# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2012 OpenStack LLC # All Rights Reserved. # # 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. from quantum.agent.linux import utils from quantum.common import exceptions class SubProcessBase(object): def __init__(self, root_helper=None, namespace=None): self.root_helper = root_helper self.namespace = namespace def _run(self, options, command, args): if self.namespace: return self._as_root(options, command, args) else: return self._execute(options, command, args) def _as_root(self, options, command, args): if not self.root_helper: raise exceptions.SudoRequired() return self._execute(options, command, args, self.root_helper, self.namespace) @classmethod def _execute(cls, options, command, args, root_helper=None, namespace=None): opt_list = ['-%s' % o for o in options] if namespace: ip_cmd = ['ip', 'netns', 'exec', namespace, 'ip'] else: ip_cmd = ['ip'] return utils.execute(ip_cmd + opt_list + [command] + list(args), root_helper=root_helper) class IPWrapper(SubProcessBase): def __init__(self, root_helper=None, namespace=None): super(IPWrapper, self).__init__(root_helper=root_helper, namespace=namespace) self.netns = IpNetnsCommand(self) def device(self, name): return IPDevice(name, self.root_helper, self.namespace) def get_devices(self): retval = [] output = self._execute('o', 'link', ('list',), self.root_helper, self.namespace) for line in output.split('\n'): if '<' not in line: continue tokens = line.split(':', 2) if len(tokens) >= 3: retval.append(IPDevice(tokens[1].strip(), self.root_helper, self.namespace)) return retval def add_tuntap(self, name, mode='tap'): self._as_root('', 'tuntap', ('add', name, 'mode', mode)) return IPDevice(name, self.root_helper, self.namespace) def add_veth(self, name1, name2): self._as_root('', 'link', ('add', name1, 'type', 'veth', 'peer', 'name', name2)) return (IPDevice(name1, self.root_helper, self.namespace), IPDevice(name2, self.root_helper, self.namespace)) def ensure_namespace(self, name): if not self.netns.exists(name): ip = self.netns.add(name) lo = ip.device('lo') lo.link.set_up() else: ip = IP(self.root_helper, name) return ip def add_device_to_namespace(self, device): if self.namespace: device.link.set_netns(self.namespace) @classmethod def get_namespaces(cls, root_helper): output = cls._execute('netns', ('list',), root_helper=root_helper) return [l.strip() for l in output.split('\n')] class IPDevice(SubProcessBase): def __init__(self, name, root_helper=None, namespace=None): super(IPDevice, self).__init__(root_helper=root_helper, namespace=namespace) self.name = name self.link = IpLinkCommand(self) self.addr = IpAddrCommand(self) def __eq__(self, other): return (other is not None and self.name == other.name and self.namespace == other.namespace) def __str__(self): return self.name class IpCommandBase(object): COMMAND = '' def __init__(self, parent): self._parent = parent def _run(self, *args, **kwargs): return self._parent._run(kwargs.get('options', []), self.COMMAND, args) def _as_root(self, *args, **kwargs): return self._parent._as_root(kwargs.get('options', []), self.COMMAND, args) class IpDeviceCommandBase(IpCommandBase): @property def name(self): return self._parent.name class IpLinkCommand(IpDeviceCommandBase): COMMAND = 'link' def set_address(self, mac_address): self._as_root('set', self.name, 'address', mac_address) def set_mtu(self, mtu_size): self._as_root('set', self.name, 'mtu', mtu_size) def set_up(self): self._as_root('set', self.name, 'up') def set_down(self): self._as_root('set', self.name, 'down') def set_netns(self, namespace): self._as_root('set', self.name, 'netns', namespace) self._parent.namespace = namespace def set_name(self, name): self._as_root('set', self.name, 'name', name) self._parent.name = name def delete(self): self._as_root('delete', self.name) @property def address(self): return self.attributes.get('link/ether') @property def state(self): return self.attributes.get('state') @property def mtu(self): return self.attributes.get('mtu') @property def qdisc(self): return self.attributes.get('qdisc') @property def qlen(self): return self.attributes.get('qlen') @property def attributes(self): return self._parse_line(self._run('show', self.name, options='o')) def _parse_line(self, value): device_name, settings = value.replace("\\", '').split('>', 1) tokens = settings.split() keys = tokens[::2] values = [int(v) if v.isdigit() else v for v in tokens[1::2]] retval = dict(zip(keys, values)) return retval class IpAddrCommand(IpDeviceCommandBase): COMMAND = 'addr' def add(self, ip_version, cidr, broadcast, scope='global'): self._as_root('add', cidr, 'brd', broadcast, 'scope', scope, 'dev', self.name, options=[ip_version]) def delete(self, ip_version, cidr): self._as_root('del', cidr, 'dev', self.name, options=[ip_version]) def flush(self): self._as_root('flush', self.name) def list(self, scope=None, to=None, filters=[]): retval = [] if scope: filters += ['scope', scope] if to: filters += ['to', to] for line in self._run('show', self.name, *filters).split('\n'): line = line.strip() if not line.startswith('inet'): continue parts = line.split() if parts[0] == 'inet6': version = 6 scope = parts[3] else: version = 4 scope = parts[5] retval.append(dict(cidr=parts[1], scope=scope, ip_version=version, dynamic=('dynamic' == parts[-1]))) return retval class IpNetnsCommand(IpCommandBase): COMMAND = 'netns' def add(self, name): self._as_root('add', name) return IPWrapper(self._parent.root_helper, name) def delete(self, name): self._as_root('delete', name) def execute(self, cmds): if not self._parent.root_helper: raise exceptions.SudoRequired() elif not self._parent.namespace: raise Exception(_('No namespace defined for parent')) else: return utils.execute( ['ip', 'netns', 'exec', self._parent.namespace] + list(cmds), root_helper=self._parent.root_helper) def exists(self, name): output = self._as_root('list', options='o') for line in output.split('\n'): if name == line.strip(): return True return False def device_exists(device_name, root_helper=None, namespace=None): try: address = IPDevice(device_name, root_helper, namespace).link.address except RuntimeError: return False return True