required to track zombies, so should be kept as
 // small as is useful.  Unfortunately, too small and it won't poke through
 // deep autorelease and event loop stacks.
 // NOTE(shess): Breakpad currently restricts values to 255 bytes.  The
 // trace is hex-encoded with "0x" prefix and " " separators, meaning
 // the maximum number of 32-bit items which can be encoded is 23.
 const size_t kBacktraceDepth = 20;

 // The original implementation for |-[NSObject dealloc]|.
 IMP g_originalDeallocIMP = NULL;

 // Classes which freed objects become.  |g_fatZombieSize| is the
 // minimum object size which can be made into a fat zombie (which can
 // remember which class it was before free, even after falling off the
 // treadmill).
 Class g_zombieClass = Nil;  // cached [CrZombie class]
 Class g_fatZombieClass = Nil;  // cached [CrFatZombie class]
 size_t g_fatZombieSize = 0;

 // Whether to zombie all freed objects, or only those which return YES
 // from |-shouldBecomeCrZombie|.
 BOOL g_zombieAllObjects = NO;

 // Protects |g_zombieCount|, |g_zombieIndex|, and |g_zombies|.
 base::LazyInstance<base::Lock>::Leaky g_lock = LAZY_INSTANCE_INITIALIZER;

 // How many zombies to keep before freeing, and the current head of
 // the circular buffer.
 size_t g_zombieCount = 0;
 size_t g_zombieIndex = 0;

 typedef struct {
   id object;   // The zombied object.
   Class wasa;  // Value of |object->isa| before we replaced it.
   void* trace[kBacktraceDepth];  // Backtrace at point of deallocation.
   size_t traceDepth;             // Actual depth of trace[].
 } ZombieRecord;

 ZombieRecord* g_zombies = NULL;

 // Replacement |-dealloc| which turns objects into zombies and places
 // them into |g_zombies| to be freed later.
 void ZombieDealloc(id self, SEL _cmd) {
   // This code should only be called when it is implementing |-dealloc|.
   DCHECK_EQ(_cmd, @selector(dealloc));

   // Use the original |-dealloc| if the object doesn't wish to be
   // zombied.
   if (!g_zombieAllObjects && ![self shouldBecomeCrZombie]) {
     g_originalDeallocIMP(self, _cmd);
     return;
   }

   Class wasa = object_getClass(self);
   const size_t size = class_getInstanceSize(wasa);

   // Destroy the instance by calling C++ destructors and clearing it
   // to something unlikely to work well if someone references it.
   // NOTE(shess): |object_dispose()| will call this again when the
   // zombie falls off the treadmill!  But by then |isa| will be a
   // class without C++ destructors or associative references, so it
   // won't hurt anything.
   objc_destructInstance(self);
   memset(self, '!', size);

   // If the instance is big enough, make it into a fat zombie and have
   // it remember the old |isa|.  Otherwise make it a regular zombie.
   // Setting |isa| rather than using |object_setClass()| because that
   // function is implemented with a memory barrier.  The runtime's
   // |_internal_object_dispose()| (in objc-class.m) does this, so it
   // should be safe (messaging free'd objects shouldn't be expected to
   // be thread-safe in the first place).
 #pragma clang diagnostic push  // clang warns about direct access to isa.
 #pragma clang diagnostic ignored "-Wdeprecated-objc-isa-usage"
   if (size >= g_fatZombieSize) {
     self->isa = g_fatZombieClass;
     static_cast<CrFatZombie*>(self)->wasa = wasa;
   } else {
     self->isa = g_zombieClass;
   }
 #pragma clang diagnostic pop

   // The new record to swap into |g_zombies|.  If |g_zombieCount| is
   // zero, then |self| will be freed immediately.
   ZombieRecord zombieToFree = {self, wasa};
   zombieToFree.traceDepth =
       std::max(backtrace(zombieToFree.trace, kBacktraceDepth), 0);

   // Don't involve the lock when creating zombies without a treadmill.
   if (g_zombieCount > 0) {
     base::AutoLock pin(g_lock.Get());

