syzygy/agent/asan/shadow_unittest.cc - Issue 2508333002: Remove the is_nested bit from the BlockInfo structure.

Unified Diff: syzygy/agent/asan/shadow_unittest.cc

Issue 2508333002: Remove the is_nested bit from the BlockInfo structure. (Closed)

Patch Set: Address Siggi's comments. Created 4 years, 1 month ago

Use n/p to move between diff chunks; N/P to move between comments. Draft comments are only viewable by you.

Jump to:

View side-by-side diff with in-line comments

Index: syzygy/agent/asan/shadow_unittest.cc

diff --git a/syzygy/agent/asan/shadow_unittest.cc b/syzygy/agent/asan/shadow_unittest.cc

index a8f2851cf41df065372b7008f7ef9f542c48b9be..3fb482741eb5a82f719ef91df4b5a55163bc970f 100644

--- a/syzygy/agent/asan/shadow_unittest.cc

+++ b/syzygy/agent/asan/shadow_unittest.cc

@@ -317,7 +317,7 @@ TEST_F(ShadowTest, FindFirstPoisonedByte) {

EXPECT_EQ(nullptr,

test_shadow.FindFirstPoisonedByte(test_array + i, size - i));

- // Try valid ranges ending at every poisition inside the unpoisoned range.

+ // Try valid ranges ending at every position inside the unpoisoned range.

EXPECT_EQ(nullptr,

test_shadow.FindFirstPoisonedByte(test_array, size - i));

}

@@ -345,12 +345,12 @@ TEST_F(ShadowTest, MarkAsFreed) {

uint8_t* d0 = data;

BlockInfo i0 = {};

- BlockInitialize(l0, d0, false, &i0);

+ BlockInitialize(l0, d0, &i0);

test_shadow.PoisonAllocatedBlock(i0);

uint8_t* d1 = i0.RawBody() + kShadowRatio;

BlockInfo i1 = {};

- BlockInitialize(l1, d1, true, &i1);

+ BlockInitialize(l1, d1, &i1);

test_shadow.PoisonAllocatedBlock(i1);

test_shadow.MarkAsFreed(i0.body, i0.body_size);

@@ -387,7 +387,7 @@ TEST_F(ShadowTest, PoisonAllocatedBlock) {

uint8_t* data = new uint8_t[layout.block_size];

BlockInfo info = {};

- BlockInitialize(layout, data, false, &info);

+ BlockInitialize(layout, data, &info);

test_shadow.PoisonAllocatedBlock(info);

EXPECT_EQ(test_shadow.GetShadowMarkerForAddress(data + 0 * 8),

@@ -430,62 +430,22 @@ TEST_F(ShadowTest, ScanLeftAndRight) {

size_t offset = test_shadow.length() / 2;

size_t l = 0;

test_shadow.shadow_[offset + 0] = kHeapBlockStartMarker0;

- test_shadow.shadow_[offset + 1] = kHeapNestedBlockStartMarker0;

- test_shadow.shadow_[offset + 2] = kHeapAddressableMarker;

- test_shadow.shadow_[offset + 3] = kHeapNestedBlockEndMarker;

- test_shadow.shadow_[offset + 4] = kHeapBlockEndMarker;

+ test_shadow.shadow_[offset + 1] = kHeapAddressableMarker;

+ test_shadow.shadow_[offset + 2] = kHeapBlockEndMarker;

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(0, offset + 0, &l));

- EXPECT_EQ(offset, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(0, offset + 1, &l));

- EXPECT_EQ(offset + 1, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(0, offset + 2, &l));

- EXPECT_EQ(offset + 1, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(0, offset + 3, &l));

- EXPECT_EQ(offset + 1, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(0, offset + 4, &l));

+ EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(offset + 0, &l));

EXPECT_EQ(offset, l);

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(1, offset + 0, &l));

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(1, offset + 1, &l));

+ EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(offset + 1, &l));

EXPECT_EQ(offset, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(1, offset + 2, &l));

+ EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(offset + 2, &l));

EXPECT_EQ(offset, l);

- EXPECT_TRUE(test_shadow.ScanLeftForBracketingBlockStart(1, offset + 3, &l));

- EXPECT_EQ(offset, l);

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(1, offset + 4, &l));

