//===- GsymCreator.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_GSYMCREATOR_H #define LLVM_DEBUGINFO_GSYM_GSYMCREATOR_H #include #include #include #include #include #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/StringSet.h" #include "llvm/DebugInfo/GSYM/FileEntry.h" #include "llvm/DebugInfo/GSYM/FunctionInfo.h" #include "llvm/DebugInfo/GSYM/Range.h" #include "llvm/MC/StringTableBuilder.h" #include "llvm/Support/Endian.h" #include "llvm/Support/Error.h" #include "llvm/Support/Path.h" namespace llvm { namespace gsym { class FileWriter; /// GsymCreator is used to emit GSYM data to a stand alone file or section /// within a file. /// /// The GsymCreator is designed to be used in 3 stages: /// - Create FunctionInfo objects and add them /// - Finalize the GsymCreator object /// - Save to file or section /// /// The first stage involves creating FunctionInfo objects from another source /// of information like compiler debug info metadata, DWARF or Breakpad files. /// Any strings in the FunctionInfo or contained information, like InlineInfo /// or LineTable objects, should get the string table offsets by calling /// GsymCreator::insertString(...). Any file indexes that are needed should be /// obtained by calling GsymCreator::insertFile(...). All of the function calls /// in GsymCreator are thread safe. This allows multiple threads to create and /// add FunctionInfo objects while parsing debug information. /// /// Once all of the FunctionInfo objects have been added, the /// GsymCreator::finalize(...) must be called prior to saving. This function /// will sort the FunctionInfo objects, finalize the string table, and do any /// other passes on the information needed to prepare the information to be /// saved. /// /// Once the object has been finalized, it can be saved to a file or section. /// /// ENCODING /// /// GSYM files are designed to be memory mapped into a process as shared, read /// only data, and used as is. /// /// The GSYM file format when in a stand alone file consists of: /// - Header /// - Address Table /// - Function Info Offsets /// - File Table /// - String Table /// - Function Info Data /// /// HEADER /// /// The header is fully described in "llvm/DebugInfo/GSYM/Header.h". /// /// ADDRESS TABLE /// /// The address table immediately follows the header in the file and consists /// of Header.NumAddresses address offsets. These offsets are sorted and can be /// binary searched for efficient lookups. Addresses in the address table are /// stored as offsets from a 64 bit base address found in Header.BaseAddress. /// This allows the address table to contain 8, 16, or 32 offsets. This allows /// the address table to not require full 64 bit addresses for each address. /// The resulting GSYM size is smaller and causes fewer pages to be touched /// during address lookups when the address table is smaller. The size of the /// address offsets in the address table is specified in the header in /// Header.AddrOffSize. The first offset in the address table is aligned to /// Header.AddrOffSize alignment to ensure efficient access when loaded into /// memory. /// /// FUNCTION INFO OFFSETS TABLE /// /// The function info offsets table immediately follows the address table and /// consists of Header.NumAddresses 32 bit file offsets: one for each address /// in the address table. This data is aligned to a 4 byte boundary. The /// offsets in this table are the relative offsets from the start offset of the /// GSYM header and point to the function info data for each address in the /// address table. Keeping this data separate from the address table helps to /// reduce the number of pages that are touched when address lookups occur on a /// GSYM file. /// /// FILE TABLE /// /// The file table immediately follows the function info offsets table. The /// encoding of the FileTable is: /// /// struct FileTable { /// uint32_t Count; /// FileEntry Files[]; /// }; /// /// The file table starts with a 32 bit count of the number of files that are /// used in all of the function info, followed by that number of FileEntry /// structures. The file table is aligned to a 4 byte boundary, Each file in /// the file table is represented with a FileEntry structure. /// See "llvm/DebugInfo/GSYM/FileEntry.h" for details. /// /// STRING TABLE /// /// The string table follows the file table in stand alone GSYM files and /// contains all strings for everything contained in the GSYM file. Any string /// data should be added to the string table and any references to strings /// inside GSYM information must be stored as 32 bit string table offsets into /// this string table. The string table always starts with an empty string at /// offset zero and is followed by any strings needed by the GSYM information. /// The start of the string table is not aligned to any boundary. /// /// FUNCTION INFO DATA /// /// The function info data is the payload that contains information about the /// address that is being looked up. It contains all of the encoded /// FunctionInfo objects. Each encoded FunctionInfo's data is pointed to by an /// entry in the Function Info Offsets Table. For details on the exact encoding /// of FunctionInfo objects, see "llvm/DebugInfo/GSYM/FunctionInfo.h". class GsymCreator { // Private member variables require Mutex protections mutable std::recursive_mutex Mutex; std::vector Funcs; StringTableBuilder StrTab; StringSet<> StringStorage; DenseMap FileEntryToIndex; std::vector Files; std::vector UUID; Optional ValidTextRanges; AddressRanges Ranges; llvm::Optional BaseAddress; bool Finalized = false; public: GsymCreator(); /// Save a GSYM file to a stand alone file. /// /// \param Path The file path to save the GSYM file to. /// \param ByteOrder The endianness to use when saving the file. /// \returns An error object that indicates success or failure of the