     // Check the count again in a thread-safe manner.
     if (g_zombieCount > 0) {
       // Put the current object on the treadmill and keep the previous
       // occupant.
       std::swap(zombieToFree, g_zombies[g_zombieIndex]);

       // Bump the index forward.
       g_zombieIndex = (g_zombieIndex + 1) % g_zombieCount;
     }
   }

   // Do the free out here to prevent any chance of deadlock.
   if (zombieToFree.object)
     object_dispose(zombieToFree.object);
 }

 // Search the treadmill for |object| and fill in |*record| if found.
 // Returns YES if found.
 BOOL GetZombieRecord(id object, ZombieRecord* record) {
   // Holding the lock is reasonable because this should be fast, and
   // the process is going to crash presently anyhow.
   base::AutoLock pin(g_lock.Get());
   for (size_t i = 0; i < g_zombieCount; ++i) {
     if (g_zombies[i].object == object) {
       *record = g_zombies[i];
       return YES;
     }
   }
   return NO;
 }

 // Dump the symbols.  This is pulled out into a function to make it
 // easy to use DCHECK to dump only in debug builds.
 BOOL DumpDeallocTrace(const void* const* array, int size) {
   fprintf(stderr, "Backtrace from -dealloc:\n");
   base::debug::StackTrace(array, size).PrintBacktrace();

   return YES;
 }

 // Log a message to a freed object.  |wasa| is the object's original
 // class.  |aSelector| is the selector which the calling code was
 // attempting to send.  |viaSelector| is the selector of the
 // dispatch-related method which is being invoked to send |aSelector|
 // (for instance, -respondsToSelector:).
 void ZombieObjectCrash(id object, SEL aSelector, SEL viaSelector) {
   ZombieRecord record;
   BOOL found = GetZombieRecord(object, &record);

   // The object's class can be in the zombie record, but if that is
   // not available it can also be in the object itself (in most cases).
   Class wasa = Nil;
   if (found) {
     wasa = record.wasa;
   } else if (object_getClass(object) == g_fatZombieClass) {
     wasa = static_cast<CrFatZombie*>(object)->wasa;
   }
   const char* wasaName = (wasa ? class_getName(wasa) : "<unknown>");

   std::string aString = base::StringPrintf("Zombie <%s: %p> received -%s",
       wasaName, object, sel_getName(aSelector));
   if (viaSelector != NULL) {
     const char* viaName = sel_getName(viaSelector);
     base::StringAppendF(&aString, " (via -%s)", viaName);
   }

   // Set a value for breakpad to report.
   base::debug::SetCrashKeyValue(crash_keys::mac::kZombie, aString);

   // Encode trace into a breakpad key.
   if (found) {
     base::debug::SetCrashKeyFromAddresses(
         crash_keys::mac::kZombieTrace, record.trace, record.traceDepth);
   }

   // Log -dealloc backtrace in debug builds then crash with a useful
   // stack trace.
   if (found && record.traceDepth) {
     DCHECK(DumpDeallocTrace(record.trace, record.traceDepth));
   } else {
     DLOG(INFO) << "Unable to generate backtrace from -dealloc.";
   }
   DLOG(FATAL) << aString;

   // This is how about:crash is implemented.  Using instead of
   // |base::debug::BreakDebugger()| or |LOG(FATAL)| to make the top of
   // stack more immediately obvious in crash dumps.
   int* zero = NULL;
   *zero = 0;
 }

 // Initialize our globals, returning YES on success.
 BOOL ZombieInit() {
   static BOOL initialized = NO;
   if (initialized)
     return YES;

   Class rootClass = [NSObject class];
   g_originalDeallocIMP =
       class_getMethodImplementation(rootClass, @selector(dealloc));
   // objc_getClass() so CrZombie doesn't need +class.
   g_zombieClass = objc_getClass("CrZombie");
   g_fatZombieClass = objc_getClass("CrFatZombie");
   g_fatZombieSize = class_getInstanceSize(g_fatZombieClass);

   if (!g_originalDeallocIMP || !g_zombieClass || !g_fatZombieClass)
     return NO;

   initialized = YES;
   return YES;
 }

 }  // namespace

 @implementation CrZombie

 // The Objective-C runtime needs to be able to call this successfully.
 + (void)initialize {
 }

