# -*- test-case-name: allmydata.test.test_hashtree -*- from twisted.trial import unittest from allmydata.util.hashutil import tagged_hash from allmydata import hashtree def make_tree(numleaves): leaves = ["%d" % i for i in range(numleaves)] leaf_hashes = [tagged_hash("tag", leaf) for leaf in leaves] ht = hashtree.HashTree(leaf_hashes) return ht class Complete(unittest.TestCase): def test_create(self): # try out various sizes, since we pad to a power of two ht = make_tree(6) ht = make_tree(9) ht = make_tree(8) root = ht[0] self.failUnlessEqual(len(root), 32) self.failUnlessEqual(ht.get_leaf(0), tagged_hash("tag", "0")) self.failUnlessRaises(IndexError, ht.get_leaf, 8) self.failUnlessEqual(ht.get_leaf_index(0), 7) self.failUnlessRaises(IndexError, ht.parent, 0) self.failUnlessRaises(IndexError, ht.needed_for, -1) def test_needed_hashes(self): ht = make_tree(8) self.failUnlessEqual(ht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(0, True), set([7, 8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(1), set([7, 4, 2])) self.failUnlessEqual(ht.needed_hashes(7), set([13, 5, 1])) self.failUnlessEqual(ht.needed_hashes(7, False), set([13, 5, 1])) self.failUnlessEqual(ht.needed_hashes(7, True), set([14, 13, 5, 1])) def test_dump(self): ht = make_tree(6) expected = [(0,0), (1,1), (3,2), (7,3), (8,3), (4,2), (9,3), (10,3), (2,1), (5,2), (11,3), (12,3), (6,2), (13,3), (14,3), ] self.failUnlessEqual(list(ht.depth_first()), expected) d = "\n" + ht.dump() #print d self.failUnless("\n 0:" in d) self.failUnless("\n 1:" in d) self.failUnless("\n 3:" in d) self.failUnless("\n 7:" in d) self.failUnless("\n 8:" in d) self.failUnless("\n 4:" in d) class Incomplete(unittest.TestCase): def test_create(self): ht = hashtree.IncompleteHashTree(6) ht = hashtree.IncompleteHashTree(9) ht = hashtree.IncompleteHashTree(8) self.failUnlessEqual(ht[0], None) self.failUnlessEqual(ht.get_leaf(0), None) self.failUnlessRaises(IndexError, ht.get_leaf, 8) self.failUnlessEqual(ht.get_leaf_index(0), 7) def test_needed_hashes(self): ht = hashtree.IncompleteHashTree(8) self.failUnlessEqual(ht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(0, True), set([7, 8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(1), set([7, 4, 2])) self.failUnlessEqual(ht.needed_hashes(7), set([13, 5, 1])) self.failUnlessEqual(ht.needed_hashes(7, False), set([13, 5, 1])) self.failUnlessEqual(ht.needed_hashes(7, True), set([14, 13, 5, 1])) ht = hashtree.IncompleteHashTree(1) self.failUnlessEqual(ht.needed_hashes(0), set([])) ht = hashtree.IncompleteHashTree(6) self.failUnlessEqual(ht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(0, True), set([7, 8, 4, 2])) self.failUnlessEqual(ht.needed_hashes(1), set([7, 4, 2])) self.failUnlessEqual(ht.needed_hashes(5), set([11, 6, 1])) self.failUnlessEqual(ht.needed_hashes(5, False), set([11, 6, 1])) self.failUnlessEqual(ht.needed_hashes(5, True), set([12, 11, 6, 1])) def test_depth_of(self): ht = hashtree.IncompleteHashTree(8) self.failUnlessEqual(hashtree.depth_of(0), 0) for i in [1,2]: self.failUnlessEqual(hashtree.depth_of(i), 1, "i=%d"%i) for i in [3,4,5,6]: self.failUnlessEqual(hashtree.depth_of(i), 2, "i=%d"%i) for i in [7,8,9,10,11,12,13,14]: self.failUnlessEqual(hashtree.depth_of(i), 3, "i=%d"%i) def test_large(self): # IncompleteHashTree.set_hashes() used to take O(N**2). This test is # meant to show that it now takes O(N) or maybe O(N*ln(N)). I wish # there were a good way to assert this (like counting VM operations # or something): the problem was inside list.sort(), so there's no # good way to instrument set_hashes() to count what we care about. On # my laptop, 10k leaves takes 1.1s in this fixed