mirror of
https://github.com/tahoe-lafs/tahoe-lafs.git
synced 2024-12-27 08:22:32 +00:00
1236 lines
49 KiB
Python
1236 lines
49 KiB
Python
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import os, time, weakref, itertools
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from zope.interface import implements
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from twisted.python import failure
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from twisted.internet import defer
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from twisted.application import service
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from foolscap import Referenceable, Copyable, RemoteCopy
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from foolscap import eventual
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from foolscap.logging import log
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from allmydata.util.hashutil import file_renewal_secret_hash, \
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file_cancel_secret_hash, bucket_renewal_secret_hash, \
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bucket_cancel_secret_hash, plaintext_hasher, \
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storage_index_hash, plaintext_segment_hasher, content_hash_key_hasher
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from allmydata import encode, storage, hashtree, uri
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from allmydata.util import base32, idlib, mathutil
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from allmydata.util.assertutil import precondition
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from allmydata.interfaces import IUploadable, IUploader, IUploadResults, \
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IEncryptedUploadable, RIEncryptedUploadable, IUploadStatus
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from pycryptopp.cipher.aes import AES
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from cStringIO import StringIO
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KiB=1024
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MiB=1024*KiB
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GiB=1024*MiB
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TiB=1024*GiB
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PiB=1024*TiB
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class HaveAllPeersError(Exception):
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# we use this to jump out of the loop
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pass
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# this wants to live in storage, not here
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class TooFullError(Exception):
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pass
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class UploadResults(Copyable, RemoteCopy):
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implements(IUploadResults)
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typeToCopy = "allmydata.upload.UploadResults.tahoe.allmydata.com"
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copytype = typeToCopy
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def __init__(self):
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self.timings = {} # dict of name to number of seconds
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self.sharemap = {} # dict of shnum to placement string
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self.servermap = {} # dict of peerid to set(shnums)
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self.file_size = None
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self.ciphertext_fetched = None # how much the helper fetched
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self.uri = None
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self.preexisting_shares = None # count of shares already present
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self.pushed_shares = None # count of shares we pushed
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# our current uri_extension is 846 bytes for small files, a few bytes
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# more for larger ones (since the filesize is encoded in decimal in a
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# few places). Ask for a little bit more just in case we need it. If
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# the extension changes size, we can change EXTENSION_SIZE to
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# allocate a more accurate amount of space.
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EXTENSION_SIZE = 1000
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class PeerTracker:
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def __init__(self, peerid, storage_server,
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sharesize, blocksize, num_segments, num_share_hashes,
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storage_index,
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bucket_renewal_secret, bucket_cancel_secret):
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precondition(isinstance(peerid, str), peerid)
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precondition(len(peerid) == 20, peerid)
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self.peerid = peerid
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self._storageserver = storage_server # to an RIStorageServer
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self.buckets = {} # k: shareid, v: IRemoteBucketWriter
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self.sharesize = sharesize
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as = storage.allocated_size(sharesize,
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num_segments,
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num_share_hashes,
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EXTENSION_SIZE)
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self.allocated_size = as
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self.blocksize = blocksize
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self.num_segments = num_segments
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self.num_share_hashes = num_share_hashes
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self.storage_index = storage_index
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self.renew_secret = bucket_renewal_secret
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self.cancel_secret = bucket_cancel_secret
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def __repr__(self):
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return ("<PeerTracker for peer %s and SI %s>"
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% (idlib.shortnodeid_b2a(self.peerid),
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storage.si_b2a(self.storage_index)[:5]))
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def query(self, sharenums):
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d = self._storageserver.callRemote("allocate_buckets",
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self.storage_index,
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self.renew_secret,
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self.cancel_secret,
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sharenums,
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self.allocated_size,
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canary=Referenceable())
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d.addCallback(self._got_reply)
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return d
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def _got_reply(self, (alreadygot, buckets)):
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#log.msg("%s._got_reply(%s)" % (self, (alreadygot, buckets)))
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b = {}
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for sharenum, rref in buckets.iteritems():
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bp = storage.WriteBucketProxy(rref, self.sharesize,
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self.blocksize,
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self.num_segments,
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self.num_share_hashes,
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EXTENSION_SIZE,
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self.peerid)
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b[sharenum] = bp
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self.buckets.update(b)
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return (alreadygot, set(b.keys()))
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class Tahoe2PeerSelector:
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def __init__(self, upload_id, logparent=None, upload_status=None):
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self.upload_id = upload_id
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self.query_count, self.good_query_count, self.bad_query_count = 0,0,0
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self.error_count = 0
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self.num_peers_contacted = 0
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self.last_failure_msg = None
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self._status = IUploadStatus(upload_status)
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self._log_parent = log.msg("%s starting" % self, parent=logparent)
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def __repr__(self):
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return "<Tahoe2PeerSelector for upload %s>" % self.upload_id
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def get_shareholders(self, client,
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storage_index, share_size, block_size,
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num_segments, total_shares, shares_of_happiness):
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"""
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@return: (used_peers, already_peers), where used_peers is a set of
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PeerTracker instances that have agreed to hold some shares
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for us (the shnum is stashed inside the PeerTracker),
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and already_peers is a dict mapping shnum to a peer
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which claims to already have the share.
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"""
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if self._status:
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self._status.set_status("Contacting Peers..")
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self.total_shares = total_shares
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self.shares_of_happiness = shares_of_happiness
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self.homeless_shares = range(total_shares)
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# self.uncontacted_peers = list() # peers we haven't asked yet
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self.contacted_peers = [] # peers worth asking again
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self.contacted_peers2 = [] # peers that we have asked again
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self._started_second_pass = False
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self.use_peers = set() # PeerTrackers that have shares assigned to them
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self.preexisting_shares = {} # sharenum -> peerid holding the share
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peers = client.get_permuted_peers("storage", storage_index)
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if not peers:
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raise encode.NotEnoughPeersError("client gave us zero peers")
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# figure out how much space to ask for
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# this needed_hashes computation should mirror
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# Encoder.send_all_share_hash_trees. We use an IncompleteHashTree
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# (instead of a HashTree) because we don't require actual hashing
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# just to count the levels.
