third_party/llvm-7.0/llvm/unittests/DebugInfo/MSF/MSFCommonTest.cpp - SwiftShader - Git at Google

 //===- MSFBuilderTest.cpp  Tests manipulation of MSF stream metadata ------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/DebugInfo/MSF/MSFCommon.h"
 #include "llvm/Testing/Support/Error.h"

 #include "gtest/gtest.h"

 using namespace llvm;
 using namespace llvm::msf;

 TEST(MSFCommonTest, BytesToBlocks) {
   EXPECT_EQ(0ULL, bytesToBlocks(0, 4096));
   EXPECT_EQ(1ULL, bytesToBlocks(12, 4096));
   EXPECT_EQ(1ULL, bytesToBlocks(4096, 4096));
   EXPECT_EQ(2ULL, bytesToBlocks(4097, 4096));
   EXPECT_EQ(2ULL, bytesToBlocks(600, 512));
 }

 TEST(MSFCommonTest, FpmIntervals) {
   SuperBlock SB;
   SB.FreeBlockMapBlock = 1;
   SB.BlockSize = 4096;

   MSFLayout L;
   L.SB = &SB;

   SB.NumBlocks = 12;
   EXPECT_EQ(1u, getNumFpmIntervals(L, false));
   SB.NumBlocks = SB.BlockSize;
   EXPECT_EQ(1u, getNumFpmIntervals(L, false));
   SB.NumBlocks = SB.BlockSize + 1;
   EXPECT_EQ(1u, getNumFpmIntervals(L, false));
   SB.NumBlocks = SB.BlockSize * 8;
   EXPECT_EQ(1u, getNumFpmIntervals(L, false));
   SB.NumBlocks = SB.BlockSize * 8 + 1;
   EXPECT_EQ(2u, getNumFpmIntervals(L, false));

   SB.NumBlocks = 12;
   EXPECT_EQ(1u, getNumFpmIntervals(L, true));
   SB.NumBlocks = SB.BlockSize;
   EXPECT_EQ(1u, getNumFpmIntervals(L, true));
   SB.NumBlocks = SB.BlockSize * 8;
   EXPECT_EQ(8u, getNumFpmIntervals(L, true));

   // The FPM is going to look like this:
   // |  0  |   1   |   2   |  ...  |  4096  |  4097  |  4098  | ... |
   // | SB  |  FPM0 | FPM1  | Data  |  Data  |  FPM0  |  FPM1  | ... |
   //
   // So when there are up to 4097 blocks (last index 4096), the final blocks
   // are data blocks.  When there are 4098 blocks (last index 4097), there is
   // one terminating FPM block, and when there are 4099 blocks, there are two
   // terminating FPM blocks.  Make sure all these cases are handled.

   // With 4096 or 4097 blocks, the last block is a data block so we only have
   // 1 interval.
   for (uint32_t I : {4096, 4097}) {
     // 1 FPM0 interval
     EXPECT_EQ(1U, getNumFpmIntervals(4096, I, true, 1));
     EXPECT_EQ(1U, getNumFpmIntervals(4096, I, false, 1));

     // 1 FPM1 interval
     EXPECT_EQ(1U, getNumFpmIntervals(4096, I, true, 2));
     EXPECT_EQ(1U, getNumFpmIntervals(4096, I, false, 2));
   }

   // With 4098 blocks, the last block belongs to FPM0 so we should have 2 FPM0
   // intervals.
   EXPECT_EQ(2U, getNumFpmIntervals(4096, 4098, true, 1));
   EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, false, 1));

   // And 1 FPM1 interval.
   EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, true, 2));
   EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, false, 2));

   // With 4099 blocks, the last block belongs to FPM1 so we should have 2
   // FPM0 intervals.
   EXPECT_EQ(2U, getNumFpmIntervals(4096, 4099, true, 1));
   EXPECT_EQ(1U, getNumFpmIntervals(4096, 4099, false, 1));

   // And 2 FPM1 intervals.
   EXPECT_EQ(2U, getNumFpmIntervals(4096, 4099, true, 2));
   EXPECT_EQ(1U, getNumFpmIntervals(4096, 4099, false, 2));
 }

 TEST(MSFCommonTest, FpmStreamLayout) {
   SuperBlock SB;
   MSFLayout L;
   L.SB = &SB;
   SB.FreeBlockMapBlock = 1;

   // Each FPM block has 4096 bytes for a maximum of 4096*8 allocation states.
   SB.BlockSize = 4096;

   // 1. When we're not including unused FPM data, the length of the FPM stream
   //    should be only long enough to contain 1 bit for each block.

