compiler-rt/lib/asan/tests/asan_mac_test_helpers.mm - llvm-project - Git at Google

 // Mac OS X 10.6 or higher only.
 #include <dispatch/dispatch.h>
 #include <pthread.h>  // for pthread_yield_np()
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <unistd.h>

 #import <CoreFoundation/CFBase.h>
 #import <Foundation/NSObject.h>
 #import <Foundation/NSURL.h>

 // This is a (void*)(void*) function so it can be passed to pthread_create.
 void *CFAllocatorDefaultDoubleFree(void *unused) {
   void *mem = CFAllocatorAllocate(kCFAllocatorDefault, 5, 0);
   CFAllocatorDeallocate(kCFAllocatorDefault, mem);
   CFAllocatorDeallocate(kCFAllocatorDefault, mem);
   return 0;
 }

 void CFAllocatorSystemDefaultDoubleFree() {
   void *mem = CFAllocatorAllocate(kCFAllocatorSystemDefault, 5, 0);
   CFAllocatorDeallocate(kCFAllocatorSystemDefault, mem);
   CFAllocatorDeallocate(kCFAllocatorSystemDefault, mem);
 }

 void CFAllocatorMallocDoubleFree() {
   void *mem = CFAllocatorAllocate(kCFAllocatorMalloc, 5, 0);
   CFAllocatorDeallocate(kCFAllocatorMalloc, mem);
   CFAllocatorDeallocate(kCFAllocatorMalloc, mem);
 }

 void CFAllocatorMallocZoneDoubleFree() {
   void *mem = CFAllocatorAllocate(kCFAllocatorMallocZone, 5, 0);
   CFAllocatorDeallocate(kCFAllocatorMallocZone, mem);
   CFAllocatorDeallocate(kCFAllocatorMallocZone, mem);
 }

 __attribute__((noinline))
 void access_memory(char *a) {
   *a = 0;
 }

 // Test the +load instrumentation.
 // Because the +load methods are invoked before anything else is initialized,
 // it makes little sense to wrap the code below into a gTest test case.
 // If AddressSanitizer doesn't instrument the +load method below correctly,
 // everything will just crash.

 char kStartupStr[] =
     "If your test didn't crash, AddressSanitizer is instrumenting "
     "the +load methods correctly.";

 @interface LoadSomething : NSObject {
 }
 @end

 @implementation LoadSomething

 +(void) load {
   for (size_t i = 0; i < strlen(kStartupStr); i++) {
     access_memory(&kStartupStr[i]);  // make sure no optimizations occur.
   }
   // Don't print anything here not to interfere with the death tests.
 }

 @end

 void worker_do_alloc(int size) {
   char * volatile mem = (char * volatile)malloc(size);
   mem[0] = 0; // Ok
   free(mem);
 }

 void worker_do_crash(int size) {
   char * volatile mem = (char * volatile)malloc(size);
   access_memory(&mem[size]);  // BOOM
   free(mem);
 }

 // Used by the GCD tests to avoid a race between the worker thread reporting a
 // memory error and the main thread which may exit with exit code 0 before
 // that.
 void wait_forever() {
   volatile bool infinite = true;
   while (infinite) pthread_yield_np();
 }

 // Tests for the Grand Central Dispatch. See
 // http://developer.apple.com/library/mac/#documentation/Performance/Reference/GCD_libdispatch_Ref/Reference/reference.html
 // for the reference.
 void TestGCDDispatchAsync() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_block_t block = ^{ worker_do_crash(1024); };
   // dispatch_async() runs the task on a worker thread that does not go through
   // pthread_create(). We need to verify that AddressSanitizer notices that the
   // thread has started.
   dispatch_async(queue, block);
   wait_forever();
 }

 void TestGCDDispatchSync() {
   dispatch_queue_t queue = dispatch_get_global_queue(2, 0);
   dispatch_block_t block = ^{ worker_do_crash(1024); };
   // dispatch_sync() runs the task on a worker thread that does not go through
   // pthread_create(). We need to verify that AddressSanitizer notices that the
   // thread has started.
   dispatch_sync(queue, block);
   wait_forever();
 }

