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//===- MSFBuilderTest.cpp Tests manipulation of MSF stream metadata ------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/DebugInfo/MSF/MSFBuilder.h"
#include "llvm/DebugInfo/MSF/MSFCommon.h"
#include "llvm/Testing/Support/Error.h"
#include "gmock/gmock-matchers.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
using namespace llvm;
using namespace llvm::msf;
using namespace testing;
namespace {
class MSFBuilderTest : public testing::Test {
protected:
void initializeSimpleSuperBlock(msf::SuperBlock &SB) {
initializeSuperBlock(SB);
SB.NumBlocks = 1000;
SB.NumDirectoryBytes = 8192;
}
void initializeSuperBlock(msf::SuperBlock &SB) {
::memset(&SB, 0, sizeof(SB));
::memcpy(SB.MagicBytes, msf::Magic, sizeof(msf::Magic));
SB.FreeBlockMapBlock = 1;
SB.BlockMapAddr = 1;
SB.BlockSize = 4096;
SB.NumDirectoryBytes = 0;
SB.NumBlocks = 2; // one for the Super Block, one for the directory
}
BumpPtrAllocator Allocator;
};
} // namespace
TEST_F(MSFBuilderTest, ValidateSuperBlockAccept) {
// Test that a known good super block passes validation.
SuperBlock SB;
initializeSuperBlock(SB);
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Succeeded());
}
TEST_F(MSFBuilderTest, ValidateSuperBlockReject) {
// Test that various known problems cause a super block to be rejected.
SuperBlock SB;
initializeSimpleSuperBlock(SB);
// Mismatched magic
SB.MagicBytes[0] = 8;
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// Block 0 is reserved for super block, can't be occupied by the block map
SB.BlockMapAddr = 0;
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// Block sizes have to be powers of 2.
SB.BlockSize = 3120;
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// The directory itself has a maximum size.
SB.NumDirectoryBytes = SB.BlockSize * SB.BlockSize / 4;
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Succeeded());
SB.NumDirectoryBytes = SB.NumDirectoryBytes + 4;
EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
}
TEST_F(MSFBuilderTest, TestUsedBlocksMarkedAsUsed) {
// Test that when assigning a stream to a known list of blocks, the blocks
// are correctly marked as used after adding, but no other incorrect blocks
// are accidentally marked as used.
std::vector<uint32_t> Blocks = {4, 5, 6, 7, 8, 9, 10, 11, 12};
// Allocate some extra blocks at the end so we can verify that they're free
// after the initialization.
uint32_t NumBlocks = msf::getMinimumBlockCount() + Blocks.size() + 10;
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096, NumBlocks);
ASSERT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(Blocks.size() * 4096, Blocks),
Succeeded());
for (auto B : Blocks) {
EXPECT_FALSE(Msf.isBlockFree(B));
}
uint32_t FreeBlockStart = Blocks.back() + 1;
for (uint32_t I = FreeBlockStart; I < NumBlocks; ++I) {
EXPECT_TRUE(Msf.isBlockFree(I));
}
}
TEST_F(MSFBuilderTest, TestAddStreamNoDirectoryBlockIncrease) {
// Test that adding a new stream correctly updates the directory. This only
// tests the case where the directory *DOES NOT* grow large enough that it
// crosses a Block boundary.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
auto ExpectedL1 = Msf.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedL1, Succeeded());
MSFLayout &L1 = *ExpectedL1;
auto OldDirBlocks = L1.DirectoryBlocks;
EXPECT_EQ(1U, OldDirBlocks.size());
auto ExpectedMsf2 = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf2, Succeeded());
auto &Msf2 = *ExpectedMsf2;
EXPECT_THAT_EXPECTED(Msf2.addStream(4000), Succeeded());
EXPECT_EQ(1U, Msf2.getNumStreams());
EXPECT_EQ(4000U, Msf2.getStreamSize(0));
auto Blocks = Msf2.getStreamBlocks(0);
EXPECT_EQ(1U, Blocks.size());
auto ExpectedL2 = Msf2.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedL2, Succeeded());
MSFLayout &L2 = *ExpectedL2;
auto NewDirBlocks = L2.DirectoryBlocks;
