mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-12-16 11:30:51 +00:00
7fc9fe3439
* Convert post to pre-increment for for loops * Use generic programming more * Use new Value::cast* instructions * Use new Module, Method, & BasicBlock forwarding methods * Use new facilities in STLExtras.h * Use new Instruction::isPHINode() method git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@96 91177308-0d34-0410-b5e6-96231b3b80d8
476 lines
14 KiB
C++
476 lines
14 KiB
C++
//===- Reader.cpp - Code to read bytecode files -----------------------------===
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//
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// This library implements the functionality defined in llvm/Bytecode/Reader.h
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//
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// Note that this library should be as fast as possible, reentrant, and
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// threadsafe!!
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//
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// TODO: Make error message outputs be configurable depending on an option?
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// TODO: Allow passing in an option to ignore the symbol table
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//
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//===------------------------------------------------------------------------===
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#include "llvm/Bytecode/Reader.h"
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#include "llvm/Bytecode/Format.h"
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#include "llvm/Module.h"
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#include "llvm/BasicBlock.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/ConstPoolVals.h"
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#include "llvm/iOther.h"
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#include "ReaderInternals.h"
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#include <sys/types.h>
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#include <sys/mman.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include <unistd.h>
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#include <algorithm>
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bool BytecodeParser::getTypeSlot(const Type *Ty, unsigned &Slot) {
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if (Ty->isPrimitiveType()) {
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Slot = Ty->getPrimitiveID();
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} else {
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TypeMapType::iterator I = TypeMap.find(Ty);
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if (I == TypeMap.end()) return true; // Didn't find type!
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Slot = I->second;
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}
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//cerr << "getTypeSlot '" << Ty->getName() << "' = " << Slot << endl;
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return false;
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}
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const Type *BytecodeParser::getType(unsigned ID) {
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const Type *T = Type::getPrimitiveType((Type::PrimitiveID)ID);
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if (T) return T;
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//cerr << "Looking up Type ID: " << ID << endl;
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const Value *D = getValue(Type::TypeTy, ID, false);
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if (D == 0) return 0;
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assert(D->getType() == Type::TypeTy);
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return ((const ConstPoolType*)D->castConstantAsserting())->getValue();
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}
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bool BytecodeParser::insertValue(Value *Def, vector<ValueList> &ValueTab) {
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unsigned type;
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if (getTypeSlot(Def->getType(), type)) return true;
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if (ValueTab.size() <= type)
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ValueTab.resize(type+1, ValueList());
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//cerr << "insertValue Values[" << type << "][" << ValueTab[type].size()
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// << "] = " << Def << endl;
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if (type == Type::TypeTyID && Def->isConstant()) {
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const Type *Ty = ((const ConstPoolType*)Def)->getValue();
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unsigned ValueOffset = FirstDerivedTyID;
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if (&ValueTab == &Values) // Take into consideration module level types
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ValueOffset += ModuleValues[type].size();
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if (TypeMap.find(Ty) == TypeMap.end())
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TypeMap[Ty] = ValueTab[type].size()+ValueOffset;
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}
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ValueTab[type].push_back(Def);
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return false;
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}
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Value *BytecodeParser::getValue(const Type *Ty, unsigned oNum, bool Create) {
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unsigned Num = oNum;
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unsigned type; // The type plane it lives in...
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if (getTypeSlot(Ty, type)) return 0; // TODO: true
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if (type == Type::TypeTyID) { // The 'type' plane has implicit values
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const Type *T = Type::getPrimitiveType((Type::PrimitiveID)Num);
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if (T) return (Value*)T; // Asked for a primitive type...
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// Otherwise, derived types need offset...
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Num -= FirstDerivedTyID;
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}
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if (ModuleValues.size() > type) {
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if (ModuleValues[type].size() > Num)
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return ModuleValues[type][Num];
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Num -= ModuleValues[type].size();
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}
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if (Values.size() > type && Values[type].size() > Num)
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return Values[type][Num];
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if (!Create) return 0; // Do not create a placeholder?
