import os, time, weakref, itertools from zope.interface import implements from twisted.python import failure from twisted.internet import defer from twisted.application import service from foolscap.api import Referenceable, Copyable, RemoteCopy, fireEventually from allmydata.util.hashutil import file_renewal_secret_hash, \ file_cancel_secret_hash, bucket_renewal_secret_hash, \ bucket_cancel_secret_hash, plaintext_hasher, \ storage_index_hash, plaintext_segment_hasher, convergence_hasher from allmydata import hashtree, uri from allmydata.storage.server import si_b2a from allmydata.immutable import encode from allmydata.util import base32, dictutil, idlib, log, mathutil from allmydata.util.assertutil import precondition from allmydata.util.rrefutil import add_version_to_remote_reference from allmydata.interfaces import IUploadable, IUploader, IUploadResults, \ IEncryptedUploadable, RIEncryptedUploadable, IUploadStatus, \ NotEnoughSharesError, NoSharesError, NoServersError, \ InsufficientVersionError from allmydata.immutable import layout from pycryptopp.cipher.aes import AES from cStringIO import StringIO KiB=1024 MiB=1024*KiB GiB=1024*MiB TiB=1024*GiB PiB=1024*TiB class HaveAllPeersError(Exception): # we use this to jump out of the loop pass # this wants to live in storage, not here class TooFullError(Exception): pass class UploadResults(Copyable, RemoteCopy): implements(IUploadResults) # note: don't change this string, it needs to match the value used on the # helper, and it does *not* need to match the fully-qualified # package/module/class name typeToCopy = "allmydata.upload.UploadResults.tahoe.allmydata.com" copytype = typeToCopy # also, think twice about changing the shape of any existing attribute, # because instances of this class are sent from the helper to its client, # so changing this may break compatibility. Consider adding new fields # instead of modifying existing ones. def __init__(self): self.timings = {} # dict of name to number of seconds self.sharemap = dictutil.DictOfSets() # {shnum: set(serverid)} self.servermap = dictutil.DictOfSets() # {serverid: set(shnum)} self.file_size = None self.ciphertext_fetched = None # how much the helper fetched self.uri = None self.preexisting_shares = None # count of shares already present self.pushed_shares = None # count of shares we pushed # our current uri_extension is 846 bytes for small files, a few bytes # more for larger ones (since the filesize is encoded in decimal in a # few places). Ask for a little bit more just in case we need it. If # the extension changes size, we can change EXTENSION_SIZE to # allocate a more accurate amount of space. EXTENSION_SIZE = 1000 # TODO: actual extensions are closer to 419 bytes, so we can probably lower # this. class PeerTracker: def __init__(self, peerid, storage_server, sharesize, blocksize, num_segments, num_share_hashes, storage_index, bucket_renewal_secret, bucket_cancel_secret): precondition(isinstance(peerid, str), peerid) precondition(len(peerid) == 20, peerid) self.peerid = peerid self._storageserver = storage_server # to an RIStorageServer self.buckets = {} # k: shareid, v: IRemoteBucketWriter self.sharesize = sharesize wbp = layout.make_write_bucket_proxy(None, sharesize, blocksize, num_segments, num_share_hashes, EXTENSION_SIZE, peerid) self.wbp_class = wbp.__class__ # to create more of them self.allocated_size = wbp.get_allocated_size() self.blocksize = blocksize self.num_segments = num_segments self.num_share_hashes = num_share_hashes self.storage_index = storage_index self.renew_secret = bucket_renewal_secret self.cancel_secret = bucket_cancel_secret def __repr__(self): return ("" % (idlib.shortnodeid_b2a(self.peerid), si_b2a(self.storage_index)[:5])) def query(self, sharenums): d = self._storageserver.callRemote("allocate_buckets", self.storage_index, self.renew_secret, self.cancel_secret, sharenums, self.allocated_size, canary=Referenceable()) d.addCallback(self._got_reply) return d def _got_reply(self, (alreadygot, buckets)): #log.msg("%s._got_reply(%s)" % (self, (alreadygot, buckets))) b = {} for sharenum, rref in buckets.iteritems(): bp = self.wbp_class(rref, self.sharesize, self.blocksize, self.num_segments, self.num_share_hashes, EXTENSION_SIZE, self.peerid) b[sharenum] = bp