 // Any method not explicitly defined will end up here, forcing a
 // crash.
 - (id)forwardingTargetForSelector:(SEL)aSelector {
   ZombieObjectCrash(self, aSelector, NULL);
   return nil;
 }

 // Override a few methods often used for dynamic dispatch to log the
 // message the caller is attempting to send, rather than the utility
 // method being used to send it.
 - (BOOL)respondsToSelector:(SEL)aSelector {
   ZombieObjectCrash(self, aSelector, _cmd);
   return NO;
 }

 - (id)performSelector:(SEL)aSelector {
   ZombieObjectCrash(self, aSelector, _cmd);
   return nil;
 }

 - (id)performSelector:(SEL)aSelector withObject:(id)anObject {
   ZombieObjectCrash(self, aSelector, _cmd);
   return nil;
 }

 - (id)performSelector:(SEL)aSelector
            withObject:(id)anObject
            withObject:(id)anotherObject {
   ZombieObjectCrash(self, aSelector, _cmd);
   return nil;
 }

 - (void)performSelector:(SEL)aSelector
              withObject:(id)anArgument
              afterDelay:(NSTimeInterval)delay {
   ZombieObjectCrash(self, aSelector, _cmd);
 }

 @end

 @implementation CrFatZombie

 // This implementation intentionally left empty.

 @end

 @implementation NSObject (CrZombie)

 - (BOOL)shouldBecomeCrZombie {
   return NO;
 }

 @end

 namespace ObjcEvilDoers {

 bool ZombieEnable(bool zombieAllObjects,
                   size_t zombieCount) {
   // Only allow enable/disable on the main thread, just to keep things
   // simple.
   DCHECK([NSThread isMainThread]);

   if (!ZombieInit())
     return false;

   g_zombieAllObjects = zombieAllObjects;

   // Replace the implementation of -[NSObject dealloc].
   Method m = class_getInstanceMethod([NSObject class], @selector(dealloc));
   if (!m)
     return false;

   const IMP prevDeallocIMP = method_setImplementation(m, (IMP)ZombieDealloc);
   DCHECK(prevDeallocIMP == g_originalDeallocIMP ||
          prevDeallocIMP == (IMP)ZombieDealloc);

   // Grab the current set of zombies.  This is thread-safe because
   // only the main thread can change these.
   const size_t oldCount = g_zombieCount;
   ZombieRecord* oldZombies = g_zombies;

   {
     base::AutoLock pin(g_lock.Get());

     // Save the old index in case zombies need to be transferred.
     size_t oldIndex = g_zombieIndex;

     // Create the new zombie treadmill, disabling zombies in case of
     // failure.
     g_zombieIndex = 0;
     g_zombieCount = zombieCount;
     g_zombies = NULL;
     if (g_zombieCount) {
       g_zombies =
           static_cast<ZombieRecord*>(calloc(g_zombieCount, sizeof(*g_zombies)));
       if (!g_zombies) {
         NOTREACHED();
         g_zombies = oldZombies;
         g_zombieCount = oldCount;
         g_zombieIndex = oldIndex;
         ZombieDisable();
         return false;
       }
     }

     // If the count is changing, allow some of the zombies to continue
     // shambling forward.
     const size_t sharedCount = std::min(oldCount, zombieCount);
     if (sharedCount) {
       // Get index of the first shared zombie.
       oldIndex = (oldIndex + oldCount - sharedCount) % oldCount;

       for (; g_zombieIndex < sharedCount; ++ g_zombieIndex) {
         DCHECK_LT(g_zombieIndex, g_zombieCount);
         DCHECK_LT(oldIndex, oldCount);
         std::swap(g_zombies[g_zombieIndex], oldZombies[oldIndex]);
         oldIndex = (oldIndex + 1) % oldCount;
       }
       g_zombieIndex %= g_zombieCount;
     }
   }

