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- #!/usr/bin/env python3
- import random # For simulation, not cryptography!
- import bisect
- import math
- import logging
- import nacl.encoding
- import nacl.signing
- import merklelib
- import hashlib
- import network
- # A relay descriptor is a dict containing:
- # epoch: epoch id
- # idkey: a public identity key
- # onionkey: a public onion key
- # addr: a network address
- # bw: bandwidth
- # flags: relay flags
- # vrfkey: a VRF public key (Single-Pass Walking Onions only)
- # sig: a signature over the above by the idkey
- class RelayDescriptor:
- def __init__(self, descdict):
- self.descdict = descdict
- def __str__(self, withsig = True):
- res = "RelayDesc [\n"
- for k in ["epoch", "idkey", "onionkey", "addr", "bw", "flags",
- "vrfkey", "sig"]:
- if k in self.descdict:
- if k == "idkey" or k == "onionkey":
- res += " " + k + ": " + self.descdict[k].encode(encoder=nacl.encoding.HexEncoder).decode("ascii") + "\n"
- elif k == "sig":
- if withsig:
- res += " " + k + ": " + nacl.encoding.HexEncoder.encode(self.descdict[k]).decode("ascii") + "\n"
- else:
- res += " " + k + ": " + str(self.descdict[k]) + "\n"
- res += "]\n"
- return res
- def sign(self, signingkey, perfstats):
- serialized = self.__str__(False)
- signed = signingkey.sign(serialized.encode("ascii"))
- perfstats.sigs += 1
- self.descdict["sig"] = signed.signature
- @staticmethod
- def verify(desc, perfstats):
- assert(type(desc) is RelayDescriptor)
- serialized = desc.__str__(False)
- perfstats.verifs += 1
- desc.descdict["idkey"].verify(serialized.encode("ascii"), desc.descdict["sig"])
- # A SNIP is a dict containing:
- # epoch: epoch id
- # idkey: a public identity key
- # onionkey: a public onion key
- # addr: a network address
- # flags: relay flags
- # vrfkey: a VRF public key (Single-Pass Walking Onions only)
- # range: the (lo,hi) values for the index range (lo is inclusive, hi is
- # exclusive; that is, x is in the range if lo <= x < hi).
- # lo=hi denotes an empty range.
- # auth: either a signature from the authorities over the above
- # (Threshold signature case) or a Merkle path to the root
- # contained in the consensus (Merkle tree case)
- #
- # Note that the fields of the SNIP are the same as those of the
- # RelayDescriptor, except bw and sig are removed, and range and auth are
- # added.
- class SNIP:
- def __init__(self, snipdict):
- self.snipdict = snipdict
- def __str__(self, withauth = True):
- res = "SNIP [\n"
- for k in ["epoch", "idkey", "onionkey", "addr", "flags",
- "vrfkey", "range", "auth"]:
- if k in self.snipdict:
- if k == "idkey" or k == "onionkey":
- res += " " + k + ": " + self.snipdict[k].encode(encoder=nacl.encoding.HexEncoder).decode("ascii") + "\n"
- elif k == "auth":
- if withauth:
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.THRESHSIG:
- res += " " + k + ": " + nacl.encoding.HexEncoder.encode(self.snipdict[k]).decode("ascii") + "\n"
- else:
- res += " " + k + ": " + str(self.snipdict[k])
- else:
- res += " " + k + ": " + str(self.snipdict[k]) + "\n"
- res += "]\n"
- return res
- def auth(self, signingkey, perfstats):
- if network.thenetwork.snipauthmode == network.SNIPAuthMode.THRESHSIG:
- serialized = self.__str__(False)
- signed = signingkey.sign(serialized.encode("ascii"))
- perfstats.sigs += 1
- self.snipdict["auth"] = signed.signature
- else:
- raise ValueError("Merkle auth not valid for SNIP.auth")
- @staticmethod
- def verify(snip, consensus, verifykey, perfstats):
- if network.thenetwork.snipauthmode == network.SNIPAuthMode.THRESHSIG:
- assert(type(snip) is SNIP and type(consensus) is Consensus)
- assert(consensus.consdict["epoch"] == snip.snipdict["epoch"])
