test/Analysis/stack-capture-leak-arc.mm - llvm-project/clang - Git at Google

 // RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin10 -analyzer-checker=core,alpha.core.StackAddressAsyncEscape -fblocks -fobjc-arc -verify %s

 typedef struct dispatch_queue_s *dispatch_queue_t;
 typedef void (^dispatch_block_t)(void);
 void dispatch_async(dispatch_queue_t queue, dispatch_block_t block);
 typedef long dispatch_once_t;
 void dispatch_once(dispatch_once_t *predicate, dispatch_block_t block);
 typedef long dispatch_time_t;
 void dispatch_after(dispatch_time_t when, dispatch_queue_t queue, dispatch_block_t block);
 void dispatch_barrier_sync(dispatch_queue_t queue, dispatch_block_t block);

 extern dispatch_queue_t queue;
 extern dispatch_once_t *predicate;
 extern dispatch_time_t when;

 void test_block_expr_async() {
   int x = 123;
   int *p = &x;

   dispatch_async(queue, ^{
     *p = 321;
   });
   // expected-warning@-3 {{Address of stack memory associated with local variable 'x' \
 is captured by an asynchronously-executed block}}
 }

 void test_block_expr_once_no_leak() {
   int x = 123;
   int *p = &x;
   // synchronous, no warning
   dispatch_once(predicate, ^{
     *p = 321;
   });
 }

 void test_block_expr_after() {
   int x = 123;
   int *p = &x;
   dispatch_after(when, queue, ^{
     *p = 321;
   });
   // expected-warning@-3 {{Address of stack memory associated with local variable 'x' \
 is captured by an asynchronously-executed block}}
 }

 void test_block_expr_async_no_leak() {
   int x = 123;
   int *p = &x;
   // no leak
   dispatch_async(queue, ^{
     int y = x;
     ++y;
   });
 }

 void test_block_var_async() {
   int x = 123;
   int *p = &x;
   void (^b)(void) = ^void(void) {
     *p = 1;
   };
   dispatch_async(queue, b);
   // expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
 is captured by an asynchronously-executed block}}
 }

 void test_block_with_ref_async() {
   int x = 123;
   int &r = x;
   void (^b)(void) = ^void(void) {
     r = 1;
   };
   dispatch_async(queue, b);
   // expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
 is captured by an asynchronously-executed block}}
 }

 dispatch_block_t get_leaking_block() {
   int leaked_x = 791;
   int *p = &leaked_x;
   return ^void(void) {
     *p = 1;
   };
   // expected-warning@-3 {{Address of stack memory associated with local variable 'leaked_x' \
 is captured by a returned block}}
 }

 void test_returned_from_func_block_async() {
   dispatch_async(queue, get_leaking_block());
   // expected-warning@-1 {{Address of stack memory associated with local variable 'leaked_x' \
 is captured by an asynchronously-executed block}}
 }

 // synchronous, no leak
 void test_block_var_once() {
   int x = 123;
   int *p = &x;
   void (^b)(void) = ^void(void) {
     *p = 1;
   };
   dispatch_once(predicate, b); // no-warning
 }

 void test_block_var_after() {
   int x = 123;
   int *p = &x;
   void (^b)(void) = ^void(void) {
     *p = 1;
   };
   dispatch_after(when, queue, b);
   // expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
 is captured by an asynchronously-executed block}}
 }

 void test_block_var_async_no_leak() {
   int x = 123;
   int *p = &x;
   void (^b)(void) = ^void(void) {
     int y = x;
     ++y;
   };
   dispatch_async(queue, b); // no-warning
 }

 void test_block_inside_block_async_no_leak() {
   int x = 123;
   int *p = &x;
   void (^inner)(void) = ^void(void) {
     int y = x;
     ++y;
   };
   void (^outer)(void) = ^void(void) {
     int z = x;
     ++z;
     inner();
   };
   dispatch_async(queue, outer); // no-warning
 }

 dispatch_block_t accept_and_pass_back_block(dispatch_block_t block) {
   block();
   return block; // no-warning
 }

 void test_passing_continuation_no_leak() {
   int x = 123;
   int *p = &x;
   void (^cont)(void) = ^void(void) {
     *p = 128;
   };
   accept_and_pass_back_block(cont); // no-warning
 }

 @interface NSObject
 @end
 @protocol OS_dispatch_semaphore
 @end
 typedef NSObject<OS_dispatch_semaphore> *dispatch_semaphore_t;
 dispatch_semaphore_t dispatch_semaphore_create(long value);
 long dispatch_semaphore_wait(dispatch_semaphore_t dsema, dispatch_time_t timeout);
 long dispatch_semaphore_signal(dispatch_semaphore_t dsema);

 void test_no_leaks_on_semaphore_pattern() {
   int x = 0;
   int *p = &x;
   dispatch_semaphore_t semaphore = dispatch_semaphore_create(0);
   dispatch_async(queue, ^{
     *p = 1;
     // Some work.
     dispatch_semaphore_signal(semaphore);
   }); // no-warning

