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llvm-mirror/lib/Transforms/Utils/ModuleUtils.cpp
Reshabh Sharma 5126f45ba3 [ASAN] NFC: Use addrspace cast for pointers in non-zero addrspace
Pointers in non-zero address spaces need to be address space
casted before appending to the used list.

Reviewed by: vitalybuka

Differential Revision: https://reviews.llvm.org/D101363
2021-04-29 11:06:00 +05:30

324 lines
11 KiB
C++

//===-- ModuleUtils.cpp - Functions to manipulate Modules -----------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This family of functions perform manipulations on Modules.
//
//===----------------------------------------------------------------------===//
#include "llvm/Transforms/Utils/ModuleUtils.h"
#include "llvm/Analysis/TargetLibraryInfo.h"
#include "llvm/Analysis/VectorUtils.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
#define DEBUG_TYPE "moduleutils"
static void appendToGlobalArray(const char *Array, Module &M, Function *F,
int Priority, Constant *Data) {
IRBuilder<> IRB(M.getContext());
FunctionType *FnTy = FunctionType::get(IRB.getVoidTy(), false);
// Get the current set of static global constructors and add the new ctor
// to the list.
SmallVector<Constant *, 16> CurrentCtors;
StructType *EltTy = StructType::get(
IRB.getInt32Ty(), PointerType::getUnqual(FnTy), IRB.getInt8PtrTy());
if (GlobalVariable *GVCtor = M.getNamedGlobal(Array)) {
if (Constant *Init = GVCtor->getInitializer()) {
unsigned n = Init->getNumOperands();
CurrentCtors.reserve(n + 1);
for (unsigned i = 0; i != n; ++i)
CurrentCtors.push_back(cast<Constant>(Init->getOperand(i)));
}
GVCtor->eraseFromParent();
}
// Build a 3 field global_ctor entry. We don't take a comdat key.
Constant *CSVals[3];
CSVals[0] = IRB.getInt32(Priority);
CSVals[1] = F;
CSVals[2] = Data ? ConstantExpr::getPointerCast(Data, IRB.getInt8PtrTy())
: Constant::getNullValue(IRB.getInt8PtrTy());
Constant *RuntimeCtorInit =
ConstantStruct::get(EltTy, makeArrayRef(CSVals, EltTy->getNumElements()));
CurrentCtors.push_back(RuntimeCtorInit);
// Create a new initializer.
ArrayType *AT = ArrayType::get(EltTy, CurrentCtors.size());
Constant *NewInit = ConstantArray::get(AT, CurrentCtors);
// Create the new global variable and replace all uses of
// the old global variable with the new one.
(void)new GlobalVariable(M, NewInit->getType(), false,
GlobalValue::AppendingLinkage, NewInit, Array);
}
void llvm::appendToGlobalCtors(Module &M, Function *F, int Priority, Constant *Data) {
appendToGlobalArray("llvm.global_ctors", M, F, Priority, Data);
}
void llvm::appendToGlobalDtors(Module &M, Function *F, int Priority, Constant *Data) {
appendToGlobalArray("llvm.global_dtors", M, F, Priority, Data);
}
static void appendToUsedList(Module &M, StringRef Name, ArrayRef<GlobalValue *> Values) {
GlobalVariable *GV = M.getGlobalVariable(Name);
SmallPtrSet<Constant *, 16> InitAsSet;
SmallVector<Constant *, 16> Init;
if (GV) {
if (GV->hasInitializer()) {
auto *CA = cast<ConstantArray>(GV->getInitializer());
for (auto &Op : CA->operands()) {
Constant *C = cast_or_null<Constant>(Op);
if (InitAsSet.insert(C).second)
Init.push_back(C);
}
}
GV->eraseFromParent();
}
Type *Int8PtrTy = llvm::Type::getInt8PtrTy(M.getContext());
for (auto *V : Values) {
Constant *C = ConstantExpr::getPointerBitCastOrAddrSpaceCast(V, Int8PtrTy);
if (InitAsSet.insert(C).second)
Init.push_back(C);
}
if (Init.empty())
return;
ArrayType *ATy = ArrayType::get(Int8PtrTy, Init.size());
GV = new llvm::GlobalVariable(M, ATy, false, GlobalValue::AppendingLinkage,
ConstantArray::get(ATy, Init), Name);
GV->setSection("llvm.metadata");
}
void llvm::appendToUsed(Module &M, ArrayRef<GlobalValue *> Values) {
