mozilla-central/memory/build/test/gtest/TestPHC.cpp (file symbol)

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/* 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 "gtest/gtest.h"
#include "mozmemory.h"
#include "mozilla/Assertions.h"
#include "mozilla/mozalloc.h"
#include "PHC.h"
using namespace mozilla;
bool PHCInfoEq(phc::AddrInfo& aInfo, phc::AddrInfo::Kind aKind, void* aBaseAddr,
size_t aUsableSize, bool aHasAllocStack, bool aHasFreeStack) {
return aInfo.mKind == aKind && aInfo.mBaseAddr == aBaseAddr &&
aInfo.mUsableSize == aUsableSize &&
// Proper stack traces will have at least 3 elements.
(aHasAllocStack ? (aInfo.mAllocStack->mLength > 2)
: (aInfo.mAllocStack.isNothing())) &&
(aHasFreeStack ? (aInfo.mFreeStack->mLength > 2)
: (aInfo.mFreeStack.isNothing()));
}
bool JeInfoEq(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
;
}
uint8_t* GetPHCAllocation(size_t aSize, size_t aAlignment = 1) {
// A crude but effective way to get a PHC allocation.
for (int i = 0; i < 2000000; i++) {
void* p = (aAlignment == 1) ? moz_xmalloc(aSize)
: moz_xmemalign(aAlignment, aSize);
if (mozilla::phc::IsPHCAllocation(p, nullptr)) {
return (uint8_t*)p;
}
free(p);
}
return nullptr;
}
#if defined(XP_DARWIN) && defined(__aarch64__)
static const size_t kPageSize = 16384;
#else
static const size_t kPageSize = 4096;
#endif
TEST(PHC, TestPHCAllocations)
{
mozilla::phc::SetPHCState(phc::PHCState::Enabled);
// First, check that allocations of various sizes all get put at the end of
// their page as expected. Also, check their sizes are as expected.
#define ASSERT_POS(n1, n2) \
p = (uint8_t*)moz_xrealloc(p, (n1)); \
ASSERT_EQ((reinterpret_cast<uintptr_t>(p) & (kPageSize - 1)), \
kPageSize - (n2)); \
ASSERT_EQ(moz_malloc_usable_size(p), (n2));
uint8_t* p = GetPHCAllocation(1);
if (!p) {
MOZ_CRASH("failed to get a PHC allocation");
}
// On Win64 the smallest possible allocation is 16 bytes. On other platforms
// it is 8 bytes.
#if defined(XP_WIN) && defined(HAVE_64BIT_BUILD)
ASSERT_POS(8U, 16U);
#else
ASSERT_POS(8U, 8U);
#endif
for (unsigned i = 16; i <= kPageSize; i *= 2) {
ASSERT_POS(i, i);
}
free(p);
#undef ASSERT_POS
// Second, do similar checking with allocations of various alignments. Also
// check that their sizes (which are different to allocations with normal
// alignment) are the same as the sizes of equivalent non-PHC allocations.
#define ASSERT_ALIGN(a1, a2) \
p = (uint8_t*)GetPHCAllocation(8, (a1)); \
ASSERT_EQ((reinterpret_cast<uintptr_t>(p) & (kPageSize - 1)), \
kPageSize - (a2)); \
ASSERT_EQ(moz_malloc_usable_size(p), (a2)); \
free(p); \
p = (uint8_t*)moz_xmemalign((a1), 8); \
ASSERT_EQ(moz_malloc_usable_size(p), (a2)); \
free(p);
// On Win64 the smallest possible allocation is 16 bytes. On other platforms
// it is 8 bytes.
#if defined(XP_WIN) && defined(HAVE_64BIT_BUILD)
ASSERT_ALIGN(8U, 16U);
#else
ASSERT_ALIGN(8U, 8U);
#endif
for (unsigned i = 16; i <= kPageSize; i *= 2) {
ASSERT_ALIGN(i, i);
}
#undef ASSERT_ALIGN
}
static void TestInUseAllocation(uint8_t* aPtr, size_t aSize) {
phc::AddrInfo phcInfo;
jemalloc_ptr_info_t jeInfo;
// Test an in-use PHC allocation: first byte within it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::InUsePage, aPtr, aSize,
true, false));
ASSERT_EQ(moz_malloc_usable_size(aPtr), aSize);
jemalloc_ptr_info(aPtr, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagLiveAlloc, aPtr, aSize, 0));
// Test an in-use PHC allocation: last byte within it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize - 1, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::InUsePage, aPtr, aSize,
true, false));
ASSERT_EQ(moz_malloc_usable_size(aPtr + aSize - 1), aSize);
jemalloc_ptr_info(aPtr + aSize - 1, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagLiveAlloc, aPtr, aSize, 0));
// Test an in-use PHC allocation: last byte before it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr - 1, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::InUsePage, aPtr, aSize,
true, false));
ASSERT_EQ(moz_malloc_usable_size(aPtr - 1), 0ul);
jemalloc_ptr_info(aPtr - 1, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test an in-use PHC allocation: first byte on its allocation page.