 // libdispatch spawns a rather small number of threads and reuses them. We need
 // to make sure AddressSanitizer handles the reusing correctly.
 void TestGCDReuseWqthreadsAsync() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_block_t block_alloc = ^{ worker_do_alloc(1024); };
   dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
   for (int i = 0; i < 100; i++) {
     dispatch_async(queue, block_alloc);
   }
   dispatch_async(queue, block_crash);
   wait_forever();
 }

 // Try to trigger abnormal behaviour of dispatch_sync() being unhandled by us.
 void TestGCDReuseWqthreadsSync() {
   dispatch_queue_t queue[4];
   queue[0] = dispatch_get_global_queue(2, 0);
   queue[1] = dispatch_get_global_queue(0, 0);
   queue[2] = dispatch_get_global_queue(-2, 0);
   queue[3] = dispatch_queue_create("my_queue", NULL);
   dispatch_block_t block_alloc = ^{ worker_do_alloc(1024); };
   dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
   for (int i = 0; i < 1000; i++) {
     dispatch_sync(queue[i % 4], block_alloc);
   }
   dispatch_sync(queue[3], block_crash);
   wait_forever();
 }

 void TestGCDDispatchAfter() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
   // Schedule the event one second from the current time.
   dispatch_time_t milestone =
       dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);
   dispatch_after(milestone, queue, block_crash);
   wait_forever();
 }

 void worker_do_deallocate(void *ptr) {
   free(ptr);
 }

 void CallFreeOnWorkqueue(void *tsd) {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_block_t block_dealloc = ^{ worker_do_deallocate(tsd); };
   dispatch_async(queue, block_dealloc);
   // Do not wait for the worker to free the memory -- nobody is going to touch
   // it.
 }

 void TestGCDSourceEvent() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_source_t timer =
       dispatch_source_create(DISPATCH_SOURCE_TYPE_TIMER, 0, 0, queue);
   // Schedule the timer one second from the current time.
   dispatch_time_t milestone =
       dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);

   dispatch_source_set_timer(timer, milestone, DISPATCH_TIME_FOREVER, 0);
   char * volatile mem = (char * volatile)malloc(10);
   dispatch_source_set_event_handler(timer, ^{
     access_memory(&mem[10]);
   });
   dispatch_resume(timer);
   wait_forever();
 }

 void TestGCDSourceCancel() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_source_t timer =
       dispatch_source_create(DISPATCH_SOURCE_TYPE_TIMER, 0, 0, queue);
   // Schedule the timer one second from the current time.
   dispatch_time_t milestone =
       dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);

   dispatch_source_set_timer(timer, milestone, DISPATCH_TIME_FOREVER, 0);
   char * volatile mem = (char * volatile)malloc(10);
   // Both dispatch_source_set_cancel_handler() and
   // dispatch_source_set_event_handler() use dispatch_barrier_async_f().
   // It's tricky to test dispatch_source_set_cancel_handler() separately,
   // so we test both here.
   dispatch_source_set_event_handler(timer, ^{
     dispatch_source_cancel(timer);
   });
   dispatch_source_set_cancel_handler(timer, ^{
     access_memory(&mem[10]);
   });
   dispatch_resume(timer);
   wait_forever();
 }

 void TestGCDGroupAsync() {
   dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
   dispatch_group_t group = dispatch_group_create();
   char * volatile mem = (char * volatile)malloc(10);
   dispatch_group_async(group, queue, ^{
     access_memory(&mem[10]);
   });
   dispatch_group_wait(group, DISPATCH_TIME_FOREVER);
   wait_forever();
 }

 @interface FixedArray : NSObject {
   int items[10];
 }
 @end

 @implementation FixedArray
 -(int) access: (int)index {
   return items[index];
 }
 @end

 void TestOOBNSObjects() {
   id anObject = [FixedArray new];
   [anObject access:1];
   [anObject access:11];
   [anObject release];
 }

 void TestNSURLDeallocation() {
   NSURL *base =
       [[NSURL alloc] initWithString:@"file://localhost/Users/glider/Library/"];
   volatile NSURL *u =
       [[NSURL alloc] initWithString:@"Saved Application State"
                      relativeToURL:base];
   [u release];
   [base release];
 }
	// Mac OS X 10.6 or higher only.
	#include <dispatch/dispatch.h>
	#include <pthread.h> // for pthread_yield_np()
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <unistd.h>

