/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef CustomElf_h #define CustomElf_h #include "ElfLoader.h" #include "BaseElf.h" #include "Logging.h" #include "Elfxx.h" /** * Library Handle class for ELF libraries we don't let the system linker * handle. */ class CustomElf: public BaseElf, private ElfLoader::link_map { friend class ElfLoader; friend class SEGVHandler; public: /** * Returns a new CustomElf using the given file descriptor to map ELF * content. The file descriptor ownership is stolen, and it will be closed * in CustomElf's destructor if an instance is created, or by the Load * method otherwise. The path corresponds to the file descriptor, and flags * are the same kind of flags that would be given to dlopen(), though * currently, none are supported and the behaviour is more or less that of * RTLD_GLOBAL | RTLD_BIND_NOW. */ static already_AddRefed Load(Mappable *mappable, const char *path, int flags); /** * Inherited from LibHandle/BaseElf */ virtual ~CustomElf(); protected: virtual Mappable *GetMappable() const; public: /** * Returns the instance, casted as BaseElf. (short of a better way to do * this without RTTI) */ virtual BaseElf *AsBaseElf() { return this; } private: /** * Scan dependent libraries to find the address corresponding to the * given symbol name. This is used to find symbols that are undefined * in the Elf object. */ void *GetSymbolPtrInDeps(const char *symbol) const; /** * Private constructor */ CustomElf(Mappable *mappable, const char *path) : BaseElf(path, mappable) , link_map() , init(0) , fini(0) , initialized(false) , has_text_relocs(false) { } /** * Loads an Elf segment defined by the given PT_LOAD header. * Returns whether this succeeded or failed. */ bool LoadSegment(const Elf::Phdr *pt_load) const; /** * Initializes the library according to information found in the given * PT_DYNAMIC header. * Returns whether this succeeded or failed. */ bool InitDyn(const Elf::Phdr *pt_dyn); /** * Apply .rel.dyn/.rela.dyn relocations. * Returns whether this succeeded or failed. */ bool Relocate(); /** * Apply .rel.plt/.rela.plt relocations. * Returns whether this succeeded or failed. */ bool RelocateJumps(); /** * Call initialization functions (.init/.init_array) * Returns true; */ bool CallInit(); /** * Call destructor functions (.fini_array/.fini) * Returns whether this succeeded or failed. */ void CallFini(); /** * Call a function given a pointer to its location. */ void CallFunction(void *ptr) const { /* C++ doesn't allow direct conversion between pointer-to-object * and pointer-to-function. */ union { void *ptr; void (*func)(void); } f; f.ptr = ptr; DEBUG_LOG("%s: Calling function @%p", GetPath(), ptr); f.func(); } /** * Call a function given a an address relative to the library base */ void CallFunction(Elf::Addr addr) const { return CallFunction(GetPtr(addr)); } /* List of dependent libraries */ std::vector > dependencies; /* List of .rel.dyn/.rela.dyn relocations */ Array relocations; /* List of .rel.plt/.rela.plt relocation */ Array jumprels; /* Relative address of the initialization and destruction functions * (.init/.fini) */ Elf::Addr init, fini; /* List of initialization and destruction functions * (.init_array/.fini_array) */ Array init_array, fini_array; bool initialized; bool has_text_relocs; }; #endif /* CustomElf_h */