self.buckets.update(b) return (alreadygot, set(b.keys())) class Tahoe2PeerSelector: def __init__(self, upload_id, logparent=None, upload_status=None): self.upload_id = upload_id self.query_count, self.good_query_count, self.bad_query_count = 0,0,0 self.error_count = 0 self.num_peers_contacted = 0 self.last_failure_msg = None self._status = IUploadStatus(upload_status) self._log_parent = log.msg("%s starting" % self, parent=logparent) def __repr__(self): return "" % self.upload_id def get_shareholders(self, storage_broker, secret_holder, storage_index, share_size, block_size, num_segments, total_shares, shares_of_happiness): """ @return: (used_peers, already_peers), where used_peers is a set of PeerTracker instances that have agreed to hold some shares for us (the shnum is stashed inside the PeerTracker), and already_peers is a dict mapping shnum to a peer which claims to already have the share. """ if self._status: self._status.set_status("Contacting Peers..") self.total_shares = total_shares self.shares_of_happiness = shares_of_happiness self.homeless_shares = range(total_shares) # self.uncontacted_peers = list() # peers we haven't asked yet self.contacted_peers = [] # peers worth asking again self.contacted_peers2 = [] # peers that we have asked again self._started_second_pass = False self.use_peers = set() # PeerTrackers that have shares assigned to them self.preexisting_shares = {} # sharenum -> peerid holding the share peers = storage_broker.get_servers_for_index(storage_index) if not peers: raise NoServersError("client gave us zero peers") # this needed_hashes computation should mirror # Encoder.send_all_share_hash_trees. We use an IncompleteHashTree # (instead of a HashTree) because we don't require actual hashing # just to count the levels. ht = hashtree.IncompleteHashTree(total_shares) num_share_hashes = len(ht.needed_hashes(0, include_leaf=True)) # figure out how much space to ask for wbp = layout.make_write_bucket_proxy(None, share_size, 0, num_segments, num_share_hashes, EXTENSION_SIZE, None) allocated_size = wbp.get_allocated_size() # filter the list of peers according to which ones can accomodate # this request. This excludes older peers (which used a 4-byte size # field) from getting large shares (for files larger than about # 12GiB). See #439 for details. def _get_maxsize(peer): (peerid, conn) = peer v1 = conn.version["http://allmydata.org/tahoe/protocols/storage/v1"] return v1["maximum-immutable-share-size"] peers = [peer for peer in peers if _get_maxsize(peer) >= allocated_size] if not peers: raise NoServersError("no peers could accept an allocated_size of %d" % allocated_size) # decide upon the renewal/cancel secrets, to include them in the # allocate_buckets query. client_renewal_secret = secret_holder.get_renewal_secret() client_cancel_secret = secret_holder.get_cancel_secret() file_renewal_secret = file_renewal_secret_hash(client_renewal_secret, storage_index) file_cancel_secret = file_cancel_secret_hash(client_cancel_secret, storage_index) trackers = [ PeerTracker(peerid, conn, share_size, block_size, num_segments, num_share_hashes, storage_index, bucket_renewal_secret_hash(file_renewal_secret, peerid), bucket_cancel_secret_hash(file_cancel_secret, peerid), ) for (peerid, conn) in peers ] self.uncontacted_peers = trackers d = defer.maybeDeferred(self._loop) return d def _loop(self): if not self.homeless_shares: # all done msg = ("placed all %d shares, " "sent %d queries to %d peers, " "%d queries placed some shares, %d placed none, " "got %d errors" % (self.total_shares, self.query_count, self.num_peers_contacted, self.good_query_count, self.bad_query_count, self.error_count)) log.msg("peer selection successful for %s: %s" % (self, msg), parent=self._log_parent) return (self.use_peers, self.preexisting_shares) if self.uncontacted_peers: peer = self.uncontacted_peers.pop(0) # TODO: don't pre-convert all peerids to PeerTrackers assert isinstance(peer, PeerTracker) shares_to_ask = set([self.homeless_shares.pop(0)]) self.query_count += 1 self.num_peers_contacted += 1 if self._status: self._status.set_status("Contacting Peers [%s] (first