Re-land: content: Refactor GPU memory buffer framework.
[chromium-blink-merge.git] / base / security_unittest.cc
blobd786273c023aa1fbdf33c834f718d07eab057656
1 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <fcntl.h>
6 #include <stdio.h>
7 #include <stdlib.h>
8 #include <string.h>
9 #include <sys/stat.h>
10 #include <sys/types.h>
12 #include <algorithm>
13 #include <limits>
15 #include "base/files/file_util.h"
16 #include "base/logging.h"
17 #include "base/memory/scoped_ptr.h"
18 #include "build/build_config.h"
19 #include "testing/gtest/include/gtest/gtest.h"
21 #if defined(OS_POSIX)
22 #include <sys/mman.h>
23 #include <unistd.h>
24 #endif
26 using std::nothrow;
27 using std::numeric_limits;
29 namespace {
31 // This function acts as a compiler optimization barrier. We use it to
32 // prevent the compiler from making an expression a compile-time constant.
33 // We also use it so that the compiler doesn't discard certain return values
34 // as something we don't need (see the comment with calloc below).
35 template <typename Type>
36 Type HideValueFromCompiler(volatile Type value) {
37 #if defined(__GNUC__)
38 // In a GCC compatible compiler (GCC or Clang), make this compiler barrier
39 // more robust than merely using "volatile".
40 __asm__ volatile ("" : "+r" (value));
41 #endif // __GNUC__
42 return value;
45 // - NO_TCMALLOC (should be defined if compiled with use_allocator!="tcmalloc")
46 // - ADDRESS_SANITIZER and SYZYASAN because they have their own memory allocator
47 // - IOS does not use tcmalloc
48 // - OS_MACOSX does not use tcmalloc
49 #if !defined(NO_TCMALLOC) && !defined(ADDRESS_SANITIZER) && \
50 !defined(OS_IOS) && !defined(OS_MACOSX) && !defined(SYZYASAN)
51 #define TCMALLOC_TEST(function) function
52 #else
53 #define TCMALLOC_TEST(function) DISABLED_##function
54 #endif
56 // TODO(jln): switch to std::numeric_limits<int>::max() when we switch to
57 // C++11.
58 const size_t kTooBigAllocSize = INT_MAX;
60 // Detect runtime TCMalloc bypasses.
61 bool IsTcMallocBypassed() {
62 #if defined(OS_LINUX)
63 // This should detect a TCMalloc bypass from Valgrind.
64 char* g_slice = getenv("G_SLICE");
65 if (g_slice && !strcmp(g_slice, "always-malloc"))
66 return true;
67 #elif defined(OS_WIN)
68 // This should detect a TCMalloc bypass from setting
69 // the CHROME_ALLOCATOR environment variable.
70 char* allocator = getenv("CHROME_ALLOCATOR");
71 if (allocator && strcmp(allocator, "tcmalloc"))
72 return true;
73 #endif
74 return false;
77 bool CallocDiesOnOOM() {
78 // The sanitizers' calloc dies on OOM instead of returning NULL.
79 // The wrapper function in base/process_util_linux.cc that is used when we
80 // compile without TCMalloc will just die on OOM instead of returning NULL.
81 #if defined(ADDRESS_SANITIZER) || \
82 defined(MEMORY_SANITIZER) || \
83 defined(THREAD_SANITIZER) || \
84 (defined(OS_LINUX) && defined(NO_TCMALLOC))
85 return true;
86 #else
87 return false;
88 #endif
91 // Fake test that allow to know the state of TCMalloc by looking at bots.
92 TEST(SecurityTest, TCMALLOC_TEST(IsTCMallocDynamicallyBypassed)) {
93 printf("Malloc is dynamically bypassed: %s\n",
94 IsTcMallocBypassed() ? "yes." : "no.");
97 // The MemoryAllocationRestrictions* tests test that we can not allocate a
98 // memory range that cannot be indexed via an int. This is used to mitigate
99 // vulnerabilities in libraries that use int instead of size_t. See
100 // crbug.com/169327.
