/* * 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 #include #include #include #include "DwarfEhFrameWithHdr.h" #include "DwarfEncoding.h" #include "LogFake.h" #include "MemoryFake.h" namespace unwindstack { template class TestDwarfEhFrameWithHdr : public DwarfEhFrameWithHdr { public: TestDwarfEhFrameWithHdr(Memory* memory) : DwarfEhFrameWithHdr(memory) {} ~TestDwarfEhFrameWithHdr() = default; void TestSetTableEncoding(uint8_t encoding) { this->table_encoding_ = encoding; } void TestSetEntriesOffset(uint64_t offset) { this->entries_offset_ = offset; } void TestSetEntriesEnd(uint64_t end) { this->entries_end_ = end; } void TestSetEntriesDataOffset(uint64_t offset) { this->entries_data_offset_ = offset; } void TestSetCurEntriesOffset(uint64_t offset) { this->cur_entries_offset_ = offset; } void TestSetTableEntrySize(size_t size) { this->table_entry_size_ = size; } void TestSetFdeCount(uint64_t count) { this->fde_count_ = count; } void TestSetFdeInfo(uint64_t index, const typename DwarfEhFrameWithHdr::FdeInfo& info) { this->fde_info_[index] = info; } uint8_t TestGetVersion() { return this->version_; } uint8_t TestGetPtrEncoding() { return this->ptr_encoding_; } uint64_t TestGetPtrOffset() { return this->ptr_offset_; } uint8_t TestGetTableEncoding() { return this->table_encoding_; } uint64_t TestGetTableEntrySize() { return this->table_entry_size_; } uint64_t TestGetFdeCount() { return this->fde_count_; } uint64_t TestGetEntriesOffset() { return this->entries_offset_; } uint64_t TestGetEntriesEnd() { return this->entries_end_; } uint64_t TestGetEntriesDataOffset() { return this->entries_data_offset_; } uint64_t TestGetCurEntriesOffset() { return this->cur_entries_offset_; } }; template class DwarfEhFrameWithHdrTest : public ::testing::Test { protected: void SetUp() override { memory_.Clear(); eh_frame_ = new TestDwarfEhFrameWithHdr(&memory_); ResetLogs(); } void TearDown() override { delete eh_frame_; } MemoryFake memory_; TestDwarfEhFrameWithHdr* eh_frame_ = nullptr; }; TYPED_TEST_CASE_P(DwarfEhFrameWithHdrTest); // NOTE: All test class variables need to be referenced as this->. TYPED_TEST_P(DwarfEhFrameWithHdrTest, Init) { this->memory_.SetMemory( 0x1000, std::vector{0x1, DW_EH_PE_udata2, DW_EH_PE_udata4, DW_EH_PE_sdata4}); this->memory_.SetData16(0x1004, 0x500); this->memory_.SetData32(0x1006, 126); ASSERT_TRUE(this->eh_frame_->Init(0x1000, 0x100, 0)); EXPECT_EQ(1U, this->eh_frame_->TestGetVersion()); EXPECT_EQ(DW_EH_PE_udata2, this->eh_frame_->TestGetPtrEncoding()); EXPECT_EQ(DW_EH_PE_sdata4, this->eh_frame_->TestGetTableEncoding()); EXPECT_EQ(4U, this->eh_frame_->TestGetTableEntrySize()); EXPECT_EQ(126U, this->eh_frame_->TestGetFdeCount()); EXPECT_EQ(0x500U, this->eh_frame_->TestGetPtrOffset()); EXPECT_EQ(0x100aU, this->eh_frame_->TestGetEntriesOffset()); EXPECT_EQ(0x1100U, this->eh_frame_->TestGetEntriesEnd()); EXPECT_EQ(0x1000U, this->eh_frame_->TestGetEntriesDataOffset()); EXPECT_EQ(0x100aU, this->eh_frame_->TestGetCurEntriesOffset()); // Verify a zero fde count fails to init. this->memory_.SetData32(0x1006, 