-import os, struct
+import os, re, base64
from cStringIO import StringIO
from twisted.trial import unittest
from twisted.internet import defer, reactor
-from twisted.python import failure
-from allmydata import uri, storage
-from allmydata.immutable import download
-from allmydata.immutable.encode import NotEnoughSharesError
-from allmydata.util import base32, testutil, idlib
-from allmydata.util.idlib import shortnodeid_b2a
-from allmydata.util.hashutil import tagged_hash
-from allmydata.util.fileutil import make_dirs
-from allmydata.interfaces import IURI, IMutableFileURI, IUploadable, \
- FileTooLargeError
-from foolscap.eventual import eventually, fireEventually
+from twisted.internet.interfaces import IConsumer
+from zope.interface import implements
+from allmydata import uri, client
+from allmydata.nodemaker import NodeMaker
+from allmydata.util import base32, consumer, fileutil, mathutil
+from allmydata.util.hashutil import tagged_hash, ssk_writekey_hash, \
+ ssk_pubkey_fingerprint_hash
+from allmydata.util.deferredutil import gatherResults
+from allmydata.interfaces import IRepairResults, ICheckAndRepairResults, \
+ NotEnoughSharesError, SDMF_VERSION, MDMF_VERSION
+from allmydata.monitor import Monitor
+from allmydata.test.common import ShouldFailMixin
+from allmydata.test.no_network import GridTestMixin
+from foolscap.api import eventually, fireEventually
from foolscap.logging import log
-import sha
+from allmydata.storage_client import StorageFarmBroker
+from allmydata.storage.common import storage_index_to_dir
+from allmydata.scripts import debug
-from allmydata.mutable.node import MutableFileNode, BackoffAgent
-from allmydata.mutable.common import DictOfSets, ResponseCache, \
+from allmydata.mutable.filenode import MutableFileNode, BackoffAgent
+from allmydata.mutable.common import ResponseCache, \
MODE_CHECK, MODE_ANYTHING, MODE_WRITE, MODE_READ, \
NeedMoreDataError, UnrecoverableFileError, UncoordinatedWriteError, \
NotEnoughServersError, CorruptShareError
from allmydata.mutable.retrieve import Retrieve
-from allmydata.mutable.publish import Publish
+from allmydata.mutable.publish import Publish, MutableFileHandle, \
+ MutableData, \
+ DEFAULT_MAX_SEGMENT_SIZE
from allmydata.mutable.servermap import ServerMap, ServermapUpdater
-from allmydata.mutable.layout import unpack_header, unpack_share
+from allmydata.mutable.layout import unpack_header, MDMFSlotReadProxy
+from allmydata.mutable.repairer import MustForceRepairError
-# this "FastMutableFileNode" exists solely to speed up tests by using smaller
-# public/private keys. Once we switch to fast DSA-based keys, we can get rid
-# of this.
+import allmydata.test.common_util as testutil
+from allmydata.test.common import TEST_RSA_KEY_SIZE
-class FastMutableFileNode(MutableFileNode):
- SIGNATURE_KEY_SIZE = 522
# this "FakeStorage" exists to put the share data in RAM and avoid using real
# network connections, both to speed up the tests and to reduce the amount of
self._sequence = None
self._pending = {}
self._pending_timer = None
- self._special_answers = {}
def read(self, peerid, storage_index):
shares = self._peers.get(peerid, {})
- if self._special_answers.get(peerid, []):
- mode = self._special_answers[peerid].pop(0)
- if mode == "fail":
- shares = failure.Failure(IntentionalError())
- elif mode == "none":
- shares = {}
- elif mode == "normal":
- pass
if self._sequence is None:
return defer.succeed(shares)
d = defer.Deferred()
self._pending_timer = None
pending = self._pending
self._pending = {}
- extra = []
for peerid in self._sequence:
if peerid in pending:
d, shares = pending.pop(peerid)
self.storage = storage
self.queries = 0
def callRemote(self, methname, *args, **kwargs):
+ self.queries += 1
def _call():
meth = getattr(self, methname)
return meth(*args, **kwargs)
d.addCallback(lambda res: _call())
return d
+ def callRemoteOnly(self, methname, *args, **kwargs):
+ self.queries += 1
+ d = self.callRemote(methname, *args, **kwargs)
+ d.addBoth(lambda ignore: None)
+ pass
+
+ def advise_corrupt_share(self, share_type, storage_index, shnum, reason):
+ pass
+
def slot_readv(self, storage_index, shnums, readv):
d = self.storage.read(self.peerid, storage_index)
def _read(shares):
return fireEventually(answer)
-# our "FakeClient" has just enough functionality of the real Client to let
-# the tests run.
-
-class FakeClient:
- mutable_file_node_class = FastMutableFileNode
-
- def __init__(self, num_peers=10):
- self._storage = FakeStorage()
- self._num_peers = num_peers
- self._peerids = [tagged_hash("peerid", "%d" % i)[:20]
- for i in range(self._num_peers)]
- self._connections = dict([(peerid, FakeStorageServer(peerid,
- self._storage))
- for peerid in self._peerids])
- self.nodeid = "fakenodeid"
-
- def log(self, msg, **kw):
- return log.msg(msg, **kw)
-
- def get_renewal_secret(self):
- return "I hereby permit you to renew my files"
- def get_cancel_secret(self):
- return "I hereby permit you to cancel my leases"
-
- def create_mutable_file(self, contents=""):
- n = self.mutable_file_node_class(self)
- d = n.create(contents)
- d.addCallback(lambda res: n)
- return d
-
- def notify_retrieve(self, r):
- pass
- def notify_publish(self, p, size):
- pass
- def notify_mapupdate(self, u):
- pass
-
- def create_node_from_uri(self, u):
- u = IURI(u)
- assert IMutableFileURI.providedBy(u), u
- res = self.mutable_file_node_class(self).init_from_uri(u)
- return res
-
- def get_permuted_peers(self, service_name, key):
- """
- @return: list of (peerid, connection,)
- """
- results = []
- for (peerid, connection) in self._connections.items():
- assert isinstance(peerid, str)
- permuted = sha.new(key + peerid).digest()
- results.append((permuted, peerid, connection))
- results.sort()
- results = [ (r[1],r[2]) for r in results]
- return results
-
- def upload(self, uploadable):
- assert IUploadable.providedBy(uploadable)
- d = uploadable.get_size()
- d.addCallback(lambda length: uploadable.read(length))
- #d.addCallback(self.create_mutable_file)
- def _got_data(datav):
- data = "".join(datav)
- #newnode = FastMutableFileNode(self)
- return uri.LiteralFileURI(data)
- d.addCallback(_got_data)
- return d
-
-
def flip_bit(original, byte_offset):
return (original[:byte_offset] +
chr(ord(original[byte_offset]) ^ 0x01) +
original[byte_offset+1:])
+def add_two(original, byte_offset):
+ # It isn't enough to simply flip the bit for the version number,
+ # because 1 is a valid version number. So we add two instead.
+ return (original[:byte_offset] +
+ chr(ord(original[byte_offset]) ^ 0x02) +
+ original[byte_offset+1:])
+
def corrupt(res, s, offset, shnums_to_corrupt=None, offset_offset=0):
# if shnums_to_corrupt is None, corrupt all shares. Otherwise it is a
# list of shnums to corrupt.
+ ds = []
for peerid in s._peers:
shares = s._peers[peerid]
for shnum in shares:
and shnum not in shnums_to_corrupt):
continue
data = shares[shnum]
- (version,
- seqnum,
- root_hash,
- IV,
- k, N, segsize, datalen,
- o) = unpack_header(data)
- if isinstance(offset, tuple):
- offset1, offset2 = offset
- else:
- offset1 = offset
- offset2 = 0
- if offset1 == "pubkey":
- real_offset = 107
- elif offset1 in o:
- real_offset = o[offset1]
- else:
- real_offset = offset1
- real_offset = int(real_offset) + offset2 + offset_offset
- assert isinstance(real_offset, int), offset
- shares[shnum] = flip_bit(data, real_offset)
- return res
+ # We're feeding the reader all of the share data, so it
+ # won't need to use the rref that we didn't provide, nor the
+ # storage index that we didn't provide. We do this because
+ # the reader will work for both MDMF and SDMF.
+ reader = MDMFSlotReadProxy(None, None, shnum, data)
+ # We need to get the offsets for the next part.
+ d = reader.get_verinfo()
+ def _do_corruption(verinfo, data, shnum):
+ (seqnum,
+ root_hash,
+ IV,
+ segsize,
+ datalen,
+ k, n, prefix, o) = verinfo
+ if isinstance(offset, tuple):
+ offset1, offset2 = offset
+ else:
+ offset1 = offset
+ offset2 = 0
+ if offset1 == "pubkey" and IV:
+ real_offset = 107
+ elif offset1 in o:
+ real_offset = o[offset1]
+ else:
+ real_offset = offset1
+ real_offset = int(real_offset) + offset2 + offset_offset
+ assert isinstance(real_offset, int), offset
+ if offset1 == 0: # verbyte
+ f = add_two
+ else:
+ f = flip_bit
+ shares[shnum] = f(data, real_offset)
+ d.addCallback(_do_corruption, data, shnum)
+ ds.append(d)
+ dl = defer.DeferredList(ds)
+ dl.addCallback(lambda ignored: res)
+ return dl
+
+def make_storagebroker(s=None, num_peers=10):
+ if not s:
+ s = FakeStorage()
+ peerids = [tagged_hash("peerid", "%d" % i)[:20]
+ for i in range(num_peers)]
+ storage_broker = StorageFarmBroker(None, True)
+ for peerid in peerids:
+ fss = FakeStorageServer(peerid, s)
+ storage_broker.test_add_rref(peerid, fss)
+ return storage_broker
+
+def make_nodemaker(s=None, num_peers=10):
+ storage_broker = make_storagebroker(s, num_peers)
+ sh = client.SecretHolder("lease secret", "convergence secret")
+ keygen = client.KeyGenerator()
+ keygen.set_default_keysize(TEST_RSA_KEY_SIZE)
+ nodemaker = NodeMaker(storage_broker, sh, None,
+ None, None,
+ {"k": 3, "n": 10}, keygen)
+ return nodemaker
class Filenode(unittest.TestCase, testutil.ShouldFailMixin):
+ # this used to be in Publish, but we removed the limit. Some of
+ # these tests test whether the new code correctly allows files
+ # larger than the limit.
+ OLD_MAX_SEGMENT_SIZE = 3500000
def setUp(self):
- self.client = FakeClient()
+ self._storage = s = FakeStorage()
+ self.nodemaker = make_nodemaker(s)
def test_create(self):
- d = self.client.create_mutable_file()
+ d = self.nodemaker.create_mutable_file()
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ self.failUnlessEqual(n.get_storage_index(), n._storage_index)
+ sb = self.nodemaker.storage_broker
+ peer0 = sorted(sb.get_all_serverids())[0]
+ shnums = self._storage._peers[peer0].keys()
+ self.failUnlessEqual(len(shnums), 1)
+ d.addCallback(_created)
+ return d
+
+
+ def test_create_mdmf(self):
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
def _created(n):
- self.failUnless(isinstance(n, FastMutableFileNode))
- peer0 = self.client._peerids[0]
- shnums = self.client._storage._peers[peer0].keys()
+ self.failUnless(isinstance(n, MutableFileNode))
+ self.failUnlessEqual(n.get_storage_index(), n._storage_index)
+ sb = self.nodemaker.storage_broker
+ peer0 = sorted(sb.get_all_serverids())[0]
+ shnums = self._storage._peers[peer0].keys()
self.failUnlessEqual(len(shnums), 1)
d.addCallback(_created)
return d
+ def test_single_share(self):
+ # Make sure that we tolerate publishing a single share.
+ self.nodemaker.default_encoding_parameters['k'] = 1
+ self.nodemaker.default_encoding_parameters['happy'] = 1
+ self.nodemaker.default_encoding_parameters['n'] = 1
+ d = defer.succeed(None)
+ for v in (SDMF_VERSION, MDMF_VERSION):
+ d.addCallback(lambda ignored:
+ self.nodemaker.create_mutable_file(version=v))
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ self._node = n
+ return n
+ d.addCallback(_created)
+ d.addCallback(lambda n:
+ n.overwrite(MutableData("Contents" * 50000)))
+ d.addCallback(lambda ignored:
+ self._node.download_best_version())
+ d.addCallback(lambda contents:
+ self.failUnlessEqual(contents, "Contents" * 50000))
+ return d
+
+ def test_max_shares(self):
+ self.nodemaker.default_encoding_parameters['n'] = 255
+ d = self.nodemaker.create_mutable_file(version=SDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ self.failUnlessEqual(n.get_storage_index(), n._storage_index)
+ sb = self.nodemaker.storage_broker
+ num_shares = sum([len(self._storage._peers[x].keys()) for x \
+ in sb.get_all_serverids()])
+ self.failUnlessEqual(num_shares, 255)
+ self._node = n
+ return n
+ d.addCallback(_created)
+ # Now we upload some contents
+ d.addCallback(lambda n:
+ n.overwrite(MutableData("contents" * 50000)))
+ # ...then download contents
+ d.addCallback(lambda ignored:
+ self._node.download_best_version())
+ # ...and check to make sure everything went okay.
+ d.addCallback(lambda contents:
+ self.failUnlessEqual("contents" * 50000, contents))
+ return d
+
+ def test_max_shares_mdmf(self):
+ # Test how files behave when there are 255 shares.
+ self.nodemaker.default_encoding_parameters['n'] = 255
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ self.failUnlessEqual(n.get_storage_index(), n._storage_index)
+ sb = self.nodemaker.storage_broker
+ num_shares = sum([len(self._storage._peers[x].keys()) for x \
+ in sb.get_all_serverids()])
+ self.failUnlessEqual(num_shares, 255)
+ self._node = n
+ return n
+ d.addCallback(_created)
+ d.addCallback(lambda n:
+ n.overwrite(MutableData("contents" * 50000)))
+ d.addCallback(lambda ignored:
+ self._node.download_best_version())
+ d.addCallback(lambda contents:
+ self.failUnlessEqual(contents, "contents" * 50000))
+ return d
+
+ def test_mdmf_filenode_cap(self):
+ # Test that an MDMF filenode, once created, returns an MDMF URI.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ cap = n.get_cap()
+ self.failUnless(isinstance(cap, uri.WriteableMDMFFileURI))
+ rcap = n.get_readcap()
+ self.failUnless(isinstance(rcap, uri.ReadonlyMDMFFileURI))
+ vcap = n.get_verify_cap()
+ self.failUnless(isinstance(vcap, uri.MDMFVerifierURI))
+ d.addCallback(_created)
+ return d
+
+
+ def test_create_from_mdmf_writecap(self):
+ # Test that the nodemaker is capable of creating an MDMF
+ # filenode given an MDMF cap.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ s = n.get_uri()
+ self.failUnless(s.startswith("URI:MDMF"))
+ n2 = self.nodemaker.create_from_cap(s)
+ self.failUnless(isinstance(n2, MutableFileNode))
+ self.failUnlessEqual(n.get_storage_index(), n2.get_storage_index())
+ self.failUnlessEqual(n.get_uri(), n2.get_uri())
+ d.addCallback(_created)
+ return d
+
+
+ def test_create_from_mdmf_writecap_with_extensions(self):
+ # Test that the nodemaker is capable of creating an MDMF
+ # filenode when given a writecap with extension parameters in
+ # them.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ s = n.get_uri()
+ # We need to cheat a little and delete the nodemaker's
+ # cache, otherwise we'll get the same node instance back.
