tahoe-lafs/contrib/fuse/runtests.py

909 lines
32 KiB
Python

#! /usr/bin/env python
'''
Unit and system tests for tahoe-fuse.
'''
# Note: It's always a SetupFailure, not a TestFailure if a webapi
# operation fails, because this does not indicate a fuse interface
# failure.
# TODO: Unmount after tests regardless of failure or success!
# TODO: Test mismatches between tahoe and fuse/posix. What about nodes
# with crazy names ('\0', unicode, '/', '..')? Huuuuge files?
# Huuuuge directories... As tahoe approaches production quality, it'd
# be nice if the fuse interface did so also by hardening against such cases.
# FIXME: Only create / launch necessary nodes. Do we still need an introducer and three nodes?
# FIXME: This framework might be replaceable with twisted.trial,
# especially the "layer" design, which is a bit cumbersome when
# using recursion to manage multiple clients.
# FIXME: Identify all race conditions (hint: starting clients, versus
# using the grid fs).
import sys, os, shutil, unittest, subprocess
import tempfile, re, time, random, httplib, urllib
#import traceback
from twisted.python import usage
if sys.platform.startswith('darwin'):
UNMOUNT_CMD = ['umount']
else:
# linux, and until we hear otherwise, all other platforms with fuse, by assumption
UNMOUNT_CMD = ['fusermount', '-u']
# Import fuse implementations:
#FuseDir = os.path.join('.', 'contrib', 'fuse')
#if not os.path.isdir(FuseDir):
# raise SystemExit('''
#Could not find directory "%s". Please run this script from the tahoe
#source base directory.
#''' % (FuseDir,))
FuseDir = '.'
### Load each implementation
sys.path.append(os.path.join(FuseDir, 'impl_a'))
import tahoe_fuse as impl_a
sys.path.append(os.path.join(FuseDir, 'impl_b'))
import pyfuse.tahoe as impl_b
sys.path.append(os.path.join(FuseDir, 'impl_c'))
import blackmatch as impl_c
### config info about each impl, including which make sense to run
implementations = {
'impl_a': dict(module=impl_a,
mount_args=['--basedir', '%(nodedir)s', '%(mountpath)s', ],
mount_wait=True,
suites=['read', ]),
'impl_b': dict(module=impl_b,
todo=True,
mount_args=['--basedir', '%(nodedir)s', '%(mountpath)s', ],
mount_wait=False,
suites=['read', ]),
'impl_c': dict(module=impl_c,
mount_args=['--cache-timeout', '0', '--root-uri', '%(root-uri)s',
'--node-directory', '%(nodedir)s', '%(mountpath)s', ],
mount_wait=True,
suites=['read', 'write', ]),
'impl_c_no_split': dict(module=impl_c,
mount_args=['--cache-timeout', '0', '--root-uri', '%(root-uri)s',
'--no-split',
'--node-directory', '%(nodedir)s', '%(mountpath)s', ],
mount_wait=True,
suites=['read', 'write', ]),
}
if sys.platform == 'darwin':
del implementations['impl_a']
del implementations['impl_b']
default_catch_up_pause = 0
if sys.platform == 'linux2':
default_catch_up_pause = 2
class FuseTestsOptions(usage.Options):
optParameters = [
["test-type", None, "both",
"Type of test to run; unit, system or both"
],
["implementations", None, "all",
"Comma separated list of implementations to test, or 'all'"
],
["suites", None, "all",
"Comma separated list of test suites to run, or 'all'"
],
["tests", None, None,
"Comma separated list of specific tests to run"
