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@ -4,10 +4,10 @@ from math import ceil
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from twisted.internet.threads import deferToThread
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from twisted.internet.threads import deferToThread
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import main
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import main
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import modules.provision
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from utils.logging.debug import debug, trace
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from utils.logging.debug import debug, trace
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from utils.logging.log import error, log, warn
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from utils.logging.log import error, log, warn
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def getEnabledRelays(net):
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def getEnabledRelays(net):
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"""
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"""
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Get a list of enabled relays for a network.
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Get a list of enabled relays for a network.
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@ -18,6 +18,7 @@ def getEnabledRelays(net):
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enabledRelays = [x for x in main.network[net].relays.keys() if main.network[net].relays[x]["enabled"]]
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enabledRelays = [x for x in main.network[net].relays.keys() if main.network[net].relays[x]["enabled"]]
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return enabledRelays
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return enabledRelays
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def getActiveRelays(net):
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def getActiveRelays(net):
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"""
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"""
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Get a list of active relays for a network.
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Get a list of active relays for a network.
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@ -48,6 +49,7 @@ def allRelaysActive(net):
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debug(f"allRelaysActive() {net}: {relaysActive} ({activeRelays}/{enabledRelays})")
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debug(f"allRelaysActive() {net}: {relaysActive} ({activeRelays}/{enabledRelays})")
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return relaysActive
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return relaysActive
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def getAverageChanlimit(net):
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def getAverageChanlimit(net):
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"""
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"""
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Get the average channel limit for a network.
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Get the average channel limit for a network.
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@ -64,6 +66,7 @@ def getAverageChanlimit(net):
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debug(f"getAverageChanlimit() {net}: {avg_chanlimit}")
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debug(f"getAverageChanlimit() {net}: {avg_chanlimit}")
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return avg_chanlimit
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return avg_chanlimit
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def getSumChanlimit(net):
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def getSumChanlimit(net):
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"""
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"""
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Get the sum of all channel limits for a network.
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Get the sum of all channel limits for a network.
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@ -78,32 +81,26 @@ def getSumChanlimit(net):
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total += main.IRCPool[name].chanlimit
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total += main.IRCPool[name].chanlimit
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return total
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return total
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def getChanFree(net, new):
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def getChanFree(net):
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"""
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"""
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Get a dictionary with the free channel spaces for
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Get a dictionary with the free channel spaces for
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each relay, and a channel limit.
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each relay, and a channel limit.
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Example return:
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Example return:
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({1: 99}, 100)
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({1: 99}, 100)
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:param net: network
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:param net: network
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:param new: list of newly provisioned relays to skip
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:return: ({relay: channel spaces}, channel limit)
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:return: ({relay: channel spaces}, channel limit)
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"""
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"""
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chanfree = {}
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chanfree = {}
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chanlimits = set()
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for i in getActiveRelays(net):
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for i in getActiveRelays(net):
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if i in new:
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continue
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name = net + str(i)
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name = net + str(i)
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if name not in main.IRCPool.keys():
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if name not in main.IRCPool.keys():
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continue
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continue
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if not main.IRCPool[name].isconnected:
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if not main.IRCPool[name].isconnected:
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continue
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continue
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chanfree[i] = main.IRCPool[name].chanlimit - len(main.IRCPool[name].channels)
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chanfree[i] = main.IRCPool[name].chanlimit - len(main.IRCPool[name].channels)
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chanlimits.add(main.IRCPool[name].chanlimit)
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if not len(chanlimits) == 1:
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return chanfree
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error("Network %s has servers with different CHANLIMIT values" % net)
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return False
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return (chanfree, chanlimits.pop())
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def getTotalChans(net):
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def getTotalChans(net):
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@ -121,7 +118,7 @@ def getTotalChans(net):
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return total
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return total
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def emptyChanAllocate(net, flist, new):
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def emptyChanAllocate(net, flist):
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"""
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"""
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Allocate channels to relays.
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Allocate channels to relays.
