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# Copyright (c) 2016 Cisco and/or its affiliates.
# 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.
"""VPP Configuration File Generator library."""
import re
import time
from resources.libraries.python.ssh import SSH
from resources.libraries.python.topology import NodeType
from resources.libraries.python.topology import Topology
__all__ = ['VppConfigGenerator']
class VppConfigGenerator(object):
"""VPP Configuration File Generator."""
def __init__(self):
# VPP Node to apply configuration on
self._node = ''
# VPP Hostname
self._hostname = ''
# VPP Configuration
self._nodeconfig = {}
# Serialized VPP Configuration
self._vpp_config = ''
# VPP Service name
self._vpp_service_name = 'vpp'
# VPP Configuration file path
self._vpp_config_filename = '/etc/vpp/startup.conf'
def set_node(self, node):
"""Set DUT node.
:param node: Node to store configuration on.
:type node: dict
:raises RuntimeError: If Node type is not DUT.
"""
if node['type'] != NodeType.DUT:
raise RuntimeError('Startup config can only be applied to DUT'
'node.')
self._node = node
self._hostname = Topology.get_node_hostname(node)
def set_config_filename(self, filename):
"""Set startup configuration filename.
:param filename: Startup configuration filename.
:type filename: str
"""
self._vpp_config_filename = filename
def add_config_item(self, config, value, path):
"""Add startup configuration item.
:param config: Startup configuration of node.
:param value: Value to insert.
:param path: Path where to insert item.
:type config: dict
:type value: str
:type path: list
"""
if len(path) == 1:
config[path[0]] = value
return
if not config.has_key(path[0]):
config[path[0]] = {}
self.add_config_item(config[path[0]], value, path[1:])
def dump_config(self, obj, level=-1):
"""Dump the startup configuration in VPP config format.
:param obj: Python Object to print.
:param nested_level: Nested level for indentation.
:type obj: Obj
:type nested_level: int
:returns: nothing
"""
indent = ' '
if level >= 0:
self._vpp_config += '{}{{\n'.format((level) * indent)
if isinstance(obj, dict):
for key, val in obj.items():
if hasattr(val, '__iter__'):
self._vpp_config += '{}{}\n'.format((level + 1) * indent,
key)
self.dump_config(val, level + 1)
else:
self._vpp_config += '{}{} {}\n'.format((level + 1) * indent,
key, val)
else:
for val in obj:
self._vpp_config += '{}{}\n'.format((level + 1) * indent, val)
if level >= 0:
self._vpp_config += '{}}}\n'.format(level * indent)
def add_unix_log(self, value='/tmp/vpe.log'):
"""Add UNIX log configuration.
:param value: Log file.
:type value: str
"""
path = ['unix', 'log']
self.add_config_item(self._nodeconfig, value, path)
def add_unix_cli_listen(self, value='localhost:5002'):
"""Add UNIX cli-listen configuration.
:param value: CLI listen address and port.
:type value: str
"""
path = ['unix', 'cli-listen']
self.add_config_item(self._nodeconfig, value, path)
self._nodeconfig = {'unix': {'nodaemon': ''}}
def add_unix_nodaemon(self):
"""Add UNIX nodaemon configuration."""
path = ['unix', 'nodaemon']
self.add_config_item(self._nodeconfig, '', path)
def add_dpdk_dev(self, *devices):
"""Add DPDK PCI device configuration.
:param devices: PCI device(s) (format xxxx:xx:xx.x)
:type devices: tuple
:raises ValueError: If PCI address format is not valid.
"""
pattern = re.compile("^[0-9A-Fa-f]{4}:[0-9A-Fa-f]{2}:"
"[0-9A-Fa-f]{2}\\.[0-9A-Fa-f]$")
for device in devices:
if not pattern.match(device):
raise ValueError('PCI address {} to be added to host {} '
'is not in valid format xxxx:xx:xx.x'.
format(device, self._hostname))
path = ['dpdk', 'dev {0}'.format(device)]
self.add_config_item(self._nodeconfig, '', path)
def add_dpdk_cryptodev(self, count):
"""Add DPDK Crypto PCI device configuration.
:param count: Number of crypto devices to add.
:type count: int
"""
cryptodev = Topology.get_cryptodev(self._node)
for i in range(count):
cryptodev_config = 'dev {0}'.format(
re.sub(r'\d.\d$', '1.'+str(i), cryptodev))
path = ['dpdk', cryptodev_config]
self.add_config_item(self._nodeconfig, '', path)
self.add_dpdk_uio_driver('igb_uio')
def add_dpdk_dev_default_rxq(self, value):
"""Add DPDK dev default rxq configuration.
