Mercurial > hg
view contrib/python-zstandard/zstd_cffi.py @ 31060:ab20491b1760
dispatch: rearrange 'unknown command' code to better employ pager
dispatch calls help like a ninja if you give it a truly unknown
command, and that might want to be paged. If it gets paged, then the
'hg: unknown command' text gets eaten by a grue, unless we call the
pager first. This change rearranges the codepaths so we can safely
only invoke the pager in the case where we'll have long output from
the help command code, rather than just a short message like "did you
mean stat instead of start" or "fetch is provided by the fetch
extension".
author | Augie Fackler <augie@google.com> |
---|---|
date | Tue, 21 Feb 2017 14:20:05 -0500 |
parents | c32454d69b85 |
children | e0dc40530c5a |
line wrap: on
line source
# Copyright (c) 2016-present, Gregory Szorc # All rights reserved. # # This software may be modified and distributed under the terms # of the BSD license. See the LICENSE file for details. """Python interface to the Zstandard (zstd) compression library.""" from __future__ import absolute_import, unicode_literals import sys from _zstd_cffi import ( ffi, lib, ) if sys.version_info[0] == 2: bytes_type = str int_type = long else: bytes_type = bytes int_type = int COMPRESSION_RECOMMENDED_INPUT_SIZE = lib.ZSTD_CStreamInSize() COMPRESSION_RECOMMENDED_OUTPUT_SIZE = lib.ZSTD_CStreamOutSize() DECOMPRESSION_RECOMMENDED_INPUT_SIZE = lib.ZSTD_DStreamInSize() DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE = lib.ZSTD_DStreamOutSize() new_nonzero = ffi.new_allocator(should_clear_after_alloc=False) MAX_COMPRESSION_LEVEL = lib.ZSTD_maxCLevel() MAGIC_NUMBER = lib.ZSTD_MAGICNUMBER FRAME_HEADER = b'\x28\xb5\x2f\xfd' ZSTD_VERSION = (lib.ZSTD_VERSION_MAJOR, lib.ZSTD_VERSION_MINOR, lib.ZSTD_VERSION_RELEASE) WINDOWLOG_MIN = lib.ZSTD_WINDOWLOG_MIN WINDOWLOG_MAX = lib.ZSTD_WINDOWLOG_MAX CHAINLOG_MIN = lib.ZSTD_CHAINLOG_MIN CHAINLOG_MAX = lib.ZSTD_CHAINLOG_MAX HASHLOG_MIN = lib.ZSTD_HASHLOG_MIN HASHLOG_MAX = lib.ZSTD_HASHLOG_MAX HASHLOG3_MAX = lib.ZSTD_HASHLOG3_MAX SEARCHLOG_MIN = lib.ZSTD_SEARCHLOG_MIN SEARCHLOG_MAX = lib.ZSTD_SEARCHLOG_MAX SEARCHLENGTH_MIN = lib.ZSTD_SEARCHLENGTH_MIN SEARCHLENGTH_MAX = lib.ZSTD_SEARCHLENGTH_MAX TARGETLENGTH_MIN = lib.ZSTD_TARGETLENGTH_MIN TARGETLENGTH_MAX = lib.ZSTD_TARGETLENGTH_MAX STRATEGY_FAST = lib.ZSTD_fast STRATEGY_DFAST = lib.ZSTD_dfast STRATEGY_GREEDY = lib.ZSTD_greedy STRATEGY_LAZY = lib.ZSTD_lazy STRATEGY_LAZY2 = lib.ZSTD_lazy2 STRATEGY_BTLAZY2 = lib.ZSTD_btlazy2 STRATEGY_BTOPT = lib.ZSTD_btopt COMPRESSOBJ_FLUSH_FINISH = 0 COMPRESSOBJ_FLUSH_BLOCK = 1 class ZstdError(Exception): pass class CompressionParameters(object): def __init__(self, window_log, chain_log, hash_log, search_log, search_length, target_length, strategy): if window_log < WINDOWLOG_MIN or window_log > WINDOWLOG_MAX: raise ValueError('invalid window log value') if chain_log < CHAINLOG_MIN or chain_log > CHAINLOG_MAX: raise ValueError('invalid chain log value') if hash_log < HASHLOG_MIN or hash_log > HASHLOG_MAX: raise ValueError('invalid hash log value') if search_log < SEARCHLOG_MIN or search_log > SEARCHLOG_MAX: raise ValueError('invalid search log value') if search_length < SEARCHLENGTH_MIN or search_length > SEARCHLENGTH_MAX: raise ValueError('invalid search length value') if target_length < TARGETLENGTH_MIN or target_length > TARGETLENGTH_MAX: raise ValueError('invalid target length value') if strategy < STRATEGY_FAST or strategy > STRATEGY_BTOPT: raise ValueError('invalid strategy value') self.window_log = window_log self.chain_log = chain_log self.hash_log = hash_log self.search_log = search_log self.search_length = search_length self.target_length = target_length self.strategy = strategy def as_compression_parameters(self): p = ffi.new('ZSTD_compressionParameters *')[0] p.windowLog = self.window_log p.chainLog = self.chain_log p.hashLog = self.hash_log p.searchLog = self.search_log