   // Do some other work concurrently with the asynchronous work
   // Wait for the asynchronous work to finish
   dispatch_semaphore_wait(semaphore, 1000);
 }

 void test_dispatch_barrier_sync() {
   int buf[16];
   for (int n = 0; n < 16; ++n) {
     int *ptr = &buf[n];
     // FIXME: Should not warn. The dispatch_barrier_sync() call ensures
     // that the block does not outlive 'buf'.
     dispatch_async(queue, ^{ // expected-warning{{Address of stack memory associated with local variable 'buf' is captured by an asynchronously-executed block}}
       (void)ptr;
     });
   }
   dispatch_barrier_sync(queue, ^{});
 }
	// RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin10 -analyzer-checker=core,alpha.core.StackAddressAsyncEscape -fblocks -fobjc-arc -verify %s

	typedef struct dispatch_queue_s *dispatch_queue_t;
	typedef void (^dispatch_block_t)(void);
	void dispatch_async(dispatch_queue_t queue, dispatch_block_t block);
	typedef long dispatch_once_t;
	void dispatch_once(dispatch_once_t *predicate, dispatch_block_t block);
	typedef long dispatch_time_t;
	void dispatch_after(dispatch_time_t when, dispatch_queue_t queue, dispatch_block_t block);
	void dispatch_barrier_sync(dispatch_queue_t queue, dispatch_block_t block);

	extern dispatch_queue_t queue;
	extern dispatch_once_t *predicate;
	extern dispatch_time_t when;

	void test_block_expr_async() {
	int x = 123;
	int *p = &x;

	dispatch_async(queue, ^{
	*p = 321;
	});
	// expected-warning@-3 {{Address of stack memory associated with local variable 'x' \
	is captured by an asynchronously-executed block}}
	}

	void test_block_expr_once_no_leak() {
	int x = 123;
	int *p = &x;
	// synchronous, no warning
	dispatch_once(predicate, ^{
	*p = 321;
	});
	}

	void test_block_expr_after() {
	int x = 123;
	int *p = &x;
	dispatch_after(when, queue, ^{
	*p = 321;
	});
	// expected-warning@-3 {{Address of stack memory associated with local variable 'x' \
	is captured by an asynchronously-executed block}}
	}

	void test_block_expr_async_no_leak() {
	int x = 123;
	int *p = &x;
	// no leak
	dispatch_async(queue, ^{
	int y = x;
	++y;
	});
	}

	void test_block_var_async() {
	int x = 123;
	int *p = &x;
	void (^b)(void) = ^void(void) {
	*p = 1;
	};
	dispatch_async(queue, b);
	// expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
	is captured by an asynchronously-executed block}}
	}

	void test_block_with_ref_async() {
	int x = 123;
	int &r = x;
	void (^b)(void) = ^void(void) {
	r = 1;
	};
	dispatch_async(queue, b);
	// expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
	is captured by an asynchronously-executed block}}
	}

	dispatch_block_t get_leaking_block() {
	int leaked_x = 791;
	int *p = &leaked_x;
	return ^void(void) {
	*p = 1;
	};
	// expected-warning@-3 {{Address of stack memory associated with local variable 'leaked_x' \
	is captured by a returned block}}
	}

	void test_returned_from_func_block_async() {
	dispatch_async(queue, get_leaking_block());
	// expected-warning@-1 {{Address of stack memory associated with local variable 'leaked_x' \
	is captured by an asynchronously-executed block}}
	}

	// synchronous, no leak
	void test_block_var_once() {
	int x = 123;
	int *p = &x;
	void (^b)(void) = ^void(void) {
	*p = 1;
	};
	dispatch_once(predicate, b); // no-warning
	}

	void test_block_var_after() {
	int x = 123;
	int *p = &x;
	void (^b)(void) = ^void(void) {
	*p = 1;
	};
	dispatch_after(when, queue, b);
	// expected-warning@-1 {{Address of stack memory associated with local variable 'x' \
	is captured by an asynchronously-executed block}}
	}

	void test_block_var_async_no_leak() {
	int x = 123;
	int *p = &x;
	void (^b)(void) = ^void(void) {
	int y = x;
	++y;
	};
	dispatch_async(queue, b); // no-warning
	}

	void test_block_inside_block_async_no_leak() {
	int x = 123;
	int *p = &x;
	void (^inner)(void) = ^void(void) {
	int y = x;
	++y;
	};
	void (^outer)(void) = ^void(void) {
	int z = x;
	++z;
	inner();
	};
	dispatch_async(queue, outer); // no-warning
	}

	dispatch_block_t accept_and_pass_back_block(dispatch_block_t block) {
	block();
	return block; // no-warning
	}

	void test_passing_continuation_no_leak() {
	int x = 123;
	int *p = &x;
	void (^cont)(void) = ^void(void) {
	*p = 128;
	};
	accept_and_pass_back_block(cont); // no-warning
	}

	@interface NSObject
	@end
	@protocol OS_dispatch_semaphore
	@end
	typedef NSObject<OS_dispatch_semaphore> *dispatch_semaphore_t;
	dispatch_semaphore_t dispatch_semaphore_create(long value);
	long dispatch_semaphore_wait(dispatch_semaphore_t dsema, dispatch_time_t timeout);
	long dispatch_semaphore_signal(dispatch_semaphore_t dsema);

	void test_no_leaks_on_semaphore_pattern() {
	int x = 0;
	int *p = &x;
	dispatch_semaphore_t semaphore = dispatch_semaphore_create(0);
	dispatch_async(queue, ^{
	*p = 1;
	// Some work.
	dispatch_semaphore_signal(semaphore);
	}); // no-warning

	// Do some other work concurrently with the asynchronous work
	// Wait for the asynchronous work to finish
	dispatch_semaphore_wait(semaphore, 1000);
	}

	void test_dispatch_barrier_sync() {
	int buf[16];
	for (int n = 0; n < 16; ++n) {
	int *ptr = &buf[n];
	// FIXME: Should not warn. The dispatch_barrier_sync() call ensures
	// that the block does not outlive 'buf'.
	dispatch_async(queue, ^{ // expected-warning{{Address of stack memory associated with local variable 'buf' is captured by an asynchronously-executed block}}
	(void)ptr;
	});
	}
	dispatch_barrier_sync(queue, ^{});
	}