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(2, offset + 0, &l));

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(2, offset + 1, &l));

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(2, offset + 2, &l));

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(2, offset + 3, &l));

- EXPECT_FALSE(test_shadow.ScanLeftForBracketingBlockStart(2, offset + 4, &l));

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(0, offset + 0, &l));

- EXPECT_EQ(offset + 4, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(0, offset + 1, &l));

- EXPECT_EQ(offset + 3, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(0, offset + 2, &l));

- EXPECT_EQ(offset + 3, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(0, offset + 3, &l));

- EXPECT_EQ(offset + 3, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(0, offset + 4, &l));

- EXPECT_EQ(offset + 4, l);

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(1, offset + 0, &l));

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(1, offset + 1, &l));

- EXPECT_EQ(offset + 4, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(1, offset + 2, &l));

- EXPECT_EQ(offset + 4, l);

- EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(1, offset + 3, &l));

- EXPECT_EQ(offset + 4, l);

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(1, offset + 4, &l));

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(2, offset + 0, &l));

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(2, offset + 1, &l));

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(2, offset + 2, &l));

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(2, offset + 3, &l));

- EXPECT_FALSE(test_shadow.ScanRightForBracketingBlockEnd(2, offset + 4, &l));

+ EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(offset + 0, &l));

+ EXPECT_EQ(offset + 2, l);

+ EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(offset + 1, &l));

+ EXPECT_EQ(offset + 2, l);

+ EXPECT_TRUE(test_shadow.ScanRightForBracketingBlockEnd(offset + 2, &l));

+ EXPECT_EQ(offset + 2, l);

::memset(test_shadow.shadow_ + offset, 0, 5);

}

@@ -497,23 +457,14 @@ TEST_F(ShadowTest, ScanRightPerfTest) {

::memset(test_shadow.shadow_ + offset, 0, length);

test_shadow.shadow_[offset + 0] = kHeapBlockStartMarker0;

- // A nested block with freed contents.

- test_shadow.shadow_[offset + 50] = kHeapNestedBlockStartMarker0;

- ::memset(test_shadow.shadow_ + offset + 51, kHeapFreedMarker, 8);

- test_shadow.shadow_[offset + 60] = kHeapNestedBlockEndMarker;

- // A nested block with a nested block.

- test_shadow.shadow_[offset + 100000] = kHeapNestedBlockStartMarker0;

- test_shadow.shadow_[offset + 100100] = kHeapNestedBlockStartMarker0;

- test_shadow.shadow_[offset + 100400] = kHeapNestedBlockEndMarker;

- test_shadow.shadow_[offset + 200000] = kHeapNestedBlockEndMarker;

- // The end of the outer block.

+ // The end of the block.

test_shadow.shadow_[offset + length - 1] = kHeapBlockEndMarker;

uint64_t tnet = 0;

for (size_t i = 0; i < 100; ++i) {

size_t l = 0;

uint64_t t0 = ::__rdtsc();

- test_shadow.ScanRightForBracketingBlockEnd(0, offset + 1, &l);

+ test_shadow.ScanRightForBracketingBlockEnd(offset + 1, &l);

uint64_t t1 = ::__rdtsc();

tnet += t1 - t0;

}

@@ -533,7 +484,7 @@ TEST_F(ShadowTest, IsLeftOrRightRedzone) {

std::unique_ptr<uint8_t[]> data(new uint8_t[layout.block_size]);

BlockInfo info = {};

- BlockInitialize(layout, data.get(), false, &info);

+ BlockInitialize(layout, data.get(), &info);

test_shadow.PoisonAllocatedBlock(info);

uint8_t* block = reinterpret_cast<uint8_t*>(info.header);

@@ -557,58 +508,20 @@ TEST_F(ShadowTest, IsLeftOrRightRedzone) {

namespace {

-void TestBlockInfoFromShadow(Shadow* shadow,

- const BlockLayout& outer,

- const BlockLayout& nested) {

+void TestBlockInfoFromShadow(Shadow* shadow, const BlockLayout& block_layout) {

ASSERT_TRUE(shadow != nullptr);

- ASSERT_LE(nested.block_size, outer.body_size);

- uint8_t* data = new uint8_t[outer.block_size];

+ uint8_t* data = new uint8_t[block_layout.block_size];

- // Try recovering the block from every position within it when no nested

- // block exists. Expect finding a nested block to fail.