- serialized = snip.__str__(False)
- perfstats.verifs += 1
- verifykey.verify(serialized.encode("ascii"),
- snip.snipdict["auth"])
- else:
- assert(merklelib.verify_leaf_inclusion(
- snip.__str__(False), snip.snipdict["auth"],
- merklelib.Hasher(), consensus.consdict["merkleroot"]))
- # A consensus is a dict containing:
- # epoch: epoch id
- # numrelays: total number of relays
- # totbw: total bandwidth of relays
- # merkleroot: the root of the SNIP Merkle tree (Merkle tree auth only)
- # relays: list of relay descriptors (Vanilla Onion Routing only)
- # sigs: list of signatures from the dirauths
- class Consensus:
- def __init__(self, epoch, relays):
- relays = [ d for d in relays if d.descdict['epoch'] == epoch ]
- self.consdict = dict()
- self.consdict['epoch'] = epoch
- self.consdict['numrelays'] = len(relays)
- if network.thenetwork.womode == network.WOMode.VANILLA:
- self.consdict['totbw'] = sum([ d.descdict['bw'] for d in relays ])
- self.consdict['relays'] = relays
- else:
- self.consdict['totbw'] = 1<<32
- def __str__(self, withsigs = True):
- res = "Consensus [\n"
- for k in ["epoch", "numrelays", "totbw"]:
- if k in self.consdict:
- res += " " + k + ": " + str(self.consdict[k]) + "\n"
- if network.thenetwork.womode == network.WOMode.VANILLA:
- for r in self.consdict['relays']:
- res += str(r)
- if network.thenetwork.snipauthmode == network.SNIPAuthMode.MERKLE:
- for k in ["merkleroot"]:
- if k in self.consdict:
- res += " " + k + ": " + str(self.consdict[k]) + "\n"
- if withsigs and ('sigs' in self.consdict):
- for s in self.consdict['sigs']:
- res += " sig: " + nacl.encoding.HexEncoder.encode(s).decode("ascii") + "\n"
- res += "]\n"
- return res
- def sign(self, signingkey, index, perfstats):
- """Use the given signing key to sign the consensus, storing the
- result in the sigs list at the given index."""
- serialized = self.__str__(False)
- signed = signingkey.sign(serialized.encode("ascii"))
- perfstats.sigs += 1
- if 'sigs' not in self.consdict:
- self.consdict['sigs'] = []
- if index >= len(self.consdict['sigs']):
- self.consdict['sigs'].extend([None] * (index+1-len(self.consdict['sigs'])))
- self.consdict['sigs'][index] = signed.signature
- @staticmethod
- def verify(consensus, verifkeylist, perfstats):
- """Use the given list of verification keys to check the
- signatures on the consensus. Return the RelayPicker if
- successful, or raise an exception otherwise."""
- assert(type(consensus) is Consensus)
- serialized = consensus.__str__(False)
- for i, vk in enumerate(verifkeylist):
- perfstats.verifs += 1
- vk.verify(serialized.encode("ascii"), consensus.consdict['sigs'][i])
- # If we got this far, all is well. Return the RelayPicker.
- return RelayPicker.get(consensus)
- # An ENDIVE is a dict containing:
- # epoch: epoch id
- # snips: list of SNIPS (in THRESHSIG mode, these include the auth
- # signatures; in MERKLE mode, these do _not_ include auth)
- # sigs: list of signatures from the dirauths
- class ENDIVE:
- def __init__(self, epoch, snips):
- snips = [ s for s in snips if s.snipdict['epoch'] == epoch ]
- self.enddict = dict()
- self.enddict['epoch'] = epoch
- self.enddict['snips'] = snips
- def __str__(self, withsigs = True):
- res = "ENDIVE [\n"
- for k in ["epoch"]:
- if k in self.enddict:
- res += " " + k + ": " + str(self.enddict[k]) + "\n"
- for s in self.enddict['snips']:
- res += str(s)
- if withsigs and ('sigs' in self.enddict):
- for s in self.enddict['sigs']:
- res += " sig: " + nacl.encoding.HexEncoder.encode(s).decode("ascii") + "\n"
- res += "]\n"
- return res
- def sign(self, signingkey, index, perfstats):
- """Use the given signing key to sign the ENDIVE, storing the
- result in the sigs list at the given index."""
