//===-- checksum_test.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 "tests/scudo_unit_test.h" #include "checksum.h" #include scudo::u16 computeSoftwareChecksum(scudo::u32 Seed, scudo::uptr *Array, scudo::uptr ArraySize) { scudo::u16 Checksum = static_cast(Seed & 0xffff); for (scudo::uptr I = 0; I < ArraySize; I++) Checksum = scudo::computeBSDChecksum(Checksum, Array[I]); return Checksum; } scudo::u16 computeHardwareChecksum(scudo::u32 Seed, scudo::uptr *Array, scudo::uptr ArraySize) { scudo::u32 Crc = Seed; for (scudo::uptr I = 0; I < ArraySize; I++) Crc = scudo::computeHardwareCRC32(Crc, Array[I]); return static_cast((Crc & 0xffff) ^ (Crc >> 16)); } typedef scudo::u16 (*ComputeChecksum)(scudo::u32, scudo::uptr *, scudo::uptr); // This verifies that flipping bits in the data being checksummed produces a // different checksum. We do not use random data to avoid flakyness. template void verifyChecksumFunctionBitFlip() { scudo::uptr Array[sizeof(scudo::u64) / sizeof(scudo::uptr)]; const scudo::uptr ArraySize = ARRAY_SIZE(Array); memset(Array, 0xaa, sizeof(Array)); const scudo::u32 Seed = 0x41424343U; const scudo::u16 Reference = F(Seed, Array, ArraySize); scudo::u8 IdenticalChecksums = 0; for (scudo::uptr I = 0; I < ArraySize; I++) { for (scudo::uptr J = 0; J < SCUDO_WORDSIZE; J++) { Array[I] ^= scudo::uptr{1} << J; if (F(Seed, Array, ArraySize) == Reference) IdenticalChecksums++; Array[I] ^= scudo::uptr{1} << J; } } // Allow for a couple of identical checksums over the whole set of flips. EXPECT_LE(IdenticalChecksums, 2); } TEST(ScudoChecksumTest, ChecksumFunctions) { verifyChecksumFunctionBitFlip(); if (&scudo::computeHardwareCRC32 && scudo::hasHardwareCRC32()) verifyChecksumFunctionBitFlip(); }