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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 17:32:43 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 17:32:43 +0000
commit6bf0a5cb5034a7e684dcc3500e841785237ce2dd (patch)
treea68f146d7fa01f0134297619fbe7e33db084e0aa /memory/gtest/TestJemalloc.cpp
parentInitial commit. (diff)
downloadthunderbird-6bf0a5cb5034a7e684dcc3500e841785237ce2dd.tar.xz
thunderbird-6bf0a5cb5034a7e684dcc3500e841785237ce2dd.zip
Adding upstream version 1:115.7.0.upstream/1%115.7.0upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'memory/gtest/TestJemalloc.cpp')
-rw-r--r--memory/gtest/TestJemalloc.cpp756
1 files changed, 756 insertions, 0 deletions
diff --git a/memory/gtest/TestJemalloc.cpp b/memory/gtest/TestJemalloc.cpp
new file mode 100644
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+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
+/* vim: set ts=8 sts=2 et sw=2 tw=80: */
+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#include "mozilla/mozalloc.h"
+#include "mozilla/UniquePtr.h"
+#include "mozilla/Unused.h"
+#include "mozilla/Vector.h"
+#include "mozilla/gtest/MozHelpers.h"
+#include "mozmemory.h"
+#include "nsCOMPtr.h"
+#include "Utils.h"
+
+#include "gtest/gtest.h"
+
+#ifdef MOZ_PHC
+# include "replace_malloc_bridge.h"
+#endif
+
+using namespace mozilla;
+
+class AutoDisablePHCOnCurrentThread {
+ public:
+ AutoDisablePHCOnCurrentThread() {
+#ifdef MOZ_PHC
+ ReplaceMalloc::DisablePHCOnCurrentThread();
+#endif
+ }
+
+ ~AutoDisablePHCOnCurrentThread() {
+#ifdef MOZ_PHC
+ ReplaceMalloc::ReenablePHCOnCurrentThread();
+#endif
+ }
+};
+
+static inline void TestOne(size_t size) {
+ size_t req = size;
+ size_t adv = malloc_good_size(req);
+ char* p = (char*)malloc(req);
+ size_t usable = moz_malloc_usable_size(p);
+ // NB: Using EXPECT here so that we still free the memory on failure.
+ EXPECT_EQ(adv, usable) << "malloc_good_size(" << req << ") --> " << adv
+ << "; "
+ "malloc_usable_size("
+ << req << ") --> " << usable;
+ free(p);
+}
+
+static inline void TestThree(size_t size) {
+ ASSERT_NO_FATAL_FAILURE(TestOne(size - 1));
+ ASSERT_NO_FATAL_FAILURE(TestOne(size));
+ ASSERT_NO_FATAL_FAILURE(TestOne(size + 1));
+}
+
+TEST(Jemalloc, UsableSizeInAdvance)
+{
+ /*
+ * Test every size up to a certain point, then (N-1, N, N+1) triplets for a
+ * various sizes beyond that.
+ */
+
+ for (size_t n = 0; n < 16_KiB; n++) ASSERT_NO_FATAL_FAILURE(TestOne(n));
+
+ for (size_t n = 16_KiB; n < 1_MiB; n += 4_KiB)
+ ASSERT_NO_FATAL_FAILURE(TestThree(n));
+
+ for (size_t n = 1_MiB; n < 8_MiB; n += 128_KiB)
+ ASSERT_NO_FATAL_FAILURE(TestThree(n));
+}
+
+static int gStaticVar;
+
+bool InfoEq(jemalloc_ptr_info_t& aInfo, PtrInfoTag aTag, void* aAddr,
+ size_t aSize, arena_id_t arenaId) {
+ return aInfo.tag == aTag && aInfo.addr == aAddr && aInfo.size == aSize
+#ifdef MOZ_DEBUG
+ && aInfo.arenaId == arenaId
+#endif
+ ;
+}
+
+bool InfoEqFreedPage(jemalloc_ptr_info_t& aInfo, void* aAddr, size_t aPageSize,
+ arena_id_t arenaId) {
+ size_t pageSizeMask = aPageSize - 1;
+
+ return jemalloc_ptr_is_freed_page(&aInfo) &&
+ aInfo.addr == (void*)(uintptr_t(aAddr) & ~pageSizeMask) &&
+ aInfo.size == aPageSize
+#ifdef MOZ_DEBUG
+ && aInfo.arenaId == arenaId
+#endif
+ ;
+}
+
+TEST(Jemalloc, PtrInfo)
+{
+ arena_id_t arenaId = moz_create_arena();
+ ASSERT_TRUE(arenaId != 0);
+
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ jemalloc_ptr_info_t info;
+ Vector<char*> small, large, huge;
+
+ // For small (less than half the page size) allocations, test every position
+ // within many possible sizes.
