/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "multi_oat_relative_patcher.h" #include "compiled_method.h" #include "debug/method_debug_info.h" #include "gtest/gtest.h" #include "linker/linker_patch.h" #include "stream/vector_output_stream.h" namespace art { namespace linker { static const MethodReference kNullMethodRef = MethodReference(nullptr, 0u); class MultiOatRelativePatcherTest : public testing::Test { protected: class MockPatcher : public RelativePatcher { public: MockPatcher() { } uint32_t ReserveSpace(uint32_t offset, const CompiledMethod* compiled_method ATTRIBUTE_UNUSED, MethodReference method_ref) override { last_reserve_offset_ = offset; last_reserve_method_ = method_ref; offset += next_reserve_adjustment_; next_reserve_adjustment_ = 0u; return offset; } uint32_t ReserveSpaceEnd(uint32_t offset) override { last_reserve_offset_ = offset; last_reserve_method_ = kNullMethodRef; offset += next_reserve_adjustment_; next_reserve_adjustment_ = 0u; return offset; } uint32_t WriteThunks(OutputStream* out, uint32_t offset) override { last_write_offset_ = offset; if (next_write_alignment_ != 0u) { offset += next_write_alignment_; bool success = WriteCodeAlignment(out, next_write_alignment_); CHECK(success); next_write_alignment_ = 0u; } if (next_write_call_thunk_ != 0u) { offset += next_write_call_thunk_; std::vector thunk(next_write_call_thunk_, 'c'); bool success = WriteThunk(out, ArrayRef(thunk)); CHECK(success); next_write_call_thunk_ = 0u; } if (next_write_misc_thunk_ != 0u) { offset += next_write_misc_thunk_; std::vector thunk(next_write_misc_thunk_, 'm'); bool success = WriteMiscThunk(out, ArrayRef(thunk)); CHECK(success); next_write_misc_thunk_ = 0u; } return offset; } void PatchCall(std::vector* code ATTRIBUTE_UNUSED, uint32_t literal_offset, uint32_t patch_offset, uint32_t target_offset) override { last_literal_offset_ = literal_offset; last_patch_offset_ = patch_offset; last_target_offset_ = target_offset; } void PatchPcRelativeReference(std::vector* code ATTRIBUTE_UNUSED, const LinkerPatch& patch, uint32_t patch_offset, uint32_t target_offset) override { last_literal_offset_ = patch.LiteralOffset(); last_patch_offset_ = patch_offset; last_target_offset_ = target_offset; } void PatchEntrypointCall(std::vector* code ATTRIBUTE_UNUSED, const LinkerPatch& patch ATTRIBUTE_UNUSED, uint32_t patch_offset ATTRIBUTE_UNUSED) override { LOG(FATAL) << "UNIMPLEMENTED"; } void PatchBakerReadBarrierBranch(std::vector* code ATTRIBUTE_UNUSED, const LinkerPatch& patch ATTRIBUTE_UNUSED, uint32_t patch_offset ATTRIBUTE_UNUSED) override { LOG(FATAL) << "UNIMPLEMENTED"; } std::vector GenerateThunkDebugInfo( uint32_t executable_offset ATTRIBUTE_UNUSED) override { LOG(FATAL) << "UNIMPLEMENTED"; UNREACHABLE(); } uint32_t last_reserve_offset_ = 0u; MethodReference last_reserve_method_ = kNullMethodRef; uint32_t next_reserve_adjustment_ = 0u; uint32_t last_write_offset_ = 0u; uint32_t next_write_alignment_ = 0u; uint32_t next_write_call_thunk_ = 0u; uint32_t next_write_misc_thunk_ = 0u; uint32_t last_literal_offset_ = 0u; uint32_t last_patch_offset_ = 0u; uint32_t last_target_offset_ = 0u; }; MultiOatRelativePatcherTest() : instruction_set_features_(InstructionSetFeatures::FromCppDefines()), patcher_(kRuntimeISA, instruction_set_features_.get(), /* storage */ nullptr) { std::unique_ptr mock(new MockPatcher()); mock_ = mock.get(); patcher_.relative_patcher_ = std::move(mock); } std::unique_ptr