+ self.failUnlessIn(":3:131073", s)
+ n2 = self.nodemaker.create_from_cap(s)
+
+ self.failUnlessEqual(n2.get_storage_index(), n.get_storage_index())
+ self.failUnlessEqual(n.get_writekey(), n2.get_writekey())
+ hints = n2._downloader_hints
+ self.failUnlessEqual(hints['k'], 3)
+ self.failUnlessEqual(hints['segsize'], 131073)
+ d.addCallback(_created)
+ return d
+
+
+ def test_create_from_mdmf_readcap(self):
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ s = n.get_readonly_uri()
+ n2 = self.nodemaker.create_from_cap(s)
+ self.failUnless(isinstance(n2, MutableFileNode))
+
+ # Check that it's a readonly node
+ self.failUnless(n2.is_readonly())
+ d.addCallback(_created)
+ return d
+
+
+ def test_create_from_mdmf_readcap_with_extensions(self):
+ # We should be able to create an MDMF filenode with the
+ # extension parameters without it breaking.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ s = n.get_readonly_uri()
+ self.failUnlessIn(":3:131073", s)
+
+ n2 = self.nodemaker.create_from_cap(s)
+ self.failUnless(isinstance(n2, MutableFileNode))
+ self.failUnless(n2.is_readonly())
+ self.failUnlessEqual(n.get_storage_index(), n2.get_storage_index())
+ hints = n2._downloader_hints
+ self.failUnlessEqual(hints["k"], 3)
+ self.failUnlessEqual(hints["segsize"], 131073)
+ d.addCallback(_created)
+ return d
+
+
+ def test_internal_version_from_cap(self):
+ # MutableFileNodes and MutableFileVersions have an internal
+ # switch that tells them whether they're dealing with an SDMF or
+ # MDMF mutable file when they start doing stuff. We want to make
+ # sure that this is set appropriately given an MDMF cap.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ self.uri = n.get_uri()
+ self.failUnlessEqual(n._protocol_version, MDMF_VERSION)
+
+ n2 = self.nodemaker.create_from_cap(self.uri)
+ self.failUnlessEqual(n2._protocol_version, MDMF_VERSION)
+ d.addCallback(_created)
+ return d
+
+
def test_serialize(self):
- n = MutableFileNode(self.client)
+ n = MutableFileNode(None, None, {"k": 3, "n": 10}, None)
calls = []
def _callback(*args, **kwargs):
self.failUnlessEqual(args, (4,) )
return d
def test_upload_and_download(self):
- d = self.client.create_mutable_file()
+ d = self.nodemaker.create_mutable_file()
def _created(n):
d = defer.succeed(None)
d.addCallback(lambda res: n.get_servermap(MODE_READ))
d.addCallback(lambda smap: smap.dump(StringIO()))
d.addCallback(lambda sio:
self.failUnless("3-of-10" in sio.getvalue()))
- d.addCallback(lambda res: n.overwrite("contents 1"))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 1")))
d.addCallback(lambda res: self.failUnlessIdentical(res, None))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
- d.addCallback(lambda res: n.overwrite("contents 2"))
+ d.addCallback(lambda res: n.get_size_of_best_version())
+ d.addCallback(lambda size:
+ self.failUnlessEqual(size, len("contents 1")))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
- d.addCallback(lambda res: n.download(download.Data()))
- d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
d.addCallback(lambda res: n.get_servermap(MODE_WRITE))
- d.addCallback(lambda smap: n.upload("contents 3", smap))
+ d.addCallback(lambda smap: n.upload(MutableData("contents 3"), smap))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 3"))
d.addCallback(lambda res: n.get_servermap(MODE_ANYTHING))
# mapupdate-to-retrieve data caching (i.e. make the shares larger
# than the default readsize, which is 2000 bytes). A 15kB file
# will have 5kB shares.
- d.addCallback(lambda res: n.overwrite("large size file" * 1000))
+ d.addCallback(lambda res: n.overwrite(MutableData("large size file" * 1000)))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res:
self.failUnlessEqual(res, "large size file" * 1000))
d.addCallback(_created)
return d
+
+ def test_upload_and_download_mdmf(self):
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(n):
+ d = defer.succeed(None)
+ d.addCallback(lambda ignored:
+ n.get_servermap(MODE_READ))
+ def _then(servermap):
+ dumped = servermap.dump(StringIO())
+ self.failUnlessIn("3-of-10", dumped.getvalue())
+ d.addCallback(_then)
+ # Now overwrite the contents with some new contents. We want
+ # to make them big enough to force the file to be uploaded
+ # in more than one segment.
+ big_contents = "contents1" * 100000 # about 900 KiB
+ big_contents_uploadable = MutableData(big_contents)
+ d.addCallback(lambda ignored:
+ n.overwrite(big_contents_uploadable))
+ d.addCallback(lambda ignored:
+ n.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, big_contents))
+ # Overwrite the contents again with some new contents. As
+ # before, they need to be big enough to force multiple
+ # segments, so that we make the downloader deal with
+ # multiple segments.
+ bigger_contents = "contents2" * 1000000 # about 9MiB
+ bigger_contents_uploadable = MutableData(bigger_contents)
+ d.addCallback(lambda ignored:
+ n.overwrite(bigger_contents_uploadable))
+ d.addCallback(lambda ignored:
+ n.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, bigger_contents))
+ return d
+ d.addCallback(_created)
+ return d
+
+
+ def test_retrieve_pause(self):
+ # We should make sure that the retriever is able to pause
+ # correctly.
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(node):
+ self.node = node
+
+ return node.overwrite(MutableData("contents1" * 100000))
+ d.addCallback(_created)
+ # Now we'll retrieve it into a pausing consumer.
+ d.addCallback(lambda ignored:
+ self.node.get_best_mutable_version())
+ def _got_version(version):
+ self.c = PausingConsumer()
+ return version.read(self.c)
+ d.addCallback(_got_version)
+ d.addCallback(lambda ignored:
+ self.failUnlessEqual(self.c.data, "contents1" * 100000))
+ return d
+
+
+ def test_download_from_mdmf_cap(self):
+ # We should be able to download an MDMF file given its cap
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION)
+ def _created(node):
+ self.uri = node.get_uri()
+
+ return node.overwrite(MutableData("contents1" * 100000))
+ def _then(ignored):
+ node = self.nodemaker.create_from_cap(self.uri)
+ return node.download_best_version()
+ def _downloaded(data):
+ self.failUnlessEqual(data, "contents1" * 100000)
+ d.addCallback(_created)
+ d.addCallback(_then)
+ d.addCallback(_downloaded)
+ return d
+
+
+ def test_create_and_download_from_bare_mdmf_cap(self):
+ # MDMF caps have extension parameters on them by default. We
+ # need to make sure that they work without extension parameters.
+ contents = MutableData("contents" * 100000)
+ d = self.nodemaker.create_mutable_file(version=MDMF_VERSION,
+ contents=contents)
+ def _created(node):
+ uri = node.get_uri()
+ self._created = node
+ self.failUnlessIn(":3:131073", uri)
+ # Now strip that off the end of the uri, then try creating
+ # and downloading the node again.
+ bare_uri = uri.replace(":3:131073", "")
+ assert ":3:131073" not in bare_uri
+
+ return self.nodemaker.create_from_cap(bare_uri)
+ d.addCallback(_created)
+ def _created_bare(node):
+ self.failUnlessEqual(node.get_writekey(),
+ self._created.get_writekey())
+ self.failUnlessEqual(node.get_readkey(),
+ self._created.get_readkey())
+ self.failUnlessEqual(node.get_storage_index(),
+ self._created.get_storage_index())
+ return node.download_best_version()
+ d.addCallback(_created_bare)
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, "contents" * 100000))
+ return d
+
+
+ def test_mdmf_write_count(self):
+ # Publishing an MDMF file should only cause one write for each
+ # share that is to be published. Otherwise, we introduce
+ # undesirable semantics that are a regression from SDMF
+ upload = MutableData("MDMF" * 100000) # about 400 KiB
+ d = self.nodemaker.create_mutable_file(upload,
+ version=MDMF_VERSION)
+ def _check_server_write_counts(ignored):
+ sb = self.nodemaker.storage_broker
+ for server in sb.servers.itervalues():
+ self.failUnlessEqual(server.get_rref().queries, 1)
+ d.addCallback(_check_server_write_counts)
+ return d
+
+
def test_create_with_initial_contents(self):
- d = self.client.create_mutable_file("contents 1")
+ upload1 = MutableData("contents 1")
+ d = self.nodemaker.create_mutable_file(upload1)
def _created(n):
d = n.download_best_version()
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
- d.addCallback(lambda res: n.overwrite("contents 2"))
+ upload2 = MutableData("contents 2")
+ d.addCallback(lambda res: n.overwrite(upload2))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
return d
d.addCallback(_created)
return d
+
+ def test_create_mdmf_with_initial_contents(self):
+ initial_contents = "foobarbaz" * 131072 # 900KiB
+ initial_contents_uploadable = MutableData(initial_contents)
+ d = self.nodemaker.create_mutable_file(initial_contents_uploadable,
+ version=MDMF_VERSION)
+ def _created(n):
+ d = n.download_best_version()
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, initial_contents))
+ uploadable2 = MutableData(initial_contents + "foobarbaz")
+ d.addCallback(lambda ignored:
+ n.overwrite(uploadable2))
+ d.addCallback(lambda ignored:
+ n.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, initial_contents +
+ "foobarbaz"))
+ return d
+ d.addCallback(_created)
+ return d
+
+
+ def test_response_cache_memory_leak(self):
+ d = self.nodemaker.create_mutable_file("contents")
+ def _created(n):
+ d = n.download_best_version()
+ d.addCallback(lambda res: self.failUnlessEqual(res, "contents"))
+ d.addCallback(lambda ign: self.failUnless(isinstance(n._cache, ResponseCache)))
+
+ def _check_cache(expected):
+ # The total size of cache entries should not increase on the second download;
+ # in fact the cache contents should be identical.
+ d2 = n.download_best_version()
+ d2.addCallback(lambda rep: self.failUnlessEqual(repr(n._cache.cache), expected))
+ return d2
+ d.addCallback(lambda ign: _check_cache(repr(n._cache.cache)))
+ return d
+ d.addCallback(_created)
+ return d
+
+ def test_create_with_initial_contents_function(self):
+ data = "initial contents"
+ def _make_contents(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ key = n.get_writekey()
+ self.failUnless(isinstance(key, str), key)
+ self.failUnlessEqual(len(key), 16) # AES key size
+ return MutableData(data)
+ d = self.nodemaker.create_mutable_file(_make_contents)
+ def _created(n):
+ return n.download_best_version()
+ d.addCallback(_created)
+ d.addCallback(lambda data2: self.failUnlessEqual(data2, data))
+ return d
+
+
+ def test_create_mdmf_with_initial_contents_function(self):
+ data = "initial contents" * 100000
+ def _make_contents(n):
+ self.failUnless(isinstance(n, MutableFileNode))
+ key = n.get_writekey()
+ self.failUnless(isinstance(key, str), key)
+ self.failUnlessEqual(len(key), 16)
+ return MutableData(data)
+ d = self.nodemaker.create_mutable_file(_make_contents,
+ version=MDMF_VERSION)
+ d.addCallback(lambda n:
+ n.download_best_version())
+ d.addCallback(lambda data2:
+ self.failUnlessEqual(data2, data))
+ return d
+
+
def test_create_with_too_large_contents(self):
- BIG = "a" * (Publish.MAX_SEGMENT_SIZE+1)
- d = self.shouldFail(FileTooLargeError, "too_large",
- "SDMF is limited to one segment, and %d > %d" %
- (len(BIG), Publish.MAX_SEGMENT_SIZE),
- self.client.create_mutable_file, BIG)
- d.addCallback(lambda res: self.client.create_mutable_file("small"))
+ BIG = "a" * (self.OLD_MAX_SEGMENT_SIZE + 1)
+ BIG_uploadable = MutableData(BIG)
+ d = self.nodemaker.create_mutable_file(BIG_uploadable)
def _created(n):
- return self.shouldFail(FileTooLargeError, "too_large_2",
- "SDMF is limited to one segment, and %d > %d" %
- (len(BIG), Publish.MAX_SEGMENT_SIZE),
- n.overwrite, BIG)
+ other_BIG_uploadable = MutableData(BIG)
+ d = n.overwrite(other_BIG_uploadable)
+ return d
d.addCallback(_created)
return d
- def failUnlessCurrentSeqnumIs(self, n, expected_seqnum):
+ def failUnlessCurrentSeqnumIs(self, n, expected_seqnum, which):
d = n.get_servermap(MODE_READ)
d.addCallback(lambda servermap: servermap.best_recoverable_version())
d.addCallback(lambda verinfo:
- self.failUnlessEqual(verinfo[0], expected_seqnum))
+ self.failUnlessEqual(verinfo[0], expected_seqnum, which))
return d
def test_modify(self):
- def _modifier(old_contents):
- return old_contents + "line2"
- def _non_modifier(old_contents):
+ def _modifier(old_contents, servermap, first_time):
+ new_contents = old_contents + "line2"
+ return new_contents
+ def _non_modifier(old_contents, servermap, first_time):
return old_contents
- def _none_modifier(old_contents):
+ def _none_modifier(old_contents, servermap, first_time):
return None
- def _error_modifier(old_contents):
+ def _error_modifier(old_contents, servermap, first_time):
raise ValueError("oops")
- def _toobig_modifier(old_contents):
- return "b" * (Publish.MAX_SEGMENT_SIZE+1)
+ def _toobig_modifier(old_contents, servermap, first_time):
+ new_content = "b" * (self.OLD_MAX_SEGMENT_SIZE + 1)
+ return new_content
calls = []
- def _ucw_error_modifier(old_contents):
+ def _ucw_error_modifier(old_contents, servermap, first_time):
# simulate an UncoordinatedWriteError once
calls.append(1)
if len(calls) <= 1:
raise UncoordinatedWriteError("simulated")
- return old_contents + "line3"
+ new_contents = old_contents + "line3"
+ return new_contents
+ def _ucw_error_non_modifier(old_contents, servermap, first_time):
+ # simulate an UncoordinatedWriteError once, and don't actually
+ # modify the contents on subsequent invocations
+ calls.append(1)
+ if len(calls) <= 1:
+ raise UncoordinatedWriteError("simulated")
+ return old_contents
- d = self.client.create_mutable_file("line1")
+ initial_contents = "line1"
+ d = self.nodemaker.create_mutable_file(MutableData(initial_contents))
def _created(n):
d = n.modify(_modifier)
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "m"))
d.addCallback(lambda res: n.modify(_non_modifier))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "non"))
d.addCallback(lambda res: n.modify(_none_modifier))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "none"))
d.addCallback(lambda res:
self.shouldFail(ValueError, "error_modifier", None,
n.modify, _error_modifier))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "err"))
+
- d.addCallback(lambda res:
- self.shouldFail(FileTooLargeError, "toobig_modifier",
- "SDMF is limited to one segment",
- n.modify, _toobig_modifier))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "big"))
d.addCallback(lambda res: n.modify(_ucw_error_modifier))
d.addCallback(lambda res: self.failUnlessEqual(len(calls), 2))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res,
"line1line2line3"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3, "ucw"))
+
+ def _reset_ucw_error_modifier(res):
+ calls[:] = []
+ return res
+ d.addCallback(_reset_ucw_error_modifier)
+ # in practice, this n.modify call should publish twice: the first
+ # one gets a UCWE, the second does not. But our test jig (in
+ # which the modifier raises the UCWE) skips over the first one,
+ # so in this test there will be only one publish, and the seqnum
+ # will only be one larger than the previous test, not two (i.e. 4
+ # instead of 5).
+ d.addCallback(lambda res: n.modify(_ucw_error_non_modifier))
+ d.addCallback(lambda res: self.failUnlessEqual(len(calls), 2))
+ d.addCallback(lambda res: n.download_best_version())
+ d.addCallback(lambda res: self.failUnlessEqual(res,
+ "line1line2line3"))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 4, "ucw"))
+ d.addCallback(lambda res: n.modify(_toobig_modifier))
return d
d.addCallback(_created)
return d
+
def test_modify_backoffer(self):
- def _modifier(old_contents):
+ def _modifier(old_contents, servermap, first_time):
return old_contents + "line2"
calls = []
- def _ucw_error_modifier(old_contents):
+ def _ucw_error_modifier(old_contents, servermap, first_time):
# simulate an UncoordinatedWriteError once
calls.append(1)
if len(calls) <= 1:
raise UncoordinatedWriteError("simulated")
return old_contents + "line3"
- def _always_ucw_error_modifier(old_contents):
+ def _always_ucw_error_modifier(old_contents, servermap, first_time):
raise UncoordinatedWriteError("simulated")
def _backoff_stopper(node, f):
return f
giveuper._delay = 0.1
giveuper.factor = 1
- d = self.client.create_mutable_file("line1")
+ d = self.nodemaker.create_mutable_file(MutableData("line1"))
def _created(n):
d = n.modify(_modifier)
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "m"))
d.addCallback(lambda res:
self.shouldFail(UncoordinatedWriteError,
_backoff_stopper))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "line1line2"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 2, "stop"))
def _reset_ucw_error_modifier(res):
calls[:] = []
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res,
"line1line2line3"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3, "pause"))
d.addCallback(lambda res:
self.shouldFail(UncoordinatedWriteError,
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res,
"line1line2line3"))
- d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3))
+ d.addCallback(lambda res: self.failUnlessCurrentSeqnumIs(n, 3, "giveup"))
return d
d.addCallback(_created)
return d
def test_upload_and_download_full_size_keys(self):
- self.client.mutable_file_node_class = MutableFileNode
- d = self.client.create_mutable_file()
+ self.nodemaker.key_generator = client.KeyGenerator()
+ d = self.nodemaker.create_mutable_file()
def _created(n):
d = defer.succeed(None)
d.addCallback(lambda res: n.get_servermap(MODE_READ))
d.addCallback(lambda smap: smap.dump(StringIO()))
d.addCallback(lambda sio:
self.failUnless("3-of-10" in sio.getvalue()))
- d.addCallback(lambda res: n.overwrite("contents 1"))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 1")))
d.addCallback(lambda res: self.failUnlessIdentical(res, None))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
- d.addCallback(lambda res: n.overwrite("contents 2"))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
- d.addCallback(lambda res: n.download(download.Data()))
- d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
d.addCallback(lambda res: n.get_servermap(MODE_WRITE))
- d.addCallback(lambda smap: n.upload("contents 3", smap))
+ d.addCallback(lambda smap: n.upload(MutableData("contents 3"), smap))
d.addCallback(lambda res: n.download_best_version())
d.addCallback(lambda res: self.failUnlessEqual(res, "contents 3"))
d.addCallback(lambda res: n.get_servermap(MODE_ANYTHING))
return d
-class MakeShares(unittest.TestCase):
- def test_encrypt(self):
- c = FakeClient()
- fn = FastMutableFileNode(c)
- CONTENTS = "some initial contents"
- d = fn.create(CONTENTS)
- def _created(res):
- p = Publish(fn, None)
- p.salt = "SALT" * 4
- p.readkey = "\x00" * 16
- p.newdata = CONTENTS
- p.required_shares = 3
- p.total_shares = 10
- p.setup_encoding_parameters()
- return p._encrypt_and_encode()
+ def test_size_after_servermap_update(self):
+ # a mutable file node should have something to say about how big
+ # it is after a servermap update is performed, since this tells
+ # us how large the best version of that mutable file is.