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:param net: network
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:param net: network
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@ -131,64 +128,32 @@ def emptyChanAllocate(net, flist, new):
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:return: dictionary of {relay: list of channels}"""
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:return: dictionary of {relay: list of channels}"""
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# Get the free channel spaces for each relay
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# Get the free channel spaces for each relay
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chanfree = getChanFree(net, new)
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chanfree = getChanFree(net)
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if not chanfree:
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if not chanfree:
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return
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return
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# Pretend the newly provisioned relays are already on the network
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# Pretend the newly provisioned relays are already on the network
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for i in new:
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# for i in new:
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chanfree[0][i] = chanfree[1]
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# chanfree[0][i] = chanfree[1]
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allocated = {}
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allocated = {}
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# Copy the list since we're going to mutate it
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toalloc = len(flist)
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# Used to correct allocations and provision additional relays
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# if the math since the last LIST is a bit wrong
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# toalloc:2148 free:{1: 250} chanlimit:250 correction:2147
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newlist = list(flist)
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newlist = list(flist)
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if toalloc > sum(chanfree[0].values()):
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sum_free = sum(chanfree.values()) # 250
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sum_free = sum(chanfree[0].values()) # 250
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trunc_list = newlist[:sum_free]
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chans_not_covered = toalloc - sum_free # 2148 - 250 = 1898
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debug(f"emptyChanAllocate() {net}: newlist:{len(newlist)} trunc_list:{len(trunc_list)}")
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relays_needed = chans_not_covered / chanfree[1] # 1898 / 250 = 7.592
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correction = ceil(relays_needed)
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for i in chanfree.keys():
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if main.config["ChanKeep"]["Provision"]:
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for x in range(chanfree[i]):
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debug(
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if not len(trunc_list):
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(
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f"emptyChanAllocate() secondary allocation sum_free:{sum_free} "
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f"chans_not_covered:{chans_not_covered} relays_needed:{relays_needed} "
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f"correction:{correction}"
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)
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)
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debug(
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(
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f"emptyChanAllocate() not enough free channels: toalloc:{toalloc} "
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f"free:{chanfree[0]} chanlimit:{chanfree[1]} correction:{correction}"
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)
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)
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warn("Ran out of channel spaces, provisioning additional %i relays for %s" % (correction, net))
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modules.provision.provisionMultipleRelays(net, correction)
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return False
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else:
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# We don't have enough spaces and we can't add any.
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# Let's do the best we can in the circumstances.
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debug(f"emptyChanAllocate() cannot create additional relays for {net}")
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debug(f"emptyChanAllocate() {chans_not_covered} channels cannot be covered")
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newlist = newlist[:sum_free]
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debug(f"emptyChanAllocate() flist truncated to {sum_free}, length nis now {len(flist)}")
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trace(f"emptyChanAllocate() best effort allocation: {flist}")
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for i in chanfree[0].keys():
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for x in range(chanfree[0][i]):
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if not len(newlist):
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break
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break
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if i in allocated.keys():
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if i in allocated.keys():
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allocated[i].append(newlist.pop())
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allocated[i].append(trunc_list.pop())
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else:
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else:
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allocated[i] = [newlist.pop()]
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allocated[i] = [trunc_list.pop()]
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return allocated
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return allocated
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def populateChans(net, clist, new):
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def populateChans(net, clist):
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"""
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"""
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Populate channels on relays.
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Populate channels on relays.
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Stores channels to join in a list in main.TempChan[net][num]
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Stores channels to join in a list in main.TempChan[net][num]
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@ -196,7 +161,7 @@ def populateChans(net, clist, new):
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:param clist: list of channels to join
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:param clist: list of channels to join
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:param new: list of newly provisioned relays to account for"""
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:param new: list of newly provisioned relays to account for"""
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# divided = array_split(clist, relay)
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# divided = array_split(clist, relay)
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allocated = emptyChanAllocate(net, clist, new)
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allocated = emptyChanAllocate(net, clist)
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if not allocated:
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if not allocated:
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return
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return
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for i in allocated.keys():
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for i in allocated.keys():
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@ -242,7 +207,7 @@ def minifyChans(net, listinfo):
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return listinfo
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return listinfo
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def keepChannels(net, listinfo, mean, sigrelay, relay, chanlimit):
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def keepChannels(net, listinfo, mean, sigrelay, relay):
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"""
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"""
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Minify channels, determine whether we can cover all the channels
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Minify channels, determine whether we can cover all the channels
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on the network, or need to use 'significant' mode.
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on the network, or need to use 'significant' mode.