- serialized = self.__str__(False)
- signed = signingkey.sign(serialized.encode("ascii"))
- perfstats.sigs += 1
- if 'sigs' not in self.enddict:
- self.enddict['sigs'] = []
- if index >= len(self.enddict['sigs']):
- self.enddict['sigs'].extend([None] * (index+1-len(self.enddict['sigs'])))
- self.enddict['sigs'][index] = signed.signature
- @staticmethod
- def verify(endive, consensus, verifkeylist, perfstats):
- """Use the given list of verification keys to check the
- signatures on the ENDIVE and consensus. Return the RelayPicker
- if successful, or raise an exception otherwise."""
- assert(type(endive) is ENDIVE and type(consensus) is Consensus)
- serializedcons = consensus.__str__(False)
- for i, vk in enumerate(verifkeylist):
- perfstats.verifs += 1
- vk.verify(serializedcons.encode("ascii"), consensus.consdict['sigs'][i])
- serializedend = endive.__str__(False)
- for i, vk in enumerate(verifkeylist):
- perfstats.verifs += 1
- vk.verify(serializedend.encode("ascii"), endive.enddict['sigs'][i])
- # If we got this far, all is well. Return the RelayPicker.
- return RelayPicker.get(consensus, endive)
- class RelayPicker:
- """An instance of this class (which may be a singleton in the
- simulation) is returned by the Consensus.verify() and
- ENDIVE.verify() methods. It does any necessary precomputation
- and/or caching, and exposes a method to select a random bw-weighted
- relay, either explicitly specifying a uniform random value, or
- letting the choice be done internally."""
- # The singleton instance
- relaypicker = None
- def __init__(self, consensus, endive = None):
- self.epoch = consensus.consdict["epoch"]
- self.totbw = consensus.consdict["totbw"]
- self.consensus = consensus
- self.endive = endive
- assert(endive is None or endive.enddict["epoch"] == self.epoch)
- if network.thenetwork.womode == network.WOMode.VANILLA:
- # Create the array of cumulative bandwidth values from a
- # consensus. The array (cdf) will have the same length as
- # the number of relays in the consensus. cdf[0] = 0, and
- # cdf[i] = cdf[i-1] + relay[i-1].bw.
- self.cdf = [0]
- for r in consensus.consdict['relays']:
- self.cdf.append(self.cdf[-1]+r.descdict['bw'])
- # Remove the last item, which should be the sum of all the bws
- self.cdf.pop()
- logging.debug('cdf=%s', self.cdf)
- else:
- # Note that clients will call this with endive = None
- if self.endive is not None:
- self.cdf = [ s.snipdict['range'][0] \
- for s in self.endive.enddict['snips'] ]
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.MERKLE:
- # Construct the Merkle tree of SNIPs and check the
- # root matches the one in the consensus
- self.merkletree = merklelib.MerkleTree(
- [snip.__str__(False) \
- for snip in DirAuth.endive.enddict['snips']],
- merklelib.Hasher())
- assert(self.consensus.consdict["merkleroot"] == \
- self.merkletree.merkle_root)
- else:
- self.cdf = None
- logging.debug('cdf=%s', self.cdf)
- @staticmethod
- def get(consensus, endive = None):
- # Return the singleton instance, if it exists for this epoch
- # However, don't use the cached instance if that one has
- # endive=None, but we were passed a real ENDIVE
- if RelayPicker.relaypicker is not None and \
- (RelayPicker.relaypicker.endive is not None or \
- endive is None) and \
- RelayPicker.relaypicker.epoch == consensus.consdict["epoch"]:
- return RelayPicker.relaypicker
- # Create it otherwise, storing the result as the singleton
- RelayPicker.relaypicker = RelayPicker(consensus, endive)
- return RelayPicker.relaypicker
- def pick_relay_by_uniform_index(self, idx):
- """Pass in a uniform random index random(0,totbw-1) to get a
- relay's descriptor or snip (depending on the network mode) selected weighted by bw."""