p.searchLength = self.search_length p.targetLength = self.target_length p.strategy = self.strategy return p def get_compression_parameters(level, source_size=0, dict_size=0): params = lib.ZSTD_getCParams(level, source_size, dict_size) return CompressionParameters(window_log=params.windowLog, chain_log=params.chainLog, hash_log=params.hashLog, search_log=params.searchLog, search_length=params.searchLength, target_length=params.targetLength, strategy=params.strategy) def estimate_compression_context_size(params): if not isinstance(params, CompressionParameters): raise ValueError('argument must be a CompressionParameters') cparams = params.as_compression_parameters() return lib.ZSTD_estimateCCtxSize(cparams) def estimate_decompression_context_size(): return lib.ZSTD_estimateDCtxSize() class ZstdCompressionWriter(object): def __init__(self, compressor, writer, source_size, write_size): self._compressor = compressor self._writer = writer self._source_size = source_size self._write_size = write_size self._entered = False def __enter__(self): if self._entered: raise ZstdError('cannot __enter__ multiple times') self._cstream = self._compressor._get_cstream(self._source_size) self._entered = True return self def __exit__(self, exc_type, exc_value, exc_tb): self._entered = False if not exc_type and not exc_value and not exc_tb: out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', self._write_size) out_buffer.dst = dst_buffer out_buffer.size = self._write_size out_buffer.pos = 0 while True: zresult = lib.ZSTD_endStream(self._cstream, out_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('error ending compression stream: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: self._writer.write(ffi.buffer(out_buffer.dst, out_buffer.pos)[:]) out_buffer.pos = 0 if zresult == 0: break self._cstream = None self._compressor = None return False def memory_size(self): if not self._entered: raise ZstdError('cannot determine size of an inactive compressor; ' 'call when a context manager is active') return lib.ZSTD_sizeof_CStream(self._cstream) def write(self, data): if not self._entered: raise ZstdError('write() must be called from an active context ' 'manager') total_write = 0 data_buffer = ffi.from_buffer(data) in_buffer = ffi.new('ZSTD_inBuffer *') in_buffer.src = data_buffer in_buffer.size = len(data_buffer) in_buffer.pos = 0 out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', self._write_size) out_buffer.dst = dst_buffer out_buffer.size = self._write_size out_buffer.pos = 0 while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_compressStream(self._cstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: self._writer.write(ffi.buffer(out_buffer.dst, out_buffer.pos)[:]) total_write += out_buffer.pos out_buffer.pos = 0 return total_write def flush(self): if not self._entered: raise ZstdError('flush must be called from an active context manager') total_write = 0 out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', self._write_size) out_buffer.dst = dst_buffer out_buffer.size = self._write_size out_buffer.pos = 0 while True: zresult = lib.ZSTD_flushStream(self._cstream, out_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if not out_buffer.pos: break self._writer.write(ffi.buffer(out_buffer.dst, out_buffer.pos)[:]) total_write += out_buffer.pos out_buffer.pos = 0 return total_write class ZstdCompressionObj(object): def compress(self, data): if self._finished: raise ZstdError('cannot call compress() after compressor finished') data_buffer = ffi.from_buffer(data) source = ffi.new('ZSTD_inBuffer *') source.src = data_buffer source.size = len(data_buffer) source.pos = 0 chunks = [] while source.pos < len(data): zresult = lib.ZSTD_compressStream(self._cstream, self._out, source) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if self._out.pos: chunks.append(ffi.buffer(self._out.dst, self._out.pos)[:]) self._out.pos = 0 return b''.join(chunks) def