0); ASSERT_FALSE(this->eh_frame_->Init(0x1000, 0x100, 0)); ASSERT_EQ(DWARF_ERROR_NO_FDES, this->eh_frame_->LastErrorCode()); // Verify an unexpected version will cause a fail. this->memory_.SetData32(0x1006, 126); this->memory_.SetData8(0x1000, 0); ASSERT_FALSE(this->eh_frame_->Init(0x1000, 0x100, 0)); ASSERT_EQ(DWARF_ERROR_UNSUPPORTED_VERSION, this->eh_frame_->LastErrorCode()); this->memory_.SetData8(0x1000, 2); ASSERT_FALSE(this->eh_frame_->Init(0x1000, 0x100, 0)); ASSERT_EQ(DWARF_ERROR_UNSUPPORTED_VERSION, this->eh_frame_->LastErrorCode()); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, Init_non_zero_load_bias) { this->memory_.SetMemory(0x1000, std::vector{0x1, DW_EH_PE_udata2, DW_EH_PE_udata4, DW_EH_PE_pcrel | DW_EH_PE_sdata4}); this->memory_.SetData16(0x1004, 0x500); this->memory_.SetData32(0x1006, 1); this->memory_.SetData32(0x100a, 0x2500); this->memory_.SetData32(0x100e, 0x1400); // CIE 32 information. this->memory_.SetData32(0x1300, 0xfc); this->memory_.SetData32(0x1304, 0); this->memory_.SetMemory(0x1308, std::vector{1, 'z', 'R', '\0', 0, 0, 0, 0, 0x1b}); // FDE 32 information. this->memory_.SetData32(0x1400, 0xfc); this->memory_.SetData32(0x1404, 0x104); this->memory_.SetData32(0x1408, 0x10f8); this->memory_.SetData32(0x140c, 0x200); this->memory_.SetData16(0x1410, 0); ASSERT_TRUE(this->eh_frame_->Init(0x1000, 0x100, 0x2000)); EXPECT_EQ(1U, this->eh_frame_->TestGetVersion()); EXPECT_EQ(DW_EH_PE_udata2, this->eh_frame_->TestGetPtrEncoding()); EXPECT_EQ(0x1b, this->eh_frame_->TestGetTableEncoding()); EXPECT_EQ(4U, this->eh_frame_->TestGetTableEntrySize()); EXPECT_EQ(1U, this->eh_frame_->TestGetFdeCount()); EXPECT_EQ(0x500U, this->eh_frame_->TestGetPtrOffset()); EXPECT_EQ(0x100aU, this->eh_frame_->TestGetEntriesOffset()); EXPECT_EQ(0x1100U, this->eh_frame_->TestGetEntriesEnd()); EXPECT_EQ(0x1000U, this->eh_frame_->TestGetEntriesDataOffset()); EXPECT_EQ(0x100aU, this->eh_frame_->TestGetCurEntriesOffset()); const DwarfFde* fde = this->eh_frame_->GetFdeFromPc(0x4600); ASSERT_TRUE(fde != nullptr); EXPECT_EQ(0x4500U, fde->pc_start); EXPECT_EQ(0x4700U, fde->pc_end); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdes) { this->memory_.SetMemory( 0x1000, std::vector{1, DW_EH_PE_udata2, DW_EH_PE_udata4, DW_EH_PE_sdata4}); this->memory_.SetData16(0x1004, 0x500); this->memory_.SetData32(0x1006, 4); // Header information. this->memory_.SetData32(0x100a, 0x4600); this->memory_.SetData32(0x100e, 0x1500); this->memory_.SetData32(0x1012, 0x5500); this->memory_.SetData32(0x1016, 0x1400); this->memory_.SetData32(0x101a, 0x6800); this->memory_.SetData32(0x101e, 0x1700); this->memory_.SetData32(0x1022, 0x7700); this->memory_.SetData32(0x1026, 0x1600); // CIE 32 information. this->memory_.SetData32(0x1300, 0xfc); this->memory_.SetData32(0x1304, 0); this->memory_.SetMemory(0x1308, std::vector{1, '\0', 0, 0, 0}); // FDE 32 information. // pc 0x5500 - 0x5700 this->memory_.SetData32(0x1400, 0xfc); this->memory_.SetData32(0x1404, 0x104); this->memory_.SetData32(0x1408, 0x40f8); this->memory_.SetData32(0x140c, 0x200); // pc 0x4600 - 0x4800 this->memory_.SetData32(0x1500, 