forked from OSchip/llvm-project
273 lines
7.9 KiB
C++
273 lines
7.9 KiB
C++
//===-- asan_noinst_test.cc -----------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of AddressSanitizer, an address sanity checker.
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//
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// This test file should be compiled w/o asan instrumentation.
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//===----------------------------------------------------------------------===//
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#include "asan_allocator.h"
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#include "asan_internal.h"
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#include "asan_mapping.h"
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#include "asan_test_utils.h"
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#include <sanitizer/allocator_interface.h>
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#include <assert.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h> // for memset()
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#include <algorithm>
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#include <vector>
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#include <limits>
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using namespace __sanitizer;
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// ATTENTION!
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// Please don't call intercepted functions (including malloc() and friends)
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// in this test. The static runtime library is linked explicitly (without
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// -fsanitize=address), thus the interceptors do not work correctly on OS X.
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// Make sure __asan_init is called before any test case is run.
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struct AsanInitCaller {
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AsanInitCaller() {
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__asan_init();
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}
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};
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static AsanInitCaller asan_init_caller;
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TEST(AddressSanitizer, InternalSimpleDeathTest) {
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EXPECT_DEATH(exit(1), "");
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}
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static void MallocStress(size_t n) {
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u32 seed = my_rand();
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BufferedStackTrace stack1;
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stack1.trace_buffer[0] = 0xa123;
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stack1.trace_buffer[1] = 0xa456;
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stack1.size = 2;
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BufferedStackTrace stack2;
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stack2.trace_buffer[0] = 0xb123;
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stack2.trace_buffer[1] = 0xb456;
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stack2.size = 2;
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BufferedStackTrace stack3;
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stack3.trace_buffer[0] = 0xc123;
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stack3.trace_buffer[1] = 0xc456;
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stack3.size = 2;
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std::vector<void *> vec;
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for (size_t i = 0; i < n; i++) {
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if ((i % 3) == 0) {
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if (vec.empty()) continue;
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size_t idx = my_rand_r(&seed) % vec.size();
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void *ptr = vec[idx];
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vec[idx] = vec.back();
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vec.pop_back();
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__asan::asan_free(ptr, &stack1, __asan::FROM_MALLOC);
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} else {
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size_t size = my_rand_r(&seed) % 1000 + 1;
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switch ((my_rand_r(&seed) % 128)) {
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case 0: size += 1024; break;
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case 1: size += 2048; break;
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case 2: size += 4096; break;
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}
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size_t alignment = 1 << (my_rand_r(&seed) % 10 + 1);
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char *ptr = (char*)__asan::asan_memalign(alignment, size,
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&stack2, __asan::FROM_MALLOC);
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EXPECT_EQ(size, __asan::asan_malloc_usable_size(ptr, 0, 0));
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vec.push_back(ptr);
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ptr[0] = 0;
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ptr[size-1] = 0;
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ptr[size/2] = 0;
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}
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}
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for (size_t i = 0; i < vec.size(); i++)
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__asan::asan_free(vec[i], &stack3, __asan::FROM_MALLOC);
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}
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TEST(AddressSanitizer, NoInstMallocTest) {
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MallocStress(ASAN_LOW_MEMORY ? 300000 : 1000000);
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}
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TEST(AddressSanitizer, ThreadedMallocStressTest) {
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const int kNumThreads = 4;
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const int kNumIterations = (ASAN_LOW_MEMORY) ? 10000 : 100000;
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pthread_t t[kNumThreads];
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for (int i = 0; i < kNumThreads; i++) {
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PTHREAD_CREATE(&t[i], 0, (void* (*)(void *x))MallocStress,
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(void*)kNumIterations);
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}
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for (int i = 0; i < kNumThreads; i++) {
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PTHREAD_JOIN(t[i], 0);
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}
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}
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static void PrintShadow(const char *tag, uptr ptr, size_t size) {
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fprintf(stderr, "%s shadow: %lx size % 3ld: ", tag, (long)ptr, (long)size);
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uptr prev_shadow = 0;
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for (sptr i = -32; i < (sptr)size + 32; i++) {
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uptr shadow = __asan::MemToShadow(ptr + i);
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if (i == 0 || i == (sptr)size)
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fprintf(stderr, ".");
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if (shadow != prev_shadow) {
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prev_shadow = shadow;
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fprintf(stderr, "%02x", (int)*(u8*)shadow);
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}
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}
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fprintf(stderr, "\n");
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}
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TEST(AddressSanitizer, DISABLED_InternalPrintShadow) {
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for (size_t size = 1; size <= 513; size++) {
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char *ptr = new char[size];
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PrintShadow("m", (uptr)ptr, size);
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delete [] ptr;
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PrintShadow("f", (uptr)ptr, size);
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}
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}
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TEST(AddressSanitizer, QuarantineTest) {
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BufferedStackTrace stack;
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stack.trace_buffer[0] = 0x890;
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stack.size = 1;
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const int size = 1024;
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void *p = __asan::asan_malloc(size, &stack);
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__asan::asan_free(p, &stack, __asan::FROM_MALLOC);
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size_t i;
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size_t max_i = 1 << 30;
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for (i = 0; i < max_i; i++) {
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void *p1 = __asan::asan_malloc(size, &stack);
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__asan::asan_free(p1, &stack, __asan::FROM_MALLOC);
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if (p1 == p) break;
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}
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EXPECT_GE(i, 10000U);
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EXPECT_LT(i, max_i);
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}
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#if !defined(__NetBSD__)
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void *ThreadedQuarantineTestWorker(void *unused) {
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(void)unused;
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u32 seed = my_rand();
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BufferedStackTrace stack;
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stack.trace_buffer[0] = 0x890;
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stack.size = 1;
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for (size_t i = 0; i < 1000; i++) {
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void *p = __asan::asan_malloc(1 + (my_rand_r(&seed) % 4000), &stack);
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__asan::asan_free(p, &stack, __asan::FROM_MALLOC);
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}
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return NULL;
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}
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// Check that the thread local allocators are flushed when threads are
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// destroyed.