BlockInfo info = {};

- BlockInitialize(outer, data, false, &info);

+ BlockInitialize(block_layout, data, &info);

shadow->PoisonAllocatedBlock(info);

BlockInfo info_recovered = {};

for (size_t i = 0; i < info.block_size; ++i) {

EXPECT_TRUE(shadow->BlockInfoFromShadow(

info.RawBlock() + i, &info_recovered));

EXPECT_EQ(0, ::memcmp(&info, &info_recovered, sizeof(info)));

- // This block should have no parent block as its not nested.

- EXPECT_FALSE(shadow->ParentBlockInfoFromShadow(

- info, &info_recovered));

- }

- // Place a nested block and try the recovery from every position again.

- size_t padding = ::common::AlignDown(info.body_size - nested.block_size,

- kShadowRatio * 2);

- uint8_t* nested_begin = info.RawBody() + padding / 2;

- uint8_t* nested_end = nested_begin + nested.block_size;

- BlockInfo nested_info = {};

- BlockInitialize(nested, nested_begin, true, &nested_info);

- nested_info.header->is_nested = true;

- shadow->PoisonAllocatedBlock(nested_info);

- for (size_t i = 0; i < info.block_size; ++i) {

- uint8_t* pos = info.RawBlock() + i;

- EXPECT_TRUE(shadow->BlockInfoFromShadow(pos, &info_recovered));

- BlockInfo parent_info = {};

- bool found_parent = shadow->ParentBlockInfoFromShadow(

- info_recovered, &parent_info);

- if (pos >= nested_begin && pos < nested_end) {

- EXPECT_EQ(0, ::memcmp(&nested_info, &info_recovered,

- sizeof(nested_info)));

- EXPECT_TRUE(found_parent);

- EXPECT_EQ(0, ::memcmp(&info, &parent_info, sizeof(info)));

- } else {

- EXPECT_EQ(0, ::memcmp(&info, &info_recovered, sizeof(info)));

- EXPECT_FALSE(found_parent);

- }

}

- shadow->Unpoison(info.header, info.block_size);

delete [] data;

}

@@ -616,30 +529,21 @@ void TestBlockInfoFromShadow(Shadow* shadow,

} // namespace

TEST_F(ShadowTest, BlockInfoFromShadow) {

- // This is a simple layout that will be nested inside of another block.

BlockLayout layout0 = {};

EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 6, 0, 0, &layout0));

- // Plan two layouts, one with padding and another with none. The first has

- // exactly enough space for the nested block, while the second has room to

- // spare.

- BlockLayout layout1 = {};

- BlockLayout layout2 = {};

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio,

- static_cast<uint32_t>(

- ::common::AlignUp(layout0.block_size, kShadowRatio) + 4), 0, 0,

- &layout1));

- ASSERT_EQ(0u, layout1.header_padding_size);

- ASSERT_EQ(0u, layout1.trailer_padding_size);

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio,

- layout0.block_size + 2 * kShadowRatio, 32, 13, &layout2));

- ASSERT_LT(0u, layout2.header_padding_size);

- ASSERT_LT(0u, layout2.trailer_padding_size);

- EXPECT_NO_FATAL_FAILURE(TestBlockInfoFromShadow(

- &test_shadow, layout1, layout0));

- EXPECT_NO_FATAL_FAILURE(TestBlockInfoFromShadow(

- &test_shadow, layout2, layout0));

+ uint8_t* data = new uint8_t[layout0.block_size];

+ BlockInfo info = {};

+ BlockInitialize(layout0, data, &info);

+ test_shadow.PoisonAllocatedBlock(info);

+ BlockInfo info_recovered = {};

+ for (size_t i = 0; i < info.block_size; ++i) {

+ EXPECT_TRUE(

+ test_shadow.BlockInfoFromShadow(info.RawBlock() + i, &info_recovered));

+ EXPECT_EQ(0, ::memcmp(&info, &info_recovered, sizeof(info)));

+ }

+ delete[] data;