instruction_set_features_; MultiOatRelativePatcher patcher_; MockPatcher* mock_; }; TEST_F(MultiOatRelativePatcherTest, Offsets) { const DexFile* dex_file = reinterpret_cast(1); MethodReference ref1(dex_file, 1u); MethodReference ref2(dex_file, 2u); EXPECT_EQ(0u, patcher_.GetOffset(ref1)); EXPECT_EQ(0u, patcher_.GetOffset(ref2)); uint32_t adjustment1 = 0x1000; patcher_.StartOatFile(adjustment1); EXPECT_EQ(0u, patcher_.GetOffset(ref1)); EXPECT_EQ(0u, patcher_.GetOffset(ref2)); uint32_t off1 = 0x1234; patcher_.SetOffset(ref1, off1); EXPECT_EQ(off1, patcher_.GetOffset(ref1)); EXPECT_EQ(0u, patcher_.GetOffset(ref2)); uint32_t adjustment2 = 0x30000; patcher_.StartOatFile(adjustment2); EXPECT_EQ(off1 + adjustment1 - adjustment2, patcher_.GetOffset(ref1)); EXPECT_EQ(0u, patcher_.GetOffset(ref2)); uint32_t off2 = 0x4321; patcher_.SetOffset(ref2, off2); EXPECT_EQ(off1 + adjustment1 - adjustment2, patcher_.GetOffset(ref1)); EXPECT_EQ(off2, patcher_.GetOffset(ref2)); uint32_t adjustment3 = 0x78000; patcher_.StartOatFile(adjustment3); EXPECT_EQ(off1 + adjustment1 - adjustment3, patcher_.GetOffset(ref1)); EXPECT_EQ(off2 + adjustment2 - adjustment3, patcher_.GetOffset(ref2)); } TEST_F(MultiOatRelativePatcherTest, OffsetsInReserve) { const DexFile* dex_file = reinterpret_cast(1); MethodReference ref1(dex_file, 1u); MethodReference ref2(dex_file, 2u); MethodReference ref3(dex_file, 3u); const CompiledMethod* method = reinterpret_cast(-1); uint32_t adjustment1 = 0x1000; patcher_.StartOatFile(adjustment1); uint32_t method1_offset = 0x100; uint32_t method1_offset_check = patcher_.ReserveSpace(method1_offset, method, ref1); ASSERT_EQ(adjustment1 + method1_offset, mock_->last_reserve_offset_); ASSERT_TRUE(ref1 == mock_->last_reserve_method_); ASSERT_EQ(method1_offset, method1_offset_check); uint32_t method2_offset = 0x1230; uint32_t method2_reserve_adjustment = 0x10; mock_->next_reserve_adjustment_ = method2_reserve_adjustment; uint32_t method2_offset_adjusted = patcher_.ReserveSpace(method2_offset, method, ref2); ASSERT_EQ(adjustment1 + method2_offset, mock_->last_reserve_offset_); ASSERT_TRUE(ref2 == mock_->last_reserve_method_); ASSERT_EQ(method2_offset + method2_reserve_adjustment, method2_offset_adjusted); uint32_t end1_offset = 0x4320; uint32_t end1_offset_check = patcher_.ReserveSpaceEnd(end1_offset); ASSERT_EQ(adjustment1 + end1_offset, mock_->last_reserve_offset_); ASSERT_TRUE(kNullMethodRef == mock_->last_reserve_method_); ASSERT_EQ(end1_offset, end1_offset_check); uint32_t adjustment2 = 0xd000; patcher_.StartOatFile(adjustment2); uint32_t method3_offset = 0xf00; uint32_t method3_offset_check = patcher_.ReserveSpace(method3_offset, method, ref3); ASSERT_EQ(adjustment2 + method3_offset, mock_->last_reserve_offset_); ASSERT_TRUE(ref3 == mock_->last_reserve_method_); ASSERT_EQ(method3_offset, method3_offset_check); uint32_t end2_offset = 0x2400; uint32_t end2_reserve_adjustment = 0x20; mock_->next_reserve_adjustment_ = end2_reserve_adjustment; uint32_t end2_offset_adjusted = patcher_.ReserveSpaceEnd(end2_offset); ASSERT_EQ(adjustment2 + end2_offset, mock_->last_reserve_offset_); ASSERT_TRUE(kNullMethodRef == mock_->last_reserve_method_); ASSERT_EQ(end2_offset + end2_reserve_adjustment, end2_offset_adjusted); } TEST_F(MultiOatRelativePatcherTest, Write) { std::vector output; VectorOutputStream vos("output", &output); uint32_t adjustment1 = 0x1000; patcher_.StartOatFile(adjustment1); uint32_t method1_offset = 0x100; uint32_t