- if network.thenetwork.womode == network.WOMode.VANILLA:
- relays = self.consensus.consdict['relays']
- else:
- relays = self.endive.enddict['snips']
- # Find the rightmost entry less than or equal to idx
- i = bisect.bisect_right(self.cdf, idx)
- r = relays[i-1]
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.MERKLE:
- # If we haven't yet computed the Merkle path for this SNIP,
- # do it now, and store it in the SNIP so that the client
- # will get it.
- if "auth" not in r.snipdict:
- r.snipdict["auth"] = \
- self.merkletree.get_proof(r.__str__(False))
- return r
- def pick_weighted_relay(self):
- """Select a random relay with probability proportional to its bw
- weight."""
- idx = self.pick_weighted_relay_index()
- return self.pick_relay_by_uniform_index(idx)
- def pick_weighted_relay_index(self):
- """Select a random relay index (for use in Walking Onions)
- uniformly, which will results in picking a relay with
- probability proportional to its bw weight."""
- totbw = self.totbw
- if totbw < 1:
- raise ValueError("No relays to choose from")
- return random.randint(0, totbw-1)
- class DirAuthNetMsg(network.NetMsg):
- """The subclass of NetMsg for messages to and from directory
- authorities."""
- class DirAuthUploadDescMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for uploading a relay
- descriptor."""
- def __init__(self, desc):
- self.desc = desc
- class DirAuthDelDescMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for deleting a relay
- descriptor."""
- def __init__(self, desc):
- self.desc = desc
- class DirAuthGetConsensusMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for fetching the consensus."""
- class DirAuthConsensusMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for returning the consensus."""
- def __init__(self, consensus):
- self.consensus = consensus
- class DirAuthGetConsensusDiffMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for fetching the consensus, if the
- requestor already has the previous consensus."""
- class DirAuthConsensusDiffMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for returning the consensus, if the
- requestor already has the previous consensus. We don't _actually_
- produce the diff at this time; we just charge fewer bytes for this
- message."""
- def __init__(self, consensus):
- self.consensus = consensus
- def size(self):
- if network.symbolic_byte_counters:
- return super().size()
- return math.ceil(DirAuthConsensusMsg(self.consensus).size() \
- * network.P_Delta)
- class DirAuthGetENDIVEMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for fetching the ENDIVE."""
- class DirAuthENDIVEMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for returning the ENDIVE."""
- def __init__(self, endive):
- self.endive = endive
- class DirAuthGetENDIVEDiffMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for fetching the ENDIVE, if the
- requestor already has the previous ENDIVE."""
- class DirAuthENDIVEDiffMsg(DirAuthNetMsg):
- """The subclass of DirAuthNetMsg for returning the ENDIVE, if the
- requestor already has the previous consensus. We don't _actually_
- produce the diff at this time; we just charge fewer bytes for this
- message in Merkle mode. In threshold signature mode, we would still
- need to download at least the new signatures for every SNIP in the
- ENDIVE, so for now, just assume there's no gain from ENDIVE diffs in
- threshold signature mode."""
- def __init__(self, endive):
- self.endive = endive
- def size(self):
- if network.symbolic_byte_counters:
- return super().size()
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.THRESHSIG:
- return DirAuthENDIVEMsg(self.endive).size()
- return math.ceil(DirAuthENDIVEMsg(self.endive).size() \
- * network.P_Delta)
- class DirAuthConnection(network.ClientConnection):
- """The subclass of Connection for connections to directory
- authorities."""
- def __init__(self, peer):
- super().__init__(peer)
- def uploaddesc(self, desc):
- """Upload our RelayDescriptor to the DirAuth."""