0xfc); this->memory_.SetData32(0x1504, 0x204); this->memory_.SetData32(0x1508, 0x30f8); this->memory_.SetData32(0x150c, 0x200); // pc 0x7700 - 0x7900 this->memory_.SetData32(0x1600, 0xfc); this->memory_.SetData32(0x1604, 0x304); this->memory_.SetData32(0x1608, 0x60f8); this->memory_.SetData32(0x160c, 0x200); // pc 0x6800 - 0x6a00 this->memory_.SetData32(0x1700, 0xfc); this->memory_.SetData32(0x1704, 0x404); this->memory_.SetData32(0x1708, 0x50f8); this->memory_.SetData32(0x170c, 0x200); ASSERT_TRUE(this->eh_frame_->Init(0x1000, 0x100, 0)); std::vector fdes; this->eh_frame_->GetFdes(&fdes); ASSERT_EQ(4U, fdes.size()); EXPECT_EQ(0x4600U, fdes[0]->pc_start); EXPECT_EQ(0x4800U, fdes[0]->pc_end); EXPECT_EQ(0x5500U, fdes[1]->pc_start); EXPECT_EQ(0x5700U, fdes[1]->pc_end); EXPECT_EQ(0x6800U, fdes[2]->pc_start); EXPECT_EQ(0x6a00U, fdes[2]->pc_end); EXPECT_EQ(0x7700U, fdes[3]->pc_start); EXPECT_EQ(0x7900U, fdes[3]->pc_end); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeInfoFromIndex_expect_cache_fail) { this->eh_frame_->TestSetTableEntrySize(0x10); this->eh_frame_->TestSetTableEncoding(DW_EH_PE_udata4); this->eh_frame_->TestSetEntriesOffset(0x1000); ASSERT_TRUE(this->eh_frame_->GetFdeInfoFromIndex(0) == nullptr); ASSERT_EQ(DWARF_ERROR_MEMORY_INVALID, this->eh_frame_->LastErrorCode()); EXPECT_EQ(0x1000U, this->eh_frame_->LastErrorAddress()); ASSERT_TRUE(this->eh_frame_->GetFdeInfoFromIndex(0) == nullptr); ASSERT_EQ(DWARF_ERROR_MEMORY_INVALID, this->eh_frame_->LastErrorCode()); EXPECT_EQ(0x1000U, this->eh_frame_->LastErrorAddress()); } // We are assuming that pc rel, is really relative to the load_bias. TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeInfoFromIndex_read_pcrel) { this->eh_frame_->TestSetTableEncoding(DW_EH_PE_pcrel | DW_EH_PE_udata4); this->eh_frame_->TestSetEntriesOffset(0x1000); this->eh_frame_->TestSetEntriesDataOffset(0x3000); this->eh_frame_->TestSetTableEntrySize(0x10); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); auto info = this->eh_frame_->GetFdeInfoFromIndex(2); ASSERT_TRUE(info != nullptr); EXPECT_EQ(0x340U, info->pc); EXPECT_EQ(0x500U, info->offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeInfoFromIndex_read_datarel) { this->eh_frame_->TestSetTableEncoding(DW_EH_PE_datarel | DW_EH_PE_udata4); this->eh_frame_->TestSetEntriesOffset(0x1000); this->eh_frame_->TestSetEntriesDataOffset(0x3000); this->eh_frame_->TestSetTableEntrySize(0x10); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); auto info = this->eh_frame_->GetFdeInfoFromIndex(2); ASSERT_TRUE(info != nullptr); EXPECT_EQ(0x3340U, info->pc); EXPECT_EQ(0x3500U, info->offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeInfoFromIndex_cached) { this->eh_frame_->TestSetTableEncoding(DW_EH_PE_udata4); this->eh_frame_->TestSetEntriesOffset(0x1000); this->eh_frame_->TestSetTableEntrySize(0x10); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); auto info = this->eh_frame_->GetFdeInfoFromIndex(2); ASSERT_TRUE(info != nullptr); EXPECT_EQ(0x340U, info->pc); EXPECT_EQ(0x500U, info->offset); // Clear the memory so that this will