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-rw-r--r--tests/functional/glusterd/test_peer_probe.py240
1 files changed, 240 insertions, 0 deletions
diff --git a/tests/functional/glusterd/test_peer_probe.py b/tests/functional/glusterd/test_peer_probe.py
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+# Copyright (C) 2016-2017 Red Hat, Inc. <http://www.redhat.com>
+#
+# This program is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 2 of the License, or
+# any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License along
+# with this program; if not, write to the Free Software Foundation, Inc.,
+# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
+
+from glusto.core import Glusto as g
+from glustolibs.gluster.gluster_base_class import GlusterBaseClass, runs_on
+from glustolibs.gluster.volume_ops import (volume_create, volume_start,
+ get_volume_list, volume_stop,
+ volume_delete)
+from glustolibs.gluster.volume_libs import (cleanup_volume)
+from glustolibs.gluster.peer_ops import (peer_probe, peer_detach,
+ peer_probe_servers,
+ nodes_from_pool_list)
+from glustolibs.gluster.lib_utils import form_bricks_list
+from glustolibs.gluster.exceptions import ExecutionError
+
+
+@runs_on([['distributed'], ['glusterfs']])
+class TestPeerProbe(GlusterBaseClass):
+
+ def setUp(self):
+
+ # Performing peer detach
+ for server in self.servers[1:]:
+ ret, _, _ = peer_detach(self.mnode, server)
+ if ret != 0:
+ raise ExecutionError("Peer detach failed")
+ g.log.info("Peer detach SUCCESSFUL.")
+ GlusterBaseClass.setUp.im_func(self)
+
+ def tearDown(self):
+ """
+ clean up all volumes and peer probe to form cluster
+ """
+ vol_list = get_volume_list(self.mnode)
+ if vol_list is not None:
+ for volume in vol_list:
+ ret = cleanup_volume(self.mnode, volume)
+ if not ret:
+ raise ExecutionError("Failed to cleanup volume")
+ g.log.info("Volume deleted successfully : %s", volume)
+
+ # Peer probe detached servers
+ pool = nodes_from_pool_list(self.mnode)
+ for node in pool:
+ peer_detach(self.mnode, node)
+ ret = peer_probe_servers(self.mnode, self.servers)
+ if not ret:
+ raise ExecutionError("Failed to probe detached "
+ "servers %s" % self.servers)
+ g.log.info("Peer probe success for detached "
+ "servers %s", self.servers)
+ GlusterBaseClass.tearDown.im_func(self)
+
+ def test_peer_probe(self):
+ """
+ In this test case:
+ 1. Create Dist Volume on Node 1
+ 2. Create Replica Volume on Node 2
+ 3. Peer Probe N2 from N1(should fail)
+ 4. Clean All Volumes
+ 5. Peer Probe N1 to N2(should success)
+ Peer Probe N3 to N2(should fail)
+ 6. Create replica Volume on N1 and N2
+ 7. Peer probe from N3 to N1(should fail)
+ 8. Peer probe from N1 to N3(should succeed)
+ 9. Create replica Volume on N1, N2 and N2
+ 10.Start Volume
+ 11. delete volume (should fail)
+ 12. Stop volume
+ 13. Clean up all volumes
+ """
+
+ # pylint: disable=too-many-statements
+ # Create a distributed volume on Node1
+ number_of_brick = 1
+ servers_info_from_single_node = {}
+ servers_info_from_single_node[
+ self.servers[0]] = self.all_servers_info[self.servers[0]]
+ self.volname = "testvol"
+ bricks_list = form_bricks_list(self.servers[0], self.volname,
+ number_of_brick, self.servers[0],
+ servers_info_from_single_node)
+ ret, _, _ = volume_create(self.servers[0], self.volname,
+ bricks_list, True)
+ self.assertEqual(ret, 0, "Volume create failed")
+ g.log.info("Volume %s created successfully", self.volname)
+
+ # Create a replicate volume on Node2 without force
+ number_of_brick = 2
+ servers_info_from_single_node = {}
+ servers_info_from_single_node[
+ self.servers[1]] = self.all_servers_info[self.servers[1]]
+ kwargs = {'replica_count': 2}
+ self.volname = "new-volume"
+ bricks_list = form_bricks_list(self.servers[1], self.volname,
+ number_of_brick, self.servers[1],
+ servers_info_from_single_node)
+
+ # creation of replicate volume without force should fail
+ ret, _, _ = volume_create(self.servers[1], self.volname,
+ bricks_list, False, **kwargs)
+ self.assertNotEqual(ret, 0, ("Unexpected: Successfully created "
+ "the replicate volume on node2 "
+ "without force"))
+ g.log.info("Failed to create the replicate volume %s as "
+ " expected without force", self.volname)
+
+ # Create a replica volume on Node2 with force
+ number_of_brick = 3
+ servers_info_from_single_node = {}
+ servers_info_from_single_node[
+ self.servers[1]] = self.all_servers_info[self.servers[1]]
+ kwargs = {'replica_count': 3}
+ self.volname = "new-volume"
+ bricks_list = form_bricks_list(self.servers[1], self.volname,
+ number_of_brick, self.servers[1],