+ d = self.nodemaker.create_mutable_file()
+ def _created(n):
+ self.n = n
+ return n.get_servermap(MODE_READ)
d.addCallback(_created)
- def _done(shares_and_shareids):
- (shares, share_ids) = shares_and_shareids
- self.failUnlessEqual(len(shares), 10)
- for sh in shares:
- self.failUnless(isinstance(sh, str))
- self.failUnlessEqual(len(sh), 7)
- self.failUnlessEqual(len(share_ids), 10)
- d.addCallback(_done)
- return d
-
- def test_generate(self):
- c = FakeClient()
- fn = FastMutableFileNode(c)
- CONTENTS = "some initial contents"
- d = fn.create(CONTENTS)
- def _created(res):
- p = Publish(fn, None)
- self._p = p
- p.newdata = CONTENTS
- p.required_shares = 3
- p.total_shares = 10
- p.setup_encoding_parameters()
- p._new_seqnum = 3
- p.salt = "SALT" * 4
- # make some fake shares
- shares_and_ids = ( ["%07d" % i for i in range(10)], range(10) )
- p._privkey = fn.get_privkey()
- p._encprivkey = fn.get_encprivkey()
- p._pubkey = fn.get_pubkey()
- return p._generate_shares(shares_and_ids)
+ d.addCallback(lambda ignored:
+ self.failUnlessEqual(self.n.get_size(), 0))
+ d.addCallback(lambda ignored:
+ self.n.overwrite(MutableData("foobarbaz")))
+ d.addCallback(lambda ignored:
+ self.failUnlessEqual(self.n.get_size(), 9))
+ d.addCallback(lambda ignored:
+ self.nodemaker.create_mutable_file(MutableData("foobarbaz")))
d.addCallback(_created)
- def _generated(res):
- p = self._p
- final_shares = p.shares
- root_hash = p.root_hash
- self.failUnlessEqual(len(root_hash), 32)
- self.failUnless(isinstance(final_shares, dict))
- self.failUnlessEqual(len(final_shares), 10)
- self.failUnlessEqual(sorted(final_shares.keys()), range(10))
- for i,sh in final_shares.items():
- self.failUnless(isinstance(sh, str))
- # feed the share through the unpacker as a sanity-check
- pieces = unpack_share(sh)
- (u_seqnum, u_root_hash, IV, k, N, segsize, datalen,
- pubkey, signature, share_hash_chain, block_hash_tree,
- share_data, enc_privkey) = pieces
- self.failUnlessEqual(u_seqnum, 3)
- self.failUnlessEqual(u_root_hash, root_hash)
- self.failUnlessEqual(k, 3)
- self.failUnlessEqual(N, 10)
- self.failUnlessEqual(segsize, 21)
- self.failUnlessEqual(datalen, len(CONTENTS))
- self.failUnlessEqual(pubkey, p._pubkey.serialize())
- sig_material = struct.pack(">BQ32s16s BBQQ",
- 0, p._new_seqnum, root_hash, IV,
- k, N, segsize, datalen)
- self.failUnless(p._pubkey.verify(sig_material, signature))
- #self.failUnlessEqual(signature, p._privkey.sign(sig_material))
- self.failUnless(isinstance(share_hash_chain, dict))
- self.failUnlessEqual(len(share_hash_chain), 4) # ln2(10)++
- for shnum,share_hash in share_hash_chain.items():
- self.failUnless(isinstance(shnum, int))
- self.failUnless(isinstance(share_hash, str))
- self.failUnlessEqual(len(share_hash), 32)
- self.failUnless(isinstance(block_hash_tree, list))
- self.failUnlessEqual(len(block_hash_tree), 1) # very small tree
- self.failUnlessEqual(IV, "SALT"*4)
- self.failUnlessEqual(len(share_data), len("%07d" % 1))
- self.failUnlessEqual(enc_privkey, fn.get_encprivkey())
- d.addCallback(_generated)
- return d
-
- # TODO: when we publish to 20 peers, we should get one share per peer on 10
- # when we publish to 3 peers, we should get either 3 or 4 shares per peer
- # when we publish to zero peers, we should get a NotEnoughSharesError
-
-class Servermap(unittest.TestCase):
- def setUp(self):
+ d.addCallback(lambda ignored:
+ self.failUnlessEqual(self.n.get_size(), 9))
+ return d
+
+
+class PublishMixin:
+ def publish_one(self):
# publish a file and create shares, which can then be manipulated
# later.
- num_peers = 20
- self._client = FakeClient(num_peers)
- self._storage = self._client._storage
- d = self._client.create_mutable_file("New contents go here")
+ self.CONTENTS = "New contents go here" * 1000
+ self.uploadable = MutableData(self.CONTENTS)
+ self._storage = FakeStorage()
+ self._nodemaker = make_nodemaker(self._storage)
+ self._storage_broker = self._nodemaker.storage_broker
+ d = self._nodemaker.create_mutable_file(self.uploadable)
+ def _created(node):
+ self._fn = node
+ self._fn2 = self._nodemaker.create_from_cap(node.get_uri())
+ d.addCallback(_created)
+ return d
+
+ def publish_mdmf(self):
+ # like publish_one, except that the result is guaranteed to be
+ # an MDMF file.
+ # self.CONTENTS should have more than one segment.
+ self.CONTENTS = "This is an MDMF file" * 100000
+ self.uploadable = MutableData(self.CONTENTS)
+ self._storage = FakeStorage()
+ self._nodemaker = make_nodemaker(self._storage)
+ self._storage_broker = self._nodemaker.storage_broker
+ d = self._nodemaker.create_mutable_file(self.uploadable, version=MDMF_VERSION)
def _created(node):
self._fn = node
- self._fn2 = self._client.create_node_from_uri(node.get_uri())
+ self._fn2 = self._nodemaker.create_from_cap(node.get_uri())
d.addCallback(_created)
return d
- def make_servermap(self, mode=MODE_CHECK, fn=None):
+
+ def publish_sdmf(self):
+ # like publish_one, except that the result is guaranteed to be
+ # an SDMF file
+ self.CONTENTS = "This is an SDMF file" * 1000
+ self.uploadable = MutableData(self.CONTENTS)
+ self._storage = FakeStorage()
+ self._nodemaker = make_nodemaker(self._storage)
+ self._storage_broker = self._nodemaker.storage_broker
+ d = self._nodemaker.create_mutable_file(self.uploadable, version=SDMF_VERSION)
+ def _created(node):
+ self._fn = node
+ self._fn2 = self._nodemaker.create_from_cap(node.get_uri())
+ d.addCallback(_created)
+ return d
+
+
+ def publish_multiple(self, version=0):
+ self.CONTENTS = ["Contents 0",
+ "Contents 1",
+ "Contents 2",
+ "Contents 3a",
+ "Contents 3b"]
+ self.uploadables = [MutableData(d) for d in self.CONTENTS]
+ self._copied_shares = {}
+ self._storage = FakeStorage()
+ self._nodemaker = make_nodemaker(self._storage)
+ d = self._nodemaker.create_mutable_file(self.uploadables[0], version=version) # seqnum=1
+ def _created(node):
+ self._fn = node
+ # now create multiple versions of the same file, and accumulate
+ # their shares, so we can mix and match them later.
+ d = defer.succeed(None)
+ d.addCallback(self._copy_shares, 0)
+ d.addCallback(lambda res: node.overwrite(self.uploadables[1])) #s2
+ d.addCallback(self._copy_shares, 1)
+ d.addCallback(lambda res: node.overwrite(self.uploadables[2])) #s3
+ d.addCallback(self._copy_shares, 2)
+ d.addCallback(lambda res: node.overwrite(self.uploadables[3])) #s4a
+ d.addCallback(self._copy_shares, 3)
+ # now we replace all the shares with version s3, and upload a new
+ # version to get s4b.
+ rollback = dict([(i,2) for i in range(10)])
+ d.addCallback(lambda res: self._set_versions(rollback))
+ d.addCallback(lambda res: node.overwrite(self.uploadables[4])) #s4b
+ d.addCallback(self._copy_shares, 4)
+ # we leave the storage in state 4
+ return d
+ d.addCallback(_created)
+ return d
+
+
+ def _copy_shares(self, ignored, index):
+ shares = self._storage._peers
+ # we need a deep copy
+ new_shares = {}
+ for peerid in shares:
+ new_shares[peerid] = {}
+ for shnum in shares[peerid]:
+ new_shares[peerid][shnum] = shares[peerid][shnum]
+ self._copied_shares[index] = new_shares
+
+ def _set_versions(self, versionmap):
+ # versionmap maps shnums to which version (0,1,2,3,4) we want the
+ # share to be at. Any shnum which is left out of the map will stay at
+ # its current version.
+ shares = self._storage._peers
+ oldshares = self._copied_shares
+ for peerid in shares:
+ for shnum in shares[peerid]:
+ if shnum in versionmap:
+ index = versionmap[shnum]
+ shares[peerid][shnum] = oldshares[index][peerid][shnum]
+
+class PausingConsumer:
+ implements(IConsumer)
+ def __init__(self):
+ self.data = ""
+ self.already_paused = False
+
+ def registerProducer(self, producer, streaming):
+ self.producer = producer
+ self.producer.resumeProducing()
+
+ def unregisterProducer(self):
+ self.producer = None
+
+ def _unpause(self, ignored):
+ self.producer.resumeProducing()
+
+ def write(self, data):
+ self.data += data
+ if not self.already_paused:
+ self.producer.pauseProducing()
+ self.already_paused = True
+ reactor.callLater(15, self._unpause, None)
+
+
+class Servermap(unittest.TestCase, PublishMixin):
+ def setUp(self):
+ return self.publish_one()
+
+ def make_servermap(self, mode=MODE_CHECK, fn=None, sb=None,
+ update_range=None):
if fn is None:
fn = self._fn
- smu = ServermapUpdater(fn, ServerMap(), mode)
+ if sb is None:
+ sb = self._storage_broker
+ smu = ServermapUpdater(fn, sb, Monitor(),
+ ServerMap(), mode, update_range=update_range)
d = smu.update()
return d
def update_servermap(self, oldmap, mode=MODE_CHECK):
- smu = ServermapUpdater(self._fn, oldmap, mode)
+ smu = ServermapUpdater(self._fn, self._storage_broker, Monitor(),
+ oldmap, mode)
d = smu.update()
return d
d.addCallback(lambda res: ms(mode=MODE_WRITE))
d.addCallback(lambda sm: self.failUnlessOneRecoverable(sm, 10))
d.addCallback(lambda res: ms(mode=MODE_READ))
- # this more stops at k+epsilon, and epsilon=k, so 6 shares
+ # this mode stops at k+epsilon, and epsilon=k, so 6 shares
d.addCallback(lambda sm: self.failUnlessOneRecoverable(sm, 6))
d.addCallback(lambda res: ms(mode=MODE_ANYTHING))
# this mode stops at 'k' shares
# create a new file, which is large enough to knock the privkey out
# of the early part of the file
LARGE = "These are Larger contents" * 200 # about 5KB
- d.addCallback(lambda res: self._client.create_mutable_file(LARGE))
+ LARGE_uploadable = MutableData(LARGE)
+ d.addCallback(lambda res: self._nodemaker.create_mutable_file(LARGE_uploadable))
def _created(large_fn):
- large_fn2 = self._client.create_node_from_uri(large_fn.get_uri())
+ large_fn2 = self._nodemaker.create_from_cap(large_fn.get_uri())
return self.make_servermap(MODE_WRITE, large_fn2)
d.addCallback(_created)
d.addCallback(lambda sm: self.failUnlessOneRecoverable(sm, 10))
return d
+
def test_mark_bad(self):
d = defer.succeed(None)
ms = self.make_servermap
- us = self.update_servermap
d.addCallback(lambda res: ms(mode=MODE_READ))
d.addCallback(lambda sm: self.failUnlessOneRecoverable(sm, 6))
self.failUnlessEqual(len(sm.shares_available()), 0)
def test_no_shares(self):
- self._client._storage._peers = {} # delete all shares
+ self._storage._peers = {} # delete all shares
ms = self.make_servermap
d = defer.succeed(None)
-
+#
d.addCallback(lambda res: ms(mode=MODE_CHECK))
d.addCallback(lambda sm: self.failUnlessNoneRecoverable(sm))
return sm
def test_not_quite_enough_shares(self):
- s = self._client._storage
+ s = self._storage
ms = self.make_servermap
num_shares = len(s._peers)
for peerid in s._peers:
return d
+ def test_servermapupdater_finds_mdmf_files(self):
+ # setUp already published an MDMF file for us. We just need to
+ # make sure that when we run the ServermapUpdater, the file is
+ # reported to have one recoverable version.
+ d = defer.succeed(None)
+ d.addCallback(lambda ignored:
+ self.publish_mdmf())
+ d.addCallback(lambda ignored:
+ self.make_servermap(mode=MODE_CHECK))
+ # Calling make_servermap also updates the servermap in the mode
+ # that we specify, so we just need to see what it says.
+ def _check_servermap(sm):
+ self.failUnlessEqual(len(sm.recoverable_versions()), 1)
+ d.addCallback(_check_servermap)
+ return d
-class Roundtrip(unittest.TestCase, testutil.ShouldFailMixin):
- def setUp(self):
- # publish a file and create shares, which can then be manipulated
- # later.
- self.CONTENTS = "New contents go here" * 1000
- num_peers = 20
- self._client = FakeClient(num_peers)
- self._storage = self._client._storage
- d = self._client.create_mutable_file(self.CONTENTS)
- def _created(node):
- self._fn = node
- d.addCallback(_created)
+
+ def test_fetch_update(self):
+ d = defer.succeed(None)
+ d.addCallback(lambda ignored:
+ self.publish_mdmf())
+ d.addCallback(lambda ignored:
+ self.make_servermap(mode=MODE_WRITE, update_range=(1, 2)))
+ def _check_servermap(sm):
+ # 10 shares
+ self.failUnlessEqual(len(sm.update_data), 10)
+ # one version
+ for data in sm.update_data.itervalues():
+ self.failUnlessEqual(len(data), 1)
+ d.addCallback(_check_servermap)
return d
- def make_servermap(self, mode=MODE_READ, oldmap=None):
+
+ def test_servermapupdater_finds_sdmf_files(self):
+ d = defer.succeed(None)
+ d.addCallback(lambda ignored:
+ self.publish_sdmf())
+ d.addCallback(lambda ignored:
+ self.make_servermap(mode=MODE_CHECK))
+ d.addCallback(lambda servermap:
+ self.failUnlessEqual(len(servermap.recoverable_versions()), 1))
+ return d
+
+
+class Roundtrip(unittest.TestCase, testutil.ShouldFailMixin, PublishMixin):
+ def setUp(self):
+ return self.publish_one()
+
+ def make_servermap(self, mode=MODE_READ, oldmap=None, sb=None):
if oldmap is None:
oldmap = ServerMap()
- smu = ServermapUpdater(self._fn, oldmap, mode)
+ if sb is None:
+ sb = self._storage_broker
+ smu = ServermapUpdater(self._fn, sb, Monitor(), oldmap, mode)
d = smu.update()
return d
if version is None:
version = servermap.best_recoverable_version()
r = Retrieve(self._fn, servermap, version)
- return r.download()
+ c = consumer.MemoryConsumer()
+ d = r.download(consumer=c)
+ d.addCallback(lambda mc: "".join(mc.chunks))
+ return d
+
def test_basic(self):
d = self.make_servermap()
return d
def test_no_servers(self):
- c2 = FakeClient(0)
- self._fn._client = c2
+ sb2 = make_storagebroker(num_peers=0)
# if there are no servers, then a MODE_READ servermap should come
# back empty
- d = self.make_servermap()
+ d = self.make_servermap(sb=sb2)
def _check_servermap(servermap):
self.failUnlessEqual(servermap.best_recoverable_version(), None)
self.failIf(servermap.recoverable_versions())
self.failIf(servermap.all_peers())
d.addCallback(_check_servermap)
return d
- test_no_servers.timeout = 15
def test_no_servers_download(self):
- c2 = FakeClient(0)
- self._fn._client = c2
+ sb2 = make_storagebroker(num_peers=0)
+ self._fn._storage_broker = sb2
d = self.shouldFail(UnrecoverableFileError,
"test_no_servers_download",
"no recoverable versions",
# anybody should not prevent a subsequent download from working.
# This isn't quite the webapi-driven test that #463 wants, but it
# should be close enough.
- self._fn._client = self._client
+ self._fn._storage_broker = self._storage_broker
return self._fn.download_best_version()
def _retrieved(new_contents):
self.failUnlessEqual(new_contents, self.CONTENTS)
d.addCallback(_restore)
d.addCallback(_retrieved)
return d
- test_no_servers_download.timeout = 15
+
def _test_corrupt_all(self, offset, substring,
- should_succeed=False, corrupt_early=True,
- failure_checker=None):
+ should_succeed=False,
+ corrupt_early=True,
+ failure_checker=None,
+ fetch_privkey=False):
d = defer.succeed(None)
if corrupt_early:
d.addCallback(corrupt, self._storage, offset)
# should be noted in the servermap's list of problems.
if substring:
allproblems = [str(f) for f in servermap.problems]
- self.failUnless(substring in "".join(allproblems))
+ self.failUnlessIn(substring, "".join(allproblems))
return servermap
if should_succeed:
- d1 = self._fn.download_version(servermap, ver)
+ d1 = self._fn.download_version(servermap, ver,
+ fetch_privkey)
d1.addCallback(lambda new_contents:
self.failUnlessEqual(new_contents, self.CONTENTS))
else:
d1 = self.shouldFail(NotEnoughSharesError,
"_corrupt_all(offset=%s)" % (offset,),
substring,
- self._fn.download_version, servermap, ver)
+ self._fn.download_version, servermap,
+ ver,
+ fetch_privkey)
if failure_checker:
d1.addCallback(failure_checker)
d1.addCallback(lambda res: servermap)
return d
def test_corrupt_all_verbyte(self):
- # when the version byte is not 0, we hit an assertion error in
- # unpack_share().