appendToUsedList(M, "llvm.used", Values);
}
void llvm::appendToCompilerUsed(Module &M, ArrayRef<GlobalValue *> Values) {
appendToUsedList(M, "llvm.compiler.used", Values);
}
FunctionCallee
llvm::declareSanitizerInitFunction(Module &M, StringRef InitName,
ArrayRef<Type *> InitArgTypes) {
assert(!InitName.empty() && "Expected init function name");
return M.getOrInsertFunction(
InitName,
FunctionType::get(Type::getVoidTy(M.getContext()), InitArgTypes, false),
AttributeList());
}
Function *llvm::createSanitizerCtor(Module &M, StringRef CtorName) {
Function *Ctor = Function::createWithDefaultAttr(
FunctionType::get(Type::getVoidTy(M.getContext()), false),
GlobalValue::InternalLinkage, 0, CtorName, &M);
Ctor->addAttribute(AttributeList::FunctionIndex, Attribute::NoUnwind);
BasicBlock *CtorBB = BasicBlock::Create(M.getContext(), "", Ctor);
ReturnInst::Create(M.getContext(), CtorBB);
return Ctor;
}
std::pair<Function *, FunctionCallee> llvm::createSanitizerCtorAndInitFunctions(
Module &M, StringRef CtorName, StringRef InitName,
ArrayRef<Type *> InitArgTypes, ArrayRef<Value *> InitArgs,
StringRef VersionCheckName) {
assert(!InitName.empty() && "Expected init function name");
assert(InitArgs.size() == InitArgTypes.size() &&
"Sanitizer's init function expects different number of arguments");
FunctionCallee InitFunction =
declareSanitizerInitFunction(M, InitName, InitArgTypes);
Function *Ctor = createSanitizerCtor(M, CtorName);
IRBuilder<> IRB(Ctor->getEntryBlock().getTerminator());
IRB.CreateCall(InitFunction, InitArgs);
if (!VersionCheckName.empty()) {
FunctionCallee VersionCheckFunction = M.getOrInsertFunction(
VersionCheckName, FunctionType::get(IRB.getVoidTy(), {}, false),
AttributeList());
IRB.CreateCall(VersionCheckFunction, {});
}
return std::make_pair(Ctor, InitFunction);
}
std::pair<Function *, FunctionCallee>
llvm::getOrCreateSanitizerCtorAndInitFunctions(
Module &M, StringRef CtorName, StringRef InitName,
ArrayRef<Type *> InitArgTypes, ArrayRef<Value *> InitArgs,
function_ref<void(Function *, FunctionCallee)> FunctionsCreatedCallback,
StringRef VersionCheckName) {
assert(!CtorName.empty() && "Expected ctor function name");
if (Function *Ctor = M.getFunction(CtorName))
// FIXME: Sink this logic into the module, similar to the handling of
// globals. This will make moving to a concurrent model much easier.
if (Ctor->arg_size() == 0 ||
Ctor->getReturnType() == Type::getVoidTy(M.getContext()))
return {Ctor, declareSanitizerInitFunction(M, InitName, InitArgTypes)};
Function *Ctor;
FunctionCallee InitFunction;
std::tie(Ctor, InitFunction) = llvm::createSanitizerCtorAndInitFunctions(
M, CtorName, InitName, InitArgTypes, InitArgs, VersionCheckName);
FunctionsCreatedCallback(Ctor, InitFunction);
return std::make_pair(Ctor, InitFunction);
}
Function *llvm::getOrCreateInitFunction(Module &M, StringRef Name) {
assert(!Name.empty() && "Expected init function name");
if (Function *F = M.getFunction(Name)) {
if (F->arg_size() != 0 ||
F->getReturnType() != Type::getVoidTy(M.getContext())) {
std::string Err;
raw_string_ostream Stream(Err);
Stream << "Sanitizer interface function defined with wrong type: " << *F;
report_fatal_error(Err);
}
return F;
}
Function *F =
cast<Function>(M.getOrInsertFunction(Name, AttributeList(),
Type::getVoidTy(M.getContext()))
.getCallee());
appendToGlobalCtors(M, F, 0);
return F;
}
void llvm::filterDeadComdatFunctions(
Module &M, SmallVectorImpl<Function *> &DeadComdatFunctions) {
// Build a map from the comdat to the number of entries in that comdat we
// think are dead. If this fully covers the comdat group, then the entire
// group is dead. If we find another entry in the comdat group though, we'll
// have to preserve the whole group.