	#import <CoreFoundation/CFBase.h>
	#import <Foundation/NSObject.h>
	#import <Foundation/NSURL.h>

	// This is a (void)(void) function so it can be passed to pthread_create.
	void CFAllocatorDefaultDoubleFree(void unused) {
	void *mem = CFAllocatorAllocate(kCFAllocatorDefault, 5, 0);
	CFAllocatorDeallocate(kCFAllocatorDefault, mem);
	CFAllocatorDeallocate(kCFAllocatorDefault, mem);
	return 0;
	}

	void CFAllocatorSystemDefaultDoubleFree() {
	void *mem = CFAllocatorAllocate(kCFAllocatorSystemDefault, 5, 0);
	CFAllocatorDeallocate(kCFAllocatorSystemDefault, mem);
	CFAllocatorDeallocate(kCFAllocatorSystemDefault, mem);
	}

	void CFAllocatorMallocDoubleFree() {
	void *mem = CFAllocatorAllocate(kCFAllocatorMalloc, 5, 0);
	CFAllocatorDeallocate(kCFAllocatorMalloc, mem);
	CFAllocatorDeallocate(kCFAllocatorMalloc, mem);
	}

	void CFAllocatorMallocZoneDoubleFree() {
	void *mem = CFAllocatorAllocate(kCFAllocatorMallocZone, 5, 0);
	CFAllocatorDeallocate(kCFAllocatorMallocZone, mem);
	CFAllocatorDeallocate(kCFAllocatorMallocZone, mem);
	}

	__attribute__((noinline))
	void access_memory(char *a) {
	*a = 0;
	}

	// Test the +load instrumentation.
	// Because the +load methods are invoked before anything else is initialized,
	// it makes little sense to wrap the code below into a gTest test case.
	// If AddressSanitizer doesn't instrument the +load method below correctly,
	// everything will just crash.

	char kStartupStr[] =
	"If your test didn't crash, AddressSanitizer is instrumenting "
	"the +load methods correctly.";

	@interface LoadSomething : NSObject {
	}
	@end

	@implementation LoadSomething

	+(void) load {
	for (size_t i = 0; i < strlen(kStartupStr); i++) {
	access_memory(&kStartupStr[i]); // make sure no optimizations occur.
	}
	// Don't print anything here not to interfere with the death tests.
	}

	@end

	void worker_do_alloc(int size) {
	char * volatile mem = (char * volatile)malloc(size);
	mem[0] = 0; // Ok
	free(mem);
	}

	void worker_do_crash(int size) {
	char * volatile mem = (char * volatile)malloc(size);
	access_memory(&mem[size]); // BOOM
	free(mem);
	}

	// Used by the GCD tests to avoid a race between the worker thread reporting a
	// memory error and the main thread which may exit with exit code 0 before
	// that.
	void wait_forever() {
	volatile bool infinite = true;
	while (infinite) pthread_yield_np();
	}

	// Tests for the Grand Central Dispatch. See
	// http://developer.apple.com/library/mac/#documentation/Performance/Reference/GCD_libdispatch_Ref/Reference/reference.html
	// for the reference.
	void TestGCDDispatchAsync() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_block_t block = ^{ worker_do_crash(1024); };
	// dispatch_async() runs the task on a worker thread that does not go through
	// pthread_create(). We need to verify that AddressSanitizer notices that the
	// thread has started.
	dispatch_async(queue, block);
	wait_forever();
	}

	void TestGCDDispatchSync() {
	dispatch_queue_t queue = dispatch_get_global_queue(2, 0);
	dispatch_block_t block = ^{ worker_do_crash(1024); };
	// dispatch_sync() runs the task on a worker thread that does not go through
	// pthread_create(). We need to verify that AddressSanitizer notices that the
	// thread has started.
	dispatch_sync(queue, block);
	wait_forever();
	}

	// libdispatch spawns a rather small number of threads and reuses them. We need
	// to make sure AddressSanitizer handles the reusing correctly.
	void TestGCDReuseWqthreadsAsync() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_block_t block_alloc = ^{ worker_do_alloc(1024); };
	dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
	for (int i = 0; i < 100; i++) {
	dispatch_async(queue, block_alloc);
	}
	dispatch_async(queue, block_crash);
	wait_forever();
	}