- d = self._test_corrupt_all(0, "AssertionError")
+ # when the version byte is not 0 or 1, we hit an UnknownVersionError
+ # error in unpack_share().
+ d = self._test_corrupt_all(0, "UnknownVersionError")
def _check_servermap(servermap):
# and the dump should mention the problems
s = StringIO()
dump = servermap.dump(s).getvalue()
- self.failUnless("10 PROBLEMS" in dump, dump)
+ self.failUnless("30 PROBLEMS" in dump, dump)
d.addCallback(_check_servermap)
return d
return self._test_corrupt_all("enc_privkey", None, should_succeed=True)
+ def test_corrupt_all_encprivkey_late(self):
+ # this should work for the same reason as above, but we corrupt
+ # after the servermap update to exercise the error handling
+ # code.
+ # We need to remove the privkey from the node, or the retrieve
+ # process won't know to update it.
+ self._fn._privkey = None
+ return self._test_corrupt_all("enc_privkey",
+ None, # this shouldn't fail
+ should_succeed=True,
+ corrupt_early=False,
+ fetch_privkey=True)
+
+
def test_corrupt_all_seqnum_late(self):
# corrupting the seqnum between mapupdate and retrieve should result
# in NotEnoughSharesError, since each share will look invalid
def _check(res):
f = res[0]
self.failUnless(f.check(NotEnoughSharesError))
- self.failUnless("someone wrote to the data since we read the servermap" in str(f))
+ self.failUnless("uncoordinated write" in str(f))
return self._test_corrupt_all(1, "ran out of peers",
corrupt_early=False,
failure_checker=_check)
in str(servermap.problems[0]))
ver = servermap.best_recoverable_version()
r = Retrieve(self._fn, servermap, ver)
- return r.download()
+ c = consumer.MemoryConsumer()
+ return r.download(c)
d.addCallback(_do_retrieve)
+ d.addCallback(lambda mc: "".join(mc.chunks))
d.addCallback(lambda new_contents:
self.failUnlessEqual(new_contents, self.CONTENTS))
return d
- def test_corrupt_some(self):
- # corrupt the data of first five shares (so the servermap thinks
- # they're good but retrieve marks them as bad), so that the
- # MODE_READ set of 6 will be insufficient, forcing node.download to
- # retry with more servers.
- corrupt(None, self._storage, "share_data", range(5))
- d = self.make_servermap()
+
+ def _test_corrupt_some(self, offset, mdmf=False):
+ if mdmf:
+ d = self.publish_mdmf()
+ else:
+ d = defer.succeed(None)
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, offset, range(5)))
+ d.addCallback(lambda ignored:
+ self.make_servermap())
def _do_retrieve(servermap):
ver = servermap.best_recoverable_version()
self.failUnless(ver)
return self._fn.download_best_version()
d.addCallback(_do_retrieve)
d.addCallback(lambda new_contents:
- self.failUnlessEqual(new_contents, self.CONTENTS))
+ self.failUnlessEqual(new_contents, self.CONTENTS))
return d
+
+ def test_corrupt_some(self):
+ # corrupt the data of first five shares (so the servermap thinks
+ # they're good but retrieve marks them as bad), so that the
+ # MODE_READ set of 6 will be insufficient, forcing node.download to
+ # retry with more servers.
+ return self._test_corrupt_some("share_data")
+
+
def test_download_fails(self):
- corrupt(None, self._storage, "signature")
- d = self.shouldFail(UnrecoverableFileError, "test_download_anyway",
+ d = corrupt(None, self._storage, "signature")
+ d.addCallback(lambda ignored:
+ self.shouldFail(UnrecoverableFileError, "test_download_anyway",
"no recoverable versions",
- self._fn.download_best_version)
+ self._fn.download_best_version))
+ return d
+
+
+
+ def test_corrupt_mdmf_block_hash_tree(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ self._test_corrupt_all(("block_hash_tree", 12 * 32),
+ "block hash tree failure",
+ corrupt_early=False,
+ should_succeed=False))
return d
+ def test_corrupt_mdmf_block_hash_tree_late(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ self._test_corrupt_all(("block_hash_tree", 12 * 32),
+ "block hash tree failure",
+ corrupt_early=True,
+ should_succeed=False))
+ return d
+
+
+ def test_corrupt_mdmf_share_data(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ # TODO: Find out what the block size is and corrupt a
+ # specific block, rather than just guessing.
+ self._test_corrupt_all(("share_data", 12 * 40),
+ "block hash tree failure",
+ corrupt_early=True,
+ should_succeed=False))
+ return d
+
+
+ def test_corrupt_some_mdmf(self):
+ return self._test_corrupt_some(("share_data", 12 * 40),
+ mdmf=True)
+
+
class CheckerMixin:
def check_good(self, r, where):
- self.failUnless(r.healthy, where)
- self.failIf(r.problems, where)
+ self.failUnless(r.is_healthy(), where)
return r
def check_bad(self, r, where):
- self.failIf(r.healthy, where)
+ self.failIf(r.is_healthy(), where)
return r
def check_expected_failure(self, r, expected_exception, substring, where):
(where, expected_exception, r.problems))
-class Checker(unittest.TestCase, CheckerMixin):
+class Checker(unittest.TestCase, CheckerMixin, PublishMixin):
def setUp(self):
- # publish a file and create shares, which can then be manipulated
- # later.
- self.CONTENTS = "New contents go here" * 1000
- num_peers = 20
- self._client = FakeClient(num_peers)
- self._storage = self._client._storage
- d = self._client.create_mutable_file(self.CONTENTS)
- def _created(node):
- self._fn = node
- d.addCallback(_created)
- return d
+ return self.publish_one()
def test_check_good(self):
- d = self._fn.check()
+ d = self._fn.check(Monitor())
d.addCallback(self.check_good, "test_check_good")
return d
+ def test_check_mdmf_good(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
+ d.addCallback(self.check_good, "test_check_mdmf_good")
+ return d
+
def test_check_no_shares(self):
for shares in self._storage._peers.values():
shares.clear()
- d = self._fn.check()
+ d = self._fn.check(Monitor())
d.addCallback(self.check_bad, "test_check_no_shares")
return d
+ def test_check_mdmf_no_shares(self):
+ d = self.publish_mdmf()
+ def _then(ignored):
+ for share in self._storage._peers.values():
+ share.clear()
+ d.addCallback(_then)
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
+ d.addCallback(self.check_bad, "test_check_mdmf_no_shares")
+ return d
+
def test_check_not_enough_shares(self):
for shares in self._storage._peers.values():
for shnum in shares.keys():
if shnum > 0:
del shares[shnum]
- d = self._fn.check()
+ d = self._fn.check(Monitor())
d.addCallback(self.check_bad, "test_check_not_enough_shares")
return d
+ def test_check_mdmf_not_enough_shares(self):
+ d = self.publish_mdmf()
+ def _then(ignored):
+ for shares in self._storage._peers.values():
+ for shnum in shares.keys():
+ if shnum > 0:
+ del shares[shnum]
+ d.addCallback(_then)
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
+ d.addCallback(self.check_bad, "test_check_mdmf_not_enougH_shares")
+ return d
+
+
def test_check_all_bad_sig(self):
- corrupt(None, self._storage, 1) # bad sig
- d = self._fn.check()
+ d = corrupt(None, self._storage, 1) # bad sig
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
d.addCallback(self.check_bad, "test_check_all_bad_sig")
return d
+ def test_check_mdmf_all_bad_sig(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, 1))
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
+ d.addCallback(self.check_bad, "test_check_mdmf_all_bad_sig")
+ return d
+
def test_check_all_bad_blocks(self):
- corrupt(None, self._storage, "share_data", [9]) # bad blocks
+ d = corrupt(None, self._storage, "share_data", [9]) # bad blocks
# the Checker won't notice this.. it doesn't look at actual data
- d = self._fn.check()
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
d.addCallback(self.check_good, "test_check_all_bad_blocks")
return d
+
+ def test_check_mdmf_all_bad_blocks(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, "share_data"))
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor()))
+ d.addCallback(self.check_good, "test_check_mdmf_all_bad_blocks")
+ return d
+
def test_verify_good(self):
- d = self._fn.check(verify=True)
+ d = self._fn.check(Monitor(), verify=True)
d.addCallback(self.check_good, "test_verify_good")
return d
def test_verify_all_bad_sig(self):
- corrupt(None, self._storage, 1) # bad sig
- d = self._fn.check(verify=True)
+ d = corrupt(None, self._storage, 1) # bad sig
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
d.addCallback(self.check_bad, "test_verify_all_bad_sig")
return d
def test_verify_one_bad_sig(self):
- corrupt(None, self._storage, 1, [9]) # bad sig
- d = self._fn.check(verify=True)
+ d = corrupt(None, self._storage, 1, [9]) # bad sig
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
d.addCallback(self.check_bad, "test_verify_one_bad_sig")
return d
def test_verify_one_bad_block(self):
- corrupt(None, self._storage, "share_data", [9]) # bad blocks
+ d = corrupt(None, self._storage, "share_data", [9]) # bad blocks
# the Verifier *will* notice this, since it examines every byte
- d = self._fn.check(verify=True)
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
d.addCallback(self.check_bad, "test_verify_one_bad_block")
d.addCallback(self.check_expected_failure,
CorruptShareError, "block hash tree failure",
return d
def test_verify_one_bad_sharehash(self):
- corrupt(None, self._storage, "share_hash_chain", [9], 5)
- d = self._fn.check(verify=True)
+ d = corrupt(None, self._storage, "share_hash_chain", [9], 5)
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
d.addCallback(self.check_bad, "test_verify_one_bad_sharehash")
d.addCallback(self.check_expected_failure,
CorruptShareError, "corrupt hashes",
return d
def test_verify_one_bad_encprivkey(self):
- corrupt(None, self._storage, "enc_privkey", [9]) # bad privkey
- d = self._fn.check(verify=True)
+ d = corrupt(None, self._storage, "enc_privkey", [9]) # bad privkey
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
d.addCallback(self.check_bad, "test_verify_one_bad_encprivkey")
d.addCallback(self.check_expected_failure,
CorruptShareError, "invalid privkey",
return d
def test_verify_one_bad_encprivkey_uncheckable(self):
- corrupt(None, self._storage, "enc_privkey", [9]) # bad privkey
+ d = corrupt(None, self._storage, "enc_privkey", [9]) # bad privkey
readonly_fn = self._fn.get_readonly()
# a read-only node has no way to validate the privkey
- d = readonly_fn.check(verify=True)
+ d.addCallback(lambda ignored:
+ readonly_fn.check(Monitor(), verify=True))
d.addCallback(self.check_good,
"test_verify_one_bad_encprivkey_uncheckable")
return d
+ def test_verify_mdmf_good(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
+ d.addCallback(self.check_good, "test_verify_mdmf_good")
+ return d
+
+
+ def test_verify_mdmf_one_bad_block(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, "share_data", [1]))
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
+ # We should find one bad block here
+ d.addCallback(self.check_bad, "test_verify_mdmf_one_bad_block")
+ d.addCallback(self.check_expected_failure,
+ CorruptShareError, "block hash tree failure",
+ "test_verify_mdmf_one_bad_block")
+ return d
+
+
+ def test_verify_mdmf_bad_encprivkey(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, "enc_privkey", [0]))
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
+ d.addCallback(self.check_bad, "test_verify_mdmf_bad_encprivkey")
+ d.addCallback(self.check_expected_failure,
+ CorruptShareError, "privkey",
+ "test_verify_mdmf_bad_encprivkey")
+ return d
+
+
+ def test_verify_mdmf_bad_sig(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, 1, [1]))
+ d.addCallback(lambda ignored:
+ self._fn.check(Monitor(), verify=True))
+ d.addCallback(self.check_bad, "test_verify_mdmf_bad_sig")
+ return d
+
+
+ def test_verify_mdmf_bad_encprivkey_uncheckable(self):
+ d = self.publish_mdmf()
+ d.addCallback(lambda ignored:
+ corrupt(None, self._storage, "enc_privkey", [1]))
+ d.addCallback(lambda ignored:
+ self._fn.get_readonly())
+ d.addCallback(lambda fn:
+ fn.check(Monitor(), verify=True))
+ d.addCallback(self.check_good,
+ "test_verify_mdmf_bad_encprivkey_uncheckable")
+ return d
+
+
+class Repair(unittest.TestCase, PublishMixin, ShouldFailMixin):
+
+ def get_shares(self, s):
+ all_shares = {} # maps (peerid, shnum) to share data
+ for peerid in s._peers:
+ shares = s._peers[peerid]
+ for shnum in shares:
+ data = shares[shnum]
+ all_shares[ (peerid, shnum) ] = data
+ return all_shares
+
+ def copy_shares(self, ignored=None):
+ self.old_shares.append(self.get_shares(self._storage))
+
+ def test_repair_nop(self):
+ self.old_shares = []
+ d = self.publish_one()
+ d.addCallback(self.copy_shares)
+ d.addCallback(lambda res: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check_results(rres):
+ self.failUnless(IRepairResults.providedBy(rres))
+ self.failUnless(rres.get_successful())
+ # TODO: examine results
+
+ self.copy_shares()
+
+ initial_shares = self.old_shares[0]
+ new_shares = self.old_shares[1]
+ # TODO: this really shouldn't change anything. When we implement
+ # a "minimal-bandwidth" repairer", change this test to assert:
+ #self.failUnlessEqual(new_shares, initial_shares)
+
+ # all shares should be in the same place as before
+ self.failUnlessEqual(set(initial_shares.keys()),
+ set(new_shares.keys()))
+ # but they should all be at a newer seqnum. The IV will be
+ # different, so the roothash will be too.