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ht = hashtree.IncompleteHashTree(total_shares)
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num_share_hashes = len(ht.needed_hashes(0, include_leaf=True))
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# decide upon the renewal/cancel secrets, to include them in the
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# allocat_buckets query.
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client_renewal_secret = client.get_renewal_secret()
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client_cancel_secret = client.get_cancel_secret()
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file_renewal_secret = file_renewal_secret_hash(client_renewal_secret,
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storage_index)
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file_cancel_secret = file_cancel_secret_hash(client_cancel_secret,
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storage_index)
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trackers = [ PeerTracker(peerid, conn,
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share_size, block_size,
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num_segments, num_share_hashes,
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storage_index,
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bucket_renewal_secret_hash(file_renewal_secret,
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peerid),
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bucket_cancel_secret_hash(file_cancel_secret,
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peerid),
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)
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for (peerid, conn) in peers ]
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self.uncontacted_peers = trackers
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d = defer.maybeDeferred(self._loop)
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return d
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def _loop(self):
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if not self.homeless_shares:
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# all done
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msg = ("placed all %d shares, "
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"sent %d queries to %d peers, "
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"%d queries placed some shares, %d placed none, "
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"got %d errors" %
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(self.total_shares,
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self.query_count, self.num_peers_contacted,
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self.good_query_count, self.bad_query_count,
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self.error_count))
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log.msg("peer selection successful for %s: %s" % (self, msg),
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parent=self._log_parent)
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return (self.use_peers, self.preexisting_shares)
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if self.uncontacted_peers:
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peer = self.uncontacted_peers.pop(0)
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# TODO: don't pre-convert all peerids to PeerTrackers
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assert isinstance(peer, PeerTracker)
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shares_to_ask = set([self.homeless_shares.pop(0)])
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self.query_count += 1
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self.num_peers_contacted += 1
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if self._status:
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self._status.set_status("Contacting Peers [%s] (first query),"
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" %d shares left.."
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% (idlib.shortnodeid_b2a(peer.peerid),
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len(self.homeless_shares)))
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d = peer.query(shares_to_ask)
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d.addBoth(self._got_response, peer, shares_to_ask,
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self.contacted_peers)
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return d
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elif self.contacted_peers:
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# ask a peer that we've already asked.
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if not self._started_second_pass:
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log.msg("starting second pass", parent=self._log_parent,
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level=log.NOISY)
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self._started_second_pass = True
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num_shares = mathutil.div_ceil(len(self.homeless_shares),
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len(self.contacted_peers))
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peer = self.contacted_peers.pop(0)
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shares_to_ask = set(self.homeless_shares[:num_shares])
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self.homeless_shares[:num_shares] = []
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self.query_count += 1
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if self._status:
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self._status.set_status("Contacting Peers [%s] (second query),"
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" %d shares left.."
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% (idlib.shortnodeid_b2a(peer.peerid),
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len(self.homeless_shares)))
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d = peer.query(shares_to_ask)
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d.addBoth(self._got_response, peer, shares_to_ask,
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self.contacted_peers2)
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return d
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elif self.contacted_peers2:
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# we've finished the second-or-later pass. Move all the remaining
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# peers back into self.contacted_peers for the next pass.
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self.contacted_peers.extend(self.contacted_peers2)
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self.contacted_peers[:] = []
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return self._loop()
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else:
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# no more peers. If we haven't placed enough shares, we fail.
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placed_shares = self.total_shares - len(self.homeless_shares)
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if placed_shares < self.shares_of_happiness:
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msg = ("placed %d shares out of %d total (%d homeless), "
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"sent %d queries to %d peers, "
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"%d queries placed some shares, %d placed none, "
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"got %d errors" %
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(self.total_shares - len(self.homeless_shares),
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self.total_shares, len(self.homeless_shares),
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self.query_count, self.num_peers_contacted,
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self.good_query_count, self.bad_query_count,
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self.error_count))
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msg = "peer selection failed for %s: %s" % (self, msg)
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if self.last_failure_msg:
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msg += " (%s)" % (self.last_failure_msg,)
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log.msg(msg, level=log.UNUSUAL, parent=self._log_parent)
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raise encode.NotEnoughPeersError(msg)
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else:
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# we placed enough to be happy, so we're done
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if self._status:
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self._status.set_status("Placed all shares")
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return self.use_peers
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def _got_response(self, res, peer, shares_to_ask, put_peer_here):
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if isinstance(res, failure.Failure):
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# This is unusual, and probably indicates a bug or a network
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# problem.
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log.msg("%s got error during peer selection: %s" % (peer, res),
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level=log.UNUSUAL, parent=self._log_parent)
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self.error_count += 1
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self.homeless_shares = list(shares_to_ask) + self.homeless_shares
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if (self.uncontacted_peers
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or self.contacted_peers
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or self.contacted_peers2):
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# there is still hope, so just loop
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pass
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else:
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# No more peers, so this upload might fail (it depends upon
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# whether we've hit shares_of_happiness or not). Log the last
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# failure we got: if a coding error causes all peers to fail
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# in the same way, this allows the common failure to be seen
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# by the uploader and should help with debugging
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msg = ("last failure (from %s) was: %s" % (peer, res))
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self.last_failure_msg = msg
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else:
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(alreadygot, allocated) = res
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log.msg("response from peer %s: alreadygot=%s, allocated=%s"
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% (idlib.shortnodeid_b2a(peer.peerid),
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tuple(sorted(alreadygot)), tuple(sorted(allocated))),
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level=log.NOISY, parent=self._log_parent)
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progress = False
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for s in alreadygot:
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self.preexisting_shares[s] = peer.peerid
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if s in self.homeless_shares:
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self.homeless_shares.remove(s)
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progress = True
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# the PeerTracker will remember which shares were allocated on
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# that peer. We just have to remember to use them.
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if allocated:
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self.use_peers.add(peer)
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progress = True
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not_yet_present = set(shares_to_ask) - set(alreadygot)
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still_homeless = not_yet_present - set(allocated)
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if progress:
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# they accepted or already had at least one share, so
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# progress has been made
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self.good_query_count += 1
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else:
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self.bad_query_count += 1
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if still_homeless:
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# In networks with lots of space, this is very unusual and
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# probably indicates an error. In networks with peers that
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# are full, it is merely unusual. In networks that are very
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# full, it is common, and many uploads will fail. In most
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# cases, this is obviously not fatal, and we'll just use some
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# other peers.