   // Free the old treadmill and any remaining zombies.
   if (oldZombies) {
     for (size_t i = 0; i < oldCount; ++i) {
       if (oldZombies[i].object)
         object_dispose(oldZombies[i].object);
     }
     free(oldZombies);
   }

   return true;
 }

 void ZombieDisable() {
   // Only allow enable/disable on the main thread, just to keep things
   // simple.
   DCHECK([NSThread isMainThread]);

   // |ZombieInit()| was never called.
   if (!g_originalDeallocIMP)
     return;

   // Put back the original implementation of -[NSObject dealloc].
   Method m = class_getInstanceMethod([NSObject class], @selector(dealloc));
   DCHECK(m);
   method_setImplementation(m, g_originalDeallocIMP);

   // Can safely grab this because it only happens on the main thread.
   const size_t oldCount = g_zombieCount;
   ZombieRecord* oldZombies = g_zombies;

   {
     base::AutoLock pin(g_lock.Get());  // In case any -dealloc are in progress.
     g_zombieCount = 0;
     g_zombies = NULL;
   }

   // Free any remaining zombies.
   if (oldZombies) {
     for (size_t i = 0; i < oldCount; ++i) {
       if (oldZombies[i].object)
         object_dispose(oldZombies[i].object);
     }
     free(oldZombies);
   }
 }

 }  // namespace ObjcEvilDoers
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#import "chrome/common/mac/objc_zombie.h"

	#include <AvailabilityMacros.h>

	#include <execinfo.h>
	#import <objc/runtime.h>

	#include <algorithm>

	#include "base/debug/crash_logging.h"
	#include "base/debug/stack_trace.h"
	#include "base/lazy_instance.h"
	#include "base/logging.h"
	#include "base/strings/stringprintf.h"
	#include "base/synchronization/lock.h"
	#include "chrome/common/crash_keys.h"
	#import "chrome/common/mac/objc_method_swizzle.h"

	#if !defined(OS_IOS) && (MAC_OS_X_VERSION_MAX_ALLOWED <= MAC_OS_X_VERSION_10_6)
	// Apparently objc/runtime.h doesn't define this with the 10.6 SDK yet.
	// The docs say it exists since 10.6 however.
	OBJC_EXPORT void *objc_destructInstance(id obj);
	#endif

	// Deallocated objects are re-classed as \|CrZombie\|. No superclass
	// because then the class would have to override many/most of the
	// inherited methods (\|NSObject\| is like a category magnet!).
	// Without the __attribute__, clang's -Wobjc-root-class warns on the missing
	// superclass.
	__attribute__((objc_root_class))
	@interface CrZombie {
	Class isa;
	}
	@end

	// Objects with enough space are made into "fat" zombies, which
	// directly remember which class they were until reallocated.
	@interface CrFatZombie : CrZombie {
	@public
	Class wasa;
	}
	@end

	namespace {

	// The depth of backtrace to store with zombies. This directly influences
	// the amount of memory required to track zombies, so should be kept as
	// small as is useful. Unfortunately, too small and it won't poke through
	// deep autorelease and event loop stacks.
	// NOTE(shess): Breakpad currently restricts values to 255 bytes. The
	// trace is hex-encoded with "0x" prefix and " " separators, meaning
	// the maximum number of 32-bit items which can be encoded is 23.
	const size_t kBacktraceDepth = 20;

	// The original implementation for \|-[NSObject dealloc]\|.
	IMP g_originalDeallocIMP = NULL;

	// Classes which freed objects become. \|g_fatZombieSize\| is the
	// minimum object size which can be made into a fat zombie (which can
	// remember which class it was before free, even after falling off the
	// treadmill).
	Class g_zombieClass = Nil; // cached [CrZombie class]
	Class g_fatZombieClass = Nil; // cached [CrFatZombie class]
	size_t g_fatZombieSize = 0;

	// Whether to zombie all freed objects, or only those which return YES
	// from \|-shouldBecomeCrZombie\|.
	BOOL g_zombieAllObjects = NO;

	// Protects \|g_zombieCount\|, \|g_zombieIndex\|, and \|g_zombies\|.
	base::LazyInstance<base::Lock>::Leaky g_lock = LAZY_INSTANCE_INITIALIZER;

