// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "delta_encoder.h" #include #include "elf.h" #include "elf_traits.h" #include "testing/gtest/include/gtest/gtest.h" namespace { void AddRelocation(ELF::Addr addr, ELF::Sxword addend, std::vector* relocations) { ELF::Rela relocation; relocation.r_offset = addr; relocation.r_info = ELF_R_INFO(0, ELF::kRelativeRelocationCode); relocation.r_addend = addend; relocations->push_back(relocation); } bool CheckRelocation(ELF::Addr addr, ELF::Sxword addend, const ELF::Rela& relocation) { return relocation.r_offset == addr && ELF_R_SYM(relocation.r_info) == 0 && ELF_R_TYPE(relocation.r_info) == ELF::kRelativeRelocationCode && relocation.r_addend == addend; } } // namespace namespace relocation_packer { TEST(Delta, Encode) { std::vector relocations; std::vector packed; RelocationDeltaCodec codec; packed.clear(); codec.Encode(relocations, &packed); EXPECT_EQ(0, packed.size()); // Initial relocation. AddRelocation(0xf00d0000, 10000, &relocations); packed.clear(); codec.Encode(relocations, &packed); EXPECT_EQ(3, packed.size()); // One pair present. EXPECT_EQ(1, packed[0]); // Delta from the neutral element is the initial relocation. EXPECT_EQ(0xf00d0000, packed[1]); EXPECT_EQ(10000, packed[2]); // Add a second relocation, 4 byte offset delta, 12 byte addend delta. AddRelocation(0xf00d0004, 10012, &relocations); packed.clear(); codec.Encode(relocations, &packed); EXPECT_EQ(5, packed.size()); // Two pairs present. EXPECT_EQ(2, packed[0]); // Delta from the neutral element is the initial relocation. EXPECT_EQ(0xf00d0000, packed[1]); EXPECT_EQ(10000, packed[2]); // 4 byte offset delta, 12 byte addend delta. EXPECT_EQ(4, packed[3]); EXPECT_EQ(12, packed[4]); // Add a third relocation, 4 byte offset delta, 12 byte addend delta. AddRelocation(0xf00d0008, 10024, &relocations); // Add three more relocations, 8 byte offset deltas, -24 byte addend deltas. AddRelocation(0xf00d0010, 10000, &relocations); AddRelocation(0xf00d0018, 9976, &relocations); AddRelocation(0xf00d0020, 9952, &relocations); packed.clear(); codec.Encode(relocations, &packed); EXPECT_EQ(13, packed.size()); // Six pairs present. EXPECT_EQ(6, packed[0]); // Initial relocation. EXPECT_EQ(0xf00d0000, packed[1]); EXPECT_EQ(10000, packed[2]); // Two relocations, 4 byte offset deltas, 12 byte addend deltas. EXPECT_EQ(4, packed[3]); EXPECT_EQ(12, packed[4]); EXPECT_EQ(4, packed[5]); EXPECT_EQ(12, packed[6]); // Three relocations, 8 byte offset deltas, -24 byte addend deltas. EXPECT_EQ(8, packed[7]); EXPECT_EQ(-24, packed[8]); EXPECT_EQ(8, packed[9]); EXPECT_EQ(-24, packed[10]); EXPECT_EQ(8, packed[11]); EXPECT_EQ(-24, packed[12]); } TEST(Delta, Decode) { std::vector packed; std::vector relocations; RelocationDeltaCodec codec; codec.Decode(packed, &relocations); EXPECT_EQ(0, relocations.size()); // Six pairs. packed.push_back(6); // Initial relocation. packed.push_back(0xc0de0000); packed.push_back(10000); // Two relocations, 4 byte offset deltas, 12 byte addend deltas. packed.push_back(4); packed.push_back(12); packed.push_back(4); packed.push_back(12); // Three relocations, 8 byte offset deltas, -24 byte addend deltas. packed.push_back(8); packed.push_back(-24); packed.push_back(8); packed.push_back(-24); packed.push_back(8); packed.push_back(-24); relocations.clear(); codec.Decode(packed, &relocations); EXPECT_EQ(6, relocations.size()); // Initial relocation. EXPECT_TRUE(CheckRelocation(0xc0de0000, 10000, relocations[0])); // Two relocations, 4 byte offset deltas, 12 byte addend deltas. EXPECT_TRUE(CheckRelocation(0xc0de0004, 10012, relocations[1])); EXPECT_TRUE(CheckRelocation(0xc0de0008, 10024, relocations[2])); // Three relocations, 8 byte offset deltas, -24 byte addend deltas. EXPECT_TRUE(CheckRelocation(0xc0de0010, 10000, relocations[3])); EXPECT_TRUE(CheckRelocation(0xc0de0018, 9976, relocations[4])); EXPECT_TRUE(CheckRelocation(0xc0de0020, 9952, relocations[5])); } } // namespace relocation_packer