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# some shares are still homeless, keep trying to find them a
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# home. The ones that were rejected get first priority.
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self.homeless_shares = (list(still_homeless)
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+ self.homeless_shares)
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# Since they were unable to accept all of our requests, so it
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# is safe to assume that asking them again won't help.
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else:
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# if they *were* able to accept everything, they might be
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# willing to accept even more.
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put_peer_here.append(peer)
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# now loop
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return self._loop()
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class EncryptAnUploadable:
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"""This is a wrapper that takes an IUploadable and provides
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IEncryptedUploadable."""
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implements(IEncryptedUploadable)
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CHUNKSIZE = 50*1024
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def __init__(self, original, log_parent=None):
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self.original = IUploadable(original)
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self._log_number = log_parent
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self._encryptor = None
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self._plaintext_hasher = plaintext_hasher()
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self._plaintext_segment_hasher = None
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self._plaintext_segment_hashes = []
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self._encoding_parameters = None
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self._file_size = None
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self._ciphertext_bytes_read = 0
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self._status = None
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def set_upload_status(self, upload_status):
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self._status = IUploadStatus(upload_status)
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self.original.set_upload_status(upload_status)
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def log(self, *args, **kwargs):
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if "facility" not in kwargs:
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kwargs["facility"] = "upload.encryption"
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if "parent" not in kwargs:
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kwargs["parent"] = self._log_number
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return log.msg(*args, **kwargs)
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def get_size(self):
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if self._file_size is not None:
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return defer.succeed(self._file_size)
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d = self.original.get_size()
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def _got_size(size):
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self._file_size = size
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if self._status:
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self._status.set_size(size)
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return size
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d.addCallback(_got_size)
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return d
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def get_all_encoding_parameters(self):
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if self._encoding_parameters is not None:
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return defer.succeed(self._encoding_parameters)
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d = self.original.get_all_encoding_parameters()
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def _got(encoding_parameters):
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(k, happy, n, segsize) = encoding_parameters
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self._segment_size = segsize # used by segment hashers
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self._encoding_parameters = encoding_parameters
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self.log("my encoding parameters: %s" % (encoding_parameters,),
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level=log.NOISY)
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return encoding_parameters
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d.addCallback(_got)
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return d
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def _get_encryptor(self):
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if self._encryptor:
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return defer.succeed(self._encryptor)
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d = self.original.get_encryption_key()
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def _got(key):
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e = AES(key)
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self._encryptor = e
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storage_index = storage_index_hash(key)
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assert isinstance(storage_index, str)
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# There's no point to having the SI be longer than the key, so we
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# specify that it is truncated to the same 128 bits as the AES key.
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assert len(storage_index) == 16 # SHA-256 truncated to 128b
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self._storage_index = storage_index
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if self._status:
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self._status.set_storage_index(storage_index)
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return e
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d.addCallback(_got)
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return d
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def get_storage_index(self):
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d = self._get_encryptor()
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d.addCallback(lambda res: self._storage_index)
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return d
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def _get_segment_hasher(self):
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p = self._plaintext_segment_hasher
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if p:
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left = self._segment_size - self._plaintext_segment_hashed_bytes
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return p, left
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p = plaintext_segment_hasher()
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self._plaintext_segment_hasher = p
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self._plaintext_segment_hashed_bytes = 0
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return p, self._segment_size
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def _update_segment_hash(self, chunk):
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offset = 0
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while offset < len(chunk):
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p, segment_left = self._get_segment_hasher()
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chunk_left = len(chunk) - offset
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this_segment = min(chunk_left, segment_left)
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p.update(chunk[offset:offset+this_segment])
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self._plaintext_segment_hashed_bytes += this_segment
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if self._plaintext_segment_hashed_bytes == self._segment_size:
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# we've filled this segment
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self._plaintext_segment_hashes.append(p.digest())
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self._plaintext_segment_hasher = None
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self.log("closed hash [%d]: %dB" %
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(len(self._plaintext_segment_hashes)-1,
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self._plaintext_segment_hashed_bytes),
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level=log.NOISY)
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self.log(format="plaintext leaf hash [%(segnum)d] is %(hash)s",
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segnum=len(self._plaintext_segment_hashes)-1,
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hash=base32.b2a(p.digest()),
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level=log.NOISY)
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offset += this_segment
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|
|
def read_encrypted(self, length, hash_only):
|
|
# make sure our parameters have been set up first
|
|
d = self.get_all_encoding_parameters()
|
|
# and size
|
|
d.addCallback(lambda ignored: self.get_size())
|
|
d.addCallback(lambda ignored: self._get_encryptor())
|
|
# then fetch and encrypt the plaintext. The unusual structure here
|
|
# (passing a Deferred *into* a function) is needed to avoid
|
|
# overflowing the stack: Deferreds don't optimize out tail recursion.
|
|
# We also pass in a list, to which _read_encrypted will append
|
|
# ciphertext.
|
|
ciphertext = []
|
|
d2 = defer.Deferred()
|
|
d.addCallback(lambda ignored:
|
|
self._read_encrypted(length, ciphertext, hash_only, d2))
|
|
d.addCallback(lambda ignored: d2)
|
|
return d
|
|
|
|
def _read_encrypted(self, remaining, ciphertext, hash_only, fire_when_done):
|
|
if not remaining:
|
|
fire_when_done.callback(ciphertext)
|
|
return None
|
|
# tolerate large length= values without consuming a lot of RAM by
|
|
# reading just a chunk (say 50kB) at a time. This only really matters
|
|
# when hash_only==True (i.e. resuming an interrupted upload), since
|
|
# that's the case where we will be skipping over a lot of data.
|
|
size = min(remaining, self.CHUNKSIZE)
