import simplejson
import os.path, shutil
from twisted.trial import unittest
from twisted.internet import defer
from allmydata import check_results, uri
from allmydata import uri as tahoe_uri
from allmydata.util import base32
from allmydata.web import check_results as web_check_results
from allmydata.storage_client import StorageFarmBroker, NativeStorageServer
from allmydata.storage.server import storage_index_to_dir
from allmydata.monitor import Monitor
from allmydata.test.no_network import GridTestMixin
from allmydata.immutable.upload import Data
from allmydata.test.common_web import WebRenderingMixin
from allmydata.mutable.publish import MutableData
class FakeClient:
def get_storage_broker(self):
return self.storage_broker
class WebResultsRendering(unittest.TestCase, WebRenderingMixin):
def create_fake_client(self):
sb = StorageFarmBroker(True)
# s.get_name() (the "short description") will be "v0-00000000".
# s.get_longname() will include the -long suffix.
# s.get_peerid() (i.e. tubid) will be "aaa.." or "777.." or "ceir.."
servers = [("v0-00000000-long", "\x00"*20, "peer-0"),
("v0-ffffffff-long", "\xff"*20, "peer-f"),
("v0-11111111-long", "\x11"*20, "peer-11")]
for (key_s, peerid, nickname) in servers:
tubid_b32 = base32.b2a(peerid)
furl = "pb://%s@nowhere/fake" % tubid_b32
ann = { "version": 0,
"service-name": "storage",
"anonymous-storage-FURL": furl,
"permutation-seed-base32": "",
"nickname": unicode(nickname),
"app-versions": {}, # need #466 and v2 introducer
"my-version": "ver",
"oldest-supported": "oldest",
}
s = NativeStorageServer(key_s, ann)
sb.test_add_server(peerid, s) # XXX: maybe use key_s?
c = FakeClient()
c.storage_broker = sb
return c
def render_json(self, page):
d = self.render1(page, args={"output": ["json"]})
return d
def test_literal(self):
c = self.create_fake_client()
lcr = web_check_results.LiteralCheckResultsRenderer(c)
d = self.render1(lcr)
def _check(html):
s = self.remove_tags(html)
self.failUnlessIn("Literal files are always healthy", s)
d.addCallback(_check)
d.addCallback(lambda ignored:
self.render1(lcr, args={"return_to": ["FOOURL"]}))
def _check_return_to(html):
s = self.remove_tags(html)
self.failUnlessIn("Literal files are always healthy", s)
self.failUnlessIn('Return to file.',
html)
d.addCallback(_check_return_to)
d.addCallback(lambda ignored: self.render_json(lcr))
def _check_json(json):
j = simplejson.loads(json)
self.failUnlessEqual(j["storage-index"], "")
self.failUnlessEqual(j["results"]["healthy"], True)
d.addCallback(_check_json)
return d
def test_check(self):
c = self.create_fake_client()
sb = c.storage_broker
serverid_1 = "\x00"*20
serverid_f = "\xff"*20
server_1 = sb.get_stub_server(serverid_1)
server_f = sb.get_stub_server(serverid_f)
u = uri.CHKFileURI("\x00"*16, "\x00"*32, 3, 10, 1234)
data = { "count_happiness": 8,
"count_shares_needed": 3,
"count_shares_expected": 9,
"count_shares_good": 10,
"count_good_share_hosts": 11,
"count_recoverable_versions": 1,
"count_unrecoverable_versions": 0,
"servers_responding": [],
"sharemap": {"shareid1": [server_1, server_f]},
"count_wrong_shares": 0,
"list_corrupt_shares": [],
"count_corrupt_shares": 0,
"list_incompatible_shares": [],
"count_incompatible_shares": 0,
"report": [], "share_problems": [], "servermap": None,
}
cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=True, recoverable=True,
summary="groovy",
**data)
w = web_check_results.CheckResultsRenderer(c, cr)
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check Results for SI=2k6avp", s) # abbreviated
self.failUnlessIn("Healthy : groovy", s)