+ size_t small_max =
+ stats.subpage_max ? stats.subpage_max : stats.quantum_wide_max;
+ for (size_t n = 0; n <= small_max; n += 8) {
+ auto p = (char*)moz_arena_malloc(arenaId, n);
+ size_t usable = moz_malloc_size_of(p);
+ ASSERT_TRUE(small.append(p));
+ for (size_t j = 0; j < usable; j++) {
+ jemalloc_ptr_info(&p[j], &info);
+ ASSERT_TRUE(InfoEq(info, TagLiveAlloc, p, usable, arenaId));
+ }
+ }
+
+ // Similar for large (small_max + 1 KiB .. 1MiB - 8KiB) allocations.
+ for (size_t n = small_max + 1_KiB; n <= stats.large_max; n += 1_KiB) {
+ auto p = (char*)moz_arena_malloc(arenaId, n);
+ size_t usable = moz_malloc_size_of(p);
+ ASSERT_TRUE(large.append(p));
+ for (size_t j = 0; j < usable; j += 347) {
+ jemalloc_ptr_info(&p[j], &info);
+ ASSERT_TRUE(InfoEq(info, TagLiveAlloc, p, usable, arenaId));
+ }
+ }
+
+ // Similar for huge (> 1MiB - 8KiB) allocations.
+ for (size_t n = stats.chunksize; n <= 10_MiB; n += 512_KiB) {
+ auto p = (char*)moz_arena_malloc(arenaId, n);
+ size_t usable = moz_malloc_size_of(p);
+ ASSERT_TRUE(huge.append(p));
+ for (size_t j = 0; j < usable; j += 567) {
+ jemalloc_ptr_info(&p[j], &info);
+ ASSERT_TRUE(InfoEq(info, TagLiveAlloc, p, usable, arenaId));
+ }
+ }
+
+ // The following loops check freed allocations. We step through the vectors
+ // using prime-sized steps, which gives full coverage of the arrays while
+ // avoiding deallocating in the same order we allocated.
+ size_t len;
+
+ // Free the small allocations and recheck them.
+ int isFreedAlloc = 0, isFreedPage = 0;
+ len = small.length();
+ for (size_t i = 0, j = 0; i < len; i++, j = (j + 19) % len) {
+ char* p = small[j];
+ size_t usable = moz_malloc_size_of(p);
+ free(p);
+ for (size_t k = 0; k < usable; k++) {
+ jemalloc_ptr_info(&p[k], &info);
+ // There are two valid outcomes here.
+ if (InfoEq(info, TagFreedAlloc, p, usable, arenaId)) {
+ isFreedAlloc++;
+ } else if (InfoEqFreedPage(info, &p[k], stats.page_size, arenaId)) {
+ isFreedPage++;
+ } else {
+ ASSERT_TRUE(false);
+ }
+ }
+ }
+ // There should be both FreedAlloc and FreedPage results, but a lot more of
+ // the former.
+ ASSERT_TRUE(isFreedAlloc != 0);
+ ASSERT_TRUE(isFreedPage != 0);
+ ASSERT_TRUE(isFreedAlloc / isFreedPage > 8);
+
+ // Free the large allocations and recheck them.
+ len = large.length();
+ for (size_t i = 0, j = 0; i < len; i++, j = (j + 31) % len) {
+ char* p = large[j];
+ size_t usable = moz_malloc_size_of(p);
+ free(p);
+ for (size_t k = 0; k < usable; k += 357) {
+ jemalloc_ptr_info(&p[k], &info);
+ ASSERT_TRUE(InfoEqFreedPage(info, &p[k], stats.page_size, arenaId));
+ }
+ }
+
+ // Free the huge allocations and recheck them.