|
|
remaining = remaining - size
|
|
# read a chunk of plaintext..
|
|
d = defer.maybeDeferred(self.original.read, size)
|
|
# N.B.: if read() is synchronous, then since everything else is
|
|
# actually synchronous too, we'd blow the stack unless we stall for a
|
|
# tick. Once you accept a Deferred from IUploadable.read(), you must
|
|
# be prepared to have it fire immediately too.
|
|
d.addCallback(eventual.fireEventually)
|
|
def _good(plaintext):
|
|
# and encrypt it..
|
|
# o/' over the fields we go, hashing all the way, sHA! sHA! sHA! o/'
|
|
ct = self._hash_and_encrypt_plaintext(plaintext, hash_only)
|
|
ciphertext.extend(ct)
|
|
self._read_encrypted(remaining, ciphertext, hash_only,
|
|
fire_when_done)
|
|
def _err(why):
|
|
fire_when_done.errback(why)
|
|
d.addCallback(_good)
|
|
d.addErrback(_err)
|
|
return None
|
|
|
|
def _hash_and_encrypt_plaintext(self, data, hash_only):
|
|
assert isinstance(data, (tuple, list)), type(data)
|
|
data = list(data)
|
|
cryptdata = []
|
|
# we use data.pop(0) instead of 'for chunk in data' to save
|
|
# memory: each chunk is destroyed as soon as we're done with it.
|
|
bytes_processed = 0
|
|
while data:
|
|
chunk = data.pop(0)
|
|
self.log(" read_encrypted handling %dB-sized chunk" % len(chunk),
|
|
level=log.NOISY)
|
|
bytes_processed += len(chunk)
|
|
self._plaintext_hasher.update(chunk)
|
|
self._update_segment_hash(chunk)
|
|
# TODO: we have to encrypt the data (even if hash_only==True)
|
|
# because pycryptopp's AES-CTR implementation doesn't offer a
|
|
# way to change the counter value. Once pycryptopp acquires
|
|
# this ability, change this to simply update the counter
|
|
# before each call to (hash_only==False) _encryptor.process()
|
|
ciphertext = self._encryptor.process(chunk)
|
|
if hash_only:
|
|
self.log(" skipping encryption", level=log.NOISY)
|
|
else:
|
|
cryptdata.append(ciphertext)
|
|
del ciphertext
|
|
del chunk
|
|
self._ciphertext_bytes_read += bytes_processed
|
|
if self._status:
|
|
progress = float(self._ciphertext_bytes_read) / self._file_size
|
|
self._status.set_progress(1, progress)
|
|
return cryptdata
|
|
|
|
|
|
def get_plaintext_hashtree_leaves(self, first, last, num_segments):
|
|
if len(self._plaintext_segment_hashes) < num_segments:
|
|
# close out the last one
|
|
assert len(self._plaintext_segment_hashes) == num_segments-1
|
|
p, segment_left = self._get_segment_hasher()
|
|
self._plaintext_segment_hashes.append(p.digest())
|
|
del self._plaintext_segment_hasher
|
|
self.log("closing plaintext leaf hasher, hashed %d bytes" %
|
|
self._plaintext_segment_hashed_bytes,
|
|
level=log.NOISY)
|
|
self.log(format="plaintext leaf hash [%(segnum)d] is %(hash)s",
|
|
segnum=len(self._plaintext_segment_hashes)-1,
|
|
hash=base32.b2a(p.digest()),
|
|
level=log.NOISY)
|
|
assert len(self._plaintext_segment_hashes) == num_segments
|
|
return defer.succeed(tuple(self._plaintext_segment_hashes[first:last]))
|
|
|
|
def get_plaintext_hash(self):
|
|
h = self._plaintext_hasher.digest()
|
|
return defer.succeed(h)
|
|
|
|
def close(self):
|
|
return self.original.close()
|
|
|
|
class UploadStatus:
|
|
implements(IUploadStatus)
|
|
statusid_counter = itertools.count(0)
|
|
|
|
def __init__(self):
|
|
self.storage_index = None
|
|
self.size = None
|
|
self.helper = False
|
|
self.status = "Not started"
|
|
self.progress = [0.0, 0.0, 0.0]
|
|
self.active = True
|
|
self.results = None
|
|
self.counter = self.statusid_counter.next()
|
|
self.started = time.time()
|
|
|
|
def get_started(self):
|
|
return self.started
|
|
def get_storage_index(self):
|
|
return self.storage_index
|
|
def get_size(self):
|
|
return self.size
|
|
def using_helper(self):
|
|
return self.helper
|
|
def get_status(self):
|
|
return self.status
|
|
def get_progress(self):
|
|
return tuple(self.progress)
|
|
def get_active(self):
|
|
return self.active
|
|
def get_results(self):
|
|
return self.results
|
|
def get_counter(self):
|
|
return self.counter
|
|
|
|
def set_storage_index(self, si):
|
|
self.storage_index = si
|
|
def set_size(self, size):
|
|
self.size = size
|
|
def set_helper(self, helper):
|
|
self.helper = helper
|
|
def set_status(self, status):
|
|
self.status = status
|
|
def set_progress(self, which, value):
|
|
# [0]: chk, [1]: ciphertext, [2]: encode+push
|
|
self.progress[which] = value
|
|
def set_active(self, value):
|
|
self.active = value
|
|
def set_results(self, value):
|
|
self.results = value
|
|
|
|
class CHKUploader:
|
|
peer_selector_class = Tahoe2PeerSelector
|
|
|
|
def __init__(self, client):
|
|
self._client = client
|
|
self._log_number = self._client.log("CHKUploader starting")
|
|
self._encoder = None
|
|
self._results = UploadResults()
|
|
self._storage_index = None
|
|
self._upload_status = UploadStatus()
|
|
self._upload_status.set_helper(False)
|
|
self._upload_status.set_active(True)
|
|
self._upload_status.set_results(self._results)
|
|
|
|
def log(self, *args, **kwargs):
|
|
if "parent" not in kwargs:
|
|
kwargs["parent"] = self._log_number
|
|
if "facility" not in kwargs:
|
|
kwargs["facility"] = "tahoe.upload"
|
|
return self._client.log(*args, **kwargs)
|
|
|
|
def start(self, uploadable):
|
|
"""Start uploading the file.