self.failUnlessIn("Share Counts: need 3-of-9, have 10", s)
self.failUnlessIn("Happiness Level: 8", s)
self.failUnlessIn("Hosts with good shares: 11", s)
self.failUnlessIn("Corrupt shares: none", s)
self.failUnlessIn("Wrong Shares: 0", s)
self.failUnlessIn("Recoverable Versions: 1", s)
self.failUnlessIn("Unrecoverable Versions: 0", s)
self.failUnlessIn("Good Shares (sorted in share order): Share ID Nickname Node ID shareid1 peer-0 00000000 peer-f ffffffff", s)
cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=False, recoverable=True,
summary="ungroovy",
**data)
w = web_check_results.CheckResultsRenderer(c, cr)
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check Results for SI=2k6avp", s) # abbreviated
self.failUnlessIn("Not Healthy! : ungroovy", s)
data["count_corrupt_shares"] = 1
data["list_corrupt_shares"] = [(server_1, u.get_storage_index(), 2)]
cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=False, recoverable=False,
summary="rather dead",
**data)
w = web_check_results.CheckResultsRenderer(c, cr)
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check Results for SI=2k6avp", s) # abbreviated
self.failUnlessIn("Not Recoverable! : rather dead", s)
self.failUnlessIn("Corrupt shares: Share ID Nickname Node ID sh#2 peer-0 00000000", s)
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check Results for SI=2k6avp", s) # abbreviated
self.failUnlessIn("Not Recoverable! : rather dead", s)
html = self.render2(w, args={"return_to": ["FOOURL"]})
self.failUnlessIn('Return to file/directory.',
html)
d = self.render_json(w)
def _check_json(jdata):
j = simplejson.loads(jdata)
self.failUnlessEqual(j["summary"], "rather dead")
self.failUnlessEqual(j["storage-index"],
"2k6avpjga3dho3zsjo6nnkt7n4")
expected = {'count-happiness': 8,
'count-shares-expected': 9,
'healthy': False,
'count-unrecoverable-versions': 0,
'count-shares-needed': 3,
'sharemap': {"shareid1":
["v0-00000000-long", "v0-ffffffff-long"]},
'count-recoverable-versions': 1,
'list-corrupt-shares':
[["v0-00000000-long", "2k6avpjga3dho3zsjo6nnkt7n4", 2]],
'count-good-share-hosts': 11,
'count-wrong-shares': 0,
'count-shares-good': 10,
'count-corrupt-shares': 1,
'servers-responding': [],
'recoverable': False,
}
self.failUnlessEqual(j["results"], expected)
d.addCallback(_check_json)
d.addCallback(lambda ignored: self.render1(w))
def _check(html):
s = self.remove_tags(html)
self.failUnlessIn("File Check Results for SI=2k6avp", s)
self.failUnlessIn("Not Recoverable! : rather dead", s)
d.addCallback(_check)
return d
def test_check_and_repair(self):
c = self.create_fake_client()
sb = c.storage_broker
serverid_1 = "\x00"*20
serverid_f = "\xff"*20
u = uri.CHKFileURI("\x00"*16, "\x00"*32, 3, 10, 1234)
data = { "count_happiness": 5,
"count_shares_needed": 3,
"count_shares_expected": 10,
"count_shares_good": 6,
"count_good_share_hosts": 7,
"count_recoverable_versions": 1,
"count_unrecoverable_versions": 0,
"servers_responding": [],
"sharemap": {"shareid1": [sb.get_stub_server(serverid_1),
sb.get_stub_server(serverid_f)]},
"count_wrong_shares": 0,
"list_corrupt_shares": [],
"count_corrupt_shares": 0,
"list_incompatible_shares": [],
"count_incompatible_shares": 0,
"report": [], "share_problems": [], "servermap": None,
}
pre_cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=False, recoverable=True,
summary="illing",
**data)
data = { "count_happiness": 9,
"count_shares_needed": 3,
"count_shares_expected": 10,
"count_shares_good": 10,
"count_good_share_hosts": 11,
"count_recoverable_versions": 1,
"count_unrecoverable_versions": 0,