ASSERT_TRUE(
mozilla::phc::IsPHCAllocation(aPtr + aSize - kPageSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::InUsePage, aPtr, aSize,
true, false));
jemalloc_ptr_info(aPtr + aSize - kPageSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test an in-use PHC allocation: first byte in the following guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, false));
jemalloc_ptr_info(aPtr + aSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test an in-use PHC allocation: last byte in the lower half of the
// following guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize + (kPageSize / 2 - 1),
&phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, false));
jemalloc_ptr_info(aPtr + aSize + (kPageSize / 2 - 1), &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test an in-use PHC allocation: last byte in the preceding guard page.
ASSERT_TRUE(
mozilla::phc::IsPHCAllocation(aPtr + aSize - 1 - kPageSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, false));
jemalloc_ptr_info(aPtr + aSize - 1 - kPageSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test an in-use PHC allocation: first byte in the upper half of the
// preceding guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(
aPtr + aSize - 1 - kPageSize - (kPageSize / 2 - 1), &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, false));
jemalloc_ptr_info(aPtr + aSize - 1 - kPageSize - (kPageSize / 2 - 1),
&jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
}
static void TestFreedAllocation(uint8_t* aPtr, size_t aSize) {
phc::AddrInfo phcInfo;
jemalloc_ptr_info_t jeInfo;
// Test a freed PHC allocation: first byte within it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::FreedPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagFreedAlloc, aPtr, aSize, 0));
// Test a freed PHC allocation: last byte within it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize - 1, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::FreedPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize - 1, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagFreedAlloc, aPtr, aSize, 0));
// Test a freed PHC allocation: last byte before it.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr - 1, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::FreedPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr - 1, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test a freed PHC allocation: first byte on its allocation page.
ASSERT_TRUE(
mozilla::phc::IsPHCAllocation(aPtr + aSize - kPageSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::FreedPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize - kPageSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test a freed PHC allocation: first byte in the following guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test a freed PHC allocation: last byte in the lower half of the following
// guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(aPtr + aSize + (kPageSize / 2 - 1),
&phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize + (kPageSize / 2 - 1), &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test a freed PHC allocation: last byte in the preceding guard page.
ASSERT_TRUE(
mozilla::phc::IsPHCAllocation(aPtr + aSize - 1 - kPageSize, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize - 1 - kPageSize, &jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
// Test a freed PHC allocation: first byte in the upper half of the preceding
// guard page.
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(
aPtr + aSize - 1 - kPageSize - (kPageSize / 2 - 1), &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::GuardPage, aPtr, aSize,
true, true));
jemalloc_ptr_info(aPtr + aSize - 1 - kPageSize - (kPageSize / 2 - 1),
&jeInfo);
ASSERT_TRUE(JeInfoEq(jeInfo, TagUnknown, nullptr, 0, 0));
}
TEST(PHC, TestPHCInfo)
{
mozilla::phc::SetPHCState(phc::PHCState::Enabled);
int stackVar;
phc::AddrInfo phcInfo;
// Test a default AddrInfo.
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::Unknown, nullptr, 0ul,
false, false));
// Test some non-PHC allocation addresses.
ASSERT_FALSE(mozilla::phc::IsPHCAllocation(nullptr, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::Unknown, nullptr, 0,
false, false));
ASSERT_FALSE(mozilla::phc::IsPHCAllocation(&stackVar, &phcInfo));
ASSERT_TRUE(PHCInfoEq(phcInfo, phc::AddrInfo::Kind::Unknown, nullptr, 0,
false, false));
uint8_t* p = GetPHCAllocation(32);
if (!p) {
MOZ_CRASH("failed to get a PHC allocation");
}
TestInUseAllocation(p, 32);
free(p);
TestFreedAllocation(p, 32);
// There are no tests for `mKind == NeverAllocatedPage` because it's not
// possible to reliably get ahold of such a page.
}
TEST(PHC, TestPHCDisablingThread)
{
mozilla::phc::SetPHCState(phc::PHCState::Enabled);
uint8_t* p = GetPHCAllocation(32);
uint8_t* q = GetPHCAllocation(32);
if (!p || !q) {
MOZ_CRASH("failed to get a PHC allocation");
}
ASSERT_TRUE(mozilla::phc::IsPHCEnabledOnCurrentThread());
mozilla::phc::DisablePHCOnCurrentThread();
ASSERT_FALSE(mozilla::phc::IsPHCEnabledOnCurrentThread());
// Test realloc() on a PHC allocation while PHC is disabled on the thread.
uint8_t* p2 = (uint8_t*)realloc(p, 128);
// The small realloc is fulfilled within the same page, but it does move.