|
|
|
|
This method returns a Deferred that will fire with the URI (a
|
|
string)."""
|
|
|
|
self._started = time.time()
|
|
uploadable = IUploadable(uploadable)
|
|
self.log("starting upload of %s" % uploadable)
|
|
|
|
eu = EncryptAnUploadable(uploadable, self._log_number)
|
|
eu.set_upload_status(self._upload_status)
|
|
d = self.start_encrypted(eu)
|
|
def _uploaded(res):
|
|
d1 = uploadable.get_encryption_key()
|
|
d1.addCallback(lambda key: self._compute_uri(res, key))
|
|
return d1
|
|
d.addCallback(_uploaded)
|
|
def _done(res):
|
|
self._upload_status.set_active(False)
|
|
return res
|
|
d.addBoth(_done)
|
|
return d
|
|
|
|
def abort(self):
|
|
"""Call this is the upload must be abandoned before it completes.
|
|
This will tell the shareholders to delete their partial shares. I
|
|
return a Deferred that fires when these messages have been acked."""
|
|
if not self._encoder:
|
|
# how did you call abort() before calling start() ?
|
|
return defer.succeed(None)
|
|
return self._encoder.abort()
|
|
|
|
def start_encrypted(self, encrypted):
|
|
eu = IEncryptedUploadable(encrypted)
|
|
|
|
started = time.time()
|
|
self._encoder = e = encode.Encoder(self._log_number,
|
|
self._upload_status)
|
|
d = e.set_encrypted_uploadable(eu)
|
|
d.addCallback(self.locate_all_shareholders, started)
|
|
d.addCallback(self.set_shareholders, e)
|
|
d.addCallback(lambda res: e.start())
|
|
d.addCallback(self._encrypted_done)
|
|
# this fires with the uri_extension_hash and other data
|
|
return d
|
|
|
|
def locate_all_shareholders(self, encoder, started):
|
|
peer_selection_started = now = time.time()
|
|
self._storage_index_elapsed = now - started
|
|
storage_index = encoder.get_param("storage_index")
|
|
self._storage_index = storage_index
|
|
upload_id = storage.si_b2a(storage_index)[:5]
|
|
self.log("using storage index %s" % upload_id)
|
|
peer_selector = self.peer_selector_class(upload_id, self._log_number,
|
|
self._upload_status)
|
|
|
|
share_size = encoder.get_param("share_size")
|
|
block_size = encoder.get_param("block_size")
|
|
num_segments = encoder.get_param("num_segments")
|
|
k,desired,n = encoder.get_param("share_counts")
|
|
|
|
self._peer_selection_started = time.time()
|
|
d = peer_selector.get_shareholders(self._client, storage_index,
|
|
share_size, block_size,
|
|
num_segments, n, desired)
|
|
def _done(res):
|
|
self._peer_selection_elapsed = time.time() - peer_selection_started
|
|
return res
|
|
d.addCallback(_done)
|
|
return d
|
|
|
|
def set_shareholders(self, (used_peers, already_peers), encoder):
|
|
"""
|
|
@param used_peers: a sequence of PeerTracker objects
|
|
@paran already_peers: a dict mapping sharenum to a peerid that
|
|
claims to already have this share
|
|
"""
|
|
self.log("_send_shares, used_peers is %s" % (used_peers,))
|
|
# record already-present shares in self._results
|
|
for (shnum, peerid) in already_peers.items():
|
|
peerid_s = idlib.shortnodeid_b2a(peerid)
|
|
self._results.sharemap[shnum] = "Found on [%s]" % peerid_s
|
|
if peerid not in self._results.servermap:
|
|
self._results.servermap[peerid] = set()
|
|
self._results.servermap[peerid].add(shnum)
|
|
self._results.preexisting_shares = len(already_peers)
|
|
|
|
self._sharemap = {}
|
|
for peer in used_peers:
|
|
assert isinstance(peer, PeerTracker)
|
|
buckets = {}
|
|
for peer in used_peers:
|
|
buckets.update(peer.buckets)
|
|
for shnum in peer.buckets:
|
|
self._sharemap[shnum] = peer
|
|
assert len(buckets) == sum([len(peer.buckets) for peer in used_peers])
|
|
encoder.set_shareholders(buckets)
|
|
|
|
def _encrypted_done(self, res):
|
|
r = self._results
|
|
for shnum in self._encoder.get_shares_placed():
|
|
peer_tracker = self._sharemap[shnum]
|
|
peerid = peer_tracker.peerid
|
|
peerid_s = idlib.shortnodeid_b2a(peerid)
|
|
r.sharemap[shnum] = "Placed on [%s]" % peerid_s
|
|
if peerid not in r.servermap:
|
|
r.servermap[peerid] = set()
|
|
r.servermap[peerid].add(shnum)
|
|
r.pushed_shares = len(self._encoder.get_shares_placed())
|
|
now = time.time()
|
|
r.file_size = self._encoder.file_size
|
|
r.timings["total"] = now - self._started
|
|
r.timings["storage_index"] = self._storage_index_elapsed
|
|
r.timings["peer_selection"] = self._peer_selection_elapsed
|
|
r.timings.update(self._encoder.get_times())
|
|
r.uri_extension_data = self._encoder.get_uri_extension_data()
|
|
return res
|
|
|
|
def _compute_uri(self, (uri_extension_hash,
|
|
needed_shares, total_shares, size),
|
|
key):
|
|
u = uri.CHKFileURI(key=key,
|
|
uri_extension_hash=uri_extension_hash,
|
|
needed_shares=needed_shares,
|
|
total_shares=total_shares,
|
|
size=size,
|
|
)
|
|
r = self._results
|
|
r.uri = u.to_string()
|
|
return r
|
|
|
|
def get_upload_status(self):
|
|
return self._upload_status
|
|
|
|
def read_this_many_bytes(uploadable, size, prepend_data=[]):
|
|
if size == 0:
|
|
return defer.succeed([])
|
|
d = uploadable.read(size)
|
|
