--- /dev/null
+
+import os, time, struct, pickle
+from twisted.internet import reactor
+from twisted.application import service
+from allmydata.storage.server import si_b2a
+
+class TimeSliceExceeded(Exception):
+ pass
+
+class ShareCrawler(service.MultiService):
+ """A ShareCrawler subclass is attached to a StorageServer, and
+ periodically walks all of its shares, processing each one in some
+ fashion. This crawl is rate-limited, to reduce the IO burden on the host,
+ since large servers will have several million shares, which can take
+ hours or days to read.
+
+ We assume that the normal upload/download/get_buckets traffic of a tahoe
+ grid will cause the prefixdir contents to be mostly cached, or that the
+ number of buckets in each prefixdir will be small enough to load quickly.
+ A 1TB allmydata.com server was measured to have 2.56M buckets, spread
+ into the 1040 prefixdirs, with about 2460 buckets per prefix. On this
+ server, each prefixdir took 130ms-200ms to list the first time, and 17ms
+ to list the second time.
+
+ To use this, create a subclass which implements the process_bucket()
+ method. It will be called with a prefixdir and a base32 storage index
+ string. process_bucket() should run synchronously.
+
+ Then create an instance, with a reference to a StorageServer and a
+ filename where it can store persistent state. The statefile is used to
+ keep track of how far around the ring the process has travelled, as well
+ as timing history to allow the pace to be predicted and controlled. The
+ statefile will be updated and written to disk after every bucket is
+ processed.
+
+ The crawler instance must be started with startService() before it will
+ do any work. To make it stop doing work, call stopService() and wait for
+ the Deferred that it returns.
+ """
+
+ # use up to 10% of the CPU, on average. This can be changed at any time.
+ allowed_cpu_percentage = .10
+ # use up to 1.0 seconds before yielding. This can be changed at any time.
+ cpu_slice = 1.0
+ # don't run a cycle faster than this
+ minimum_cycle_time = 300
+
+ def __init__(self, server, statefile):
+ service.MultiService.__init__(self)
+ self.server = server
+ self.sharedir = server.sharedir
+ self.statefile = statefile
+ self.prefixes = [si_b2a(struct.pack(">H", i << (16-10)))[:2]
+ for i in range(2**10)]
+ self.prefixes.sort()
+ self.timer = None
+ self.bucket_cache = (None, [])
+ self.first_cycle_finished = False
+
+ def load_state(self):
+ try:
+ f = open(self.statefile, "rb")
+ state = pickle.load(f)
+ lcp = state["last-complete-prefix"]
+ if lcp == None:
+ self.last_complete_prefix_index = -1
+ else:
+ self.last_complete_prefix_index = self.prefixes.index(lcp)
+ self.last_complete_bucket = state["last-complete-bucket"]
+ self.first_cycle_finished = state["first-cycle-finished"]
+ f.close()
+ except EnvironmentError:
+ self.last_complete_prefix_index = -1
+ self.last_complete_bucket = None
+ self.first_cycle_finished = False
+
+ def save_state(self):
+ lcpi = self.last_complete_prefix_index
+ if lcpi == -1:
+ last_complete_prefix = None
+ else:
+ last_complete_prefix = self.prefixes[lcpi]
+ state = {"version": 1,
+ "last-complete-prefix": last_complete_prefix,
+ "last-complete-bucket": self.last_complete_bucket,
+ "first-cycle-finished": self.first_cycle_finished,
+ }
+ tmpfile = self.statefile + ".tmp"
+ f = open(tmpfile, "wb")
+ pickle.dump(state, f)
+ f.close()
+ os.rename(tmpfile, self.statefile)
+
+ def startService(self):
+ self.load_state()
+ self.timer = reactor.callLater(0, self.start_slice)
+ service.MultiService.startService(self)
+
+ def stopService(self):
+ if self.timer:
+ self.timer.cancel()
+ self.timer = None
+ return service.MultiService.stopService(self)
+
+ def start_slice(self):
+ self.timer = None
+ start_slice = time.time()
+ try:
+ self.start_current_prefix(start_slice)
+ finished_cycle = True
+ except TimeSliceExceeded:
+ finished_cycle = False
+ # either we finished a whole cycle, or we ran out of time
+ this_slice = time.time() - start_slice
+ # this_slice/(this_slice+sleep_time) = percentage
+ # this_slice/percentage = this_slice+sleep_time