],
["path-to-tahoe", None, "../../bin/tahoe",
"Which 'tahoe' script to use to create test nodes"],
["tmp-dir", None, "/tmp",
"Where the test should create temporary files"],
# Note; this is '/tmp' because on leopard, tempfile.mkdtemp creates
# directories in a location which leads paths to exceed what macfuse
# can handle without leaking un-umount-able fuse processes.
["catch-up-pause", None, str(default_catch_up_pause),
"Pause between tahoe operations and fuse tests thereon"],
]
optFlags = [
["debug-wait", None,
"Causes the test system to pause at various points, to facilitate debugging"],
["web-open", None,
"Opens a web browser to the web ui at the start of each impl's tests"],
["no-cleanup", False,
"Prevents the cleanup of the working directories, to allow analysis thereof"],
]
def postOptions(self):
if self['suites'] == 'all':
self.suites = ['read', 'write']
# [ ] todo: deduce this from looking for test_ in dir(self)
else:
self.suites = map(str.strip, self['suites'].split(','))
if self['implementations'] == 'all':
self.implementations = implementations.keys()
else:
self.implementations = map(str.strip, self['implementations'].split(','))
if self['tests']:
self.tests = map(str.strip, self['tests'].split(','))
else:
self.tests = None
self.catch_up_pause = float(self['catch-up-pause'])
### Main flow control:
def main(args):
config = FuseTestsOptions()
config.parseOptions(args[1:])
target = 'all'
if len(args) > 1:
target = args.pop(1)
test_type = config['test-type']
if test_type not in ('both', 'unit', 'system'):
raise usage.error('test-type %r not supported' % (test_type,))
if test_type in ('both', 'unit'):
run_unit_tests([args[0]])
if test_type in ('both', 'system'):
return run_system_test(config)
def run_unit_tests(argv):
print 'Running Unit Tests.'
try:
unittest.main(argv=argv)
except SystemExit, se:
pass
print 'Unit Tests complete.\n'
def run_system_test(config):
return SystemTest(config).run()
def drepr(obj):
r = repr(obj)
if len(r) > 200:
return '%s ... %s [%d]' % (r[:100], r[-100:], len(r))
else:
return r
### System Testing:
class SystemTest (object):
def __init__(self, config):
self.config = config
# These members represent test state:
self.cliexec = None
self.testroot = None
# This test state is specific to the first client:
self.port = None
self.clientbase = None
## Top-level flow control:
# These "*_layer" methods call each other in a linear fashion, using
# exception unwinding to do cleanup properly. Each "layer" invokes
# a deeper layer, and each layer does its own cleanup upon exit.
def run(self):
print '\n*** Setting up system tests.'
try:
results = self.init_cli_layer()
print '\n*** System Tests complete:'
total_failures = todo_failures = 0
for result in results:
impl_name, failures, total = result
if implementations[impl_name].get('todo'):
todo_failures += failures
else:
total_failures += failures
print 'Implementation %s: %d failed out of %d.' % result
if total_failures:
print '%s total failures, %s todo' % (total_failures, todo_failures)
return 1
else:
return 0
except SetupFailure, sfail:
print
print sfail
print '\n*** System Tests were not successfully completed.'
return 1
def maybe_wait(self, msg='waiting', or_if_webopen=False):
if self.config['debug-wait'] or or_if_webopen and self.config['web-open']:
print msg
raw_input()
def maybe_webopen(self, where=None):
if self.config['web-open']:
import webbrowser
url = self.weburl
if where is not None:
url += urllib.quote(where)
webbrowser.open(url)
def maybe_pause(self):
time.sleep(self.config.catch_up_pause)
def init_cli_layer(self):
'''This layer finds the appropriate tahoe executable.'''
#self.cliexec = os.path.join('.', 'bin', 'tahoe')
self.cliexec = self.config['path-to-tahoe']
version = self.run_tahoe('--version')
print 'Using %r with version:\n%s' % (self.cliexec, version.rstrip())
return self.create_testroot_layer()
def create_testroot_layer(self):
print 'Creating test base directory.'
#self.testroot = tempfile.mkdtemp(prefix='tahoe_fuse_test_')
#self.testroot = tempfile.mkdtemp(prefix='tahoe_fuse_test_', dir='/tmp/')
tmpdir = self.config['tmp-dir']
if tmpdir:
self.testroot = tempfile.mkdtemp(prefix='tahoe_fuse_test_', dir=tmpdir)
else:
self.testroot = tempfile.mkdtemp(prefix='tahoe_fuse_test_')
try:
return self.launch_introducer_layer()
finally:
if not self.config['no-cleanup']:
print 'Cleaning up test root directory.'
try:
shutil.rmtree(self.testroot)
except Exception, e:
print 'Exception removing test root directory: %r' % (self.testroot, )
print 'Ignoring cleanup exception: %r' % (e,)
else:
print 'Leaving test root directory: %r' % (self.testroot, )
def launch_introducer_layer(self):
print 'Launching introducer.'