   // 1a. When the PDB has <= 4096*8 blocks, there should only be one FPM block.
   SB.NumBlocks = 8000;
   MSFStreamLayout SL = getFpmStreamLayout(L, false, false);
   EXPECT_EQ(1000u, SL.Length);
   EXPECT_EQ(1u, SL.Blocks.size());
   EXPECT_EQ(SB.FreeBlockMapBlock, SL.Blocks.front());

   SL = getFpmStreamLayout(L, false, true);
   EXPECT_EQ(1000u, SL.Length);
   EXPECT_EQ(1u, SL.Blocks.size());
   EXPECT_EQ(3u - SB.FreeBlockMapBlock, SL.Blocks.front());

   // 1b. When the PDB has > 4096*8 blocks, there should be multiple FPM blocks.
   SB.NumBlocks = SB.BlockSize * 8 + 1;
   SL = getFpmStreamLayout(L, false, false);
   EXPECT_EQ(SB.BlockSize + 1, SL.Length);
   EXPECT_EQ(2u, SL.Blocks.size());
   EXPECT_EQ(SB.FreeBlockMapBlock, SL.Blocks[0]);
   EXPECT_EQ(SB.FreeBlockMapBlock + SB.BlockSize, SL.Blocks[1]);

   SL = getFpmStreamLayout(L, false, true);
   EXPECT_EQ(SB.BlockSize + 1, SL.Length);
   EXPECT_EQ(2u, SL.Blocks.size());
   EXPECT_EQ(3u - SB.FreeBlockMapBlock, SL.Blocks[0]);
   EXPECT_EQ(3u - SB.FreeBlockMapBlock + SB.BlockSize, SL.Blocks[1]);

   // 2. When we are including unused FPM data, there should be one FPM block
   //    at every BlockSize interval in the file, even if entire FPM blocks are
   //    unused.
   SB.NumBlocks = SB.BlockSize * 8 + 3;
   SL = getFpmStreamLayout(L, true, false);
   EXPECT_EQ(SB.BlockSize * 9, SL.Length);
   EXPECT_EQ(9u, SL.Blocks.size());
   for (int I = 0; I < 9; ++I)
     EXPECT_EQ(I * SB.BlockSize + SB.FreeBlockMapBlock, SL.Blocks[I]);
 }
	//===- MSFBuilderTest.cpp Tests manipulation of MSF stream metadata ------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/DebugInfo/MSF/MSFCommon.h"
	#include "llvm/Testing/Support/Error.h"

	#include "gtest/gtest.h"

	using namespace llvm;
	using namespace llvm::msf;

	TEST(MSFCommonTest, BytesToBlocks) {
	EXPECT_EQ(0ULL, bytesToBlocks(0, 4096));
	EXPECT_EQ(1ULL, bytesToBlocks(12, 4096));
	EXPECT_EQ(1ULL, bytesToBlocks(4096, 4096));
	EXPECT_EQ(2ULL, bytesToBlocks(4097, 4096));
	EXPECT_EQ(2ULL, bytesToBlocks(600, 512));
	}

	TEST(MSFCommonTest, FpmIntervals) {
	SuperBlock SB;
	SB.FreeBlockMapBlock = 1;
	SB.BlockSize = 4096;

	MSFLayout L;
	L.SB = &SB;

	SB.NumBlocks = 12;
	EXPECT_EQ(1u, getNumFpmIntervals(L, false));
	SB.NumBlocks = SB.BlockSize;
	EXPECT_EQ(1u, getNumFpmIntervals(L, false));
	SB.NumBlocks = SB.BlockSize + 1;
	EXPECT_EQ(1u, getNumFpmIntervals(L, false));
	SB.NumBlocks = SB.BlockSize * 8;
	EXPECT_EQ(1u, getNumFpmIntervals(L, false));
	SB.NumBlocks = SB.BlockSize * 8 + 1;
	EXPECT_EQ(2u, getNumFpmIntervals(L, false));

	SB.NumBlocks = 12;
	EXPECT_EQ(1u, getNumFpmIntervals(L, true));
	SB.NumBlocks = SB.BlockSize;
	EXPECT_EQ(1u, getNumFpmIntervals(L, true));
	SB.NumBlocks = SB.BlockSize * 8;
	EXPECT_EQ(8u, getNumFpmIntervals(L, true));

	// The FPM is going to look like this:
	// \| 0 \| 1 \| 2 \| ... \| 4096 \| 4097 \| 4098 \| ... \|
	// \| SB \| FPM0 \| FPM1 \| Data \| Data \| FPM0 \| FPM1 \| ... \|
	//
	// So when there are up to 4097 blocks (last index 4096), the final blocks
	// are data blocks. When there are 4098 blocks (last index 4097), there is
	// one terminating FPM block, and when there are 4099 blocks, there are two
	// terminating FPM blocks. Make sure all these cases are handled.