+ for key in initial_shares:
+ (version0,
+ seqnum0,
+ root_hash0,
+ IV0,
+ k0, N0, segsize0, datalen0,
+ o0) = unpack_header(initial_shares[key])
+ (version1,
+ seqnum1,
+ root_hash1,
+ IV1,
+ k1, N1, segsize1, datalen1,
+ o1) = unpack_header(new_shares[key])
+ self.failUnlessEqual(version0, version1)
+ self.failUnlessEqual(seqnum0+1, seqnum1)
+ self.failUnlessEqual(k0, k1)
+ self.failUnlessEqual(N0, N1)
+ self.failUnlessEqual(segsize0, segsize1)
+ self.failUnlessEqual(datalen0, datalen1)
+ d.addCallback(_check_results)
+ return d
+
+ def failIfSharesChanged(self, ignored=None):
+ old_shares = self.old_shares[-2]
+ current_shares = self.old_shares[-1]
+ self.failUnlessEqual(old_shares, current_shares)
+
+
+ def test_unrepairable_0shares(self):
+ d = self.publish_one()
+ def _delete_all_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ shares[peerid] = {}
+ d.addCallback(_delete_all_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check(crr):
+ self.failUnlessEqual(crr.get_successful(), False)
+ d.addCallback(_check)
+ return d
+
+ def test_mdmf_unrepairable_0shares(self):
+ d = self.publish_mdmf()
+ def _delete_all_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ shares[peerid] = {}
+ d.addCallback(_delete_all_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ d.addCallback(lambda crr: self.failIf(crr.get_successful()))
+ return d
+
+
+ def test_unrepairable_1share(self):
+ d = self.publish_one()
+ def _delete_all_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ for shnum in list(shares[peerid]):
+ if shnum > 0:
+ del shares[peerid][shnum]
+ d.addCallback(_delete_all_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check(crr):
+ self.failUnlessEqual(crr.get_successful(), False)
+ d.addCallback(_check)
+ return d
+
+ def test_mdmf_unrepairable_1share(self):
+ d = self.publish_mdmf()
+ def _delete_all_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ for shnum in list(shares[peerid]):
+ if shnum > 0:
+ del shares[peerid][shnum]
+ d.addCallback(_delete_all_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check(crr):
+ self.failUnlessEqual(crr.get_successful(), False)
+ d.addCallback(_check)
+ return d
+
+ def test_repairable_5shares(self):
+ d = self.publish_mdmf()
+ def _delete_all_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ for shnum in list(shares[peerid]):
+ if shnum > 4:
+ del shares[peerid][shnum]
+ d.addCallback(_delete_all_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check(crr):
+ self.failUnlessEqual(crr.get_successful(), True)
+ d.addCallback(_check)
+ return d
+
+ def test_mdmf_repairable_5shares(self):
+ d = self.publish_mdmf()
+ def _delete_some_shares(ign):
+ shares = self._storage._peers
+ for peerid in shares:
+ for shnum in list(shares[peerid]):
+ if shnum > 5:
+ del shares[peerid][shnum]
+ d.addCallback(_delete_some_shares)
+ d.addCallback(lambda ign: self._fn.check(Monitor()))
+ def _check(cr):
+ self.failIf(cr.is_healthy())
+ self.failUnless(cr.is_recoverable())
+ return cr
+ d.addCallback(_check)
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ def _check1(crr):
+ self.failUnlessEqual(crr.get_successful(), True)
+ d.addCallback(_check1)
+ return d
+
+
+ def test_merge(self):
+ self.old_shares = []
+ d = self.publish_multiple()
+ # repair will refuse to merge multiple highest seqnums unless you
+ # pass force=True
+ d.addCallback(lambda res:
+ self._set_versions({0:3,2:3,4:3,6:3,8:3,
+ 1:4,3:4,5:4,7:4,9:4}))
+ d.addCallback(self.copy_shares)
+ d.addCallback(lambda res: self._fn.check(Monitor()))
+ def _try_repair(check_results):
+ ex = "There were multiple recoverable versions with identical seqnums, so force=True must be passed to the repair() operation"
+ d2 = self.shouldFail(MustForceRepairError, "test_merge", ex,
+ self._fn.repair, check_results)
+ d2.addCallback(self.copy_shares)
+ d2.addCallback(self.failIfSharesChanged)
+ d2.addCallback(lambda res: check_results)
+ return d2
+ d.addCallback(_try_repair)
+ d.addCallback(lambda check_results:
+ self._fn.repair(check_results, force=True))
+ # this should give us 10 shares of the highest roothash
+ def _check_repair_results(rres):
+ self.failUnless(rres.get_successful())
+ pass # TODO
+ d.addCallback(_check_repair_results)
+ d.addCallback(lambda res: self._fn.get_servermap(MODE_CHECK))
+ def _check_smap(smap):
+ self.failUnlessEqual(len(smap.recoverable_versions()), 1)
+ self.failIf(smap.unrecoverable_versions())
+ # now, which should have won?
+ roothash_s4a = self.get_roothash_for(3)
+ roothash_s4b = self.get_roothash_for(4)
+ if roothash_s4b > roothash_s4a:
+ expected_contents = self.CONTENTS[4]
+ else:
+ expected_contents = self.CONTENTS[3]
+ new_versionid = smap.best_recoverable_version()
+ self.failUnlessEqual(new_versionid[0], 5) # seqnum 5
+ d2 = self._fn.download_version(smap, new_versionid)
+ d2.addCallback(self.failUnlessEqual, expected_contents)
+ return d2
+ d.addCallback(_check_smap)
+ return d
+
+ def test_non_merge(self):
+ self.old_shares = []
+ d = self.publish_multiple()
+ # repair should not refuse a repair that doesn't need to merge. In
+ # this case, we combine v2 with v3. The repair should ignore v2 and
+ # copy v3 into a new v5.
+ d.addCallback(lambda res:
+ self._set_versions({0:2,2:2,4:2,6:2,8:2,
+ 1:3,3:3,5:3,7:3,9:3}))
+ d.addCallback(lambda res: self._fn.check(Monitor()))
+ d.addCallback(lambda check_results: self._fn.repair(check_results))
+ # this should give us 10 shares of v3
+ def _check_repair_results(rres):
+ self.failUnless(rres.get_successful())
+ pass # TODO
+ d.addCallback(_check_repair_results)
+ d.addCallback(lambda res: self._fn.get_servermap(MODE_CHECK))
+ def _check_smap(smap):
+ self.failUnlessEqual(len(smap.recoverable_versions()), 1)
+ self.failIf(smap.unrecoverable_versions())
+ # now, which should have won?
+ expected_contents = self.CONTENTS[3]
+ new_versionid = smap.best_recoverable_version()
+ self.failUnlessEqual(new_versionid[0], 5) # seqnum 5
+ d2 = self._fn.download_version(smap, new_versionid)
+ d2.addCallback(self.failUnlessEqual, expected_contents)
+ return d2
+ d.addCallback(_check_smap)
+ return d
+
+ def get_roothash_for(self, index):
+ # return the roothash for the first share we see in the saved set
+ shares = self._copied_shares[index]
+ for peerid in shares:
+ for shnum in shares[peerid]:
+ share = shares[peerid][shnum]
+ (version, seqnum, root_hash, IV, k, N, segsize, datalen, o) = \
+ unpack_header(share)
+ return root_hash
+
+ def test_check_and_repair_readcap(self):
+ # we can't currently repair from a mutable readcap: #625
+ self.old_shares = []
+ d = self.publish_one()
+ d.addCallback(self.copy_shares)
+ def _get_readcap(res):
+ self._fn3 = self._fn.get_readonly()
+ # also delete some shares
+ for peerid,shares in self._storage._peers.items():
+ shares.pop(0, None)
+ d.addCallback(_get_readcap)
+ d.addCallback(lambda res: self._fn3.check_and_repair(Monitor()))
+ def _check_results(crr):
+ self.failUnless(ICheckAndRepairResults.providedBy(crr))
+ # we should detect the unhealthy, but skip over mutable-readcap
+ # repairs until #625 is fixed
+ self.failIf(crr.get_pre_repair_results().is_healthy())
+ self.failIf(crr.get_repair_attempted())
+ self.failIf(crr.get_post_repair_results().is_healthy())
+ d.addCallback(_check_results)
+ return d
+
+class DevNullDictionary(dict):
+ def __setitem__(self, key, value):
+ return
+
class MultipleEncodings(unittest.TestCase):
def setUp(self):
self.CONTENTS = "New contents go here"
- num_peers = 20
- self._client = FakeClient(num_peers)
- self._storage = self._client._storage
- d = self._client.create_mutable_file(self.CONTENTS)
+ self.uploadable = MutableData(self.CONTENTS)
+ self._storage = FakeStorage()
+ self._nodemaker = make_nodemaker(self._storage, num_peers=20)
+ self._storage_broker = self._nodemaker.storage_broker
+ d = self._nodemaker.create_mutable_file(self.uploadable)
def _created(node):
self._fn = node
d.addCallback(_created)
return d
- def _encode(self, k, n, data):
+ def _encode(self, k, n, data, version=SDMF_VERSION):
# encode 'data' into a peerid->shares dict.
- fn2 = FastMutableFileNode(self._client)
- # init_from_uri populates _uri, _writekey, _readkey, _storage_index,
- # and _fingerprint
fn = self._fn
- fn2.init_from_uri(fn.get_uri())
+ # disable the nodecache, since for these tests we explicitly need
+ # multiple nodes pointing at the same file
+ self._nodemaker._node_cache = DevNullDictionary()
+ fn2 = self._nodemaker.create_from_cap(fn.get_uri())
# then we copy over other fields that are normally fetched from the
# existing shares
fn2._pubkey = fn._pubkey
fn2._required_shares = k
fn2._total_shares = n
- s = self._client._storage
+ s = self._storage
s._peers = {} # clear existing storage
- p2 = Publish(fn2, None)
- d = p2.publish(data)
+ p2 = Publish(fn2, self._storage_broker, None)
+ uploadable = MutableData(data)
+ d = p2.publish(uploadable)
def _published(res):
shares = s._peers
s._peers = {}
def make_servermap(self, mode=MODE_READ, oldmap=None):
if oldmap is None:
oldmap = ServerMap()
- smu = ServermapUpdater(self._fn, oldmap, mode)
+ smu = ServermapUpdater(self._fn, self._storage_broker, Monitor(),
+ oldmap, mode)
d = smu.update()
return d
# we make a retrieval object that doesn't know what encoding
# parameters to use
- fn3 = FastMutableFileNode(self._client)
- fn3.init_from_uri(self._fn.get_uri())
+ fn3 = self._nodemaker.create_from_cap(self._fn.get_uri())
# now we upload a file through fn1, and grab its shares
d = self._encode(3, 10, contents1)
places = [2, 2, 3, 2, 1, 1, 1, 2]
sharemap = {}
+ sb = self._storage_broker
- for i,peerid in enumerate(self._client._peerids):
- peerid_s = shortnodeid_b2a(peerid)
+ for peerid in sorted(sb.get_all_serverids()):
for shnum in self._shares1.get(peerid, {}):
if shnum < len(places):
which = places[shnum]
else:
which = "x"
- self._client._storage._peers[peerid] = peers = {}
+ self._storage._peers[peerid] = peers = {}
in_1 = shnum in self._shares1[peerid]
in_2 = shnum in self._shares2.get(peerid, {})
in_3 = shnum in self._shares3.get(peerid, {})
- #print peerid_s, shnum, which, in_1, in_2, in_3
if which == 1:
if in_1:
peers[shnum] = self._shares1[peerid][shnum]
# now sort the sequence so that share 0 is returned first
new_sequence = [sharemap[shnum]
for shnum in sorted(sharemap.keys())]
- self._client._storage._sequence = new_sequence
+ self._storage._sequence = new_sequence
log.msg("merge done")
d.addCallback(_merge)
d.addCallback(lambda res: fn3.download_best_version())
d.addCallback(_retrieved)
return d
-class MultipleVersions(unittest.TestCase, CheckerMixin):
- def setUp(self):
- self.CONTENTS = ["Contents 0",
- "Contents 1",
- "Contents 2",
- "Contents 3a",
- "Contents 3b"]
- self._copied_shares = {}
- num_peers = 20
- self._client = FakeClient(num_peers)
- self._storage = self._client._storage
- d = self._client.create_mutable_file(self.CONTENTS[0]) # seqnum=1
- def _created(node):
- self._fn = node
- # now create multiple versions of the same file, and accumulate
- # their shares, so we can mix and match them later.
- d = defer.succeed(None)
- d.addCallback(self._copy_shares, 0)
- d.addCallback(lambda res: node.overwrite(self.CONTENTS[1])) #s2
- d.addCallback(self._copy_shares, 1)
- d.addCallback(lambda res: node.overwrite(self.CONTENTS[2])) #s3
- d.addCallback(self._copy_shares, 2)
- d.addCallback(lambda res: node.overwrite(self.CONTENTS[3])) #s4a
- d.addCallback(self._copy_shares, 3)
- # now we replace all the shares with version s3, and upload a new
- # version to get s4b.
- rollback = dict([(i,2) for i in range(10)])
- d.addCallback(lambda res: self._set_versions(rollback))
- d.addCallback(lambda res: node.overwrite(self.CONTENTS[4])) #s4b
- d.addCallback(self._copy_shares, 4)
- # we leave the storage in state 4
- return d
- d.addCallback(_created)
- return d
- def _copy_shares(self, ignored, index):
- shares = self._client._storage._peers
- # we need a deep copy
- new_shares = {}
- for peerid in shares:
- new_shares[peerid] = {}
- for shnum in shares[peerid]:
- new_shares[peerid][shnum] = shares[peerid][shnum]
- self._copied_shares[index] = new_shares
+class MultipleVersions(unittest.TestCase, PublishMixin, CheckerMixin):
- def _set_versions(self, versionmap):
- # versionmap maps shnums to which version (0,1,2,3,4) we want the
- # share to be at. Any shnum which is left out of the map will stay at
- # its current version.
- shares = self._client._storage._peers
- oldshares = self._copied_shares
- for peerid in shares:
- for shnum in shares[peerid]:
- if shnum in versionmap:
- index = versionmap[shnum]
- shares[peerid][shnum] = oldshares[index][peerid][shnum]
+ def setUp(self):
+ return self.publish_multiple()
def test_multiple_versions(self):
# if we see a mix of versions in the grid, download_best_version
d = self._fn.download_best_version()
d.addCallback(lambda res: self.failUnlessEqual(res, self.CONTENTS[4]))
# and the checker should report problems
- d.addCallback(lambda res: self._fn.check())
+ d.addCallback(lambda res: self._fn.check(Monitor()))
d.addCallback(self.check_bad, "test_multiple_versions")
# but if everything is at version 2, that's what we should download
target[0] = 3 # seqnum4
self._set_versions(target)
- def _modify(oldversion):
+ def _modify(oldversion, servermap, first_time):
return oldversion + " modified"
d = self._fn.modify(_modify)
d.addCallback(lambda res: self._fn.download_best_version())
class Utils(unittest.TestCase):
- def test_dict_of_sets(self):
- ds = DictOfSets()
- ds.add(1, "a")
- ds.add(2, "b")
- ds.add(2, "b")
- ds.add(2, "c")
- self.failUnlessEqual(ds[1], set(["a"]))
- self.failUnlessEqual(ds[2], set(["b", "c"]))
- ds.discard(3, "d") # should not raise an exception
- ds.discard(2, "b")
- self.failUnlessEqual(ds[2], set(["c"]))
- ds.discard(2, "c")
- self.failIf(2 in ds)
-
- def _do_inside(self, c, x_start, x_length, y_start, y_length):
- # we compare this against sets of integers
- x = set(range(x_start, x_start+x_length))
- y = set(range(y_start, y_start+y_length))
- should_be_inside = x.issubset(y)
- self.failUnlessEqual(should_be_inside, c._inside(x_start, x_length,
- y_start, y_length),
- str((x_start, x_length, y_start, y_length)))
-
- def test_cache_inside(self):
- c = ResponseCache()
- x_start = 10
- x_length = 5
- for y_start in range(8, 17):
- for y_length in range(8):
- self._do_inside(c, x_start, x_length, y_start, y_length)
-
- def _do_overlap(self, c, x_start, x_length, y_start, y_length):
- # we compare this against sets of integers
- x = set(range(x_start, x_start+x_length))
- y = set(range(y_start, y_start+y_length))
- overlap = bool(x.intersection(y))
- self.failUnlessEqual(overlap, c._does_overlap(x_start, x_length,
- y_start, y_length),
- str((x_start, x_length, y_start, y_length)))
-
- def test_cache_overlap(self):
- c = ResponseCache()
- x_start = 10
- x_length = 5
- for y_start in range(8, 17):
- for y_length in range(8):
- self._do_overlap(c, x_start, x_length, y_start, y_length)
-
def test_cache(self):
c = ResponseCache()
# xdata = base62.b2a(os.urandom(100))[:100]
xdata = "1Ex4mdMaDyOl9YnGBM3I4xaBF97j8OQAg1K3RBR01F2PwTP4HohB3XpACuku8Xj4aTQjqJIR1f36mEj3BCNjXaJmPBEZnnHL0U9l"
ydata = "4DCUQXvkEPnnr9Lufikq5t21JsnzZKhzxKBhLhrBB6iIcBOWRuT4UweDhjuKJUre8A4wOObJnl3Kiqmlj4vjSLSqUGAkUD87Y3vs"
- nope = (None, None)
- c.add("v1", 1, 0, xdata, "time0")
- c.add("v1", 1, 2000, ydata, "time1")
- self.failUnlessEqual(c.read("v2", 1, 10, 11), nope)
- self.failUnlessEqual(c.read("v1", 2, 10, 11), nope)
- self.failUnlessEqual(c.read("v1", 1, 0, 10), (xdata[:10], "time0"))
- self.failUnlessEqual(c.read("v1", 1, 90, 10), (xdata[90:], "time0"))
- self.failUnlessEqual(c.read("v1", 1, 300, 10), nope)
- self.failUnlessEqual(c.read("v1", 1, 2050, 5), (ydata[50:55], "time1"))
- self.failUnlessEqual(c.read("v1", 1, 0, 101), nope)
- self.failUnlessEqual(c.read("v1", 1, 99, 1), (xdata[99:100], "time0"))
- self.failUnlessEqual(c.read("v1", 1, 100, 1), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 9), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 10), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 11), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 15), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 19), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 20), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 21), nope)
- self.failUnlessEqual(c.read("v1", 1, 1990, 25), nope)
- self.failUnlessEqual(c.read("v1", 1, 1999, 25), nope)
-
- # optional: join fragments
+ c.add("v1", 1, 0, xdata)
+ c.add("v1", 1, 2000, ydata)
+ self.failUnlessEqual(c.read("v2", 1, 10, 11), None)
+ self.failUnlessEqual(c.read("v1", 2, 10, 11), None)
+ self.failUnlessEqual(c.read("v1", 1, 0, 10), xdata[:10])
+ self.failUnlessEqual(c.read("v1", 1, 90, 10), xdata[90:])
+ self.failUnlessEqual(c.read("v1", 1, 300, 10), None)
+ self.failUnlessEqual(c.read("v1", 1, 2050, 5), ydata[50:55])
+ self.failUnlessEqual(c.read("v1", 1, 0, 101), None)
+ self.failUnlessEqual(c.read("v1", 1, 99, 1), xdata[99:100])
+ self.failUnlessEqual(c.read("v1", 1, 100, 1), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 9), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 10), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 11), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 15), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 19), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 20), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 21), None)
+ self.failUnlessEqual(c.read("v1", 1, 1990, 25), None)
+ self.failUnlessEqual(c.read("v1", 1, 1999, 25), None)
+
+ # test joining fragments
c = ResponseCache()
- c.add("v1", 1, 0, xdata[:10], "time0")
- c.add("v1", 1, 10, xdata[10:20], "time1")
- #self.failUnlessEqual(c.read("v1", 1, 0, 20), (xdata[:20], "time0"))
+ c.add("v1", 1, 0, xdata[:10])
+ c.add("v1", 1, 10, xdata[10:20])
+ self.failUnlessEqual(c.read("v1", 1, 0, 20), xdata[:20])
class Exceptions(unittest.TestCase):
def test_repr(self):
ucwe = UncoordinatedWriteError()
self.failUnless("UncoordinatedWriteError" in repr(ucwe), repr(ucwe))
-# we can't do this test with a FakeClient, since it uses FakeStorageServer
-# instances which always succeed. So we need a less-fake one.