"servers_responding": [],
"sharemap": {"shareid1": [sb.get_stub_server(serverid_1),
sb.get_stub_server(serverid_f)]},
"count_wrong_shares": 0,
"count_corrupt_shares": 0,
"list_corrupt_shares": [],
"list_incompatible_shares": [],
"count_incompatible_shares": 0,
"report": [], "share_problems": [], "servermap": None,
}
post_cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=True, recoverable=True,
summary="groovy",
**data)
crr = check_results.CheckAndRepairResults(u.get_storage_index())
crr.pre_repair_results = pre_cr
crr.post_repair_results = post_cr
crr.repair_attempted = False
w = web_check_results.CheckAndRepairResultsRenderer(c, crr)
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check-And-Repair Results for SI=2k6avp", s)
self.failUnlessIn("Healthy : groovy", s)
self.failUnlessIn("No repair necessary", s)
self.failUnlessIn("Post-Repair Checker Results:", s)
self.failUnlessIn("Share Counts: need 3-of-10, have 10", s)
crr.repair_attempted = True
crr.repair_successful = True
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check-And-Repair Results for SI=2k6avp", s)
self.failUnlessIn("Healthy : groovy", s)
self.failUnlessIn("Repair successful", s)
self.failUnlessIn("Post-Repair Checker Results:", s)
crr.repair_attempted = True
crr.repair_successful = False
post_cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=False, recoverable=True,
summary="better",
**data)
crr.post_repair_results = post_cr
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check-And-Repair Results for SI=2k6avp", s)
self.failUnlessIn("Not Healthy! : better", s)
self.failUnlessIn("Repair unsuccessful", s)
self.failUnlessIn("Post-Repair Checker Results:", s)
crr.repair_attempted = True
crr.repair_successful = False
post_cr = check_results.CheckResults(u, u.get_storage_index(),
healthy=False, recoverable=False,
summary="worse",
**data)
crr.post_repair_results = post_cr
html = self.render2(w)
s = self.remove_tags(html)
self.failUnlessIn("File Check-And-Repair Results for SI=2k6avp", s)
self.failUnlessIn("Not Recoverable! : worse", s)
self.failUnlessIn("Repair unsuccessful", s)
self.failUnlessIn("Post-Repair Checker Results:", s)
d = self.render_json(w)
def _got_json(data):
j = simplejson.loads(data)
self.failUnlessEqual(j["repair-attempted"], True)
self.failUnlessEqual(j["storage-index"],
"2k6avpjga3dho3zsjo6nnkt7n4")
self.failUnlessEqual(j["pre-repair-results"]["summary"], "illing")
self.failUnlessEqual(j["post-repair-results"]["summary"], "worse")
d.addCallback(_got_json)
w2 = web_check_results.CheckAndRepairResultsRenderer(c, None)
d.addCallback(lambda ignored: self.render_json(w2))
def _got_lit_results(data):
j = simplejson.loads(data)
self.failUnlessEqual(j["repair-attempted"], False)
self.failUnlessEqual(j["storage-index"], "")
d.addCallback(_got_lit_results)
return d
class BalancingAct(GridTestMixin, unittest.TestCase):
# test for #1115 regarding the 'count-good-share-hosts' metric
def add_server(self, server_number, readonly=False):
assert self.g, "I tried to find a grid at self.g, but failed"
ss = self.g.make_server(server_number, readonly)
#log.msg("just created a server, number: %s => %s" % (server_number, ss,))
self.g.add_server(server_number, ss)
def add_server_with_share(self, server_number, uri, share_number=None,
readonly=False):
self.add_server(server_number, readonly)
if share_number is not None:
self.copy_share_to_server(uri, share_number, server_number)
def copy_share_to_server(self, uri, share_number, server_number):
ss = self.g.servers_by_number[server_number]