def _got(data):
|
|
assert isinstance(data, list)
|
|
bytes = sum([len(piece) for piece in data])
|
|
assert bytes > 0
|
|
assert bytes <= size
|
|
remaining = size - bytes
|
|
if remaining:
|
|
return read_this_many_bytes(uploadable, remaining,
|
|
prepend_data + data)
|
|
return prepend_data + data
|
|
d.addCallback(_got)
|
|
return d
|
|
|
|
class LiteralUploader:
|
|
|
|
def __init__(self, client):
|
|
self._client = client
|
|
self._results = UploadResults()
|
|
self._status = s = UploadStatus()
|
|
s.set_storage_index(None)
|
|
s.set_helper(False)
|
|
s.set_progress(0, 1.0)
|
|
s.set_active(False)
|
|
s.set_results(self._results)
|
|
|
|
def start(self, uploadable):
|
|
uploadable = IUploadable(uploadable)
|
|
d = uploadable.get_size()
|
|
def _got_size(size):
|
|
self._size = size
|
|
self._status.set_size(size)
|
|
self._results.file_size = size
|
|
return read_this_many_bytes(uploadable, size)
|
|
d.addCallback(_got_size)
|
|
d.addCallback(lambda data: uri.LiteralFileURI("".join(data)))
|
|
d.addCallback(lambda u: u.to_string())
|
|
d.addCallback(self._build_results)
|
|
return d
|
|
|
|
def _build_results(self, uri):
|
|
self._results.uri = uri
|
|
self._status.set_status("Done")
|
|
self._status.set_progress(1, 1.0)
|
|
self._status.set_progress(2, 1.0)
|
|
return self._results
|
|
|
|
def close(self):
|
|
pass
|
|
|
|
def get_upload_status(self):
|
|
return self._status
|
|
|
|
class RemoteEncryptedUploadable(Referenceable):
|
|
implements(RIEncryptedUploadable)
|
|
|
|
def __init__(self, encrypted_uploadable, upload_status):
|
|
self._eu = IEncryptedUploadable(encrypted_uploadable)
|
|
self._offset = 0
|
|
self._bytes_sent = 0
|
|
self._status = IUploadStatus(upload_status)
|
|
# we are responsible for updating the status string while we run, and
|
|
# for setting the ciphertext-fetch progress.
|
|
self._size = None
|
|
|
|
def get_size(self):
|
|
if self._size is not None:
|
|
return defer.succeed(self._size)
|
|
d = self._eu.get_size()
|
|
def _got_size(size):
|
|
self._size = size
|
|
return size
|
|
d.addCallback(_got_size)
|
|
return d
|
|
|
|
def remote_get_size(self):
|
|
return self.get_size()
|
|
def remote_get_all_encoding_parameters(self):
|
|
return self._eu.get_all_encoding_parameters()
|
|
|
|
def _read_encrypted(self, length, hash_only):
|
|
d = self._eu.read_encrypted(length, hash_only)
|
|
def _read(strings):
|
|
if hash_only:
|
|
self._offset += length
|
|
else:
|
|
size = sum([len(data) for data in strings])
|
|
self._offset += size
|
|
return strings
|
|
d.addCallback(_read)
|
|
return d
|
|
|
|
def remote_read_encrypted(self, offset, length):
|
|
# we don't support seek backwards, but we allow skipping forwards
|
|
precondition(offset >= 0, offset)
|
|
precondition(length >= 0, length)
|
|
lp = log.msg("remote_read_encrypted(%d-%d)" % (offset, offset+length),
|
|
level=log.NOISY)
|
|
precondition(offset >= self._offset, offset, self._offset)
|
|
if offset > self._offset:
|
|
# read the data from disk anyways, to build up the hash tree
|
|
skip = offset - self._offset
|
|
log.msg("remote_read_encrypted skipping ahead from %d to %d, skip=%d" %
|
|
(self._offset, offset, skip), level=log.UNUSUAL, parent=lp)
|
|
d = self._read_encrypted(skip, hash_only=True)
|
|
else:
|
|
d = defer.succeed(None)
|
|
|
|
def _at_correct_offset(res):
|
|
assert offset == self._offset, "%d != %d" % (offset, self._offset)
|
|
return self._read_encrypted(length, hash_only=False)
|
|
d.addCallback(_at_correct_offset)
|
|
|
|
def _read(strings):
|
|
size = sum([len(data) for data in strings])
|
|
self._bytes_sent += size
|
|
return strings
|
|
d.addCallback(_read)
|
|
return d
|
|
|
|
def remote_get_plaintext_hashtree_leaves(self, first, last, num_segments):
|
|
log.msg("remote_get_plaintext_hashtree_leaves: %d-%d of %d" %
|
|
(first, last-1, num_segments),
|
|
level=log.NOISY)
|
|
d = self._eu.get_plaintext_hashtree_leaves(first, last, num_segments)
|
|
d.addCallback(list)
|
|
return d
|
|
def remote_get_plaintext_hash(self):
|
|
return self._eu.get_plaintext_hash()
|
|
def remote_close(self):
|
|
return self._eu.close()
|
|
|
|
|
|
class AssistedUploader:
|
|
|
|
def __init__(self, helper):
|
|
self._helper = helper
|
|
self._log_number = log.msg("AssistedUploader starting")
|
|
self._storage_index = None
|
|
self._upload_status = s = UploadStatus()
|
|
s.set_helper(True)
|
|
s.set_active(True)
|
|
|
|
def log(self, *args, **kwargs):
|
|
if "parent" not in kwargs:
|
|
kwargs["parent"] = self._log_number
|
|
return log.msg(*args, **kwargs)
|
|
|
|
def start(self, uploadable):
|
|
self._started = time.time()
|
|
u = IUploadable(uploadable)
|
|
eu = EncryptAnUploadable(u, self._log_number)
|
|
eu.set_upload_status(self._upload_status)
|
|
self._encuploadable = eu
|
|
d = eu.get_size()
|
|
d.addCallback(self._got_size)
|
|
d.addCallback(lambda res: eu.get_all_encoding_parameters())
|
|
d.addCallback(self._got_all_encoding_parameters)