+ # sleep_time = (this_slice/percentage) - this_slice
+ sleep_time = (this_slice / self.allowed_cpu_percentage) - this_slice
+ # if the math gets weird, or a timequake happens, don't sleep forever
+ sleep_time = max(0.0, min(sleep_time, 299))
+ if finished_cycle:
+ # how long should we sleep between cycles? Don't run faster than
+ # allowed_cpu_percentage says, but also run faster than
+ # minimum_cycle_time
+ self.sleeping_between_cycles = True
+ sleep_time = max(sleep_time, self.minimum_cycle_time)
+ else:
+ self.sleeping_between_cycles = False
+ self.current_sleep_time = sleep_time # for status page
+ self.yielding(sleep_time)
+ self.timer = reactor.callLater(sleep_time, self.start_slice)
+
+ def start_current_prefix(self, start_slice):
+ for i in range(self.last_complete_prefix_index+1, len(self.prefixes)):
+ if time.time() > start_slice + self.cpu_slice:
+ raise TimeSliceExceeded()
+ # if we want to yield earlier, just raise TimeSliceExceeded()
+ prefix = self.prefixes[i]
+ prefixdir = os.path.join(self.sharedir, prefix)
+ if i == self.bucket_cache[0]:
+ buckets = self.bucket_cache[1]
+ else:
+ try:
+ buckets = os.listdir(prefixdir)
+ buckets.sort()
+ except EnvironmentError:
+ buckets = []
+ self.bucket_cache = (i, buckets)
+ self.process_prefixdir(prefixdir, buckets, start_slice)
+ self.last_complete_prefix_index = i
+ self.save_state()
+ # yay! we finished the whole cycle
+ self.last_complete_prefix_index = -1
+ self.last_complete_bucket = None
+ self.first_cycle_finished = True
+ self.save_state()
+ self.finished_cycle()
+
+ def process_prefixdir(self, prefixdir, buckets, start_slice):
+ """This gets a list of bucket names (i.e. storage index strings,
+ base32-encoded) in sorted order.
+
+ Override this if your crawler doesn't care about the actual shares,
+ for example a crawler which merely keeps track of how many buckets
+ are being managed by this server.
+ """
+ for bucket in buckets:
+ if bucket <= self.last_complete_bucket:
+ continue
+ if time.time() > start_slice + self.cpu_slice:
+ raise TimeSliceExceeded()
+ self.process_bucket(prefixdir, bucket)
+ self.last_complete_bucket = bucket
+ self.save_state()
+
+ def process_bucket(self, prefixdir, storage_index_b32):
+ pass
+
+ def finished_cycle(self):
+ pass
+
+ def yielding(self, sleep_time):
+ pass
--- /dev/null
+
+import time
+import os.path
+from twisted.trial import unittest
+from twisted.application import service
+from twisted.internet import defer
+from foolscap.eventual import eventually
+
+from allmydata.util import fileutil, hashutil, pollmixin
+from allmydata.storage.server import StorageServer, si_b2a
+from allmydata.storage.crawler import ShareCrawler, TimeSliceExceeded
+
+from test_storage import FakeCanary
+from common_util import StallMixin
+
+class BucketEnumeratingCrawler(ShareCrawler):
+ cpu_slice = 500 # make sure it can complete in a single slice
+ def __init__(self, server, statefile):
+ ShareCrawler.__init__(self, server, statefile)
+ self.all_buckets = []
+ self.finished_d = defer.Deferred()
+ def process_bucket(self, prefixdir, storage_index_b32):
+ self.all_buckets.append(storage_index_b32)
+ def finished_cycle(self):
+ eventually(self.finished_d.callback, None)
+
+class PacedCrawler(ShareCrawler):
+ cpu_slice = 500 # make sure it can complete in a single slice
+ def __init__(self, server, statefile):
+ ShareCrawler.__init__(self, server, statefile)
+ self.countdown = 6
+ self.all_buckets = []
+ self.finished_d = defer.Deferred()
+ def process_bucket(self, prefixdir, storage_index_b32):
+ self.all_buckets.append(storage_index_b32)
+ self.countdown -= 1
+ if self.countdown == 0:
+ # force a timeout. We restore it in yielding()
+ self.cpu_slice = -1.0
+ def yielding(self, sleep_time):
+ self.cpu_slice = 500
+ def finished_cycle(self):
+ eventually(self.finished_d.callback, None)
+
+class ConsumingCrawler(ShareCrawler):
+ cpu_slice = 0.5
+ allowed_cpu_percentage = 0.5
+ minimum_cycle_time = 0
+
+ def __init__(self, server, statefile):
+ ShareCrawler.__init__(self, server, statefile)
+ self.accumulated = 0.0
+ self.cycles = 0
+ self.last_yield = 0.0
+ def process_bucket(self, prefixdir, storage_index_b32):
+ start = time.time()
