blob: aa78da2c92cedbc6bfdbc0014adddc0ecdcd197b [file] [log] [blame]
// Copyright 2022 Google LLC
// SPDX-License-Identifier: BSD-2-Clause
#include "avif_fuzztest_helpers.h"
#include <algorithm>
#include <cassert>
#include <cstdint>
#include <cstdlib>
#include <iostream>
#include <utility>
#include <vector>
#include "avif/avif.h"
#include "avifutil.h"
#include "fuzztest/fuzztest.h"
#include "gtest/gtest.h"
namespace avif {
namespace testutil {
namespace {
//------------------------------------------------------------------------------
ImagePtr CreateAvifImage(size_t width, size_t height, int depth,
avifPixelFormat pixel_format, bool has_alpha,
const uint8_t* samples) {
ImagePtr image(avifImageCreate(static_cast<uint32_t>(width),
static_cast<uint32_t>(height), depth,
pixel_format));
if (image.get() == nullptr) {
return image;
}
if (avifImageAllocatePlanes(image.get(),
has_alpha ? AVIF_PLANES_ALL : AVIF_PLANES_YUV) !=
AVIF_RESULT_OK) {
return nullptr;
}
for (avifChannelIndex c :
{AVIF_CHAN_Y, AVIF_CHAN_U, AVIF_CHAN_V, AVIF_CHAN_A}) {
const size_t plane_height = avifImagePlaneHeight(image.get(), c);
uint8_t* row = avifImagePlane(image.get(), c);
const uint32_t row_bytes = avifImagePlaneRowBytes(image.get(), c);
assert(row_bytes == avifImagePlaneWidth(image.get(), c) *
(avifImageUsesU16(image.get()) ? 2 : 1));
for (size_t y = 0; y < plane_height; ++y) {
std::copy(samples, samples + row_bytes, row);
row += row_bytes;
samples += row_bytes;
}
}
return image;
}
} // namespace
ImagePtr CreateAvifImage8b(size_t width, size_t height,
avifPixelFormat pixel_format, bool has_alpha,
const std::vector<uint8_t>& samples) {
return CreateAvifImage(width, height, 8, pixel_format, has_alpha,
samples.data());
}
ImagePtr CreateAvifImage16b(size_t width, size_t height, int depth,
avifPixelFormat pixel_format, bool has_alpha,
const std::vector<uint16_t>& samples) {
return CreateAvifImage(width, height, depth, pixel_format, has_alpha,
reinterpret_cast<const uint8_t*>(samples.data()));
}
std::vector<ImagePtr> CreateAvifAnim8b(size_t num_frames, size_t width,
size_t height,
avifPixelFormat pixel_format,
bool has_alpha,
const std::vector<uint8_t>& samples) {
std::vector<ImagePtr> frames;
frames.reserve(num_frames);
const uint8_t* frame_samples = samples.data();
for (size_t i = 0; i < num_frames; ++i) {
frames.push_back(CreateAvifImage(width, height, 8, pixel_format, has_alpha,
frame_samples));
frame_samples +=
GetNumSamples(/*num_frames=*/1, width, height, pixel_format, has_alpha);
}
return frames;
}
std::vector<ImagePtr> CreateAvifAnim16b(size_t num_frames, size_t width,
size_t height, int depth,
avifPixelFormat pixel_format,
bool has_alpha,
const std::vector<uint16_t>& samples) {
std::vector<ImagePtr> frames;
frames.reserve(num_frames);
const uint16_t* frame_samples = samples.data();
for (size_t i = 0; i < num_frames; ++i) {
frames.push_back(
CreateAvifImage(width, height, depth, pixel_format, has_alpha,
reinterpret_cast<const uint8_t*>(frame_samples)));
frame_samples +=
GetNumSamples(/*num_frames=*/1, width, height, pixel_format, has_alpha);
}
return frames;
}
EncoderPtr CreateAvifEncoder(avifCodecChoice codec_choice, int max_threads,
int min_quantizer, int max_quantizer,
int min_quantizer_alpha, int max_quantizer_alpha,
int tile_rows_log2, int tile_cols_log2,
int speed) {
EncoderPtr encoder(avifEncoderCreate());
if (encoder.get() == nullptr) {
return encoder;
}
encoder->codecChoice = codec_choice;
encoder->maxThreads = max_threads;
// minQuantizer must be at most maxQuantizer.