|
|
# when we get the encryption key, that will also compute the storage
|
|
# index, so this only takes one pass.
|
|
# TODO: I'm not sure it's cool to switch back and forth between
|
|
# the Uploadable and the IEncryptedUploadable that wraps it.
|
|
d.addCallback(lambda res: u.get_encryption_key())
|
|
d.addCallback(self._got_encryption_key)
|
|
d.addCallback(lambda res: eu.get_storage_index())
|
|
d.addCallback(self._got_storage_index)
|
|
d.addCallback(self._contact_helper)
|
|
d.addCallback(self._build_readcap)
|
|
def _done(res):
|
|
self._upload_status.set_active(False)
|
|
return res
|
|
d.addBoth(_done)
|
|
return d
|
|
|
|
def _got_size(self, size):
|
|
self._size = size
|
|
self._upload_status.set_size(size)
|
|
|
|
def _got_all_encoding_parameters(self, params):
|
|
k, happy, n, segment_size = params
|
|
# stash these for URI generation later
|
|
self._needed_shares = k
|
|
self._total_shares = n
|
|
self._segment_size = segment_size
|
|
|
|
def _got_encryption_key(self, key):
|
|
self._key = key
|
|
|
|
def _got_storage_index(self, storage_index):
|
|
self._storage_index = storage_index
|
|
|
|
|
|
def _contact_helper(self, res):
|
|
now = self._time_contacting_helper_start = time.time()
|
|
self._storage_index_elapsed = now - self._started
|
|
self.log(format="contacting helper for SI %(si)s..",
|
|
si=storage.si_b2a(self._storage_index))
|
|
self._upload_status.set_status("Contacting Helper")
|
|
d = self._helper.callRemote("upload_chk", self._storage_index)
|
|
d.addCallback(self._contacted_helper)
|
|
return d
|
|
|
|
def _contacted_helper(self, (upload_results, upload_helper)):
|
|
now = time.time()
|
|
elapsed = now - self._time_contacting_helper_start
|
|
self._elapsed_time_contacting_helper = elapsed
|
|
if upload_helper:
|
|
self.log("helper says we need to upload")
|
|
self._upload_status.set_status("Uploading Ciphertext")
|
|
# we need to upload the file
|
|
reu = RemoteEncryptedUploadable(self._encuploadable,
|
|
self._upload_status)
|
|
# let it pre-compute the size for progress purposes
|
|
d = reu.get_size()
|
|
d.addCallback(lambda ignored:
|
|
upload_helper.callRemote("upload", reu))
|
|
# this Deferred will fire with the upload results
|
|
return d
|
|
self.log("helper says file is already uploaded")
|
|
self._upload_status.set_progress(1, 1.0)
|
|
self._upload_status.set_results(upload_results)
|
|
return upload_results
|
|
|
|
def _build_readcap(self, upload_results):
|
|
self.log("upload finished, building readcap")
|
|
self._upload_status.set_status("Building Readcap")
|
|
r = upload_results
|
|
assert r.uri_extension_data["needed_shares"] == self._needed_shares
|
|
assert r.uri_extension_data["total_shares"] == self._total_shares
|
|
assert r.uri_extension_data["segment_size"] == self._segment_size
|
|
assert r.uri_extension_data["size"] == self._size
|
|
u = uri.CHKFileURI(key=self._key,
|
|
uri_extension_hash=r.uri_extension_hash,
|
|
needed_shares=self._needed_shares,
|
|
total_shares=self._total_shares,
|
|
size=self._size,
|
|
)
|
|
r.uri = u.to_string()
|
|
now = time.time()
|
|
r.file_size = self._size
|
|
r.timings["storage_index"] = self._storage_index_elapsed
|
|
r.timings["contacting_helper"] = self._elapsed_time_contacting_helper
|
|
if "total" in r.timings:
|
|
r.timings["helper_total"] = r.timings["total"]
|
|
r.timings["total"] = now - self._started
|
|
self._upload_status.set_status("Done")
|
|
self._upload_status.set_results(r)
|
|
return r
|
|
|
|
def get_upload_status(self):
|
|
return self._upload_status
|
|
|
|
class BaseUploadable:
|
|
default_max_segment_size = 128*KiB # overridden by max_segment_size
|
|
default_encoding_param_k = 3 # overridden by encoding_parameters
|
|
default_encoding_param_happy = 7
|
|
default_encoding_param_n = 10
|
|
|
|
max_segment_size = None
|
|
encoding_param_k = None
|
|
encoding_param_happy = None
|
|
encoding_param_n = None
|
|
|
|
_all_encoding_parameters = None
|
|
_status = None
|
|
|
|
def set_upload_status(self, upload_status):
|
|
self._status = IUploadStatus(upload_status)
|
|
|
|
def set_default_encoding_parameters(self, default_params):
|
|
assert isinstance(default_params, dict)
|
|
for k,v in default_params.items():
|
|
precondition(isinstance(k, str), k, v)
|
|
precondition(isinstance(v, int), k, v)
|
|
if "k" in default_params:
|
|
self.default_encoding_param_k = default_params["k"]
|
|
if "happy" in default_params:
|
|
self.default_encoding_param_happy = default_params["happy"]
|
|
if "n" in default_params:
|
|
self.default_encoding_param_n = default_params["n"]
|
|
if "max_segment_size" in default_params:
|
|
self.default_max_segment_size = default_params["max_segment_size"]
|
|
|
|
def get_all_encoding_parameters(self):
|
|
if self._all_encoding_parameters:
|
|
return defer.succeed(self._all_encoding_parameters)
|
|
|
|
max_segsize = self.max_segment_size or self.default_max_segment_size
|
|
k = self.encoding_param_k or self.default_encoding_param_k
|
|
happy = self.encoding_param_happy or self.default_encoding_param_happy
|
|
n = self.encoding_param_n or self.default_encoding_param_n
|
|
|
|
d = self.get_size()
|
|
def _got_size(file_size):
|
|
# for small files, shrink the segment size to avoid wasting space
|
|
segsize = min(max_segsize, file_size)
|
|
# this must be a multiple of 'required_shares'==k
|
|
segsize = mathutil.next_multiple(segsize, k)
|
|
encoding_parameters = (k, happy, n, segsize)
|
|
self._all_encoding_parameters = encoding_parameters
|
|
return encoding_parameters
|
|
d.addCallback(_got_size)
|
|
return d
|
|
|
|
class FileHandle(BaseUploadable):
|
|
implements(IUploadable)
|
|
|
|
def __init__(self, filehandle, contenthashkey=True):
|
|
self._filehandle = filehandle
|
|
self._key = None
|
|
self._contenthashkey = contenthashkey
|
|
self._size = None
|
|
|
|
def _get_encryption_key_content_hash(self):
|
|
if self._key is not None:
|
|
return defer.succeed(self._key)
|
|
|
|
d = self.get_size()
|
|
# that sets self._size as a side-effect
|
|
d.addCallback(lambda size: self.get_all_encoding_parameters())
|
|
def _got(params):
|
|
k, happy, n, segsize = params
|
|
f = self._filehandle
|
|
enckey_hasher = content_hash_key_hasher(k, n, segsize)
|
|
f.seek(0)
|
|
BLOCKSIZE = 64*1024
|
|
bytes_read = 0
|
|
while True:
|
|
data = f.read(BLOCKSIZE)
|
|
if not data:
|
|
break
|
|
enckey_hasher.update(data)