}

TEST_F(ShadowTest, IsBeginningOfBlockBody) {

@@ -650,7 +554,7 @@ TEST_F(ShadowTest, IsBeginningOfBlockBody) {

std::unique_ptr<uint8_t[]> data(new uint8_t[data_size]);

BlockInfo block_info = {};

- BlockInitialize(l, data.get(), false, &block_info);

+ BlockInitialize(l, data.get(), &block_info);

test_shadow.PoisonAllocatedBlock(block_info);

@@ -674,7 +578,7 @@ TEST_F(ShadowTest, IsBeginningOfBlockBodyForBlockOfSizeZero) {

std::unique_ptr<uint8_t[]> data(new uint8_t[data_size]);

BlockInfo block_info = {};

- BlockInitialize(l, data.get(), false, &block_info);

+ BlockInitialize(l, data.get(), &block_info);

test_shadow.PoisonAllocatedBlock(block_info);

@@ -758,22 +662,20 @@ class ShadowWalkerTest : public testing::Test {

} // namespace

TEST_F(ShadowWalkerTest, WalkEmptyRange) {

- ShadowWalker w(&test_shadow, true, &test_shadow, &test_shadow);

+ ShadowWalker w(&test_shadow, &test_shadow, &test_shadow);

BlockInfo i = {};

EXPECT_FALSE(w.Next(&i));

}

TEST_F(ShadowWalkerTest, WalkRangeAtEndOfAddressSpace) {

TestShadow ts1(4, 30); // 4GB.

- ShadowWalker w(

- &ts1, true,

- reinterpret_cast<const void*>(ts1.memory_size() - 100),

- reinterpret_cast<const void*>(ts1.memory_size()));

+ ShadowWalker w(&ts1, reinterpret_cast<const void*>(ts1.memory_size() - 100),

+ reinterpret_cast<const void*>(ts1.memory_size()));

BlockInfo i = {};

EXPECT_FALSE(w.Next(&i));

}

-TEST_F(ShadowWalkerTest, WalksNonNestedBlocks) {

+TEST_F(ShadowWalkerTest, WalksBlocks) {

BlockLayout l = {};

EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 7, 0, 0, &l));

@@ -784,9 +686,9 @@ TEST_F(ShadowWalkerTest, WalksNonNestedBlocks) {

uint8_t* data2 = data1 + l.block_size;

BlockInfo i0 = {}, i1 = {}, i2 = {};

- BlockInitialize(l, data0, false, &i0);

- BlockInitialize(l, data1, false, &i1);

- BlockInitialize(l, data2, false, &i2);

+ BlockInitialize(l, data0, &i0);

+ BlockInitialize(l, data1, &i1);

+ BlockInitialize(l, data2, &i2);

test_shadow.PoisonAllocatedBlock(i0);

test_shadow.PoisonAllocatedBlock(i1);

@@ -797,128 +699,11 @@ TEST_F(ShadowWalkerTest, WalksNonNestedBlocks) {

// Do a non-recursive walk through the shadow.

BlockInfo i = {};

- ShadowWalker w0(&test_shadow, false, data, data + data_size);

- EXPECT_EQ(-1, w0.nesting_depth());

- EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_FALSE(w0.Next(&i));

- EXPECT_EQ(-1, w0.nesting_depth());

- // Walk recursively through the shadow and expect the same results.

- ShadowWalker w1(&test_shadow, true, data, data + data_size);

- EXPECT_EQ(-1, w1.nesting_depth());

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i0, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i1, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i2, sizeof(i)));

- EXPECT_FALSE(w1.Next(&i));

- EXPECT_EQ(-1, w1.nesting_depth());

- test_shadow.Unpoison(data, data_size);

- delete [] data;

-TEST_F(ShadowWalkerTest, WalksNestedBlocks) {

- BlockLayout b0 = {}, b1 = {}, b2 = {}, b00 = {}, b01 = {}, b10 = {},

- b100 = {};

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 15, 30, 30, &b00));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 7, 0, 0, &b01));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio,

- b00.block_size + b01.block_size + kShadowRatio, 0, 0, &b0));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 7, 0, 0, &b100));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, b100.block_size, 0, 0,

- &b10));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, b10.block_size, 0, 0,

- &b1));

- EXPECT_TRUE(BlockPlanLayout(kShadowRatio, kShadowRatio, 100, 0, 0, &b2));

- size_t data_size = b0.block_size + b1.block_size + kShadowRatio +

- b2.block_size;

- uint8_t* data = new uint8_t[data_size];

- // Initialize the depth 0 blocks.

