forked from LBRYCommunity/lbry-sdk
229 lines
11 KiB
Python
229 lines
11 KiB
Python
import hashlib
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from twisted.trial import unittest
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from twisted.internet import defer
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from lbrynet.dht import constants
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from lbrynet.dht.routingtable import TreeRoutingTable
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from lbrynet.dht.contact import ContactManager
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from lbrynet.dht.distance import Distance
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class FakeRPCProtocol(object):
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""" Fake RPC protocol; allows lbrynet.dht.contact.Contact objects to "send" RPCs """
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def sendRPC(self, *args, **kwargs):
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return defer.succeed(None)
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class TreeRoutingTableTest(unittest.TestCase):
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""" Test case for the RoutingTable class """
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def setUp(self):
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h = hashlib.sha384()
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h.update('node1')
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self.contact_manager = ContactManager()
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self.nodeID = h.digest()
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self.protocol = FakeRPCProtocol()
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self.routingTable = TreeRoutingTable(self.nodeID)
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def testDistance(self):
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""" Test to see if distance method returns correct result"""
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# testList holds a couple 3-tuple (variable1, variable2, result)
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basicTestList = [(chr(170) * 48, chr(85) * 48, long((chr(255) * 48).encode('hex'), 16))]
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for test in basicTestList:
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result = Distance(test[0])(test[1])
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self.failIf(result != test[2], 'Result of _distance() should be %s but %s returned' %
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(test[2], result))
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@defer.inlineCallbacks
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def testAddContact(self):
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""" Tests if a contact can be added and retrieved correctly """
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# Create the contact
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h = hashlib.sha384()
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h.update('node2')
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contactID = h.digest()
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contact = self.contact_manager.make_contact(contactID, '127.0.0.1', 9182, self.protocol)
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# Now add it...
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yield self.routingTable.addContact(contact)
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# ...and request the closest nodes to it (will retrieve it)
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closestNodes = self.routingTable.findCloseNodes(contactID, constants.k)
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self.failUnlessEqual(len(closestNodes), 1, 'Wrong amount of contacts returned; expected 1,'
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' got %d' % len(closestNodes))
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self.failUnless(contact in closestNodes, 'Added contact not found by issueing '
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'_findCloseNodes()')
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@defer.inlineCallbacks
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def testGetContact(self):
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""" Tests if a specific existing contact can be retrieved correctly """
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h = hashlib.sha384()
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h.update('node2')
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contactID = h.digest()
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contact = self.contact_manager.make_contact(contactID, '127.0.0.1', 9182, self.protocol)
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# Now add it...
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yield self.routingTable.addContact(contact)
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# ...and get it again
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sameContact = self.routingTable.getContact(contactID)
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self.failUnlessEqual(contact, sameContact, 'getContact() should return the same contact')
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@defer.inlineCallbacks
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def testAddParentNodeAsContact(self):
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"""
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Tests the routing table's behaviour when attempting to add its parent node as a contact
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"""
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# Create a contact with the same ID as the local node's ID
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contact = self.contact_manager.make_contact(self.nodeID, '127.0.0.1', 9182, self.protocol)
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# Now try to add it
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yield self.routingTable.addContact(contact)
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# ...and request the closest nodes to it using FIND_NODE
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closestNodes = self.routingTable.findCloseNodes(self.nodeID, constants.k)
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self.failIf(contact in closestNodes, 'Node added itself as a contact')
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@defer.inlineCallbacks
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def testRemoveContact(self):
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""" Tests contact removal """
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# Create the contact
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h = hashlib.sha384()
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h.update('node2')
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contactID = h.digest()
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contact = self.contact_manager.make_contact(contactID, '127.0.0.1', 9182, self.protocol)
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# Now add it...
