// 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 "gmock/gmock.h" #include "gtest/gtest.h" #include "lodepng_sapi.sapi.h" #include "sandbox.h" #include "sandboxed_api/util/flag.h" #include "sandboxed_api/util/status_matchers.h" namespace { // use the current path std::string images_path = std::filesystem::current_path().string(); TEST(initSandbox, basic) { SapiLodepngSandbox sandbox(images_path); ASSERT_THAT(sandbox.Init(), sapi::IsOk()); } // generate an image, encode it, decode it and compare the pixels with the // initial values TEST(generate_image, encode_decode_compare_one_step) { SapiLodepngSandbox sandbox(images_path); ASSERT_THAT(sandbox.Init(), sapi::IsOk()); LodepngApi api(&sandbox); // generate the values unsigned int width = 512, height = 512; unsigned char *image = (unsigned char *)malloc(width * height * 4); ASSERT_TRUE(image); for (int y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { image[4 * width * y + 4 * x + 0] = 255 * !(x & y); image[4 * width * y + 4 * x + 1] = x ^ y; image[4 * width * y + 4 * x + 2] = x | y; image[4 * width * y + 4 * x + 3] = 255; } } // encode the image sapi::v::Array sapi_image(image, width * height * 4); sapi::v::UInt sapi_width(width), sapi_height(height); std::string filename = "/output/out_generated1.png"; sapi::v::ConstCStr sapi_filename(filename.c_str()); SAPI_ASSERT_OK_AND_ASSIGN( unsigned int result, api.lodepng_encode32_file(sapi_filename.PtrBefore(), sapi_image.PtrBefore(), sapi_width.GetValue(), sapi_height.GetValue())); ASSERT_THAT(result, testing::Eq(0)); // after the image has been encoded, decode it to check that the // pixel values are the same sapi::v::UInt sapi_width2, sapi_height2; sapi::v::IntBase sapi_image_ptr(0); SAPI_ASSERT_OK_AND_ASSIGN( result, api.lodepng_decode32_file( sapi_image_ptr.PtrBoth(), sapi_width2.PtrBoth(), sapi_height2.PtrBoth(), sapi_filename.PtrBefore())); ASSERT_THAT(result, testing::Eq(0)); ASSERT_THAT(sapi_width2.GetValue(), testing::Eq(width)); ASSERT_THAT(sapi_height2.GetValue(), testing::Eq(height)); // the pixels have been allocated inside the sandboxed process // memory, so we need to transfer them to this process. // Transferring the memory has the following steps: // 1) define a RemotePtr variable that holds the memory location from // the sandboxed process // 2) define an array with the required length // 3) set the remote pointer for the array to specify where the memory // that will be transferred is located // 4) transfer the memory to this process (this step is why we need // the pointer and the length) sapi::v::RemotePtr sapi_remote_out_ptr( reinterpret_cast(sapi_image_ptr.GetValue())); sapi::v::Array sapi_pixels(sapi_width2.GetValue() * sapi_height2.GetValue() * 4); sapi_pixels.SetRemote(sapi_remote_out_ptr.GetValue()); ASSERT_THAT(sandbox.TransferFromSandboxee(&sapi_pixels), sapi::IsOk()); // after the memory has been transferred, we can access it // using the GetData function unsigned char *pixels_ptr = sapi_pixels.GetData(); // now, we can compare the values for (size_t i = 0; i < width * height * 4; ++i) { ASSERT_THAT(pixels_ptr[i], testing::Eq(image[i])); } free(image); } // similar to the previous test, only that we use encoding by saving the data in // memory and then writing it to the file and decoding by first decoding in // memory and then getting the actual pixel values. TEST(generate_image, encode_decode_compare_two_steps) { SapiLodepngSandbox sandbox(images_path); ASSERT_THAT(sandbox.Init(), sapi::IsOk()); LodepngApi api(&sandbox); // generate the values unsigned int width = 512, height = 512; unsigned char *image = (unsigned char *)malloc(width * height * 4); ASSERT_THAT(image, testing::NotNull()); for (int y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { image[4 * width * y + 4 * x + 0] = 255 * !