From: Brian Warner Date: Mon, 16 Apr 2007 23:30:21 +0000 (-0700) Subject: download: verify that bad blocks or hashes are caught by the download process X-Git-Tag: tahoe_v0.1.0-0-UNSTABLE~93 X-Git-Url: https://git.rkrishnan.org/pf/content/%22file:/CLI.txt?a=commitdiff_plain;h=42179e5ae230590a8b8ba0e714613363441aa09c;p=tahoe-lafs%2Ftahoe-lafs.git download: verify that bad blocks or hashes are caught by the download process --- diff --git a/src/allmydata/download.py b/src/allmydata/download.py index bdd8a26a..b9eb062d 100644 --- a/src/allmydata/download.py +++ b/src/allmydata/download.py @@ -102,7 +102,7 @@ class ValidatedBucket: bh[0] = self._share_hash self.block_hash_tree.set_hashes(bh, {blocknum: blockhash}) - except (hashutil.BadHashError, hashutil.NotEnoughHashesError): + except (hashtree.BadHashError, hashtree.NotEnoughHashesError): # log.WEIRD: indicates undetected disk/network error, or more # likely a programming error log.msg("hash failure in shnum=%d on %s" % (self.sharenum, diff --git a/src/allmydata/test/test_encode.py b/src/allmydata/test/test_encode.py index a58351c7..eb311037 100644 --- a/src/allmydata/test/test_encode.py +++ b/src/allmydata/test/test_encode.py @@ -2,6 +2,7 @@ from twisted.trial import unittest from twisted.internet import defer +from twisted.python.failure import Failure from foolscap import eventual from allmydata import encode, download from allmydata.uri import pack_uri @@ -40,7 +41,9 @@ class FakeStorageServer: return (set(), dict([(shnum, FakeBucketWriter(),) for shnum in sharenums]),) class FakeBucketWriter: - def __init__(self): + # these are used for both reading and writing + def __init__(self, mode="good"): + self.mode = mode self.blocks = {} self.block_hashes = None self.share_hashes = None @@ -71,14 +74,26 @@ class FakeBucketWriter: assert not self.closed self.closed = True + def flip_bit(self, good): + return good[:-1] + chr(ord(good[-1]) ^ 0x01) def get_block(self, blocknum): assert isinstance(blocknum, int) + if self.mode == "bad block": + return self.flip_bit(self.blocks[blocknum]) return self.blocks[blocknum] def get_block_hashes(self): + if self.mode == "bad blockhash": + hashes = self.block_hashes[:] + hashes[1] = self.flip_bit(hashes[1]) + return hashes return self.block_hashes def get_share_hashes(self): + if self.mode == "bad sharehash": + hashes = self.share_hashes[:] + hashes[1] = (hashes[1][0], self.flip_bit(hashes[1][1])) + return hashes return self.share_hashes @@ -122,7 +137,7 @@ class Encode(unittest.TestCase): return d class Roundtrip(unittest.TestCase): - def send_and_recover(self, NUM_SHARES, NUM_PEERS, NUM_SEGMENTS=4): + def send_and_recover(self, NUM_SHARES, NUM_SEGMENTS=4, bucket_modes={}): e = encode.Encoder() data = "happy happy joy joy" * 4 e.setup(StringIO(data)) @@ -135,10 +150,9 @@ class Roundtrip(unittest.TestCase): shareholders = {} all_shareholders = [] all_peers = [] - for i in range(NUM_PEERS): - all_peers.append(FakeBucketWriter()) for shnum in range(NUM_SHARES): - peer = all_peers[shnum % NUM_PEERS] + mode = bucket_modes.get(shnum, "good") + peer = FakeBucketWriter(mode) shareholders[shnum] = peer all_shareholders.append(peer) e.set_shareholders(shareholders) @@ -171,5 +185,74 @@ class Roundtrip(unittest.TestCase): return d def test_one_share_per_peer(self): - return self.send_and_recover(100, 100) + return self.send_and_recover(100) + + def test_bad_blocks(self): + # the first 74 servers have bad blocks, which will be caught by the + # blockhashes + modemap = dict([(i, "bad block") + for i in range(74)] + + [(i, "good") + for i in range(74, 100)]) + return self.send_and_recover(100, bucket_modes=modemap) + + def test_bad_blocks_failure(self): + # the first 76 servers have bad blocks, which will be caught by the + # blockhashes, and the download will fail + modemap = dict([(i, "bad block") + for i in range(76)] + + [(i, "good") + for i in range(76, 100)]) + d = self.send_and_recover(100, bucket_modes=modemap) + def _done(res): + self.failUnless(isinstance(res, Failure)) + self.failUnless(res.check(download.NotEnoughPeersError)) + d.addBoth(_done) + return d + + def test_bad_blockhashes(self): + # the first 74 servers have bad block hashes, so the blockhash tree + # will not validate + modemap = dict([(i, "bad blockhash") + for i in range(74)] + + [(i, "good") + for i in range(74, 100)]) + return self.send_and_recover(100, bucket_modes=modemap) + + def test_bad_blockhashes_failure(self): + # the first 76 servers have bad block hashes, so the blockhash tree + # will not validate, and the download will fail + modemap = dict([(i, "bad blockhash") + for i in range(76)] + + [(i, "good") + for i in range(76, 100)]) + d = self.send_and_recover(100, bucket_modes=modemap) + def _done(res): + self.failUnless(isinstance(res, Failure)) + self.failUnless(res.check(download.NotEnoughPeersError)) + d.addBoth(_done) + return d + + def test_bad_sharehashes(self): + # the first 74 servers have bad block hashes, so the sharehash tree + # will not validate + modemap = dict([(i, "bad sharehash") + for i in range(74)] + + [(i, "good") + for i in range(74, 100)]) + return self.send_and_recover(100, bucket_modes=modemap) + + def test_bad_sharehashes_failure(self): + # the first 76 servers have bad block hashes, so the sharehash tree + # will not validate, and the download will fail + modemap = dict([(i, "bad sharehash") + for i in range(76)] + + [(i, "good") + for i in range(76, 100)]) + d = self.send_and_recover(100, bucket_modes=modemap) + def _done(res): + self.failUnless(isinstance(res, Failure)) + self.failUnless(res.check(download.NotEnoughPeersError)) + d.addBoth(_done) + return d