From: Brian Warner Date: Fri, 13 Apr 2007 02:41:48 +0000 (-0700) Subject: hash trees: further cleanup, to make sure we're validating the right thing X-Git-Tag: tahoe_v0.1.0-0-UNSTABLE~107 X-Git-Url: https://git.rkrishnan.org/components/com_hotproperty/css/%3C?a=commitdiff_plain;h=30133a7cdf00075c676918c71f7b42ca6470303a;p=tahoe-lafs%2Ftahoe-lafs.git hash trees: further cleanup, to make sure we're validating the right thing hashtree.py: improve the methods available for finding out which hash nodes are needed. Change set_hashes() to require that every hash provided can be validated up to the root. download.py: validate from the top down, including the URI-derived roothash in the share hash tree, and stashing the thus-validated share hash for use in the block hash tree. --- diff --git a/src/allmydata/download.py b/src/allmydata/download.py index a1b250c1..959d3fa7 100644 --- a/src/allmydata/download.py +++ b/src/allmydata/download.py @@ -48,48 +48,56 @@ class Output: return self.downloadable.finish() class ValidatedBucket: - def __init__(self, sharenum, bucket, share_hash_tree, num_blocks): + def __init__(self, sharenum, bucket, + share_hash_tree, roothash, + num_blocks): self.sharenum = sharenum self.bucket = bucket + self._share_hash = None # None means not validated yet self.share_hash_tree = share_hash_tree + self._roothash = roothash self.block_hash_tree = hashtree.IncompleteHashTree(num_blocks) def get_block(self, blocknum): - d1 = self.bucket.callRemote('get_block', blocknum) - # we might also need to grab some elements of our block hash tree, to + # the first time we use this bucket, we need to fetch enough elements + # of the share hash tree to validate it from our share hash up to the + # hashroot. + if not self._share_hash: + d1 = self.bucket.callRemote('get_share_hashes') + else: + d1 = defer.succeed(None) + + # we might need to grab some elements of our block hash tree, to # validate the requested block up to the share hash - if self.block_hash_tree.needed_hashes(leaves=[blocknum]): + needed = self.block_hash_tree.needed_hashes(blocknum) + if needed: + # TODO: get fewer hashes, callRemote('get_block_hashes', needed) d2 = self.bucket.callRemote('get_block_hashes') else: - d2 = defer.succeed(None) - # we might need to grab some elements of the share hash tree to - # validate from our share hash up to the hashroot - if self.share_hash_tree.needed_hashes(leaves=[self.sharenum]): - d3 = self.bucket.callRemote('get_share_hashes') - need_to_validate_sharehash = True - else: - d3 = defer.succeed(None) - need_to_validate_sharehash = False + d2 = defer.succeed([]) + + d3 = self.bucket.callRemote('get_block', blocknum) + d = defer.gatherResults([d1, d2, d3]) - d.addCallback(self._got_data, blocknum, need_to_validate_sharehash) + d.addCallback(self._got_data, blocknum) return d - def _got_data(self, res, blocknum, need_to_validate_sharehash): - blockdata, blockhashes, sharehashes = res + def _got_data(self, res, blocknum): + sharehashes, blockhashes, blockdata = res + + if not self._share_hash: + sh = dict(sharehashes) + sh[0] = self._roothash # always use our own root, from the URI + if self.share_hash_tree.get_leaf_index(self.sharenum) not in sh: + raise hashutil.NotEnoughHashesError + self.share_hash_tree.set_hashes(sh) + self._share_hash = self.share_hash_tree.get_leaf(self.sharenum) + blockhash = hashutil.tagged_hash("encoded subshare", blockdata) # we always validate the blockhash - if blockhashes is None: - blockhashes = [] bh = dict(enumerate(blockhashes)) - self.block_hash_tree.set_hashes(bh, {blocknum: blockhash}, - must_validate=True) - if need_to_validate_sharehash: - # we only need to validate the sharehash once, the first time we - # fetch a block - sh = dict(sharehashes) - sharehash = self.block_hash_tree[0] - self.share_hash_tree.set_hashes(sh, {self.sharenum: sharehash}, - must_validate=True) + bh[0] = self._share_hash # replace blockhash root with validated value + self.block_hash_tree.set_hashes(bh, {blocknum: blockhash}) # If we made it here, the block is good. If the hash trees didn't # like what they saw, they would have raised a BadHashError, causing # our caller to see a Failure and thus ignore this block (as well as @@ -237,6 +245,7 @@ class FileDownloader: def add_share_bucket(self, sharenum, bucket): vbucket = ValidatedBucket(sharenum, bucket, self._share_hashtree, + self._roothash, self._total_segments) self._share_buckets.setdefault(sharenum, set()).add(vbucket) diff --git a/src/allmydata/encode.py b/src/allmydata/encode.py index 743e63b8..f22e72cc 100644 --- a/src/allmydata/encode.py +++ b/src/allmydata/encode.py @@ -252,6 +252,10 @@ class Encoder(object): return sh.callRemote("put_block_hashes", all_hashes) def send_all_share_hash_trees(self): + # each bucket gets a set of share hash tree nodes that are needed to + # validate their share. This includes the share hash itself, but does + # not include the top-level hash root (which is stored securely in + # the URI instead). log.msg("%s sending all share hash trees" % self) dl = [] for h in self.share_root_hashes: @@ -264,9 +268,7 @@ class Encoder(object): for i in range(self.num_shares): # the HashTree is given a list of leaves: 0,1,2,3..n . # These become nodes A+0,A+1,A+2.. of the tree, where A=n-1 - tree_width = roundup_pow2(self.num_shares) - base_index = i + tree_width - 1 - needed_hash_indices = t.needed_for(base_index) + needed_hash_indices = t.needed_hashes(i, include_leaf=True) hashes = [(hi, t[hi]) for hi in needed_hash_indices] dl.append(self.send_one_share_hash_tree(i, hashes)) return defer.DeferredList(dl) diff --git a/src/allmydata/hashtree.py b/src/allmydata/hashtree.py index 900c5032..63816f5e 100644 --- a/src/allmydata/hashtree.py +++ b/src/allmydata/hashtree.py @@ -156,6 +156,12 @@ class CompleteBinaryTreeMixin: idlib.b2a_or_none(self[i]))) return "\n".join(lines) + "\n" + def get_leaf_index(self, leafnum): + return self.first_leaf_num + leafnum + + def get_leaf(self, leafnum): + return self[self.first_leaf_num + leafnum] + def empty_leaf_hash(i): return tagged_hash('Merkle tree empty leaf', "%d" % i) def pair_hash(a, b): @@ -193,6 +199,7 @@ class HashTree(CompleteBinaryTreeMixin, list): # Augment the list. start = len(L) end = roundup_pow2(len(L)) + self.first_leaf_num = end - 1 L = L + [None] * (end - start) for i in range(start, end): L[i] = empty_leaf_hash(i) @@ -206,6 +213,36 @@ class HashTree(CompleteBinaryTreeMixin, list): rows.reverse() self[:] = sum(rows, []) + def needed_hashes(self, leafnum, include_leaf=False): + """Which hashes will someone need to validate a given data block? + + I am used to answer a question: supposing you have the data block + that is used to form leaf hash N, and you want to validate that it, + which hashes would you need? + + I accept a leaf number and return a set of 'hash index' values, which + are integers from 0 to len(self). In the 'hash index' number space, + hash[0] is the root hash, while hash[len(self)-1] is the last leaf + hash. + + This method can be used to find out which hashes you should request + from some untrusted source (usually the same source that provides the + data block), so you can minimize storage or transmission overhead. It + can also be used to determine which hashes you should send to a + remote data store so that it will be able to provide validatable data + in the future. + + I will not include '0' (the root hash) in the result, since the root + is generally stored somewhere that is more trusted than the source of + the remaining hashes. I will include the leaf hash itself only if you + ask me to, by passing include_leaf=True. + """ + + needed = set(self.needed_for(self.first_leaf_num + leafnum)) + if include_leaf: + needed.add(self.first_leaf_num + leafnum) + return needed + class NotEnoughHashesError(Exception): pass @@ -250,18 +287,24 @@ class IncompleteHashTree(CompleteBinaryTreeMixin, list): rows.reverse() self[:] = sum(rows, []) - def needed_hashes(self, hashes=[], leaves=[]): - hashnums = set(list(hashes)) - for leafnum in leaves: - hashnums.add(self.first_leaf_num + leafnum) - maybe_needed = set() - for hashnum in hashnums: - maybe_needed.update(self.needed_for(hashnum)) - maybe_needed.add(0) # need the root too - return set([i for i in maybe_needed if self[i] is None]) + def needed_hashes(self, leafnum, include_leaf=False): + """Which new hashes do I need to validate a given data block? - def set_hashes(self, hashes={}, leaves={}, must_validate=False): + I am much like HashTree.needed_hashes(), except