+ len = huge.length();
+ for (size_t i = 0, j = 0; i < len; i++, j = (j + 7) % len) {
+ char* p = huge[j];
+ size_t usable = moz_malloc_size_of(p);
+ free(p);
+ for (size_t k = 0; k < usable; k += 587) {
+ jemalloc_ptr_info(&p[k], &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+ }
+ }
+
+ // Null ptr.
+ jemalloc_ptr_info(nullptr, &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Near-null ptr.
+ jemalloc_ptr_info((void*)0x123, &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Maximum address.
+ jemalloc_ptr_info((void*)uintptr_t(-1), &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Stack memory.
+ int stackVar;
+ jemalloc_ptr_info(&stackVar, &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Code memory.
+ jemalloc_ptr_info((const void*)&jemalloc_ptr_info, &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Static memory.
+ jemalloc_ptr_info(&gStaticVar, &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+
+ // Chunk header.
+ UniquePtr<int> p = MakeUnique<int>();
+ size_t chunksizeMask = stats.chunksize - 1;
+ char* chunk = (char*)(uintptr_t(p.get()) & ~chunksizeMask);
+ size_t chunkHeaderSize = stats.chunksize - stats.large_max - stats.page_size;
+ for (size_t i = 0; i < chunkHeaderSize; i += 64) {
+ jemalloc_ptr_info(&chunk[i], &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+ }
+
+ // Run header.
+ size_t page_sizeMask = stats.page_size - 1;
+ char* run = (char*)(uintptr_t(p.get()) & ~page_sizeMask);
+ for (size_t i = 0; i < 4 * sizeof(void*); i++) {
+ jemalloc_ptr_info(&run[i], &info);
+ ASSERT_TRUE(InfoEq(info, TagUnknown, nullptr, 0U, 0U));
+ }
+
+ // Entire chunk. It's impossible to check what is put into |info| for all of
+ // these addresses; this is more about checking that we don't crash.
+ for (size_t i = 0; i < stats.chunksize; i += 256) {
+ jemalloc_ptr_info(&chunk[i], &info);
+ }
+
+ moz_dispose_arena(arenaId);
+}
+
+size_t sSizes[] = {1, 42, 79, 918, 1.4_KiB,
+ 73_KiB, 129_KiB, 1.1_MiB, 2.6_MiB, 5.1_MiB};
+
+TEST(Jemalloc, Arenas)
+{
+ arena_id_t arena = moz_create_arena();
+ ASSERT_TRUE(arena != 0);
+ void* ptr = moz_arena_malloc(arena, 42);
+ ASSERT_TRUE(ptr != nullptr);
+ ptr = moz_arena_realloc(arena, ptr, 64);
+ ASSERT_TRUE(ptr != nullptr);
+ moz_arena_free(arena, ptr);
+ ptr = moz_arena_calloc(arena, 24, 2);
+ // For convenience, free can be used to free arena pointers.
+ free(ptr);
+ moz_dispose_arena(arena);
+
+ // Avoid death tests adding some unnecessary (long) delays.
+ SAVE_GDB_SLEEP_LOCAL();
+
+ // Can't use an arena after it's disposed.
+ // ASSERT_DEATH_WRAP(moz_arena_malloc(arena, 80), "");
+
+ // Arena id 0 can't be used to somehow get to the main arena.
+ ASSERT_DEATH_WRAP(moz_arena_malloc(0, 80), "");
+
+ arena = moz_create_arena();
+ arena_id_t arena2 = moz_create_arena();
+ // Ensure arena2 is used to prevent OSX errors:
+ (void)arena2;
+
+ // For convenience, realloc can also be used to reallocate arena pointers.
+ // The result should be in the same arena. Test various size class
+ // transitions.
+ for (size_t from_size : sSizes) {
+ SCOPED_TRACE(testing::Message() << "from_size = " << from_size);
+ for (size_t to_size : sSizes) {
+ SCOPED_TRACE(testing::Message() << "to_size = " << to_size);
+ ptr = moz_arena_malloc(arena, from_size);
+ ptr = realloc(ptr, to_size);
+ // Freeing with the wrong arena should crash.