	// How many zombies to keep before freeing, and the current head of
	// the circular buffer.
	size_t g_zombieCount = 0;
	size_t g_zombieIndex = 0;

	typedef struct {
	id object; // The zombied object.
	Class wasa; // Value of \|object->isa\| before we replaced it.
	void* trace[kBacktraceDepth]; // Backtrace at point of deallocation.
	size_t traceDepth; // Actual depth of trace[].
	} ZombieRecord;

	ZombieRecord* g_zombies = NULL;

	// Replacement \|-dealloc\| which turns objects into zombies and places
	// them into \|g_zombies\| to be freed later.
	void ZombieDealloc(id self, SEL _cmd) {
	// This code should only be called when it is implementing \|-dealloc\|.
	DCHECK_EQ(_cmd, @selector(dealloc));

	// Use the original \|-dealloc\| if the object doesn't wish to be
	// zombied.
	if (!g_zombieAllObjects && ![self shouldBecomeCrZombie]) {
	g_originalDeallocIMP(self, _cmd);
	return;
	}

	Class wasa = object_getClass(self);
	const size_t size = class_getInstanceSize(wasa);

	// Destroy the instance by calling C++ destructors and clearing it
	// to something unlikely to work well if someone references it.
	// NOTE(shess): \|object_dispose()\| will call this again when the
	// zombie falls off the treadmill! But by then \|isa\| will be a
	// class without C++ destructors or associative references, so it
	// won't hurt anything.
	objc_destructInstance(self);
	memset(self, '!', size);

	// If the instance is big enough, make it into a fat zombie and have
	// it remember the old \|isa\|. Otherwise make it a regular zombie.
	// Setting \|isa\| rather than using \|object_setClass()\| because that
	// function is implemented with a memory barrier. The runtime's
	// \|_internal_object_dispose()\| (in objc-class.m) does this, so it
	// should be safe (messaging free'd objects shouldn't be expected to
	// be thread-safe in the first place).
	#pragma clang diagnostic push // clang warns about direct access to isa.
	#pragma clang diagnostic ignored "-Wdeprecated-objc-isa-usage"
	if (size >= g_fatZombieSize) {
	self->isa = g_fatZombieClass;
	static_cast<CrFatZombie*>(self)->wasa = wasa;
	} else {
	self->isa = g_zombieClass;
	}
	#pragma clang diagnostic pop

	// The new record to swap into \|g_zombies\|. If \|g_zombieCount\| is
	// zero, then \|self\| will be freed immediately.
	ZombieRecord zombieToFree = {self, wasa};
	zombieToFree.traceDepth =
	std::max(backtrace(zombieToFree.trace, kBacktraceDepth), 0);

	// Don't involve the lock when creating zombies without a treadmill.
	if (g_zombieCount > 0) {
	base::AutoLock pin(g_lock.Get());

	// Check the count again in a thread-safe manner.
	if (g_zombieCount > 0) {
	// Put the current object on the treadmill and keep the previous
	// occupant.
	std::swap(zombieToFree, g_zombies[g_zombieIndex]);

	// Bump the index forward.
	g_zombieIndex = (g_zombieIndex + 1) % g_zombieCount;
	}
	}

	// Do the free out here to prevent any chance of deadlock.
	if (zombieToFree.object)
	object_dispose(zombieToFree.object);
	}

	// Search the treadmill for \|object\| and fill in \|*record\| if found.
	// Returns YES if found.
	BOOL GetZombieRecord(id object, ZombieRecord* record) {
	// Holding the lock is reasonable because this should be fast, and
	// the process is going to crash presently anyhow.
	base::AutoLock pin(g_lock.Get());
	for (size_t i = 0; i < g_zombieCount; ++i) {
	if (g_zombies[i].object == object) {
	*record = g_zombies[i];
	return YES;
	}
	}
	return NO;
	}

