deb-ryu/ryu/cmd/of_config_cli.py
YAMAMOTO Takashi 7b1d0eb9d6 reduce direct uses of oslo.config.cfg.CONF
no functional changes are intended.

Signed-off-by: YAMAMOTO Takashi <yamamoto@valinux.co.jp>
Signed-off-by: FUJITA Tomonori <fujita.tomonori@lab.ntt.co.jp>
2014-03-16 20:28:10 +09:00

561 lines
15 KiB
Python
Executable File

#!/usr/bin/env python
#
# Copyright (C) 2013 Nippon Telegraph and Telephone Corporation.
# Copyright (C) 2013 YAMAMOTO Takashi <yamamoto at valinux co jp>
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# a simple command line OF-CONFIG client
#
# a usage example:
# % PYTHONPATH=. ./bin/of_config_cli \
# --peers=sw1=localhost:1830:username:password
# (Cmd) raw_get sw1
import ryu.contrib
from ryu import cfg
import cmd
import sys
import lxml.etree as ET
from ryu.lib import of_config
from ryu.lib.of_config import capable_switch
from ncclient.operations.rpc import RPCError
import ryu.lib.of_config.classes as ofc
CONF = cfg.CONF
CONF.register_cli_opts([
cfg.ListOpt('peers', default=[], help='list of peers')
])
class Peer(capable_switch.OFCapableSwitch):
def __init__(self, name, host, port, username, password):
self._name = name
super(Peer, self).__init__(
host=host, port=port, username=username, password=password,
unknown_host_cb=lambda host, fingeprint: True)
peers = {}
def add_peer(name, host, port, username, password):
peers[name] = Peer(name, host, port, username, password)
def et_tostring_pp(tree):
# pretty_print is an lxml feature, not available in ElementTree
try:
return ET.tostring(tree, pretty_print=True)
except TypeError:
return ET.tostring(tree)
def validate(tree):
schema = ET.XMLSchema(file=of_config.OF_CONFIG_1_1_1_XSD)
if not schema(tree):
print schema.error_log
class Cmd(cmd.Cmd):
def __init__(self, *args, **kwargs):
self._in_onecmd = False
cmd.Cmd.__init__(self, *args, **kwargs)
def _request(self, line, f):
args = line.split()
try:
peer = args[0]
except:
print "argument error"
return
try:
p = peers[peer]
except KeyError:
print "unknown peer", peer
return
try:
f(p, args[1:])
except RPCError, e:
print "RPC Error", e
except EOFError:
print "disconnected"
def _complete_peer(self, text, line, _begidx, _endidx):
if len((line + 'x').split()) >= 3:
return []
return [name for name in peers if name.startswith(text)]
def do_list_cap(self, line):
"""list_cap <peer>
"""
def f(p, args):
for i in p.netconf.server_capabilities:
print i
self._request(line, f)
def do_raw_get(self, line):
"""raw_get <peer>
"""
def f(p, args):
result = p.raw_get()
tree = ET.fromstring(result)
validate(tree)
print et_tostring_pp(tree)
self._request(line, f)
def do_raw_get_config(self, line):
"""raw_get_config <peer> <source>
"""
def f(p, args):
try:
source = args[0]
except:
print "argument error"
return
result = p.raw_get_config(source)
tree = ET.fromstring(result)
validate(tree)
print et_tostring_pp(tree)
self._request(line, f)
def do_get(self, line):
"""get <peer>
eg. get sw1
"""
def f(p, args):
print p.get()
self._request(line, f)
def do_commit(self, line):
"""commit <peer>
eg. commit sw1
"""
def f(p, args):
print p.commit()
self._request(line, f)
def do_discard(self, line):
"""discard <peer>
eg. discard sw1
"""
def f(p, args):
print p.discard_changes()
self._request(line, f)
def do_get_config(self, line):
"""get_config <peer> <source>
eg. get_config sw1 startup
"""
def f(p, args):
try:
source = args[0]
except:
print "argument error"
return
print p.get_config(source)
self._request(line, f)
def do_delete_config(self, line):
"""delete_config <peer> <source>
eg. delete_config sw1 startup
"""
def f(p, args):
try:
source = args[0]
except:
print "argument error"
return
print p.delete_config(source)
self._request(line, f)
def do_copy_config(self, line):
"""copy_config <peer> <source> <target>
eg. copy_config sw1 running startup
"""
def f(p, args):
try:
source, target = args
except:
print "argument error"
return
print p.copy_config(source, target)
self._request(line, f)
def do_list_port(self, line):
"""list_port <peer>
"""
def f(p, args):
o = p.get()
for p in o.resources.port:
print p.resource_id, p.name, p.number
self._request(line, f)
_port_settings = [
'admin-state',
'no-forward',
'no-packet-in',
'no-receive',
]
def do_get_port_config(self, line):
"""get_config_port <peer> <source> <port>
eg. get_port_config sw1 running LogicalSwitch7-Port2
"""
def f(p, args):
try:
source, port = args
except:
print "argument error"
return
o = p.get_config(source)
for p in o.resources.port:
if p.resource_id != port:
continue
print p.resource_id
conf = p.configuration
for k in self._port_settings:
try:
v = getattr(conf, k)
except AttributeError:
continue
print k, v
self._request(line, f)
def do_set_port_config(self, line):
"""set_port_config <peer> <target> <port> <key> <value>
eg. set_port_config sw1 running LogicalSwitch7-Port2 admin-state down
eg. set_port_config sw1 running LogicalSwitch7-Port2 no-forward false
"""
def f(p, args):
try:
target, port, key, value = args
except:
print "argument error"