102 TEST(SecurityTest, TCMALLOC_TEST(MemoryAllocationRestrictionsMalloc)) {
103 if (!IsTcMallocBypassed()) {
104 scoped_ptr<char, base::FreeDeleter> ptr(static_cast<char*>(
105 HideValueFromCompiler(malloc(kTooBigAllocSize))));
106 ASSERT_TRUE(!ptr);
110 TEST(SecurityTest, TCMALLOC_TEST(MemoryAllocationRestrictionsCalloc)) {
111 if (!IsTcMallocBypassed()) {
112 scoped_ptr<char, base::FreeDeleter> ptr(static_cast<char*>(
113 HideValueFromCompiler(calloc(kTooBigAllocSize, 1))));
114 ASSERT_TRUE(!ptr);
118 TEST(SecurityTest, TCMALLOC_TEST(MemoryAllocationRestrictionsRealloc)) {
119 if (!IsTcMallocBypassed()) {
120 char* orig_ptr = static_cast<char*>(malloc(1));
121 ASSERT_TRUE(orig_ptr);
122 scoped_ptr<char, base::FreeDeleter> ptr(static_cast<char*>(
123 HideValueFromCompiler(realloc(orig_ptr, kTooBigAllocSize))));
124 ASSERT_TRUE(!ptr);
125 // If realloc() did not succeed, we need to free orig_ptr.
126 free(orig_ptr);
130 typedef struct {
131 char large_array[kTooBigAllocSize];
132 } VeryLargeStruct;
134 TEST(SecurityTest, TCMALLOC_TEST(MemoryAllocationRestrictionsNew)) {
135 if (!IsTcMallocBypassed()) {
136 scoped_ptr<VeryLargeStruct> ptr(
137 HideValueFromCompiler(new (nothrow) VeryLargeStruct));
138 ASSERT_TRUE(!ptr);
142 TEST(SecurityTest, TCMALLOC_TEST(MemoryAllocationRestrictionsNewArray)) {
143 if (!IsTcMallocBypassed()) {
144 scoped_ptr<char[]> ptr(
145 HideValueFromCompiler(new (nothrow) char[kTooBigAllocSize]));
146 ASSERT_TRUE(!ptr);
150 // The tests bellow check for overflows in new[] and calloc().
152 // There are platforms where these tests are known to fail. We would like to
153 // be able to easily check the status on the bots, but marking tests as
154 // FAILS_ is too clunky.
155 void OverflowTestsSoftExpectTrue(bool overflow_detected) {
156 if (!overflow_detected) {
157 #if defined(OS_LINUX) || defined(OS_ANDROID) || defined(OS_MACOSX)
158 // Sadly, on Linux, Android, and OSX we don't have a good story yet. Don't
159 // fail the test, but report.
160 printf("Platform has overflow: %s\n",
161 !overflow_detected ? "yes." : "no.");
162 #else
163 // Otherwise, fail the test. (Note: EXPECT are ok in subfunctions, ASSERT
164 // aren't).
165 EXPECT_TRUE(overflow_detected);
166 #endif
170 #if defined(OS_IOS) || defined(OS_WIN) || defined(THREAD_SANITIZER) || defined(OS_MACOSX)
171 #define MAYBE_NewOverflow DISABLED_NewOverflow
172 #else
173 #define MAYBE_NewOverflow NewOverflow
174 #endif
175 // Test array[TooBig][X] and array[X][TooBig] allocations for int overflows.
176 // IOS doesn't honor nothrow, so disable the test there.
177 // Crashes on Windows Dbg builds, disable there as well.
178 // Fails on Mac 10.8 http://crbug.com/227092
179 TEST(SecurityTest, MAYBE_NewOverflow) {
180 const size_t kArraySize = 4096;
181 // We want something "dynamic" here, so that the compiler doesn't
182 // immediately reject crazy arrays.
183 const size_t kDynamicArraySize = HideValueFromCompiler(kArraySize);
184 // numeric_limits are still not constexpr until we switch to C++11, so we
185 // use an ugly cast.
186 const size_t kMaxSizeT = ~static_cast<size_t>(0);
187 ASSERT_EQ(numeric_limits<size_t>::max(), kMaxSizeT);
188 const size_t kArraySize2 = kMaxSizeT / kArraySize + 10;
189 const size_t kDynamicArraySize2 = HideValueFromCompiler(kArraySize2);
191 scoped_ptr<char[][kArraySize]> array_pointer(new (nothrow)
192 char[kDynamicArraySize2][kArraySize]);
193 OverflowTestsSoftExpectTrue(!array_pointer);
195 // On windows, the compiler prevents static array sizes of more than
196 // 0x7fffffff (error C2148).
197 #if defined(OS_WIN) && defined(ARCH_CPU_64_BITS)
198 ALLOW_UNUSED_LOCAL(kDynamicArraySize);
199 #else
201 scoped_ptr<char[][kArraySize2]> array_pointer(new (nothrow)
202 char[kDynamicArraySize][kArraySize2]);
203 OverflowTestsSoftExpectTrue(!array_pointer);
205 #endif // !defined(OS_WIN) || !defined(ARCH_CPU_64_BITS)
208 // Call calloc(), eventually free the memory and return whether or not
209 // calloc() did succeed.