+ time.sleep(0.05)
+ elapsed = time.time() - start
+ self.accumulated += elapsed
+ self.last_yield += elapsed
+ def finished_cycle(self):
+ self.cycles += 1
+ def yielding(self, sleep_time):
+ self.last_yield = 0.0
+
+class Basic(unittest.TestCase, StallMixin, pollmixin.PollMixin):
+ def setUp(self):
+ self.s = service.MultiService()
+ self.s.startService()
+
+ def tearDown(self):
+ return self.s.stopService()
+
+ def si(self, i):
+ return hashutil.storage_index_hash(str(i))
+ def rs(self, i, serverid):
+ return hashutil.bucket_renewal_secret_hash(str(i), serverid)
+ def cs(self, i, serverid):
+ return hashutil.bucket_cancel_secret_hash(str(i), serverid)
+
+ def write(self, i, ss, serverid, tail=0):
+ si = self.si(i)
+ si = si[:-1] + chr(tail)
+ had,made = ss.remote_allocate_buckets(si,
+ self.rs(i, serverid),
+ self.cs(i, serverid),
+ set([0]), 99, FakeCanary())
+ made[0].remote_write(0, "data")
+ made[0].remote_close()
+ return si_b2a(si)
+
+ def test_immediate(self):
+ self.basedir = "crawler/Basic/immediate"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ sis = [self.write(i, ss, serverid) for i in range(10)]
+ statefile = os.path.join(self.basedir, "statefile")
+
+ c = BucketEnumeratingCrawler(ss, statefile)
+ c.load_state()
+
+ c.start_current_prefix(time.time())
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+
+ # make sure the statefile has been returned to the starting point
+ c.finished_d = defer.Deferred()
+ c.all_buckets = []
+ c.start_current_prefix(time.time())
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+
+ # check that a new crawler picks up on the state file properly
+ c2 = BucketEnumeratingCrawler(ss, statefile)
+ c2.load_state()
+
+ c2.start_current_prefix(time.time())
+ self.failUnlessEqual(sorted(sis), sorted(c2.all_buckets))
+
+ def test_service(self):
+ self.basedir = "crawler/Basic/service"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ sis = [self.write(i, ss, serverid) for i in range(10)]
+
+ statefile = os.path.join(self.basedir, "statefile")
+ c = BucketEnumeratingCrawler(ss, statefile)
+ c.setServiceParent(self.s)
+
+ d = c.finished_d
+ def _check(ignored):
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+ d.addCallback(_check)
+ return d
+
+ def test_paced(self):
+ self.basedir = "crawler/Basic/paced"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ # put four buckets in each prefixdir
+ sis = []
+ for i in range(10):
+ for tail in range(4):
+ sis.append(self.write(i, ss, serverid, tail))
+
+ statefile = os.path.join(self.basedir, "statefile")
+
+ c = PacedCrawler(ss, statefile)
+ c.load_state()
+ try:
+ c.start_current_prefix(time.time())
+ except TimeSliceExceeded:
+ pass
+ # that should stop in the middle of one of the buckets.
+ c.cpu_slice = PacedCrawler.cpu_slice
+ self.failUnlessEqual(len(c.all_buckets), 6)
+ c.start_current_prefix(time.time()) # finish it
+ self.failUnlessEqual(len(sis), len(c.all_buckets))
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+
+ # make sure the statefile has been returned to the starting point
+ c.finished_d = defer.Deferred()
+ c.all_buckets = []
+ c.start_current_prefix(time.time())
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+ del c
+
+ # start a new crawler, it should start from the beginning
+ c = PacedCrawler(ss, statefile)
+ c.load_state()
+ try:
+ c.start_current_prefix(time.time())
+ except TimeSliceExceeded:
+ pass
+ # that should stop in the middle of one of the buckets
+ c.cpu_slice = PacedCrawler.cpu_slice
+
+ # a third crawler should pick up from where it left off
+ c2 = PacedCrawler(ss, statefile)
+ c2.all_buckets = c.all_buckets[:]
+ c2.load_state()
+ c2.countdown = -1
+ c2.start_current_prefix(time.time())
+ self.failUnlessEqual(len(sis), len(c2.all_buckets))
+ self.failUnlessEqual(sorted(sis), sorted(c2.all_buckets))
+ del c, c2
+
+ # now stop it at the end of a bucket (countdown=4), to exercise a
+ # different place that checks the time
+ c = PacedCrawler(ss, statefile)
+ c.load_state()
+ c.countdown = 4
+ try:
+ c.start_current_prefix(time.time())
+ except TimeSliceExceeded:
+ pass
+ # that should stop at the end of one of the buckets.