-
-class IntentionalError(Exception):
- pass
-
-class LocalWrapper:
- def __init__(self, original):
- self.original = original
- self.broken = False
- self.post_call_notifier = None
- def callRemote(self, methname, *args, **kwargs):
- def _call():
- if self.broken:
- raise IntentionalError("I was asked to break")
- meth = getattr(self.original, "remote_" + methname)
- return meth(*args, **kwargs)
- d = fireEventually()
- d.addCallback(lambda res: _call())
- if self.post_call_notifier:
- d.addCallback(self.post_call_notifier, methname)
- return d
-
-class LessFakeClient(FakeClient):
-
- def __init__(self, basedir, num_peers=10):
- self._num_peers = num_peers
- self._peerids = [tagged_hash("peerid", "%d" % i)[:20]
- for i in range(self._num_peers)]
- self._connections = {}
- for peerid in self._peerids:
- peerdir = os.path.join(basedir, idlib.shortnodeid_b2a(peerid))
- make_dirs(peerdir)
- ss = storage.StorageServer(peerdir)
- ss.setNodeID(peerid)
- lw = LocalWrapper(ss)
- self._connections[peerid] = lw
- self.nodeid = "fakenodeid"
-
-
-class Problems(unittest.TestCase, testutil.ShouldFailMixin):
+class SameKeyGenerator:
+ def __init__(self, pubkey, privkey):
+ self.pubkey = pubkey
+ self.privkey = privkey
+ def generate(self, keysize=None):
+ return defer.succeed( (self.pubkey, self.privkey) )
+
+class FirstServerGetsKilled:
+ done = False
+ def notify(self, retval, wrapper, methname):
+ if not self.done:
+ wrapper.broken = True
+ self.done = True
+ return retval
+
+class FirstServerGetsDeleted:
+ def __init__(self):
+ self.done = False
+ self.silenced = None
+ def notify(self, retval, wrapper, methname):
+ if not self.done:
+ # this query will work, but later queries should think the share
+ # has been deleted
+ self.done = True
+ self.silenced = wrapper
+ return retval
+ if wrapper == self.silenced:
+ assert methname == "slot_testv_and_readv_and_writev"
+ return (True, {})
+ return retval
+
+class Problems(GridTestMixin, unittest.TestCase, testutil.ShouldFailMixin):
def test_publish_surprise(self):
- basedir = os.path.join("mutable/CollidingWrites/test_surprise")
- self.client = LessFakeClient(basedir)
- d = self.client.create_mutable_file("contents 1")
+ self.basedir = "mutable/Problems/test_publish_surprise"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+ d = nm.create_mutable_file(MutableData("contents 1"))
def _created(n):
d = defer.succeed(None)
d.addCallback(lambda res: n.get_servermap(MODE_WRITE))
d.addCallback(_got_smap1)
# then modify the file, leaving the old map untouched
d.addCallback(lambda res: log.msg("starting winning write"))
- d.addCallback(lambda res: n.overwrite("contents 2"))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
# now attempt to modify the file with the old servermap. This
# will look just like an uncoordinated write, in which every
# single share got updated between our mapupdate and our publish
self.shouldFail(UncoordinatedWriteError,
"test_publish_surprise", None,
n.upload,
- "contents 2a", self.old_map))
+ MutableData("contents 2a"), self.old_map))
return d
d.addCallback(_created)
return d
def test_retrieve_surprise(self):
- basedir = os.path.join("mutable/CollidingWrites/test_retrieve")
- self.client = LessFakeClient(basedir)
- d = self.client.create_mutable_file("contents 1")
+ self.basedir = "mutable/Problems/test_retrieve_surprise"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+ d = nm.create_mutable_file(MutableData("contents 1"))
def _created(n):
d = defer.succeed(None)
d.addCallback(lambda res: n.get_servermap(MODE_READ))
d.addCallback(_got_smap1)
# then modify the file, leaving the old map untouched
d.addCallback(lambda res: log.msg("starting winning write"))
- d.addCallback(lambda res: n.overwrite("contents 2"))
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
# now attempt to retrieve the old version with the old servermap.
# This will look like someone has changed the file since we
# updated the servermap.
d.addCallback(lambda res:
self.shouldFail(NotEnoughSharesError,
"test_retrieve_surprise",
- "ran out of peers: have 0 shares (k=3)",
+ "ran out of peers: have 0 of 1",
n.download_version,
self.old_map,
self.old_map.best_recoverable_version(),
d.addCallback(_created)
return d
+
def test_unexpected_shares(self):
# upload the file, take a servermap, shut down one of the servers,
# upload it again (causing shares to appear on a new server), then
# upload using the old servermap. The last upload should fail with an
# UncoordinatedWriteError, because of the shares that didn't appear
# in the servermap.
- basedir = os.path.join("mutable/CollidingWrites/test_unexpexted_shares")
- self.client = LessFakeClient(basedir)
- d = self.client.create_mutable_file("contents 1")
+ self.basedir = "mutable/Problems/test_unexpected_shares"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+ d = nm.create_mutable_file(MutableData("contents 1"))
def _created(n):
d = defer.succeed(None)
d.addCallback(lambda res: n.get_servermap(MODE_WRITE))
self.old_map = smap
# now shut down one of the servers
peer0 = list(smap.make_sharemap()[0])[0]
- self.client._connections.pop(peer0)
+ self.g.remove_server(peer0)
# then modify the file, leaving the old map untouched
log.msg("starting winning write")
- return n.overwrite("contents 2")
+ return n.overwrite(MutableData("contents 2"))
d.addCallback(_got_smap1)
# now attempt to modify the file with the old servermap. This
# will look just like an uncoordinated write, in which every
self.shouldFail(UncoordinatedWriteError,
"test_surprise", None,
n.upload,
- "contents 2a", self.old_map))
+ MutableData("contents 2a"), self.old_map))
return d
d.addCallback(_created)
return d
# Break one server, then create the file: the initial publish should
# complete with an alternate server. Breaking a second server should
# not prevent an update from succeeding either.
- basedir = os.path.join("mutable/CollidingWrites/test_bad_server")
- self.client = LessFakeClient(basedir, 20)
+ self.basedir = "mutable/Problems/test_bad_server"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+
# to make sure that one of the initial peers is broken, we have to
- # get creative. We create the keys, so we can figure out the storage
- # index, but we hold off on doing the initial publish until we've
- # broken the server on which the first share wants to be stored.
- n = FastMutableFileNode(self.client)
- d = defer.succeed(None)
- d.addCallback(n._generate_pubprivkeys)
- d.addCallback(n._generated)
+ # get creative. We create an RSA key and compute its storage-index.
+ # Then we make a KeyGenerator that always returns that one key, and
+ # use it to create the mutable file. This will get easier when we can
+ # use #467 static-server-selection to disable permutation and force
+ # the choice of server for share[0].
+
+ d = nm.key_generator.generate(TEST_RSA_KEY_SIZE)
+ def _got_key( (pubkey, privkey) ):
+ nm.key_generator = SameKeyGenerator(pubkey, privkey)
+ pubkey_s = pubkey.serialize()
+ privkey_s = privkey.serialize()
+ u = uri.WriteableSSKFileURI(ssk_writekey_hash(privkey_s),
+ ssk_pubkey_fingerprint_hash(pubkey_s))
+ self._storage_index = u.get_storage_index()
+ d.addCallback(_got_key)
def _break_peer0(res):
- si = n.get_storage_index()
- peerlist = self.client.get_permuted_peers("storage", si)
- peerid0, connection0 = peerlist[0]
- peerid1, connection1 = peerlist[1]
- connection0.broken = True
- self.connection1 = connection1
+ si = self._storage_index
+ servers = nm.storage_broker.get_servers_for_psi(si)
+ self.g.break_server(servers[0].get_serverid())
+ self.server1 = servers[1]
d.addCallback(_break_peer0)
- # now let the initial publish finally happen
- d.addCallback(lambda res: n._upload("contents 1", None))
+ # now "create" the file, using the pre-established key, and let the
+ # initial publish finally happen
+ d.addCallback(lambda res: nm.create_mutable_file(MutableData("contents 1")))
# that ought to work
- d.addCallback(lambda res: n.download_best_version())
- d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
- # now break the second peer
- def _break_peer1(res):
- self.connection1.broken = True
- d.addCallback(_break_peer1)
- d.addCallback(lambda res: n.overwrite("contents 2"))
- # that ought to work too
- d.addCallback(lambda res: n.download_best_version())
- d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
+ def _got_node(n):
+ d = n.download_best_version()
+ d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
+ # now break the second peer
+ def _break_peer1(res):
+ self.g.break_server(self.server1.get_serverid())
+ d.addCallback(_break_peer1)
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
+ # that ought to work too
+ d.addCallback(lambda res: n.download_best_version())
+ d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
+ def _explain_error(f):
+ print f
+ if f.check(NotEnoughServersError):
+ print "first_error:", f.value.first_error
+ return f
+ d.addErrback(_explain_error)
+ return d
+ d.addCallback(_got_node)
+ return d
+
+ def test_bad_server_overlap(self):
+ # like test_bad_server, but with no extra unused servers to fall back
+ # upon. This means that we must re-use a server which we've already
+ # used. If we don't remember the fact that we sent them one share
+ # already, we'll mistakenly think we're experiencing an
+ # UncoordinatedWriteError.
+
+ # Break one server, then create the file: the initial publish should
+ # complete with an alternate server. Breaking a second server should
+ # not prevent an update from succeeding either.
+ self.basedir = "mutable/Problems/test_bad_server_overlap"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+ sb = nm.storage_broker
+
+ peerids = [s.get_serverid() for s in sb.get_connected_servers()]
+ self.g.break_server(peerids[0])
+
+ d = nm.create_mutable_file(MutableData("contents 1"))
+ def _created(n):
+ d = n.download_best_version()
+ d.addCallback(lambda res: self.failUnlessEqual(res, "contents 1"))
+ # now break one of the remaining servers
+ def _break_second_server(res):
+ self.g.break_server(peerids[1])
+ d.addCallback(_break_second_server)
+ d.addCallback(lambda res: n.overwrite(MutableData("contents 2")))
+ # that ought to work too
+ d.addCallback(lambda res: n.download_best_version())
+ d.addCallback(lambda res: self.failUnlessEqual(res, "contents 2"))
+ return d
+ d.addCallback(_created)
return d
def test_publish_all_servers_bad(self):
# Break all servers: the publish should fail
- basedir = os.path.join("mutable/CollidingWrites/publish_all_servers_bad")
- self.client = LessFakeClient(basedir, 20)
- for connection in self.client._connections.values():
- connection.broken = True
+ self.basedir = "mutable/Problems/test_publish_all_servers_bad"
+ self.set_up_grid()
+ nm = self.g.clients[0].nodemaker
+ for s in nm.storage_broker.get_connected_servers():
+ s.get_rref().broken = True
+
d = self.shouldFail(NotEnoughServersError,
"test_publish_all_servers_bad",
- "Ran out of non-bad servers",
- self.client.create_mutable_file, "contents")
+ "ran out of good servers",
+ nm.create_mutable_file, MutableData("contents"))
return d
def test_publish_no_servers(self):
# no servers at all: the publish should fail
- basedir = os.path.join("mutable/CollidingWrites/publish_no_servers")
- self.client = LessFakeClient(basedir, 0)
+ self.basedir = "mutable/Problems/test_publish_no_servers"
+ self.set_up_grid(num_servers=0)
+ nm = self.g.clients[0].nodemaker
+
d = self.shouldFail(NotEnoughServersError,
"test_publish_no_servers",
"Ran out of non-bad servers",
- self.client.create_mutable_file, "contents")
+ nm.create_mutable_file, MutableData("contents"))
return d
- test_publish_no_servers.timeout = 30
def test_privkey_query_error(self):
# when a servermap is updated with MODE_WRITE, it tries to get the
# privkey. Something might go wrong during this query attempt.
- self.client = FakeClient(20)
+ # Exercise the code in _privkey_query_failed which tries to handle
+ # such an error.
+ self.basedir = "mutable/Problems/test_privkey_query_error"
+ self.set_up_grid(num_servers=20)
+ nm = self.g.clients[0].nodemaker
+ nm._node_cache = DevNullDictionary() # disable the nodecache
+
# we need some contents that are large enough to push the privkey out
# of the early part of the file
- LARGE = "These are Larger contents" * 200 # about 5KB
- d = self.client.create_mutable_file(LARGE)
+ LARGE = "These are Larger contents" * 2000 # about 50KB
+ LARGE_uploadable = MutableData(LARGE)
+ d = nm.create_mutable_file(LARGE_uploadable)
def _created(n):
self.uri = n.get_uri()
- self.n2 = self.client.create_node_from_uri(self.uri)
- # we start by doing a map update to figure out which is the first
- # server.
- return n.get_servermap(MODE_WRITE)
+ self.n2 = nm.create_from_cap(self.uri)
+
+ # When a mapupdate is performed on a node that doesn't yet know
+ # the privkey, a short read is sent to a batch of servers, to get
+ # the verinfo and (hopefully, if the file is short enough) the
+ # encprivkey. Our file is too large to let this first read
+ # contain the encprivkey. Each non-encprivkey-bearing response
+ # that arrives (until the node gets the encprivkey) will trigger
+ # a second read to specifically read the encprivkey.
+ #
+ # So, to exercise this case:
+ # 1. notice which server gets a read() call first
+ # 2. tell that server to start throwing errors
+ killer = FirstServerGetsKilled()
+ for s in nm.storage_broker.get_connected_servers():
+ s.get_rref().post_call_notifier = killer.notify
d.addCallback(_created)
- d.addCallback(lambda res: fireEventually(res))
- def _got_smap1(smap):
- peer0 = list(smap.make_sharemap()[0])[0]
- # we tell the server to respond to this peer first, so that it
- # will be asked for the privkey first
- self.client._storage._sequence = [peer0]
- # now we make the peer fail their second query
- self.client._storage._special_answers[peer0] = ["normal", "fail"]
- d.addCallback(_got_smap1)
+
# now we update a servermap from a new node (which doesn't have the
- # privkey yet, forcing it to use a separate privkey query). Each
- # query response will trigger a privkey query, and since we're using
- # _sequence to make the peer0 response come back first, we'll send it
- # a privkey query first, and _sequence will again ensure that the
- # peer0 query will also come back before the others, and then
- # _special_answers will make sure that the query raises an exception.
- # The whole point of these hijinks is to exercise the code in
- # _privkey_query_failed. Note that the map-update will succeed, since
- # we'll just get a copy from one of the other shares.
+ # privkey yet, forcing it to use a separate privkey query). Note that
+ # the map-update will succeed, since we'll just get a copy from one
+ # of the other shares.
d.addCallback(lambda res: self.n2.get_servermap(MODE_WRITE))
- # Using FakeStorage._sequence means there will be read requests still
- # floating around.. wait for them to retire
- def _cancel_timer(res):
- if self.client._storage._pending_timer:
- self.client._storage._pending_timer.cancel()
- return res
- d.addBoth(_cancel_timer)
+
return d
def test_privkey_query_missing(self):
# like test_privkey_query_error, but the shares are deleted by the
# second query, instead of raising an exception.
- self.client = FakeClient(20)
- LARGE = "These are Larger contents" * 200 # about 5KB
- d = self.client.create_mutable_file(LARGE)
+ self.basedir = "mutable/Problems/test_privkey_query_missing"
+ self.set_up_grid(num_servers=20)
+ nm = self.g.clients[0].nodemaker
+ LARGE = "These are Larger contents" * 2000 # about 50KiB
+ LARGE_uploadable = MutableData(LARGE)
+ nm._node_cache = DevNullDictionary() # disable the nodecache
+
+ d = nm.create_mutable_file(LARGE_uploadable)
def _created(n):
self.uri = n.get_uri()
- self.n2 = self.client.create_node_from_uri(self.uri)
- return n.get_servermap(MODE_WRITE)
+ self.n2 = nm.create_from_cap(self.uri)
+ deleter = FirstServerGetsDeleted()
+ for s in nm.storage_broker.get_connected_servers():
+ s.get_rref().post_call_notifier = deleter.notify
d.addCallback(_created)
- d.addCallback(lambda res: fireEventually(res))
- def _got_smap1(smap):
- peer0 = list(smap.make_sharemap()[0])[0]
- self.client._storage._sequence = [peer0]
- self.client._storage._special_answers[peer0] = ["normal", "none"]
- d.addCallback(_got_smap1)
d.addCallback(lambda res: self.n2.get_servermap(MODE_WRITE))
- def _cancel_timer(res):
- if self.client._storage._pending_timer:
- self.client._storage._pending_timer.cancel()
- return res
- d.addBoth(_cancel_timer)
+ return d
+
+
+ def test_block_and_hash_query_error(self):
+ # This tests for what happens when a query to a remote server
+ # fails in either the hash validation step or the block getting
+ # step (because of batching, this is the same actual query).