query)," " %d shares left.." % (idlib.shortnodeid_b2a(peer.peerid), len(self.homeless_shares))) d = peer.query(shares_to_ask) d.addBoth(self._got_response, peer, shares_to_ask, self.contacted_peers) return d elif self.contacted_peers: # ask a peer that we've already asked. if not self._started_second_pass: log.msg("starting second pass", parent=self._log_parent, level=log.NOISY) self._started_second_pass = True num_shares = mathutil.div_ceil(len(self.homeless_shares), len(self.contacted_peers)) peer = self.contacted_peers.pop(0) shares_to_ask = set(self.homeless_shares[:num_shares]) self.homeless_shares[:num_shares] = [] self.query_count += 1 if self._status: self._status.set_status("Contacting Peers [%s] (second query)," " %d shares left.." % (idlib.shortnodeid_b2a(peer.peerid), len(self.homeless_shares))) d = peer.query(shares_to_ask) d.addBoth(self._got_response, peer, shares_to_ask, self.contacted_peers2) return d elif self.contacted_peers2: # we've finished the second-or-later pass. Move all the remaining # peers back into self.contacted_peers for the next pass. self.contacted_peers.extend(self.contacted_peers2) self.contacted_peers2[:] = [] return self._loop() else: # no more peers. If we haven't placed enough shares, we fail. placed_shares = self.total_shares - len(self.homeless_shares) if placed_shares < self.shares_of_happiness: msg = ("placed %d shares out of %d total (%d homeless), " "want to place %d, " "sent %d queries to %d peers, " "%d queries placed some shares, %d placed none, " "got %d errors" % (self.total_shares - len(self.homeless_shares), self.total_shares, len(self.homeless_shares), self.shares_of_happiness, self.query_count, self.num_peers_contacted, self.good_query_count, self.bad_query_count, self.error_count)) msg = "peer selection failed for %s: %s" % (self, msg) if self.last_failure_msg: msg += " (%s)" % (self.last_failure_msg,) log.msg(msg, level=log.UNUSUAL, parent=self._log_parent) if placed_shares: raise NotEnoughSharesError(msg) else: raise NoSharesError(msg) else: # we placed enough to be happy, so we're done if self._status: self._status.set_status("Placed all shares") return self.use_peers def _got_response(self, res, peer, shares_to_ask, put_peer_here): if isinstance(res, failure.Failure): # This is unusual, and probably indicates a bug or a network # problem. log.msg("%s got error during peer selection: %s" % (peer, res), level=log.UNUSUAL, parent=self._log_parent) self.error_count += 1 self.homeless_shares = list(shares_to_ask) + self.homeless_shares if (self.uncontacted_peers or self.contacted_peers or self.contacted_peers2): # there is still hope, so just loop pass else: # No more peers, so this upload might fail (it depends upon # whether we've hit shares_of_happiness or not). Log the last # failure we got: if a coding error causes all peers to fail # in the same way, this allows the common failure to be seen # by the uploader and should help with debugging msg = ("last failure (from %s) was: %s" % (peer, res)) self.last_failure_msg = msg else: (alreadygot, allocated) = res log.msg("response from peer %s: alreadygot=%s, allocated=%s" % (idlib.shortnodeid_b2a(peer.peerid), tuple(sorted(alreadygot)), tuple(sorted(allocated))), level=log.NOISY, parent=self._log_parent) progress = False for s in alreadygot: self.preexisting_shares[s] = peer.peerid if s in self.homeless_shares: self.homeless_shares.remove(s) progress = True # the PeerTracker will remember which shares were allocated on # that peer. We just have to remember to use them. if allocated: self.use_peers.add(peer) progress = True not_yet_present = set(shares_to_ask) - set(alreadygot) still_homeless = not_yet_present - set(allocated) if progress: # they accepted or already had at least one share, so # progress has been made self.good_query_count += 1 else: self.bad_query_count += 1 if still_homeless: # In networks with lots of space, this is very unusual and # probably indicates an error. In networks with peers that # are full, it is merely unusual. In networks that are very # full, it is common, and many uploads will fail. In most # cases, this is obviously not fatal, and we'll just use some # other peers. # some shares are still