# Copy share i from the directory associated with the first
# storage server to the directory associated with this one.
assert self.g, "I tried to find a grid at self.g, but failed"
assert self.shares, "I tried to find shares at self.shares, but failed"
old_share_location = self.shares[share_number][2]
new_share_location = os.path.join(ss.storedir, "shares")
si = tahoe_uri.from_string(self.uri).get_storage_index()
new_share_location = os.path.join(new_share_location,
storage_index_to_dir(si))
if not os.path.exists(new_share_location):
os.makedirs(new_share_location)
new_share_location = os.path.join(new_share_location,
str(share_number))
if old_share_location != new_share_location:
shutil.copy(old_share_location, new_share_location)
shares = self.find_uri_shares(uri)
# Make sure that the storage server has the share.
self.failUnless((share_number, ss.my_nodeid, new_share_location)
in shares)
def _pretty_shares_chart(self, uri):
# Servers are labeled A-Z, shares are labeled 0-9
letters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
assert len(self.g.servers_by_number) < len(letters), \
"This little printing function is only meant for < 26 servers"
shares_chart = {}
names = dict(zip([ss.my_nodeid
for _,ss in self.g.servers_by_number.iteritems()],
letters))
for shnum, serverid, _ in self.find_uri_shares(uri):
shares_chart.setdefault(shnum, []).append(names[serverid])
return shares_chart
def test_good_share_hosts(self):
self.basedir = "checker/BalancingAct/1115"
self.set_up_grid(num_servers=1)
c0 = self.g.clients[0]
c0.encoding_params['happy'] = 1
c0.encoding_params['n'] = 4
c0.encoding_params['k'] = 3
DATA = "data" * 100
d = c0.upload(Data(DATA, convergence=""))
def _stash_immutable(ur):
self.imm = c0.create_node_from_uri(ur.get_uri())
self.uri = self.imm.get_uri()
d.addCallback(_stash_immutable)
d.addCallback(lambda ign:
self.find_uri_shares(self.uri))
def _store_shares(shares):
self.shares = shares
d.addCallback(_store_shares)
def add_three(_, i):
# Add a new server with just share 3
self.add_server_with_share(i, self.uri, 3)
#print self._pretty_shares_chart(self.uri)
for i in range(1,5):
d.addCallback(add_three, i)
def _check_and_repair(_):
return self.imm.check_and_repair(Monitor())
def _check_counts(crr, shares_good, good_share_hosts):
prr = crr.get_post_repair_results()
#print self._pretty_shares_chart(self.uri)
self.failUnlessEqual(prr.get_share_counter_good(), shares_good)
self.failUnlessEqual(prr.get_host_counter_good_shares(),
good_share_hosts)
"""
Initial sharemap:
0:[A] 1:[A] 2:[A] 3:[A,B,C,D,E]
4 good shares, but 5 good hosts
After deleting all instances of share #3 and repairing:
0:[A,B], 1:[A,C], 2:[A,D], 3:[E]
Still 4 good shares and 5 good hosts
"""
d.addCallback(_check_and_repair)
d.addCallback(_check_counts, 4, 5)
d.addCallback(lambda _: self.delete_shares_numbered(self.uri, [3]))
d.addCallback(_check_and_repair)
d.addCallback(_check_counts, 4, 5)
d.addCallback(lambda _: [self.g.break_server(sid)
for sid in self.g.get_all_serverids()])
d.addCallback(_check_and_repair)
d.addCallback(_check_counts, 0, 0)
return d
class AddLease(GridTestMixin, unittest.TestCase):
# test for #875, in which failures in the add-lease call cause
# false-negatives in the checker
def test_875(self):
self.basedir = "checker/AddLease/875"
self.set_up_grid(num_servers=1)
c0 = self.g.clients[0]
c0.encoding_params['happy'] = 1
self.uris = {}
DATA = "data" * 100
d = c0.upload(Data(DATA, convergence=""))
def _stash_immutable(ur):
self.imm = c0.create_node_from_uri(ur.get_uri())
d.addCallback(_stash_immutable)
d.addCallback(lambda ign:
c0.create_mutable_file(MutableData("contents")))