+ # We need to have the storage server persist up until the point
+ # that its prefix is validated, then suddenly die. This
+ # exercises some exception handling code in Retrieve.
+ self.basedir = "mutable/Problems/test_block_and_hash_query_error"
+ self.set_up_grid(num_servers=20)
+ nm = self.g.clients[0].nodemaker
+ CONTENTS = "contents" * 2000
+ CONTENTS_uploadable = MutableData(CONTENTS)
+ d = nm.create_mutable_file(CONTENTS_uploadable)
+ def _created(node):
+ self._node = node
+ d.addCallback(_created)
+ d.addCallback(lambda ignored:
+ self._node.get_servermap(MODE_READ))
+ def _then(servermap):
+ # we have our servermap. Now we set up the servers like the
+ # tests above -- the first one that gets a read call should
+ # start throwing errors, but only after returning its prefix
+ # for validation. Since we'll download without fetching the
+ # private key, the next query to the remote server will be
+ # for either a block and salt or for hashes, either of which
+ # will exercise the error handling code.
+ killer = FirstServerGetsKilled()
+ for s in nm.storage_broker.get_connected_servers():
+ s.get_rref().post_call_notifier = killer.notify
+ ver = servermap.best_recoverable_version()
+ assert ver
+ return self._node.download_version(servermap, ver)
+ d.addCallback(_then)
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, CONTENTS))
+ return d
+
+
+class FileHandle(unittest.TestCase):
+ def setUp(self):
+ self.test_data = "Test Data" * 50000
+ self.sio = StringIO(self.test_data)
+ self.uploadable = MutableFileHandle(self.sio)
+
+
+ def test_filehandle_read(self):
+ self.basedir = "mutable/FileHandle/test_filehandle_read"
+ chunk_size = 10
+ for i in xrange(0, len(self.test_data), chunk_size):
+ data = self.uploadable.read(chunk_size)
+ data = "".join(data)
+ start = i
+ end = i + chunk_size
+ self.failUnlessEqual(data, self.test_data[start:end])
+
+
+ def test_filehandle_get_size(self):
+ self.basedir = "mutable/FileHandle/test_filehandle_get_size"
+ actual_size = len(self.test_data)
+ size = self.uploadable.get_size()
+ self.failUnlessEqual(size, actual_size)
+
+
+ def test_filehandle_get_size_out_of_order(self):
+ # We should be able to call get_size whenever we want without
+ # disturbing the location of the seek pointer.
+ chunk_size = 100
+ data = self.uploadable.read(chunk_size)
+ self.failUnlessEqual("".join(data), self.test_data[:chunk_size])
+
+ # Now get the size.
+ size = self.uploadable.get_size()
+ self.failUnlessEqual(size, len(self.test_data))
+
+ # Now get more data. We should be right where we left off.
+ more_data = self.uploadable.read(chunk_size)
+ start = chunk_size
+ end = chunk_size * 2
+ self.failUnlessEqual("".join(more_data), self.test_data[start:end])
+
+
+ def test_filehandle_file(self):
+ # Make sure that the MutableFileHandle works on a file as well
+ # as a StringIO object, since in some cases it will be asked to
+ # deal with files.
+ self.basedir = self.mktemp()
+ # necessary? What am I doing wrong here?
+ os.mkdir(self.basedir)
+ f_path = os.path.join(self.basedir, "test_file")
+ f = open(f_path, "w")
+ f.write(self.test_data)
+ f.close()
+ f = open(f_path, "r")
+
+ uploadable = MutableFileHandle(f)
+
+ data = uploadable.read(len(self.test_data))
+ self.failUnlessEqual("".join(data), self.test_data)
+ size = uploadable.get_size()
+ self.failUnlessEqual(size, len(self.test_data))
+
+
+ def test_close(self):
+ # Make sure that the MutableFileHandle closes its handle when
+ # told to do so.
+ self.uploadable.close()
+ self.failUnless(self.sio.closed)
+
+
+class DataHandle(unittest.TestCase):
+ def setUp(self):
+ self.test_data = "Test Data" * 50000
+ self.uploadable = MutableData(self.test_data)
+
+
+ def test_datahandle_read(self):
+ chunk_size = 10
+ for i in xrange(0, len(self.test_data), chunk_size):
+ data = self.uploadable.read(chunk_size)
+ data = "".join(data)
+ start = i
+ end = i + chunk_size
+ self.failUnlessEqual(data, self.test_data[start:end])
+
+
+ def test_datahandle_get_size(self):
+ actual_size = len(self.test_data)
+ size = self.uploadable.get_size()
+ self.failUnlessEqual(size, actual_size)
+
+
+ def test_datahandle_get_size_out_of_order(self):
+ # We should be able to call get_size whenever we want without
+ # disturbing the location of the seek pointer.
+ chunk_size = 100
+ data = self.uploadable.read(chunk_size)
+ self.failUnlessEqual("".join(data), self.test_data[:chunk_size])
+
+ # Now get the size.
+ size = self.uploadable.get_size()
+ self.failUnlessEqual(size, len(self.test_data))
+
+ # Now get more data. We should be right where we left off.
+ more_data = self.uploadable.read(chunk_size)
+ start = chunk_size
+ end = chunk_size * 2
+ self.failUnlessEqual("".join(more_data), self.test_data[start:end])
+
+
+class Version(GridTestMixin, unittest.TestCase, testutil.ShouldFailMixin, \
+ PublishMixin):
+ def setUp(self):
+ GridTestMixin.setUp(self)
+ self.basedir = self.mktemp()
+ self.set_up_grid()
+ self.c = self.g.clients[0]
+ self.nm = self.c.nodemaker
+ self.data = "test data" * 100000 # about 900 KiB; MDMF
+ self.small_data = "test data" * 10 # about 90 B; SDMF
+
+
+ def do_upload_mdmf(self):
+ d = self.nm.create_mutable_file(MutableData(self.data),
+ version=MDMF_VERSION)
+ def _then(n):
+ assert isinstance(n, MutableFileNode)
+ assert n._protocol_version == MDMF_VERSION
+ self.mdmf_node = n
+ return n
+ d.addCallback(_then)
+ return d
+
+ def do_upload_sdmf(self):
+ d = self.nm.create_mutable_file(MutableData(self.small_data))
+ def _then(n):
+ assert isinstance(n, MutableFileNode)
+ assert n._protocol_version == SDMF_VERSION
+ self.sdmf_node = n
+ return n
+ d.addCallback(_then)
+ return d
+
+ def do_upload_empty_sdmf(self):
+ d = self.nm.create_mutable_file(MutableData(""))
+ def _then(n):
+ assert isinstance(n, MutableFileNode)
+ self.sdmf_zero_length_node = n
+ assert n._protocol_version == SDMF_VERSION
+ return n
+ d.addCallback(_then)
+ return d
+
+ def do_upload(self):
+ d = self.do_upload_mdmf()
+ d.addCallback(lambda ign: self.do_upload_sdmf())
+ return d
+
+ def test_debug(self):
+ d = self.do_upload_mdmf()
+ def _debug(n):
+ fso = debug.FindSharesOptions()
+ storage_index = base32.b2a(n.get_storage_index())
+ fso.si_s = storage_index
+ fso.nodedirs = [unicode(os.path.dirname(os.path.abspath(storedir)))
+ for (i,ss,storedir)
+ in self.iterate_servers()]
+ fso.stdout = StringIO()
+ fso.stderr = StringIO()
+ debug.find_shares(fso)
+ sharefiles = fso.stdout.getvalue().splitlines()
+ expected = self.nm.default_encoding_parameters["n"]
+ self.failUnlessEqual(len(sharefiles), expected)
+ d.addCallback(_debug)
+ return d
+
+ def test_get_sequence_number(self):
+ d = self.do_upload()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv:
+ self.failUnlessEqual(bv.get_sequence_number(), 1))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv:
+ self.failUnlessEqual(bv.get_sequence_number(), 1))
+ # Now update. The sequence number in both cases should be 1 in
+ # both cases.
+ def _do_update(ignored):
+ new_data = MutableData("foo bar baz" * 100000)
+ new_small_data = MutableData("foo bar baz" * 10)
+ d1 = self.mdmf_node.overwrite(new_data)
+ d2 = self.sdmf_node.overwrite(new_small_data)
+ dl = gatherResults([d1, d2])
+ return dl
+ d.addCallback(_do_update)
+ d.addCallback(lambda ignored:
+ self.mdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv:
+ self.failUnlessEqual(bv.get_sequence_number(), 2))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv:
+ self.failUnlessEqual(bv.get_sequence_number(), 2))
+ return d
+
+
+ def test_version_extension_api(self):
+ # We need to define an API by which an uploader can set the
+ # extension parameters, and by which a downloader can retrieve
+ # extensions.
+ d = self.do_upload_mdmf()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_mutable_version())
+ def _got_version(version):
+ hints = version.get_downloader_hints()
+ # Should be empty at this point.
+ self.failUnlessIn("k", hints)
+ self.failUnlessEqual(hints['k'], 3)
+ self.failUnlessIn('segsize', hints)
+ self.failUnlessEqual(hints['segsize'], 131073)
+ d.addCallback(_got_version)
+ return d
+
+
+ def test_extensions_from_cap(self):
+ # If we initialize a mutable file with a cap that has extension
+ # parameters in it and then grab the extension parameters using
+ # our API, we should see that they're set correctly.
+ d = self.do_upload_mdmf()
+ def _then(ign):
+ mdmf_uri = self.mdmf_node.get_uri()
+ new_node = self.nm.create_from_cap(mdmf_uri)
+ return new_node.get_best_mutable_version()
+ d.addCallback(_then)
+ def _got_version(version):
+ hints = version.get_downloader_hints()
+ self.failUnlessIn("k", hints)
+ self.failUnlessEqual(hints["k"], 3)
+ self.failUnlessIn("segsize", hints)
+ self.failUnlessEqual(hints["segsize"], 131073)
+ d.addCallback(_got_version)
+ return d
+
+
+ def test_extensions_from_upload(self):
+ # If we create a new mutable file with some contents, we should
+ # get back an MDMF cap with the right hints in place.
+ contents = "foo bar baz" * 100000
+ d = self.nm.create_mutable_file(contents, version=MDMF_VERSION)
+ def _got_mutable_file(n):
+ rw_uri = n.get_uri()
+ expected_k = str(self.c.DEFAULT_ENCODING_PARAMETERS['k'])
+ self.failUnlessIn(expected_k, rw_uri)
+ # XXX: Get this more intelligently.
+ self.failUnlessIn("131073", rw_uri)
+
+ ro_uri = n.get_readonly_uri()
+ self.failUnlessIn(expected_k, ro_uri)
+ self.failUnlessIn("131073", ro_uri)
+ d.addCallback(_got_mutable_file)
+ return d
+
+
+ def test_cap_after_upload(self):
+ # If we create a new mutable file and upload things to it, and
+ # it's an MDMF file, we should get an MDMF cap back from that
+ # file and should be able to use that.
+ # That's essentially what MDMF node is, so just check that.
+ d = self.do_upload_mdmf()
+ def _then(ign):
+ mdmf_uri = self.mdmf_node.get_uri()
+ cap = uri.from_string(mdmf_uri)
+ self.failUnless(isinstance(cap, uri.WriteableMDMFFileURI))
+ readonly_mdmf_uri = self.mdmf_node.get_readonly_uri()
+ cap = uri.from_string(readonly_mdmf_uri)
+ self.failUnless(isinstance(cap, uri.ReadonlyMDMFFileURI))
+ d.addCallback(_then)
+ return d
+
+ def test_mutable_version(self):
+ # assert that getting parameters from the IMutableVersion object
+ # gives us the same data as getting them from the filenode itself
+ d = self.do_upload()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_mutable_version())
+ def _check_mdmf(bv):
+ n = self.mdmf_node
+ self.failUnlessEqual(bv.get_writekey(), n.get_writekey())
+ self.failUnlessEqual(bv.get_storage_index(), n.get_storage_index())
+ self.failIf(bv.is_readonly())
+ d.addCallback(_check_mdmf)
+ d.addCallback(lambda ign: self.sdmf_node.get_best_mutable_version())
+ def _check_sdmf(bv):
+ n = self.sdmf_node
+ self.failUnlessEqual(bv.get_writekey(), n.get_writekey())
+ self.failUnlessEqual(bv.get_storage_index(), n.get_storage_index())
+ self.failIf(bv.is_readonly())
+ d.addCallback(_check_sdmf)
+ return d
+
+
+ def test_get_readonly_version(self):
+ d = self.do_upload()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv: self.failUnless(bv.is_readonly()))
+
+ # Attempting to get a mutable version of a mutable file from a
+ # filenode initialized with a readcap should return a readonly
+ # version of that same node.
+ d.addCallback(lambda ign: self.mdmf_node.get_readonly())
+ d.addCallback(lambda ro: ro.get_best_mutable_version())
+ d.addCallback(lambda v: self.failUnless(v.is_readonly()))
+
+ d.addCallback(lambda ign: self.sdmf_node.get_best_readable_version())
+ d.addCallback(lambda bv: self.failUnless(bv.is_readonly()))
+
+ d.addCallback(lambda ign: self.sdmf_node.get_readonly())
+ d.addCallback(lambda ro: ro.get_best_mutable_version())
+ d.addCallback(lambda v: self.failUnless(v.is_readonly()))
+ return d
+
+
+ def test_toplevel_overwrite(self):
+ new_data = MutableData("foo bar baz" * 100000)
+ new_small_data = MutableData("foo bar baz" * 10)
+ d = self.do_upload()
+ d.addCallback(lambda ign: self.mdmf_node.overwrite(new_data))
+ d.addCallback(lambda ignored:
+ self.mdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, "foo bar baz" * 100000))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.overwrite(new_small_data))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessEqual(data, "foo bar baz" * 10))
+ return d
+
+
+ def test_toplevel_modify(self):
+ d = self.do_upload()
+ def modifier(old_contents, servermap, first_time):
+ return old_contents + "modified"
+ d.addCallback(lambda ign: self.mdmf_node.modify(modifier))
+ d.addCallback(lambda ignored:
+ self.mdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessIn("modified", data))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.modify(modifier))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessIn("modified", data))
+ return d
+
+
+ def test_version_modify(self):
+ # TODO: When we can publish multiple versions, alter this test
+ # to modify a version other than the best usable version, then
+ # test to see that the best recoverable version is that.
+ d = self.do_upload()
+ def modifier(old_contents, servermap, first_time):
+ return old_contents + "modified"
+ d.addCallback(lambda ign: self.mdmf_node.modify(modifier))
+ d.addCallback(lambda ignored:
+ self.mdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessIn("modified", data))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.modify(modifier))
+ d.addCallback(lambda ignored:
+ self.sdmf_node.download_best_version())
+ d.addCallback(lambda data:
+ self.failUnlessIn("modified", data))
+ return d
+
+
+ def test_download_version(self):
+ d = self.publish_multiple()
+ # We want to have two recoverable versions on the grid.
+ d.addCallback(lambda res:
+ self._set_versions({0:0,2:0,4:0,6:0,8:0,
+ 1:1,3:1,5:1,7:1,9:1}))
+ # Now try to download each version. We should get the plaintext
+ # associated with that version.
+ d.addCallback(lambda ignored:
+ self._fn.get_servermap(mode=MODE_READ))
+ def _got_servermap(smap):
+ versions = smap.recoverable_versions()
+ assert len(versions) == 2
+
+ self.servermap = smap
+ self.version1, self.version2 = versions
+ assert self.version1 != self.version2
+
+ self.version1_seqnum = self.version1[0]
+ self.version2_seqnum = self.version2[0]
+ self.version1_index = self.version1_seqnum - 1
+ self.version2_index = self.version2_seqnum - 1
+
+ d.addCallback(_got_servermap)
+ d.addCallback(lambda ignored:
+ self._fn.download_version(self.servermap, self.version1))
+ d.addCallback(lambda results:
+ self.failUnlessEqual(self.CONTENTS[self.version1_index],
+ results))
+ d.addCallback(lambda ignored:
+ self._fn.download_version(self.servermap, self.version2))
+ d.addCallback(lambda results:
+ self.failUnlessEqual(self.CONTENTS[self.version2_index],
+ results))
+ return d
+
+
+ def test_download_nonexistent_version(self):
+ d = self.do_upload_mdmf()
+ d.addCallback(lambda ign: self.mdmf_node.get_servermap(mode=MODE_WRITE))
+ def _set_servermap(servermap):
+ self.servermap = servermap
+ d.addCallback(_set_servermap)
+ d.addCallback(lambda ignored:
+ self.shouldFail(UnrecoverableFileError, "nonexistent version",
+ None,
+ self.mdmf_node.download_version, self.servermap,
+ "not a version"))
+ return d
+
+
+ def test_partial_read(self):
+ # read only a few bytes at a time, and see that the results are
+ # what we expect.
