// Copyright 2014 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 "third_party/zlib/google/compression_utils.h" #include "base/bit_cast.h" #include "base/logging.h" #include "base/process/memory.h" #include "base/strings/string_piece.h" #include "base/sys_byteorder.h" #include "third_party/zlib/google/compression_utils_portable.h" namespace compression { bool GzipCompress(base::StringPiece input, char* output_buffer, size_t output_buffer_size, size_t* compressed_size, void* (*malloc_fn)(size_t), void (*free_fn)(void*)) { static_assert(sizeof(Bytef) == 1, ""); // uLongf can be larger than size_t. uLongf compressed_size_long = static_cast(output_buffer_size); if (zlib_internal::GzipCompressHelper( bit_cast(output_buffer), &compressed_size_long, bit_cast(input.data()), static_cast(input.size()), malloc_fn, free_fn) != Z_OK) { return false; } // No overflow, as compressed_size_long <= output.size() which is a size_t. *compressed_size = static_cast(compressed_size_long); return true; } bool GzipCompress(base::StringPiece input, std::string* output) { // Not using std::vector<> because allocation failures are recoverable, // which is hidden by std::vector<>. static_assert(sizeof(Bytef) == 1, ""); const uLongf input_size = static_cast(input.size()); uLongf compressed_data_size = zlib_internal::GzipExpectedCompressedSize(input_size); Bytef* compressed_data; if (!base::UncheckedMalloc(compressed_data_size, reinterpret_cast(&compressed_data))) { return false; } if (zlib_internal::GzipCompressHelper(compressed_data, &compressed_data_size, bit_cast(input.data()), input_size, nullptr, nullptr) != Z_OK) { free(compressed_data); return false; } Bytef* resized_data = reinterpret_cast(realloc(compressed_data, compressed_data_size)); if (!resized_data) { free(compressed_data); return false; } output->assign(resized_data, resized_data + compressed_data_size); DCHECK_EQ(input_size, GetUncompressedSize(*output)); free(resized_data); return true; } bool GzipUncompress(const std::string& input, std::string* output) { std::string uncompressed_output; uLongf uncompressed_size = static_cast(GetUncompressedSize(input)); if (uncompressed_size > uncompressed_output.max_size()) return false; uncompressed_output.resize(uncompressed_size); if (zlib_internal::GzipUncompressHelper( bit_cast(uncompressed_output.data()), &uncompressed_size, bit_cast(input.data()), static_cast(input.length())) == Z_OK) { output->swap(uncompressed_output); return true; } return false; } bool GzipUncompress(base::StringPiece input, base::StringPiece output) { uLongf uncompressed_size = GetUncompressedSize(input); if (uncompressed_size > output.size()) return false; return zlib_internal::GzipUncompressHelper( bit_cast(output.data()), &uncompressed_size, bit_cast(input.data()), static_cast(input.length())) == Z_OK; } bool GzipUncompress(base::StringPiece input, std::string* output) { // Disallow in-place usage, i.e., |input| using |*output| as underlying data. DCHECK_NE(input.data(), output->data()); uLongf uncompressed_size = GetUncompressedSize(input); output->resize(uncompressed_size); return zlib_internal::GzipUncompressHelper( bit_cast(output->data()), &uncompressed_size, bit_cast(input.data()), static_cast(input.length())) == Z_OK; } uint32_t GetUncompressedSize(base::StringPiece compressed_data) { return zlib_internal::GetGzipUncompressedSize( bit_cast(compressed_data.data()), compressed_data.length()); } } // namespace compression