:param value: Default number of rxqs.
:type value: str
"""
path = ['dpdk', 'dev default', 'num-rx-queues']
self.add_config_item(self._nodeconfig, value, path)
def add_dpdk_dev_default_txq(self, value):
"""Add DPDK dev default txq configuration.
:param value: Default number of txqs.
:type value: str
"""
path = ['dpdk', 'dev default', 'num-tx-queues']
self.add_config_item(self._nodeconfig, value, path)
def add_dpdk_socketmem(self, value):
"""Add DPDK socket memory configuration.
:param value: Socket memory size.
:type value: str
"""
path = ['dpdk', 'socket-mem']
self.add_config_item(self._nodeconfig, value, path)
def add_dpdk_uio_driver(self, value):
"""Add DPDK uio-driver configuration.
:param value: DPDK uio-driver configuration.
:type value: str
"""
path = ['dpdk', 'uio-driver']
self.add_config_item(self._nodeconfig, value, path)
def add_cpu_main_core(self, value):
"""Add CPU main core configuration.
:param value: Main core option.
:type value: str
"""
path = ['cpu', 'main-core']
self.add_config_item(self._nodeconfig, value, path)
def add_cpu_corelist_workers(self, value):
"""Add CPU corelist-workers configuration.
:param value: Corelist-workers option.
:type value: str
"""
path = ['cpu', 'corelist-workers']
self.add_config_item(self._nodeconfig, value, path)
def add_heapsize(self, value):
"""Add Heapsize configuration.
:param value: Amount of heapsize.
:type value: str
"""
path = ['heapsize']
self.add_config_item(self._nodeconfig, value, path)
def add_api_trace(self):
"""Add API trace configuration."""
path = ['api-trace', 'on']
self.add_config_item(self._nodeconfig, path, '')
def add_ip6_hash_buckets(self, value):
"""Add IP6 hash buckets configuration.
:param value: Number of IP6 hash buckets.
:type value: str
"""
path = ['ip6', 'hash-buckets']
self.add_config_item(self._nodeconfig, value, path)
def add_ip6_heap_size(self, value):
"""Add IP6 heap-size configuration.
:param value: IP6 Heapsize amount.
:type value: str
"""
path = ['ip6', 'heap-size']
self.add_config_item(self._nodeconfig, value, path)
def add_dpdk_no_multi_seg(self):
"""Add DPDK no-multi-seg configuration."""
path = ['dpdk', 'no-multi-seg']
self.add_config_item(self._nodeconfig, '', path)
def add_snat(self, value='deterministic'):
"""Add SNAT configuration.
:param value: SNAT mode.
:type value: str
"""
path = ['snat']
self.add_config_item(self._nodeconfig, value, path)
def apply_config(self, waittime=5, retries=12):
"""Generate and apply VPP configuration for node.
Use data from calls to this class to form a startup.conf file and
replace /etc/vpp/startup.conf with it on node.
:param waittime: Time to wait for VPP to restart (default 5 seconds).
:param retries: Number of times (default 12) to re-try waiting.
:type waittime: int
:type retries: int
:raises RuntimeError: If writing config file failed, or restarting of
VPP failed.
"""
self.dump_config(self._nodeconfig)
ssh = SSH()
ssh.connect(self._node)
# We're using this "| sudo tee" construct because redirecting
# a sudo's output ("sudo echo xxx > /path/to/file") does not
# work on most platforms...
(ret, _, _) = \
ssh.exec_command('echo "{0}" | sudo tee {1}'.
format(self._vpp_config,
self._vpp_config_filename))
if ret != 0:
raise RuntimeError('Writing config file failed to node {}'.
format(self._hostname))
# Instead of restarting, we'll do separate start and stop
# actions. This way we don't care whether VPP was running
# to begin with.
ssh.exec_command('sudo service {} stop'
.format(self._vpp_service_name))
(ret, _, _) = \
ssh.exec_command('sudo service {} start'
.format(self._vpp_service_name))
if ret != 0:
raise RuntimeError('Restarting VPP failed on node {}'.
format(self._hostname))
# Sleep <waittime> seconds, up to <retry> times,
# and verify if VPP is running.
for _ in range(retries):
time.sleep(waittime)
(ret, _, _) = \
ssh.exec_command('echo show hardware-interfaces | '
'nc 0 5002 || echo "VPP not yet running"')
if ret == 0:
break
else:
raise RuntimeError('VPP failed to restart on node {}'.
format(self._hostname))
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