- self.sendmsg(DirAuthUploadDescMeg(desc))
- def getconsensus(self):
- self.consensus = None
- self.sendmsg(DirAuthGetConsensusMsg())
- return self.consensus
- def getconsensusdiff(self):
- self.consensus = None
- self.sendmsg(DirAuthGetConsensusDiffMsg())
- return self.consensus
- def getendive(self):
- self.endive = None
- self.sendmsg(DirAuthGetENDIVEMsg())
- return self.endive
- def getendivediff(self):
- self.endive = None
- self.sendmsg(DirAuthGetENDIVEDiffMsg())
- return self.endive
- def receivedfromserver(self, msg):
- if isinstance(msg, DirAuthConsensusMsg):
- self.consensus = msg.consensus
- elif isinstance(msg, DirAuthConsensusDiffMsg):
- self.consensus = msg.consensus
- elif isinstance(msg, DirAuthENDIVEMsg):
- self.endive = msg.endive
- elif isinstance(msg, DirAuthENDIVEDiffMsg):
- self.endive = msg.endive
- else:
- raise TypeError('Not a server-originating DirAuthNetMsg', msg)
- class DirAuth(network.Server):
- """The class representing directory authorities."""
- # We simulate the act of computing the consensus by keeping a
- # class-static dict that's accessible to all of the dirauths
- # This dict is indexed by epoch, and the value is itself a dict
- # indexed by the stringified descriptor, with value a pair of (the
- # number of dirauths that saw that descriptor, the descriptor
- # itself).
- uploadeddescs = dict()
- consensus = None
- endive = None
- def __init__(self, me, tot):
- """Create a new directory authority. me is the index of which
- dirauth this one is (starting from 0), and tot is the total
- number of dirauths."""
- self.me = me
- self.tot = tot
- self.name = "Dirauth %d of %d" % (me+1, tot)
- self.perfstats = network.PerfStats(network.EntType.DIRAUTH)
- self.perfstats.is_bootstrapping = True
- # Create the dirauth signature keypair
- self.sigkey = nacl.signing.SigningKey.generate()
- self.perfstats.keygens += 1
- self.netaddr = network.thenetwork.bind(self)
- self.perfstats.name = "DirAuth at %s" % self.netaddr
- network.thenetwork.setdirauthkey(me, self.sigkey.verify_key)
- network.thenetwork.wantepochticks(self, True, True)
- def connected(self, client):
- """Callback invoked when a client connects to us. This callback
- creates the DirAuthConnection that will be passed to the
- client."""
- # We don't actually need to keep per-connection state at
- # dirauths, even in long-lived connections, so this is
- # particularly simple.
- return DirAuthConnection(self)
- def generate_consensus(self, epoch):
- """Generate the consensus (and ENDIVE, if using Walking Onions)
- for the given epoch, which should be the one after the one
- that's currently about to end."""
- threshold = int(self.tot/2)+1
- consensusdescs = []
- for numseen, desc in DirAuth.uploadeddescs[epoch].values():
- if numseen >= threshold:
- consensusdescs.append(desc)
- DirAuth.consensus = Consensus(epoch, consensusdescs)
- if network.thenetwork.womode != network.WOMode.VANILLA:
- totbw = sum([ d.descdict["bw"] for d in consensusdescs ])
- hi = 0
- cumbw = 0
- snips = []
- for d in consensusdescs:
- cumbw += d.descdict["bw"]
- lo = hi
- hi = int((cumbw<<32)/totbw)
- snipdict = dict(d.descdict)
- del snipdict["bw"]
- snipdict["range"] = (lo,hi)
- snips.append(SNIP(snipdict))
- DirAuth.endive = ENDIVE(epoch, snips)
- def epoch_ending(self, epoch):
- # Only dirauth 0 actually needs to generate the consensus
- # because of the shared class-static state, but everyone has to
- # sign it. Note that this code relies on dirauth 0's
- # epoch_ending callback being called before any of the other
- # dirauths'.
