mirror of
https://github.com/tahoe-lafs/tahoe-lafs.git
synced 2024-12-29 17:28:53 +00:00
636 lines
22 KiB
Python
636 lines
22 KiB
Python
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import os
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from cStringIO import StringIO
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from twisted.trial import unittest
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from twisted.python.failure import Failure
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from twisted.python import log
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from twisted.internet import defer
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from foolscap.api import fireEventually
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import allmydata # for __full_version__
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from allmydata import uri, monitor
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from allmydata.immutable import upload
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from allmydata.interfaces import IFileURI, FileTooLargeError, NotEnoughSharesError
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from allmydata.util.assertutil import precondition
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from allmydata.util.deferredutil import DeferredListShouldSucceed
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from no_network import GridTestMixin
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from common_util import ShouldFailMixin
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MiB = 1024*1024
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def extract_uri(results):
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return results.uri
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class Uploadable(unittest.TestCase):
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def shouldEqual(self, data, expected):
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self.failUnless(isinstance(data, list))
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for e in data:
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self.failUnless(isinstance(e, str))
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s = "".join(data)
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self.failUnlessEqual(s, expected)
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def test_filehandle_random_key(self):
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return self._test_filehandle(convergence=None)
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def test_filehandle_convergent_encryption(self):
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return self._test_filehandle(convergence="some convergence string")
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def _test_filehandle(self, convergence):
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s = StringIO("a"*41)
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u = upload.FileHandle(s, convergence=convergence)
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d = u.get_size()
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d.addCallback(self.failUnlessEqual, 41)
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d.addCallback(lambda res: u.read(1))
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d.addCallback(self.shouldEqual, "a")
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d.addCallback(lambda res: u.read(80))
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d.addCallback(self.shouldEqual, "a"*40)
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d.addCallback(lambda res: u.close()) # this doesn't close the filehandle
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d.addCallback(lambda res: s.close()) # that privilege is reserved for us
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return d
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def test_filename(self):
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basedir = "upload/Uploadable/test_filename"
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os.makedirs(basedir)
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fn = os.path.join(basedir, "file")
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f = open(fn, "w")
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f.write("a"*41)
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f.close()
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u = upload.FileName(fn, convergence=None)
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d = u.get_size()
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d.addCallback(self.failUnlessEqual, 41)
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d.addCallback(lambda res: u.read(1))
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d.addCallback(self.shouldEqual, "a")
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d.addCallback(lambda res: u.read(80))
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d.addCallback(self.shouldEqual, "a"*40)
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d.addCallback(lambda res: u.close())
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return d
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def test_data(self):
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s = "a"*41
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u = upload.Data(s, convergence=None)
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d = u.get_size()
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d.addCallback(self.failUnlessEqual, 41)
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d.addCallback(lambda res: u.read(1))
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d.addCallback(self.shouldEqual, "a")
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d.addCallback(lambda res: u.read(80))
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d.addCallback(self.shouldEqual, "a"*40)
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d.addCallback(lambda res: u.close())
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return d
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class FakeStorageServer:
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def __init__(self, mode):
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self.mode = mode
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self.allocated = []
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self.queries = 0
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self.version = { "http://allmydata.org/tahoe/protocols/storage/v1" :
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{ "maximum-immutable-share-size": 2**32 },
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"application-version": str(allmydata.__full_version__),
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}
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if mode == "small":
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self.version = { "http://allmydata.org/tahoe/protocols/storage/v1" :
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{ "maximum-immutable-share-size": 10 },
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"application-version": str(allmydata.__full_version__),
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}
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def callRemote(self, methname, *args, **kwargs):
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def _call():
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meth = getattr(self, methname)
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return meth(*args, **kwargs)
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d = fireEventually()
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d.addCallback(lambda res: _call())
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return d
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def allocate_buckets(self, storage_index, renew_secret, cancel_secret,
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sharenums, share_size, canary):
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#print "FakeStorageServer.allocate_buckets(num=%d, size=%d)" % (len(sharenums), share_size)
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self.queries += 1
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if self.mode == "full":
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return (set(), {},)
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elif self.mode == "already got them":
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return (set(sharenums), {},)
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else:
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for shnum in sharenums:
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self.allocated.append( (storage_index, shnum) )
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return (set(),
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dict([( shnum, FakeBucketWriter(share_size) )
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for shnum in sharenums]),
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)
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class FakeBucketWriter:
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# a diagnostic version of storageserver.BucketWriter
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def __init__(self, size):
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self.data = StringIO()
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self.closed = False
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self._size = size
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def callRemote(self, methname, *args, **kwargs):
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def _call():
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meth = getattr(self, "remote_" + methname)
