# Copyright (C) 2010, 2011 Sebastian Thiel (byronimo@gmail.com) and contributors # # This module is part of GitDB and is released under # the New BSD License: http://www.opensource.org/licenses/bsd-license.php """Performance data streaming performance""" from lib import TestBigRepoR from gitdb.db import * from gitdb.base import * from gitdb.stream import * from gitdb.util import ( pool, bin_to_hex ) from gitdb.typ import str_blob_type from gitdb.fun import chunk_size from async import ( IteratorReader, ChannelThreadTask, ) from cStringIO import StringIO from time import time import os import sys import stat import subprocess from lib import ( TestBigRepoR, make_memory_file, with_rw_directory ) #{ Utilities def read_chunked_stream(stream): total = 0 while True: chunk = stream.read(chunk_size) total += len(chunk) if len(chunk) < chunk_size: break # END read stream loop assert total == stream.size return stream class TestStreamReader(ChannelThreadTask): """Expects input streams and reads them in chunks. It will read one at a time, requireing a queue chunk of size 1""" def __init__(self, *args): super(TestStreamReader, self).__init__(*args) self.fun = read_chunked_stream self.max_chunksize = 1 #} END utilities class TestObjDBPerformance(TestBigRepoR): large_data_size_bytes = 1000*1000*50 # some MiB should do it moderate_data_size_bytes = 1000*1000*1 # just 1 MiB @with_rw_directory def test_large_data_streaming(self, path): ldb = LooseObjectDB(path) string_ios = list() # list of streams we previously created # serial mode for randomize in range(2): desc = (randomize and 'random ') or '' print >> sys.stderr, "Creating %s data ..." % desc st = time() size, stream = make_memory_file(self.large_data_size_bytes, randomize) elapsed = time() - st print >> sys.stderr, "Done (in %f s)" % elapsed string_ios.append(stream) # writing - due to the compression it will seem faster than it is st = time() sha = ldb.store(IStream('blob', size, stream)).binsha elapsed_add = time() - st assert ldb.has_object(sha) db_file = ldb.readable_db_object_path(bin_to_hex(sha)) fsize_kib = os.path.getsize(db_file) / 1000 size_kib = size / 1000 print >> sys.stderr, "Added %i KiB (filesize = %i KiB) of %s data to loose odb in %f s ( %f Write KiB / s)" % (size_kib, fsize_kib, desc, elapsed_add, size_kib / elapsed_add) # reading all at once st = time() ostream = ldb.stream(sha) shadata = ostream.read() elapsed_readall = time() - st stream.seek(0) assert shadata == stream.getvalue() print >> sys.stderr, "Read %i KiB of %s data at once from loose odb in %f s ( %f Read KiB / s)" % (size_kib, desc, elapsed_readall, size_kib / elapsed_readall) # reading in chunks of 1 MiB cs = 512*1000 chunks = list() st = time() ostream = ldb.stream(sha) while True: data = ostream.read(cs) chunks.append(data) if len(data) < cs: break # END read in chunks elapsed_readchunks = time() - st stream.seek(0) assert ''.join(chunks) == stream.getvalue() cs_kib = cs / 1000 print >> sys.stderr, "Read %i KiB of %s data in %i KiB chunks from loose odb in %f s ( %f Read KiB / s)" % (size_kib, desc, cs_kib, elapsed_readchunks, size_kib / elapsed_readchunks) # del db file so we keep something to do os.remove(db_file) # END for each randomization factor # multi-threaded mode # want two, should be supported by most of todays cpus pool.set_size(2) total_kib = 0 nsios = len(string_ios) for stream in string_ios: stream.seek(0) total_kib += len(stream.getvalue()) / 1000 # END rewind def istream_iter(): for stream in string_ios: stream.seek(0) yield IStream(str_blob_type, len(stream.getvalue()), stream) # END for each stream # END util # write multiple objects at once, involving concurrent compression reader = IteratorReader(istream_iter()) istream_reader = ldb.store_async(reader) istream_reader.task().max_chunksize = 1 st = time() istreams = istream_reader.read(nsios) assert len(istreams) == nsios elapsed = time() - st print >> sys.stderr, "Threads(%i): Compressed %i KiB of data in loose odb in %f s ( %f Write KiB / s)" % (pool.size(), total_kib, elapsed, total_kib / elapsed) # decompress multiple at once, by reading them # chunk size is not important as the stream will not really be decompressed # until its read istream_reader = IteratorReader(iter([ i.binsha for i in istreams ])) ostream_reader = ldb.stream_async(istream_reader) chunk_task = TestStreamReader(ostream_reader, "chunker", None) output_reader = pool.add_task(chunk_task) output_reader.task().max_chunksize = 1 st = time() assert len(output_reader.read(nsios)) == nsios elapsed = time() - st print >> sys.stderr, "Threads(%i): Decompressed %i KiB of data in loose odb in %f s ( %f Read KiB / s)" % (pool.size(), total_kib, elapsed, total_kib / elapsed) # store the files, and read them back. For the reading, we use a task # as well which is chunked into one item per task. Reading all will # very quickly result in two threads handling two bytestreams of # chained compression/decompression streams reader = IteratorReader(istream_iter()) istream_reader = ldb.store_async(reader) istream_reader.task().max_chunksize = 1 istream_to_sha = lambda items: [ i.binsha for i in items ] istream_reader.set_post_cb(istream_to_sha) ostream_reader = ldb.stream_async(istream_reader) chunk_task = TestStreamReader(ostream_reader, "chunker", None) output_reader = pool.add_task(chunk_task) output_reader.max_chunksize = 1 st = time() assert len(output_reader.read(nsios)) == nsios elapsed = time() - st print >> sys.stderr, "Threads(%i): Compressed and decompressed and read %i KiB of data in loose odb in %f s ( %f Combined KiB / s)" % (pool.size(), total_kib, elapsed, total_kib / elapsed)