	// With 4096 or 4097 blocks, the last block is a data block so we only have
	// 1 interval.
	for (uint32_t I : {4096, 4097}) {
	// 1 FPM0 interval
	EXPECT_EQ(1U, getNumFpmIntervals(4096, I, true, 1));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, I, false, 1));

	// 1 FPM1 interval
	EXPECT_EQ(1U, getNumFpmIntervals(4096, I, true, 2));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, I, false, 2));
	}

	// With 4098 blocks, the last block belongs to FPM0 so we should have 2 FPM0
	// intervals.
	EXPECT_EQ(2U, getNumFpmIntervals(4096, 4098, true, 1));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, false, 1));

	// And 1 FPM1 interval.
	EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, true, 2));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, 4098, false, 2));

	// With 4099 blocks, the last block belongs to FPM1 so we should have 2
	// FPM0 intervals.
	EXPECT_EQ(2U, getNumFpmIntervals(4096, 4099, true, 1));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, 4099, false, 1));

	// And 2 FPM1 intervals.
	EXPECT_EQ(2U, getNumFpmIntervals(4096, 4099, true, 2));
	EXPECT_EQ(1U, getNumFpmIntervals(4096, 4099, false, 2));
	}

	TEST(MSFCommonTest, FpmStreamLayout) {
	SuperBlock SB;
	MSFLayout L;
	L.SB = &SB;
	SB.FreeBlockMapBlock = 1;

	// Each FPM block has 4096 bytes for a maximum of 4096*8 allocation states.
	SB.BlockSize = 4096;

	// 1. When we're not including unused FPM data, the length of the FPM stream
	// should be only long enough to contain 1 bit for each block.

	// 1a. When the PDB has <= 4096*8 blocks, there should only be one FPM block.
	SB.NumBlocks = 8000;
	MSFStreamLayout SL = getFpmStreamLayout(L, false, false);
	EXPECT_EQ(1000u, SL.Length);
	EXPECT_EQ(1u, SL.Blocks.size());
	EXPECT_EQ(SB.FreeBlockMapBlock, SL.Blocks.front());

	SL = getFpmStreamLayout(L, false, true);
	EXPECT_EQ(1000u, SL.Length);
	EXPECT_EQ(1u, SL.Blocks.size());
	EXPECT_EQ(3u - SB.FreeBlockMapBlock, SL.Blocks.front());

	// 1b. When the PDB has > 4096*8 blocks, there should be multiple FPM blocks.
	SB.NumBlocks = SB.BlockSize * 8 + 1;
	SL = getFpmStreamLayout(L, false, false);
	EXPECT_EQ(SB.BlockSize + 1, SL.Length);
	EXPECT_EQ(2u, SL.Blocks.size());
	EXPECT_EQ(SB.FreeBlockMapBlock, SL.Blocks[0]);
	EXPECT_EQ(SB.FreeBlockMapBlock + SB.BlockSize, SL.Blocks[1]);

	SL = getFpmStreamLayout(L, false, true);
	EXPECT_EQ(SB.BlockSize + 1, SL.Length);
	EXPECT_EQ(2u, SL.Blocks.size());
	EXPECT_EQ(3u - SB.FreeBlockMapBlock, SL.Blocks[0]);
	EXPECT_EQ(3u - SB.FreeBlockMapBlock + SB.BlockSize, SL.Blocks[1]);

	// 2. When we are including unused FPM data, there should be one FPM block
	// at every BlockSize interval in the file, even if entire FPM blocks are
	// unused.
	SB.NumBlocks = SB.BlockSize * 8 + 3;
	SL = getFpmStreamLayout(L, true, false);
	EXPECT_EQ(SB.BlockSize * 9, SL.Length);
	EXPECT_EQ(9u, SL.Blocks.size());
	for (int I = 0; I < 9; ++I)
	EXPECT_EQ(I * SB.BlockSize + SB.FreeBlockMapBlock, SL.Blocks[I]);
	}