- if (epoch+1) not in DirAuth.uploadeddescs:
- DirAuth.uploadeddescs[epoch+1] = dict()
- if self.me == 0:
- self.generate_consensus(epoch+1)
- del DirAuth.uploadeddescs[epoch+1]
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.THRESHSIG:
- for s in DirAuth.endive.enddict['snips']:
- s.auth(self.sigkey, self.perfstats)
- elif network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.MERKLE:
- # Construct the Merkle tree of the SNIPs in the ENDIVE
- # and put the root in the consensus
- tree = merklelib.MerkleTree(
- [snip.__str__(False) \
- for snip in DirAuth.endive.enddict['snips']],
- merklelib.Hasher())
- DirAuth.consensus.consdict["merkleroot"] = tree.merkle_root
- else:
- if network.thenetwork.snipauthmode == \
- network.SNIPAuthMode.THRESHSIG:
- for s in DirAuth.endive.enddict['snips']:
- # We're just simulating threshold sigs by having
- # only the first dirauth sign, but in reality each
- # dirauth would contribute to the signature (at the
- # same cost as each one signing), so we'll charge
- # their perfstats as well
- self.perfstats.sigs += 1
- DirAuth.consensus.sign(self.sigkey, self.me, self.perfstats)
- if network.thenetwork.womode != network.WOMode.VANILLA:
- DirAuth.endive.sign(self.sigkey, self.me, self.perfstats)
- def received(self, client, msg):
- self.perfstats.bytes_received += msg.size()
- if isinstance(msg, DirAuthUploadDescMsg):
- # Check the uploaded descriptor for sanity
- epoch = msg.desc.descdict['epoch']
- if epoch != network.thenetwork.getepoch() + 1:
- return
- # Store it in the class-static dict
- if epoch not in DirAuth.uploadeddescs:
- DirAuth.uploadeddescs[epoch] = dict()
- descstr = str(msg.desc)
- if descstr not in DirAuth.uploadeddescs[epoch]:
- DirAuth.uploadeddescs[epoch][descstr] = (1, msg.desc)
- else:
- DirAuth.uploadeddescs[epoch][descstr] = \
- (DirAuth.uploadeddescs[epoch][descstr][0]+1,
- DirAuth.uploadeddescs[epoch][descstr][1])
- elif isinstance(msg, DirAuthDelDescMsg):
- # Check the uploaded descriptor for sanity
- epoch = msg.desc.descdict['epoch']
- if epoch != network.thenetwork.getepoch() + 1:
- return
- # Remove it from the class-static dict
- if epoch not in DirAuth.uploadeddescs:
- return
- descstr = str(msg.desc)
- if descstr not in DirAuth.uploadeddescs[epoch]:
- return
- elif DirAuth.uploadeddescs[epoch][descstr][0] == 1:
- del DirAuth.uploadeddescs[epoch][descstr]
- else:
- DirAuth.uploadeddescs[epoch][descstr] = \
- (DirAuth.uploadeddescs[epoch][descstr][0]-1,
- DirAuth.uploadeddescs[epoch][descstr][1])
- elif isinstance(msg, DirAuthGetConsensusMsg):
- replymsg = DirAuthConsensusMsg(DirAuth.consensus)
- msgsize = replymsg.size()
- self.perfstats.bytes_sent += msgsize
- client.reply(replymsg)
- elif isinstance(msg, DirAuthGetConsensusDiffMsg):
- replymsg = DirAuthConsensusDiffMsg(DirAuth.consensus)
- msgsize = replymsg.size()
- self.perfstats.bytes_sent += msgsize
- client.reply(replymsg)
- elif isinstance(msg, DirAuthGetENDIVEMsg):
- replymsg = DirAuthENDIVEMsg(DirAuth.endive)
- msgsize = replymsg.size()
- self.perfstats.bytes_sent += msgsize
- client.reply(replymsg)
- elif isinstance(msg, DirAuthGetENDIVEDiffMsg):
- replymsg = DirAuthENDIVEDiffMsg(DirAuth.endive)
- msgsize = replymsg.size()
- self.perfstats.bytes_sent += msgsize
- client.reply(replymsg)
- else:
- raise TypeError('Not a client-originating DirAuthNetMsg', msg)
- def closed(self):
- pass
- if __name__ == '__main__':
- # Start some dirauths
- numdirauths = 9
- dirauthaddrs = []
- for i in range(numdirauths):
- dirauth = DirAuth(i, numdirauths)
- dirauthaddrs.append(dirauth.netaddr)
- for a in dirauthaddrs:
- print(a,end=' ')
- print()
- network.thenetwork.nextepoch()
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