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lfs: add note messages indicating what store holds the lfs blob...
lfs: add note messages indicating what store holds the lfs blob The following corruption related patches were written prior to adding the user level cache, and it took awhile to track down why the tests changed. (It generally made things more resilient.) But I think this will be useful to the end user as well. I didn't make it --debug level, because there can be a ton of info coming out of clone/push/pull --debug. The pointers are sorted for test stability. I opted for ui.note() instead of checking ui.verbose and then using ui.write() for convenience, but I see most of this extension does the latter. I have no idea what the preferred form is.
Gregory Szorc - - Load All Authors

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test_compressor_fuzzing.py
143 lines | 5.5 KiB | text/x-python | PythonLexer
/ contrib / python-zstandard / tests / test_compressor_fuzzing.py
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import io
import os
try:
import unittest2 as unittest
except ImportError:
import unittest
try:
import hypothesis
import hypothesis.strategies as strategies
except ImportError:
raise unittest.SkipTest('hypothesis not available')
import zstd
from . common import (
make_cffi,
random_input_data,
)
@unittest.skipUnless('ZSTD_SLOW_TESTS' in os.environ, 'ZSTD_SLOW_TESTS not set')
@make_cffi
class TestCompressor_write_to_fuzzing(unittest.TestCase):
@hypothesis.given(original=strategies.sampled_from(random_input_data()),
level=strategies.integers(min_value=1, max_value=5),
write_size=strategies.integers(min_value=1, max_value=1048576))
def test_write_size_variance(self, original, level, write_size):
refctx = zstd.ZstdCompressor(level=level)
ref_frame = refctx.compress(original)
cctx = zstd.ZstdCompressor(level=level)
b = io.BytesIO()
with cctx.write_to(b, size=len(original), write_size=write_size) as compressor:
compressor.write(original)
self.assertEqual(b.getvalue(), ref_frame)
@unittest.skipUnless('ZSTD_SLOW_TESTS' in os.environ, 'ZSTD_SLOW_TESTS not set')
@make_cffi
class TestCompressor_copy_stream_fuzzing(unittest.TestCase):
@hypothesis.given(original=strategies.sampled_from(random_input_data()),
level=strategies.integers(min_value=1, max_value=5),
read_size=strategies.integers(min_value=1, max_value=1048576),
write_size=strategies.integers(min_value=1, max_value=1048576))
def test_read_write_size_variance(self, original, level, read_size, write_size):
refctx = zstd.ZstdCompressor(level=level)
ref_frame = refctx.compress(original)
cctx = zstd.ZstdCompressor(level=level)
source = io.BytesIO(original)
dest = io.BytesIO()
cctx.copy_stream(source, dest, size=len(original), read_size=read_size,
write_size=write_size)
self.assertEqual(dest.getvalue(), ref_frame)
@unittest.skipUnless('ZSTD_SLOW_TESTS' in os.environ, 'ZSTD_SLOW_TESTS not set')
@make_cffi
class TestCompressor_compressobj_fuzzing(unittest.TestCase):
@hypothesis.given(original=strategies.sampled_from(random_input_data()),
level=strategies.integers(min_value=1, max_value=5),
chunk_sizes=strategies.streaming(
strategies.integers(min_value=1, max_value=4096)))
def test_random_input_sizes(self, original, level, chunk_sizes):
chunk_sizes = iter(chunk_sizes)
refctx = zstd.ZstdCompressor(level=level)
ref_frame = refctx.compress(original)
cctx = zstd.ZstdCompressor(level=level)
cobj = cctx.compressobj(size=len(original))
chunks = []
i = 0
while True:
chunk_size = next(chunk_sizes)
source = original[i:i + chunk_size]
if not source:
break
chunks.append(cobj.compress(source))
i += chunk_size
chunks.append(cobj.flush())
self.assertEqual(b''.join(chunks), ref_frame)
@unittest.skipUnless('ZSTD_SLOW_TESTS' in os.environ, 'ZSTD_SLOW_TESTS not set')
@make_cffi
class TestCompressor_read_from_fuzzing(unittest.TestCase):
@hypothesis.given(original=strategies.sampled_from(random_input_data()),
level=strategies.integers(min_value=1, max_value=5),
read_size=strategies.integers(min_value=1, max_value=4096),
write_size=strategies.integers(min_value=1, max_value=4096))
def test_read_write_size_variance(self, original, level, read_size, write_size):
refcctx = zstd.ZstdCompressor(level=level)
ref_frame = refcctx.compress(original)
source = io.BytesIO(original)
cctx = zstd.ZstdCompressor(level=level)
chunks = list(cctx.read_from(source, size=len(original), read_size=read_size,
write_size=write_size))
self.assertEqual(b''.join(chunks), ref_frame)
@unittest.skipUnless('ZSTD_SLOW_TESTS' in os.environ, 'ZSTD_SLOW_TESTS not set')
class TestCompressor_multi_compress_to_buffer_fuzzing(unittest.TestCase):
@hypothesis.given(original=strategies.lists(strategies.sampled_from(random_input_data()),
min_size=1, max_size=1024),
threads=strategies.integers(min_value=1, max_value=8),
use_dict=strategies.booleans())
def test_data_equivalence(self, original, threads, use_dict):
kwargs = {}
# Use a content dictionary because it is cheap to create.
if use_dict:
kwargs['dict_data'] = zstd.ZstdCompressionDict(original[0])
cctx = zstd.ZstdCompressor(level=1,
write_content_size=True,
write_checksum=True,
**kwargs)
result = cctx.multi_compress_to_buffer(original, threads=-1)
self.assertEqual(len(result), len(original))
# The frame produced via the batch APIs may not be bit identical to that
# produced by compress() because compression parameters are adjusted
# from the first input in batch mode. So the only thing we can do is
# verify the decompressed data matches the input.
dctx = zstd.ZstdDecompressor(**kwargs)
for i, frame in enumerate(result):
self.assertEqual(dctx.decompress(frame), original[i])