- uint8_t* d0 = data;

- uint8_t* d1 = d0 + b0.block_size;

- uint8_t* d2 = d1 + b1.block_size + kShadowRatio;

- BlockInfo i0 = {}, i1 = {}, i2 = {};

- BlockInitialize(b0, d0, false, &i0);

- BlockInitialize(b1, d1, false, &i1);

- BlockInitialize(b2, d2, false, &i2);

- test_shadow.PoisonAllocatedBlock(i0);

- test_shadow.PoisonAllocatedBlock(i1);

- test_shadow.PoisonAllocatedBlock(i2);

- // Initialize depth 1 blocks.

- uint8_t* d00 = i0.RawBody();

- uint8_t* d01 = d00 + b00.block_size + kShadowRatio;

- uint8_t* d10 = i1.RawBody();

- BlockInfo i00 = {}, i01 = {}, i10 = {};

- BlockInitialize(b00, d00, true, &i00);

- BlockInitialize(b01, d01, true, &i01);

- BlockInitialize(b10, d10, true, &i10);

- test_shadow.PoisonAllocatedBlock(i00);

- test_shadow.PoisonAllocatedBlock(i01);

- test_shadow.PoisonAllocatedBlock(i10);

- // Initialize depth 2 blocks.

- uint8_t* d100 = i10.RawBody();

- BlockInfo i100 = {};

- BlockInitialize(b100, d100, true, &i100);

- test_shadow.PoisonAllocatedBlock(i100);

- i100.header->state = QUARANTINED_FLOODED_BLOCK;

- test_shadow.MarkAsFreed(i100.body, i100.body_size);

- // Do a non-recursive walk through the shadow.

- BlockInfo i = {};

- ShadowWalker w0(&test_shadow, false, data, data + data_size);

- EXPECT_EQ(-1, w0.nesting_depth());

+ ShadowWalker w0(&test_shadow, data, data + data_size);

EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i0, sizeof(i)));

EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i1, sizeof(i)));

EXPECT_TRUE(w0.Next(&i));

- EXPECT_EQ(0, w0.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i2, sizeof(i)));

EXPECT_FALSE(w0.Next(&i));

- EXPECT_EQ(-1, w0.nesting_depth());

- // Walk recursively through the shadow.

- ShadowWalker w1(&test_shadow, true, data, data + data_size);

- EXPECT_EQ(-1, w1.nesting_depth());

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i0, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(1, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i00, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(1, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i01, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i1, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(1, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i10, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(2, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i100, sizeof(i)));

- EXPECT_TRUE(w1.Next(&i));

- EXPECT_EQ(0, w1.nesting_depth());

- EXPECT_EQ(0, ::memcmp(&i, &i2, sizeof(i)));

- EXPECT_FALSE(w1.Next(&i));

- EXPECT_EQ(-1, w1.nesting_depth());

test_shadow.Unpoison(data, data_size);

delete [] data;

@@ -967,7 +752,7 @@ TEST_F(ShadowWalkerTest, WalkShadowWithUncommittedRanges) {

uint8_t* page_address = ::common::AlignUp(

memory_block + i * GetPageSize() * kShadowRatio, kShadowRatio);

BlockInfo block_info = {};

- BlockInitialize(l, page_address, false, &block_info);

+ BlockInitialize(l, page_address, &block_info);

block_info_vec.push_back(block_info);

// Poison the block.

@@ -975,7 +760,7 @@ TEST_F(ShadowWalkerTest, WalkShadowWithUncommittedRanges) {

}

size_t block_count = 0;

- ShadowWalker w(&ts1, true, memory_block, memory_block + kMemorySize);

+ ShadowWalker w(&ts1, memory_block, memory_block + kMemorySize);

BlockInfo i = {};

while (w.Next(&i)) {

EXPECT_LT(block_count, block_info_vec.size());

« no previous file with comments | « syzygy/agent/asan/shadow_marker_unittest.cc ('k') | syzygy/agent/asan/unittest_util.cc » ('j') | no next file with comments »