	// Dump the symbols. This is pulled out into a function to make it
	// easy to use DCHECK to dump only in debug builds.
	BOOL DumpDeallocTrace(const void* const* array, int size) {
	fprintf(stderr, "Backtrace from -dealloc:\n");
	base::debug::StackTrace(array, size).PrintBacktrace();

	return YES;
	}

	// Log a message to a freed object. \|wasa\| is the object's original
	// class. \|aSelector\| is the selector which the calling code was
	// attempting to send. \|viaSelector\| is the selector of the
	// dispatch-related method which is being invoked to send \|aSelector\|
	// (for instance, -respondsToSelector:).
	void ZombieObjectCrash(id object, SEL aSelector, SEL viaSelector) {
	ZombieRecord record;
	BOOL found = GetZombieRecord(object, &record);

	// The object's class can be in the zombie record, but if that is
	// not available it can also be in the object itself (in most cases).
	Class wasa = Nil;
	if (found) {
	wasa = record.wasa;
	} else if (object_getClass(object) == g_fatZombieClass) {
	wasa = static_cast<CrFatZombie*>(object)->wasa;
	}
	const char* wasaName = (wasa ? class_getName(wasa) : "<unknown>");

	std::string aString = base::StringPrintf("Zombie <%s: %p> received -%s",
	wasaName, object, sel_getName(aSelector));
	if (viaSelector != NULL) {
	const char* viaName = sel_getName(viaSelector);
	base::StringAppendF(&aString, " (via -%s)", viaName);
	}

	// Set a value for breakpad to report.
	base::debug::SetCrashKeyValue(crash_keys::mac::kZombie, aString);

	// Encode trace into a breakpad key.
	if (found) {
	base::debug::SetCrashKeyFromAddresses(
	crash_keys::mac::kZombieTrace, record.trace, record.traceDepth);
	}

	// Log -dealloc backtrace in debug builds then crash with a useful
	// stack trace.
	if (found && record.traceDepth) {
	DCHECK(DumpDeallocTrace(record.trace, record.traceDepth));
	} else {
	DLOG(INFO) << "Unable to generate backtrace from -dealloc.";
	}
	DLOG(FATAL) << aString;

	// This is how about:crash is implemented. Using instead of
	// \|base::debug::BreakDebugger()\| or \|LOG(FATAL)\| to make the top of
	// stack more immediately obvious in crash dumps.
	int* zero = NULL;
	*zero = 0;
	}

	// Initialize our globals, returning YES on success.
	BOOL ZombieInit() {
	static BOOL initialized = NO;
	if (initialized)
	return YES;

	Class rootClass = [NSObject class];
	g_originalDeallocIMP =
	class_getMethodImplementation(rootClass, @selector(dealloc));
	// objc_getClass() so CrZombie doesn't need +class.
	g_zombieClass = objc_getClass("CrZombie");
	g_fatZombieClass = objc_getClass("CrFatZombie");
	g_fatZombieSize = class_getInstanceSize(g_fatZombieClass);

	if (!g_originalDeallocIMP \|\| !g_zombieClass \|\| !g_fatZombieClass)
	return NO;

	initialized = YES;
	return YES;
	}

	} // namespace

	@implementation CrZombie

	// The Objective-C runtime needs to be able to call this successfully.
	+ (void)initialize {
	}

	// Any method not explicitly defined will end up here, forcing a
	// crash.
	- (id)forwardingTargetForSelector:(SEL)aSelector {
	ZombieObjectCrash(self, aSelector, NULL);
	return nil;
	}

	// Override a few methods often used for dynamic dispatch to log the
	// message the caller is attempting to send, rather than the utility
	// method being used to send it.
	- (BOOL)respondsToSelector:(SEL)aSelector {
	ZombieObjectCrash(self, aSelector, _cmd);
	return NO;
	}

	- (id)performSelector:(SEL)aSelector {
	ZombieObjectCrash(self, aSelector, _cmd);
	return nil;
	}

	- (id)performSelector:(SEL)aSelector withObject:(id)anObject {
	ZombieObjectCrash(self, aSelector, _cmd);
	return nil;
	}

	- (id)performSelector:(SEL)aSelector
	withObject:(id)anObject
	withObject:(id)anotherObject {
	ZombieObjectCrash(self, aSelector, _cmd);
	return nil;
	}

	- (void)performSelector:(SEL)aSelector
	withObject:(id)anArgument
	afterDelay:(NSTimeInterval)delay {
	ZombieObjectCrash(self, aSelector, _cmd);
	}

	@end

	@implementation CrFatZombie

	// This implementation intentionally left empty.