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Value *d = 0;
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switch (Ty->getPrimitiveID()) {
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case Type::LabelTyID: d = new BBPHolder(Ty, oNum); break;
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case Type::MethodTyID:
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cerr << "Creating method pholder! : " << type << ":" << oNum << " "
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<< Ty->getName() << endl;
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d = new MethPHolder(Ty, oNum);
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insertValue(d, LateResolveModuleValues);
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return d;
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default: d = new DefPHolder(Ty, oNum); break;
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}
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assert(d != 0 && "How did we not make something?");
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if (insertValue(d, LateResolveValues)) return 0;
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return d;
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}
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bool BytecodeParser::postResolveValues(ValueTable &ValTab) {
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bool Error = false;
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for (unsigned ty = 0; ty < ValTab.size(); ++ty) {
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ValueList &DL = ValTab[ty];
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unsigned Size;
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while ((Size = DL.size())) {
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unsigned IDNumber = getValueIDNumberFromPlaceHolder(DL[Size-1]);
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Value *D = DL[Size-1];
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DL.pop_back();
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Value *NewDef = getValue(D->getType(), IDNumber, false);
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if (NewDef == 0) {
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Error = true; // Unresolved thinger
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cerr << "Unresolvable reference found: <" << D->getType()->getName()
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<< ">:" << IDNumber << "!\n";
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} else {
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// Fixup all of the uses of this placeholder def...
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D->replaceAllUsesWith(NewDef);
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// Now that all the uses are gone, delete the placeholder...
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// If we couldn't find a def (error case), then leak a little
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delete D; // memory, 'cause otherwise we can't remove all uses!
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}
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}
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}
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return Error;
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}
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bool BytecodeParser::ParseBasicBlock(const uchar *&Buf, const uchar *EndBuf,
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BasicBlock *&BB) {
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BB = new BasicBlock();
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while (Buf < EndBuf) {
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Instruction *Def;
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if (ParseInstruction(Buf, EndBuf, Def)) {
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delete BB;
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return true;
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}
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if (Def == 0) { delete BB; return true; }
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if (insertValue(Def, Values)) { delete BB; return true; }
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BB->getInstList().push_back(Def);
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}
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return false;
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}
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bool BytecodeParser::ParseSymbolTable(const uchar *&Buf, const uchar *EndBuf) {
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while (Buf < EndBuf) {
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// Symtab block header: [num entries][type id number]
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unsigned NumEntries, Typ;
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if (read_vbr(Buf, EndBuf, NumEntries) ||
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read_vbr(Buf, EndBuf, Typ)) return true;
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const Type *Ty = getType(Typ);
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if (Ty == 0) return true;
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for (unsigned i = 0; i < NumEntries; ++i) {
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// Symtab entry: [def slot #][name]
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unsigned slot;
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if (read_vbr(Buf, EndBuf, slot)) return true;
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string Name;
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if (read(Buf, EndBuf, Name, false)) // Not aligned...
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return true;
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Value *D = getValue(Ty, slot, false); // Find mapping...
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if (D == 0) return true;
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D->setName(Name);
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}
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}
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return Buf > EndBuf;
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}
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bool BytecodeParser::ParseMethod(const uchar *&Buf, const uchar *EndBuf,
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Module *C) {
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// Clear out the local values table...
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Values.clear();
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if (MethodSignatureList.empty()) return true; // Unexpected method!
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const MethodType *MTy = MethodSignatureList.front().first;
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unsigned MethSlot = MethodSignatureList.front().second;
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MethodSignatureList.pop_front();
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Method *M = new Method(MTy);
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const MethodType::ParamTypes &Params = MTy->getParamTypes();
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for (MethodType::ParamTypes::const_iterator It = Params.begin();
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It != Params.end(); ++It) {
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MethodArgument *MA = new MethodArgument(*It);
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if (insertValue(MA, Values)) { delete M; return true; }
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M->getArgumentList().push_back(MA);
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}
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while (Buf < EndBuf) {
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unsigned Type, Size;
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const uchar *OldBuf = Buf;
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if (readBlock(Buf, EndBuf, Type, Size)) { delete M; return true; }
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switch (Type) {
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case BytecodeFormat::ConstantPool:
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if (ParseConstantPool(Buf, Buf+Size, M->getConstantPool(), Values)) {
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cerr << "Error reading constant pool!\n";
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delete M; return true;
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}
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break;
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case BytecodeFormat::BasicBlock: {
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BasicBlock *BB;
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if (ParseBasicBlock(Buf, Buf+Size, BB) ||
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insertValue(BB, Values)) {
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cerr << "Error parsing basic block!\n";
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delete M; return true; // Parse error... :(
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}
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M->getBasicBlocks().push_back(BB);
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break;
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}
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case BytecodeFormat::SymbolTable:
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if (ParseSymbolTable(Buf, Buf+Size)) {
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cerr << "Error reading method symbol table!\n";
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delete M; return true;
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}
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break;
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default:
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Buf += Size;
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if (OldBuf > Buf) return true; // Wrap around!