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yield self.routingTable.addContact(contact)
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# Verify addition
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self.failUnlessEqual(len(self.routingTable._buckets[0]), 1, 'Contact not added properly')
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# Now remove it
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self.routingTable.removeContact(contact)
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self.failUnlessEqual(len(self.routingTable._buckets[0]), 0, 'Contact not removed properly')
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@defer.inlineCallbacks
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def testSplitBucket(self):
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""" Tests if the the routing table correctly dynamically splits k-buckets """
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self.failUnlessEqual(self.routingTable._buckets[0].rangeMax, 2**384,
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'Initial k-bucket range should be 0 <= range < 2**384')
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# Add k contacts
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for i in range(constants.k):
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h = hashlib.sha384()
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h.update('remote node %d' % i)
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nodeID = h.digest()
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contact = self.contact_manager.make_contact(nodeID, '127.0.0.1', 9182, self.protocol)
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yield self.routingTable.addContact(contact)
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self.failUnlessEqual(len(self.routingTable._buckets), 1,
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'Only k nodes have been added; the first k-bucket should now '
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'be full, but should not yet be split')
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# Now add 1 more contact
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h = hashlib.sha384()
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h.update('yet another remote node')
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nodeID = h.digest()
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contact = self.contact_manager.make_contact(nodeID, '127.0.0.1', 9182, self.protocol)
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yield self.routingTable.addContact(contact)
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self.failUnlessEqual(len(self.routingTable._buckets), 2,
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'k+1 nodes have been added; the first k-bucket should have been '
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'split into two new buckets')
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self.failIfEqual(self.routingTable._buckets[0].rangeMax, 2**384,
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'K-bucket was split, but its range was not properly adjusted')
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self.failUnlessEqual(self.routingTable._buckets[1].rangeMax, 2**384,
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'K-bucket was split, but the second (new) bucket\'s '
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'max range was not set properly')
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self.failUnlessEqual(self.routingTable._buckets[0].rangeMax,
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self.routingTable._buckets[1].rangeMin,
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'K-bucket was split, but the min/max ranges were '
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'not divided properly')
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@defer.inlineCallbacks
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def testFullSplit(self):
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"""
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Test that a bucket is not split if it is full, but the new contact is not closer than the kth closest contact
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"""
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self.routingTable._parentNodeID = 48 * chr(255)
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node_ids = [
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"100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"200000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"300000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"400000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"500000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"600000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"700000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"800000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"ff0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
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"010000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"
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]
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# Add k contacts
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for nodeID in node_ids:
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# self.assertEquals(nodeID, node_ids[i].decode('hex'))
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contact = self.contact_manager.make_contact(nodeID.decode('hex'), '127.0.0.1', 9182, self.protocol)
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yield self.routingTable.addContact(contact)
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self.failUnlessEqual(len(self.routingTable._buckets), 2)
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self.failUnlessEqual(len(self.routingTable._buckets[0]._contacts), 8)
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self.failUnlessEqual(len(self.routingTable._buckets[1]._contacts), 2)
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# try adding a contact who is further from us than the k'th known contact
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nodeID = '020000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'
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nodeID = nodeID.decode('hex')
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contact = self.contact_manager.make_contact(nodeID, '127.0.0.1', 9182, self.protocol)
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self.assertFalse(self.routingTable._shouldSplit(self.routingTable._kbucketIndex(contact.id), contact.id))
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yield self.routingTable.addContact(contact)
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self.failUnlessEqual(len(self.routingTable._buckets), 2)
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self.failUnlessEqual(len(self.routingTable._buckets[0]._contacts), 8)
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self.failUnlessEqual(len(self.routingTable._buckets[1]._contacts), 2)
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self.failIf(contact in self.routingTable._buckets[0]._contacts)
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self.failIf(contact in self.routingTable._buckets[1]._contacts)
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# class KeyErrorFixedTest(unittest.TestCase):
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# """ Basic tests case for boolean operators on the Contact class """
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#
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# def setUp(self):
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# own_id = (2 ** constants.key_bits) - 1
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# # carefully chosen own_id. here's the logic
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# # we want a bunch of buckets (k+1, to be exact), and we want to make sure own_id
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# # is not in bucket 0. so we put own_id at the end so we can keep splitting by adding to the
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# # end
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#
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# self.table = lbrynet.dht.routingtable.OptimizedTreeRoutingTable(own_id)
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#
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# def fill_bucket(self, bucket_min):
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# bucket_size = lbrynet.dht.constants.k
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# for i in range(bucket_min, bucket_min + bucket_size):
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# self.table.addContact(lbrynet.dht.contact.Contact(long(i), '127.0.0.1', 9999, None))
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#
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# def overflow_bucket(self, bucket_min):
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# bucket_size = lbrynet.dht.constants.k
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# self.fill_bucket(bucket_min)
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# self.table.addContact(
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# lbrynet.dht.contact.Contact(long(bucket_min + bucket_size + 1),
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# '127.0.0.1', 9999, None))
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#
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# def testKeyError(self):
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#
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# # find middle, so we know where bucket will split
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# bucket_middle = self.table._buckets[0].rangeMax / 2
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#
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# # fill last bucket
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# self.fill_bucket(self.table._buckets[0].rangeMax - lbrynet.dht.constants.k - 1)
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# # -1 in previous line because own_id is in last bucket
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#
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# # fill/overflow 7 more buckets
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# bucket_start = 0
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# for i in range(0, lbrynet.dht.constants.k):
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# self.overflow_bucket(bucket_start)
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# bucket_start += bucket_middle / (2 ** i)
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#
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# # replacement cache now has k-1 entries.
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# # adding one more contact to bucket 0 used to cause a KeyError, but it should work
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# self.table.addContact(
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# lbrynet.dht.contact.Contact(long(lbrynet.dht.constants.k + 2), '127.0.0.1', 9999, None))
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#
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# # import math
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# # print ""
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# # for i, bucket in enumerate(self.table._buckets):
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# # print "Bucket " + str(i) + " (2 ** " + str(
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# # math.log(bucket.rangeMin, 2) if bucket.rangeMin > 0 else 0) + " <= x < 2 ** "+str(
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# # math.log(bucket.rangeMax, 2)) + ")"
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# # for c in bucket.getContacts():
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# # print " contact " + str(c.id)
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# # for key, bucket in self.table._replacementCache.iteritems():
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# # print "Replacement Cache for Bucket " + str(key)
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# # for c in bucket:
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# # print " contact " + str(c.id)
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