homeless, keep trying to find them a # home. The ones that were rejected get first priority. self.homeless_shares = (list(still_homeless) + self.homeless_shares) # Since they were unable to accept all of our requests, so it # is safe to assume that asking them again won't help. else: # if they *were* able to accept everything, they might be # willing to accept even more. put_peer_here.append(peer) # now loop return self._loop() class EncryptAnUploadable: """This is a wrapper that takes an IUploadable and provides IEncryptedUploadable.""" implements(IEncryptedUploadable) CHUNKSIZE = 50*1024 def __init__(self, original, log_parent=None): self.original = IUploadable(original) self._log_number = log_parent self._encryptor = None self._plaintext_hasher = plaintext_hasher() self._plaintext_segment_hasher = None self._plaintext_segment_hashes = [] self._encoding_parameters = None self._file_size = None self._ciphertext_bytes_read = 0 self._status = None def set_upload_status(self, upload_status): self._status = IUploadStatus(upload_status) self.original.set_upload_status(upload_status) def log(self, *args, **kwargs): if "facility" not in kwargs: kwargs["facility"] = "upload.encryption" if "parent" not in kwargs: kwargs["parent"] = self._log_number return log.msg(*args, **kwargs) def get_size(self): if self._file_size is not None: return defer.succeed(self._file_size) d = self.original.get_size() def _got_size(size): self._file_size = size if self._status: self._status.set_size(size) return size d.addCallback(_got_size) return d def get_all_encoding_parameters(self): if self._encoding_parameters is not None: return defer.succeed(self._encoding_parameters) d = self.original.get_all_encoding_parameters() def _got(encoding_parameters): (k, happy, n, segsize) = encoding_parameters self._segment_size = segsize # used by segment hashers self._encoding_parameters = encoding_parameters self.log("my encoding parameters: %s" % (encoding_parameters,), level=log.NOISY) return encoding_parameters d.addCallback(_got) return d def _get_encryptor(self): if self._encryptor: return defer.succeed(self._encryptor) d = self.original.get_encryption_key() def _got(key): e = AES(key) self._encryptor = e storage_index = storage_index_hash(key) assert isinstance(storage_index, str) # There's no point to having the SI be longer than the key, so we # specify that it is truncated to the same 128 bits as the AES key. assert len(storage_index) == 16 # SHA-256 truncated to 128b self._storage_index = storage_index if self._status: self._status.set_storage_index(storage_index) return e d.addCallback(_got) return d def get_storage_index(self): d = self._get_encryptor() d.addCallback(lambda res: self._storage_index) return d def _get_segment_hasher(self): p = self._plaintext_segment_hasher if p: left = self._segment_size - self._plaintext_segment_hashed_bytes return p, left p = plaintext_segment_hasher() self._plaintext_segment_hasher = p self._plaintext_segment_hashed_bytes = 0 return p, self._segment_size def _update_segment_hash(self, chunk): offset = 0 while offset < len(chunk): p, segment_left = self._get_segment_hasher() chunk_left = len(chunk) - offset this_segment = min(chunk_left, segment_left) p.update(chunk[offset:offset+this_segment]) self._plaintext_segment_hashed_bytes += this_segment if self._plaintext_segment_hashed_bytes == self._segment_size: # we've filled this segment self._plaintext_segment_hashes.append(p.digest()) self._plaintext_segment_hasher = None self.log("closed hash [%d]: %dB" % (len(self._plaintext_segment_hashes)-1, 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) offset += this_segment 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(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): # this is currently unused, but will live again when we fix #453 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, storage_broker, secret_holder): # peer_selector needs storage_broker and secret_holder self._storage_broker = storage_broker self._secret_holder = secret_holder self._log_number = self.log("CHKUploader starting", parent=None) 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) # locate_all_shareholders() will create