flush(self, flush_mode=COMPRESSOBJ_FLUSH_FINISH): if flush_mode not in (COMPRESSOBJ_FLUSH_FINISH, COMPRESSOBJ_FLUSH_BLOCK): raise ValueError('flush mode not recognized') if self._finished: raise ZstdError('compressor object already finished') assert self._out.pos == 0 if flush_mode == COMPRESSOBJ_FLUSH_BLOCK: zresult = lib.ZSTD_flushStream(self._cstream, self._out) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) # Output buffer is guaranteed to hold full block. assert zresult == 0 if self._out.pos: result = ffi.buffer(self._out.dst, self._out.pos)[:] self._out.pos = 0 return result else: return b'' assert flush_mode == COMPRESSOBJ_FLUSH_FINISH self._finished = True chunks = [] while True: zresult = lib.ZSTD_endStream(self._cstream, self._out) if lib.ZSTD_isError(zresult): raise ZstdError('error ending compression stream: %s' % ffi.string(lib.ZSTD_getErroName(zresult))) if self._out.pos: chunks.append(ffi.buffer(self._out.dst, self._out.pos)[:]) self._out.pos = 0 if not zresult: break # GC compression stream immediately. self._cstream = None return b''.join(chunks) class ZstdCompressor(object): def __init__(self, level=3, dict_data=None, compression_params=None, write_checksum=False, write_content_size=False, write_dict_id=True): if level < 1: raise ValueError('level must be greater than 0') elif level > lib.ZSTD_maxCLevel(): raise ValueError('level must be less than %d' % lib.ZSTD_maxCLevel()) self._compression_level = level self._dict_data = dict_data self._cparams = compression_params self._fparams = ffi.new('ZSTD_frameParameters *')[0] self._fparams.checksumFlag = write_checksum self._fparams.contentSizeFlag = write_content_size self._fparams.noDictIDFlag = not write_dict_id cctx = lib.ZSTD_createCCtx() if cctx == ffi.NULL: raise MemoryError() self._cctx = ffi.gc(cctx, lib.ZSTD_freeCCtx) def compress(self, data, allow_empty=False): if len(data) == 0 and self._fparams.contentSizeFlag and not allow_empty: raise ValueError('cannot write empty inputs when writing content sizes') # TODO use a CDict for performance. dict_data = ffi.NULL dict_size = 0 if self._dict_data: dict_data = self._dict_data.as_bytes() dict_size = len(self._dict_data) params = ffi.new('ZSTD_parameters *')[0] if self._cparams: params.cParams = self._cparams.as_compression_parameters() else: params.cParams = lib.ZSTD_getCParams(self._compression_level, len(data), dict_size) params.fParams = self._fparams dest_size = lib.ZSTD_compressBound(len(data)) out = new_nonzero('char[]', dest_size) zresult = lib.ZSTD_compress_advanced(self._cctx, ffi.addressof(out), dest_size, data, len(data), dict_data, dict_size, params) if lib.ZSTD_isError(zresult): raise ZstdError('cannot compress: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) return ffi.buffer(out, zresult)[:] def compressobj(self, size=0): cstream = self._get_cstream(size) cobj = ZstdCompressionObj() cobj._cstream = cstream cobj._out = ffi.new('ZSTD_outBuffer *') cobj._dst_buffer = ffi.new('char[]', COMPRESSION_RECOMMENDED_OUTPUT_SIZE) cobj._out.dst = cobj._dst_buffer cobj._out.size = COMPRESSION_RECOMMENDED_OUTPUT_SIZE cobj._out.pos = 0 cobj._compressor = self cobj._finished = False return cobj def copy_stream(self, ifh, ofh, size=0, read_size=COMPRESSION_RECOMMENDED_INPUT_SIZE, write_size=COMPRESSION_RECOMMENDED_OUTPUT_SIZE): if not hasattr(ifh, 'read'): raise ValueError('first argument must have a read() method') if not hasattr(ofh, 'write'): raise ValueError('second argument must have a write() method') cstream = self._get_cstream(size) in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', write_size) out_buffer.dst = dst_buffer out_buffer.size = write_size out_buffer.pos = 0 total_read, total_write = 0, 0 while True: data = ifh.read(read_size) if not data: break data_buffer = ffi.from_buffer(data) total_read += len(data_buffer) in_buffer.src = data_buffer in_buffer.size = len(data_buffer) in_buffer.pos = 0 