method1_offset_check = patcher_.WriteThunks(&vos, method1_offset); ASSERT_EQ(adjustment1 + method1_offset, mock_->last_write_offset_); ASSERT_EQ(method1_offset, method1_offset_check); vos.WriteFully("1", 1); // Mark method1. uint32_t method2_offset = 0x1230; uint32_t method2_alignment_size = 1; uint32_t method2_call_thunk_size = 2; mock_->next_write_alignment_ = method2_alignment_size; mock_->next_write_call_thunk_ = method2_call_thunk_size; uint32_t method2_offset_adjusted = patcher_.WriteThunks(&vos, method2_offset); ASSERT_EQ(adjustment1 + method2_offset, mock_->last_write_offset_); ASSERT_EQ(method2_offset + method2_alignment_size + method2_call_thunk_size, method2_offset_adjusted); vos.WriteFully("2", 1); // Mark method2. EXPECT_EQ(method2_alignment_size, patcher_.CodeAlignmentSize()); EXPECT_EQ(method2_call_thunk_size, patcher_.RelativeCallThunksSize()); uint32_t adjustment2 = 0xd000; patcher_.StartOatFile(adjustment2); uint32_t method3_offset = 0xf00; uint32_t method3_alignment_size = 2; uint32_t method3_misc_thunk_size = 1; mock_->next_write_alignment_ = method3_alignment_size; mock_->next_write_misc_thunk_ = method3_misc_thunk_size; uint32_t method3_offset_adjusted = patcher_.WriteThunks(&vos, method3_offset); ASSERT_EQ(adjustment2 + method3_offset, mock_->last_write_offset_); ASSERT_EQ(method3_offset + method3_alignment_size + method3_misc_thunk_size, method3_offset_adjusted); vos.WriteFully("3", 1); // Mark method3. EXPECT_EQ(method3_alignment_size, patcher_.CodeAlignmentSize()); EXPECT_EQ(method3_misc_thunk_size, patcher_.MiscThunksSize()); uint8_t expected_output[] = { '1', 0, 'c', 'c', '2', 0, 0, 'm', '3', }; ASSERT_EQ(arraysize(expected_output), output.size()); for (size_t i = 0; i != arraysize(expected_output); ++i) { ASSERT_EQ(expected_output[i], output[i]) << i; } } TEST_F(MultiOatRelativePatcherTest, Patch) { std::vector code(16); uint32_t adjustment1 = 0x1000; patcher_.StartOatFile(adjustment1); uint32_t method1_literal_offset = 4u; uint32_t method1_patch_offset = 0x1234u; uint32_t method1_target_offset = 0x8888u; patcher_.PatchCall(&code, method1_literal_offset, method1_patch_offset, method1_target_offset); DCHECK_EQ(method1_literal_offset, mock_->last_literal_offset_); DCHECK_EQ(method1_patch_offset + adjustment1, mock_->last_patch_offset_); DCHECK_EQ(method1_target_offset + adjustment1, mock_->last_target_offset_); uint32_t method2_literal_offset = 12u; uint32_t method2_patch_offset = 0x7654u; uint32_t method2_target_offset = 0xccccu; LinkerPatch method2_patch = LinkerPatch::StringBssEntryPatch(method2_literal_offset, nullptr, 0u, 1u); patcher_.PatchPcRelativeReference( &code, method2_patch, method2_patch_offset, method2_target_offset); DCHECK_EQ(method2_literal_offset, mock_->last_literal_offset_); DCHECK_EQ(method2_patch_offset + adjustment1, mock_->last_patch_offset_); DCHECK_EQ(method2_target_offset + adjustment1, mock_->last_target_offset_); uint32_t adjustment2 = 0xd000; patcher_.StartOatFile(adjustment2); uint32_t method3_literal_offset = 8u; uint32_t method3_patch_offset = 0x108u; uint32_t method3_target_offset = 0x200u; patcher_.PatchCall(&code, method3_literal_offset, method3_patch_offset, method3_target_offset); DCHECK_EQ(method3_literal_offset, mock_->last_literal_offset_); DCHECK_EQ(method3_patch_offset + adjustment2, mock_->last_patch_offset_); DCHECK_EQ(method3_target_offset + adjustment2, mock_->last_target_offset_); } } // namespace linker } // namespace art