//===- Header.h -------------------------------------------------*- 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 // //===----------------------------------------------------------------------===// #ifndef LLVM_DEBUGINFO_GSYM_HEADER_H #define LLVM_DEBUGINFO_GSYM_HEADER_H #include "llvm/Support/Error.h" #include #include namespace llvm { class raw_ostream; class DataExtractor; namespace gsym { class FileWriter; constexpr uint32_t GSYM_MAGIC = 0x4753594d; // 'GSYM' constexpr uint32_t GSYM_CIGAM = 0x4d595347; // 'MYSG' constexpr uint32_t GSYM_VERSION = 1; constexpr size_t GSYM_MAX_UUID_SIZE = 20; /// The GSYM header. /// /// The GSYM header is found at the start of a stand alone GSYM file, or as /// the first bytes in a section when GSYM is contained in a section of an /// executable file (ELF, mach-o, COFF). /// /// The structure is encoded exactly as it appears in the structure definition /// with no gaps between members. Alignment should not change from system to /// system as the members were laid out so that they shouldn't align /// differently on different architectures. /// /// When endianness of the system loading a GSYM file matches, the file can /// be mmap'ed in and a pointer to the header can be cast to the first bytes /// of the file (stand alone GSYM file) or section data (GSYM in a section). /// When endianness is swapped, the Header::decode() function should be used to /// decode the header. struct Header { /// The magic bytes should be set to GSYM_MAGIC. This helps detect if a file /// is a GSYM file by scanning the first 4 bytes of a file or section. /// This value might appear byte swapped uint32_t Magic; /// The version can number determines how the header is decoded and how each /// InfoType in FunctionInfo is encoded/decoded. As version numbers increase, /// "Magic" and "Version" members should always appear at offset zero and 4 /// respectively to ensure clients figure out if they can parse the format. uint16_t Version; /// The size in bytes of each address offset in the address offsets table. uint8_t AddrOffSize; /// The size in bytes of the UUID encoded in the "UUID" member. uint8_t UUIDSize; /// The 64 bit base address that all address offsets in the address offsets /// table are relative to. Storing a full 64 bit address allows our address /// offsets table to be smaller on disk. uint64_t BaseAddress; /// The number of addresses stored in the address offsets table. uint32_t NumAddresses; /// The file relative offset of the start of the string table for strings /// contained in the GSYM file. If the GSYM in contained in a stand alone /// file this will be the file offset of the start of the string table. If /// the GSYM is contained in a section within an executable file, this can /// be the offset of the first string used in the GSYM file and can possibly /// span one or more executable string tables. This allows the strings to /// share string tables in an ELF or mach-o file. uint32_t StrtabOffset; /// The size in bytes of the string table. For a stand alone GSYM file, this /// will be the exact size in bytes of the string table. When the GSYM data /// is in a section within an executable file, this size can span one or more /// sections that contains strings. This allows any strings that are already /// stored in the executable file to be re-used, and any extra strings could /// be added to another string table and the string table offset and size /// can be set to span all needed string tables. uint32_t StrtabSize; /// The UUID of the original executable file. This is stored to allow /// matching a GSYM file to an executable file when symbolication is /// required. Only the first "UUIDSize" bytes of the UUID are valid. Any /// bytes in the UUID value that appear after the first UUIDSize bytes should /// be set to zero. uint8_t UUID[GSYM_MAX_UUID_SIZE]; /// Check if a header is valid and return an error if anything is wrong. /// /// This function can be used prior to encoding a header to ensure it is /// valid, or after decoding a header to ensure it is valid and supported. /// /// Check a correctly byte swapped header for errors: /// - check magic value /// - check that version number is supported /// - check that the address offset size is supported /// - check that the UUID size is valid /// /// \returns An error if anything is wrong in the header, or Error::success() /// if there are no errors. llvm::Error checkForError() const; /// Decode an object from a binary data stream. /// /// \param Data The binary stream to read the data from. This object must /// have the data for the object starting at offset zero. The data /// can contain more data than needed. /// /// \returns A Header or an error describing the issue that was /// encountered during decoding. static llvm::Expected
decode(DataExtractor &Data); /// Encode this object into FileWriter stream. /// /// \param O The binary stream to write the data to at the current file /// position. /// /// \returns An error object that indicates success or failure of the /// encoding process. llvm::Error encode(FileWriter &O) const; }; bool operator==(const Header &LHS, const Header &RHS); raw_ostream &operator<<(raw_ostream &OS, const llvm::gsym::Header &H); } // namespace gsym } // namespace llvm #endif // #ifndef LLVM_DEBUGINFO_GSYM_HEADER_H