introbase = os.path.join(self.testroot, 'introducer')
# NOTE: We assume if tahoe exits with non-zero status, no separate
# tahoe child process is still running.
createoutput = self.run_tahoe('create-introducer', '--basedir', introbase)
self.check_tahoe_output(createoutput, ExpectedCreationOutput, introbase)
startoutput = self.run_tahoe('start', '--basedir', introbase)
try:
self.check_tahoe_output(startoutput, ExpectedStartOutput, introbase)
return self.launch_clients_layer(introbase)
finally:
print 'Stopping introducer node.'
self.stop_node(introbase)
def set_tahoe_option(self, base, key, value):
import re
filename = os.path.join(base, 'tahoe.cfg')
content = open(filename).read()
content = re.sub('%s = (.+)' % key, '%s = %s' % (key, value), content)
open(filename, 'w').write(content)
TotalClientsNeeded = 3
def launch_clients_layer(self, introbase, clientnum = 0):
if clientnum >= self.TotalClientsNeeded:
self.maybe_wait('waiting (launched clients)')
ret = self.create_test_dirnode_layer()
self.maybe_wait('waiting (ran tests)', or_if_webopen=True)
return ret
tmpl = 'Launching client %d of %d.'
print tmpl % (clientnum,
self.TotalClientsNeeded)
base = os.path.join(self.testroot, 'client_%d' % (clientnum,))
output = self.run_tahoe('create-node', '--basedir', base)
self.check_tahoe_output(output, ExpectedCreationOutput, base)
if clientnum == 0:
# The first client is special:
self.clientbase = base
self.port = random.randrange(1024, 2**15)
self.set_tahoe_option(base, 'web.port', 'tcp:%d:interface=127.0.0.1' % self.port)
self.weburl = "http://127.0.0.1:%d/" % (self.port,)
print self.weburl
else:
self.set_tahoe_option(base, 'web.port', '')
introfurl = os.path.join(introbase, 'introducer.furl')
furl = open(introfurl).read().strip()
self.set_tahoe_option(base, 'introducer.furl', furl)
# NOTE: We assume if tahoe exist with non-zero status, no separate
# tahoe child process is still running.
startoutput = self.run_tahoe('start', '--basedir', base)
try:
self.check_tahoe_output(startoutput, ExpectedStartOutput, base)
return self.launch_clients_layer(introbase, clientnum+1)
finally:
print 'Stopping client node %d.' % (clientnum,)
self.stop_node(base)
def create_test_dirnode_layer(self):
print 'Creating test dirnode.'
cap = self.create_dirnode()
f = open(os.path.join(self.clientbase, 'private', 'root_dir.cap'), 'w')
f.write(cap)
f.close()
return self.mount_fuse_layer(cap)
def mount_fuse_layer(self, root_uri):
mpbase = os.path.join(self.testroot, 'mountpoint')
os.mkdir(mpbase)
results = []
if self.config['debug-wait']:
ImplProcessManager.debug_wait = True
#for name, kwargs in implementations.items():
for name in self.config.implementations:
kwargs = implementations[name]
#print 'instantiating %s: %r' % (name, kwargs)
implprocmgr = ImplProcessManager(name, **kwargs)
print '\n*** Testing impl: %r' % (implprocmgr.name)
implprocmgr.configure(self.clientbase, mpbase)
implprocmgr.mount()
try:
failures, total = self.run_test_layer(root_uri, implprocmgr)
result = (implprocmgr.name, failures, total)
tmpl = '\n*** Test Results implementation %s: %d failed out of %d.'
print tmpl % result
results.append(result)
finally:
implprocmgr.umount()
return results
def run_test_layer(self, root_uri, iman):
self.maybe_webopen('uri/'+root_uri)
failures = 0
testnum = 0
numtests = 0
if self.config.tests:
tests = self.config.tests
else:
tests = list(set(self.config.suites).intersection(set(iman.suites)))
self.maybe_wait('waiting (about to run tests)')
for test in tests:
testnames = [n for n in sorted(dir(self)) if n.startswith('test_'+test)]
numtests += len(testnames)
print 'running %s %r tests' % (len(testnames), test,)
for testname in testnames:
testnum += 1
print '\n*** Running test #%d: %s' % (testnum, testname)
try:
testcap = self.create_dirnode()
dirname = '%s_%s' % (iman.name, testname)
self.attach_node(root_uri, testcap, dirname)
method = getattr(self, testname)
method(testcap, testdir = os.path.join(iman.mountpath, dirname))
print 'Test succeeded.'
