compiler-rt/test/dfsan/label_count.c - nest-cam/4320010/compiler-rt - Git at Google

 // RUN: %clang_dfsan -DLIB -c %s -o %t.lib.o && \
 // RUN: %clang_dfsan       -c %s -o %t.o && \
 // RUN: %clang_dfsan %t.lib.o %t.o -o %t.bin && \
 // RUN: %run %t.bin

 // RUN: %clang_dfsan -mllvm -dfsan-args-abi -DLIB -c %s -o %t.lib.o && \
 // RUN: %clang_dfsan -mllvm -dfsan-args-abi -c %s -o %t.o && \
 // RUN: %clang_dfsan -mllvm -dfsan-args-abi %t.o %t.lib.o -o %t.bin && \
 // RUN: %run %t.bin

 #include <sanitizer/dfsan_interface.h>
 #include <assert.h>

 #ifdef LIB
 // Compiling this file with and without LIB defined allows this file to be
 // built as two separate translation units.  This ensures that the code
 // can not be optimized in a way that removes behavior we wish to test.  For
 // example, computing a value should cause labels to be allocated only if
 // the computation is actually done.  Putting the computation here prevents
 // the compiler from optimizing away the computation (and labeling) that
 // tests wish to verify.

 int add_in_separate_translation_unit(int a, int b) {
   return a + b;
 }

 int multiply_in_separate_translation_unit(int a, int b) {
   return a * b;
 }

 #else

 int add_in_separate_translation_unit(int i, int j);
 int multiply_in_separate_translation_unit(int i, int j);

 int main(void) {
   size_t label_count;

   // No labels allocated yet.
   label_count = dfsan_get_label_count();
   assert(0 == label_count);

   int i = 1;
   dfsan_label i_label = dfsan_create_label("i", 0);
   dfsan_set_label(i_label, &i, sizeof(i));

   // One label allocated for i.
   label_count = dfsan_get_label_count();
   assert(1u == label_count);

   int j = 2;
   dfsan_label j_label = dfsan_create_label("j", 0);
   dfsan_set_label(j_label, &j, sizeof(j));

   // Check that a new label was allocated for j.
   label_count = dfsan_get_label_count();
   assert(2u == label_count);

   // Create a value that combines i and j.
   int i_plus_j = add_in_separate_translation_unit(i, j);

   // Check that a label was created for the union of i and j.
   label_count = dfsan_get_label_count();
   assert(3u == label_count);

   // Combine i and j in a different way.  Check that the existing label is
   // reused, and a new label is not created.
   int j_times_i = multiply_in_separate_translation_unit(j, i);
   label_count = dfsan_get_label_count();
   assert(3u == label_count);
   assert(dfsan_get_label(i_plus_j) == dfsan_get_label(j_times_i));

   return 0;
 }
 #endif  // #ifdef LIB
	// RUN: %clang_dfsan -DLIB -c %s -o %t.lib.o && \
	// RUN: %clang_dfsan -c %s -o %t.o && \
	// RUN: %clang_dfsan %t.lib.o %t.o -o %t.bin && \
	// RUN: %run %t.bin

	// RUN: %clang_dfsan -mllvm -dfsan-args-abi -DLIB -c %s -o %t.lib.o && \
	// RUN: %clang_dfsan -mllvm -dfsan-args-abi -c %s -o %t.o && \
	// RUN: %clang_dfsan -mllvm -dfsan-args-abi %t.o %t.lib.o -o %t.bin && \
	// RUN: %run %t.bin

	#include <sanitizer/dfsan_interface.h>
	#include <assert.h>

	#ifdef LIB
	// Compiling this file with and without LIB defined allows this file to be
	// built as two separate translation units. This ensures that the code
	// can not be optimized in a way that removes behavior we wish to test. For
	// example, computing a value should cause labels to be allocated only if
	// the computation is actually done. Putting the computation here prevents
	// the compiler from optimizing away the computation (and labeling) that
	// tests wish to verify.

	int add_in_separate_translation_unit(int a, int b) {
	return a + b;
	}

	int multiply_in_separate_translation_unit(int a, int b) {
	return a * b;
	}

	#else

	int add_in_separate_translation_unit(int i, int j);
	int multiply_in_separate_translation_unit(int i, int j);

	int main(void) {
	size_t label_count;

	// No labels allocated yet.
	label_count = dfsan_get_label_count();
	assert(0 == label_count);

	int i = 1;
	dfsan_label i_label = dfsan_create_label("i", 0);
	dfsan_set_label(i_label, &i, sizeof(i));

	// One label allocated for i.
	label_count = dfsan_get_label_count();
	assert(1u == label_count);

	int j = 2;
	dfsan_label j_label = dfsan_create_label("j", 0);
	dfsan_set_label(j_label, &j, sizeof(j));

	// Check that a new label was allocated for j.
	label_count = dfsan_get_label_count();
	assert(2u == label_count);

	// Create a value that combines i and j.
	int i_plus_j = add_in_separate_translation_unit(i, j);

	// Check that a label was created for the union of i and j.
	label_count = dfsan_get_label_count();
	assert(3u == label_count);

	// Combine i and j in a different way. Check that the existing label is
	// reused, and a new label is not created.
	int j_times_i = multiply_in_separate_translation_unit(j, i);
	label_count = dfsan_get_label_count();
	assert(3u == label_count);
	assert(dfsan_get_label(i_plus_j) == dfsan_get_label(j_times_i));

	return 0;
	}
	#endif // #ifdef LIB