while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_compressStream(cstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: ofh.write(ffi.buffer(out_buffer.dst, out_buffer.pos)) total_write += out_buffer.pos out_buffer.pos = 0 # We've finished reading. Flush the compressor. while True: zresult = lib.ZSTD_endStream(cstream, out_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('error ending compression stream: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: ofh.write(ffi.buffer(out_buffer.dst, out_buffer.pos)) total_write += out_buffer.pos out_buffer.pos = 0 if zresult == 0: break return total_read, total_write def write_to(self, writer, size=0, write_size=COMPRESSION_RECOMMENDED_OUTPUT_SIZE): if not hasattr(writer, 'write'): raise ValueError('must pass an object with a write() method') return ZstdCompressionWriter(self, writer, size, write_size) def read_from(self, reader, size=0, read_size=COMPRESSION_RECOMMENDED_INPUT_SIZE, write_size=COMPRESSION_RECOMMENDED_OUTPUT_SIZE): if hasattr(reader, 'read'): have_read = True elif hasattr(reader, '__getitem__'): have_read = False buffer_offset = 0 size = len(reader) else: raise ValueError('must pass an object with a read() method or ' 'conforms to buffer protocol') cstream = self._get_cstream(size) in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') in_buffer.src = ffi.NULL in_buffer.size = 0 in_buffer.pos = 0 dst_buffer = ffi.new('char[]', write_size) out_buffer.dst = dst_buffer out_buffer.size = write_size out_buffer.pos = 0 while True: # We should never have output data sitting around after a previous # iteration. assert out_buffer.pos == 0 # Collect input data. if have_read: read_result = reader.read(read_size) else: remaining = len(reader) - buffer_offset slice_size = min(remaining, read_size) read_result = reader[buffer_offset:buffer_offset + slice_size] buffer_offset += slice_size # No new input data. Break out of the read loop. if not read_result: break # Feed all read data into the compressor and emit output until # exhausted. read_buffer = ffi.from_buffer(read_result) in_buffer.src = read_buffer in_buffer.size = len(read_buffer) in_buffer.pos = 0 while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_compressStream(cstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd compress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: data = ffi.buffer(out_buffer.dst, out_buffer.pos)[:] out_buffer.pos = 0 yield data assert out_buffer.pos == 0 # And repeat the loop to collect more data. continue # If we get here, input is exhausted. End the stream and emit what # remains. while True: assert out_buffer.pos == 0 zresult = lib.ZSTD_endStream(cstream, out_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('error ending compression stream: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: data = ffi.buffer(out_buffer.dst, out_buffer.pos)[:] out_buffer.pos = 0 yield data if zresult == 0: break def _get_cstream(self, size): cstream = lib.ZSTD_createCStream() if cstream == ffi.NULL: raise MemoryError() cstream = ffi.gc(cstream, lib.ZSTD_freeCStream) dict_data = ffi.NULL dict_size = 0 if self._dict_data: dict_data = self._dict_data.as_bytes() dict_size = len(self._dict_data) zparams = ffi.new('ZSTD_parameters *')[0] if self._cparams: zparams.cParams = self._cparams.as_compression_parameters() else: zparams.cParams = lib.ZSTD_getCParams(self._compression_level, size, dict_size) zparams.fParams = self._fparams zresult = lib.ZSTD_initCStream_advanced(cstream, dict_data, dict_size, zparams, size) if lib.ZSTD_isError(zresult): raise Exception('cannot init CStream: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) return cstream class FrameParameters(object): def __init__(self, fparams): self.content_size = fparams.frameContentSize self.window_size = fparams.windowSize self.dict_id = fparams.dictID self.has_checksum = bool(fparams.checksumFlag) def get_frame_parameters(data): if not