def _stash_mutable(node):
self.mut = node
d.addCallback(_stash_mutable)
def _check_cr(cr, which):
self.failUnless(cr.is_healthy(), which)
# these two should work normally
d.addCallback(lambda ign: self.imm.check(Monitor(), add_lease=True))
d.addCallback(_check_cr, "immutable-normal")
d.addCallback(lambda ign: self.mut.check(Monitor(), add_lease=True))
d.addCallback(_check_cr, "mutable-normal")
really_did_break = []
# now break the server's remote_add_lease call
def _break_add_lease(ign):
def broken_add_lease(*args, **kwargs):
really_did_break.append(1)
raise KeyError("intentional failure, should be ignored")
assert self.g.servers_by_number[0].remote_add_lease
self.g.servers_by_number[0].remote_add_lease = broken_add_lease
d.addCallback(_break_add_lease)
# and confirm that the files still look healthy
d.addCallback(lambda ign: self.mut.check(Monitor(), add_lease=True))
d.addCallback(_check_cr, "mutable-broken")
d.addCallback(lambda ign: self.imm.check(Monitor(), add_lease=True))
d.addCallback(_check_cr, "immutable-broken")
d.addCallback(lambda ign: self.failUnless(really_did_break))
return d
class CounterHolder(object):
def __init__(self):
self._num_active_block_fetches = 0
self._max_active_block_fetches = 0
from allmydata.immutable.checker import ValidatedReadBucketProxy
class MockVRBP(ValidatedReadBucketProxy):
def __init__(self, sharenum, bucket, share_hash_tree, num_blocks, block_size, share_size, counterholder):
ValidatedReadBucketProxy.__init__(self, sharenum, bucket,
share_hash_tree, num_blocks,
block_size, share_size)
self.counterholder = counterholder
def get_block(self, blocknum):
self.counterholder._num_active_block_fetches += 1
if self.counterholder._num_active_block_fetches > self.counterholder._max_active_block_fetches:
self.counterholder._max_active_block_fetches = self.counterholder._num_active_block_fetches
d = ValidatedReadBucketProxy.get_block(self, blocknum)
def _mark_no_longer_active(res):
self.counterholder._num_active_block_fetches -= 1
return res
d.addBoth(_mark_no_longer_active)
return d
class TooParallel(GridTestMixin, unittest.TestCase):
# bug #1395: immutable verifier was aggressively parallized, checking all
# blocks of all shares at the same time, blowing our memory budget and
# crashing with MemoryErrors on >1GB files.
def test_immutable(self):
import allmydata.immutable.checker
origVRBP = allmydata.immutable.checker.ValidatedReadBucketProxy
self.basedir = "checker/TooParallel/immutable"
# If any code asks to instantiate a ValidatedReadBucketProxy,
# we give them a MockVRBP which is configured to use our
# CounterHolder.
counterholder = CounterHolder()
def make_mock_VRBP(*args, **kwargs):
return MockVRBP(counterholder=counterholder, *args, **kwargs)
allmydata.immutable.checker.ValidatedReadBucketProxy = make_mock_VRBP
d = defer.succeed(None)
def _start(ign):
self.set_up_grid(num_servers=4)
self.c0 = self.g.clients[0]
self.c0.encoding_params = { "k": 1,
"happy": 4,
"n": 4,
"max_segment_size": 5,
}
self.uris = {}
DATA = "data" * 100 # 400/5 = 80 blocks
return self.c0.upload(Data(DATA, convergence=""))
d.addCallback(_start)
def _do_check(ur):
n = self.c0.create_node_from_uri(ur.get_uri())
return n.check(Monitor(), verify=True)
d.addCallback(_do_check)
def _check(cr):
# the verifier works on all 4 shares in parallel, but only
# fetches one block from each share at a time, so we expect to
# see 4 parallel fetches
self.failUnlessEqual(counterholder._max_active_block_fetches, 4)
d.addCallback(_check)
def _clean_up(res):
allmydata.immutable.checker.ValidatedReadBucketProxy = origVRBP
return res
d.addBoth(_clean_up)
return d
test_immutable.timeout = 80