save. llvm::Error save(StringRef Path, llvm::support::endianness ByteOrder) const; /// Encode a GSYM into the file writer stream at the current position. /// /// \param O The stream to save the binary data to /// \returns An error object that indicates success or failure of the save. llvm::Error encode(FileWriter &O) const; /// Insert a string into the GSYM string table. /// /// All strings used by GSYM files must be uniqued by adding them to this /// string pool and using the returned offset for any string values. /// /// \param S The string to insert into the string table. /// \param Copy If true, then make a backing copy of the string. If false, /// the string is owned by another object that will stay around /// long enough for the GsymCreator to save the GSYM file. /// \returns The unique 32 bit offset into the string table. uint32_t insertString(StringRef S, bool Copy = true); /// Insert a file into this GSYM creator. /// /// Inserts a file by adding a FileEntry into the "Files" member variable if /// the file has not already been added. The file path is split into /// directory and filename which are both added to the string table. This /// allows paths to be stored efficiently by reusing the directories that are /// common between multiple files. /// /// \param Path The path to the file to insert. /// \param Style The path style for the "Path" parameter. /// \returns The unique file index for the inserted file. uint32_t insertFile(StringRef Path, sys::path::Style Style = sys::path::Style::native); /// Add a function info to this GSYM creator. /// /// All information in the FunctionInfo object must use the /// GsymCreator::insertString(...) function when creating string table /// offsets for names and other strings. /// /// \param FI The function info object to emplace into our functions list. void addFunctionInfo(FunctionInfo &&FI); /// Finalize the data in the GSYM creator prior to saving the data out. /// /// Finalize must be called after all FunctionInfo objects have been added /// and before GsymCreator::save() is called. /// /// \param OS Output stream to report duplicate function infos, overlapping /// function infos, and function infos that were merged or removed. /// \returns An error object that indicates success or failure of the /// finalize. llvm::Error finalize(llvm::raw_ostream &OS); /// Set the UUID value. /// /// \param UUIDBytes The new UUID bytes. void setUUID(llvm::ArrayRef UUIDBytes) { UUID.assign(UUIDBytes.begin(), UUIDBytes.end()); } /// Thread safe iteration over all function infos. /// /// \param Callback A callback function that will get called with each /// FunctionInfo. If the callback returns false, stop iterating. void forEachFunctionInfo( std::function const &Callback); /// Thread safe const iteration over all function infos. /// /// \param Callback A callback function that will get called with each /// FunctionInfo. If the callback returns false, stop iterating. void forEachFunctionInfo( std::function const &Callback) const; /// Get the current number of FunctionInfo objects contained in this /// object. size_t getNumFunctionInfos() const; /// Check if an address has already been added as a function info. /// /// FunctionInfo data can come from many sources: debug info, symbol tables, /// exception information, and more. Symbol tables should be added after /// debug info and can use this function to see if a symbol's start address /// has already been added to the GsymReader. Calling this before adding /// a function info from a source other than debug info avoids clients adding /// many redundant FunctionInfo objects from many sources only for them to be /// removed during the finalize() call. bool hasFunctionInfoForAddress(uint64_t Addr) const; /// Set valid .text address ranges that all functions must be contained in. void SetValidTextRanges(AddressRanges &TextRanges) { ValidTextRanges = TextRanges; } /// Get the valid text ranges. const Optional GetValidTextRanges() const { return ValidTextRanges; } /// Check if an address is a valid code address. /// /// Any functions whose addresses do not exist within these function bounds /// will not be converted into the final GSYM. This allows the object file /// to figure out the valid file address ranges of all the code sections /// and ensure we don't add invalid functions to the final output. Many /// linkers have issues when dead stripping functions from DWARF debug info /// where they set the DW_AT_low_pc to zero, but newer DWARF has the /// DW_AT_high_pc as an offset from the DW_AT_low_pc and these size /// attributes have no relocations that can be applied. This results in DWARF /// where many functions have an DW_AT_low_pc of zero and a valid offset size /// for DW_AT_high_pc. If we extract all valid ranges from an object file /// that are marked with executable permissions, we can properly ensure that /// these functions are removed. /// /// \param Addr An address to check. /// /// \returns True if the address is in the valid text ranges or if no valid /// text ranges have been set, false otherwise. bool IsValidTextAddress(uint64_t Addr) const; /// Set the base address to use for the GSYM file. /// /// Setting the base address to use for the GSYM file. Object files typically /// get loaded from a base address when the OS loads them into memory. Using /// GSYM files for symbolication becomes easier if the base address in the /// GSYM header is the same address as it allows addresses to be easily slid /// and allows symbolication without needing to find the original base /// address in the original object file. /// /// \param Addr The address to use as the base address of the GSYM file /// when it is saved to disk. void setBaseAddress(uint64_t Addr) { BaseAddress = Addr; } }; } // namespace gsym } // namespace llvm #endif // #ifndef LLVM_DEBUGINFO_GSYM_GSYMCREATOR_H