EXPECT_EQ(1U, NewDirBlocks.size());
}
TEST_F(MSFBuilderTest, TestAddStreamWithDirectoryBlockIncrease) {
// Test that adding a new stream correctly updates the directory. This only
// tests the case where the directory *DOES* grow large enough that it
// crosses a Block boundary. This is because the newly added stream occupies
// so many Blocks that need to be indexed in the directory that the directory
// crosses a Block boundary.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(4096 * 4096 / sizeof(uint32_t)),
Succeeded());
auto ExpectedL1 = Msf.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedL1, Succeeded());
MSFLayout &L1 = *ExpectedL1;
auto DirBlocks = L1.DirectoryBlocks;
EXPECT_EQ(2U, DirBlocks.size());
}
TEST_F(MSFBuilderTest, TestGrowStreamNoBlockIncrease) {
// Test growing an existing stream by a value that does not affect the number
// of blocks it occupies.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(1024), Succeeded());
EXPECT_EQ(1024U, Msf.getStreamSize(0));
auto OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
EXPECT_THAT_ERROR(Msf.setStreamSize(0, 2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
auto NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
EXPECT_EQ(OldStreamBlocks, NewStreamBlocks);
}
TEST_F(MSFBuilderTest, TestGrowStreamWithBlockIncrease) {
// Test that growing an existing stream to a value large enough that it causes
// the need to allocate new Blocks to the stream correctly updates the
// stream's
// block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
EXPECT_THAT_ERROR(Msf.setStreamSize(0, 6144), Succeeded());
EXPECT_EQ(6144U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(2U, NewStreamBlocks.size());
EXPECT_EQ(OldStreamBlocks[0], NewStreamBlocks[0]);
EXPECT_NE(NewStreamBlocks[0], NewStreamBlocks[1]);
}
TEST_F(MSFBuilderTest, TestShrinkStreamNoBlockDecrease) {
// Test that shrinking an existing stream by a value that does not affect the
// number of Blocks it occupies makes no changes to stream's block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
EXPECT_THAT_ERROR(Msf.setStreamSize(0, 1024), Succeeded());
EXPECT_EQ(1024U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
EXPECT_EQ(OldStreamBlocks, NewStreamBlocks);
}
TEST_F(MSFBuilderTest, TestShrinkStreamWithBlockDecrease) {
// Test that shrinking an existing stream to a value large enough that it
// causes the need to deallocate new Blocks to the stream correctly updates
// the stream's block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(6144), Succeeded());
EXPECT_EQ(6144U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(2U, OldStreamBlocks.size());
EXPECT_THAT_ERROR(Msf.setStreamSize(0, 2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
EXPECT_EQ(OldStreamBlocks[0], NewStreamBlocks[0]);
}
TEST_F(MSFBuilderTest, TestRejectReusedStreamBlock) {
// Test that attempting to add a stream and assigning a block that is already
// in use by another stream fails.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
EXPECT_THAT_EXPECTED(Msf.addStream(6144), Succeeded());
std::vector<uint32_t> Blocks = {2, 3};
EXPECT_THAT_EXPECTED(Msf.addStream(6144, Blocks), Failed());
}
TEST_F(MSFBuilderTest, TestBlockCountsWhenAddingStreams) {
// Test that when adding multiple streams, the number of used and free Blocks
// allocated to the MSF file are as expected.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
// one for the super block, one for the directory block map
uint32_t NumUsedBlocks = Msf.getNumUsedBlocks();
EXPECT_EQ(msf::getMinimumBlockCount(), NumUsedBlocks);
EXPECT_EQ(0U, Msf.getNumFreeBlocks());
const uint32_t StreamSizes[] = {4000, 6193, 189723};
for (int I = 0; I < 3; ++I) {
EXPECT_THAT_EXPECTED(Msf.addStream(StreamSizes[I]), Succeeded());
NumUsedBlocks += bytesToBlocks(StreamSizes[I], 4096);