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TEST(AddressSanitizer, ThreadedQuarantineTest) {
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// Run the routine once to warm up ASAN internal structures to get more
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// predictable incremental memory changes.
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pthread_t t;
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PTHREAD_CREATE(&t, NULL, ThreadedQuarantineTestWorker, 0);
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PTHREAD_JOIN(t, 0);
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const int n_threads = 3000;
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size_t mmaped1 = __sanitizer_get_heap_size();
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for (int i = 0; i < n_threads; i++) {
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pthread_t t;
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PTHREAD_CREATE(&t, NULL, ThreadedQuarantineTestWorker, 0);
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PTHREAD_JOIN(t, 0);
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size_t mmaped2 = __sanitizer_get_heap_size();
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// Figure out why this much memory is required.
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EXPECT_LT(mmaped2 - mmaped1, 320U * (1 << 20));
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}
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}
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#endif
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void *ThreadedOneSizeMallocStress(void *unused) {
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(void)unused;
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BufferedStackTrace stack;
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stack.trace_buffer[0] = 0x890;
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stack.size = 1;
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const size_t kNumMallocs = 1000;
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for (int iter = 0; iter < 1000; iter++) {
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void *p[kNumMallocs];
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for (size_t i = 0; i < kNumMallocs; i++) {
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p[i] = __asan::asan_malloc(32, &stack);
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}
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for (size_t i = 0; i < kNumMallocs; i++) {
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__asan::asan_free(p[i], &stack, __asan::FROM_MALLOC);
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}
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}
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return NULL;
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}
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TEST(AddressSanitizer, ThreadedOneSizeMallocStressTest) {
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const int kNumThreads = 4;
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pthread_t t[kNumThreads];
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for (int i = 0; i < kNumThreads; i++) {
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PTHREAD_CREATE(&t[i], 0, ThreadedOneSizeMallocStress, 0);
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}
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for (int i = 0; i < kNumThreads; i++) {
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PTHREAD_JOIN(t[i], 0);
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}
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}
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TEST(AddressSanitizer, ShadowRegionIsPoisonedTest) {
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using __asan::kHighMemEnd;
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// Check that __asan_region_is_poisoned works for shadow regions.
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uptr ptr = kLowShadowBeg + 200;
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EXPECT_EQ(ptr, __asan_region_is_poisoned(ptr, 100));
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ptr = kShadowGapBeg + 200;
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EXPECT_EQ(ptr, __asan_region_is_poisoned(ptr, 100));
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ptr = kHighShadowBeg + 200;
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EXPECT_EQ(ptr, __asan_region_is_poisoned(ptr, 100));
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}
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// Test __asan_load1 & friends.
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TEST(AddressSanitizer, LoadStoreCallbacks) {
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typedef void (*CB)(uptr p);
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CB cb[2][5] = {
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{
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__asan_load1, __asan_load2, __asan_load4, __asan_load8, __asan_load16,
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}, {
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__asan_store1, __asan_store2, __asan_store4, __asan_store8,
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__asan_store16,
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}
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};
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uptr buggy_ptr;
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__asan_test_only_reported_buggy_pointer = &buggy_ptr;
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BufferedStackTrace stack;
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stack.trace_buffer[0] = 0x890;
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stack.size = 1;
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for (uptr len = 16; len <= 32; len++) {
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char *ptr = (char*) __asan::asan_malloc(len, &stack);
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uptr p = reinterpret_cast<uptr>(ptr);
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for (uptr is_write = 0; is_write <= 1; is_write++) {
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for (uptr size_log = 0; size_log <= 4; size_log++) {
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uptr size = 1 << size_log;
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CB call = cb[is_write][size_log];
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// Iterate only size-aligned offsets.
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for (uptr offset = 0; offset <= len; offset += size) {
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buggy_ptr = 0;
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call(p + offset);
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if (offset + size <= len)
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EXPECT_EQ(buggy_ptr, 0U);
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else
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EXPECT_EQ(buggy_ptr, p + offset);
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}
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}
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}
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__asan::asan_free(ptr, &stack, __asan::FROM_MALLOC);
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}
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__asan_test_only_reported_buggy_pointer = 0;
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}
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