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@ -263,39 +228,40 @@ def keepChannels(net, listinfo, mean, sigrelay, relay, chanlimit):
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coverAll = True
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coverAll = True
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elif relay > main.config["ChanKeep"]["SigSwitch"]: # we cannot cover all of the channels
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elif relay > main.config["ChanKeep"]["SigSwitch"]: # we cannot cover all of the channels
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coverAll = False
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coverAll = False
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if not sigrelay <= main.config["ChanKeep"]["MaxRelay"]:
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# if not sigrelay <= main.config["ChanKeep"]["MaxRelay"]:
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error("Network %s is too big to cover: %i relays required" % (net, sigrelay))
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# error("Network %s is too big to cover: %i relays required" % (net, sigrelay))
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return
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# return
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num_instances = len(getActiveRelays(net))
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num_instances = len(getActiveRelays(net))
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debug(f"keepChannels() {net} instances:{num_instances} chanlimit:{chanlimit}")
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debug(f"keepChannels() {net} instances:{num_instances}")
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chan_slots_used = getTotalChans(net)
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chan_slots_used = getTotalChans(net)
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debug(f"keepChannels() slots_used:{chan_slots_used}")
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debug(f"keepChannels() slots_used:{chan_slots_used}")
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max_chans = (chanlimit * num_instances) - chan_slots_used
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# max_chans = (chanlimit * num_instances) - chan_slots_used
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max_chans = getSumChanlimit(net) - chan_slots_used
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debug(f"keepChannels() max_chans:{max_chans}")
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debug(f"keepChannels() max_chans:{max_chans}")
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if coverAll:
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if coverAll:
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needed = relay - len(getActiveRelays(net))
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# needed = relay - len(getActiveRelays(net))
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if needed:
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# if needed:
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debug(f"keepChannels() coverAll asking to provision {needed} relays for {net} relay:{relay}")
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# debug(f"keepChannels() coverAll asking to provision {needed} relays for {net} relay:{relay}")
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newNums = modules.provision.provisionMultipleRelays(net, needed)
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# newNums = modules.provision.provisionMultipleRelays(net, needed)
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else:
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# else:
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newNums = []
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# newNums = []
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flist = [i[0] for i in listinfo]
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flist = [i[0] for i in listinfo]
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chosen = sorted(flist, reverse=True, key=lambda x: x[1])[:max_chans]
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chosen = sorted(flist, reverse=True, key=lambda x: x[1])[:max_chans]
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debug(f"keepChannels() {net}: joining {len(chosen)}/{len(flist)} channels")
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debug(f"keepChannels() {net}: joining {len(chosen)}/{len(flist)} channels")
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trace(f"keepChannels() {net}: joining:{chosen}")
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trace(f"keepChannels() {net}: joining:{chosen}")
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populateChans(net, chosen, newNums)
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populateChans(net, chosen)
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else:
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else:
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needed = sigrelay - len(getActiveRelays(net))
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# needed = sigrelay - len(getActiveRelays(net))
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if needed:
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# if needed:
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debug(f"keepChannels() NOT coverAll asking to provision {needed} relays for {net} sigrelay:{sigrelay}")
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# debug(f"keepChannels() NOT coverAll asking to provision {needed} relays for {net} sigrelay:{sigrelay}")
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newNums = modules.provision.provisionMultipleRelays(net, needed)
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# newNums = modules.provision.provisionMultipleRelays(net, needed)
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else:
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# else:
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newNums = []
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# newNums = []
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siglist = [i[0] for i in listinfo if int(i[1]) > mean]
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siglist = [i[0] for i in listinfo if int(i[1]) > mean]
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chosen = sorted(flist, reverse=True, key=lambda x: x[1])[:max_chans]
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chosen = sorted(siglist, reverse=True, key=lambda x: x[1])[:max_chans]
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debug(f"keepChannels() {net}: joining {len(chosen)}/{len(flist)} channels")
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debug(f"keepChannels() {net}: joining {len(chosen)}/{len(flist)} channels")
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trace(f"keepChannels() {net}: joining:{chosen}")
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trace(f"keepChannels() {net}: joining:{chosen}")
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populateChans(net, chosen, newNums)
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populateChans(net, chosen)
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notifyJoin(net)
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notifyJoin(net)
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@ -308,7 +274,7 @@ def joinSingle(net, channel):
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:return: relay number that joined the channel
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:return: relay number that joined the channel
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:rtype: int
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:rtype: int
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"""
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"""
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eca = emptyChanAllocate(net, [channel], [])
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eca = emptyChanAllocate(net, [channel])
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if not eca:
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if not eca:
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return False
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return False
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if not len(eca.keys()) == 1:
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if not len(eca.keys()) == 1:
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@ -354,7 +320,7 @@ def nukeNetwork(net):
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# deferToThread(_nukeNetwork, net)
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# deferToThread(_nukeNetwork, net)
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def _initialList(net, num, listinfo, chanlimit):
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def _initialList(net, num, listinfo):
|
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"""
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|
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|
"""
|
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|
|
Called when a relay receives a full LIST response.
|
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|
|
Called when a relay receives a full LIST response.
|
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|
|
Run statistics to determine how many channels are significant.