+ d = self.do_upload_mdmf()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_readable_version())
+ def _read_data(version):
+ c = consumer.MemoryConsumer()
+ d2 = defer.succeed(None)
+ for i in xrange(0, len(self.data), 10000):
+ d2.addCallback(lambda ignored, i=i: version.read(c, i, 10000))
+ d2.addCallback(lambda ignored:
+ self.failUnlessEqual(self.data, "".join(c.chunks)))
+ return d2
+ d.addCallback(_read_data)
+ return d
+
+
+ def _test_partial_read(self, offset, length):
+ d = self.do_upload_mdmf()
+ d.addCallback(lambda ign: self.mdmf_node.get_best_readable_version())
+ c = consumer.MemoryConsumer()
+ d.addCallback(lambda version:
+ version.read(c, offset, length))
+ expected = self.data[offset:offset+length]
+ d.addCallback(lambda ignored: "".join(c.chunks))
+ def _check(results):
+ if results != expected:
+ print
+ print "got: %s ... %s" % (results[:20], results[-20:])
+ print "exp: %s ... %s" % (expected[:20], expected[-20:])
+ self.fail("results != expected")
+ d.addCallback(_check)
+ return d
+
+ def test_partial_read_starting_on_segment_boundary(self):
+ return self._test_partial_read(mathutil.next_multiple(128 * 1024, 3), 50)
+
+ def test_partial_read_ending_one_byte_after_segment_boundary(self):
+ return self._test_partial_read(mathutil.next_multiple(128 * 1024, 3)-50, 51)
+
+ def test_partial_read_zero_length_at_start(self):
+ return self._test_partial_read(0, 0)
+
+ def test_partial_read_zero_length_in_middle(self):
+ return self._test_partial_read(50, 0)
+
+ def test_partial_read_zero_length_at_segment_boundary(self):
+ return self._test_partial_read(mathutil.next_multiple(128 * 1024, 3), 0)
+
+ # XXX factor these into a single upload after they pass
+ _broken = "zero-length reads of mutable files don't work"
+ test_partial_read_zero_length_at_start.todo = _broken
+ test_partial_read_zero_length_in_middle.todo = _broken
+ test_partial_read_zero_length_at_segment_boundary.todo = _broken
+
+ def _test_read_and_download(self, node, expected):
+ d = node.get_best_readable_version()
+ def _read_data(version):
+ c = consumer.MemoryConsumer()
+ d2 = defer.succeed(None)
+ d2.addCallback(lambda ignored: version.read(c))
+ d2.addCallback(lambda ignored:
+ self.failUnlessEqual(expected, "".join(c.chunks)))
+ return d2
+ d.addCallback(_read_data)
+ d.addCallback(lambda ignored: node.download_best_version())
+ d.addCallback(lambda data: self.failUnlessEqual(expected, data))
+ return d
+
+ def test_read_and_download_mdmf(self):
+ d = self.do_upload_mdmf()
+ d.addCallback(self._test_read_and_download, self.data)
+ return d
+
+ def test_read_and_download_sdmf(self):
+ d = self.do_upload_sdmf()
+ d.addCallback(self._test_read_and_download, self.small_data)
+ return d
+
+ def test_read_and_download_sdmf_zero_length(self):
+ d = self.do_upload_empty_sdmf()
+ d.addCallback(self._test_read_and_download, "")
+ return d
+
+
+class Update(GridTestMixin, unittest.TestCase, testutil.ShouldFailMixin):
+ timeout = 400 # these tests are too big, 120s is not enough on slow
+ # platforms
+ def setUp(self):
+ GridTestMixin.setUp(self)
+ self.basedir = self.mktemp()
+ self.set_up_grid()
+ self.c = self.g.clients[0]
+ self.nm = self.c.nodemaker
+ self.data = "testdata " * 100000 # about 900 KiB; MDMF
+ self.small_data = "test data" * 10 # about 90 B; SDMF
+ return self.do_upload()
+
+
+ def do_upload(self):
+ d1 = self.nm.create_mutable_file(MutableData(self.data),
+ version=MDMF_VERSION)
+ d2 = self.nm.create_mutable_file(MutableData(self.small_data))
+ dl = gatherResults([d1, d2])
+ def _then((n1, n2)):
+ assert isinstance(n1, MutableFileNode)
+ assert isinstance(n2, MutableFileNode)
+
+ self.mdmf_node = n1
+ self.sdmf_node = n2
+ dl.addCallback(_then)
+ # Make SDMF and MDMF mutable file nodes that have 255 shares.
+ def _make_max_shares(ign):
+ self.nm.default_encoding_parameters['n'] = 255
+ self.nm.default_encoding_parameters['k'] = 127
+ d1 = self.nm.create_mutable_file(MutableData(self.data),
+ version=MDMF_VERSION)
+ d2 = \
+ self.nm.create_mutable_file(MutableData(self.small_data))
+ return gatherResults([d1, d2])
+ dl.addCallback(_make_max_shares)
+ def _stash((n1, n2)):
+ assert isinstance(n1, MutableFileNode)
+ assert isinstance(n2, MutableFileNode)
+
+ self.mdmf_max_shares_node = n1
+ self.sdmf_max_shares_node = n2
+ dl.addCallback(_stash)
+ return dl
+
+
+ def _test_replace(self, offset, new_data):
+ expected = self.data[:offset]+new_data+self.data[offset+len(new_data):]
+ for node in (self.mdmf_node, self.mdmf_max_shares_node):
+ d = node.get_best_mutable_version()
+ d.addCallback(lambda mv:
+ mv.update(MutableData(new_data), offset))
+ # close around node.
+ d.addCallback(lambda ignored, node=node:
+ node.download_best_version())
+ def _check(results):
+ if results != expected:
+ print
+ print "got: %s ... %s" % (results[:20], results[-20:])
+ print "exp: %s ... %s" % (expected[:20], expected[-20:])
+ self.fail("results != expected")
+ d.addCallback(_check)
+ return d
+
+ def test_append(self):
+ # We should be able to append data to a mutable file and get
+ # what we expect.
+ return self._test_replace(len(self.data), "appended")
+
+ def test_replace_middle(self):
+ # We should be able to replace data in the middle of a mutable
+ # file and get what we expect back.
+ return self._test_replace(100, "replaced")
+
+ def test_replace_beginning(self):
+ # We should be able to replace data at the beginning of the file
+ # without truncating the file
+ return self._test_replace(0, "beginning")
+
+ def test_replace_segstart1(self):
+ return self._test_replace(128*1024+1, "NNNN")
+
+ def test_replace_zero_length_beginning(self):
+ return self._test_replace(0, "")
+
+ def test_replace_zero_length_middle(self):
+ return self._test_replace(50, "")
+
+ def test_replace_zero_length_segstart1(self):
+ return self._test_replace(128*1024+1, "")
+
+ def test_replace_and_extend(self):
+ # We should be able to replace data in the middle of a mutable
+ # file and extend that mutable file and get what we expect.
+ return self._test_replace(100, "modified " * 100000)
+
+
+ def _check_differences(self, got, expected):
+ # displaying arbitrary file corruption is tricky for a
+ # 1MB file of repeating data,, so look for likely places
+ # with problems and display them separately
+ gotmods = [mo.span() for mo in re.finditer('([A-Z]+)', got)]
+ expmods = [mo.span() for mo in re.finditer('([A-Z]+)', expected)]
+ gotspans = ["%d:%d=%s" % (start,end,got[start:end])
+ for (start,end) in gotmods]
+ expspans = ["%d:%d=%s" % (start,end,expected[start:end])
+ for (start,end) in expmods]
+ #print "expecting: %s" % expspans
+
+ SEGSIZE = 128*1024
+ if got != expected:
+ print "differences:"
+ for segnum in range(len(expected)//SEGSIZE):
+ start = segnum * SEGSIZE
+ end = (segnum+1) * SEGSIZE
+ got_ends = "%s .. %s" % (got[start:start+20], got[end-20:end])
+ exp_ends = "%s .. %s" % (expected[start:start+20], expected[end-20:end])
+ if got_ends != exp_ends:
+ print "expected[%d]: %s" % (start, exp_ends)
+ print "got [%d]: %s" % (start, got_ends)
+ if expspans != gotspans:
+ print "expected: %s" % expspans
+ print "got : %s" % gotspans
+ open("EXPECTED","wb").write(expected)
+ open("GOT","wb").write(got)
+ print "wrote data to EXPECTED and GOT"
+ self.fail("didn't get expected data")
+
+
+ def test_replace_locations(self):
+ # exercise fencepost conditions
+ expected = self.data
+ SEGSIZE = 128*1024
+ suspects = range(SEGSIZE-3, SEGSIZE+1)+range(2*SEGSIZE-3, 2*SEGSIZE+1)
+ letters = iter("ABCDEFGHIJKLMNOPQRSTUVWXYZ")
+ d = defer.succeed(None)
+ for offset in suspects:
+ new_data = letters.next()*2 # "AA", then "BB", etc
+ expected = expected[:offset]+new_data+expected[offset+2:]
+ d.addCallback(lambda ign:
+ self.mdmf_node.get_best_mutable_version())
+ def _modify(mv, offset=offset, new_data=new_data):
+ # close over 'offset','new_data'
+ md = MutableData(new_data)
+ return mv.update(md, offset)
+ d.addCallback(_modify)
+ d.addCallback(lambda ignored:
+ self.mdmf_node.download_best_version())
+ d.addCallback(self._check_differences, expected)
+ return d
+
+ def test_replace_locations_max_shares(self):
+ # exercise fencepost conditions
+ expected = self.data
+ SEGSIZE = 128*1024
+ suspects = range(SEGSIZE-3, SEGSIZE+1)+range(2*SEGSIZE-3, 2*SEGSIZE+1)
+ letters = iter("ABCDEFGHIJKLMNOPQRSTUVWXYZ")
+ d = defer.succeed(None)
+ for offset in suspects:
+ new_data = letters.next()*2 # "AA", then "BB", etc
+ expected = expected[:offset]+new_data+expected[offset+2:]
+ d.addCallback(lambda ign:
+ self.mdmf_max_shares_node.get_best_mutable_version())
+ def _modify(mv, offset=offset, new_data=new_data):
+ # close over 'offset','new_data'
+ md = MutableData(new_data)
+ return mv.update(md, offset)
+ d.addCallback(_modify)
+ d.addCallback(lambda ignored:
+ self.mdmf_max_shares_node.download_best_version())
+ d.addCallback(self._check_differences, expected)
+ return d
+
+
+ def test_append_power_of_two(self):
+ # If we attempt to extend a mutable file so that its segment
+ # count crosses a power-of-two boundary, the update operation
+ # should know how to reencode the file.
+
+ # Note that the data populating self.mdmf_node is about 900 KiB
+ # long -- this is 7 segments in the default segment size. So we
+ # need to add 2 segments worth of data to push it over a
+ # power-of-two boundary.
+ segment = "a" * DEFAULT_MAX_SEGMENT_SIZE
+ new_data = self.data + (segment * 2)
+ for node in (self.mdmf_node, self.mdmf_max_shares_node):
+ d = node.get_best_mutable_version()
+ d.addCallback(lambda mv:
+ mv.update(MutableData(segment * 2), len(self.data)))
+ d.addCallback(lambda ignored, node=node:
+ node.download_best_version())
+ d.addCallback(lambda results:
+ self.failUnlessEqual(results, new_data))
+ return d
+
+
+ def test_update_sdmf(self):
+ # Running update on a single-segment file should still work.
+ new_data = self.small_data + "appended"
+ for node in (self.sdmf_node, self.sdmf_max_shares_node):
+ d = node.get_best_mutable_version()
+ d.addCallback(lambda mv:
+ mv.update(MutableData("appended"), len(self.small_data)))
+ d.addCallback(lambda ignored, node=node:
+ node.download_best_version())
+ d.addCallback(lambda results:
+ self.failUnlessEqual(results, new_data))
+ return d
+
+ def test_replace_in_last_segment(self):
+ # The wrapper should know how to handle the tail segment
+ # appropriately.
+ replace_offset = len(self.data) - 100
+ new_data = self.data[:replace_offset] + "replaced"
+ rest_offset = replace_offset + len("replaced")
+ new_data += self.data[rest_offset:]
+ for node in (self.mdmf_node, self.mdmf_max_shares_node):
+ d = node.get_best_mutable_version()
+ d.addCallback(lambda mv:
+ mv.update(MutableData("replaced"), replace_offset))
+ d.addCallback(lambda ignored, node=node:
+ node.download_best_version())
+ d.addCallback(lambda results:
+ self.failUnlessEqual(results, new_data))
+ return d
+
+
+ def test_multiple_segment_replace(self):
+ replace_offset = 2 * DEFAULT_MAX_SEGMENT_SIZE
+ new_data = self.data[:replace_offset]
+ new_segment = "a" * DEFAULT_MAX_SEGMENT_SIZE
+ new_data += 2 * new_segment
+ new_data += "replaced"
+ rest_offset = len(new_data)
+ new_data += self.data[rest_offset:]
+ for node in (self.mdmf_node, self.mdmf_max_shares_node):
+ d = node.get_best_mutable_version()
+ d.addCallback(lambda mv:
+ mv.update(MutableData((2 * new_segment) + "replaced"),
+ replace_offset))
+ d.addCallback(lambda ignored, node=node:
+ node.download_best_version())
+ d.addCallback(lambda results:
+ self.failUnlessEqual(results, new_data))
+ return d
+
+class Interoperability(GridTestMixin, unittest.TestCase, testutil.ShouldFailMixin):
+ sdmf_old_shares = {}
+ sdmf_old_shares[0] = "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"
+ sdmf_old_shares[1] = "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"
+ sdmf_old_shares[2] = "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"
+ sdmf_old_shares[3] = "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"
+ sdmf_old_shares[4] = "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"
+ sdmf_old_shares[5] = "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"
+ sdmf_old_shares[6] = "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"
+ sdmf_old_shares[7] = "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"
+ sdmf_old_shares[8] = "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"
+ sdmf_old_shares[9] = "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"
+ sdmf_old_cap = "URI:SSK:gmjgofw6gan57gwpsow6gtrz3e:5adm6fayxmu3e4lkmfvt6lkkfix34ai2wop2ioqr4bgvvhiol3kq"
+ sdmf_old_contents = "This is a test file.\n"
+ def copy_sdmf_shares(self):
+ # We'll basically be short-circuiting the upload process.
+ servernums = self.g.servers_by_number.keys()
+ assert len(servernums) == 10
+
+ assignments = zip(self.sdmf_old_shares.keys(), servernums)
+ # Get the storage index.
+ cap = uri.from_string(self.sdmf_old_cap)
+ si = cap.get_storage_index()
+
+ # Now execute each assignment by writing the storage.
+ for (share, servernum) in assignments:
+ sharedata = base64.b64decode(self.sdmf_old_shares[share])
+ storedir = self.get_serverdir(servernum)
+ storage_path = os.path.join(storedir, "shares",
+ storage_index_to_dir(si))
+ fileutil.make_dirs(storage_path)
+ fileutil.write(os.path.join(storage_path, "%d" % share),
+ sharedata)
+ # ...and verify that the shares are there.
+ shares = self.find_uri_shares(self.sdmf_old_cap)
+ assert len(shares) == 10
+
+ def test_new_downloader_can_read_old_shares(self):
+ self.basedir = "mutable/Interoperability/new_downloader_can_read_old_shares"
+ self.set_up_grid()
+ self.copy_sdmf_shares()
+ nm = self.g.clients[0].nodemaker
+ n = nm.create_from_cap(self.sdmf_old_cap)
+ d = n.download_best_version()
+ d.addCallback(self.failUnlessEqual, self.sdmf_old_contents)
+ return d
+
+class DifferentEncoding(unittest.TestCase):
+ def setUp(self):
+ self._storage = s = FakeStorage()
+ self.nodemaker = make_nodemaker(s)
+
+ def test_filenode(self):
+ # create a file with 3-of-20, then modify it with a client configured
+ # to do 3-of-10. #1510 tracks a failure here
+ self.nodemaker.default_encoding_parameters["n"] = 20
+ d = self.nodemaker.create_mutable_file("old contents")
+ def _created(n):
+ filecap = n.get_cap().to_string()
+ del n # we want a new object, not the cached one
+ self.nodemaker.default_encoding_parameters["n"] = 10
+ n2 = self.nodemaker.create_from_cap(filecap)
+ return n2
+ d.addCallback(_created)
+ def modifier(old_contents, servermap, first_time):
+ return "new contents"
+ d.addCallback(lambda n: n.modify(modifier))
return d