	// Try to trigger abnormal behaviour of dispatch_sync() being unhandled by us.
	void TestGCDReuseWqthreadsSync() {
	dispatch_queue_t queue[4];
	queue[0] = dispatch_get_global_queue(2, 0);
	queue[1] = dispatch_get_global_queue(0, 0);
	queue[2] = dispatch_get_global_queue(-2, 0);
	queue[3] = dispatch_queue_create("my_queue", NULL);
	dispatch_block_t block_alloc = ^{ worker_do_alloc(1024); };
	dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
	for (int i = 0; i < 1000; i++) {
	dispatch_sync(queue[i % 4], block_alloc);
	}
	dispatch_sync(queue[3], block_crash);
	wait_forever();
	}

	void TestGCDDispatchAfter() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_block_t block_crash = ^{ worker_do_crash(1024); };
	// Schedule the event one second from the current time.
	dispatch_time_t milestone =
	dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);
	dispatch_after(milestone, queue, block_crash);
	wait_forever();
	}

	void worker_do_deallocate(void *ptr) {
	free(ptr);
	}

	void CallFreeOnWorkqueue(void *tsd) {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_block_t block_dealloc = ^{ worker_do_deallocate(tsd); };
	dispatch_async(queue, block_dealloc);
	// Do not wait for the worker to free the memory -- nobody is going to touch
	// it.
	}

	void TestGCDSourceEvent() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_source_t timer =
	dispatch_source_create(DISPATCH_SOURCE_TYPE_TIMER, 0, 0, queue);
	// Schedule the timer one second from the current time.
	dispatch_time_t milestone =
	dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);

	dispatch_source_set_timer(timer, milestone, DISPATCH_TIME_FOREVER, 0);
	char * volatile mem = (char * volatile)malloc(10);
	dispatch_source_set_event_handler(timer, ^{
	access_memory(&mem[10]);
	});
	dispatch_resume(timer);
	wait_forever();
	}

	void TestGCDSourceCancel() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_source_t timer =
	dispatch_source_create(DISPATCH_SOURCE_TYPE_TIMER, 0, 0, queue);
	// Schedule the timer one second from the current time.
	dispatch_time_t milestone =
	dispatch_time(DISPATCH_TIME_NOW, 1LL * NSEC_PER_SEC);

	dispatch_source_set_timer(timer, milestone, DISPATCH_TIME_FOREVER, 0);
	char * volatile mem = (char * volatile)malloc(10);
	// Both dispatch_source_set_cancel_handler() and
	// dispatch_source_set_event_handler() use dispatch_barrier_async_f().
	// It's tricky to test dispatch_source_set_cancel_handler() separately,
	// so we test both here.
	dispatch_source_set_event_handler(timer, ^{
	dispatch_source_cancel(timer);
	});
	dispatch_source_set_cancel_handler(timer, ^{
	access_memory(&mem[10]);
	});
	dispatch_resume(timer);
	wait_forever();
	}

	void TestGCDGroupAsync() {
	dispatch_queue_t queue = dispatch_get_global_queue(0, 0);
	dispatch_group_t group = dispatch_group_create();
	char * volatile mem = (char * volatile)malloc(10);
	dispatch_group_async(group, queue, ^{
	access_memory(&mem[10]);
	});
	dispatch_group_wait(group, DISPATCH_TIME_FOREVER);
	wait_forever();
	}

	@interface FixedArray : NSObject {
	int items[10];
	}
	@end

	@implementation FixedArray
	-(int) access: (int)index {
	return items[index];
	}
	@end

	void TestOOBNSObjects() {
	id anObject = [FixedArray new];
	[anObject access:1];
	[anObject access:11];
	[anObject release];
	}

	void TestNSURLDeallocation() {
	NSURL *base =
	[[NSURL alloc] initWithString:@"file://localhost/Users/glider/Library/"];
	volatile NSURL *u =
	[[NSURL alloc] initWithString:@"Saved Application State"
	relativeToURL:base];
	[u release];
	[base release];
	}