+ ASSERT_DEATH_WRAP(moz_arena_free(arena2, ptr), "");
+ // Likewise for moz_arena_realloc.
+ ASSERT_DEATH_WRAP(moz_arena_realloc(arena2, ptr, from_size), "");
+ // The following will crash if it's not in the right arena.
+ moz_arena_free(arena, ptr);
+ }
+ }
+
+ moz_dispose_arena(arena2);
+ moz_dispose_arena(arena);
+
+ RESTORE_GDB_SLEEP_LOCAL();
+}
+
+// Check that a buffer aPtr is entirely filled with a given character from
+// aOffset to aSize. For faster comparison, the caller is required to fill a
+// reference buffer with the wanted character, and give the size of that
+// reference buffer.
+static void bulk_compare(char* aPtr, size_t aOffset, size_t aSize,
+ char* aReference, size_t aReferenceSize) {
+ for (size_t i = aOffset; i < aSize; i += aReferenceSize) {
+ size_t length = std::min(aSize - i, aReferenceSize);
+ if (memcmp(aPtr + i, aReference, length)) {
+ // We got a mismatch, we now want to report more precisely where.
+ for (size_t j = i; j < i + length; j++) {
+ ASSERT_EQ(aPtr[j], *aReference);
+ }
+ }
+ }
+}
+
+// A range iterator for size classes between two given values.
+class SizeClassesBetween {
+ public:
+ SizeClassesBetween(size_t aStart, size_t aEnd) : mStart(aStart), mEnd(aEnd) {}
+
+ class Iterator {
+ public:
+ explicit Iterator(size_t aValue) : mValue(malloc_good_size(aValue)) {}
+
+ operator size_t() const { return mValue; }
+ size_t operator*() const { return mValue; }
+ Iterator& operator++() {
+ mValue = malloc_good_size(mValue + 1);
+ return *this;
+ }
+
+ private:
+ size_t mValue;
+ };
+
+ Iterator begin() { return Iterator(mStart); }
+ Iterator end() { return Iterator(mEnd); }
+
+ private:
+ size_t mStart, mEnd;
+};
+
+#define ALIGNMENT_CEILING(s, alignment) \
+ (((s) + ((alignment)-1)) & (~((alignment)-1)))
+
+#define ALIGNMENT_FLOOR(s, alignment) ((s) & (~((alignment)-1)))
+
+static bool IsSameRoundedHugeClass(size_t aSize1, size_t aSize2,
+ jemalloc_stats_t& aStats) {
+ return (aSize1 > aStats.large_max && aSize2 > aStats.large_max &&
+ ALIGNMENT_CEILING(aSize1 + aStats.page_size, aStats.chunksize) ==
+ ALIGNMENT_CEILING(aSize2 + aStats.page_size, aStats.chunksize));
+}
+
+static bool CanReallocInPlace(size_t aFromSize, size_t aToSize,
+ jemalloc_stats_t& aStats) {
+ // PHC allocations must be disabled because PHC reallocs differently to
+ // mozjemalloc.
+#ifdef MOZ_PHC
+ MOZ_RELEASE_ASSERT(!ReplaceMalloc::IsPHCEnabledOnCurrentThread());
+#endif
+
+ if (aFromSize == malloc_good_size(aToSize)) {
+ // Same size class: in-place.
+ return true;
+ }
+ if (aFromSize >= aStats.page_size && aFromSize <= aStats.large_max &&
+ aToSize >= aStats.page_size && aToSize <= aStats.large_max) {
+ // Any large class to any large class: in-place when there is space to.
+ return true;
+ }
+ if (IsSameRoundedHugeClass(aFromSize, aToSize, aStats)) {
+ // Huge sizes that round up to the same multiple of the chunk size:
+ // in-place.
+ return true;
+ }
+ return false;
+}
+
+TEST(Jemalloc, InPlace)
+{
+ // Disable PHC allocations for this test, because CanReallocInPlace() isn't
+ // valid for PHC allocations.
+ AutoDisablePHCOnCurrentThread disable;
+
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ // Using a separate arena, which is always emptied after an iteration, ensures
+ // that in-place reallocation happens in all cases it can happen. This test is
+ // intended for developers to notice they may have to adapt other tests if
+ // they change the conditions for in-place reallocation.