|
|
# TODO: setting progress in a non-yielding loop is kind of
|
|
# pointless, but I'm anticipating (perhaps prematurely) the
|
|
# day when we use a slowjob or twisted's CooperatorService to
|
|
# make this yield time to other jobs.
|
|
bytes_read += len(data)
|
|
if self._status:
|
|
self._status.set_progress(0, float(bytes_read)/self._size)
|
|
f.seek(0)
|
|
self._key = enckey_hasher.digest()
|
|
if self._status:
|
|
self._status.set_progress(0, 1.0)
|
|
assert len(self._key) == 16
|
|
return self._key
|
|
d.addCallback(_got)
|
|
return d
|
|
|
|
def _get_encryption_key_random(self):
|
|
if self._key is None:
|
|
self._key = os.urandom(16)
|
|
return defer.succeed(self._key)
|
|
|
|
def get_encryption_key(self):
|
|
if self._contenthashkey:
|
|
return self._get_encryption_key_content_hash()
|
|
else:
|
|
return self._get_encryption_key_random()
|
|
|
|
def get_size(self):
|
|
if self._size is not None:
|
|
return defer.succeed(self._size)
|
|
self._filehandle.seek(0,2)
|
|
size = self._filehandle.tell()
|
|
self._size = size
|
|
self._filehandle.seek(0)
|
|
return defer.succeed(size)
|
|
|
|
def read(self, length):
|
|
return defer.succeed([self._filehandle.read(length)])
|
|
|
|
def close(self):
|
|
# the originator of the filehandle reserves the right to close it
|
|
pass
|
|
|
|
class FileName(FileHandle):
|
|
def __init__(self, filename, contenthashkey=True):
|
|
FileHandle.__init__(self, open(filename, "rb"), contenthashkey=contenthashkey)
|
|
def close(self):
|
|
FileHandle.close(self)
|
|
self._filehandle.close()
|
|
|
|
class Data(FileHandle):
|
|
def __init__(self, data, contenthashkey=True):
|
|
FileHandle.__init__(self, StringIO(data), contenthashkey=contenthashkey)
|
|
|
|
class Uploader(service.MultiService):
|
|
"""I am a service that allows file uploading. I am a service-child of the
|
|
Client.
|
|
"""
|
|
implements(IUploader)
|
|
name = "uploader"
|
|
uploader_class = CHKUploader
|
|
URI_LIT_SIZE_THRESHOLD = 55
|
|
MAX_UPLOAD_STATUSES = 10
|
|
|
|
def __init__(self, helper_furl=None):
|
|
self._helper_furl = helper_furl
|
|
self._helper = None
|
|
self._all_uploads = weakref.WeakKeyDictionary()
|
|
self._recent_upload_status = []
|
|
service.MultiService.__init__(self)
|
|
|
|
def startService(self):
|
|
service.MultiService.startService(self)
|
|
if self._helper_furl:
|
|
self.parent.tub.connectTo(self._helper_furl,
|
|
self._got_helper)
|
|
|
|
def _got_helper(self, helper):
|
|
self._helper = helper
|
|
helper.notifyOnDisconnect(self._lost_helper)
|
|
def _lost_helper(self):
|
|
self._helper = None
|
|
|
|
def get_helper_info(self):
|
|
# return a tuple of (helper_furl_or_None, connected_bool)
|
|
return (self._helper_furl, bool(self._helper))
|
|
|
|
def upload(self, uploadable):
|
|
# this returns the URI
|
|
assert self.parent
|
|
assert self.running
|
|
|
|
uploadable = IUploadable(uploadable)
|
|
d = uploadable.get_size()
|
|
def _got_size(size):
|
|
default_params = self.parent.get_encoding_parameters()
|
|
precondition(isinstance(default_params, dict), default_params)
|
|
precondition("max_segment_size" in default_params, default_params)
|
|
uploadable.set_default_encoding_parameters(default_params)
|
|
if size <= self.URI_LIT_SIZE_THRESHOLD:
|
|
uploader = LiteralUploader(self.parent)
|
|
elif self._helper:
|
|
uploader = AssistedUploader(self._helper)
|
|
else:
|
|
uploader = self.uploader_class(self.parent)
|
|
self._all_uploads[uploader] = None
|
|
self._recent_upload_status.append(uploader.get_upload_status())
|
|
while len(self._recent_upload_status) > self.MAX_UPLOAD_STATUSES:
|
|
self._recent_upload_status.pop(0)
|
|
return uploader.start(uploadable)
|
|
d.addCallback(_got_size)
|
|
def _done(res):
|
|
uploadable.close()
|
|
return res
|
|
d.addBoth(_done)
|
|
return d
|
|
|
|
def list_all_uploads(self):
|
|
return self._all_uploads.keys()
|
|
def list_active_uploads(self):
|
|
return [u.get_upload_status() for u in self._all_uploads.keys()
|
|
if u.get_upload_status().get_active()]
|
|
def list_recent_uploads(self):
|
|
return self._recent_upload_status
|