except TestFailure, f:
print f
#print traceback.format_exc()
failures += 1
except:
print 'Error in test code... Cleaning up.'
raise
return (failures, numtests)
# Tests:
def test_read_directory_existence(self, testcap, testdir):
if not wrap_os_error(os.path.isdir, testdir):
raise TestFailure('Attached test directory not found: %r', testdir)
def test_read_empty_directory_listing(self, testcap, testdir):
listing = wrap_os_error(os.listdir, testdir)
if listing:
raise TestFailure('Expected empty directory, found: %r', listing)
def test_read_directory_listing(self, testcap, testdir):
names = []
filesizes = {}
for i in range(3):
fname = 'file_%d' % (i,)
names.append(fname)
body = 'Hello World #%d!' % (i,)
filesizes[fname] = len(body)
cap = self.webapi_call('PUT', '/uri', body)
self.attach_node(testcap, cap, fname)
dname = 'dir_%d' % (i,)
names.append(dname)
cap = self.create_dirnode()
self.attach_node(testcap, cap, dname)
names.sort()
listing = wrap_os_error(os.listdir, testdir)
listing.sort()
if listing != names:
tmpl = 'Expected directory list containing %r but fuse gave %r'
raise TestFailure(tmpl, names, listing)
for file, size in filesizes.items():
st = wrap_os_error(os.stat, os.path.join(testdir, file))
if st.st_size != size:
tmpl = 'Expected %r size of %r but fuse returned %r'
raise TestFailure(tmpl, file, size, st.st_size)
def test_read_file_contents(self, testcap, testdir):
name = 'hw.txt'
body = 'Hello World!'
cap = self.webapi_call('PUT', '/uri', body)
self.attach_node(testcap, cap, name)
path = os.path.join(testdir, name)
try:
found = open(path, 'r').read()
except Exception, err:
tmpl = 'Could not read file contents of %r: %r'
raise TestFailure(tmpl, path, err)
if found != body:
tmpl = 'Expected file contents %r but found %r'
raise TestFailure(tmpl, body, found)
def test_read_in_random_order(self, testcap, testdir):
sz = 2**20
bs = 2**10
assert(sz % bs == 0)
name = 'random_read_order'
body = os.urandom(sz)
cap = self.webapi_call('PUT', '/uri', body)
self.attach_node(testcap, cap, name)
# XXX this should also do a test where sz%bs != 0, so that it correctly tests
# the edge case where the last read is a 'short' block
path = os.path.join(testdir, name)
try:
fsize = os.path.getsize(path)
if fsize != len(body):
tmpl = 'Expected file size %s but found %s'
raise TestFailure(tmpl, len(body), fsize)
except Exception, err:
tmpl = 'Could not read file size for %r: %r'
raise TestFailure(tmpl, path, err)
try:
f = open(path, 'r')
posns = range(0,sz,bs)
random.shuffle(posns)
data = [None] * (sz/bs)
for p in posns:
f.seek(p)
data[p/bs] = f.read(bs)
found = ''.join(data)
except Exception, err:
tmpl = 'Could not read file %r: %r'
raise TestFailure(tmpl, path, err)
if found != body:
tmpl = 'Expected file contents %s but found %s'
raise TestFailure(tmpl, drepr(body), drepr(found))
def get_file(self, dircap, path):
body = self.webapi_call('GET', '/uri/%s/%s' % (dircap, path))
return body
def test_write_tiny_file(self, testcap, testdir):
self._write_test_linear(testcap, testdir, name='tiny.junk', bs=2**9, sz=2**9)
def test_write_linear_small_writes(self, testcap, testdir):
self._write_test_linear(testcap, testdir, name='large_linear.junk', bs=2**9, sz=2**20)
def test_write_linear_large_writes(self, testcap, testdir):
# at least on the mac, large io block sizes are reduced to 64k writes through fuse
self._write_test_linear(testcap, testdir, name='small_linear.junk', bs=2**18, sz=2**20)