isinstance(data, bytes_type): raise TypeError('argument must be bytes') params = ffi.new('ZSTD_frameParams *') zresult = lib.ZSTD_getFrameParams(params, data, len(data)) if lib.ZSTD_isError(zresult): raise ZstdError('cannot get frame parameters: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if zresult: raise ZstdError('not enough data for frame parameters; need %d bytes' % zresult) return FrameParameters(params[0]) class ZstdCompressionDict(object): def __init__(self, data): assert isinstance(data, bytes_type) self._data = data def __len__(self): return len(self._data) def dict_id(self): return int_type(lib.ZDICT_getDictID(self._data, len(self._data))) def as_bytes(self): return self._data def train_dictionary(dict_size, samples, parameters=None): if not isinstance(samples, list): raise TypeError('samples must be a list') total_size = sum(map(len, samples)) samples_buffer = new_nonzero('char[]', total_size) sample_sizes = new_nonzero('size_t[]', len(samples)) offset = 0 for i, sample in enumerate(samples): if not isinstance(sample, bytes_type): raise ValueError('samples must be bytes') l = len(sample) ffi.memmove(samples_buffer + offset, sample, l) offset += l sample_sizes[i] = l dict_data = new_nonzero('char[]', dict_size) zresult = lib.ZDICT_trainFromBuffer(ffi.addressof(dict_data), dict_size, ffi.addressof(samples_buffer), ffi.addressof(sample_sizes, 0), len(samples)) if lib.ZDICT_isError(zresult): raise ZstdError('Cannot train dict: %s' % ffi.string(lib.ZDICT_getErrorName(zresult))) return ZstdCompressionDict(ffi.buffer(dict_data, zresult)[:]) class ZstdDecompressionObj(object): def __init__(self, decompressor): self._decompressor = decompressor self._dstream = self._decompressor._get_dstream() self._finished = False def decompress(self, data): if self._finished: raise ZstdError('cannot use a decompressobj multiple times') in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') data_buffer = ffi.from_buffer(data) in_buffer.src = data_buffer in_buffer.size = len(data_buffer) in_buffer.pos = 0 dst_buffer = ffi.new('char[]', DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE) out_buffer.dst = dst_buffer out_buffer.size = len(dst_buffer) out_buffer.pos = 0 chunks = [] while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_decompressStream(self._dstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd decompressor error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if zresult == 0: self._finished = True self._dstream = None self._decompressor = None if out_buffer.pos: chunks.append(ffi.buffer(out_buffer.dst, out_buffer.pos)[:]) out_buffer.pos = 0 return b''.join(chunks) class ZstdDecompressionWriter(object): def __init__(self, decompressor, writer, write_size): self._decompressor = decompressor self._writer = writer self._write_size = write_size self._dstream = None self._entered = False def __enter__(self): if self._entered: raise ZstdError('cannot __enter__ multiple times') self._dstream = self._decompressor._get_dstream() self._entered = True return self def __exit__(self, exc_type, exc_value, exc_tb): self._entered = False self._dstream = None def memory_size(self): if not self._dstream: raise ZstdError('cannot determine size of inactive decompressor ' 'call when context manager is active') return lib.ZSTD_sizeof_DStream(self._dstream) def write(self, data): if not self._entered: raise ZstdError('write must be called from an active context manager') total_write = 0 in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') data_buffer = ffi.from_buffer(data) in_buffer.src = data_buffer in_buffer.size = len(data_buffer) in_buffer.pos = 0 dst_buffer = ffi.new('char[]', self._write_size) out_buffer.dst = dst_buffer out_buffer.size = len(dst_buffer) out_buffer.pos = 0 while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_decompressStream(self._dstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd decompress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: self._writer.write(ffi.buffer(out_buffer.dst, out_buffer.pos)[:]) total_write += out_buffer.pos out_buffer.pos = 0 return total_write class ZstdDecompressor(object): def __init__(self, dict_data=None): self._dict_data = dict_data dctx = lib.ZSTD_createDCtx() if dctx == ffi.NULL: raise MemoryError() self._refdctx = ffi.gc(dctx, lib.ZSTD_freeDCtx) @property def _ddict(self): if self._dict_data: dict_data = self._dict_data.as_bytes() dict_size = len(self._dict_data) ddict = lib.ZSTD_createDDict(dict_data, dict_size) if ddict == ffi.NULL: raise ZstdError('could not create decompression dict') else: ddict = None self.__dict__['_ddict'] = ddict return ddict def decompress(self, data, max_output_size=0): data_buffer = ffi.from_buffer(data) orig_dctx = new_nonzero('char[]', lib.ZSTD_sizeof_DCtx(self._refdctx)) dctx = ffi.cast('ZSTD_DCtx *', orig_dctx) lib.ZSTD_copyDCtx(dctx, self._refdctx) ddict = self._ddict output_size = lib.ZSTD_getDecompressedSize(data_buffer, len(data_buffer)) if output_size: result_buffer = ffi.new('char[]', output_size) result_size = output_size else: if not max_output_size: raise ZstdError('input data invalid or missing content size ' 'in frame header') result_buffer = ffi.new('char[]', max_output_size) result_size = max_output_size if ddict: zresult = lib.ZSTD_decompress_usingDDict(dctx, result_buffer, result_size, data_buffer, len(data_buffer), ddict) else: zresult = lib.ZSTD_decompressDCtx(dctx, result_buffer, result_size, data_buffer, len(data_buffer)) if lib.ZSTD_isError(zresult): raise ZstdError('decompression error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) elif output_size and zresult != output_size: raise ZstdError('decompression error: decompressed %d bytes; expected %d' % (zresult, output_size)) return ffi.buffer(result_buffer, zresult)[:] def decompressobj(self): return ZstdDecompressionObj(self) def read_from(self, reader, read_size=DECOMPRESSION_RECOMMENDED_INPUT_SIZE, write_size=DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE, skip_bytes=0): if skip_bytes >= read_size: raise ValueError('skip_bytes must be smaller than read_size') if hasattr(reader, 'read'): have_read = True elif hasattr(reader, '__getitem__'): have_read = False buffer_offset = 0 size = len(reader) else: raise ValueError('must pass an object with a read() method or ' 'conforms to buffer protocol') if skip_bytes: if have_read: reader.read(skip_bytes) else: if skip_bytes > size: raise ValueError('skip_bytes larger than first input chunk') buffer_offset = skip_bytes dstream = self._get_dstream() in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', write_size) out_buffer.dst = dst_buffer out_buffer.size = len(dst_buffer) out_buffer.pos = 0 while True: assert out_buffer.pos == 0 if have_read: read_result = reader.read(read_size) else: remaining = size - buffer_offset slice_size = min(remaining, read_size) read_result = reader[buffer_offset:buffer_offset + slice_size] buffer_offset += slice_size # No new input. Break out of read loop. if not read_result: break # Feed all read data into decompressor and emit output until # exhausted. read_buffer = ffi.from_buffer(read_result) in_buffer.src = read_buffer in_buffer.size = len(read_buffer) in_buffer.pos = 0 while in_buffer.pos < in_buffer.size: assert out_buffer.pos == 0 zresult = lib.ZSTD_decompressStream(dstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd decompress error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: data = ffi.buffer(out_buffer.dst, out_buffer.pos)[:] out_buffer.pos = 0 yield data if zresult == 0: return # Repeat loop to collect more input data. continue # If we get here, input is exhausted. def write_to(self, writer, write_size=DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE): if not hasattr(writer, 'write'): raise ValueError('must pass an object with a write() method') return ZstdDecompressionWriter(self, writer, write_size) def