+ servers_info_from_single_node)
+
+ # creation of replicate volume with force should succeed
+ ret, _, _ = volume_create(self.servers[1], self.volname,
+ bricks_list, True, **kwargs)
+ self.assertEqual(ret, 0, "Volume create failed")
+ g.log.info("Volume %s created", self.volname)
+
+ # Perform peer probe from N1 to N2
+ ret, _, _ = peer_probe(self.servers[0], self.servers[1])
+ self.assertNotEqual(ret, 0, (
+ "peer probe is success from %s to %s even if %s "
+ " is a part of another cluster or having volumes "
+ " configured", self.servers[0], self.servers[1], self.servers[1]))
+ g.log.info("peer probe failed from %s to "
+ "%s as expected", self.servers[0], self.servers[1])
+
+ # clean up all volumes
+ for server in self.servers[0:2]:
+ # Listing all the volumes
+ vol_list = get_volume_list(server)
+ self.assertIsNotNone(vol_list, "Unable to get volumes list")
+ g.log.info("Getting the volume list from %s", self.mnode)
+ for vol in vol_list:
+ g.log.info("deleting volume : %s", vol)
+ ret = cleanup_volume(server, vol)
+ self.assertTrue(ret, ("Failed to Cleanup the Volume %s", vol))
+ g.log.info("Volume deleted successfully : %s", vol)
+
+ # Perform peer probe from N1 to N2 should success
+ ret, _, _ = peer_probe(self.servers[0], self.servers[1])
+ self.assertEqual(
+ ret, 0, ("peer probe from %s to %s is "
+ "failed", self.servers[0], self.servers[1]))
+ g.log.info("peer probe is success from %s to "
+ "%s", self.servers[0], self.servers[1])
+
+ # Perform peer probe from N3 to N2 should fail
+ ret, _, _ = peer_probe(self.servers[2], self.servers[1])
+ self.assertNotEqual(ret, 0, (
+ "peer probe is success from %s to %s even if %s "
+ "is a part of another cluster or having volumes "
+ "configured", self.servers[2], self.servers[1], self.servers[1]))
+ g.log.info("peer probe failed from %s to "
+ "%s as expected", self.servers[2], self.servers[1])
+
+ # Create a replica volume on N1 and N2 with force
+ number_of_brick = 2
+ servers_info_from_two_node = {}
+ for server in self.servers[0:2]:
+ servers_info_from_two_node[server] = self.all_servers_info[server]
+ kwargs = {'replica_count': 2}
+ self.volname = "new-volume"
+ bricks_list = form_bricks_list(self.servers[0], self.volname,
+ number_of_brick, self.servers[0:2],
+ servers_info_from_two_node)
+ ret, _, _ = volume_create(self.servers[1], self.volname,
+ bricks_list, True, **kwargs)
+ self.assertEqual(ret, 0, "Volume create failed")
+ g.log.info("Volume %s created succssfully", self.volname)
+
+ # Perform peer probe from N3 to N1 should fail
+ ret, _, _ = peer_probe(self.servers[2], self.servers[0])
+ self.assertNotEqual(ret, 0, (
+ "peer probe is success from %s to %s even if %s "
+ "a part of another cluster or having volumes "
+ "configured", self.servers[2], self.servers[0], self.servers[0]))
+ g.log.info("peer probe is failed from %s to "
+ "%s as expected", self.servers[2], self.servers[0])
+
+ # Perform peer probe from N1 to N3 should succed
+ ret, _, _ = peer_probe(self.servers[0], self.servers[2])
+ self.assertEqual(
+ ret, 0, ("peer probe from %s to %s is "
+ "failed", self.servers[0], self.servers[2]))
+ g.log.info("peer probe is success from %s to "
+ "%s", self.servers[0], self.servers[2])
+
+ # Create a replica volume on N1, N2 and N3 with force
+ number_of_brick = 3
+ server_info_from_three_node = {}
+ for server in self.servers[0:3]:
+ server_info_from_three_node[server] = self.all_servers_info[server]
+ kwargs = {'replica_count': 3}
+ self.volname = "new-replica-volume"
+ bricks_list = form_bricks_list(self.servers[2], self.volname,
+ number_of_brick, self.servers[0:3],
+ server_info_from_three_node)
+ ret, _, _ = volume_create(self.servers[1], self.volname,
+ bricks_list, True, **kwargs)
+ self.assertEqual(ret, 0, "Volume create failed")
+ g.log.info("creation of replica volume should succeed")
+
+ ret, _, _ = volume_start(self.servers[2], self.volname, True)
+ self.assertEqual(ret, 0, ("Failed to start the "
+ "volume %s", self.volname))
+ g.log.info("Volume %s start with force is success", self.volname)
+
+ # Volume delete should fail without stopping volume
+ ret = volume_delete(self.servers[2], self.volname)
+ self.assertFalse(ret, ("Unexpected Error: Volume deleted "
+ "successfully without stopping"
+ "volume %s", self.volname))
+ g.log.info("Expected: volume delete should fail without "
+ "stopping volume: %s", self.volname)
+
+ # Volume stop with force
+ ret, _, _ = volume_stop(self.mnode, self.volname, True)
+ self.assertEqual(ret, 0, ("Failed to stop the volume "
+ "%s", self.volname))
+ g.log.info("Volume stop with force is success")