version, and 11.6s # in the old broken version. An 80k-leaf test (corresponding to a # 10GB file with a 128KiB segsize) 10s in the fixed version, and # several hours in the broken version, but 10s on my laptop (plus the # 20s of setup code) probably means 200s on our dapper buildslave, # which is painfully long for a unit test. self.do_test_speed(10000) def do_test_speed(self, SIZE): # on my laptop, SIZE=80k (corresponding to a 10GB file with a 128KiB # segsize) takes: # 7s to build the (complete) HashTree # 13s to set up the dictionary # 10s to run set_hashes() ht = make_tree(SIZE) iht = hashtree.IncompleteHashTree(SIZE) needed = set() for i in range(SIZE): needed.update(ht.needed_hashes(i, True)) all = dict([ (i, ht[i]) for i in needed]) iht.set_hashes(hashes=all) def test_check(self): # first create a complete hash tree ht = make_tree(6) # then create a corresponding incomplete tree iht = hashtree.IncompleteHashTree(6) # suppose we wanted to validate leaf[0] # leaf[0] is the same as node[7] self.failUnlessEqual(iht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(iht.needed_hashes(0, True), set([7, 8, 4, 2])) self.failUnlessEqual(iht.needed_hashes(1), set([7, 4, 2])) iht[0] = ht[0] # set the root self.failUnlessEqual(iht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(iht.needed_hashes(1), set([7, 4, 2])) iht[5] = ht[5] self.failUnlessEqual(iht.needed_hashes(0), set([8, 4, 2])) self.failUnlessEqual(iht.needed_hashes(1), set([7, 4, 2])) # reset iht = hashtree.IncompleteHashTree(6) current_hashes = list(iht) # this should fail because there aren't enough hashes known try: iht.set_hashes(leaves={0: tagged_hash("tag", "0")}) except hashtree.NotEnoughHashesError: pass else: self.fail("didn't catch not enough hashes") # and the set of hashes stored in the tree should still be the same self.failUnlessEqual(list(iht), current_hashes) # and we should still need the same self.failUnlessEqual(iht.needed_hashes(0), set([8, 4, 2])) chain = {0: ht[0], 2: ht[2], 4: ht[4], 8: ht[8]} # this should fail because the leaf hash is just plain wrong try: iht.set_hashes(chain, leaves={0: tagged_hash("bad tag", "0")}) except hashtree.BadHashError: pass else: self.fail("didn't catch bad hash") # this should fail because we give it conflicting hashes: one as an # internal node, another as a leaf try: iht.set_hashes(chain, leaves={1: tagged_hash("bad tag", "1")}) except hashtree.BadHashError: pass else: self.fail("didn't catch bad hash") bad_chain = chain.copy() bad_chain[2] = ht[2] + "BOGUS" # this should fail because the internal hash is wrong try: iht.set_hashes(bad_chain, leaves={0: tagged_hash("tag", "0")}) except hashtree.BadHashError: pass else: self.fail("didn't catch bad hash") # this should succeed try: iht.set_hashes(chain, leaves={0: tagged_hash("tag", "0")}) except hashtree.BadHashError, e: self.fail("bad hash: %s" % e) self.failUnlessEqual(ht.get_leaf(0), tagged_hash("tag", "0")) self.failUnlessRaises(IndexError, ht.get_leaf, 8) # this should succeed too try: iht.set_hashes(leaves={1: tagged_hash("tag", "1")}) except hashtree.BadHashError: self.fail("bad hash") # this should fail because we give it hashes that conflict with some # that we added successfully before try: iht.set_hashes(leaves={1: tagged_hash("bad tag", "1")}) except hashtree.BadHashError: pass else: self.fail("didn't catch bad hash") # now that leaves 0 and 1 are known, some of the internal nodes are # known self.failUnlessEqual(iht.needed_hashes(4), set([12, 6])) chain = {6: ht[6], 12: ht[12]} # this should succeed try: iht.set_hashes(chain, leaves={4: tagged_hash("tag", "4")}) except hashtree.BadHashError, e: self.fail("bad hash: %s" % e)