// Copyright (c) 2010 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include "remoting/base/compressor_zlib.h" #include "remoting/base/decompressor_zlib.h" #include "testing/gtest/include/gtest/gtest.h" namespace remoting { static void GenerateTestData(uint8* data, int size, int seed) { srand(seed); for (int i = 0; i < size; ++i) data[i] = rand() % 256; } // Keep compressing |input_data| into |output_data| until the last // bytes is consumed. // // The compressed size is written to |compressed_size|. static void Compress(remoting::Compressor* compressor, const uint8* input_data, int input_size, uint8* output_data, int output_size, int* compressed_size) { *compressed_size = 0; while (true) { int consumed, written; bool ret = compressor->Process( input_data, input_size, output_data, output_size, input_size == 0 ? Compressor::CompressorFinish : Compressor::CompressorNoFlush, &consumed, &written); input_data += consumed; input_size -= consumed; output_data += written; output_size -= written; *compressed_size += written; if (!ret) break; } } // The decompressed size is written to |decompressed_size|. static void Decompress(remoting::Decompressor* decompressor, const uint8* input_data, int input_size, uint8* output_data, int output_size, int* decompressed_size) { *decompressed_size = 0; while (true) { int consumed, written; bool ret = decompressor->Process(input_data, input_size, output_data, output_size, &consumed, &written); input_data += consumed; input_size -= consumed; output_data += written; output_size -= written; *decompressed_size += written; if (!ret) break; } } TEST(DecompressorZlibTest, CompressAndDecompress) { static const int kRawDataSize = 1024 * 128; static const int kCompressedDataSize = 2 * kRawDataSize; static const int kDecompressedDataSize = kRawDataSize; uint8 raw_data[kRawDataSize]; uint8 compressed_data[kCompressedDataSize]; uint8 decompressed_data[kDecompressedDataSize]; // Generate the test data.g GenerateTestData(raw_data, kRawDataSize, 99); // Then use the compressor. remoting::CompressorZlib compressor; int compressed_size = 0; Compress(&compressor, raw_data, kRawDataSize, compressed_data, kCompressedDataSize, &compressed_size); // Then use the decompressor. remoting::DecompressorZlib decompressor; int decompressed_size = 0; Decompress(&decompressor, compressed_data, compressed_size, decompressed_data, kDecompressedDataSize, &decompressed_size); EXPECT_EQ(kRawDataSize, decompressed_size); EXPECT_EQ(0, memcmp(raw_data, decompressed_data, decompressed_size)); } // Checks that zlib can work with a small output buffer by limiting // number of bytes it gets from the input. TEST(DecompressorZlibTest, SmallOutputBuffer) { static const int kRawDataSize = 1024 * 128; static const int kCompressedDataSize = 2 * kRawDataSize; uint8 raw_data[kRawDataSize]; uint8 compressed_data[kCompressedDataSize]; // Generate the test data. GenerateTestData(raw_data, kRawDataSize, 99); // Then use the compressor to compress. remoting::CompressorZlib compressor; int compressed_size = 0; Compress(&compressor, raw_data, kRawDataSize, compressed_data, kCompressedDataSize, &compressed_size); // Then use the decompressor. We decompress into a 1 byte buffer // every time. remoting::DecompressorZlib decompressor; uint8* input_data = compressed_data; int input_size = compressed_size; int decompressed_size = 0; while (true) { int consumed, written; uint8 output_data; bool ret = decompressor.Process(input_data, input_size, &output_data, 1, &consumed, &written); input_data += consumed; input_size -= consumed; // Expect that there's only one byte written. EXPECT_EQ(1, written); decompressed_size += written; if (!ret) break; } EXPECT_EQ(kRawDataSize, decompressed_size); } } // namespace remoting