copy_stream(self, ifh, ofh, read_size=DECOMPRESSION_RECOMMENDED_INPUT_SIZE, write_size=DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE): if not hasattr(ifh, 'read'): raise ValueError('first argument must have a read() method') if not hasattr(ofh, 'write'): raise ValueError('second argument must have a write() method') dstream = self._get_dstream() in_buffer = ffi.new('ZSTD_inBuffer *') out_buffer = ffi.new('ZSTD_outBuffer *') dst_buffer = ffi.new('char[]', write_size) out_buffer.dst = dst_buffer out_buffer.size = write_size out_buffer.pos = 0 total_read, total_write = 0, 0 # Read all available input. while True: data = ifh.read(read_size) if not data: break data_buffer = ffi.from_buffer(data) total_read += len(data_buffer) in_buffer.src = data_buffer in_buffer.size = len(data_buffer) in_buffer.pos = 0 # Flush all read data to output. while in_buffer.pos < in_buffer.size: zresult = lib.ZSTD_decompressStream(dstream, out_buffer, in_buffer) if lib.ZSTD_isError(zresult): raise ZstdError('zstd decompressor error: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) if out_buffer.pos: ofh.write(ffi.buffer(out_buffer.dst, out_buffer.pos)) total_write += out_buffer.pos out_buffer.pos = 0 # Continue loop to keep reading. return total_read, total_write def decompress_content_dict_chain(self, frames): if not isinstance(frames, list): raise TypeError('argument must be a list') if not frames: raise ValueError('empty input chain') # First chunk should not be using a dictionary. We handle it specially. chunk = frames[0] if not isinstance(chunk, bytes_type): raise ValueError('chunk 0 must be bytes') # All chunks should be zstd frames and should have content size set. chunk_buffer = ffi.from_buffer(chunk) params = ffi.new('ZSTD_frameParams *') zresult = lib.ZSTD_getFrameParams(params, chunk_buffer, len(chunk_buffer)) if lib.ZSTD_isError(zresult): raise ValueError('chunk 0 is not a valid zstd frame') elif zresult: raise ValueError('chunk 0 is too small to contain a zstd frame') if not params.frameContentSize: raise ValueError('chunk 0 missing content size in frame') dctx = lib.ZSTD_createDCtx() if dctx == ffi.NULL: raise MemoryError() dctx = ffi.gc(dctx, lib.ZSTD_freeDCtx) last_buffer = ffi.new('char[]', params.frameContentSize) zresult = lib.ZSTD_decompressDCtx(dctx, last_buffer, len(last_buffer), chunk_buffer, len(chunk_buffer)) if lib.ZSTD_isError(zresult): raise ZstdError('could not decompress chunk 0: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) # Special case of chain length of 1 if len(frames) == 1: return ffi.buffer(last_buffer, len(last_buffer))[:] i = 1 while i < len(frames): chunk = frames[i] if not isinstance(chunk, bytes_type): raise ValueError('chunk %d must be bytes' % i) chunk_buffer = ffi.from_buffer(chunk) zresult = lib.ZSTD_getFrameParams(params, chunk_buffer, len(chunk_buffer)) if lib.ZSTD_isError(zresult): raise ValueError('chunk %d is not a valid zstd frame' % i) elif zresult: raise ValueError('chunk %d is too small to contain a zstd frame' % i) if not params.frameContentSize: raise ValueError('chunk %d missing content size in frame' % i) dest_buffer = ffi.new('char[]', params.frameContentSize) zresult = lib.ZSTD_decompress_usingDict(dctx, dest_buffer, len(dest_buffer), chunk_buffer, len(chunk_buffer), last_buffer, len(last_buffer)) if lib.ZSTD_isError(zresult): raise ZstdError('could not decompress chunk %d' % i) last_buffer = dest_buffer i += 1 return ffi.buffer(last_buffer, len(last_buffer))[:] def _get_dstream(self): dstream = lib.ZSTD_createDStream() if dstream == ffi.NULL: raise MemoryError() dstream = ffi.gc(dstream, lib.ZSTD_freeDStream) if self._dict_data: zresult = lib.ZSTD_initDStream_usingDict(dstream, self._dict_data.as_bytes(), len(self._dict_data)) else: zresult = lib.ZSTD_initDStream(dstream) if lib.ZSTD_isError(zresult): raise ZstdError('could not initialize DStream: %s' % ffi.string(lib.ZSTD_getErrorName(zresult))) return dstream