SmallDenseMap<Comdat *, int, 16> ComdatEntriesCovered;
for (Function *F : DeadComdatFunctions) {
Comdat *C = F->getComdat();
assert(C && "Expected all input GVs to be in a comdat!");
ComdatEntriesCovered[C] += 1;
}
auto CheckComdat = [&](Comdat &C) {
auto CI = ComdatEntriesCovered.find(&C);
if (CI == ComdatEntriesCovered.end())
return;
// If this could have been covered by a dead entry, just subtract one to
// account for it.
if (CI->second > 0) {
CI->second -= 1;
return;
}
// If we've already accounted for all the entries that were dead, the
// entire comdat is alive so remove it from the map.
ComdatEntriesCovered.erase(CI);
};
auto CheckAllComdats = [&] {
for (Function &F : M.functions())
if (Comdat *C = F.getComdat()) {
CheckComdat(*C);
if (ComdatEntriesCovered.empty())
return;
}
for (GlobalVariable &GV : M.globals())
if (Comdat *C = GV.getComdat()) {
CheckComdat(*C);
if (ComdatEntriesCovered.empty())
return;
}
for (GlobalAlias &GA : M.aliases())
if (Comdat *C = GA.getComdat()) {
CheckComdat(*C);
if (ComdatEntriesCovered.empty())
return;
}
};
CheckAllComdats();
if (ComdatEntriesCovered.empty()) {
DeadComdatFunctions.clear();
return;
}
// Remove the entries that were not covering.
erase_if(DeadComdatFunctions, [&](GlobalValue *GV) {
return ComdatEntriesCovered.find(GV->getComdat()) ==
ComdatEntriesCovered.end();
});
}
std::string llvm::getUniqueModuleId(Module *M) {
MD5 Md5;
bool ExportsSymbols = false;
auto AddGlobal = [&](GlobalValue &GV) {
if (GV.isDeclaration() || GV.getName().startswith("llvm.") ||
!GV.hasExternalLinkage() || GV.hasComdat())
return;
ExportsSymbols = true;
Md5.update(GV.getName());
Md5.update(ArrayRef<uint8_t>{0});
};
for (auto &F : *M)
AddGlobal(F);
for (auto &GV : M->globals())
AddGlobal(GV);
for (auto &GA : M->aliases())
AddGlobal(GA);
for (auto &IF : M->ifuncs())
AddGlobal(IF);
if (!ExportsSymbols)
return "";
MD5::MD5Result R;
Md5.final(R);
SmallString<32> Str;
MD5::stringifyResult(R, Str);
return ("." + Str).str();
}
void VFABI::setVectorVariantNames(
CallInst *CI, const SmallVector<std::string, 8> &VariantMappings) {
if (VariantMappings.empty())
return;
SmallString<256> Buffer;
llvm::raw_svector_ostream Out(Buffer);
for (const std::string &VariantMapping : VariantMappings)
Out << VariantMapping << ",";
// Get rid of the trailing ','.
assert(!Buffer.str().empty() && "Must have at least one char.");
Buffer.pop_back();
Module *M = CI->getModule();
#ifndef NDEBUG
for (const std::string &VariantMapping : VariantMappings) {
LLVM_DEBUG(dbgs() << "VFABI: adding mapping '" << VariantMapping << "'\n");
Optional<VFInfo> VI = VFABI::tryDemangleForVFABI(VariantMapping, *M);
assert(VI.hasValue() && "Cannot add an invalid VFABI name.");
assert(M->getNamedValue(VI.getValue().VectorName) &&
"Cannot add variant to attribute: "
"vector function declaration is missing.");
}
#endif
CI->addAttribute(
AttributeList::FunctionIndex,
Attribute::get(M->getContext(), MappingsAttrName, Buffer.str()));
}