ASSERT_TRUE(p2 == p - 96);
ASSERT_TRUE(mozilla::phc::IsPHCAllocation(p2, nullptr));
uint8_t* p3 = (uint8_t*)realloc(p2, 2 * kPageSize);
// The big realloc is not in-place, and the result is not a PHC allocation.
ASSERT_TRUE(p3 != p2);
ASSERT_FALSE(mozilla::phc::IsPHCAllocation(p3, nullptr));
free(p3);
// Test free() on a PHC allocation while PHC is disabled on the thread.
free(q);
// These must not be PHC allocations.
uint8_t* r = GetPHCAllocation(32); // This will fail.
ASSERT_FALSE(!!r);
mozilla::phc::ReenablePHCOnCurrentThread();
ASSERT_TRUE(mozilla::phc::IsPHCEnabledOnCurrentThread());
// If it really was reenabled we should be able to get PHC allocations
// again.
uint8_t* s = GetPHCAllocation(32); // This should succeed.
ASSERT_TRUE(!!s);
free(s);
}
TEST(PHC, TestPHCDisablingGlobal)
{
mozilla::phc::SetPHCState(phc::PHCState::Enabled);
uint8_t* p1 = GetPHCAllocation(32);
uint8_t* p2 = GetPHCAllocation(32);
uint8_t* q = GetPHCAllocation(32);
if (!p1 || !p2 || !q) {
MOZ_CRASH("failed to get a PHC allocation");
}
mozilla::phc::SetPHCState(phc::PHCState::OnlyFree);
// Test realloc() on a PHC allocation while PHC is disabled on the thread.
uint8_t* p3 = (uint8_t*)realloc(p1, 128);
// The small realloc is evicted from PHC because in "OnlyFree" state PHC
// tries to reduce its memory impact.
ASSERT_TRUE(p3 != p1);
ASSERT_FALSE(mozilla::phc::IsPHCAllocation(p3, nullptr));
free(p3);
uint8_t* p4 = (uint8_t*)realloc(p2, 2 * kPageSize);
// The big realloc is not in-place, and the result is not a PHC
// allocation, regardless of PHC's state.
ASSERT_TRUE(p4 != p2);
ASSERT_FALSE(mozilla::phc::IsPHCAllocation(p4, nullptr));
free(p4);
// Test free() on a PHC allocation while PHC is disabled on the thread.
free(q);
// These must not be PHC allocations.
uint8_t* r = GetPHCAllocation(32); // This will fail.
ASSERT_FALSE(!!r);
mozilla::phc::SetPHCState(phc::PHCState::Enabled);
// If it really was reenabled we should be able to get PHC allocations
// again.
uint8_t* s = GetPHCAllocation(32); // This should succeed.
ASSERT_TRUE(!!s);
free(s);
}
// This test is disabled for now, see Bug 1845017 and Bug 1845655.
// TEST(PHC, TestPHCExhaustion)
// {
void DisabledPHCExhaustionTest() {
// PHC hardcodes the amount of allocations to track.
#if defined(XP_DARWIN) && defined(__aarch64__)
const unsigned NUM_ALLOCATIONS = 1024;
#else
const unsigned NUM_ALLOCATIONS = 4096;
#endif
uint8_t* allocations[NUM_ALLOCATIONS];
const unsigned REQUIRED_ALLOCATIONS = NUM_ALLOCATIONS - 50;
unsigned last_allocation;
for (unsigned i = 0; i < NUM_ALLOCATIONS; i++) {
allocations[i] = GetPHCAllocation(128);
last_allocation = i;
if (i < REQUIRED_ALLOCATIONS) {
// Assert that the first REQUIRED_ALLOCATIONS work. We require only
// REQUIRED_ALLOCATIONS rather than NUM_ALLOCATIONS because sometimes
// some PHC slots are used before the test begins.
ASSERT_TRUE(allocations[i]);
} else if (!allocations[i]) {
// Break the loop if an allocation fails to move to the next phase.
last_allocation--;
break;
}
TestInUseAllocation(allocations[i], 128);
}
// We should now fail to get an allocation.
ASSERT_FALSE(GetPHCAllocation(128));
for (unsigned i = 0; i <= last_allocation; i++) {
free(allocations[i]);
TestFreedAllocation(allocations[i], 128);
}
// And now that we've released those allocations we should be able to get
// new allocations again.
uint8_t* r = GetPHCAllocation(128);
ASSERT_TRUE(!!r);
free(r);
}