From e8a696fa79e0760a347e2a8fefd01a15d6a744c0 Mon Sep 17 00:00:00 2001 From: Eric Christopher Date: Thu, 31 Jul 2014 20:44:46 +0000 Subject: [PATCH] Remove MCObjectDisassembler.cpp as it is untested and unused. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@214437 91177308-0d34-0410-b5e6-96231b3b80d8 --- lib/MC/MCAnalysis/MCObjectDisassembler.cpp | 574 --------------------- 1 file changed, 574 deletions(-) delete mode 100644 lib/MC/MCAnalysis/MCObjectDisassembler.cpp diff --git a/lib/MC/MCAnalysis/MCObjectDisassembler.cpp b/lib/MC/MCAnalysis/MCObjectDisassembler.cpp deleted file mode 100644 index 557e94315b1..00000000000 --- a/lib/MC/MCAnalysis/MCObjectDisassembler.cpp +++ /dev/null @@ -1,574 +0,0 @@ -//===- lib/MC/MCObjectDisassembler.cpp ------------------------------------===// -// -// The LLVM Compiler Infrastructure -// -// This file is distributed under the University of Illinois Open Source -// License. See LICENSE.TXT for details. -// -//===----------------------------------------------------------------------===// - -#include "llvm/MC/MCObjectDisassembler.h" -#include "llvm/ADT/SetVector.h" -#include "llvm/ADT/SmallPtrSet.h" -#include "llvm/ADT/StringExtras.h" -#include "llvm/ADT/StringRef.h" -#include "llvm/ADT/Twine.h" -#include "llvm/MC/MCAnalysis/MCAtom.h" -#include "llvm/MC/MCAnalysis/MCFunction.h" -#include "llvm/MC/MCAnalysis/MCModule.h" -#include "llvm/MC/MCAnalysis/MCObjectSymbolizer.h" -#include "llvm/MC/MCDisassembler.h" -#include "llvm/MC/MCInstrAnalysis.h" -#include "llvm/Object/MachO.h" -#include "llvm/Object/ObjectFile.h" -#include "llvm/Support/Debug.h" -#include "llvm/Support/MachO.h" -#include "llvm/Support/MemoryObject.h" -#include "llvm/Support/StringRefMemoryObject.h" -#include "llvm/Support/raw_ostream.h" -#include - -using namespace llvm; -using namespace object; - -#define DEBUG_TYPE "mc" - -MCObjectDisassembler::MCObjectDisassembler(const ObjectFile &Obj, - const MCDisassembler &Dis, - const MCInstrAnalysis &MIA) - : Obj(Obj), Dis(Dis), MIA(MIA), MOS(nullptr) {} - -uint64_t MCObjectDisassembler::getEntrypoint() { - for (const SymbolRef &Symbol : Obj.symbols()) { - StringRef Name; - Symbol.getName(Name); - if (Name == "main" || Name == "_main") { - uint64_t Entrypoint; - Symbol.getAddress(Entrypoint); - return getEffectiveLoadAddr(Entrypoint); - } - } - return 0; -} - -ArrayRef MCObjectDisassembler::getStaticInitFunctions() { - return ArrayRef(); -} - -ArrayRef MCObjectDisassembler::getStaticExitFunctions() { - return ArrayRef(); -} - -MemoryObject *MCObjectDisassembler::getRegionFor(uint64_t Addr) { - // FIXME: Keep track of object sections. - return FallbackRegion.get(); -} - -uint64_t MCObjectDisassembler::getEffectiveLoadAddr(uint64_t Addr) { - return Addr; -} - -uint64_t MCObjectDisassembler::getOriginalLoadAddr(uint64_t Addr) { - return Addr; -} - -MCModule *MCObjectDisassembler::buildEmptyModule() { - MCModule *Module = new MCModule; - Module->Entrypoint = getEntrypoint(); - return Module; -} - -MCModule *MCObjectDisassembler::buildModule(bool withCFG) { - MCModule *Module = buildEmptyModule(); - - buildSectionAtoms(Module); - if (withCFG) - buildCFG(Module); - return Module; -} - -void MCObjectDisassembler::buildSectionAtoms(MCModule *Module) { - for (const SectionRef &Section : Obj.sections()) { - bool isText; - Section.isText(isText); - bool isData; - Section.isData(isData); - if (!isData && !isText) - continue; - - uint64_t StartAddr; - Section.getAddress(StartAddr); - uint64_t SecSize; - Section.getSize(SecSize); - if (StartAddr == UnknownAddressOrSize || SecSize == UnknownAddressOrSize) - continue; - StartAddr = getEffectiveLoadAddr(StartAddr); - - StringRef Contents; - Section.getContents(Contents); - StringRefMemoryObject memoryObject(Contents, StartAddr); - - // We don't care about things like non-file-backed sections yet. - if (Contents.size() != SecSize || !SecSize) - continue; - uint64_t EndAddr = StartAddr + SecSize - 1; - - StringRef SecName; - Section.getName(SecName); - - if (isText) { - MCTextAtom *Text = nullptr; - MCDataAtom *InvalidData = nullptr; - - uint64_t InstSize; - for (uint64_t Index = 0; Index < SecSize; Index += InstSize) { - const uint64_t CurAddr = StartAddr + Index; - MCInst Inst; - if (Dis.getInstruction(Inst, InstSize, memoryObject, CurAddr, nulls(), - nulls())) { - if (!Text) { - Text = Module->createTextAtom(CurAddr, CurAddr); - Text->setName(SecName); - } - Text->addInst(Inst, InstSize); - InvalidData = nullptr; - } else { - assert(InstSize && "getInstruction() consumed no bytes"); - if (!InvalidData) { - Text = nullptr; - InvalidData = Module->createDataAtom(CurAddr, CurAddr+InstSize - 1); - } - for (uint64_t I = 0; I < InstSize; ++I) - InvalidData->addData(Contents[Index+I]); - } - } - } else { - MCDataAtom *Data = Module->createDataAtom(StartAddr, EndAddr); - Data->setName(SecName); - for (uint64_t Index = 0; Index < SecSize; ++Index) - Data->addData(Contents[Index]); - } - } -} - -namespace { - struct BBInfo; - typedef SmallPtrSet BBInfoSetTy; - - struct BBInfo { - MCTextAtom *Atom; - MCBasicBlock *BB; - BBInfoSetTy Succs; - BBInfoSetTy Preds; - MCObjectDisassembler::AddressSetTy SuccAddrs; - - BBInfo() : Atom(nullptr), BB(nullptr) {} - - void addSucc(BBInfo &Succ) { - Succs.insert(&Succ); - Succ.Preds.insert(this); - } - }; -} - -static void RemoveDupsFromAddressVector(MCObjectDisassembler::AddressSetTy &V) { - std::sort(V.begin(), V.end()); - V.erase(std::unique(V.begin(), V.end()), V.end()); -} - -void MCObjectDisassembler::buildCFG(MCModule *Module) { - typedef std::map BBInfoByAddrTy; - BBInfoByAddrTy BBInfos; - AddressSetTy Splits; - AddressSetTy Calls; - - for (const SymbolRef &Symbol : Obj.symbols()) { - SymbolRef::Type SymType; - Symbol.getType(SymType); - if (SymType == SymbolRef::ST_Function) { - uint64_t SymAddr; - Symbol.getAddress(SymAddr); - SymAddr = getEffectiveLoadAddr(SymAddr); - Calls.push_back(SymAddr); - Splits.push_back(SymAddr); - } - } - - assert(Module->func_begin() == Module->func_end() - && "Module already has a CFG!"); - - // First, determine the basic block boundaries and call targets. - for (MCModule::atom_iterator AI = Module->atom_begin(), - AE = Module->atom_end(); - AI != AE; ++AI) { - MCTextAtom *TA = dyn_cast(*AI); - if (!TA) continue; - Calls.push_back(TA->getBeginAddr()); - BBInfos[TA->getBeginAddr()].Atom = TA; - for (MCTextAtom::const_iterator II = TA->begin(), IE = TA->end(); - II != IE; ++II) { - if (MIA.isTerminator(II->Inst)) - Splits.push_back(II->Address + II->Size); - uint64_t Target; - if (MIA.evaluateBranch(II->Inst, II->Address, II->Size, Target)) { - if (MIA.isCall(II->Inst)) - Calls.push_back(Target); - Splits.push_back(Target); - } - } - } - - RemoveDupsFromAddressVector(Splits); - RemoveDupsFromAddressVector(Calls); - - // Split text atoms into basic block atoms. - for (AddressSetTy::const_iterator SI = Splits.begin(), SE = Splits.end(); - SI != SE; ++SI) { - MCAtom *A = Module->findAtomContaining(*SI); - if (!A) continue; - MCTextAtom *TA = cast(A); - if (TA->getBeginAddr() == *SI) - continue; - MCTextAtom *NewAtom = TA->split(*SI); - BBInfos[NewAtom->getBeginAddr()].Atom = NewAtom; - StringRef BBName = TA->getName(); - BBName = BBName.substr(0, BBName.find_last_of(':')); - NewAtom->setName((BBName + ":" + utohexstr(*SI)).str()); - } - - // Compute succs/preds. - for (MCModule::atom_iterator AI = Module->atom_begin(), - AE = Module->atom_end(); - AI != AE; ++AI) { - MCTextAtom *TA = dyn_cast(*AI); - if (!TA) continue; - BBInfo &CurBB = BBInfos[TA->getBeginAddr()]; - const MCDecodedInst &LI = TA->back(); - if (MIA.isBranch(LI.Inst)) { - uint64_t Target; - if (MIA.evaluateBranch(LI.Inst, LI.Address, LI.Size, Target)) - CurBB.addSucc(BBInfos[Target]); - if (MIA.isConditionalBranch(LI.Inst)) - CurBB.addSucc(BBInfos[LI.Address + LI.Size]); - } else if (!MIA.isTerminator(LI.Inst)) - CurBB.addSucc(BBInfos[LI.Address + LI.Size]); - } - - - // Create functions and basic blocks. - for (AddressSetTy::const_iterator CI = Calls.begin(), CE = Calls.end(); - CI != CE; ++CI) { - BBInfo &BBI = BBInfos[*CI]; - if (!BBI.Atom) continue; - - MCFunction &MCFN = *Module->createFunction(BBI.Atom->getName()); - - // Create MCBBs. - SmallSetVector Worklist; - Worklist.insert(&BBI); - for (size_t wi = 0; wi < Worklist.size(); ++wi) { - BBInfo *BBI = Worklist[wi]; - if (!BBI->Atom) - continue; - BBI->BB = &MCFN.createBlock(*BBI->Atom); - // Add all predecessors and successors to the worklist. - for (BBInfoSetTy::iterator SI = BBI->Succs.begin(), SE = BBI->Succs.end(); - SI != SE; ++SI) - Worklist.insert(*SI); - for (BBInfoSetTy::iterator PI = BBI->Preds.begin(), PE = BBI->Preds.end(); - PI != PE; ++PI) - Worklist.insert(*PI); - } - - // Set preds/succs. - for (size_t wi = 0; wi < Worklist.size(); ++wi) { - BBInfo *BBI = Worklist[wi]; - MCBasicBlock *MCBB = BBI->BB; - if (!MCBB) - continue; - for (BBInfoSetTy::iterator SI = BBI->Succs.begin(), SE = BBI->Succs.end(); - SI != SE; ++SI) - if ((*SI)->BB) - MCBB->addSuccessor((*SI)->BB); - for (BBInfoSetTy::iterator PI = BBI->Preds.begin(), PE = BBI->Preds.end(); - PI != PE; ++PI) - if ((*PI)->BB) - MCBB->addPredecessor((*PI)->BB); - } - } -} - -// Basic idea of the disassembly + discovery: -// -// start with the wanted address, insert it in the worklist -// while worklist not empty, take next address in the worklist: -// - check if atom exists there -// - if middle of atom: -// - split basic blocks referencing the atom -// - look for an already encountered BBInfo (using a map) -// - if there is, split it (new one, fallthrough, move succs, etc..) -// - if start of atom: nothing else to do -// - if no atom: create new atom and new bbinfo -// - look at the last instruction in the atom, add succs to worklist -// for all elements in the worklist: -// - create basic block, update preds/succs, etc.. -// -MCBasicBlock *MCObjectDisassembler::getBBAt(MCModule *Module, MCFunction *MCFN, - uint64_t BBBeginAddr, - AddressSetTy &CallTargets, - AddressSetTy &TailCallTargets) { - typedef std::map BBInfoByAddrTy; - typedef SmallSetVector AddrWorklistTy; - BBInfoByAddrTy BBInfos; - AddrWorklistTy Worklist; - - Worklist.insert(BBBeginAddr); - for (size_t wi = 0; wi < Worklist.size(); ++wi) { - const uint64_t BeginAddr = Worklist[wi]; - BBInfo *BBI = &BBInfos[BeginAddr]; - - MCTextAtom *&TA = BBI->Atom; - assert(!TA && "Discovered basic block already has an associated atom!"); - - // Look for an atom at BeginAddr. - if (MCAtom *A = Module->findAtomContaining(BeginAddr)) { - // FIXME: We don't care about mixed atoms, see above. - TA = cast(A); - - // The found atom doesn't begin at BeginAddr, we have to split it. - if (TA->getBeginAddr() != BeginAddr) { - // FIXME: Handle overlapping atoms: middle-starting instructions, etc.. - MCTextAtom *NewTA = TA->split(BeginAddr); - - // Look for an already encountered basic block that needs splitting - BBInfoByAddrTy::iterator It = BBInfos.find(TA->getBeginAddr()); - if (It != BBInfos.end() && It->second.Atom) { - BBI->SuccAddrs = It->second.SuccAddrs; - It->second.SuccAddrs.clear(); - It->second.SuccAddrs.push_back(BeginAddr); - } - TA = NewTA; - } - BBI->Atom = TA; - } else { - // If we didn't find an atom, then we have to disassemble to create one! - - MemoryObject *Region = getRegionFor(BeginAddr); - if (!Region) - llvm_unreachable(("Couldn't find suitable region for disassembly at " + - utostr(BeginAddr)).c_str()); - - uint64_t InstSize; - uint64_t EndAddr = Region->getBase() + Region->getExtent(); - - // We want to stop before the next atom and have a fallthrough to it. - if (MCTextAtom *NextAtom = - cast_or_null(Module->findFirstAtomAfter(BeginAddr))) - EndAddr = std::min(EndAddr, NextAtom->getBeginAddr()); - - for (uint64_t Addr = BeginAddr; Addr < EndAddr; Addr += InstSize) { - MCInst Inst; - if (Dis.getInstruction(Inst, InstSize, *Region, Addr, nulls(), - nulls())) { - if (!TA) - TA = Module->createTextAtom(Addr, Addr); - TA->addInst(Inst, InstSize); - } else { - // We don't care about splitting mixed atoms either. - llvm_unreachable("Couldn't disassemble instruction in atom."); - } - - uint64_t BranchTarget; - if (MIA.evaluateBranch(Inst, Addr, InstSize, BranchTarget)) { - if (MIA.isCall(Inst)) - CallTargets.push_back(BranchTarget); - } - - if (MIA.isTerminator(Inst)) - break; - } - BBI->Atom = TA; - } - - assert(TA && "Couldn't disassemble atom, none was created!"); - assert(TA->begin() != TA->end() && "Empty atom!"); - - MemoryObject *Region = getRegionFor(TA->getBeginAddr()); - assert(Region && "Couldn't find region for already disassembled code!"); - uint64_t EndRegion = Region->getBase() + Region->getExtent(); - - // Now we have a basic block atom, add successors. - // Add the fallthrough block. - if ((MIA.isConditionalBranch(TA->back().Inst) || - !MIA.isTerminator(TA->back().Inst)) && - (TA->getEndAddr() + 1 < EndRegion)) { - BBI->SuccAddrs.push_back(TA->getEndAddr() + 1); - Worklist.insert(TA->getEndAddr() + 1); - } - - // If the terminator is a branch, add the target block. - if (MIA.isBranch(TA->back().Inst)) { - uint64_t BranchTarget; - if (MIA.evaluateBranch(TA->back().Inst, TA->back().Address, - TA->back().Size, BranchTarget)) { - StringRef ExtFnName; - if (MOS) - ExtFnName = - MOS->findExternalFunctionAt(getOriginalLoadAddr(BranchTarget)); - if (!ExtFnName.empty()) { - TailCallTargets.push_back(BranchTarget); - CallTargets.push_back(BranchTarget); - } else { - BBI->SuccAddrs.push_back(BranchTarget); - Worklist.insert(BranchTarget); - } - } - } - } - - for (size_t wi = 0, we = Worklist.size(); wi != we; ++wi) { - const uint64_t BeginAddr = Worklist[wi]; - BBInfo *BBI = &BBInfos[BeginAddr]; - - assert(BBI->Atom && "Found a basic block without an associated atom!"); - - // Look for a basic block at BeginAddr. - BBI->BB = MCFN->find(BeginAddr); - if (BBI->BB) { - // FIXME: check that the succs/preds are the same - continue; - } - // If there was none, we have to create one from the atom. - BBI->BB = &MCFN->createBlock(*BBI->Atom); - } - - for (size_t wi = 0, we = Worklist.size(); wi != we; ++wi) { - const uint64_t BeginAddr = Worklist[wi]; - BBInfo *BBI = &BBInfos[BeginAddr]; - MCBasicBlock *BB = BBI->BB; - - RemoveDupsFromAddressVector(BBI->SuccAddrs); - for (AddressSetTy::const_iterator SI = BBI->SuccAddrs.begin(), - SE = BBI->SuccAddrs.end(); - SI != SE; ++SI) { - MCBasicBlock *Succ = BBInfos[*SI].BB; - BB->addSuccessor(Succ); - Succ->addPredecessor(BB); - } - } - - assert(BBInfos[Worklist[0]].BB && - "No basic block created at requested address?"); - - return BBInfos[Worklist[0]].BB; -} - -MCFunction * -MCObjectDisassembler::createFunction(MCModule *Module, uint64_t BeginAddr, - AddressSetTy &CallTargets, - AddressSetTy &TailCallTargets) { - // First, check if this is an external function. - StringRef ExtFnName; - if (MOS) - ExtFnName = MOS->findExternalFunctionAt(getOriginalLoadAddr(BeginAddr)); - if (!ExtFnName.empty()) - return Module->createFunction(ExtFnName); - - // If it's not, look for an existing function. - for (MCModule::func_iterator FI = Module->func_begin(), - FE = Module->func_end(); - FI != FE; ++FI) { - if ((*FI)->empty()) - continue; - // FIXME: MCModule should provide a findFunctionByAddr() - if ((*FI)->getEntryBlock()->getInsts()->getBeginAddr() == BeginAddr) - return FI->get(); - } - - // Finally, just create a new one. - MCFunction *MCFN = Module->createFunction(""); - getBBAt(Module, MCFN, BeginAddr, CallTargets, TailCallTargets); - return MCFN; -} - -// MachO MCObjectDisassembler implementation. - -MCMachOObjectDisassembler::MCMachOObjectDisassembler( - const MachOObjectFile &MOOF, const MCDisassembler &Dis, - const MCInstrAnalysis &MIA, uint64_t VMAddrSlide, - uint64_t HeaderLoadAddress) - : MCObjectDisassembler(MOOF, Dis, MIA), MOOF(MOOF), - VMAddrSlide(VMAddrSlide), HeaderLoadAddress(HeaderLoadAddress) { - - for (const SectionRef &Section : MOOF.sections()) { - StringRef Name; - Section.getName(Name); - // FIXME: We should use the S_ section type instead of the name. - if (Name == "__mod_init_func") { - DEBUG(dbgs() << "Found __mod_init_func section!\n"); - Section.getContents(ModInitContents); - } else if (Name == "__mod_exit_func") { - DEBUG(dbgs() << "Found __mod_exit_func section!\n"); - Section.getContents(ModExitContents); - } - } -} - -// FIXME: Only do the translations for addresses actually inside the object. -uint64_t MCMachOObjectDisassembler::getEffectiveLoadAddr(uint64_t Addr) { - return Addr + VMAddrSlide; -} - -uint64_t -MCMachOObjectDisassembler::getOriginalLoadAddr(uint64_t EffectiveAddr) { - return EffectiveAddr - VMAddrSlide; -} - -uint64_t MCMachOObjectDisassembler::getEntrypoint() { - uint64_t EntryFileOffset = 0; - - // Look for LC_MAIN. - { - uint32_t LoadCommandCount = MOOF.getHeader().ncmds; - MachOObjectFile::LoadCommandInfo Load = MOOF.getFirstLoadCommandInfo(); - for (unsigned I = 0;; ++I) { - if (Load.C.cmd == MachO::LC_MAIN) { - EntryFileOffset = - ((const MachO::entry_point_command *)Load.Ptr)->entryoff; - break; - } - - if (I == LoadCommandCount - 1) - break; - else - Load = MOOF.getNextLoadCommandInfo(Load); - } - } - - // If we didn't find anything, default to the common implementation. - // FIXME: Maybe we could also look at LC_UNIXTHREAD and friends? - if (EntryFileOffset) - return MCObjectDisassembler::getEntrypoint(); - - return EntryFileOffset + HeaderLoadAddress; -} - -ArrayRef MCMachOObjectDisassembler::getStaticInitFunctions() { - // FIXME: We only handle 64bit mach-o - assert(MOOF.is64Bit()); - - size_t EntrySize = 8; - size_t EntryCount = ModInitContents.size() / EntrySize; - return ArrayRef( - reinterpret_cast(ModInitContents.data()), EntryCount); -} - -ArrayRef MCMachOObjectDisassembler::getStaticExitFunctions() { - // FIXME: We only handle 64bit mach-o - assert(MOOF.is64Bit()); - - size_t EntrySize = 8; - size_t EntryCount = ModExitContents.size() / EntrySize; - return ArrayRef( - reinterpret_cast(ModExitContents.data()), EntryCount); -}