+ arena_id_t arena = moz_create_arena();
+
+ for (size_t from_size : SizeClassesBetween(1, 2 * stats.chunksize)) {
+ SCOPED_TRACE(testing::Message() << "from_size = " << from_size);
+ for (size_t to_size : sSizes) {
+ SCOPED_TRACE(testing::Message() << "to_size = " << to_size);
+ char* ptr = (char*)moz_arena_malloc(arena, from_size);
+ char* ptr2 = (char*)moz_arena_realloc(arena, ptr, to_size);
+ if (CanReallocInPlace(from_size, to_size, stats)) {
+ EXPECT_EQ(ptr, ptr2);
+ } else {
+ EXPECT_NE(ptr, ptr2);
+ }
+ moz_arena_free(arena, ptr2);
+ }
+ }
+
+ moz_dispose_arena(arena);
+}
+
+// Bug 1474254: disable this test for windows ccov builds because it leads to
+// timeout.
+#if !defined(XP_WIN) || !defined(MOZ_CODE_COVERAGE)
+TEST(Jemalloc, JunkPoison)
+{
+ // Disable PHC allocations for this test, because CanReallocInPlace() isn't
+ // valid for PHC allocations, and the testing UAFs aren't valid.
+ AutoDisablePHCOnCurrentThread disable;
+
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ // Avoid death tests adding some unnecessary (long) delays.
+ SAVE_GDB_SLEEP_LOCAL();
+
+ // Create buffers in a separate arena, for faster comparisons with
+ // bulk_compare.
+ arena_id_t buf_arena = moz_create_arena();
+ char* junk_buf = (char*)moz_arena_malloc(buf_arena, stats.page_size);
+ // Depending on its configuration, the allocator will either fill the
+ // requested allocation with the junk byte (0xe4) or with zeroes, or do
+ // nothing, in which case, since we're allocating in a fresh arena,
+ // we'll be getting zeroes.
+ char junk = stats.opt_junk ? '\xe4' : '\0';
+ for (size_t i = 0; i < stats.page_size; i++) {
+ ASSERT_EQ(junk_buf[i], junk);
+ }
+
+ char* poison_buf = (char*)moz_arena_malloc(buf_arena, stats.page_size);
+ memset(poison_buf, 0xe5, stats.page_size);
+
+ static const char fill = 0x42;
+ char* fill_buf = (char*)moz_arena_malloc(buf_arena, stats.page_size);
+ memset(fill_buf, fill, stats.page_size);
+
+ arena_params_t params;
+ // Allow as many dirty pages in the arena as possible, so that purge never
+ // happens in it. Purge breaks some of the tests below randomly depending on
+ // what other things happen on other threads.
+ params.mMaxDirty = size_t(-1);
+ arena_id_t arena = moz_create_arena_with_params(&params);
+
+ // Allocating should junk the buffer, and freeing should poison the buffer.
+ for (size_t size : sSizes) {
+ if (size <= stats.large_max) {
+ SCOPED_TRACE(testing::Message() << "size = " << size);
+ char* buf = (char*)moz_arena_malloc(arena, size);
+ size_t allocated = moz_malloc_usable_size(buf);
+ if (stats.opt_junk || stats.opt_zero) {
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(buf, 0, allocated, junk_buf, stats.page_size));
+ }
+ moz_arena_free(arena, buf);
+ // We purposefully do a use-after-free here, to check that the data was
+ // poisoned.
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(buf, 0, allocated, poison_buf, stats.page_size));
+ }
+ }
+
+ // Shrinking in the same size class should be in place and poison between the
+ // new allocation size and the old one.
+ size_t prev = 0;
+ for (size_t size : SizeClassesBetween(1, 2 * stats.chunksize)) {
+ SCOPED_TRACE(testing::Message() << "size = " << size);
+ SCOPED_TRACE(testing::Message() << "prev = " << prev);
+ char* ptr = (char*)moz_arena_malloc(arena, size);
+ memset(ptr, fill, moz_malloc_usable_size(ptr));
+ char* ptr2 = (char*)moz_arena_realloc(arena, ptr, prev + 1);
+ ASSERT_EQ(ptr, ptr2);
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, 0, prev + 1, fill_buf, stats.page_size));
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, prev + 1, size, poison_buf, stats.page_size));
+ moz_arena_free(arena, ptr);
+ prev = size;
+ }
+
+ // In-place realloc should junk the new bytes when growing and poison the old
+ // bytes when shrinking.
