#! /usr/bin/env python import os, shutil, sys, urllib, time, stat from cStringIO import StringIO from twisted.internet import defer, reactor, protocol, error from twisted.application import service, internet from twisted.web import client as tw_client from allmydata import client, introducer from allmydata.scripts import create_node from allmydata.util import testutil, fileutil import foolscap from foolscap import eventual from twisted.python import log class StallableHTTPGetterDiscarder(tw_client.HTTPPageGetter): full_speed_ahead = False _bytes_so_far = 0 stalled = None def handleResponsePart(self, data): self._bytes_so_far += len(data) if not self.factory.do_stall: return if self.full_speed_ahead: return if self._bytes_so_far > 1e6+100: if not self.stalled: print "STALLING" self.transport.pauseProducing() self.stalled = reactor.callLater(10.0, self._resume_speed) def _resume_speed(self): print "RESUME SPEED" self.stalled = None self.full_speed_ahead = True self.transport.resumeProducing() def handleResponseEnd(self): if self.stalled: print "CANCEL" self.stalled.cancel() self.stalled = None return tw_client.HTTPPageGetter.handleResponseEnd(self) class StallableDiscardingHTTPClientFactory(tw_client.HTTPClientFactory): protocol = StallableHTTPGetterDiscarder def discardPage(url, stall=False, *args, **kwargs): """Start fetching the URL, but stall our pipe after the first 1MB. Wait 10 seconds, then resume downloading (and discarding) everything. """ # adapted from twisted.web.client.getPage . We can't just wrap or # subclass because it provides no way to override the HTTPClientFactory # that it creates. scheme, host, port, path = tw_client._parse(url) factory = StallableDiscardingHTTPClientFactory(url, *args, **kwargs) factory.do_stall = stall assert scheme == 'http' reactor.connectTCP(host, port, factory) return factory.deferred class SystemFramework(testutil.PollMixin): numnodes = 5 def __init__(self, basedir, mode): self.basedir = basedir = os.path.abspath(basedir) if not basedir.startswith(os.path.abspath(".")): raise AssertionError("safety issue: basedir must be a subdir") self.testdir = testdir = os.path.join(basedir, "test") if os.path.exists(testdir): shutil.rmtree(testdir) fileutil.make_dirs(testdir) self.sparent = service.MultiService() self.sparent.startService() self.proc = None self.tub = foolscap.Tub() self.tub.setServiceParent(self.sparent) self.mode = mode self.failed = False self.keepalive_file = None def run(self): framelog = os.path.join(self.basedir, "driver.log") log.startLogging(open(framelog, "a"), setStdout=False) log.msg("CHECK_MEMORY(mode=%s) STARTING" % self.mode) #logfile = open(os.path.join(self.testdir, "log"), "w") #flo = log.FileLogObserver(logfile) #log.startLoggingWithObserver(flo.emit, setStdout=False) d = eventual.fireEventually() d.addCallback(lambda res: self.setUp()) d.addCallback(lambda res: self.record_initial_memusage()) d.addCallback(lambda res: self.make_nodes()) d.addCallback(lambda res: self.wait_for_client_connected()) d.addCallback(lambda res: self.do_test()) d.addBoth(self.tearDown) def _err(err): self.failed = err log.err(err) print err d.addErrback(_err) def _done(res): reactor.stop() return res d.addBoth(_done) reactor.run() if self.failed: # raiseException doesn't work for CopiedFailures self.failed.raiseException() def setUp(self): #print "STARTING" self.stats = {} self.statsfile = open(os.path.join(self.basedir, "stats.out"), "a") d = self.make_introducer() def _more(res): return self.start_client() d.addCallback(_more) def _record_control_furl(control_furl): self.control_furl = control_furl #print "OBTAINING '%s'" % (control_furl,) return self.tub.getReference(self.control_furl) d.addCallback(_record_control_furl) def _record_control(control_rref): self.control_rref = control_rref