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break;
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}
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if (align32(Buf, EndBuf)) {
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delete M; // Malformed bc file, read past end of block.
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return true;
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}
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}
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if (postResolveValues(LateResolveValues) ||
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postResolveValues(LateResolveModuleValues)) {
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delete M; return true; // Unresolvable references!
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}
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Value *MethPHolder = getValue(MTy, MethSlot, false);
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assert(MethPHolder && "Something is broken no placeholder found!");
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assert(MethPHolder->isMethod() && "Not a method?");
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unsigned type; // Type slot
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assert(!getTypeSlot(MTy, type) && "How can meth type not exist?");
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getTypeSlot(MTy, type);
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C->getMethodList().push_back(M);
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// Replace placeholder with the real method pointer...
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ModuleValues[type][MethSlot] = M;
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// If anyone is using the placeholder make them use the real method instead
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MethPHolder->replaceAllUsesWith(M);
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// We don't need the placeholder anymore!
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delete MethPHolder;
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return false;
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}
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bool BytecodeParser::ParseModuleGlobalInfo(const uchar *&Buf, const uchar *End,
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Module *C) {
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if (!MethodSignatureList.empty()) return true; // Two ModuleGlobal blocks?
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// Read the method signatures for all of the methods that are coming, and
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// create fillers in the Value tables.
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unsigned MethSignature;
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if (read_vbr(Buf, End, MethSignature)) return true;
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while (MethSignature != Type::VoidTyID) { // List is terminated by Void
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const Type *Ty = getType(MethSignature);
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if (!Ty || !Ty->isMethodType()) {
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cerr << "Method not meth type! ";
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if (Ty) cerr << Ty->getName(); else cerr << MethSignature; cerr << endl;
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return true;
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}
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// When the ModuleGlobalInfo section is read, we load the type of each method
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// and the 'ModuleValues' slot that it lands in. We then load a placeholder
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// into its slot to reserve it. When the method is loaded, this placeholder
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// is replaced.
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// Insert the placeholder...
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Value *Def = new MethPHolder(Ty, 0);
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insertValue(Def, ModuleValues);
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// Figure out which entry of its typeslot it went into...
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unsigned TypeSlot;
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if (getTypeSlot(Def->getType(), TypeSlot)) return true;
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unsigned SlotNo = ModuleValues[TypeSlot].size()-1;
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// Keep track of this information in a linked list that is emptied as
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// methods are loaded...
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//
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MethodSignatureList.push_back(make_pair((const MethodType*)Ty, SlotNo));
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if (read_vbr(Buf, End, MethSignature)) return true;
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}
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if (align32(Buf, End)) return true;
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// This is for future proofing... in the future extra fields may be added that
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// we don't understand, so we transparently ignore them.
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//
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Buf = End;
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return false;
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}
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bool BytecodeParser::ParseModule(const uchar *Buf, const uchar *EndBuf,
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Module *&C) {
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unsigned Type, Size;
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if (readBlock(Buf, EndBuf, Type, Size)) return true;
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if (Type != BytecodeFormat::Module || Buf+Size != EndBuf)
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return true; // Hrm, not a class?
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MethodSignatureList.clear(); // Just in case...
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// Read into instance variables...
