//===-- OpDescriptor.h ------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Provides the fuzzerop::Descriptor class and related tools for describing
// operations an IR fuzzer can work with.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_FUZZMUTATE_OPDESCRIPTOR_H
#define LLVM_FUZZMUTATE_OPDESCRIPTOR_H
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/Type.h"
#include "llvm/IR/Value.h"
#include <functional>
namespace llvm {
namespace fuzzerop {
/// @{
/// Populate a small list of potentially interesting constants of a given type.
void makeConstantsWithType(Type *T, std::vector<Constant *> &Cs);
std::vector<Constant *> makeConstantsWithType(Type *T);
/// @}
/// A matcher/generator for finding suitable values for the next source in an
/// operation's partially completed argument list.
///
/// Given that we're building some operation X and may have already filled some
/// subset of its operands, this predicate determines if some value New is
/// suitable for the next operand or generates a set of values that are
/// suitable.
class SourcePred {
public:
/// Given a list of already selected operands, returns whether a given new
/// operand is suitable for the next operand.
using PredT = std::function<bool(ArrayRef<Value *> Cur, const Value *New)>;
/// Given a list of already selected operands and a set of valid base types
/// for a fuzzer, generates a list of constants that could be used for the
/// next operand.
using MakeT = std::function<std::vector<Constant *>(
ArrayRef<Value *> Cur, ArrayRef<Type *> BaseTypes)>;
private:
PredT Pred;
MakeT Make;
public:
/// Create a fully general source predicate.
SourcePred(PredT Pred, MakeT Make) : Pred(Pred), Make(Make) {}
SourcePred(PredT Pred, NoneType) : Pred(Pred) {
Make = [Pred](ArrayRef<Value *> Cur, ArrayRef<Type *> BaseTypes) {
// Default filter just calls Pred on each of the base types.
std::vector<Constant *> Result;
for (Type *T : BaseTypes) {
Constant *V = UndefValue::get(T);
if (Pred(Cur, V))
makeConstantsWithType(T, Result);
}
if (Result.empty())
report_fatal_error("Predicate does not match for base types");
return Result;
};
}
/// Returns true if \c New is compatible for the argument after \c Cur
bool matches(ArrayRef<Value *> Cur, const Value *New) {
return Pred(Cur, New);
}
/// Generates a list of potential values for the argument after \c Cur.
std::vector<Constant *> generate(ArrayRef<Value *> Cur,
ArrayRef<Type *> BaseTypes) {
return Make(Cur, BaseTypes);
}
};
/// A description of some operation we can build while fuzzing IR.
struct OpDescriptor {
unsigned Weight;
SmallVector<SourcePred, 2> SourcePreds;
std::function<Value *(ArrayRef<Value *>, Instruction *)> BuilderFunc;
};
static inline SourcePred onlyType(Type *Only) {
auto Pred = [Only](ArrayRef<Value *>, const Value *V) {
return V->getType() == Only;
};
auto Make = [Only](ArrayRef<Value *>, ArrayRef<Type *>) {
return makeConstantsWithType(Only);
};
return {Pred, Make};
}
static inline SourcePred anyType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
return !V->getType()->isVoidTy();
};
auto Make = None;
return {Pred, Make};
}
static inline SourcePred anyIntType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
return V->getType()->isIntegerTy();
};
auto Make = None;
return {Pred, Make};
}
static inline SourcePred anyFloatType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
return V->getType()->isFloatingPointTy();
};
auto Make = None;
return {Pred, Make};
}
static inline SourcePred anyPtrType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
return V->getType()->isPointerTy() && !V->isSwiftError();
};
auto Make = [](ArrayRef<Value *>, ArrayRef<Type *> Ts) {
std::vector<Constant *> Result;
// TODO: Should these point at something?
for (Type *T : Ts)
Result.push_back(UndefValue::get(PointerType::getUnqual(T)));
return Result;
};
return {Pred, Make};
}
static inline SourcePred sizedPtrType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
if (V->isSwiftError())
return false;
if (const auto *PtrT = dyn_cast<PointerType>(V->getType()))
return PtrT->getElementType()->isSized();
return false;
};
auto Make = [](ArrayRef<Value *>, ArrayRef<Type *> Ts) {
std::vector<Constant *> Result;
for (Type *T : Ts)
if (T->isSized())
Result.push_back(UndefValue::get(PointerType::getUnqual(T)));
return Result;
};
return {Pred, Make};
}
static inline SourcePred anyAggregateType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
// We can't index zero sized arrays.
if (isa<ArrayType>(V->getType()))
return V->getType()->getArrayNumElements() > 0;
// Structs can also be zero sized. I.e opaque types.
if (isa<StructType>(V->getType()))
return V->getType()->getStructNumElements() > 0;
return V->getType()->isAggregateType();
};
// TODO: For now we only find aggregates in BaseTypes. It might be better to
// manufacture them out of the base types in some cases.
auto Find = None;
return {Pred, Find};
}
static inline SourcePred anyVectorType() {
auto Pred = [](ArrayRef<Value *>, const Value *V) {
return V->getType()->isVectorTy();
};
// TODO: For now we only find vectors in BaseTypes. It might be better to
// manufacture vectors out of the base types, but it's tricky to be sure
// that's actually a reasonable type.
auto Make = None;
return {Pred, Make};
}
/// Match values that have the same type as the first source.
static inline SourcePred matchFirstType() {
auto Pred = [](ArrayRef<Value *> Cur, const Value *V) {
assert(!Cur.empty() && "No first source yet");
return V->getType() == Cur[0]->getType();
};
auto Make = [](ArrayRef<Value *> Cur, ArrayRef<Type *>) {
assert(!Cur.empty() && "No first source yet");
return makeConstantsWithType(Cur[0]->getType());
};
return {Pred, Make};
}
/// Match values that have the first source's scalar type.
static inline SourcePred matchScalarOfFirstType() {
auto Pred = [](ArrayRef<Value *> Cur, const Value *V) {
assert(!Cur.empty() && "No first source yet");
return V->getType() == Cur[0]->getType()->getScalarType();
};
auto Make = [](ArrayRef<Value *> Cur, ArrayRef<Type *>) {
assert(!Cur.empty() && "No first source yet");
return makeConstantsWithType(Cur[0]->getType()->getScalarType());
};
return {Pred, Make};
}
} // end fuzzerop namespace
} // end llvm namespace
#endif // LLVM_FUZZMUTATE_OPDESCRIPTOR_H