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|
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|
Run statistics to determine how many channels are significant.
|
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|
|
@ -390,8 +356,9 @@ def _initialList(net, num, listinfo, chanlimit):
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|
insiglength += 1
|
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|
|
insiglength += 1
|
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|
|
insigcumul += int(i[1])
|
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|
|
insigcumul += int(i[1])
|
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|
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|
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|
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|
|
|
sigrelay = ceil(siglength / chanlimit)
|
|
|
|
avg_chanlimit = getAverageChanlimit(net)
|
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|
|
relay = ceil(listlength / chanlimit)
|
|
|
|
sigrelay = ceil(siglength / avg_chanlimit)
|
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|
|
|
|
|
|
relay = ceil(listlength / avg_chanlimit)
|
|
|
|
|
|
|
|
|
|
|
|
abase = "analytics.list.%s" % net
|
|
|
|
abase = "analytics.list.%s" % net
|
|
|
|
main.g.delete(abase)
|
|
|
|
main.g.delete(abase)
|
|
|
|
@ -409,12 +376,12 @@ def _initialList(net, num, listinfo, chanlimit):
|
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|
|
p.hset(abase, "small_chan_cumul_mem", insigcumul)
|
|
|
|
p.hset(abase, "small_chan_cumul_mem", insigcumul)
|
|
|
|
p.hset(abase, "relays_for_all_chans", relay)
|
|
|
|
p.hset(abase, "relays_for_all_chans", relay)
|
|
|
|
p.hset(abase, "relays_for_big_chans", sigrelay)
|
|
|
|
p.hset(abase, "relays_for_big_chans", sigrelay)
|
|
|
|
p.hset(abase, "relays_for_small_chans", ceil(insiglength / chanlimit))
|
|
|
|
p.hset(abase, "relays_for_small_chans", ceil(insiglength / avg_chanlimit))
|
|
|
|
debug(
|
|
|
|
debug(
|
|
|
|
(
|
|
|
|
(
|
|
|
|
f"_initialList() net:{net} num:{num} listlength:{listlength} "
|
|
|
|
f"_initialList() net:{net} num:{num} listlength:{listlength} "
|
|
|
|
f"mean:{mean} siglength:{siglength} insiglength:{insiglength} "
|
|
|
|
f"mean:{mean} siglength:{siglength} insiglength:{insiglength} "
|
|
|
|
f"sigrelay:{sigrelay} relay:{relay} chanlimit:{chanlimit}"
|
|
|
|
f"sigrelay:{sigrelay} relay:{relay} avg_chanlimit:{avg_chanlimit}"
|
|
|
|
)
|
|
|
|
)
|
|
|
|
)
|
|
|
|
)
|
|
|
|
|
|
|
|
|
|
|
|
@ -427,7 +394,7 @@ def _initialList(net, num, listinfo, chanlimit):
|
|
|
|
|
|
|
|
|
|
|
|
p.execute()
|
|
|
|
p.execute()
|
|
|
|
debug("List parsing completed on %s" % net)
|
|
|
|
debug("List parsing completed on %s" % net)
|
|
|
|
keepChannels(net, listinfo, mean, sigrelay, relay, chanlimit)
|
|
|
|
keepChannels(net, listinfo, mean, sigrelay, relay)
|
|
|
|
|
|
|
|
|
|
|
|
# return (listinfo, mean, sigrelay, relay)
|
|
|
|
# return (listinfo, mean, sigrelay, relay)
|
|
|
|
|
|
|
|
|
|
|
|
@ -453,9 +420,9 @@ def getListInfo(net):
|
|
|
|
return convert(info)
|
|
|
|
return convert(info)
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
def initialList(net, num, listinfo, chanlimit):
|
|
|
|
def initialList(net, num, listinfo):
|
|
|
|
"""
|
|
|
|
"""
|
|
|
|
Run _initialList in a thread.
|
|
|
|
Run _initialList in a thread.
|
|
|
|
See above docstring.
|
|
|
|
See above docstring.
|
|
|
|
"""
|
|
|
|
"""
|
|
|
|
deferToThread(_initialList, net, num, deepcopy(listinfo), chanlimit)
|
|
|
|
deferToThread(_initialList, net, num, deepcopy(listinfo))
|
|
|
|
|