sandboxed-api/oss-internship-2020/lodepng/examples/main_sandboxed.cc

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// 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 <iostream>
#include <glog/logging.h>
#include "helpers.h" // NOLINT(build/include)
#include "sandbox.h" // NOLINT(build/include)
#include "absl/status/statusor.h"
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void EncodeDecodeOneStep(SapiLodepngSandbox& sandbox, LodepngApi& api) {
// Generate the values.
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std::vector<uint8_t> image = GenerateValues();
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// Encode the image.
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sapi::v::Array<uint8_t> sapi_image(kImgLen);
CHECK(std::copy(image.begin(), image.end(), sapi_image.GetData()))
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<< "Could not copy values";
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sapi::v::ConstCStr sapi_filename("/output/out_generated1.png");
absl::StatusOr<unsigned int> result = api.lodepng_encode32_file(
sapi_filename.PtrBefore(), sapi_image.PtrBefore(), kWidth, kHeight);
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CHECK(result.ok()) << "encode32_file call failed";
CHECK(!result.value()) << "Unexpected result from encode32_file call";
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// After the image has been encoded, decode it to check that the
// pixel values are the same.
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sapi::v::UInt sapi_width, sapi_height;
sapi::v::IntBase<uint8_t*> sapi_image_ptr(0);
result = api.lodepng_decode32_file(
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sapi_image_ptr.PtrBoth(), sapi_width.PtrBoth(), sapi_height.PtrBoth(),
sapi_filename.PtrBefore());
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CHECK(result.ok()) << "decode32_file call failes";
CHECK(!result.value()) << "Unexpected result from decode32_file call";
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CHECK(sapi_width.GetValue() == kWidth) << "Widths differ";
CHECK(sapi_height.GetValue() == kHeight) << "Heights differ";
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// 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:
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// 1) define an array with the required length.
// 2) set the remote pointer for the array to specify where the memory
// that will be transferred is located.
// 3) transfer the memory to this process (this step is why we need
// the pointer and the length).
sapi::v::Array<uint8_t> sapi_pixels(kImgLen);
sapi_pixels.SetRemote(sapi_image_ptr.GetValue());
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CHECK(sandbox.TransferFromSandboxee(&sapi_pixels).ok())
<< "Error during transfer from sandboxee";
// Now, we can compare the values.
CHECK(absl::equal(image.begin(), image.end(), sapi_pixels.GetData(),
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sapi_pixels.GetData() + kImgLen))
<< "Values differ";
// Free the memory allocated inside the sandbox.
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CHECK(sandbox.GetRpcChannel()->Free(sapi_image_ptr.GetValue()).ok())
<< "Could not free memory inside sandboxed process";
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}
void EncodeDecodeTwoSteps(SapiLodepngSandbox& sandbox, LodepngApi& api) {
// Generate the values.
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std::vector<uint8_t> image = GenerateValues();
// Encode the image into memory first.
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sapi::v::Array<uint8_t> sapi_image(kImgLen);
CHECK(std::copy(image.begin(), image.end(), sapi_image.GetData()))
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<< "Could not copy values";
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sapi::v::ConstCStr sapi_filename("/output/out_generated2.png");
sapi::v::ULLong sapi_pngsize;
sapi::v::IntBase<uint8_t*> sapi_png_ptr(0);
// Encode it into memory.
absl::StatusOr<unsigned int> result =
api.lodepng_encode32(sapi_png_ptr.PtrBoth(), sapi_pngsize.PtrBoth(),
sapi_image.PtrBefore(), kWidth, kHeight);
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CHECK(result.ok()) << "encode32 call failed";
CHECK(!result.value()) << "Unexpected result from encode32 call";
// 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::Array<uint8_t> sapi_png_array(sapi_pngsize.GetValue());
sapi_png_array.SetRemote(sapi_png_ptr.GetValue());
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CHECK(sandbox.TransferFromSandboxee(&sapi_png_array).ok())
<< "Error during transfer from sandboxee";
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// Write the image into the file (from memory).
result =
api.lodepng_save_file(sapi_png_array.PtrBefore(), sapi_pngsize.GetValue(),
sapi_filename.PtrBefore());
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CHECK(result.ok()) << "save_file call failed";
CHECK(!result.value()) << "Unexpected result from save_file call";
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// Now, decode the image using the 2 steps in order to compare the values.
