#
# You should have received a copy of the GNU General Public License
# along with GNUnet; see the file COPYING. If not, write to the
-# Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-# Boston, MA 02111-1307, USA.
+# Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
+# Boston, MA 02110-1301, USA.
#
#
import sys
+import signal
import os
import subprocess
import re
import shutil
import time
-import pexpect
from gnunet_testing import Peer
from gnunet_testing import Test
from gnunet_testing import Check
# in transport, core, topology, fs, the server is shutdown
#
# Conditions for successful exit:
-# Both peers have 0 connected peer in transport, core, topology, fs
+# Client peer has 0 connected peer in transport, core, topology, dht, fs
#definitions
verbose = True
check_timeout = 180
+if os.name == "nt":
+ tmp = os.getenv ("TEMP")
+ signals = [signal.SIGTERM, signal.SIGINT]
+else:
+ tmp = "/tmp"
+ signals = [signal.SIGTERM, signal.SIGINT, signal.SIGHUP, signal.SIGQUIT]
+
+def cleanup_onerror (function, path, excinfo):
+ import stat
+ if not os.path.exists (path):
+ pass
+ elif not os.access(path, os.W_OK):
+ # Is the error an access error ?
+ os.chmod (path, stat.S_IWUSR)
+ function (path)
+ else:
+ raise
def cleanup ():
- if os.name == "nt":
- shutil.rmtree (os.path.join (os.getenv ("TEMP"), "c_bootstrap_server"), True)
- shutil.rmtree (os.path.join (os.getenv ("TEMP"), "c_no_nat_client"), True)
- else:
- shutil.rmtree ("/tmp/c_bootstrap_server/", True)
- shutil.rmtree ("/tmp/c_no_nat_client/", True)
+ shutil.rmtree (os.path.join (tmp, "c_bootstrap_server"), False, cleanup_onerror)
+ shutil.rmtree (os.path.join (tmp, "c_no_nat_client"), False, cleanup_onerror)
def success_disconnect_cont (check):
- global success
- success = True;
+ print 'Peers disconnected successfully'
+ global success
+ success = True;
def fail_disconnect_cont (check):
- global success
- success = False;
- check.evaluate(True)
+ global success
+ success = False;
+ print 'Peers failed to disconnect'
+ check.evaluate(True)
-
def check_disconnect ():
test.p ('Shutting down bootstrap server')
server.stop ()
check = Check (test)
check.add (StatisticsCondition (client, 'transport', '# peers connected',0))
check.add (StatisticsCondition (client, 'core', '# neighbour entries allocated',0))
- check.add (StatisticsCondition (client, 'core', '# entries in session map',0))
+ check.add (StatisticsCondition (client, 'core', '# peers connected',0))
check.add (StatisticsCondition (client, 'topology', '# peers connected',0))
+ check.add (StatisticsCondition (client, 'dht', '# peers connected',0))
check.add (StatisticsCondition (client, 'fs', '# peers connected',0))
check.run_blocking (check_timeout, success_disconnect_cont, fail_disconnect_cont)
def success_connect_cont (check):
- check_disconnect ()
+ print 'Peers connected successfully'
+ check_disconnect ()
def fail_connect_cont (check):
- global success
- success= False;
- check.evaluate(True)
+ global success
+ success= False
+ print 'Peers failed to connected!'
+ check.evaluate(True)
def check_connect ():
check = Check (test)
check.add (StatisticsCondition (client, 'transport', '# peers connected',1))
check.add (StatisticsCondition (client, 'core', '# neighbour entries allocated',1))
- check.add (StatisticsCondition (client, 'core', '# entries in session map',1))
+ check.add (StatisticsCondition (client, 'core', '# peers connected',1))
check.add (StatisticsCondition (client, 'topology', '# peers connected',1))
+ check.add (StatisticsCondition (client, 'dht', '# peers connected',1))
check.add (StatisticsCondition (client, 'fs', '# peers connected',1))
check.add (StatisticsCondition (server, 'transport', '# peers connected',1))
check.add (StatisticsCondition (server, 'core', '# neighbour entries allocated',1))
- check.add (StatisticsCondition (server, 'core', '# entries in session map',1))
+ check.add (StatisticsCondition (server, 'core', '# peers connected',1))
check.add (StatisticsCondition (server, 'topology', '# peers connected',1))
+ check.add (StatisticsCondition (server, 'dht', '# peers connected',1))
check.add (StatisticsCondition (server, 'fs', '# peers connected',1))
check.run_blocking (check_timeout, success_connect_cont, fail_connect_cont)
# Test execution
#
+def SigHandler(signum = None, frame = None):
+ global success
+ global server
+ global client
+
+ print 'Test was aborted!'
+ if (None != server):
+ server.stop ()
+ if (None != client):
+ client.stop ()
+ cleanup ()
+ sys.exit(success)
+
def run ():
global success
global test
global server
- global client
+ global client
- success = False
+ server = None
+ client = None
+ success = False
- test = Test ('test_integration_disconnect', verbose)
+ for sig in signals:
+ signal.signal(sig, SigHandler)
+
+ test = Test ('test_integration_bootstrap_and_connect.py', verbose)
+ cleanup ()
server = Peer(test, './confs/c_bootstrap_server.conf');
- server.start();
-
client = Peer(test, './confs/c_no_nat_client.conf');
- client.start();
+ if (True != server.start()):
+ print 'Failed to start server'
+ if (None != server):
+ server.stop ()
+ cleanup ()
+ sys.exit(success)
+
+ # Give the server time to start
+ time.sleep(5)
+
+ if (True != client.start()):
+ print 'Failed to start client'
+ if (None != server):
+ server.stop ()
+ if (None != client):
+ client.stop ()
+ cleanup ()
+ sys.exit(success)
if ((client.started == True) and (server.started == True)):
- test.p ('Peers started, running check')
- check_connect ()
-
- server.stop ()
+ test.p ('Peers started, running check')
+ time.sleep(5)
+ check_connect ()
+ server.stop ()
client.stop ()
cleanup ()
if (success == False):
print ('Test failed')
- return True
+ return False
else:
- return False
+ return True
-
try:
- run ()
+ run ()
except (KeyboardInterrupt, SystemExit):
- print 'Test interrupted'
- server.stop ()
- client.stop ()
- cleanup ()
+ print 'Test interrupted'
+ server.stop ()
+ client.stop ()
+ cleanup ()
if (success == False):
sys.exit(1)
else:
sys.exit(0)
+
+
+
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