// Copyright 2020 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include #include #include #include "../sandboxed.h" // NOLINT(build/include) #include "sandboxed_api/util/fileops.h" #include "sandboxed_api/util/path.h" #include "tiffio.h" // NOLINT(build/include) // sapi functions: // TIFFTileSize // TIFFOpen // TIFFReadEncodedTile // TIFFSetField // TIFFClose // TIFFReadRGBATile // TIFFGetField namespace { constexpr std::array kCluster0 = {0, 0, 2, 0, 138, 139}; constexpr std::array kCluster64 = {0, 0, 9, 6, 134, 119}; constexpr std::array kCluster128 = {44, 40, 63, 59, 230, 95}; int CheckCluster(int cluster, const sapi::v::Array& buffer, const std::vector& expected_cluster) { uint8_t* target = buffer.GetData() + cluster * 6; if (!std::memcmp(target, expected_cluster.data(), 6)) { return 0; } std::cerr << "Cluster " << cluster << " did not match expected results.\n" << "Expect: " << expected_cluster[0] << "\t" << expected_cluster[1] << "\t" << expected_cluster[4] << "\t" << expected_cluster[5] << "\t" << expected_cluster[2] << "\t" << expected_cluster[3] << "\n" << "Got: " << target[0] << "\t" << target[1] << "\t" << target[4] << "\t" << target[5] << "\t" << target[2] << "\t" << target[3] << '\n'; return 1; } int CheckRgbPixel(int pixel, int min_red, int max_red, int min_green, int max_green, int min_blue, int max_blue, const sapi::v::Array& buffer) { uint8_t* rgb = buffer.GetData() + 3 * pixel; if (rgb[0] >= min_red && rgb[0] <= max_red && rgb[1] >= min_green && rgb[1] <= max_green && rgb[2] >= min_blue && rgb[2] <= max_blue) { return 0; } std::cerr << "Pixel " << pixel << " did not match expected results.\n" << "Got R=" << rgb[0] << " (expected " << min_red << ".." << max_red << "), G=" << rgb[1] << " (expected " << min_green << ".." << max_green << "), B=" << rgb[2] << " (expected " << min_blue << ".." << max_blue << ")\n"; return 1; } int CheckRgbaPixel(int pixel, int min_red, int max_red, int min_green, int max_green, int min_blue, int max_blue, int min_alpha, int max_alpha, const sapi::v::Array& buffer) { // RGBA images are upside down - adjust for normal ordering int adjusted_pixel = pixel % 128 + (127 - (pixel / 128)) * 128; uint32_t rgba = buffer[adjusted_pixel]; if (TIFFGetR(rgba) >= static_cast(min_red) && TIFFGetR(rgba) <= static_cast(max_red) && TIFFGetG(rgba) >= static_cast(min_green) && TIFFGetG(rgba) <= static_cast(max_green) && TIFFGetB(rgba) >= static_cast(min_blue) && TIFFGetB(rgba) <= static_cast(max_blue) && TIFFGetA(rgba) >= static_cast(min_alpha) && TIFFGetA(rgba) <= static_cast(max_alpha)) { return 0; } std::cerr << "Pixel " << pixel << " did not match expected results.\n" << "Got R=" << TIFFGetR(rgba) << " (expected " << min_red << ".." << max_red << "), G=" << TIFFGetG(rgba) << " (expected " << min_green << ".." << max_green << "), B=" << TIFFGetB(rgba) << " (expected " << min_blue << ".." << max_blue << "), A=" << TIFFGetA(rgba) << " (expected " << min_alpha << ".." << max_alpha << ")\n"; return 1; } std::string GetFilePath(const std::string& dir, const std::string& filename) { return sapi::file::JoinPath(dir, "test", "images", filename); } std::string GetCWD() { char cwd[PATH_MAX]; getcwd(cwd, sizeof(cwd)); return cwd; } std::string GetFilePath(const std::string filename) { std::string cwd = GetCWD(); auto find = cwd.rfind("build"); std::string project_path; if (find == std::string::npos) { std::cerr << "Something went wrong: CWD don't contain build dir. " << "Please run tests from build dir or send project dir as a " << "parameter: ./sandboxed /absolute/path/to/project/dir \n"; project_path = cwd; } else { project_path = cwd.substr(0, find); } return sapi::file::JoinPath(project_path, "test", "images", filename); } } // namespace int main(int argc, char** argv) { gflags::ParseCommandLineFlags(&argc, &argv, true); std::string srcfile; // "test/images/quad-tile.jpg.tiff" std::string srcfilerel = "quad-tile.jpg.tiff"; if (argc < 2) { srcfile = GetFilePath(srcfilerel); } else { srcfile = GetFilePath(argv[1], srcfilerel); } // without addDir to sandbox. to add dir use // sandbox(absolute_path_to_dir, srcfile) or // sandbox(absolute_path_to_dir). file and dir should be exists. // srcfile must also be absolute_path_to_file TiffSapiSandbox sandbox("", srcfile); // initialize sapi vars after constructing TiffSapiSandbox sapi::v::UShort h, v; absl::StatusOr status_or_tif; absl::StatusOr status_or_int; absl::StatusOr status_or_long; auto status = sandbox.Init(); if (!status.ok()) { fprintf(stderr, "Couldn't initialize Sandboxed API: %s\n", status); } TiffApi api(&sandbox); sapi::v::ConstCStr srcfile_var(srcfile.c_str()); sapi::v::ConstCStr r_var("r"); status_or_tif = api.TIFFOpen(srcfile_var.PtrBefore(), r_var.PtrBefore()); if (!status_or_tif.ok()) { std::cerr << "Could not open " << srcfile << ", TIFFError\n"; return 1; } sapi::v::RemotePtr tif(status_or_tif.value()); if (!tif.GetValue()) { // tif is NULL std::cerr << "Could not open " << srcfile << "\n"; return 1; } status_or_int = api.TIFFGetField2(&tif, TIFFTAG_YCBCRSUBSAMPLING, h.PtrBoth(), v.PtrBoth()); if (!status_or_int.ok() || status_or_int.value() == 0 || h.GetValue() != 2 || v.GetValue() != 2) { std::cerr << "Could not retrieve subsampling tag\n"; return 1; } status_or_long = api.TIFFTileSize(&tif); if (!status_or_int.ok() || status_or_long.value() != 24576) { std::cerr << "tiles are " << status_or_long.value() << " bytes\n"; exit(1); } tsize_t sz = status_or_long.value(); sapi::v::Array buffer_(sz); status_or_long = api.TIFFReadEncodedTile(&tif, 9, buffer_.PtrBoth(), sz); if (!status_or_long.ok() || status_or_long.value() != sz) { std::cerr << "Did not get expected result code from" << "TIFFReadEncodedTile(): (" << status_or_long.value() << " instead of " << sz << ")\n"; return 1; } if (CheckCluster(0, buffer_, kCluster0) || CheckCluster(64, buffer_, kCluster64) || CheckCluster(128, buffer_, kCluster128)) { return 1; } status_or_int = api.TIFFSetFieldU1(&tif, TIFFTAG_JPEGCOLORMODE, JPEGCOLORMODE_RGB); if (!status_or_int.ok() || !status_or_int.value()) { std::cerr << "TIFFSetFieldU1 not available\n"; } status_or_long = api.TIFFTileSize(&tif); if (!status_or_long.ok() || status_or_long.value() != 128 * 128 * 3) { std::cerr << "tiles are " << status_or_long.value() << " bytes\n"; return 1; } sz = status_or_long.value(); sapi::v::Array buffer2_(sz); status_or_long = api.TIFFReadEncodedTile(&tif, 9, buffer2_.PtrBoth(), sz); if (!status_or_long.ok() || status_or_long.value() != sz) { std::cerr << "Did not get expected result code from " << "TIFFReadEncodedTile(): (" << status_or_long.value() << " instead of " << sz << ")\n"; return 1; } uint32_t pixel_status = 0; pixel_status |= CheckRgbPixel(0, 15, 18, 0, 0, 18, 41, buffer2_); pixel_status |= CheckRgbPixel(64, 0, 0, 0, 0, 0, 2, buffer2_); pixel_status |= CheckRgbPixel(512, 5, 6, 34, 36, 182, 196, buffer2_); if (!api.TIFFClose(&tif).ok()) { std::cerr << "TIFFClose error\n"; } status_or_tif = api.TIFFOpen(srcfile_var.PtrBefore(), r_var.PtrBefore()); if (!status_or_tif.ok()) { std::cerr << "Could not reopen " << srcfile << "\n"; return 1; } sapi::v::RemotePtr tif2(status_or_tif.value()); if (!tif2.GetValue()) { // tif is NULL std::cerr << "Could not reopen " << srcfile << "\n"; return 1; } sapi::v::Array rgba_buffer_(128 * 128); status_or_int = api.TIFFReadRGBATile(&tif2, 1 * 128, 2 * 128, rgba_buffer_.PtrBoth()); if (!status_or_int.ok() || !status_or_int.value()) { fprintf(stderr, "TIFFReadRGBATile() returned failure code.\n"); return 1; } pixel_status |= CheckRgbaPixel(0, 15, 18, 0, 0, 18, 41, 255, 255, rgba_buffer_); pixel_status |= CheckRgbaPixel(64, 0, 0, 0, 0, 0, 2, 255, 255, rgba_buffer_); pixel_status |= CheckRgbaPixel(512, 5, 6, 34, 36, 182, 196, 255, 255, rgba_buffer_); if (!api.TIFFClose(&tif2).ok()) { std::cerr << "TIFFClose erro\n"; } if (pixel_status) { std::cerr << "pixel_status is true, expected false"; return 1; } return 0; }