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sapi::v::UInt sapi_width, sapi_height;
sapi::v::IntBase<uint8_t*> sapi_png_ptr2(0);
sapi::v::ULLong sapi_pngsize2;
// Load the file in memory.
result =
api.lodepng_load_file(sapi_png_ptr2.PtrBoth(), sapi_pngsize2.PtrBoth(),
sapi_filename.PtrBefore());
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CHECK(result.ok()) << "load_file call failed";
CHECK(!result.value()) << "Unexpected result from load_file call";
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CHECK(sapi_pngsize.GetValue() == sapi_pngsize2.GetValue())
<< "Png sizes differ";
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// Transfer the png array.
sapi::v::Array<uint8_t> sapi_png_array2(sapi_pngsize2.GetValue());
sapi_png_array2.SetRemote(sapi_png_ptr2.GetValue());
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CHECK(sandbox.TransferFromSandboxee(&sapi_png_array2).ok())
<< "Error during transfer from sandboxee";
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// After the file is loaded, decode it so we have access to the values
// directly.
sapi::v::IntBase<uint8_t*> sapi_png_ptr3(0);
result = api.lodepng_decode32(
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sapi_png_ptr3.PtrBoth(), sapi_width.PtrBoth(), sapi_height.PtrBoth(),
sapi_png_array2.PtrBefore(), sapi_pngsize2.GetValue());
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CHECK(result.ok()) << "decode32 call failed";
CHECK(!result.value()) << "Unexpected result from decode32 call";
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CHECK(sapi_width.GetValue() == kWidth) << "Widths differ";
CHECK(sapi_height.GetValue() == kHeight) << "Heights differ";
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// Transfer the pixels so they can be used here.
sapi::v::Array<uint8_t> sapi_pixels(kImgLen);
sapi_pixels.SetRemote(sapi_png_ptr3.GetValue());
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CHECK(sandbox.TransferFromSandboxee(&sapi_pixels).ok())
<< "Error during transfer from sandboxee";
// Compare the values.
CHECK(absl::equal(image.begin(), image.end(), sapi_pixels.GetData(),
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sapi_pixels.GetData() + kImgLen))
<< "Values differ";
// Free the memory allocated inside the sandbox.
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CHECK(sandbox.GetRpcChannel()->Free(sapi_png_ptr.GetValue()).ok())
<< "Could not free memory inside sandboxed process";
CHECK(sandbox.GetRpcChannel()->Free(sapi_png_ptr2.GetValue()).ok())
<< "Could not free memory inside sandboxed process";
CHECK(sandbox.GetRpcChannel()->Free(sapi_png_ptr3.GetValue()).ok())
<< "Could not free memory inside sandboxed process";
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}
int main(int argc, char* argv[]) {
google::InitGoogleLogging(argv[0]);
const std::string images_path = CreateTempDirAtCWD();
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CHECK(sandbox2::file_util::fileops::Exists(images_path, false))
<< "Temporary directory does not exist";
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SapiLodepngSandbox sandbox(images_path);
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CHECK(sandbox.Init().ok()) << "Error during sandbox initialization";
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LodepngApi api(&sandbox);
EncodeDecodeOneStep(sandbox, api);
EncodeDecodeTwoSteps(sandbox, api);
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if (sandbox2::file_util::fileops::DeleteRecursively(images_path)) {
LOG(WARNING) << "Temporary folder could not be deleted";
}
return EXIT_SUCCESS;
}