+ for (size_t from_size : SizeClassesBetween(1, 2 * stats.chunksize)) {
+ SCOPED_TRACE(testing::Message() << "from_size = " << from_size);
+ for (size_t to_size : sSizes) {
+ SCOPED_TRACE(testing::Message() << "to_size = " << to_size);
+ if (CanReallocInPlace(from_size, to_size, stats)) {
+ char* ptr = (char*)moz_arena_malloc(arena, from_size);
+ memset(ptr, fill, moz_malloc_usable_size(ptr));
+ char* ptr2 = (char*)moz_arena_realloc(arena, ptr, to_size);
+ ASSERT_EQ(ptr, ptr2);
+ // Shrinking allocation
+ if (from_size >= to_size) {
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, 0, to_size, fill_buf, stats.page_size));
+ // Huge allocations have guards and will crash when accessing
+ // beyond the valid range.
+ if (to_size > stats.large_max) {
+ size_t page_limit = ALIGNMENT_CEILING(to_size, stats.page_size);
+ ASSERT_NO_FATAL_FAILURE(bulk_compare(ptr, to_size, page_limit,
+ poison_buf, stats.page_size));
+ ASSERT_DEATH_WRAP(ptr[page_limit] = 0, "");
+ } else {
+ ASSERT_NO_FATAL_FAILURE(bulk_compare(ptr, to_size, from_size,
+ poison_buf, stats.page_size));
+ }
+ } else {
+ // Enlarging allocation
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, 0, from_size, fill_buf, stats.page_size));
+ if (stats.opt_junk || stats.opt_zero) {
+ ASSERT_NO_FATAL_FAILURE(bulk_compare(ptr, from_size, to_size,
+ junk_buf, stats.page_size));
+ }
+ // Huge allocation, so should have a guard page following
+ if (to_size > stats.large_max) {
+ ASSERT_DEATH_WRAP(
+ ptr[ALIGNMENT_CEILING(to_size, stats.page_size)] = 0, "");
+ }
+ }
+ moz_arena_free(arena, ptr2);
+ }
+ }
+ }
+
+ // Growing to a different size class should poison the old allocation,
+ // preserve the original bytes, and junk the new bytes in the new allocation.
+ for (size_t from_size : SizeClassesBetween(1, 2 * stats.chunksize)) {
+ SCOPED_TRACE(testing::Message() << "from_size = " << from_size);
+ for (size_t to_size : sSizes) {
+ if (from_size < to_size && malloc_good_size(to_size) != from_size &&
+ !IsSameRoundedHugeClass(from_size, to_size, stats)) {
+ SCOPED_TRACE(testing::Message() << "to_size = " << to_size);
+ char* ptr = (char*)moz_arena_malloc(arena, from_size);
+ memset(ptr, fill, moz_malloc_usable_size(ptr));
+ // Avoid in-place realloc by allocating a buffer, expecting it to be
+ // right after the buffer we just received. Buffers smaller than the
+ // page size and exactly or larger than the size of the largest large
+ // size class can't be reallocated in-place.
+ char* avoid_inplace = nullptr;
+ if (from_size >= stats.page_size && from_size < stats.large_max) {
+ avoid_inplace = (char*)moz_arena_malloc(arena, stats.page_size);
+ ASSERT_EQ(ptr + from_size, avoid_inplace);
+ }
+ char* ptr2 = (char*)moz_arena_realloc(arena, ptr, to_size);
+ ASSERT_NE(ptr, ptr2);
+ if (from_size <= stats.large_max) {
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, 0, from_size, poison_buf, stats.page_size));
+ }
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr2, 0, from_size, fill_buf, stats.page_size));
+ if (stats.opt_junk || stats.opt_zero) {
+ size_t rounded_to_size = malloc_good_size(to_size);
+ ASSERT_NE(to_size, rounded_to_size);
+ ASSERT_NO_FATAL_FAILURE(bulk_compare(ptr2, from_size, rounded_to_size,
+ junk_buf, stats.page_size));
+ }
+ moz_arena_free(arena, ptr2);
+ moz_arena_free(arena, avoid_inplace);
+ }
+ }
+ }
+
+ // Shrinking to a different size class should poison the old allocation,
+ // preserve the original bytes, and junk the extra bytes in the new
+ // allocation.