d.addCallback(_record_control) def _ready(res): #print "CLIENT READY" pass d.addCallback(_ready) return d def record_initial_memusage(self): print print "Client started (no connections yet)" d = self._print_usage() d.addCallback(self.stash_stats, "init") return d def wait_for_client_connected(self): print print "Client connecting to other nodes.." return self.control_rref.callRemote("wait_for_client_connections", self.numnodes+1) def tearDown(self, passthrough): # the client node will shut down in a few seconds #os.remove(os.path.join(self.clientdir, "suicide_prevention_hotline")) log.msg("shutting down SystemTest services") if self.keepalive_file and os.path.exists(self.keepalive_file): age = time.time() - os.stat(self.keepalive_file)[stat.ST_MTIME] log.msg("keepalive file at shutdown was %ds old" % age) d = defer.succeed(None) if self.proc: d.addCallback(lambda res: self.kill_client()) d.addCallback(lambda res: self.sparent.stopService()) d.addCallback(lambda res: eventual.flushEventualQueue()) def _close_statsfile(res): self.statsfile.close() d.addCallback(_close_statsfile) d.addCallback(lambda res: passthrough) return d def add_service(self, s): s.setServiceParent(self.sparent) return s def make_introducer(self): iv_basedir = os.path.join(self.testdir, "introducer") os.mkdir(iv_basedir) iv = introducer.IntroducerNode(basedir=iv_basedir) self.introducer = self.add_service(iv) d = self.introducer.when_tub_ready() def _introducer_ready(res): q = self.introducer self.introducer_furl = q.introducer_url d.addCallback(_introducer_ready) return d def make_nodes(self): self.nodes = [] for i in range(self.numnodes): nodedir = os.path.join(self.testdir, "node%d" % i) os.mkdir(nodedir) f = open(os.path.join(nodedir, "introducer.furl"), "w") f.write(self.introducer_furl) f.close() # the only tests for which we want the internal nodes to actually # retain shares are the ones where somebody's going to download # them. if self.mode in ("download", "download-GET", "download-GET-slow"): # retain shares pass else: # for these tests, we tell the storage servers to pretend to # accept shares, but really just throw them out, since we're # only testing upload and not download. f = open(os.path.join(nodedir, "debug_no_storage"), "w") f.write("no_storage\n") f.close() if self.mode in ("receive",): # for this mode, the client-under-test gets all the shares, # so our internal nodes can refuse requests f = open(os.path.join(nodedir, "sizelimit"), "w") f.write("0\n") f.close() c = self.add_service(client.Client(basedir=nodedir)) self.nodes.append(c) # the peers will start running, eventually they will connect to each # other and the introducer def touch_keepalive(self): if os.path.exists(self.keepalive_file): age = time.time() - os.stat(self.keepalive_file)[stat.ST_MTIME] log.msg("touching keepalive file, was %ds old" % age) f = open(self.keepalive_file, "w") f.write("""\ If the node notices this file at startup, it will poll every 5 seconds and terminate if the file is more than 10 seconds old, or if it has been deleted. If the test harness has an internal failure and neglects to kill off the node itself, this helps to avoid leaving processes lying around. The contents of this file are ignored. """) f.close() def start_client(self): # this returns a Deferred that fires with the client's control.furl log.msg("MAKING CLIENT") clientdir = self.clientdir = os.path.join(self.testdir, "client") quiet = StringIO() create_node.create_client(clientdir, {}, out=quiet) log.msg("DONE MAKING CLIENT") f = open(os.path.join(clientdir, "introducer.furl"), "w") f.write(self.introducer_furl + "\n") f.close() f = open(os.path.join(clientdir, "webport"), "w") # TODO: ideally we would set webport=0 and then ask the node what # port it picked. But at the moment it is not convenient to do this, # so we