mirror of https://github.com/morpheus65535/bazarr
165 lines
5.6 KiB
Python
165 lines
5.6 KiB
Python
# Copyright (C) 2010, 2011 Sebastian Thiel (byronimo@gmail.com) and contributors
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#
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# This module is part of GitDB and is released under
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# the New BSD License: http://www.opensource.org/licenses/bsd-license.php
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"""Test for object db"""
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from gitdb.test.lib import (
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TestBase,
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DummyStream,
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make_bytes,
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make_object,
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fixture_path
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)
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from gitdb import (
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DecompressMemMapReader,
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FDCompressedSha1Writer,
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LooseObjectDB,
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Sha1Writer,
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MemoryDB,
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IStream,
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)
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from gitdb.util import hex_to_bin
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import zlib
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from gitdb.typ import (
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str_blob_type
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)
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import tempfile
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import os
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from io import BytesIO
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class TestStream(TestBase):
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"""Test stream classes"""
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data_sizes = (15, 10000, 1000 * 1024 + 512)
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def _assert_stream_reader(self, stream, cdata, rewind_stream=lambda s: None):
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"""Make stream tests - the orig_stream is seekable, allowing it to be
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rewound and reused
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:param cdata: the data we expect to read from stream, the contents
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:param rewind_stream: function called to rewind the stream to make it ready
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for reuse"""
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ns = 10
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assert len(cdata) > ns - 1, "Data must be larger than %i, was %i" % (ns, len(cdata))
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# read in small steps
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ss = len(cdata) // ns
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for i in range(ns):
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data = stream.read(ss)
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chunk = cdata[i * ss:(i + 1) * ss]
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assert data == chunk
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# END for each step
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rest = stream.read()
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if rest:
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assert rest == cdata[-len(rest):]
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# END handle rest
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if isinstance(stream, DecompressMemMapReader):
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assert len(stream.data()) == stream.compressed_bytes_read()
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# END handle special type
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rewind_stream(stream)
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# read everything
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rdata = stream.read()
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assert rdata == cdata
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if isinstance(stream, DecompressMemMapReader):
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assert len(stream.data()) == stream.compressed_bytes_read()
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# END handle special type
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def test_decompress_reader(self):
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for close_on_deletion in range(2):
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for with_size in range(2):
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for ds in self.data_sizes:
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cdata = make_bytes(ds, randomize=False)
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# zdata = zipped actual data
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# cdata = original content data
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# create reader
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if with_size:
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# need object data
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zdata = zlib.compress(make_object(str_blob_type, cdata))
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typ, size, reader = DecompressMemMapReader.new(zdata, close_on_deletion)
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assert size == len(cdata)
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assert typ == str_blob_type
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# even if we don't set the size, it will be set automatically on first read
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test_reader = DecompressMemMapReader(zdata, close_on_deletion=False)
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assert test_reader._s == len(cdata)
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else:
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# here we need content data
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zdata = zlib.compress(cdata)
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reader = DecompressMemMapReader(zdata, close_on_deletion, len(cdata))
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assert reader._s == len(cdata)
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# END get reader
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self._assert_stream_reader(reader, cdata, lambda r: r.seek(0))
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# put in a dummy stream for closing
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dummy = DummyStream()
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reader._m = dummy
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assert not dummy.closed
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del(reader)
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assert dummy.closed == close_on_deletion
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# END for each datasize
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# END whether size should be used
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# END whether stream should be closed when deleted
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def test_sha_writer(self):
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writer = Sha1Writer()
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assert 2 == writer.write("hi".encode("ascii"))
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assert len(writer.sha(as_hex=1)) == 40
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assert len(writer.sha(as_hex=0)) == 20
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# make sure it does something ;)
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prev_sha = writer.sha()
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writer.write("hi again".encode("ascii"))
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assert writer.sha() != prev_sha
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def test_compressed_writer(self):
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for ds in self.data_sizes:
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fd, path = tempfile.mkstemp()
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ostream = FDCompressedSha1Writer(fd)
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data = make_bytes(ds, randomize=False)
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# for now, just a single write, code doesn't care about chunking
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assert len(data) == ostream.write(data)
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ostream.close()
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# its closed already
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self.failUnlessRaises(OSError, os.close, fd)
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# read everything back, compare to data we zip
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fd = os.open(path, os.O_RDONLY | getattr(os, 'O_BINARY', 0))
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written_data = os.read(fd, os.path.getsize(path))
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assert len(written_data) == os.path.getsize(path)
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os.close(fd)
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assert written_data == zlib.compress(data, 1) # best speed
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os.remove(path)
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# END for each os
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def test_decompress_reader_special_case(self):
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odb = LooseObjectDB(fixture_path('objects'))
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mdb = MemoryDB()
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for sha in (b'888401851f15db0eed60eb1bc29dec5ddcace911',
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b'7bb839852ed5e3a069966281bb08d50012fb309b',):
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ostream = odb.stream(hex_to_bin(sha))
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# if there is a bug, we will be missing one byte exactly !
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data = ostream.read()
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assert len(data) == ostream.size
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# Putting it back in should yield nothing new - after all, we have
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dump = mdb.store(IStream(ostream.type, ostream.size, BytesIO(data)))
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assert dump.hexsha == sha
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# end for each loose object sha to test
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