210 bool CallocReturnsNull(size_t nmemb, size_t size) {
211 scoped_ptr<char, base::FreeDeleter> array_pointer(
212 static_cast<char*>(calloc(nmemb, size)));
213 // We need the call to HideValueFromCompiler(): we have seen LLVM
214 // optimize away the call to calloc() entirely and assume
215 // the pointer to not be NULL.
216 return HideValueFromCompiler(array_pointer.get()) == NULL;
219 // Test if calloc() can overflow.
220 TEST(SecurityTest, CallocOverflow) {
221 const size_t kArraySize = 4096;
222 const size_t kMaxSizeT = numeric_limits<size_t>::max();
223 const size_t kArraySize2 = kMaxSizeT / kArraySize + 10;
224 if (!CallocDiesOnOOM()) {
225 EXPECT_TRUE(CallocReturnsNull(kArraySize, kArraySize2));
226 EXPECT_TRUE(CallocReturnsNull(kArraySize2, kArraySize));
227 } else {
228 // It's also ok for calloc to just terminate the process.
229 #if defined(GTEST_HAS_DEATH_TEST)
230 EXPECT_DEATH(CallocReturnsNull(kArraySize, kArraySize2), "");
231 EXPECT_DEATH(CallocReturnsNull(kArraySize2, kArraySize), "");
232 #endif // GTEST_HAS_DEATH_TEST
236 #if defined(OS_LINUX) && defined(__x86_64__)
237 // Check if ptr1 and ptr2 are separated by less than size chars.
238 bool ArePointersToSameArea(void* ptr1, void* ptr2, size_t size) {
239 ptrdiff_t ptr_diff = reinterpret_cast<char*>(std::max(ptr1, ptr2)) -
240 reinterpret_cast<char*>(std::min(ptr1, ptr2));
241 return static_cast<size_t>(ptr_diff) <= size;
244 // Check if TCMalloc uses an underlying random memory allocator.
245 TEST(SecurityTest, TCMALLOC_TEST(RandomMemoryAllocations)) {
246 if (IsTcMallocBypassed())
247 return;
248 size_t kPageSize = 4096; // We support x86_64 only.
249 // Check that malloc() returns an address that is neither the kernel's
250 // un-hinted mmap area, nor the current brk() area. The first malloc() may
251 // not be at a random address because TCMalloc will first exhaust any memory
252 // that it has allocated early on, before starting the sophisticated
253 // allocators.
254 void* default_mmap_heap_address =
255 mmap(0, kPageSize, PROT_READ|PROT_WRITE,
256 MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
257 ASSERT_NE(default_mmap_heap_address,
258 static_cast<void*>(MAP_FAILED));
259 ASSERT_EQ(munmap(default_mmap_heap_address, kPageSize), 0);
260 void* brk_heap_address = sbrk(0);
261 ASSERT_NE(brk_heap_address, reinterpret_cast<void*>(-1));
262 ASSERT_TRUE(brk_heap_address != NULL);
263 // 1 MB should get us past what TCMalloc pre-allocated before initializing
264 // the sophisticated allocators.
265 size_t kAllocSize = 1<<20;
266 scoped_ptr<char, base::FreeDeleter> ptr(
267 static_cast<char*>(malloc(kAllocSize)));
268 ASSERT_TRUE(ptr != NULL);
269 // If two pointers are separated by less than 512MB, they are considered
270 // to be in the same area.
271 // Our random pointer could be anywhere within 0x3fffffffffff (46bits),
272 // and we are checking that it's not withing 1GB (30 bits) from two
273 // addresses (brk and mmap heap). We have roughly one chance out of
274 // 2^15 to flake.
275 const size_t kAreaRadius = 1<<29;
276 bool in_default_mmap_heap = ArePointersToSameArea(
277 ptr.get(), default_mmap_heap_address, kAreaRadius);
278 EXPECT_FALSE(in_default_mmap_heap);
280 bool in_default_brk_heap = ArePointersToSameArea(
281 ptr.get(), brk_heap_address, kAreaRadius);
282 EXPECT_FALSE(in_default_brk_heap);
284 // In the implementation, we always mask our random addresses with
285 // kRandomMask, so we use it as an additional detection mechanism.
286 const uintptr_t kRandomMask = 0x3fffffffffffULL;
287 bool impossible_random_address =
288 reinterpret_cast<uintptr_t>(ptr.get()) & ~kRandomMask;
289 EXPECT_FALSE(impossible_random_address);
292 #endif // defined(OS_LINUX) && defined(__x86_64__)
294 } // namespace