/* * Copyright (C) 2015 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. */ #ifndef ART_COMPILER_DEBUG_DWARF_HEADERS_H_ #define ART_COMPILER_DEBUG_DWARF_HEADERS_H_ #include #include "debug/dwarf/debug_frame_opcode_writer.h" #include "debug/dwarf/debug_info_entry_writer.h" #include "debug/dwarf/debug_line_opcode_writer.h" #include "debug/dwarf/dwarf_constants.h" #include "debug/dwarf/register.h" #include "debug/dwarf/writer.h" #include "utils/array_ref.h" namespace art { namespace dwarf { // Note that all headers start with 32-bit length. // DWARF also supports 64-bit lengths, but we never use that. // It is intended to support very large debug sections (>4GB), // and compilers are expected *not* to use it by default. // In particular, it is not related to machine architecture. // Write common information entry (CIE) to .debug_frame or .eh_frame section. template void WriteCIE(bool is64bit, Reg return_address_register, const DebugFrameOpCodeWriter& opcodes, CFIFormat format, std::vector* buffer) { static_assert(std::is_same::value, "Invalid value type"); Writer<> writer(buffer); size_t cie_header_start_ = writer.data()->size(); writer.PushUint32(0); // Length placeholder. writer.PushUint32((format == DW_EH_FRAME_FORMAT) ? 0 : 0xFFFFFFFF); // CIE id. writer.PushUint8(1); // Version. writer.PushString("zR"); writer.PushUleb128(DebugFrameOpCodeWriter::kCodeAlignmentFactor); writer.PushSleb128(DebugFrameOpCodeWriter::kDataAlignmentFactor); writer.PushUleb128(return_address_register.num()); // ubyte in DWARF2. writer.PushUleb128(1); // z: Augmentation data size. if (is64bit) { if (format == DW_EH_FRAME_FORMAT) { writer.PushUint8(DW_EH_PE_pcrel | DW_EH_PE_sdata8); // R: Pointer encoding. } else { DCHECK(format == DW_DEBUG_FRAME_FORMAT); writer.PushUint8(DW_EH_PE_absptr | DW_EH_PE_udata8); // R: Pointer encoding. } } else { if (format == DW_EH_FRAME_FORMAT) { writer.PushUint8(DW_EH_PE_pcrel | DW_EH_PE_sdata4); // R: Pointer encoding. } else { DCHECK(format == DW_DEBUG_FRAME_FORMAT); writer.PushUint8(DW_EH_PE_absptr | DW_EH_PE_udata4); // R: Pointer encoding. } } writer.PushData(opcodes.data()); writer.Pad(is64bit ? 8 : 4); writer.UpdateUint32(cie_header_start_, writer.data()->size() - cie_header_start_ - 4); } // Write frame description entry (FDE) to .debug_frame or .eh_frame section. inline void WriteFDE(bool is64bit, uint64_t section_address, // Absolute address of the section. uint64_t cie_address, // Absolute address of last CIE. uint64_t code_address, uint64_t code_size, const ArrayRef& opcodes, CFIFormat format, uint64_t buffer_address, // Address of buffer in linked application. std::vector* buffer, std::vector* patch_locations) { CHECK_GE(cie_address, section_address); CHECK_GE(buffer_address, section_address); Writer<> writer(buffer); size_t fde_header_start = writer.data()->size(); writer.PushUint32(0); // Length placeholder. if (format == DW_EH_FRAME_FORMAT) { uint32_t cie_pointer = (buffer_address + buffer->size()) - cie_address; writer.PushUint32(cie_pointer); } else { DCHECK(format == DW_DEBUG_FRAME_FORMAT); uint32_t cie_pointer = cie_address - section_address; writer.PushUint32(cie_pointer); } if (format == DW_EH_FRAME_FORMAT) { // .eh_frame encodes the location as relative address. code_address -= buffer_address + buffer->size(); } else { DCHECK(format == DW_DEBUG_FRAME_FORMAT); // Relocate code_address if it has absolute value. patch_locations->push_back(buffer_address + buffer->size() - section_address); } if (is64bit) { writer.PushUint64(code_address); writer.PushUint64(code_size); } else { writer.PushUint32(code_address); writer.PushUint32(code_size); } writer.PushUleb128(0); // Augmentation data size. writer.PushData(opcodes.data(), opcodes.size()); writer.Pad(is64bit ? 