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return meth(*args, **kwargs)
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d = fireEventually()
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d.addCallback(lambda res: _call())
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return d
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def remote_write(self, offset, data):
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precondition(not self.closed)
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precondition(offset >= 0)
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precondition(offset+len(data) <= self._size,
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"offset=%d + data=%d > size=%d" %
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(offset, len(data), self._size))
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self.data.seek(offset)
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self.data.write(data)
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def remote_close(self):
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precondition(not self.closed)
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self.closed = True
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def remote_abort(self):
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log.err("uh oh, I was asked to abort")
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class FakeClient:
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DEFAULT_ENCODING_PARAMETERS = {"k":25,
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"happy": 75,
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"n": 100,
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"max_segment_size": 1*MiB,
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}
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def __init__(self, mode="good", num_servers=50):
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self.mode = mode
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self.num_servers = num_servers
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if mode == "some_big_some_small":
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self.peers = []
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for fakeid in range(num_servers):
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if fakeid % 2:
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self.peers.append( ("%20d" % fakeid,
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FakeStorageServer("good")) )
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else:
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self.peers.append( ("%20d" % fakeid,
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FakeStorageServer("small")) )
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else:
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self.peers = [ ("%20d"%fakeid, FakeStorageServer(self.mode),)
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for fakeid in range(self.num_servers) ]
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def log(self, *args, **kwargs):
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pass
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def get_permuted_peers(self, storage_index, include_myself):
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self.last_peers = [p[1] for p in self.peers]
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return self.peers
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def get_encoding_parameters(self):
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return self.DEFAULT_ENCODING_PARAMETERS
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def get_renewal_secret(self):
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return ""
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def get_cancel_secret(self):
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return ""
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class GotTooFarError(Exception):
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pass
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class GiganticUploadable(upload.FileHandle):
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def __init__(self, size):
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self._size = size
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self._fp = 0
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def get_encryption_key(self):
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return defer.succeed("\x00" * 16)
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def get_size(self):
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return defer.succeed(self._size)
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def read(self, length):
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left = self._size - self._fp
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length = min(left, length)
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self._fp += length
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if self._fp > 1000000:
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# terminate the test early.
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raise GotTooFarError("we shouldn't be allowed to get this far")
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return defer.succeed(["\x00" * length])
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def close(self):
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pass
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DATA = """
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Once upon a time, there was a beautiful princess named Buttercup. She lived
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in a magical land where every file was stored securely among millions of
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machines, and nobody ever worried about their data being lost ever again.
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The End.
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"""
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assert len(DATA) > upload.Uploader.URI_LIT_SIZE_THRESHOLD
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SIZE_ZERO = 0
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SIZE_SMALL = 16
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SIZE_LARGE = len(DATA)
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def upload_data(uploader, data):
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u = upload.Data(data, convergence=None)
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return uploader.upload(u)
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def upload_filename(uploader, filename):
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u = upload.FileName(filename, convergence=None)
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return uploader.upload(u)
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def upload_filehandle(uploader, fh):
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u = upload.FileHandle(fh, convergence=None)
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return uploader.upload(u)
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class GoodServer(unittest.TestCase, ShouldFailMixin):
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def setUp(self):
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self.node = FakeClient(mode="good")
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self.u = upload.Uploader()
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self.u.running = True
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self.u.parent = self.node
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def set_encoding_parameters(self, k, happy, n, max_segsize=1*MiB):
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p = {"k": k,
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"happy": happy,
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"n": n,
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"max_segment_size": max_segsize,
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}
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self.node.DEFAULT_ENCODING_PARAMETERS = p
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def _check_small(self, newuri, size):
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u = IFileURI(newuri)
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self.failUnless(isinstance(u, uri.LiteralFileURI))
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self.failUnlessEqual(len(u.data), size)
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def _check_large(self, newuri, size):
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u = IFileURI(newuri)
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self.failUnless(isinstance(u, uri.CHKFileURI))
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self.failUnless(isinstance(u.storage_index, str))
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self.failUnlessEqual(len(u.storage_index), 16)
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self.failUnless(isinstance(u.key, str))
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self.failUnlessEqual(len(u.key), 16)
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self.failUnlessEqual(u.size, size)
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def get_data(self, size):
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return DATA[:size]
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def test_too_large(self):
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# we've removed the 4GiB share size limit (see ticket #346 for
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# details), but still have an 8-byte field, so the limit is now
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# 2**64, so make sure we reject files larger than that.
