2b6aa21817
The analysis looks for "Success" to determine if the fuzz should be considered a clean exit or not. It classifies clean exists as "grey" fuzzes, i.e. fixed. TBR=mtklein@google.com BUG=skia:4438 GOLD_TRYBOT_URL= https://gold.skia.org/search2?unt=true&query=source_type%3Dgm&master=false&issue=1646603002 Review URL: https://codereview.chromium.org/1646603002
183 lines
5.4 KiB
C++
183 lines
5.4 KiB
C++
/*
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* Copyright 2016 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "Fuzz.h"
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#include "SkCanvas.h"
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#include "SkCodec.h"
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#include "SkCommandLineFlags.h"
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#include "SkData.h"
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#include "SkForceLinking.h"
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#include "SkImage.h"
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#include "SkImageEncoder.h"
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#include "SkMallocPixelRef.h"
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#include "SkPicture.h"
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#include "SkStream.h"
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#include <signal.h>
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#include <stdlib.h>
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__SK_FORCE_IMAGE_DECODER_LINKING;
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DEFINE_string2(bytes, b, "", "A path to a file. This can be the fuzz bytes or a binary to parse.");
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DEFINE_string2(name, n, "", "If --type is 'api', fuzz the API with this name.");
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DEFINE_string2(type, t, "api", "How to interpret --bytes, either 'image', 'skp', or 'api'.");
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DEFINE_string2(dump, d, "", "If not empty, dump 'image' or 'skp' types as a PNG with this name.");
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static int printUsage(const char* name) {
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SkDebugf("Usage: %s -t <type> -b <path/to/file> [-n api-to-fuzz]\n", name);
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return 1;
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}
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static int fuzz_api(SkData*);
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static int fuzz_img(SkData*);
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static int fuzz_skp(SkData*);
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int main(int argc, char** argv) {
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SkCommandLineFlags::Parse(argc, argv);
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const char* path = FLAGS_bytes.isEmpty() ? argv[0] : FLAGS_bytes[0];
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SkAutoTUnref<SkData> bytes(SkData::NewFromFileName(path));
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if (!bytes) {
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SkDebugf("Could not read %s\n", path);
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return 2;
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}
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if (!FLAGS_type.isEmpty()) {
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switch (FLAGS_type[0][0]) {
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case 'a': return fuzz_api(bytes);
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case 'i': return fuzz_img(bytes);
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case 's': return fuzz_skp(bytes);
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}
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}
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return printUsage(argv[0]);
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}
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int fuzz_api(SkData* bytes) {
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const char* name = FLAGS_name.isEmpty() ? "" : FLAGS_name[0];
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for (auto r = SkTRegistry<Fuzzable>::Head(); r; r = r->next()) {
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auto fuzzable = r->factory();
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if (0 == strcmp(name, fuzzable.name)) {
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SkDebugf("Fuzzing %s...\n", fuzzable.name);
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Fuzz fuzz(bytes);
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fuzzable.fn(&fuzz);
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SkDebugf("Success!");
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return 0;
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}
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}
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SkDebugf("When using --type api, please choose an API to fuzz with --name/-n:\n");
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for (auto r = SkTRegistry<Fuzzable>::Head(); r; r = r->next()) {
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auto fuzzable = r->factory();
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SkDebugf("\t%s\n", fuzzable.name);
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}
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return 1;
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}
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static void dump_png(SkBitmap bitmap) {
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if (!FLAGS_dump.isEmpty()) {
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SkImageEncoder::EncodeFile(FLAGS_dump[0], bitmap, SkImageEncoder::kPNG_Type, 100);
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SkDebugf("Dumped to %s\n", FLAGS_dump[0]);
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}
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}
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int fuzz_img(SkData* bytes) {
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SkAutoTDelete<SkCodec> codec(SkCodec::NewFromData(bytes));
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if (nullptr == codec.get()) {
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SkDebugf("Couldn't create codec.");
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return 3;
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}
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SkImageInfo decodeInfo = codec->getInfo();
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// Construct a color table for the decode if necessary
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SkAutoTUnref<SkColorTable> colorTable(nullptr);
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SkPMColor* colorPtr = nullptr;
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int* colorCountPtr = nullptr;
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int maxColors = 256;
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if (kIndex_8_SkColorType == decodeInfo.colorType()) {
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SkPMColor colors[256];
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colorTable.reset(new SkColorTable(colors, maxColors));
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colorPtr = const_cast<SkPMColor*>(colorTable->readColors());
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colorCountPtr = &maxColors;
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}
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SkBitmap bitmap;
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SkMallocPixelRef::ZeroedPRFactory zeroFactory;
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SkCodec::Options options;
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options.fZeroInitialized = SkCodec::kYes_ZeroInitialized;
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if (!bitmap.tryAllocPixels(decodeInfo, &zeroFactory, nullptr)) {
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SkDebugf("Could not allocate memory. Image might be too large (%d x %d)",
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decodeInfo.width(), decodeInfo.height());
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return 4;
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}
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switch (codec->getPixels(decodeInfo, bitmap.getPixels(), bitmap.rowBytes(), &options,
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colorPtr, colorCountPtr)) {
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case SkCodec::kSuccess:
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SkDebugf("Success!\n");
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break;
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case SkCodec::kIncompleteInput:
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SkDebugf("Partial Success\n");
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break;
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case SkCodec::kInvalidConversion:
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SkDebugf("Incompatible colortype conversion");
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return 5;
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default:
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// Everything else is considered a failure.
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SkDebugf("Couldn't getPixels.");
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return 6;
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}
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dump_png(bitmap);
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return 0;
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}
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int fuzz_skp(SkData* bytes) {
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SkMemoryStream stream(bytes);
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SkDebugf("Decoding\n");
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SkAutoTUnref<SkPicture> pic(SkPicture::CreateFromStream(&stream));
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if (!pic) {
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SkDebugf("Couldn't decode as a picture.\n");
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return 3;
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}
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SkDebugf("Rendering\n");
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SkBitmap bitmap;
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if (!FLAGS_dump.isEmpty()) {
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SkIRect size = pic->cullRect().roundOut();
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bitmap.allocN32Pixels(size.width(), size.height());
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}
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SkCanvas canvas(bitmap);
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canvas.drawPicture(pic);
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SkDebugf("Success! Decoded and rendered an SkPicture!\n");
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dump_png(bitmap);
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return 0;
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}
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Fuzz::Fuzz(SkData* bytes) : fBytes(SkSafeRef(bytes)), fNextByte(0) {}
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void Fuzz::signalBug () { raise(SIGSEGV); }
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void Fuzz::signalBoring() { exit(0); }
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template <typename T>
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T Fuzz::nextT() {
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if (fNextByte + sizeof(T) > fBytes->size()) {
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this->signalBoring();
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}
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T val;
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memcpy(&val, fBytes->bytes() + fNextByte, sizeof(T));
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fNextByte += sizeof(T);
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return val;
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}
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uint8_t Fuzz::nextB() { return this->nextT<uint8_t >(); }
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uint32_t Fuzz::nextU() { return this->nextT<uint32_t>(); }
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float Fuzz::nextF() { return this->nextT<float >(); }
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