+ for (size_t from_size : SizeClassesBetween(1, 2 * stats.chunksize)) {
+ SCOPED_TRACE(testing::Message() << "from_size = " << from_size);
+ for (size_t to_size : sSizes) {
+ if (from_size > to_size &&
+ !CanReallocInPlace(from_size, to_size, stats)) {
+ SCOPED_TRACE(testing::Message() << "to_size = " << to_size);
+ char* ptr = (char*)moz_arena_malloc(arena, from_size);
+ memset(ptr, fill, from_size);
+ char* ptr2 = (char*)moz_arena_realloc(arena, ptr, to_size);
+ ASSERT_NE(ptr, ptr2);
+ if (from_size <= stats.large_max) {
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr, 0, from_size, poison_buf, stats.page_size));
+ }
+ ASSERT_NO_FATAL_FAILURE(
+ bulk_compare(ptr2, 0, to_size, fill_buf, stats.page_size));
+ if (stats.opt_junk || stats.opt_zero) {
+ size_t rounded_to_size = malloc_good_size(to_size);
+ ASSERT_NE(to_size, rounded_to_size);
+ ASSERT_NO_FATAL_FAILURE(bulk_compare(ptr2, from_size, rounded_to_size,
+ junk_buf, stats.page_size));
+ }
+ moz_arena_free(arena, ptr2);
+ }
+ }
+ }
+
+ moz_dispose_arena(arena);
+
+ moz_arena_free(buf_arena, poison_buf);
+ moz_arena_free(buf_arena, junk_buf);
+ moz_arena_free(buf_arena, fill_buf);
+ moz_dispose_arena(buf_arena);
+
+ RESTORE_GDB_SLEEP_LOCAL();
+}
+#endif // !defined(XP_WIN) || !defined(MOZ_CODE_COVERAGE)
+
+TEST(Jemalloc, TrailingGuard)
+{
+ // Disable PHC allocations for this test, because even a single PHC
+ // allocation occurring can throw it off.
+ AutoDisablePHCOnCurrentThread disable;
+
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ // Avoid death tests adding some unnecessary (long) delays.
+ SAVE_GDB_SLEEP_LOCAL();
+
+ arena_id_t arena = moz_create_arena();
+ ASSERT_TRUE(arena != 0);
+
+ // Do enough large allocations to fill a chunk, and then one additional one,
+ // and check that the guard page is still present after the one-but-last
+ // allocation, i.e. that we didn't allocate the guard.
+ Vector<void*> ptr_list;
+ for (size_t cnt = 0; cnt < stats.large_max / stats.page_size; cnt++) {
+ void* ptr = moz_arena_malloc(arena, stats.page_size);
+ ASSERT_TRUE(ptr != nullptr);
+ ASSERT_TRUE(ptr_list.append(ptr));
+ }
+
+ void* last_ptr_in_chunk = ptr_list[ptr_list.length() - 1];
+ void* extra_ptr = moz_arena_malloc(arena, stats.page_size);
+ void* guard_page = (void*)ALIGNMENT_CEILING(
+ (uintptr_t)last_ptr_in_chunk + stats.page_size, stats.page_size);
+ jemalloc_ptr_info_t info;
+ jemalloc_ptr_info(guard_page, &info);
+ ASSERT_TRUE(jemalloc_ptr_is_freed_page(&info));
+
+ ASSERT_DEATH_WRAP(*(char*)guard_page = 0, "");
+
+ for (void* ptr : ptr_list) {
+ moz_arena_free(arena, ptr);
+ }
+ moz_arena_free(arena, extra_ptr);
+
+ moz_dispose_arena(arena);
+
+ RESTORE_GDB_SLEEP_LOCAL();
+}
+
+TEST(Jemalloc, LeadingGuard)
+{
+ // Disable PHC allocations for this test, because even a single PHC
+ // allocation occurring can throw it off.
