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# Copyright (C) 2005, 2006 Canonical Ltd
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# (C) 2005 Canonical Ltd
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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from bzrlib.selftest import TestCaseInTempDir
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from bzrlib.errors import BzrError
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from bzrlib.hashcache import HashCache
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from bzrlib.tests import TestCaseInTempDir, TestSkipped, TestCase
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return sha.new(t).hexdigest()
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# allow it to stabilize
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start = int(time.time())
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while int(time.time()) == start:
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class TestHashCache(TestCaseInTempDir):
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"""Test the hashcache against a real directory"""
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def make_hashcache(self):
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def test_hashcache(self):
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"""Functional tests for hashcache"""
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from bzrlib.hashcache import HashCache
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# make a dummy bzr directory just to hold the cache
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hc = HashCache('.', '.bzr/stat-cache')
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def reopen_hashcache(self):
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hc = HashCache('.', '.bzr/stat-cache')
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def test_hashcache_initial_miss(self):
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"""Get correct hash from an empty hashcache"""
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hc = self.make_hashcache()
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self.build_tree_contents([('foo', 'hello')])
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file('foo', 'wb').write('hello')
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self.assertEquals(hc.get_sha1('foo'),
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'aaf4c61ddcc5e8a2dabede0f3b482cd9aea9434d')
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self.assertEquals(hc.miss_count, 1)
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self.assertEquals(hc.hit_count, 0)
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def test_hashcache_new_file(self):
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hc = self.make_hashcache()
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self.build_tree_contents([('foo', 'goodbye')])
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# now read without pausing; it may not be possible to cache it as its
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self.assertEquals(hc.get_sha1('foo'), sha1('goodbye'))
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def test_hashcache_nonexistent_file(self):
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hc = self.make_hashcache()
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self.assertEquals(hc.get_sha1('no-name-yet'), None)
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def test_hashcache_replaced_file(self):
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hc = self.make_hashcache()
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self.build_tree_contents([('foo', 'goodbye')])
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self.assertEquals(hc.get_sha1('foo'), sha1('goodbye'))
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self.assertEquals(hc.get_sha1('foo'), None)
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self.build_tree_contents([('foo', 'new content')])
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self.assertEquals(hc.get_sha1('foo'), sha1('new content'))
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def test_hashcache_not_file(self):
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hc = self.make_hashcache()
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self.build_tree(['subdir/'])
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# check we hit without re-reading
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self.assertEquals(hc.get_sha1('foo'),
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'aaf4c61ddcc5e8a2dabede0f3b482cd9aea9434d')
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##self.assertEquals(hc.miss_count, 1)
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##self.assertEquals(hc.hit_count, 1)
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# check again without re-reading
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self.assertEquals(hc.get_sha1('foo'),
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'aaf4c61ddcc5e8a2dabede0f3b482cd9aea9434d')
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##self.assertEquals(hc.miss_count, 1)
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##self.assertEquals(hc.hit_count, 2)
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# write new file and make sure it is seen
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file('foo', 'wb').write('goodbye')
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self.assertEquals(hc.get_sha1('foo'),
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'3c8ec4874488f6090a157b014ce3397ca8e06d4f')
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##self.assertEquals(hc.miss_count, 2)
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# quickly write new file of same size and make sure it is seen
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# this may rely on detection of timestamps that are too close
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file('foo', 'wb').write('g00dbye')
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self.assertEquals(hc.get_sha1('foo'),
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file('foo2', 'wb').write('other file')
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self.assertEquals(hc.get_sha1('foo2'), sha1('other file'))
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self.assertEquals(hc.get_sha1('foo2'), None)
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file('foo2', 'wb').write('new content')
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self.assertEquals(hc.get_sha1('foo2'), sha1('new content'))
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self.assertEquals(hc.get_sha1('subdir'), None)
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def test_hashcache_load(self):
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hc = self.make_hashcache()
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self.build_tree_contents([('foo', 'contents')])
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# it's likely neither are cached at the moment because they
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# changed recently, but we can't be sure
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self.assertEquals(hc.get_sha1('foo'), sha1('contents'))
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# should now be safe to cache it if we reread them
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self.assertEquals(hc.get_sha1('foo'), sha1('g00dbye'))
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##self.assertEquals(len(hc._cache), 1)
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self.assertEquals(hc.get_sha1('foo2'), sha1('new content'))
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##self.assertEquals(len(hc._cache), 2)
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# write out, read back in and check that we don't need to