8 : 4); writer.UpdateUint32(fde_header_start, writer.data()->size() - fde_header_start - 4); } // Write compilation unit (CU) to .debug_info section. template void WriteDebugInfoCU(uint32_t debug_abbrev_offset, const DebugInfoEntryWriter& entries, size_t debug_info_offset, // offset from start of .debug_info. std::vector* debug_info, std::vector* debug_info_patches) { static_assert(std::is_same::value, "Invalid value type"); Writer<> writer(debug_info); size_t start = writer.data()->size(); writer.PushUint32(0); // Length placeholder. writer.PushUint16(4); // Version. writer.PushUint32(debug_abbrev_offset); writer.PushUint8(entries.Is64bit() ? 8 : 4); size_t entries_offset = writer.data()->size(); DCHECK_EQ(entries_offset, DebugInfoEntryWriter::kCompilationUnitHeaderSize); writer.PushData(entries.data()); writer.UpdateUint32(start, writer.data()->size() - start - 4); // Copy patch locations and make them relative to .debug_info section. for (uintptr_t patch_location : entries.GetPatchLocations()) { debug_info_patches->push_back(debug_info_offset + entries_offset + patch_location); } } struct FileEntry { std::string file_name; int directory_index; int modification_time; int file_size; }; // Write line table to .debug_line section. template void WriteDebugLineTable(const std::vector& include_directories, const std::vector& files, const DebugLineOpCodeWriter& opcodes, size_t debug_line_offset, // offset from start of .debug_line. std::vector* debug_line, std::vector* debug_line_patches) { static_assert(std::is_same::value, "Invalid value type"); Writer<> writer(debug_line); size_t header_start = writer.data()->size(); writer.PushUint32(0); // Section-length placeholder. writer.PushUint16(3); // .debug_line version. size_t header_length_pos = writer.data()->size(); writer.PushUint32(0); // Header-length placeholder. writer.PushUint8(1 << opcodes.GetCodeFactorBits()); writer.PushUint8(DebugLineOpCodeWriter::kDefaultIsStmt ? 1 : 0); writer.PushInt8(DebugLineOpCodeWriter::kLineBase); writer.PushUint8(DebugLineOpCodeWriter::kLineRange); writer.PushUint8(DebugLineOpCodeWriter::kOpcodeBase); static const int opcode_lengths[DebugLineOpCodeWriter::kOpcodeBase] = { 0, 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1 }; for (int i = 1; i < DebugLineOpCodeWriter::kOpcodeBase; i++) { writer.PushUint8(opcode_lengths[i]); } for (const std::string& directory : include_directories) { writer.PushData(directory.data(), directory.size() + 1); } writer.PushUint8(0); // Terminate include_directories list. for (const FileEntry& file : files) { writer.PushData(file.file_name.data(), file.file_name.size() + 1); writer.PushUleb128(file.directory_index); writer.PushUleb128(file.modification_time); writer.PushUleb128(file.file_size); } writer.PushUint8(0); // Terminate file list. writer.UpdateUint32(header_length_pos, writer.data()->size() - header_length_pos - 4); size_t opcodes_offset = writer.data()->size(); writer.PushData(opcodes.data()); writer.UpdateUint32(header_start, writer.data()->size() - header_start - 4); // Copy patch locations and make them relative to .debug_line section. for (uintptr_t patch_location : opcodes.GetPatchLocations()) { debug_line_patches->push_back(debug_line_offset + opcodes_offset + patch_location); } } } // namespace dwarf } // namespace art #endif // ART_COMPILER_DEBUG_DWARF_HEADERS_H_