def _write_test_linear(self, testcap, testdir, name, bs, sz):
body = os.urandom(sz)
try:
path = os.path.join(testdir, name)
f = file(path, 'w')
except Exception, err:
tmpl = 'Could not open file for write at %r: %r'
raise TestFailure(tmpl, path, err)
try:
for posn in range(0,sz,bs):
f.write(body[posn:posn+bs])
f.close()
except Exception, err:
tmpl = 'Could not write to file %r: %r'
raise TestFailure(tmpl, path, err)
self.maybe_pause()
self._check_write(testcap, name, body)
def _check_write(self, testcap, name, expected_body):
uploaded_body = self.get_file(testcap, name)
if uploaded_body != expected_body:
tmpl = 'Expected file contents %s but found %s'
raise TestFailure(tmpl, drepr(expected_body), drepr(uploaded_body))
def test_write_overlapping_small_writes(self, testcap, testdir):
self._write_test_overlap(testcap, testdir, name='large_overlap', bs=2**9, sz=2**20)
def test_write_overlapping_large_writes(self, testcap, testdir):
self._write_test_overlap(testcap, testdir, name='small_overlap', bs=2**18, sz=2**20)
def _write_test_overlap(self, testcap, testdir, name, bs, sz):
body = os.urandom(sz)
try:
path = os.path.join(testdir, name)
f = file(path, 'w')
except Exception, err:
tmpl = 'Could not open file for write at %r: %r'
raise TestFailure(tmpl, path, err)
try:
for posn in range(0,sz,bs):
start = max(0, posn-bs)
end = min(sz, posn+bs)
f.seek(start)
f.write(body[start:end])
f.close()
except Exception, err:
tmpl = 'Could not write to file %r: %r'
raise TestFailure(tmpl, path, err)
self.maybe_pause()
self._check_write(testcap, name, body)
def test_write_random_scatter(self, testcap, testdir):
sz = 2**20
name = 'random_scatter'
body = os.urandom(sz)
def rsize(sz=sz):
return min(int(random.paretovariate(.25)), sz/12)
# first chop up whole file into random sized chunks
slices = []
posn = 0
while posn < sz:
size = rsize()
slices.append( (posn, body[posn:posn+size]) )
posn += size
random.shuffle(slices) # and randomise their order
try:
path = os.path.join(testdir, name)
f = file(path, 'w')
except Exception, err:
tmpl = 'Could not open file for write at %r: %r'
raise TestFailure(tmpl, path, err)
try:
# write all slices: we hence know entire file is ultimately written
# write random excerpts: this provides for mixed and varied overlaps
for posn,slice in slices:
f.seek(posn)
f.write(slice)
rposn = random.randint(0,sz)
f.seek(rposn)
f.write(body[rposn:rposn+rsize()])
f.close()
except Exception, err:
tmpl = 'Could not write to file %r: %r'
raise TestFailure(tmpl, path, err)
self.maybe_pause()
self._check_write(testcap, name, body)
def test_write_partial_overwrite(self, testcap, testdir):
name = 'partial_overwrite'
body = '_'*132
overwrite = '^'*8
position = 26
def write_file(path, mode, contents, position=None):
try:
f = file(path, mode)
if position is not None:
f.seek(position)
f.write(contents)
f.close()
except Exception, err:
tmpl = 'Could not write to file %r: %r'
raise TestFailure(tmpl, path, err)
def read_file(path):
try:
f = file(path, 'rb')
contents = f.read()
f.close()
except Exception, err:
tmpl = 'Could not read file %r: %r'
raise TestFailure(tmpl, path, err)
return contents
path = os.path.join(testdir, name)
#write_file(path, 'w', body)
cap = self.webapi_call('PUT', '/uri', body)
self.attach_node(testcap, cap, name)
self.maybe_pause()
contents = read_file(path)
if contents != body:
raise TestFailure('File contents mismatch (%r) %r v.s. %r', path, contents, body)