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hc = self.reopen_hashcache()
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self.assertEquals(hc.get_sha1('foo'), sha1('contents'))
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self.assertEquals(hc.hit_count, 1)
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def test_hammer_hashcache(self):
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hc = self.make_hashcache()
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for i in xrange(10000):
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self.log('start writing at %s', time.time())
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last_content = '%08x' % i
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f.write(last_content)
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last_sha1 = sha1(last_content)
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self.log("iteration %d: %r -> %r",
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i, last_content, last_sha1)
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got_sha1 = hc.get_sha1('foo')
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self.assertEquals(got_sha1, last_sha1)
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hc = self.reopen_hashcache()
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def test_hashcache_raise(self):
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"""check that hashcache can raise BzrError"""
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hc = self.make_hashcache()
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if getattr(os, 'mkfifo', None) is None:
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raise TestSkipped('filesystem fifos not supported on this system')
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# It's possible that the system supports fifos but the filesystem
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# can't. In that case we should skip at this point. But in fact
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# such combinations don't usually occur for the filesystem where
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self.assertRaises(BzrError, hc.get_sha1, 'a')
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class FakeHashCache(HashCache):
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"""Hashcache that consults a fake clock rather than the real one.
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This lets us examine how old or new files would be handled, without
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actually having to wait for time to pass.
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# set root and cache file name to none to make sure we won't touch the
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HashCache.__init__(self, '.', 'hashcache')
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# simulated clock running forward as operations happen
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def put_file(self, filename, file_contents):
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abspath = './' + filename
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self._files[abspath] = (file_contents, self._clock)
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def _fingerprint(self, abspath):
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entry = self._files[abspath]
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return (len(entry[0]),
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def _really_sha1_file(self, abspath):
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if abspath in self._files:
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return sha1(self._files[abspath][0])
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def _cutoff_time(self):
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return self._clock - 2
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def pretend_to_sleep(self, secs):
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class TestHashCacheFakeFilesystem(TestCaseInTempDir):
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"""Tests the hashcache using a simulated OS.
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def make_hashcache(self):
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return FakeHashCache()
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def test_hashcache_miss_new_file(self):
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"""A new file gives the right sha1 but misses"""
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hc = self.make_hashcache()
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hc.put_file('foo', 'hello')
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self.assertEquals(hc.get_sha1('foo'), sha1('hello'))
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self.assertEquals(hc.miss_count, 1)
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self.assertEquals(hc.hit_count, 0)
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# if we try again it's still too new;
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self.assertEquals(hc.get_sha1('foo'), sha1('hello'))
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self.assertEquals(hc.miss_count, 2)
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self.assertEquals(hc.hit_count, 0)
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def test_hashcache_old_file(self):
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"""An old file gives the right sha1 and hits"""
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hc = self.make_hashcache()
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hc.put_file('foo', 'hello')
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hc.pretend_to_sleep(20)
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# file is new; should get the correct hash but miss
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self.assertEquals(hc.get_sha1('foo'), sha1('hello'))
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self.assertEquals(hc.miss_count, 1)
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self.assertEquals(hc.hit_count, 0)
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self.assertEquals(hc.get_sha1('foo'), sha1('hello'))
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self.assertEquals(hc.miss_count, 1)
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self.assertEquals(hc.hit_count, 1)
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hc.pretend_to_sleep(3)
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self.assertEquals(hc.get_sha1('foo'), sha1('hello'))
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self.assertEquals(hc.miss_count, 1)
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self.assertEquals(hc.hit_count, 2)
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def test_hashcache_invalidates(self):
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hc = self.make_hashcache()
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hc.put_file('foo', 'hello')
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hc.pretend_to_sleep(20)
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hc.put_file('foo', 'h1llo')
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self.assertEquals(hc.get_sha1('foo'), sha1('h1llo'))
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self.assertEquals(hc.miss_count, 2)
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self.assertEquals(hc.hit_count, 0)
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##self.assertEquals(len(hc._cache), 2)
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self.assertEquals(hc.get_sha1('foo'), sha1('g00dbye'))
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##self.assertEquals(hc.hit_count, 1)
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##self.assertEquals(hc.miss_count, 0)
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self.assertEquals(hc.get_sha1('foo2'), sha1('new content'))