//===- SectionPriorities.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 LLD_MACHO_SECTION_PRIORITIES_H #define LLD_MACHO_SECTION_PRIORITIES_H #include "InputSection.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/MapVector.h" namespace lld::macho { using SectionPair = std::pair; class PriorityBuilder { public: // Reads every input section's call graph profile, and combines them into // callGraphProfile. If an order file is present, any edges where one or both // of the vertices are specified in the order file are discarded. void extractCallGraphProfile(); // Reads the order file at `path` into config->priorities. // // An order file has one entry per line, in the following format: // // ::[ | cStringEntryPrefix ] // // and are optional. // If not specified, then that entry tries to match either, // // 1) any symbol of the ; // Parsing this format is not quite straightforward because the symbol name // itself can contain colons, so when encountering a colon, we consider the // preceding characters to decide if it can be a valid CPU type or file path. // If a symbol is matched by multiple entries, then it takes the // lowest-ordered entry (the one nearest to the front of the list.) // // or 2) any cstring literal with the given hash, if the entry has the // cStringEntryPrefix prefix defined below in the file. is the // hash of cstring literal content. // // Cstring literals are not symbolized, we can't identify them by name // However, cstrings are deduplicated, hence unique, so we use the hash of // the content of cstring literals to identify them and assign priority to it. // We use the same hash as used in StringPiece, i.e. 31 bit: // xxh3_64bits(string) & 0x7fffffff // // The file can also have line comments that start with '#'. void parseOrderFile(StringRef path); /// Call \p f for each string piece in \p inputs. If there are any cstring /// literals in the orderfile (and \p forceInputOrder is false) then string /// pieces are ordered by the orderfile. \p computeHash must be set when /// \p deduplicateLiterals is false because then the string piece hash is not /// set. void forEachStringPiece( ArrayRef inputs, std::function f, bool forceInputOrder = false, bool computeHash = false) const; // Returns layout priorities for some or all input sections. Sections are laid // out in decreasing order; that is, a higher priority section will be closer // to the beginning of its output section. // // If either an order file or a call graph profile are present, this is used // as the source of priorities. If both are present, the order file takes // precedence, but the call graph profile is still used for symbols that don't // appear in the order file. If neither is present, an empty map is returned. // // Each section gets assigned the priority of the highest-priority symbol it // contains. llvm::DenseMap buildInputSectionPriorities(); private: // The symbol with the smallest priority should be ordered first in the output // section (modulo input section contiguity constraints). struct SymbolPriorityEntry { // The priority given to a matching symbol, regardless of which object file // it originated from. int anyObjectFile = 0; // The priority given to a matching symbol from a particular object file. llvm::DenseMap objectFiles; void setPriority(int priority, StringRef objectFile); int getPriority(const InputFile *f) const; }; const llvm::StringRef cStringEntryPrefix = "CSTR;"; std::optional getSymbolPriority(const Defined *sym) const; std::optional getCStringPriority(uint32_t hash, const InputFile *f) const; llvm::DenseMap priorities; llvm::DenseMap cStringPriorities; llvm::MapVector callGraphProfile; }; extern PriorityBuilder priorityBuilder; } // namespace lld::macho #endif