EXPECT_EQ(NumUsedBlocks, Msf.getNumUsedBlocks());
EXPECT_EQ(0U, Msf.getNumFreeBlocks());
}
}
TEST_F(MSFBuilderTest, BuildMsfLayout) {
// Test that we can generate an MSFLayout structure from a valid layout
// specification.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
const uint32_t StreamSizes[] = {4000, 6193, 189723};
uint32_t ExpectedNumBlocks = msf::getMinimumBlockCount();
for (int I = 0; I < 3; ++I) {
EXPECT_THAT_EXPECTED(Msf.addStream(StreamSizes[I]), Succeeded());
ExpectedNumBlocks += bytesToBlocks(StreamSizes[I], 4096);
}
++ExpectedNumBlocks; // The directory itself should use 1 block
auto ExpectedLayout = Msf.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(4096U, L.SB->BlockSize);
EXPECT_EQ(ExpectedNumBlocks, L.SB->NumBlocks);
EXPECT_EQ(1U, L.DirectoryBlocks.size());
EXPECT_EQ(3U, L.StreamMap.size());
EXPECT_EQ(3U, L.StreamSizes.size());
for (int I = 0; I < 3; ++I) {
EXPECT_EQ(StreamSizes[I], L.StreamSizes[I]);
uint32_t ExpectedNumBlocks = bytesToBlocks(StreamSizes[I], 4096);
EXPECT_EQ(ExpectedNumBlocks, L.StreamMap[I].size());
}
}
TEST_F(MSFBuilderTest, UseDirectoryBlockHint) {
Expected<MSFBuilder> ExpectedMsf = MSFBuilder::create(
Allocator, 4096, msf::getMinimumBlockCount() + 1, false);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1}), Succeeded());
EXPECT_THAT_EXPECTED(Msf.addStream(2048, {B + 2}), Succeeded());
auto ExpectedLayout = Msf.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(msf::getMinimumBlockCount() + 2, L.SB->NumBlocks);
EXPECT_EQ(1U, L.DirectoryBlocks.size());
EXPECT_EQ(1U, L.StreamMap[0].size());
EXPECT_EQ(B + 1, L.DirectoryBlocks[0]);
EXPECT_EQ(B + 2, L.StreamMap[0].front());
}
TEST_F(MSFBuilderTest, DirectoryBlockHintInsufficient) {
Expected<MSFBuilder> ExpectedMsf =
MSFBuilder::create(Allocator, 4096, msf::getMinimumBlockCount() + 2);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1}), Succeeded());
uint32_t Size = 4096 * 4096 / 4;
EXPECT_THAT_EXPECTED(Msf.addStream(Size), Succeeded());
auto ExpectedLayout = Msf.generateLayout();
EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(2U, L.DirectoryBlocks.size());
EXPECT_EQ(B + 1, L.DirectoryBlocks[0]);
}
TEST_F(MSFBuilderTest, DirectoryBlockHintOverestimated) {
Expected<MSFBuilder> ExpectedMsf =
MSFBuilder::create(Allocator, 4096, msf::getMinimumBlockCount() + 2);
EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1, B + 2}), Succeeded());
ASSERT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
auto ExpectedLayout = Msf.generateLayout();
ASSERT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(1U, L.DirectoryBlocks.size());
EXPECT_EQ(B + 1, L.DirectoryBlocks[0]);
}
TEST_F(MSFBuilderTest, StreamDoesntUseFpmBlocks) {
Expected<MSFBuilder> ExpectedMsf = MSFBuilder::create(Allocator, 4096);
ASSERT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
// A block is 4096 bytes, and every 4096 blocks we have 2 reserved FPM blocks.
// By creating add a stream that spans 4096*4096*3 bytes, we ensure that we
// cross over a couple of reserved FPM blocks, and that none of them are
// allocated to the stream.
constexpr uint32_t StreamSize = 4096 * 4096 * 3;
Expected<uint32_t> SN = Msf.addStream(StreamSize);
ASSERT_THAT_EXPECTED(SN, Succeeded());
auto ExpectedLayout = Msf.generateLayout();
ASSERT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
auto BlocksRef = L.StreamMap[*SN];
std::vector<uint32_t> Blocks(BlocksRef.begin(), BlocksRef.end());
EXPECT_EQ(StreamSize, L.StreamSizes[*SN]);
for (uint32_t I = 0; I <= 3; ++I) {
// Pages from both FPMs are always allocated.
EXPECT_FALSE(L.FreePageMap.test(2 + I * 4096));
EXPECT_FALSE(L.FreePageMap.test(1 + I * 4096));
}
for (uint32_t I = 1; I <= 3; ++I) {
EXPECT_THAT(Blocks, Not(Contains(1 + I * 4096)));
EXPECT_THAT(Blocks, Not(Contains(2 + I * 4096)));
}
}
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