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if (read_vbr(Buf, EndBuf, FirstDerivedTyID)) return true;
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if (align32(Buf, EndBuf)) return true;
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C = new Module();
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while (Buf < EndBuf) {
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const uchar *OldBuf = Buf;
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if (readBlock(Buf, EndBuf, Type, Size)) { delete C; return true; }
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switch (Type) {
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case BytecodeFormat::ModuleGlobalInfo:
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if (ParseModuleGlobalInfo(Buf, Buf+Size, C)) {
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cerr << "Error reading class global info section!\n";
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delete C; return true;
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}
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break;
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case BytecodeFormat::ConstantPool:
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if (ParseConstantPool(Buf, Buf+Size, C->getConstantPool(), ModuleValues)) {
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cerr << "Error reading class constant pool!\n";
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delete C; return true;
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}
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break;
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case BytecodeFormat::Method: {
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if (ParseMethod(Buf, Buf+Size, C)) {
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delete C; return true; // Error parsing method
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}
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break;
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}
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case BytecodeFormat::SymbolTable:
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if (ParseSymbolTable(Buf, Buf+Size)) {
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cerr << "Error reading class symbol table!\n";
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delete C; return true;
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}
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break;
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default:
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cerr << "Unknown class block: " << Type << endl;
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Buf += Size;
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if (OldBuf > Buf) return true; // Wrap around!
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break;
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}
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if (align32(Buf, EndBuf)) { delete C; return true; }
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}
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if (!MethodSignatureList.empty()) // Expected more methods!
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return true;
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return false;
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}
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Module *BytecodeParser::ParseBytecode(const uchar *Buf, const uchar *EndBuf) {
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LateResolveValues.clear();
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unsigned Sig;
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// Read and check signature...
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if (read(Buf, EndBuf, Sig) ||
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Sig != ('l' | ('l' << 8) | ('v' << 16) | 'm' << 24))
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return 0; // Invalid signature!
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Module *Result;
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if (ParseModule(Buf, EndBuf, Result)) return 0;
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return Result;
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}
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Module *ParseBytecodeBuffer(const uchar *Buffer, unsigned Length) {
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BytecodeParser Parser;
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return Parser.ParseBytecode(Buffer, Buffer+Length);
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}
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// Parse and return a class file...
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//
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Module *ParseBytecodeFile(const string &Filename) {
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struct stat StatBuf;
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Module *Result = 0;
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if (Filename != string("-")) { // Read from a file...
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int FD = open(Filename.data(), O_RDONLY);
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if (FD == -1) return 0;
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if (fstat(FD, &StatBuf) == -1) { close(FD); return 0; }
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int Length = StatBuf.st_size;
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if (Length == 0) { close(FD); return 0; }
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uchar *Buffer = (uchar*)mmap(0, Length, PROT_READ,
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MAP_PRIVATE, FD, 0);
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if (Buffer == (uchar*)-1) { close(FD); return 0; }
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BytecodeParser Parser;
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Result = Parser.ParseBytecode(Buffer, Buffer+Length);
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munmap((char*)Buffer, Length);
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close(FD);
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} else { // Read from stdin
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size_t FileSize = 0;
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int BlockSize;
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uchar Buffer[4096], *FileData = 0;
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while ((BlockSize = read(0, Buffer, 4))) {
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if (BlockSize == -1) { free(FileData); return 0; }
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FileData = (uchar*)realloc(FileData, FileSize+BlockSize);
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memcpy(FileData+FileSize, Buffer, BlockSize);
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FileSize += BlockSize;
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}
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if (FileSize == 0) { free(FileData); return 0; }
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#define ALIGN_PTRS 1
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#if ALIGN_PTRS
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uchar *Buf = (uchar*)mmap(0, FileSize, PROT_READ|PROT_WRITE,
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MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
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assert((Buf != (uchar*)-1) && "mmap returned error!");
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free(FileData);
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memcpy(Buf, FileData, FileSize);
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#else
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uchar *Buf = FileData;
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#endif
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BytecodeParser Parser;
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Result = Parser.ParseBytecode(Buf, Buf+FileSize);
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#if ALIGN_PTRS
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munmap((char*)Buf, FileSize); // Free mmap'd data area
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#else
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free(FileData); // Free realloc'd block of memory
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#endif
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}
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return Result;
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}
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