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k = 3; happy = 7; n = 10
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self.set_encoding_parameters(k, happy, n)
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big = k*(2**64)
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data1 = GiganticUploadable(big)
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d = self.shouldFail(FileTooLargeError, "test_too_large-data1",
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"This file is too large to be uploaded (data_size)",
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self.u.upload, data1)
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data2 = GiganticUploadable(big-3)
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d.addCallback(lambda res:
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self.shouldFail(FileTooLargeError,
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"test_too_large-data2",
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"This file is too large to be uploaded (offsets)",
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self.u.upload, data2))
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# I don't know where the actual limit is.. it depends upon how large
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# the hash trees wind up. It's somewhere close to k*4GiB-ln2(size).
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return d
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def test_data_zero(self):
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data = self.get_data(SIZE_ZERO)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_ZERO)
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return d
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def test_data_small(self):
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data = self.get_data(SIZE_SMALL)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_SMALL)
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return d
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def test_data_large(self):
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data = self.get_data(SIZE_LARGE)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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return d
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def test_data_large_odd_segments(self):
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data = self.get_data(SIZE_LARGE)
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segsize = int(SIZE_LARGE / 2.5)
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# we want 3 segments, since that's not a power of two
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self.set_encoding_parameters(25, 75, 100, segsize)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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return d
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def test_filehandle_zero(self):
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data = self.get_data(SIZE_ZERO)
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d = upload_filehandle(self.u, StringIO(data))
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_ZERO)
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return d
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def test_filehandle_small(self):
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data = self.get_data(SIZE_SMALL)
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d = upload_filehandle(self.u, StringIO(data))
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_SMALL)
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return d
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def test_filehandle_large(self):
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data = self.get_data(SIZE_LARGE)
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d = upload_filehandle(self.u, StringIO(data))
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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return d
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def test_filename_zero(self):
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fn = "Uploader-test_filename_zero.data"
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f = open(fn, "wb")
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data = self.get_data(SIZE_ZERO)
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f.write(data)
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f.close()
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d = upload_filename(self.u, fn)
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_ZERO)
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return d
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def test_filename_small(self):
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fn = "Uploader-test_filename_small.data"
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f = open(fn, "wb")
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data = self.get_data(SIZE_SMALL)
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f.write(data)
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f.close()
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d = upload_filename(self.u, fn)
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d.addCallback(extract_uri)
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d.addCallback(self._check_small, SIZE_SMALL)
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return d
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def test_filename_large(self):
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fn = "Uploader-test_filename_large.data"
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f = open(fn, "wb")
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data = self.get_data(SIZE_LARGE)
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f.write(data)
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f.close()
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d = upload_filename(self.u, fn)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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return d
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class FullServer(unittest.TestCase):
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def setUp(self):
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self.node = FakeClient(mode="full")
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self.u = upload.Uploader()
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self.u.running = True
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self.u.parent = self.node
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def _should_fail(self, f):
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self.failUnless(isinstance(f, Failure) and f.check(NotEnoughSharesError), f)
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def test_data_large(self):
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data = DATA
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d = upload_data(self.u, data)
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d.addBoth(self._should_fail)
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return d
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class PeerSelection(unittest.TestCase):
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def make_client(self, num_servers=50):
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self.node = FakeClient(mode="good", num_servers=num_servers)
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self.u = upload.Uploader()
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self.u.running = True
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self.u.parent = self.node
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def get_data(self, size):
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return DATA[:size]
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def _check_large(self, newuri, size):
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u = IFileURI(newuri)
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self.failUnless(isinstance(u, uri.CHKFileURI))
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self.failUnless(isinstance(u.storage_index, str))
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self.failUnlessEqual(len(u.storage_index), 16)