write_file(path, 'r+', overwrite, position)
contents = read_file(path)
expected = body[:position] + overwrite + body[position+len(overwrite):]
if contents != expected:
raise TestFailure('File contents mismatch (%r) %r v.s. %r', path, contents, expected)
# Utilities:
def run_tahoe(self, *args):
realargs = ('tahoe',) + args
status, output = gather_output(realargs, executable=self.cliexec)
if status != 0:
tmpl = 'The tahoe cli exited with nonzero status.\n'
tmpl += 'Executable: %r\n'
tmpl += 'Command arguments: %r\n'
tmpl += 'Exit status: %r\n'
tmpl += 'Output:\n%s\n[End of tahoe output.]\n'
raise SetupFailure(tmpl,
self.cliexec,
realargs,
status,
output)
return output
def check_tahoe_output(self, output, expected, expdir):
ignorable_lines = map(re.compile, [
'.*site-packages/zope\.interface.*\.egg/zope/__init__.py:3: UserWarning: Module twisted was already imported from .*egg is being added to sys.path',
' import pkg_resources',
])
def ignore_line(line):
for ignorable_line in ignorable_lines:
if ignorable_line.match(line):
return True
else:
return False
output = '\n'.join( [ line
for line in output.split('\n')+['']
#if line not in ignorable_lines ] )
if not ignore_line(line) ] )
m = re.match(expected, output, re.M)
if m is None:
tmpl = 'The output of tahoe did not match the expectation:\n'
tmpl += 'Expected regex: %s\n'
tmpl += 'Actual output: %r\n'
self.warn(tmpl, expected, output)
elif expdir != m.group('path'):
tmpl = 'The output of tahoe refers to an unexpected directory:\n'
tmpl += 'Expected directory: %r\n'
tmpl += 'Actual directory: %r\n'
self.warn(tmpl, expdir, m.group(1))
def stop_node(self, basedir):
try:
self.run_tahoe('stop', '--basedir', basedir)
except Exception, e:
print 'Failed to stop tahoe node.'
print 'Ignoring cleanup exception:'
# Indent the exception description:
desc = str(e).rstrip()
print ' ' + desc.replace('\n', '\n ')
def webapi_call(self, method, path, body=None, **options):
if options:
path = path + '?' + ('&'.join(['%s=%s' % kv for kv in options.items()]))
conn = httplib.HTTPConnection('127.0.0.1', self.port)
conn.request(method, path, body = body)
resp = conn.getresponse()
if resp.status != 200:
tmpl = 'A webapi operation failed.\n'
tmpl += 'Request: %r %r\n'
tmpl += 'Body:\n%s\n'
tmpl += 'Response:\nStatus %r\nBody:\n%s'
raise SetupFailure(tmpl,
method, path,
body or '',
resp.status, body)
return resp.read()
def create_dirnode(self):
return self.webapi_call('PUT', '/uri', t='mkdir').strip()
def attach_node(self, dircap, childcap, childname):
body = self.webapi_call('PUT',
'/uri/%s/%s' % (dircap, childname),
body = childcap,
t = 'uri',
replace = 'false')
assert body.strip() == childcap, `body, dircap, childcap, childname`
def polling_operation(self, operation, polldesc, timeout = 10.0, pollinterval = 0.2):
totaltime = timeout # Fudging for edge-case SetupFailure description...
totalattempts = int(timeout / pollinterval)
starttime = time.time()
for attempt in range(totalattempts):
opstart = time.time()
try:
result = operation()
except KeyboardInterrupt, e:
raise
except Exception, e:
result = False
totaltime = time.time() - starttime
if result is not False:
#tmpl = '(Polling took over %.2f seconds.)'
#print tmpl % (totaltime,)
return result
elif totaltime > timeout:
break
else:
opdelay = time.time() - opstart
realinterval = max(0., pollinterval - opdelay)
#tmpl = '(Poll attempt %d failed after %.2f seconds, sleeping %.2f seconds.)'