fail if it doesn't read cached data. this->memory_.Clear(); info = this->eh_frame_->GetFdeInfoFromIndex(2); ASSERT_TRUE(info != nullptr); EXPECT_EQ(0x340U, info->pc); EXPECT_EQ(0x500U, info->offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetBinary_verify) { this->eh_frame_->TestSetTableEntrySize(0x10); this->eh_frame_->TestSetFdeCount(10); typename DwarfEhFrameWithHdr::FdeInfo info; for (size_t i = 0; i < 10; i++) { info.pc = 0x1000 * (i + 1); info.offset = 0x5000 + i * 0x20; this->eh_frame_->TestSetFdeInfo(i, info); } uint64_t fde_offset; EXPECT_FALSE(this->eh_frame_->GetFdeOffsetBinary(0x100, &fde_offset, 10)); // Not an error, just not found. ASSERT_EQ(DWARF_ERROR_NONE, this->eh_frame_->LastErrorCode()); // Even number of elements. for (size_t i = 0; i < 10; i++) { TypeParam pc = 0x1000 * (i + 1); EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc, &fde_offset, 10)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc + 1, &fde_offset, 10)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc + 0xfff, &fde_offset, 10)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; } // Odd number of elements. for (size_t i = 0; i < 9; i++) { TypeParam pc = 0x1000 * (i + 1); EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc, &fde_offset, 9)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc + 1, &fde_offset, 9)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; EXPECT_TRUE(this->eh_frame_->GetFdeOffsetBinary(pc + 0xfff, &fde_offset, 9)) << "Failed at index " << i; EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i; } } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetBinary_index_fail) { this->eh_frame_->TestSetTableEntrySize(0x10); this->eh_frame_->TestSetFdeCount(10); uint64_t fde_offset; EXPECT_FALSE(this->eh_frame_->GetFdeOffsetBinary(0x1000, &fde_offset, 10)); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetSequential) { this->eh_frame_->TestSetFdeCount(10); this->eh_frame_->TestSetEntriesDataOffset(0x100); this->eh_frame_->TestSetEntriesEnd(0x2000); this->eh_frame_->TestSetTableEncoding(DW_EH_PE_udata4); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); this->memory_.SetData32(0x1048, 0x440); this->memory_.SetData32(0x104c, 0x600); // Verify that if entries is zero, that it fails. uint64_t fde_offset; ASSERT_FALSE(this->eh_frame_->GetFdeOffsetSequential(0x344, &fde_offset)); this->eh_frame_->TestSetCurEntriesOffset(0x1040); ASSERT_TRUE(this->eh_frame_->GetFdeOffsetSequential(0x344, &fde_offset)); EXPECT_EQ(0x500U, fde_offset); ASSERT_TRUE(this->eh_frame_->GetFdeOffsetSequential(0x444, &fde_offset)); EXPECT_EQ(0x600U, fde_offset); // Expect that the data is cached so no more memory reads will occur. this->memory_.Clear(); ASSERT_TRUE(this->eh_frame_->GetFdeOffsetSequential(0x444, &fde_offset)); EXPECT_EQ(0x600U, fde_offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetSequential_last_element) { this->eh_frame_->TestSetFdeCount(2); this->eh_frame_->TestSetEntriesDataOffset(0x100); this->eh_frame_->TestSetEntriesEnd(0x2000); this->eh_frame_->TestSetTableEncoding(DW_EH_PE_udata4); this->eh_frame_->TestSetCurEntriesOffset(0x1040); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); this->memory_.SetData32(0x1048, 