//===-- compression.cpp -----------------------------------------*- C++ -*-===// // // 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 "gwp_asan/stack_trace_compressor.h" #include "gwp_asan/tests/harness.h" namespace gwp_asan { namespace compression { TEST(GwpAsanCompressionTest, SingleByteVarInt) { uint8_t Compressed[1]; uintptr_t Uncompressed = 0x00; EXPECT_EQ(1u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x00); Uncompressed = 0x01; EXPECT_EQ(1u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x02); // +1 => 2 in zigzag. Uncompressed = 0x3f; EXPECT_EQ(1u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x7e); // +63 => 127 in zigzag. } TEST(GwpAsanCompressionTest, MultiByteVarInt) { uint8_t Compressed[sizeof(uintptr_t) + 1]; uintptr_t Uncompressed = 0x40; EXPECT_EQ(2u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x80); // +64 => 128 in zigzag. EXPECT_EQ(Compressed[1], 0x01); Uncompressed = 0x41; EXPECT_EQ(2u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x82); // +65 => 130 in zigzag EXPECT_EQ(Compressed[1], 0x01); Uncompressed = 0x1fff; EXPECT_EQ(2u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0xfe); // +8191 => 16382 in zigzag EXPECT_EQ(Compressed[1], 0x7f); Uncompressed = 0x2000; EXPECT_EQ(3u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0x80); // +8192 => 16384 in zigzag EXPECT_EQ(Compressed[1], 0x80); EXPECT_EQ(Compressed[2], 0x01); Uncompressed = 0x7f010ff0; EXPECT_EQ(5u, pack(&Uncompressed, 1u, Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[0], 0xe0); // +0x7f010ff0 => 0xFE021FE0 in zigzag EXPECT_EQ(Compressed[1], 0xbf); EXPECT_EQ(Compressed[2], 0x88); EXPECT_EQ(Compressed[3], 0xf0); EXPECT_EQ(Compressed[4], 0x0f); } TEST(GwpAsanCompressionTest, CorrectDifference) { uint8_t Compressed[10]; uintptr_t Uncompressed[2] = {0x00, 0x00}; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x00); // +0 difference => 0 in zigzag. Uncompressed[1] = 0x01; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x02); // +1 difference => 2 in zigzag. Uncompressed[1] = 0x02; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x04); // +2 difference => 4 in zigzag. Uncompressed[1] = 0x80; EXPECT_EQ(3u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x80); // +128 difference => +256 in zigzag (note the EXPECT_EQ(Compressed[2], 0x02); // varint encoding here). Uncompressed[0] = 0x01; Uncompressed[1] = 0x00; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x01); // -1 difference => +1 in zigzag. Uncompressed[0] = 0x02; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[1], 0x03); // -2 difference => +3 in zigzag. Uncompressed[0] = 0x80; EXPECT_EQ(4u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); EXPECT_EQ(Compressed[2], 0xff); // -128 difference => +255 in zigzag (note the EXPECT_EQ(Compressed[3], 0x01); // varint encoding here). } // Space needed to encode the biggest uintptr_t as a varint is ceil((8 / 7) * // sizeof(uintptr_t)), as each 7 bits requires 8 bits of space. constexpr size_t kBytesForLargestVarInt = (sizeof(uintptr_t) * 8) / 7 + 1; // Ensures that when the closest diff between two pointers is via. underflow, // we take the underflow option. TEST(GwpAsanCompressionTest, ClosestDiffIsUnderflow) { uint8_t Compressed[2]; uintptr_t Uncompressed[2] = {0x00, UINTPTR_MAX}; EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); // -1 difference => +1 in zigzag. EXPECT_EQ(Compressed[1], 0x01); } // Ensures that when the closest diff between two pointers is via. overflow, // that we take this option. TEST(GwpAsanCompressionTest, ClosestDiffIsOverflow) { uint8_t Compressed[2]; uintptr_t Uncompressed[2] = {UINTPTR_MAX, 0x00}; // Note here that the first element is encoded as the difference from zero. EXPECT_EQ(2u, pack(Uncompressed, sizeof(Uncompressed) / sizeof(uintptr_t), Compressed, sizeof(Compressed))); // -1 difference => +1 in zigzag (the first pointer is encoded as -1). EXPECT_EQ(Compressed[0], 0x01); // +1 difference => +2 in zigzag. EXPECT_EQ(Compressed[1], 0x02); } void runPackUnpack(uintptr_t *Test, size_t NumEntries) { // Setup the input/output buffers based on the maximum possible size. uintptr_t *Uncompressed = static_cast(alloca(NumEntries * sizeof(uintptr_t))); size_t CompressedBufferSize = NumEntries * kBytesForLargestVarInt; uint8_t *Compressed = static_cast(alloca(CompressedBufferSize)); // Pack the provided testcase, recoding the number of bytes it took for // storage. size_t BytesUsedForPacking = pack(Test, NumEntries, Compressed, CompressedBufferSize); EXPECT_NE(BytesUsedForPacking, 0u); // Unpack the testcase and ensure that the correct number of entries was // unpacked. EXPECT_EQ(NumEntries, unpack(Compressed, BytesUsedForPacking, Uncompressed, NumEntries)); // Ensure that the unpacked trace is the same as the original testcase. for (size_t i = 0; i < NumEntries; ++i) { EXPECT_EQ(Uncompressed[i], Test[i]); } } TEST(GwpAsanCompressionTest, UncompressVarInt) { uint8_t Compressed[] = {0x00, 0xaa, 0xaf, 0xd0, 0xda, 0x04}; uintptr_t Uncompressed[2]; EXPECT_EQ(2u, unpack(Compressed, sizeof(Compressed), Uncompressed, 2u)); EXPECT_EQ(Uncompressed[0], 0x00u); EXPECT_EQ(Uncompressed[1], 0x25aa0bd5u); } TEST(GwpAsanCompressionTest, UncompressVarIntUnderflow) { uint8_t Compressed[] = {0x00, 0xab, 0xaf, 0xd0, 0xda, 0x04}; uintptr_t Uncompressed[2]; EXPECT_EQ(2u, unpack(Compressed, sizeof(Compressed), Uncompressed, 2u)); EXPECT_EQ(Uncompressed[0], 0x00u); EXPECT_EQ(Uncompressed[1], UINTPTR_MAX - 0x25aa0bd5u); } TEST(GwpAsanCompressionTest, CompressUncompressAscending) { uintptr_t Test[] = {1, 2, 3}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressDescending) { uintptr_t Test[] = {3, 2, 1}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressRepeated) { uintptr_t Test[] = {3, 3, 3}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressZigZag) { uintptr_t Test[] = {1, 3, 2, 4, 1, 2}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressVarInt) { uintptr_t Test[] = {0x1981561, 0x18560, 0x25ab9135, 0x1232562}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressLargestDifference) { uintptr_t Test[] = {0x00, INTPTR_MAX, UINTPTR_MAX, INTPTR_MAX, 0x00}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, CompressUncompressBigPointers) { uintptr_t Test[] = {UINTPTR_MAX, UINTPTR_MAX - 10}; runPackUnpack(Test, sizeof(Test) / sizeof(uintptr_t)); uintptr_t Test2[] = {UINTPTR_MAX - 10, UINTPTR_MAX}; runPackUnpack(Test2, sizeof(Test2) / sizeof(uintptr_t)); } TEST(GwpAsanCompressionTest, UncompressFailsWithOutOfBoundsVarInt) { uint8_t Compressed[kBytesForLargestVarInt + 1]; for (size_t i = 0; i < kBytesForLargestVarInt; ++i) { Compressed[i] = 0x80; } Compressed[kBytesForLargestVarInt] = 0x00; uintptr_t Uncompressed; EXPECT_EQ(unpack(Compressed, kBytesForLargestVarInt + 1, &Uncompressed, 1), 0u); } TEST(GwpAsanCompressionTest, UncompressFailsWithTooSmallBuffer) { uint8_t Compressed[] = {0x80, 0x00}; uintptr_t Uncompressed; EXPECT_EQ(unpack(Compressed, 1u, &Uncompressed, 1), 0u); } TEST(GwpAsanCompressionTest, CompressPartiallySucceedsWithTooSmallBuffer) { uintptr_t Uncompressed[] = { 0x80, // Requires 2 bytes for varint. 0x100, // Requires two bytes for varint difference of 0x80. 0xff, // Requires single byte for varint difference of -0x01 }; uint8_t Compressed[3 * kBytesForLargestVarInt]; // Zero and one byte buffers shouldn't encode anything (see above for size // requirements). EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 0u), 0u); EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 1u), 0u); // Two byte buffer should hold a single varint-encoded value. EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 2u), 2u); // Three bytes isn't enough to cover the first two pointers, as both take two // bytes each to store. Expect a single value to be compressed. EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 3u), 2u); // Four bytes is enough for the first two pointers to be stored. EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 4u), 4u); // And five is enough for all three pointers to be stored. EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 5u), 5u); // And a buffer that's bigger than five bytes should still only write five // bytes. EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 6u), 5u); EXPECT_EQ(pack(Uncompressed, 3u, Compressed, 3 * kBytesForLargestVarInt), 5u); } } // namespace compression } // namespace gwp_asan