+ AutoDisablePHCOnCurrentThread disable;
+
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ // Avoid death tests adding some unnecessary (long) delays.
+ SAVE_GDB_SLEEP_LOCAL();
+
+ arena_id_t arena = moz_create_arena();
+ ASSERT_TRUE(arena != 0);
+
+ // Do a simple normal allocation, but force all the allocation space
+ // in the chunk to be used up. This allows us to check that we get
+ // the safe area right in the logic that follows (all memory will be
+ // committed and initialized), and it forces this pointer to the start
+ // of the zone to sit at the very start of the usable chunk area.
+ void* ptr = moz_arena_malloc(arena, stats.large_max);
+ ASSERT_TRUE(ptr != nullptr);
+ // If ptr is chunk-aligned, the above allocation went wrong.
+ void* chunk_start = (void*)ALIGNMENT_FLOOR((uintptr_t)ptr, stats.chunksize);
+ ASSERT_NE((uintptr_t)ptr, (uintptr_t)chunk_start);
+ // If ptr is 1 page after the chunk start (so right after the header),
+ // we must have missed adding the guard page.
+ ASSERT_NE((uintptr_t)ptr, (uintptr_t)chunk_start + stats.page_size);
+ // The actual start depends on the amount of metadata versus the page
+ // size, so we can't check equality without pulling in too many
+ // implementation details.
+
+ // Guard page should be right before data area
+ void* guard_page = (void*)(((uintptr_t)ptr) - sizeof(void*));
+ jemalloc_ptr_info_t info;
+ jemalloc_ptr_info(guard_page, &info);
+ ASSERT_TRUE(info.tag == TagUnknown);
+ ASSERT_DEATH_WRAP(*(char*)guard_page = 0, "");
+
+ moz_arena_free(arena, ptr);
+ moz_dispose_arena(arena);
+
+ RESTORE_GDB_SLEEP_LOCAL();
+}
+
+TEST(Jemalloc, DisposeArena)
+{
+ jemalloc_stats_t stats;
+ jemalloc_stats(&stats);
+
+ // Avoid death tests adding some unnecessary (long) delays.
+ SAVE_GDB_SLEEP_LOCAL();
+
+ arena_id_t arena = moz_create_arena();
+ void* ptr = moz_arena_malloc(arena, 42);
+ // Disposing of the arena when it's not empty is a MOZ_CRASH-worthy error.
+ ASSERT_DEATH_WRAP(moz_dispose_arena(arena), "");
+ moz_arena_free(arena, ptr);
+ moz_dispose_arena(arena);
+
+ arena = moz_create_arena();
+ ptr = moz_arena_malloc(arena, stats.page_size * 2);
+ // Disposing of the arena when it's not empty is a MOZ_CRASH-worthy error.
+ ASSERT_DEATH_WRAP(moz_dispose_arena(arena), "");
+ moz_arena_free(arena, ptr);
+ moz_dispose_arena(arena);
+
+ arena = moz_create_arena();
+ ptr = moz_arena_malloc(arena, stats.chunksize * 2);
+#ifdef MOZ_DEBUG
+ // On debug builds, we do the expensive check that arenas are empty.
+ ASSERT_DEATH_WRAP(moz_dispose_arena(arena), "");
+ moz_arena_free(arena, ptr);
+ moz_dispose_arena(arena);
+#else
+ // Currently, the allocator can't trivially check whether the arena is empty
+ // of huge allocations, so disposing of it works.
+ moz_dispose_arena(arena);
+ // But trying to free a pointer that belongs to it will MOZ_CRASH.
+ ASSERT_DEATH_WRAP(free(ptr), "");
+ // Likewise for realloc
+ ASSERT_DEATH_WRAP(ptr = realloc(ptr, stats.chunksize * 3), "");
+#endif
+
+ // Using the arena after it's been disposed of is MOZ_CRASH-worthy.
+ ASSERT_DEATH_WRAP(moz_arena_malloc(arena, 42), "");
+
+ RESTORE_GDB_SLEEP_LOCAL();
+}