// Copyright 2013 Google Inc. All Rights Reserved. // // 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. // // API for Brotli compression #ifndef BROTLI_ENC_ENCODE_H_ #define BROTLI_ENC_ENCODE_H_ #include #include #include #include #include "./command.h" #include "./hash.h" #include "./ringbuffer.h" #include "./static_dict.h" #include "./streams.h" namespace brotli { static const int kMaxWindowBits = 24; static const int kMinWindowBits = 16; static const int kMinInputBlockBits = 16; static const int kMaxInputBlockBits = 24; struct BrotliParams { BrotliParams() : mode(MODE_TEXT), quality(11), lgwin(22), lgblock(0), enable_dictionary(true), enable_transforms(false), greedy_block_split(false), enable_context_modeling(true) {} enum Mode { MODE_TEXT = 0, MODE_FONT = 1, }; Mode mode; // Controls the compression-speed vs compression-density tradeoffs. The higher // the quality, the slower the compression. Range is 0 to 11. int quality; // Base 2 logarithm of the sliding window size. Range is 16 to 24. int lgwin; // Base 2 logarithm of the maximum input block size. Range is 16 to 24. // If set to 0, the value will be set based on the quality. int lgblock; // These settings will be respected only if quality > 9. bool enable_dictionary; bool enable_transforms; bool greedy_block_split; bool enable_context_modeling; }; class BrotliCompressor { public: explicit BrotliCompressor(BrotliParams params); ~BrotliCompressor(); // The maximum input size that can be processed at once. size_t input_block_size() const { return 1 << params_.lgblock; } // Encodes the data in input_buffer as a meta-block and writes it to // encoded_buffer (*encoded_size should be set to the size of // encoded_buffer) and sets *encoded_size to the number of bytes that // was written. Returns 0 if there was an error and 1 otherwise. bool WriteMetaBlock(const size_t input_size, const uint8_t* input_buffer, const bool is_last, size_t* encoded_size, uint8_t* encoded_buffer); // Writes a zero-length meta-block with end-of-input bit set to the // internal output buffer and copies the output buffer to encoded_buffer // (*encoded_size should be set to the size of encoded_buffer) and sets // *encoded_size to the number of bytes written. Returns false if there was // an error and true otherwise. bool FinishStream(size_t* encoded_size, uint8_t* encoded_buffer); // Copies the given input data to the internal ring buffer of the compressor. // No processing of the data occurs at this time and this function can be // called multiple times before calling WriteBrotliData() to process the // accumulated input. At most input_block_size() bytes of input data can be // copied to the ring buffer, otherwise the next WriteBrotliData() will fail. void CopyInputToRingBuffer(const size_t input_size, const uint8_t* input_buffer); // Processes the accumulated input data and sets *out_size to the length of // the new output meta-block, or to zero if no new output meta-block was // created (in this case the processed input data is buffered internally). // If *out_size is positive, *output points to the start of the output data. // Returns false if the size of the input data is larger than // input_block_size() or if there was an error during writing the output. // If is_last or force_flush is true, an output meta-block is always created. bool WriteBrotliData(const bool is_last, const bool force_flush, size_t* out_size, uint8_t** output); // No-op, but we keep it here for API backward-compatibility. void WriteStreamHeader() {} private: // Initializes the hasher with the hashes of dictionary words. void StoreDictionaryWordHashes(bool enable_transforms); uint8_t* GetBrotliStorage(size_t size); bool WriteMetaBlockInternal(const bool is_last, const bool utf8_mode, size_t* out_size, uint8_t** output); BrotliParams params_; int max_backward_distance_; std::unique_ptr hashers_; int hash_type_; size_t input_pos_; std::unique_ptr ringbuffer_; std::unique_ptr literal_cost_; size_t literal_cost_mask_; size_t cmd_buffer_size_; std::unique_ptr commands_; int num_commands_; int last_insert_len_; size_t last_flush_pos_; size_t last_processed_pos_; int dist_cache_[4]; uint8_t last_byte_; uint8_t last_byte_bits_; int storage_size_; std::unique_ptr storage_; static StaticDictionary *static_dictionary_; }; // Compresses the data in input_buffer into encoded_buffer, and sets // *encoded_size to the compressed length. // Returns 0 if there was an error and 1 otherwise. int BrotliCompressBuffer(BrotliParams params, size_t input_size, const uint8_t* input_buffer, size_t* encoded_size, uint8_t* encoded_buffer); // Same as above, but uses the specified input and output classes instead // of reading from and writing to pre-allocated memory buffers. int BrotliCompress(BrotliParams params, BrotliIn* in, BrotliOut* out); } // namespace brotli #endif // BROTLI_ENC_ENCODE_H_