+ c.cpu_slice = PacedCrawler.cpu_slice
+ self.failUnlessEqual(len(c.all_buckets), 4)
+ c.start_current_prefix(time.time()) # finish it
+ self.failUnlessEqual(len(sis), len(c.all_buckets))
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+ del c
+
+ # stop it again at the end of the bucket, check that a new checker
+ # picks up correctly
+ c = PacedCrawler(ss, statefile)
+ c.load_state()
+ c.countdown = 4
+ try:
+ c.start_current_prefix(time.time())
+ except TimeSliceExceeded:
+ pass
+ # that should stop at the end of one of the buckets.
+
+ c2 = PacedCrawler(ss, statefile)
+ c2.all_buckets = c.all_buckets[:]
+ c2.load_state()
+ c2.countdown = -1
+ c2.start_current_prefix(time.time())
+ self.failUnlessEqual(len(sis), len(c2.all_buckets))
+ self.failUnlessEqual(sorted(sis), sorted(c2.all_buckets))
+ del c, c2
+
+ def test_paced_service(self):
+ self.basedir = "crawler/Basic/paced_service"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ sis = [self.write(i, ss, serverid) for i in range(10)]
+
+ statefile = os.path.join(self.basedir, "statefile")
+ c = PacedCrawler(ss, statefile)
+ c.setServiceParent(self.s)
+ # that should get through 6 buckets, pause for a little while, then
+ # resume
+
+ d = c.finished_d
+ def _check(ignored):
+ self.failUnlessEqual(sorted(sis), sorted(c.all_buckets))
+ # at this point, the crawler should be sitting in the inter-cycle
+ # timer, which should be pegged at the minumum cycle time
+ self.failUnless(c.timer)
+ self.failUnless(c.sleeping_between_cycles)
+ self.failUnlessEqual(c.current_sleep_time, c.minimum_cycle_time)
+ d.addCallback(_check)
+ return d
+
+ def test_cpu_usage(self):
+ self.basedir = "crawler/Basic/cpu_usage"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ sis = [self.write(i, ss, serverid) for i in range(10)]
+
+ statefile = os.path.join(self.basedir, "statefile")
+ c = ConsumingCrawler(ss, statefile)
+ c.setServiceParent(self.s)
+
+ # this will run as fast as it can, consuming about 50ms per call to
+ # process_bucket(), limited by the Crawler to about 50% cpu. We let
+ # it run for a few seconds, then compare how much time
+ # process_bucket() got vs wallclock time. It should get between 10%
+ # and 70% CPU. This is dicey, there's about 100ms of overhead per
+ # 300ms slice (saving the state file takes about 150-200us, but we do
+ # it 1024 times per cycle, one for each [empty] prefixdir), leaving
+ # 200ms for actual processing, which is enough to get through 4
+ # buckets each slice, then the crawler sleeps for 300ms/0.5 = 600ms,
+ # giving us 900ms wallclock per slice. In 4.0 seconds we can do 4.4
+ # slices, giving us about 17 shares, so we merely assert that we've
+ # finished at least one cycle in that time.
+
+ # with a short cpu_slice (so we can keep this test down to 4
+ # seconds), the overhead is enough to make a nominal 50% usage more
+ # like 30%. Forcing sleep_time to 0 only gets us 67% usage.
+
+ # who knows what will happen on our slower buildslaves. I'll ditch
+ # the cycles>1 test first.
+
+ start = time.time()
+ d = self.stall(delay=4.0)
+ def _done(res):
+ elapsed = time.time() - start
+ percent = 100.0 * c.accumulated / elapsed
+ self.failUnless(20 < percent < 70, "crawler got %d%%" % percent)
+ self.failUnless(c.cycles >= 1, c.cycles)
+ d.addCallback(_done)
+ return d
+
+ def test_empty_subclass(self):
+ self.basedir = "crawler/Basic/empty_subclass"
+ fileutil.make_dirs(self.basedir)
+ serverid = "\x00" * 20
+ ss = StorageServer(self.basedir, serverid)
+ ss.setServiceParent(self.s)
+
+ sis = [self.write(i, ss, serverid) for i in range(10)]
+
+ statefile = os.path.join(self.basedir, "statefile")
+ c = ShareCrawler(ss, statefile)
+ c.setServiceParent(self.s)
+
+ # we just let it run for a while, to get figleaf coverage of the
+ # empty methods in the base class
+
+ def _check():
+ return c.first_cycle_finished
+ d = self.poll(_check)
+ return d