(x & y); image[4 * width * y + 4 * x + 1] = x ^ y; image[4 * width * y + 4 * x + 2] = x | y; image[4 * width * y + 4 * x + 3] = 255; } } // encode the image into memory first sapi::v::Array sapi_image(image, width * height * 4); sapi::v::UInt sapi_width(width), sapi_height(height); std::string filename = "/output/out_generated2.png"; sapi::v::ConstCStr sapi_filename(filename.c_str()); sapi::v::ULLong sapi_pngsize; sapi::v::IntBase sapi_png_ptr(0); // encode it into memory SAPI_ASSERT_OK_AND_ASSIGN( unsigned int result, api.lodepng_encode32(sapi_png_ptr.PtrBoth(), sapi_pngsize.PtrBoth(), sapi_image.PtrBefore(), sapi_width.GetValue(), sapi_height.GetValue())); ASSERT_THAT(result, testing::Eq(0)); // ASSERT_TRUE(result.ok()); // ASSERT_EQ(result.value(), 0); // the new array (pointed to by sapi_png_ptr) is allocated // inside the sandboxed process so we need to transfer it to this // process sapi::v::RemotePtr sapi_remote_out_ptr( reinterpret_cast(sapi_png_ptr.GetValue())); sapi::v::Array sapi_png_array(sapi_pngsize.GetValue()); sapi_png_array.SetRemote(sapi_remote_out_ptr.GetValue()); ASSERT_THAT(sandbox.TransferFromSandboxee(&sapi_png_array), sapi::IsOk()); // write the image into the file (from memory) SAPI_ASSERT_OK_AND_ASSIGN( result, api.lodepng_save_file(sapi_png_array.PtrBefore(), sapi_pngsize.GetValue(), sapi_filename.PtrBefore())); ASSERT_THAT(result, testing::Eq(0)); // now, decode the image using the 2 steps in order to compare the values sapi::v::UInt sapi_width2, sapi_height2; sapi::v::IntBase sapi_png_ptr2(0); sapi::v::ULLong sapi_pngsize2; // load the file in memory SAPI_ASSERT_OK_AND_ASSIGN( result, api.lodepng_load_file(sapi_png_ptr2.PtrBoth(), sapi_pngsize2.PtrBoth(), sapi_filename.PtrBefore())); ASSERT_THAT(result, testing::Eq(0)); ASSERT_THAT(sapi_pngsize.GetValue(), testing::Eq(sapi_pngsize2.GetValue())); // transfer the png array sapi::v::RemotePtr sapi_remote_out_ptr2( reinterpret_cast(sapi_png_ptr2.GetValue())); sapi::v::Array sapi_png_array2(sapi_pngsize2.GetValue()); sapi_png_array2.SetRemote(sapi_remote_out_ptr2.GetValue()); ASSERT_THAT(sandbox.TransferFromSandboxee(&sapi_png_array2), sapi::IsOk()); // after the file is loaded, decode it so we have access to the values // directly sapi::v::IntBase sapi_png_ptr3(0); SAPI_ASSERT_OK_AND_ASSIGN( result, api.lodepng_decode32(sapi_png_ptr3.PtrBoth(), sapi_width2.PtrBoth(), sapi_height2.PtrBoth(), sapi_png_array2.PtrBefore(), sapi_pngsize2.GetValue())); ASSERT_THAT(result, testing::Eq(0)); ASSERT_THAT(sapi_width2.GetValue(), testing::Eq(width)); ASSERT_THAT(sapi_height2.GetValue(), testing::Eq(height)); // transfer the pixels so they can be used sapi::v::RemotePtr sapi_remote_out_ptr3( reinterpret_cast(sapi_png_ptr3.GetValue())); sapi::v::Array sapi_pixels(sapi_width2.GetValue() * sapi_height2.GetValue() * 4); sapi_pixels.SetRemote(sapi_remote_out_ptr3.GetValue()); ASSERT_THAT(sandbox.TransferFromSandboxee(&sapi_pixels), sapi::IsOk()); unsigned char *pixels_ptr = sapi_pixels.GetData(); // compare values for (size_t i = 0; i < width * height * 4; ++i) { ASSERT_THAT(pixels_ptr[i], testing::Eq(image[i])); } free(image); } } // namespace