Nagram/TMessagesProj/jni/webrtc/base/strings/string_number_conversions_fuzzer.cc

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2020-08-14 16:58:22 +00:00
// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <stddef.h>
#include <stdint.h>
#include <string>
#include <vector>
#include "base/strings/string_number_conversions.h"
template <class NumberType, class StringPieceType, class StringType>
void CheckRoundtripsT(const uint8_t* data,
const size_t size,
StringType (*num_to_string)(NumberType),
bool (*string_to_num)(StringPieceType, NumberType*)) {
// Ensure we can read a NumberType from |data|
if (size < sizeof(NumberType))
return;
const NumberType v1 = *reinterpret_cast<const NumberType*>(data);
// Because we started with an arbitrary NumberType value, not an arbitrary
// string, we expect that the function |string_to_num| (e.g. StringToInt) will
// return true, indicating a perfect conversion.
NumberType v2;
CHECK(string_to_num(num_to_string(v1), &v2));
// Given that this was a perfect conversion, we expect the original NumberType
// value to equal the newly parsed one.
CHECK_EQ(v1, v2);
}
template <class NumberType>
void CheckRoundtrips(const uint8_t* data,
const size_t size,
bool (*string_to_num)(base::StringPiece, NumberType*)) {
return CheckRoundtripsT<NumberType, base::StringPiece, std::string>(
data, size, &base::NumberToString, string_to_num);
}
template <class NumberType>
void CheckRoundtrips16(const uint8_t* data,
const size_t size,
bool (*string_to_num)(base::StringPiece16,
NumberType*)) {
return CheckRoundtripsT<NumberType, base::StringPiece16, base::string16>(
data, size, &base::NumberToString16, string_to_num);
}
// Entry point for LibFuzzer.
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data, size_t size) {
// For each instantiation of NumberToString f and its corresponding StringTo*
// function g, check that f(g(x)) = x holds for fuzzer-determined values of x.
CheckRoundtrips<int>(data, size, &base::StringToInt);
CheckRoundtrips16<int>(data, size, &base::StringToInt);
CheckRoundtrips<unsigned int>(data, size, &base::StringToUint);
CheckRoundtrips16<unsigned int>(data, size, &base::StringToUint);
CheckRoundtrips<int64_t>(data, size, &base::StringToInt64);
CheckRoundtrips16<int64_t>(data, size, &base::StringToInt64);
CheckRoundtrips<uint64_t>(data, size, &base::StringToUint64);
CheckRoundtrips16<uint64_t>(data, size, &base::StringToUint64);
CheckRoundtrips<size_t>(data, size, &base::StringToSizeT);
CheckRoundtrips16<size_t>(data, size, &base::StringToSizeT);
base::StringPiece string_piece_input(reinterpret_cast<const char*>(data),
size);
std::string string_input(reinterpret_cast<const char*>(data), size);
int out_int;
base::StringToInt(string_piece_input, &out_int);
unsigned out_uint;
base::StringToUint(string_piece_input, &out_uint);
int64_t out_int64;
base::StringToInt64(string_piece_input, &out_int64);
uint64_t out_uint64;
base::StringToUint64(string_piece_input, &out_uint64);
size_t out_size;
base::StringToSizeT(string_piece_input, &out_size);
// Test for StringPiece16 if size is even.
if (size % 2 == 0) {
base::StringPiece16 string_piece_input16(
reinterpret_cast<const base::char16*>(data), size / 2);
base::StringToInt(string_piece_input16, &out_int);
base::StringToUint(string_piece_input16, &out_uint);
base::StringToInt64(string_piece_input16, &out_int64);
base::StringToUint64(string_piece_input16, &out_uint64);
base::StringToSizeT(string_piece_input16, &out_size);
}
double out_double;
base::StringToDouble(string_input, &out_double);
base::HexStringToInt(string_piece_input, &out_int);
base::HexStringToUInt(string_piece_input, &out_uint);
base::HexStringToInt64(string_piece_input, &out_int64);
base::HexStringToUInt64(string_piece_input, &out_uint64);
std::vector<uint8_t> out_bytes;
base::HexStringToBytes(string_piece_input, &out_bytes);
base::HexEncode(data, size);
// Convert the numbers back to strings.
base::NumberToString(out_int);
base::NumberToString16(out_int);
base::NumberToString(out_uint);
base::NumberToString16(out_uint);
base::NumberToString(out_int64);
base::NumberToString16(out_int64);
base::NumberToString(out_uint64);
base::NumberToString16(out_uint64);
base::NumberToString(out_double);
base::NumberToString16(out_double);
return 0;
}