the following attribute: # self._peer_trackers = {} # k: shnum, v: instance of PeerTracker 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 log.msg(*args, **kwargs) def start(self, encrypted_uploadable): """Start uploading the file. Returns a Deferred that will fire with the UploadResults instance. """ self._started = time.time() eu = IEncryptedUploadable(encrypted_uploadable) self.log("starting upload of %s" % eu) eu.set_upload_status(self._upload_status) d = self.start_encrypted(eu) def _done(uploadresults): self._upload_status.set_active(False) return uploadresults d.addBoth(_done) return d def abort(self): """Call this if 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): """ Returns a Deferred that will fire with the UploadResults instance. """ 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) return d def locate_all_shareholders(self, encoder, started): peer_selection_started = now = time.time() self._storage_index_elapsed = now - started storage_broker = self._storage_broker secret_holder = self._secret_holder storage_index = encoder.get_param("storage_index") self._storage_index = storage_index upload_id = 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(storage_broker, secret_holder, 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 self._results.preexisting_shares = len(already_peers) self._peer_trackers = {} # k: shnum, v: instance of PeerTracker 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._peer_trackers[shnum] = peer assert len(buckets) == sum([len(peer.buckets) for peer in used_peers]) encoder.set_shareholders(buckets) def _encrypted_done(self, verifycap): """ Returns a Deferred that will fire with the UploadResults instance. """ r = self._results for shnum in self._encoder.get_shares_placed(): peer_tracker = self._peer_trackers[shnum] peerid = peer_tracker.peerid peerid_s = idlib.shortnodeid_b2a(peerid) r.sharemap.add(shnum, peerid) r.servermap.add(peerid, 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() r.verifycapstr = verifycap.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): 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_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, encrypted_uploadable, storage_index): """Start uploading the file. Returns a Deferred that will fire with the UploadResults instance. """ precondition(isinstance(storage_index, str), storage_index) self._started = time.time() eu = IEncryptedUploadable(encrypted_uploadable) eu.set_upload_status(self._upload_status) self._encuploadable = eu self._storage_index = storage_index 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) d.addCallback(self._contact_helper) d.addCallback(self._build_verifycap) 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 _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=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 _convert_old_upload_results(self, upload_results): # pre-1.3.0 helpers return upload results which contain a mapping # from shnum to a single human-readable string, containing things # like "Found on [x],[y],[z]" (for healthy files that were already in # the grid), "Found on [x]" (for files that needed upload but which # discovered pre-existing shares), and "Placed on [x]" (for newly # uploaded shares). The 1.3.0 helper returns a mapping from shnum to # set of binary serverid strings. # the old results are too hard to deal with (they don't even contain # as much information as the new results, since the nodeids are # abbreviated), so if we detect old results, just clobber them. sharemap = upload_results.sharemap if str in [type(v) for v in sharemap.values()]: upload_results.sharemap = None def _build_verifycap(self, upload_results): self.log("upload finished, building readcap") self._convert_old_upload_results(upload_results) 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 r.verifycapstr = uri.CHKFileVerifierURI(self._storage_index, uri_extension_hash=r.uri_extension_hash, needed_shares=self._needed_shares, total_shares=self._total_shares, size=self._size ).