	@end

	@implementation NSObject (CrZombie)

	- (BOOL)shouldBecomeCrZombie {
	return NO;
	}

	@end

	namespace ObjcEvilDoers {

	bool ZombieEnable(bool zombieAllObjects,
	size_t zombieCount) {
	// Only allow enable/disable on the main thread, just to keep things
	// simple.
	DCHECK([NSThread isMainThread]);

	if (!ZombieInit())
	return false;

	g_zombieAllObjects = zombieAllObjects;

	// Replace the implementation of -[NSObject dealloc].
	Method m = class_getInstanceMethod([NSObject class], @selector(dealloc));
	if (!m)
	return false;

	const IMP prevDeallocIMP = method_setImplementation(m, (IMP)ZombieDealloc);
	DCHECK(prevDeallocIMP == g_originalDeallocIMP \|\|
	prevDeallocIMP == (IMP)ZombieDealloc);

	// Grab the current set of zombies. This is thread-safe because
	// only the main thread can change these.
	const size_t oldCount = g_zombieCount;
	ZombieRecord* oldZombies = g_zombies;

	{
	base::AutoLock pin(g_lock.Get());

	// Save the old index in case zombies need to be transferred.
	size_t oldIndex = g_zombieIndex;

	// Create the new zombie treadmill, disabling zombies in case of
	// failure.
	g_zombieIndex = 0;
	g_zombieCount = zombieCount;
	g_zombies = NULL;
	if (g_zombieCount) {
	g_zombies =
	static_cast<ZombieRecord>(calloc(g_zombieCount, sizeof(g_zombies)));
	if (!g_zombies) {
	NOTREACHED();
	g_zombies = oldZombies;
	g_zombieCount = oldCount;
	g_zombieIndex = oldIndex;
	ZombieDisable();
	return false;
	}
	}

	// If the count is changing, allow some of the zombies to continue
	// shambling forward.
	const size_t sharedCount = std::min(oldCount, zombieCount);
	if (sharedCount) {
	// Get index of the first shared zombie.
	oldIndex = (oldIndex + oldCount - sharedCount) % oldCount;

	for (; g_zombieIndex < sharedCount; ++ g_zombieIndex) {
	DCHECK_LT(g_zombieIndex, g_zombieCount);
	DCHECK_LT(oldIndex, oldCount);
	std::swap(g_zombies[g_zombieIndex], oldZombies[oldIndex]);
	oldIndex = (oldIndex + 1) % oldCount;
	}
	g_zombieIndex %= g_zombieCount;
	}
	}

	// Free the old treadmill and any remaining zombies.
	if (oldZombies) {
	for (size_t i = 0; i < oldCount; ++i) {
	if (oldZombies[i].object)
	object_dispose(oldZombies[i].object);
	}
	free(oldZombies);
	}

	return true;
	}

	void ZombieDisable() {
	// Only allow enable/disable on the main thread, just to keep things
	// simple.
	DCHECK([NSThread isMainThread]);

	// \|ZombieInit()\| was never called.
	if (!g_originalDeallocIMP)
	return;

	// Put back the original implementation of -[NSObject dealloc].
	Method m = class_getInstanceMethod([NSObject class], @selector(dealloc));
	DCHECK(m);
	method_setImplementation(m, g_originalDeallocIMP);

	// Can safely grab this because it only happens on the main thread.
	const size_t oldCount = g_zombieCount;
	ZombieRecord* oldZombies = g_zombies;

	{
	base::AutoLock pin(g_lock.Get()); // In case any -dealloc are in progress.
	g_zombieCount = 0;
	g_zombies = NULL;
	}

	// Free any remaining zombies.
	if (oldZombies) {
	for (size_t i = 0; i < oldCount; ++i) {
	if (oldZombies[i].object)
	object_dispose(oldZombies[i].object);
	}
	free(oldZombies);
	}
	}

	} // namespace ObjcEvilDoers