#print tmpl % (attempt+1, opdelay, realinterval)
time.sleep(realinterval)
tmpl = 'Timeout while polling for: %s\n'
tmpl += 'Waited %.2f seconds (%d polls).'
raise SetupFailure(tmpl, polldesc, totaltime, attempt+1)
def warn(self, tmpl, *args):
print ('Test Warning: ' + tmpl) % args
# SystemTest Exceptions:
class Failure (Exception):
def __init__(self, tmpl, *args):
msg = self.Prefix + (tmpl % args)
Exception.__init__(self, msg)
class SetupFailure (Failure):
Prefix = 'Setup Failure - The test framework encountered an error:\n'
class TestFailure (Failure):
Prefix = 'TestFailure: '
### Unit Tests:
class Impl_A_UnitTests (unittest.TestCase):
'''Tests small stand-alone functions.'''
def test_canonicalize_cap(self):
iopairs = [('http://127.0.0.1:3456/uri/URI:DIR2:yar9nnzsho6czczieeesc65sry:upp1pmypwxits3w9izkszgo1zbdnsyk3nm6h7e19s7os7s6yhh9y',
'URI:DIR2:yar9nnzsho6czczieeesc65sry:upp1pmypwxits3w9izkszgo1zbdnsyk3nm6h7e19s7os7s6yhh9y'),
('http://127.0.0.1:3456/uri/URI%3ACHK%3Ak7ktp1qr7szmt98s1y3ha61d9w%3A8tiy8drttp65u79pjn7hs31po83e514zifdejidyeo1ee8nsqfyy%3A3%3A12%3A242?filename=welcome.html',
'URI:CHK:k7ktp1qr7szmt98s1y3ha61d9w:8tiy8drttp65u79pjn7hs31po83e514zifdejidyeo1ee8nsqfyy:3:12:242?filename=welcome.html')]
for input, output in iopairs:
result = impl_a.canonicalize_cap(input)
self.failUnlessEqual(output, result, 'input == %r' % (input,))
### Misc:
class ImplProcessManager(object):
debug_wait = False
def __init__(self, name, module, mount_args, mount_wait, suites, todo=False):
self.name = name
self.module = module
self.script = module.__file__
self.mount_args = mount_args
self.mount_wait = mount_wait
self.suites = suites
self.todo = todo
def maybe_wait(self, msg='waiting'):
if self.debug_wait:
print msg
raw_input()
def configure(self, client_nodedir, mountpoint):
self.client_nodedir = client_nodedir
self.mountpath = os.path.join(mountpoint, self.name)
os.mkdir(self.mountpath)
def mount(self):
print 'Mounting implementation: %s (%s)' % (self.name, self.script)
rootdirfile = os.path.join(self.client_nodedir, 'private', 'root_dir.cap')
root_uri = file(rootdirfile, 'r').read().strip()
fields = {'mountpath': self.mountpath,
'nodedir': self.client_nodedir,
'root-uri': root_uri,
}
args = ['python', self.script] + [ arg%fields for arg in self.mount_args ]
print ' '.join(args)
self.maybe_wait('waiting (about to launch fuse)')
if self.mount_wait:
exitcode, output = gather_output(args)
if exitcode != 0:
tmpl = '%r failed to launch:\n'
tmpl += 'Exit Status: %r\n'
tmpl += 'Output:\n%s\n'
raise SetupFailure(tmpl, self.script, exitcode, output)
else:
self.proc = subprocess.Popen(args)
def umount(self):
print 'Unmounting implementation: %s' % (self.name,)
args = UNMOUNT_CMD + [self.mountpath]
print args
self.maybe_wait('waiting (unmount)')
#print os.system('ls -l '+self.mountpath)
ec, out = gather_output(args)
if ec != 0 or out:
tmpl = '%r failed to unmount:\n' % (' '.join(UNMOUNT_CMD),)
tmpl += 'Arguments: %r\n'
tmpl += 'Exit Status: %r\n'
tmpl += 'Output:\n%s\n'
raise SetupFailure(tmpl, args, ec, out)
def gather_output(*args, **kwargs):
'''
This expects the child does not require input and that it closes
stdout/err eventually.
'''
p = subprocess.Popen(stdout = subprocess.PIPE,
stderr = subprocess.STDOUT,
*args,
**kwargs)
output = p.stdout.read()
exitcode = p.wait()
return (exitcode, output)
def wrap_os_error(meth, *args):
try:
return meth(*args)
except os.error, e:
raise TestFailure('%s', e)
ExpectedCreationOutput = r'(introducer|client) created in (?P<path>.*?)\n'
ExpectedStartOutput = r'(.*\n)*STARTING (?P<path>.*?)\n(introducer|client) node probably started'
if __name__ == '__main__':
sys.exit(main(sys.argv))