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, convergence): """ Upload the data from the filehandle. If convergence is None then a random encryption key will be used, else the plaintext will be hashed, then the hash will be hashed together with the string in the "convergence" argument to form the encryption key. """ assert convergence is None or isinstance(convergence, str), (convergence, type(convergence)) self._filehandle = filehandle self._key = None self.convergence = convergence self._size = None def _get_encryption_key_convergent(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 = convergence_hasher(k, n, segsize, self.convergence) 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.convergence is not None: return self._get_encryption_key_convergent() 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, convergence): """ Upload the data from the filename. If convergence is None then a random encryption key will be used, else the plaintext will be hashed, then the hash will be hashed together with the string in the "convergence" argument to form the encryption key. """ assert convergence is None or isinstance(convergence, str), (convergence, type(convergence)) FileHandle.__init__(self, open(filename, "rb"), convergence=convergence) def close(self): FileHandle.close(self) self._filehandle.close() class Data(FileHandle): def __init__(self, data, convergence): """ Upload the data from the data argument. If convergence is None then a random encryption key will be used, else the plaintext will be hashed, then the hash will be hashed together with the string in the "convergence" argument to form the encryption key. """ assert convergence is None or isinstance(convergence, str), (convergence, type(convergence)) FileHandle.__init__(self, StringIO(data), convergence=convergence) class Uploader(service.MultiService, log.PrefixingLogMixin): """I am a service that allows file uploading. I am a service-child of the Client. """ implements(IUploader) name = "uploader" URI_LIT_SIZE_THRESHOLD = 55 def __init__(self, helper_furl=None, stats_provider=None): self._helper_furl = helper_furl self.stats_provider = stats_provider self._helper = None self._all_uploads = weakref.WeakKeyDictionary() # for debugging log.PrefixingLogMixin.__init__(self, facility="tahoe.immutable.upload") 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.log("got helper connection, getting versions") default = { "http://allmydata.org/tahoe/protocols/helper/v1" : { }, "application-version": "unknown: no get_version()", } d = add_version_to_remote_reference(helper, default) d.addCallback(self._got_versioned_helper) def _got_versioned_helper(self, helper): needed = "http://allmydata.org/tahoe/protocols/helper/v1" if needed not in helper.version: raise InsufficientVersionError(needed, helper.version) 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, history=None): """ Returns a Deferred that will fire with the UploadResults instance. """ 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 self.stats_provider: self.stats_provider.count('uploader.files_uploaded', 1) self.stats_provider.count('uploader.bytes_uploaded', size) if size <= self.URI_LIT_SIZE_THRESHOLD: uploader = LiteralUploader() return uploader.start(uploadable) else: eu = EncryptAnUploadable(uploadable, self._parentmsgid) d2 = defer.succeed(None) if self._helper: uploader = AssistedUploader(self._helper) d2.addCallback(lambda x: eu.get_storage_index()) d2.addCallback(lambda si: uploader.start(eu, si)) else: storage_broker = self.parent.get_storage_broker() secret_holder = self.parent._secret_holder uploader = CHKUploader(storage_broker, secret_holder) d2.addCallback(lambda x: uploader.start(eu)) self._all_uploads[uploader] = None if history: history.add_upload(uploader.get_upload_status()) def turn_verifycap_into_read_cap(uploadresults): # Generate the uri from the verifycap plus the key. d3 = uploadable.get_encryption_key() def put_readcap_into_results(key): v = uri.from_string(uploadresults.verifycapstr) r = uri.CHKFileURI(key, v.uri_extension_hash, v.needed_shares, v.total_shares, v.size) uploadresults.uri = r.to_string() return uploadresults d3.addCallback(put_readcap_into_results) return d3 d2.addCallback(turn_verifycap_into_read_cap) return d2 d.addCallback(_got_size) def _done(res): uploadable.close() return res d.addBoth(_done) return d