0x440); this->memory_.SetData32(0x104c, 0x600); uint64_t fde_offset; ASSERT_TRUE(this->eh_frame_->GetFdeOffsetSequential(0x540, &fde_offset)); EXPECT_EQ(0x600U, fde_offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetSequential_end_check) { this->eh_frame_->TestSetFdeCount(2); this->eh_frame_->TestSetEntriesDataOffset(0x100); this->eh_frame_->TestSetEntriesEnd(0x1048); this->eh_frame_->TestSetTableEncoding(DW_EH_PE_udata4); this->memory_.SetData32(0x1040, 0x340); this->memory_.SetData32(0x1044, 0x500); this->memory_.SetData32(0x1048, 0x440); this->memory_.SetData32(0x104c, 0x600); uint64_t fde_offset; ASSERT_FALSE(this->eh_frame_->GetFdeOffsetSequential(0x540, &fde_offset)); ASSERT_EQ(DWARF_ERROR_NONE, this->eh_frame_->LastErrorCode()); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetFromPc_fail_fde_count) { this->eh_frame_->TestSetFdeCount(0); uint64_t fde_offset; ASSERT_FALSE(this->eh_frame_->GetFdeOffsetFromPc(0x100, &fde_offset)); ASSERT_EQ(DWARF_ERROR_NONE, this->eh_frame_->LastErrorCode()); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetFromPc_binary_search) { this->eh_frame_->TestSetTableEntrySize(16); this->eh_frame_->TestSetFdeCount(10); typename DwarfEhFrameWithHdr::FdeInfo info; info.pc = 0x550; info.offset = 0x10500; this->eh_frame_->TestSetFdeInfo(5, info); info.pc = 0x750; info.offset = 0x10700; this->eh_frame_->TestSetFdeInfo(7, info); info.pc = 0x850; info.offset = 0x10800; this->eh_frame_->TestSetFdeInfo(8, info); uint64_t fde_offset; ASSERT_TRUE(this->eh_frame_->GetFdeOffsetFromPc(0x800, &fde_offset)); EXPECT_EQ(0x10700U, fde_offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeOffsetFromPc_sequential_search) { this->eh_frame_->TestSetFdeCount(10); this->eh_frame_->TestSetTableEntrySize(0); typename DwarfEhFrameWithHdr::FdeInfo info; info.pc = 0x50; info.offset = 0x10000; this->eh_frame_->TestSetFdeInfo(0, info); info.pc = 0x150; info.offset = 0x10100; this->eh_frame_->TestSetFdeInfo(1, info); info.pc = 0x250; info.offset = 0x10200; this->eh_frame_->TestSetFdeInfo(2, info); uint64_t fde_offset; ASSERT_TRUE(this->eh_frame_->GetFdeOffsetFromPc(0x200, &fde_offset)); EXPECT_EQ(0x10100U, fde_offset); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetCieFde32) { // CIE 32 information. this->memory_.SetData32(0xf000, 0x100); this->memory_.SetData32(0xf004, 0); this->memory_.SetMemory(0xf008, std::vector{1, '\0', 4, 8, 0x20}); // FDE 32 information. this->memory_.SetData32(0x14000, 0x20); this->memory_.SetData32(0x14004, 0x5004); this->memory_.SetData32(0x14008, 0x9000); this->memory_.SetData32(0x1400c, 0x100); const DwarfFde* fde = this->eh_frame_->GetFdeFromOffset(0x14000); ASSERT_TRUE(fde != nullptr); EXPECT_EQ(0x14010U, fde->cfa_instructions_offset); EXPECT_EQ(0x14024U, fde->cfa_instructions_end); EXPECT_EQ(0x1d008U, fde->pc_start); EXPECT_EQ(0x1d108U, fde->pc_end); EXPECT_EQ(0xf000U, fde->cie_offset); EXPECT_EQ(0U, fde->lsda_address); ASSERT_TRUE(fde->cie != nullptr); EXPECT_EQ(1U, fde->cie->version); EXPECT_EQ(DW_EH_PE_sdata4, fde->cie->fde_address_encoding); EXPECT_EQ(DW_EH_PE_omit, fde->cie->lsda_encoding); EXPECT_EQ(0U, fde->cie->segment_size); EXPECT_EQ(1U, fde->cie->augmentation_string.size()); EXPECT_EQ('\0', fde->cie->augmentation_string[0]); EXPECT_EQ(0U, fde->cie->personality_handler); EXPECT_EQ(0xf00dU, fde->cie->cfa_instructions_offset); EXPECT_EQ(0xf104U, fde->cie->cfa_instructions_end); EXPECT_EQ(4U, fde->cie->code_alignment_factor); EXPECT_EQ(8, fde->cie->data_alignment_factor); EXPECT_EQ(0x20U, fde->cie->return_address_register); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetCieFde64) { // CIE 64 information. this->memory_.SetData32(0x6000, 0xffffffff); this->memory_.SetData64(0x6004, 0x100); this->memory_.SetData64(0x600c, 0); this->memory_.SetMemory(0x6014, std::vector{1, '\0', 4, 8, 0x20}); // FDE 64 information. this->memory_.SetData32(0x8000, 0xffffffff); this->memory_.SetData64(0x8004, 0x200); this->memory_.SetData64(0x800c, 0x200c); this->memory_.SetData64(0x8014, 0x5000); this->memory_.SetData64(0x801c, 0x300); const DwarfFde* fde = this->eh_frame_->GetFdeFromOffset(0x8000); ASSERT_TRUE(fde != nullptr); EXPECT_EQ(0x8024U, fde->cfa_instructions_offset); EXPECT_EQ(0x820cU, fde->cfa_instructions_end); EXPECT_EQ(0xd018U, fde->pc_start); EXPECT_EQ(0xd318U, fde->pc_end); EXPECT_EQ(0x6000U, fde->cie_offset); EXPECT_EQ(0U, fde->lsda_address); ASSERT_TRUE(fde->cie != nullptr); EXPECT_EQ(1U, fde->cie->version); EXPECT_EQ(DW_EH_PE_sdata8, fde->cie->fde_address_encoding); EXPECT_EQ(DW_EH_PE_omit, fde->cie->lsda_encoding); EXPECT_EQ(0U, fde->cie->segment_size); EXPECT_EQ(1U, fde->cie->augmentation_string.size()); EXPECT_EQ('\0', fde->cie->augmentation_string[0]); EXPECT_EQ(0U, fde->cie->personality_handler); EXPECT_EQ(0x6019U, fde->cie->cfa_instructions_offset); EXPECT_EQ(0x610cU, fde->cie->cfa_instructions_end); EXPECT_EQ(4U, fde->cie->code_alignment_factor); EXPECT_EQ(8, fde->cie->data_alignment_factor); EXPECT_EQ(0x20U, fde->cie->return_address_register); } TYPED_TEST_P(DwarfEhFrameWithHdrTest, GetFdeFromPc_fde_not_found) { this->eh_frame_->TestSetTableEntrySize(16); this->eh_frame_->TestSetFdeCount(1); typename DwarfEhFrameWithHdr::FdeInfo info; info.pc = 0x550; info.offset = 0x10500; this->eh_frame_->TestSetFdeInfo(0, info); ASSERT_EQ(nullptr, this->eh_frame_->GetFdeFromPc(0x800)); } REGISTER_TYPED_TEST_CASE_P(DwarfEhFrameWithHdrTest, Init, Init_non_zero_load_bias, GetFdes, GetFdeInfoFromIndex_expect_cache_fail, GetFdeInfoFromIndex_read_pcrel, GetFdeInfoFromIndex_read_datarel, GetFdeInfoFromIndex_cached, GetFdeOffsetBinary_verify, GetFdeOffsetBinary_index_fail, GetFdeOffsetSequential, GetFdeOffsetSequential_last_element, GetFdeOffsetSequential_end_check, GetFdeOffsetFromPc_fail_fde_count, GetFdeOffsetFromPc_binary_search, GetFdeOffsetFromPc_sequential_search, GetCieFde32, GetCieFde64, GetFdeFromPc_fde_not_found); typedef ::testing::Types DwarfEhFrameWithHdrTestTypes; INSTANTIATE_TYPED_TEST_CASE_P(, DwarfEhFrameWithHdrTest, DwarfEhFrameWithHdrTestTypes); } // namespace unwindstack