that I don't include + hashes that I already know about. When needed_hashes() is called on + an empty IncompleteHashTree, it will return the same set as a + HashTree of the same size. But later, once hashes have been added + with set_hashes(), I will ask for fewer hashes, since some of the + necessary ones have already been set. + """ + + maybe_needed = set(self.needed_for(self.first_leaf_num + leafnum)) + if include_leaf: + maybe_needed.add(self.first_leaf_num + leafnum) + return set([i for i in maybe_needed if self[i] is None]) + + def set_hashes(self, hashes={}, leaves={}): """Add a bunch of hashes to the tree. I will validate these to the best of my ability. If I already have a @@ -273,15 +316,12 @@ class IncompleteHashTree(CompleteBinaryTreeMixin, list): before I was called. If I return successfully, I will remember all those hashes. - If every hash that was added was validated, I will return True. If - some could not be validated because I did not have enough parent - hashes, I will return False. As a result, if I am called with both a - leaf hash and the root hash was already set, I will return True if - and only if the leaf hash could be validated against the root. - - If must_validate is True, I will raise NotEnoughHashesError instead - of returning False. If I raise NotEnoughHashesError, I will forget - about all the hashes that you tried to add. TODO: really? + I insist upon being able to validate all of the hashes that were + given to me. If I cannot do this because I'm missing some hashes, I + will raise NotEnoughHashesError (and forget about all the hashes that + you tried to add). Note that this means that the root hash must + either be included in 'hashes', or it must have been provided at some + point in the past. 'leaves' is a dictionary uses 'leaf index' values, which range from 0 (the left-most leaf) to num_leaves-1 (the right-most leaf), and form @@ -290,28 +330,42 @@ class IncompleteHashTree(CompleteBinaryTreeMixin, list): leaf). leaf[i] is the same as hash[num_leaves-1+i]. The best way to use me is to obtain the root hash from some 'good' - channel, then call set_hash(0, root). Then use the 'bad' channel to - obtain data block 0 and the corresponding hash chain (a dict with the - same hashes that needed_hashes(0) tells you, e.g. {0:h0, 2:h2, 4:h4, - 8:h8} when len(L)=8). Hash the data block to create leaf0. Then - call:: - - good = iht.set_hashes(hashes=hashchain, leaves={0: leaf0}) - - If 'good' is True, the data block was valid. If 'good' is False, the - hashchain did not have the right blocks and we don't know whether the - data block was good or bad. If set_hashes() raises an exception, - either the data was corrupted or one of the received hashes was - corrupted. + channel, and use the 'bad' channel to obtain data block 0 and the + corresponding hash chain (a dict with the same hashes that + needed_hashes(0) tells you, e.g. {0:h0, 2:h2, 4:h4, 8:h8} when + len(L)=8). Hash the data block to create leaf0, then feed everything + into set_hashes() and see if it raises an exception or not:: + + iht = IncompleteHashTree(numleaves) + roothash = trusted_channel.get_roothash() + otherhashes = untrusted_channel.get_hashes() + # otherhashes.keys() should == iht.needed_hashes(leaves=[0]) + datablock0 = untrusted_channel.get_data(0) + leaf0 = HASH(datablock0) + # HASH() is probably hashutil.tagged_hash(tag, datablock0) + hashes = otherhashes.copy() + hashes[0] = roothash # from 'good' channel + iht.set_hashes(hashes, leaves={0: leaf0}) + + If the set_hashes() call doesn't raise an exception, the data block + was valid. If it raises BadHashError, then either the data block was + corrupted or one of the received hashes was corrupted. """ assert isinstance(hashes, dict) + for h in hashes.values(): + assert isinstance(h, str) assert isinstance(leaves, dict) + for h in leaves.values(): + assert isinstance(h, str) new_hashes = hashes.copy() for leafnum,leafhash in leaves.iteritems(): hashnum = self.first_leaf_num + leafnum if hashnum in new_hashes: - assert new_hashes[hashnum] == leafhash + if new_hashes[hashnum] != leafhash: + raise BadHashError("got conflicting hashes in my " + "arguments: leaves[%d] != hashes[%d]" + % (leafnum, hashnum)) new_hashes[hashnum] = leafhash