just pick a relatively unique one. webport = max(os.getpid(), 2000) f.write("tcp:%d:interface=127.0.0.1\n" % webport) f.close() self.webish_url = "http://localhost:%d" % webport if self.mode in ("upload-self", "receive"): # accept and store shares, to trigger the memory consumption bugs pass else: # don't accept any shares f = open(os.path.join(clientdir, "sizelimit"), "w") f.write("0\n") f.close() ## also, if we do receive any shares, throw them away #f = open(os.path.join(clientdir, "debug_no_storage"), "w") #f.write("no_storage\n") #f.close() if self.mode == "upload-self": f = open(os.path.join(clientdir, "push_to_ourselves"), "w") f.write("push_to_ourselves\n") f.close() self.keepalive_file = os.path.join(clientdir, "suicide_prevention_hotline") # now start updating the mtime. self.touch_keepalive() ts = internet.TimerService(1.0, self.touch_keepalive) ts.setServiceParent(self.sparent) pp = ClientWatcher() self.proc_done = pp.d = defer.Deferred() logfile = os.path.join(self.basedir, "client.log") cmd = ["twistd", "-n", "-y", "tahoe-client.tac", "-l", logfile] env = os.environ.copy() self.proc = reactor.spawnProcess(pp, cmd[0], cmd, env, path=clientdir) log.msg("CLIENT STARTED") # now we wait for the client to get started. we're looking for the # control.furl file to appear. furl_file = os.path.join(clientdir, "control.furl") def _check(): if pp.ended and pp.ended.value.status != 0: # the twistd process ends normally (with rc=0) if the child # is successfully launched. It ends abnormally (with rc!=0) # if the child cannot be launched. raise RuntimeError("process ended while waiting for startup") return os.path.exists(furl_file) d = self.poll(_check, 0.1) # once it exists, wait a moment before we read from it, just in case # it hasn't finished writing the whole thing. Ideally control.furl # would be created in some atomic fashion, or made non-readable until # it's ready, but I can't think of an easy way to do that, and I # think the chances that we'll observe a half-write are pretty low. def _stall(res): d2 = defer.Deferred() reactor.callLater(0.1, d2.callback, None) return d2 d.addCallback(_stall) def _read(res): f = open(furl_file, "r") furl = f.read() return furl.strip() d.addCallback(_read) return d def kill_client(self): # returns a Deferred that fires when the process exits. This may only # be called once. try: self.proc.signalProcess("INT") except error.ProcessExitedAlready: pass return self.proc_done def create_data(self, name, size): filename = os.path.join(self.testdir, name + ".data") f = open(filename, "wb") block = "a" * 8192 while size > 0: l = min(size, 8192) f.write(block[:l]) size -= l return filename def stash_stats(self, stats, name): self.statsfile.write("%s %s: %d\n" % (self.mode, name, stats['VmPeak'])) self.statsfile.flush() self.stats[name] = stats['VmPeak'] def POST(self, urlpath, **fields): url = self.webish_url + urlpath sepbase = "boogabooga" sep = "--" + sepbase form = [] form.append(sep) form.append('Content-Disposition: form-data; name="_charset"') form.append('') form.append('UTF-8') form.append(sep) for name, value in fields.iteritems(): if isinstance(value, tuple): filename, value = value form.append('Content-Disposition: form-data; name="%s"; ' 'filename="%s"' % (name, filename)) else: form.append('Content-Disposition: form-data; name="%s"' % name) form.append('') form.append(value) form.append(sep) form[-1] += "--" body = "\r\n".join(form) + "\r\n" headers = {"content-type": "multipart/form-data; boundary=%s" % sepbase, } return tw_client.getPage(url, method="POST", postdata=body, headers=headers, followRedirect=False) def GET_discard(self, urlpath, stall): url = self.webish_url + urlpath + "?filename=dummy-get.out" return discardPage(url, stall) def _print_usage(self, res=None): d = self.control_rref.callRemote("get_memory_usage") def _print(stats): print "VmSize: %9d VmPeak: %9d" % (stats["VmSize"], stats["VmPeak"]) return stats d.addCallback(_print) return d def _do_upload(self, res, size, files, uris): name = '%d' % size print print "uploading %s" % name if self.mode in ("upload", "upload-self"): files[name] = self.create_data(name, size) d = self.control_rref.callRemote("upload_from_file_to_uri", files[name]) def _done(uri): os.remove(files[name]) del files[name] return uri d.addCallback(_done) elif self.mode == "upload-POST": data = "a" * size url = "/uri" d = self.POST(url, t="upload", file=("%d.data" % size, data)) elif self.mode in ("receive", "download", "download-GET", "download-GET-slow"): # mode=receive: upload the data from a local peer, so that the # client-under-test receives and stores the shares # # mode=download*: upload the data from a local peer, then have # the client-under-test download it. # # we need to wait until the uploading node has connected to all # peers, since the wait_for_client_connections() above doesn't # pay attention to our self.nodes[] and their connections. files[name] = self.create_data(name, size) u = self.nodes[0].getServiceNamed("uploader") d = self.nodes[0].debug_wait_for_client_connections(self.numnodes+1) d.addCallback(lambda res: u.upload_filename(files[name])) else: raise RuntimeError("unknown mode=%s" % self.mode) def _complete(uri): uris[name] = uri print "uploaded %s" % name d.addCallback(_complete) return d def _do_download(self, res, size, uris): if self.mode not in ("download", "download-GET", "download-GET-slow"): return name = '%d' % size print "downloading %s" % name uri = uris[name] if self.mode == "download": d = self.control_rref.callRemote("download_from_uri_to_file", uri, "dummy.out") elif self.mode == "download-GET": url = "/uri/%s" % uri d = self.GET_discard(urllib.quote(url), stall=False) elif self.mode == "download-GET-slow": url = "/uri/%s" % uri d = self.GET_discard(urllib.quote(url), stall=True) def _complete(res): print "downloaded %s" % name return res d.addCallback(_complete) return d def do_test(self): #print "CLIENT STARTED" #print "FURL", self.control_furl #print "RREF", self.control_rref #print kB = 1000; MB = 1000*1000 files = {} uris = {} d = self._print_usage() d.addCallback(self.stash_stats, "0B") for i in range(10): d.addCallback(self._do_upload, 10*kB+i, files, uris) d.addCallback(self._do_download, 10*kB+i, uris) d.addCallback(self._print_usage) d.addCallback(self.stash_stats, "10kB") for i in range(3): d.addCallback(self._do_upload, 10*MB+i, files, uris) d.addCallback(self._do_download, 10*MB+i, uris) d.addCallback(self._print_usage) d.addCallback(self.stash_stats, "10MB") for i in range(1): d.addCallback(self._do_upload, 50*MB+i, files, uris) d.addCallback(self._do_download, 50*MB+i, uris) d.addCallback(self._print_usage) d.addCallback(self.stash_stats, "50MB") #for i in range(1): # d.addCallback(self._do_upload, 100*MB+i, files, uris) # d.addCallback(self._do_download, 100*MB+i, uris) # d.addCallback(self._print_usage) #d.addCallback(self.stash_stats, "100MB") #d.addCallback(self.stall) def _done(res): print "FINISHING" d.addCallback(_done) return d def stall(self, res): d = defer.Deferred() reactor.callLater(5, d.callback, None) return d class ClientWatcher(protocol.ProcessProtocol): ended = False def outReceived(self, data): print "OUT:", data def errReceived(self, data): print "ERR:", data def processEnded(self, reason): self.ended = reason self.d.callback(None) if __name__ == '__main__': mode = "upload" if len(sys.argv) > 1: mode = sys.argv[1] # put the logfile and stats.out in _test_memory/ . These stick around. # put the nodes and other files in _test_memory/test/ . These are # removed each time we run. sf = SystemFramework("_test_memory", mode) sf.run()