//===-- SymbolRewriter.h - Symbol Rewriting Pass ----------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file provides the prototypes and definitions related to the Symbol // Rewriter pass. // // The Symbol Rewriter pass takes a set of rewrite descriptors which define // transformations for symbol names. These can be either single name to name // trnsformation or more broad regular expression based transformations. // // All the functions are re-written at the IR level. The Symbol Rewriter itself // is exposed as a module level pass. All symbols at the module level are // iterated. For any matching symbol, the requested transformation is applied, // updating references to it as well (a la RAUW). The resulting binary will // only contain the rewritten symbols. // // By performing this operation in the compiler, we are able to catch symbols // that would otherwise not be possible to catch (e.g. inlined symbols). // // This makes it possible to cleanly transform symbols without resorting to // overly-complex macro tricks and the pre-processor. An example of where this // is useful is the sanitizers where we would like to intercept a well-defined // set of functions across the module. // //===----------------------------------------------------------------------===// #ifndef LLVM_TRANSFORMS_UTILS_SYMBOL_REWRITER_H #define LLVM_TRANSFORMS_UTILS_SYMBOL_REWRITER_H #include "llvm/ADT/ilist.h" #include "llvm/ADT/ilist_node.h" #include "llvm/IR/Module.h" namespace llvm { class MemoryBuffer; namespace yaml { class KeyValueNode; class MappingNode; class ScalarNode; class Stream; } namespace SymbolRewriter { /// The basic entity representing a rewrite operation. It serves as the base /// class for any rewrite descriptor. It has a certain set of specializations /// which describe a particular rewrite. /// /// The RewriteMapParser can be used to parse a mapping file that provides the /// mapping for rewriting the symbols. The descriptors individually describe /// whether to rewrite a function, global variable, or global alias. Each of /// these can be selected either by explicitly providing a name for the ones to /// be rewritten or providing a (posix compatible) regular expression that will /// select the symbols to rewrite. This descriptor list is passed to the /// SymbolRewriter pass. class RewriteDescriptor : public ilist_node { RewriteDescriptor(const RewriteDescriptor &) LLVM_DELETED_FUNCTION; const RewriteDescriptor & operator=(const RewriteDescriptor &) LLVM_DELETED_FUNCTION; public: enum class Type { Invalid, /// invalid Function, /// function - descriptor rewrites a function GlobalVariable, /// global variable - descriptor rewrites a global variable NamedAlias, /// named alias - descriptor rewrites a global alias }; virtual ~RewriteDescriptor() {} Type getType() const { return Kind; } virtual bool performOnModule(Module &M) = 0; protected: explicit RewriteDescriptor(Type T) : Kind(T) {} private: const Type Kind; }; typedef iplist RewriteDescriptorList; class RewriteMapParser { public: RewriteMapParser() {} ~RewriteMapParser() {} bool parse(const std::string &MapFile, RewriteDescriptorList *Descriptors); private: bool parse(std::unique_ptr &MapFile, RewriteDescriptorList *DL); bool parseEntry(yaml::Stream &Stream, yaml::KeyValueNode &Entry, RewriteDescriptorList *DL); bool parseRewriteFunctionDescriptor(yaml::Stream &Stream, yaml::ScalarNode *Key, yaml::MappingNode *Value, RewriteDescriptorList *DL); bool parseRewriteGlobalVariableDescriptor(yaml::Stream &Stream, yaml::ScalarNode *Key, yaml::MappingNode *Value, RewriteDescriptorList *DL); bool parseRewriteGlobalAliasDescriptor(yaml::Stream &YS, yaml::ScalarNode *K, yaml::MappingNode *V, RewriteDescriptorList *DL); }; } template <> struct ilist_traits : public ilist_default_traits { mutable ilist_half_node Sentinel; public: // createSentinel is used to get a reference to a node marking the end of // the list. Because the sentinel is relative to this instance, use a // non-static method. SymbolRewriter::RewriteDescriptor *createSentinel() const { // since i[p] lists always publicly derive from the corresponding // traits, placing a data member in this class will augment the // i[p]list. Since the NodeTy is expected to publicly derive from // ilist_node, there is a legal viable downcast from it to // NodeTy. We use this trick to superpose i[p]list with a "ghostly" // NodeTy, which becomes the sentinel. Dereferencing the sentinel is // forbidden (save the ilist_node) so no one will ever notice // the superposition. return static_cast(&Sentinel); } void destroySentinel(SymbolRewriter::RewriteDescriptor *) {} SymbolRewriter::RewriteDescriptor *provideInitialHead() const { return createSentinel(); } SymbolRewriter::RewriteDescriptor * ensureHead(SymbolRewriter::RewriteDescriptor *&) const { return createSentinel(); } static void noteHead(SymbolRewriter::RewriteDescriptor *, SymbolRewriter::RewriteDescriptor *) {} }; ModulePass *createRewriteSymbolsPass(); ModulePass *createRewriteSymbolsPass(SymbolRewriter::RewriteDescriptorList &); } #endif