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self.failUnless(isinstance(u.key, str))
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self.failUnlessEqual(len(u.key), 16)
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self.failUnlessEqual(u.size, size)
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def set_encoding_parameters(self, k, happy, n, max_segsize=1*MiB):
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p = {"k": k,
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"happy": happy,
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"n": n,
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"max_segment_size": max_segsize,
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}
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self.node.DEFAULT_ENCODING_PARAMETERS = p
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def test_one_each(self):
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# if we have 50 shares, and there are 50 peers, and they all accept a
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# share, we should get exactly one share per peer
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self.make_client()
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data = self.get_data(SIZE_LARGE)
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self.set_encoding_parameters(25, 30, 50)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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def _check(res):
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for p in self.node.last_peers:
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allocated = p.allocated
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self.failUnlessEqual(len(allocated), 1)
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self.failUnlessEqual(p.queries, 1)
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d.addCallback(_check)
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return d
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def test_two_each(self):
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# if we have 100 shares, and there are 50 peers, and they all accept
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# all shares, we should get exactly two shares per peer
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self.make_client()
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data = self.get_data(SIZE_LARGE)
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self.set_encoding_parameters(50, 75, 100)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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def _check(res):
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for p in self.node.last_peers:
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allocated = p.allocated
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self.failUnlessEqual(len(allocated), 2)
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self.failUnlessEqual(p.queries, 2)
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d.addCallback(_check)
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return d
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def test_one_each_plus_one_extra(self):
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# if we have 51 shares, and there are 50 peers, then one peer gets
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# two shares and the rest get just one
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self.make_client()
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data = self.get_data(SIZE_LARGE)
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self.set_encoding_parameters(24, 41, 51)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
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d.addCallback(self._check_large, SIZE_LARGE)
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def _check(res):
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got_one = []
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got_two = []
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for p in self.node.last_peers:
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allocated = p.allocated
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self.failUnless(len(allocated) in (1,2), len(allocated))
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if len(allocated) == 1:
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self.failUnlessEqual(p.queries, 1)
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got_one.append(p)
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else:
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self.failUnlessEqual(p.queries, 2)
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got_two.append(p)
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self.failUnlessEqual(len(got_one), 49)
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self.failUnlessEqual(len(got_two), 1)
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d.addCallback(_check)
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return d
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def test_four_each(self):
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# if we have 200 shares, and there are 50 peers, then each peer gets
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# 4 shares. The design goal is to accomplish this with only two
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# queries per peer.
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self.make_client()
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data = self.get_data(SIZE_LARGE)
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self.set_encoding_parameters(100, 150, 200)
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d = upload_data(self.u, data)
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d.addCallback(extract_uri)
|
|
d.addCallback(self._check_large, SIZE_LARGE)
|
|
def _check(res):
|
|
for p in self.node.last_peers:
|
|
allocated = p.allocated
|
|
self.failUnlessEqual(len(allocated), 4)
|
|
self.failUnlessEqual(p.queries, 2)
|
|
d.addCallback(_check)
|
|
return d
|
|
|
|
def test_three_of_ten(self):
|
|
# if we have 10 shares and 3 servers, I want to see 3+3+4 rather than
|
|
# 4+4+2
|
|
|
|
self.make_client(3)
|
|
data = self.get_data(SIZE_LARGE)
|
|
self.set_encoding_parameters(3, 5, 10)
|
|
d = upload_data(self.u, data)
|
|
d.addCallback(extract_uri)
|
|
d.addCallback(self._check_large, SIZE_LARGE)
|
|
def _check(res):
|
|
counts = {}
|
|
for p in self.node.last_peers:
|
|
allocated = p.allocated
|
|
counts[len(allocated)] = counts.get(len(allocated), 0) + 1
|
|
histogram = [counts.get(i, 0) for i in range(5)]
|
|
self.failUnlessEqual(histogram, [0,0,0,2,1])
|
|
d.addCallback(_check)
|
|
return d
|
|
|
|
def test_some_big_some_small(self):
|
|
# 10 shares, 20 servers, but half the servers don't support a
|
|
# share-size large enough for our file
|
|
self.node = FakeClient(mode="some_big_some_small", num_servers=20)
|
|
self.u = upload.Uploader()
|
|
self.u.running = True
|
|
self.u.parent = self.node
|
|
|
|
data = self.get_data(SIZE_LARGE)
|
|
self.set_encoding_parameters(3, 5, 10)
|
|
d = upload_data(self.u, data)
|
|
d.addCallback(extract_uri)
|
|
d.addCallback(self._check_large, SIZE_LARGE)
|
|
def _check(res):
|
|
# we should have put one share each on the big peers, and zero
|
|
# shares on the small peers
|
|
total_allocated = 0
|
|
for p in self.node.last_peers:
|
|
if p.mode == "good":
|
|
self.failUnlessEqual(len(p.allocated), 1)
|
|
elif p.mode == "small":
|
|
self.failUnlessEqual(len(p.allocated), 0)
|
|
total_allocated += len(p.allocated)
|
|
self.failUnlessEqual(total_allocated, 10)
|
|
d.addCallback(_check)
|
|
return d
|
|
|
|
|
|
class StorageIndex(unittest.TestCase):
|
|
def test_params_must_matter(self):
|
|
DATA = "I am some data"
|
|
u = upload.Data(DATA, convergence="")
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d1 = eu.get_storage_index()
|
|
|
|
# CHK means the same data should encrypt the same way
|
|
u = upload.Data(DATA, convergence="")
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d1a = eu.get_storage_index()
|
|
|
|
# but if we use a different convergence string it should be different
|
|
u = upload.Data(DATA, convergence="wheee!")
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d1salt1 = eu.get_storage_index()
|
|
|
|
# and if we add yet a different convergence it should be different again
|
|
u = upload.Data(DATA, convergence="NOT wheee!")
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d1salt2 = eu.get_storage_index()
|
|
|
|
# and if we use the first string again it should be the same as last time
|
|
u = upload.Data(DATA, convergence="wheee!")
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d1salt1a = eu.get_storage_index()
|
|
|
|
# and if we change the encoding parameters, it should be different (from the same convergence string with different encoding parameters)
|
|
u = upload.Data(DATA, convergence="")
|
|
u.encoding_param_k = u.default_encoding_param_k + 1
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d2 = eu.get_storage_index()
|
|
|
|
# and if we use a random key, it should be different than the CHK
|
|
u = upload.Data(DATA, convergence=None)
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d3 = eu.get_storage_index()
|
|
# and different from another instance
|
|
u = upload.Data(DATA, convergence=None)
|
|
eu = upload.EncryptAnUploadable(u)
|
|
d4 = eu.get_storage_index()
|
|
|
|
d = DeferredListShouldSucceed([d1,d1a,d1salt1,d1salt2,d1salt1a,d2,d3,d4])
|
|
def _done(res):
|
|
si1, si1a, si1salt1, si1salt2, si1salt1a, si2, si3, si4 = res
|
|
self.failUnlessEqual(si1, si1a)
|
|
self.failIfEqual(si1, si2)
|
|
self.failIfEqual(si1, si3)
|
|
self.failIfEqual(si1, si4)
|
|
self.failIfEqual(si3, si4)
|
|
self.failIfEqual(si1salt1, si1)
|
|
self.failIfEqual(si1salt1, si1salt2)
|
|
self.failIfEqual(si1salt2, si1)
|
|
self.failUnlessEqual(si1salt1, si1salt1a)
|
|
d.addCallback(_done)
|
|
return d
|
|
|
|
class EncodingParameters(GridTestMixin, unittest.TestCase):
|
|
def test_configure_parameters(self):
|
|
self.basedir = self.mktemp()
|
|
hooks = {0: self._set_up_nodes_extra_config}
|
|
self.set_up_grid(client_config_hooks=hooks)
|
|
c0 = self.g.clients[0]
|
|
|
|
DATA = "data" * 100
|
|
u = upload.Data(DATA, convergence="")
|
|
d = c0.upload(u)
|
|
d.addCallback(lambda ur: c0.create_node_from_uri(ur.uri))
|
|
m = monitor.Monitor()
|
|
d.addCallback(lambda fn: fn.check(m))
|
|
def _check(cr):
|
|
data = cr.get_data()
|
|
self.failUnlessEqual(data["count-shares-needed"], 7)
|
|
self.failUnlessEqual(data["count-shares-expected"], 12)
|
|
d.addCallback(_check)
|
|
return d
|
|
|
|
def _set_up_nodes_extra_config(self, clientdir):
|
|
cfgfn = os.path.join(clientdir, "tahoe.cfg")
|
|
oldcfg = open(cfgfn, "r").read()
|
|
f = open(cfgfn, "wt")
|
|
f.write(oldcfg)
|
|
f.write("\n")
|
|
f.write("[client]\n")
|
|
f.write("shares.needed = 7\n")
|
|
f.write("shares.total = 12\n")
|
|
f.write("\n")
|
|
f.close()
|
|
return None
|
|
|
|
# TODO:
|
|
# upload with exactly 75 peers (shares_of_happiness)
|
|
# have a download fail
|
|
# cancel a download (need to implement more cancel stuff)
|