encoder->minQuantizer = std::min(min_quantizer, max_quantizer);
encoder->maxQuantizer = std::max(min_quantizer, max_quantizer);
encoder->minQuantizerAlpha =
std::min(min_quantizer_alpha, max_quantizer_alpha);
encoder->maxQuantizerAlpha =
std::max(min_quantizer_alpha, max_quantizer_alpha);
encoder->tileRowsLog2 = tile_rows_log2;
encoder->tileColsLog2 = tile_cols_log2;
encoder->speed = speed;
return encoder;
}
DecoderPtr CreateAvifDecoder(avifCodecChoice codec_choice, int max_threads,
avifDecoderSource requested_source,
bool allow_progressive, bool allow_incremental,
bool ignore_exif, bool ignore_xmp,
uint32_t image_size_limit,
uint32_t image_dimension_limit,
uint32_t image_count_limit,
avifStrictFlags strict_flags) {
DecoderPtr decoder(avifDecoderCreate());
if (decoder.get() == nullptr) {
return decoder;
}
decoder->codecChoice = codec_choice;
decoder->maxThreads = max_threads;
decoder->requestedSource = requested_source;
decoder->allowProgressive = allow_progressive;
decoder->allowIncremental = allow_incremental;
decoder->ignoreExif = ignore_exif;
decoder->ignoreXMP = ignore_xmp;
decoder->imageSizeLimit = image_size_limit;
decoder->imageDimensionLimit = image_dimension_limit;
decoder->imageCountLimit = image_count_limit;
decoder->strictFlags = strict_flags;
return decoder;
}
ImagePtr AvifImageToUniquePtr(avifImage* image) { return ImagePtr(image); }
#if defined(AVIF_ENABLE_EXPERIMENTAL_GAIN_MAP)
DecoderPtr AddGainMapOptionsToDecoder(DecoderPtr decoder,
GainMapDecodeMode gain_map_decode_mode) {
decoder->enableParsingGainMapMetadata =
(gain_map_decode_mode == GainMapDecodeMode::kMetadataOnly ||
gain_map_decode_mode == GainMapDecodeMode::kDecode);
decoder->enableDecodingGainMap =
(gain_map_decode_mode == GainMapDecodeMode::kDecode);
// Do not fuzz 'ignoreColorAndAlpha' since most tests assume that if the
// file/buffer is successfully decoded, then the main image was decoded, which
// is no longer the case when this option is on.
return decoder;
}
#endif
//------------------------------------------------------------------------------
size_t GetNumSamples(size_t num_frames, size_t width, size_t height,
avifPixelFormat pixel_format, bool has_alpha) {
const size_t num_luma_samples = width * height;
avifPixelFormatInfo pixel_format_info;
avifGetPixelFormatInfo(pixel_format, &pixel_format_info);
size_t num_chroma_samples = 0;
if (!pixel_format_info.monochrome) {
num_chroma_samples = 2 *
((width + pixel_format_info.chromaShiftX) >>
pixel_format_info.chromaShiftX) *
((height + pixel_format_info.chromaShiftY) >>
pixel_format_info.chromaShiftY);
}
size_t num_alpha_samples = 0;
if (has_alpha) {
num_alpha_samples = width * height;
}
return num_frames *
(num_luma_samples + num_chroma_samples + num_alpha_samples);
}
//------------------------------------------------------------------------------
// Environment setup
namespace {
class Environment : public ::testing::Environment {
public:
Environment(const char* name, const char* value)
: name_(name), value_(value) {}
void SetUp() override {
#ifdef _WIN32
_putenv_s(name_, value_); // Defined in stdlib.h.
#else
setenv(name_, value_, /*overwrite=*/1);
#endif
}
private:
const char* name_;
const char* value_;
};
} // namespace
::testing::Environment* SetEnv(const char* name, const char* value) {
return ::testing::AddGlobalTestEnvironment(new Environment(name, value));
}
//------------------------------------------------------------------------------
std::vector<std::string> GetSeedDataDirs() {
const char* var = std::getenv("TEST_DATA_DIRS");
std::vector<std::string> res;
if (var == nullptr || *var == 0) return res;
const char* var_start = var;
while (true) {
if (*var == 0 || *var == ';') {
res.push_back(std::string(var_start, var - var_start));
if (*var == 0) break;
var_start = var + 1;
}
++var;
}
return res;
}
std::vector<std::string> GetTestImagesContents(
size_t max_file_size, const std::vector<avifAppFileFormat>& image_formats) {
// Use an environment variable to get the test data directory because
// fuzztest seeds are created before the main() function is called, so the
// test has no chance to parse command line arguments.
const std::vector<std::string> test_data_dirs = GetSeedDataDirs();
if (test_data_dirs.empty()) {
// Only a warning because this can happen when running the binary with
// --list_fuzz_tests (such as with gtest_discover_tests() in cmake).
std::cerr << "WARNING: TEST_DATA_DIRS env variable not set, unable to read "
"seed files\n";
return {};
}
std::vector<std::string> seeds;
for (const std::string& test_data_dir : test_data_dirs) {
std::cout << "Reading seeds from " << test_data_dir
<< " (non recursively)\n";
auto tuple_vector = fuzztest::ReadFilesFromDirectory(test_data_dir);
seeds.reserve(tuple_vector.size());
for (auto& [file_content] : tuple_vector) {
if (file_content.size() > max_file_size) continue;
if (!image_formats.empty()) {
const avifAppFileFormat format = avifGuessBufferFileFormat(
reinterpret_cast<const uint8_t*>(file_content.data()),
file_content.size());
if (std::find(image_formats.begin(), image_formats.end(), format) ==
image_formats.end()) {
continue;
}
}
seeds.push_back(std::move(file_content));
}
}
if (seeds.empty()) {
std::cerr << "ERROR: no files found that match the given file size and "
"format criteria\n";
std::abort();
}
std::cout << "Returning " << seeds.size() << " seed images\n";
return seeds;
}
//------------------------------------------------------------------------------
} // namespace testutil
} // namespace avif