print args
return
# get switch id
o = p.get()
capable_switch_id = o.id
try:
capable_switch = ofc.OFCapableSwitchType(
id=capable_switch_id,
resources=ofc.OFCapableSwitchResourcesType(
port=[
ofc.OFPortType(
resource_id=port,
configuration=ofc.OFPortConfigurationType(
**{key: value}))
]
)
)
except TypeError:
print "argument error"
return
try:
p.edit_config(target, capable_switch)
except Exception, e:
print e
self._request(line, f)
def do_list_queue(self, line):
"""list_queue <peer>
"""
def f(p, args):
o = p.get()
if o.resources.queue:
for q in o.resources.queue:
print q.resource_id, q.port
self._request(line, f)
_queue_settings = [
'max-rate',
'min-rate',
'experimenter',
]
def do_get_queue_config(self, line):
"""get_queue_port <peer> <source> <queue>
eg. get_queue_config sw1 running LogicalSwitch7-Port1-Queue922
"""
def f(p, args):
try:
source, queue = args
except:
print "argument error"
return
o = p.get_config(source)
for q in o.resources.queue:
if q.resource_id != queue:
continue
print q.resource_id
conf = q.properties
for k in self._queue_settings:
try:
v = getattr(conf, k)
except AttributeError:
continue
print k, v
self._request(line, f)
def do_set_queue_config(self, line):
"""set_queue_config <peer> <target> <queue> <key> <value>
eg. set_queue_config sw1 running LogicalSwitch7-Port1-Queue922 \
max-rate 100
"""
def f(p, args):
try:
target, queue, key, value = args
except:
print "argument error"
print args
return
# get switch id
o = p.get()
capable_switch_id = o.id
try:
capable_switch = ofc.OFCapableSwitchType(
id=capable_switch_id,
resources=ofc.OFCapableSwitchResourcesType(
queue=[
ofc.OFQueueType(
resource_id=queue,
properties=ofc.OFQueuePropertiesType(
**{key: value})),
]
)
)
except TypeError:
print "argument error"
return
try:
p.edit_config(target, capable_switch)
except Exception, e:
print e
self._request(line, f)
def do_add_queue(self, line):
"""add_queue <peer> <target> <logical-switch> <queue>
eg. add_queue sw1 running LogicalSwitch7 NameOfNewQueue
"""
def f(p, args):
try:
target, lsw, queue = args
except:
print "argument error"
print args
return
# get switch id
o = p.get()
capable_switch_id = o.id
try:
capable_switch = ofc.OFCapableSwitchType(
id=capable_switch_id,
resources=ofc.OFCapableSwitchResourcesType(
queue=[
ofc.OFQueueType(resource_id=queue)
]
),
logical_switches=ofc.OFCapableSwitchLogicalSwitchesType(
switch=[ofc.OFLogicalSwitchType(
id=lsw,
resources=ofc.OFLogicalSwitchResourcesType(
queue=[queue])
)]
)
)
except TypeError:
print "argument error"
return
try:
p.edit_config(target, capable_switch)
except Exception, e:
print e
self._request(line, f)
def do_list_logical_switch(self, line):
"""list_logical_switch <peer>
"""
def f(p, args):
o = p.get()
for s in o.logical_switches.switch:
print s.id, s.datapath_id
self._request(line, f)
def do_show_logical_switch(self, line):
"""show_logical_switch <peer> <logical switch>
"""
def f(p, args):
try:
(lsw,) = args
except:
print "argument error"
return
o = p.get()
for s in o.logical_switches.switch:
if s.id != lsw:
continue
print s.id
print 'datapath-id', s.datapath_id
if s.resources.queue:
print 'queues:'
for q in s.resources.queue:
print '\t', q
if s.resources.port:
print 'ports:'
for p in s.resources.port:
print '\t', p
self._request(line, f)
_lsw_settings = [
'lost-connection-behavior',
]
def do_get_logical_switch_config(self, line):
"""get_logical_switch_config <peer> <source> <logical switch>
"""
def f(p, args):
try:
source, lsw = args
except:
print "argument error"
return
o = p.get_config(source)
for l in o.logical_switches.switch:
if l.id != lsw:
continue
print l.id
for k in self._lsw_settings:
try:
v = getattr(l, k)
except AttributeError:
continue
print k, v
self._request(line, f)
def do_set_logical_switch_config(self, line):
"""set_logical_switch_config <peer> <logical switch> <key> <value>
eg. set_logical_switch_config sw1 running LogicalSwitch7 \
lost-connection-behavior failStandaloneMode
"""
def f(p, args):
try:
target, lsw, key, value = args
except:
print "argument error"
return
# get switch id
o = p.get_config(target)
capable_switch_id = o.id
try:
capable_switch = ofc.OFCapableSwitchType(
id=capable_switch_id,
logical_switches=ofc.OFCapableSwitchLogicalSwitchesType(
switch=[ofc.OFLogicalSwitchType(
id=lsw,
**{key: value}
)]
)
)
except TypeError:
print "argument error"
return
try:
p.edit_config(target, capable_switch)
except Exception, e:
print e
self._request(line, f)
completedefault = _complete_peer
def complete_EOF(self, _text, _line, _begidx, _endidx):
return []
def do_EOF(self, _line):
sys.exit(0)
def onecmd(self, string):
self._in_onecmd = True
try:
return cmd.Cmd.onecmd(self, string)
finally:
self._in_onecmd = False
def main():
CONF(project='of-config-cli', version='of-config-cli')
for p_str in CONF.peers:
name, addr = p_str.split('=')
host, port, username, password = addr.rsplit(':', 3)
add_peer(name, host, port, username, password)
Cmd().cmdloop()
if __name__ == "__main__":
main()