added = set() # we'll remove these if the check fails @@ -374,15 +428,11 @@ class IncompleteHashTree(CompleteBinaryTreeMixin, list): # were we unable to validate any of the new hashes? unvalidated = set(new_hashes.keys()) - reachable if unvalidated: - if must_validate: - those = ",".join([str(i) for i in sorted(unvalidated)]) - raise NotEnoughHashesError("unable to validate hashes %s" % those) + those = ",".join([str(i) for i in sorted(unvalidated)]) + raise NotEnoughHashesError("unable to validate hashes %s" + % those) except (BadHashError, NotEnoughHashesError): for i in added: self[i] = None raise - - # if there were hashes that could not be validated, we return False - return not unvalidated - diff --git a/src/allmydata/test/test_hashtree.py b/src/allmydata/test/test_hashtree.py index 2349ca2c..b2907a61 100644 --- a/src/allmydata/test/test_hashtree.py +++ b/src/allmydata/test/test_hashtree.py @@ -13,15 +13,27 @@ def make_tree(numleaves): return ht class Complete(unittest.TestCase): - def testCreate(self): - # try out various sizes + def test_create(self): + # try out various sizes, since we pad to a power of two ht = make_tree(6) - ht = make_tree(8) 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) - def testDump(self): + 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), @@ -39,7 +51,16 @@ class Complete(unittest.TestCase): class Incomplete(unittest.TestCase): - def testCheck(self): + 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_check(self): # first create a complete hash tree ht = make_tree(6) # then create a corresponding incomplete tree @@ -47,20 +68,23 @@ class Incomplete(unittest.TestCase): # suppose we wanted to validate leaf[0] # leaf[0] is the same as node[7] - self.failUnlessEqual(iht.needed_hashes(leaves=[0]), set([8, 4, 2, 0])) - self.failUnlessEqual(iht.needed_hashes(leaves=[1]), set([7, 4, 2, 0])) - iht.set_hashes({0: ht[0]}) # set the root - self.failUnlessEqual(iht.needed_hashes(leaves=[0]), set([8, 4, 2])) - self.failUnlessEqual(iht.needed_hashes(leaves=[1]), set([7, 4, 2])) - iht.set_hashes({5: ht[5]}) - self.failUnlessEqual(iht.needed_hashes(leaves=[0]), set([8, 4, 2])) - self.failUnlessEqual(iht.needed_hashes(leaves=[1]), set([7, 4, 2])) + 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) try: # this should fail because there aren't enough hashes known - iht.set_hashes(leaves={0: tagged_hash("tag", "0")}, - must_validate=True) + iht.set_hashes(leaves={0: tagged_hash("tag", "0")}) except hashtree.NotEnoughHashesError: pass else: @@ -68,48 +92,52 @@ class Incomplete(unittest.TestCase): # 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]} + try: + # this should fail because the leaf hash is just plain wrong + iht.set_hashes(chain, leaves={0: tagged_hash("bad tag", "0")}) + except hashtree.BadHashError: + pass + else: + self.fail("didn't catch bad hash") - # provide the missing hashes - iht.set_hashes({2: ht[2], 4: ht[4], 8: ht[8]}) - self.failUnlessEqual(iht.needed_hashes(leaves=[0]), set()) + bad_chain = chain.copy() + bad_chain[2] = ht[2] + "BOGUS" + # this should fail because the internal hash is wrong try: - # this should fail because the hash is just plain wrong - iht.set_hashes(leaves={0: tagged_hash("bad tag", "0")}) + 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: - # this should succeed - iht.set_hashes(leaves={0: tagged_hash("tag", "0")}) + 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: - # this should succeed too iht.set_hashes(leaves={1: tagged_hash("tag", "1")}) except hashtree.BadHashError: self.fail("bad hash") - # giving it a bad internal hash should also cause problems - iht.set_hashes({13: tagged_hash("bad tag", "x")}) - try: - iht.set_hashes({14: tagged_hash("tag", "14")}) - except hashtree.BadHashError: - pass - else: - self.fail("didn't catch bad hash") - # undo our damage - iht[13] = None - - self.failUnlessEqual(iht.needed_hashes(leaves=[4]), set([12, 6])) + # 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]} - iht.set_hashes({6: ht[6], 12: ht[12]}) + # this should succeed try: - # this should succeed - iht.set_hashes(leaves={4: tagged_hash("tag", "4")}) + iht.set_hashes(chain, leaves={4: tagged_hash("tag", "4")}) except hashtree.BadHashError, e: self.fail("bad hash: %s" % e)