-# Copyright 2015-2016 Intel Corporation.
+# Copyright 2015-2017 Intel Corporation.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
import pexpect
from conf import settings as S
-from conf import get_test_param
from vnfs.vnf.vnf import IVnf
class IVnfQemu(IVnf):
self._nics = S.getValue('GUEST_NICS')[self._number][:nics_nr]
# set guest loopback application based on VNF configuration
- # cli option take precedence to config file values
self._guest_loopback = S.getValue('GUEST_LOOPBACK')[self._number]
self._testpmd_fwd_mode = S.getValue('GUEST_TESTPMD_FWD_MODE')[self._number]
# in case of SRIOV we must ensure, that MAC addresses are not swapped
if S.getValue('SRIOV_ENABLED') and self._testpmd_fwd_mode.startswith('mac') and \
- not S.getValue('VNF').endswith('PciPassthrough'):
+ not str(S.getValue('VNF')).endswith('PciPassthrough'):
self._logger.info("SRIOV detected, forwarding mode of testpmd was changed from '%s' to '%s'",
self._testpmd_fwd_mode, 'io')
S.getValue('TOOLS')['qemu-system'],
'-m', S.getValue('GUEST_MEMORY')[self._number],
'-smp', str(S.getValue('GUEST_SMP')[self._number]),
- '-cpu', 'host,migratable=off',
+ '-cpu', str(S.getValue('GUEST_CPU_OPTIONS')[self._number]),
'-drive', 'if={},file='.format(S.getValue(
'GUEST_BOOT_DRIVE_TYPE')[self._number]) +
S.getValue('GUEST_IMAGE')[self._number],
"""
Stops VNF instance gracefully first.
"""
- try:
- # exit testpmd if needed
- if self._guest_loopback == 'testpmd':
- self.execute_and_wait('stop', 120, "Done")
- self.execute_and_wait('quit', 120, "[bB]ye")
-
- # turn off VM
- self.execute_and_wait('poweroff', 120, "Power down")
-
- except pexpect.TIMEOUT:
- self.kill()
-
- # wait until qemu shutdowns
- self._logger.debug('Wait for QEMU to terminate')
- for dummy in range(30):
- time.sleep(1)
- if not self.is_running():
- break
+ if self.is_running():
+ try:
+ if self._login_active:
+ # exit testpmd if needed
+ if self._guest_loopback == 'testpmd':
+ self.execute_and_wait('stop', 120, "Done")
+ self.execute_and_wait('quit', 120, "[bB]ye")
+
+ # turn off VM
+ self.execute_and_wait('poweroff', 120, "Power down")
+
+ except pexpect.TIMEOUT:
+ self.kill()
+
+ # wait until qemu shutdowns
+ self._logger.debug('Wait for QEMU to terminate')
+ for dummy in range(30):
+ time.sleep(1)
+ if not self.is_running():
+ break
- # just for case that graceful shutdown failed
- super(IVnfQemu, self).stop()
+ # just for case that graceful shutdown failed
+ super(IVnfQemu, self).stop()
# helper functions
- def _login(self, timeout=120):
+ def login(self, timeout=120):
"""
Login to QEMU instance.
:param timeout: Timeout to wait for login to complete.
- :returns: None
+ :returns: True if login is active
"""
+ if self._login_active:
+ return self._login_active
+
# if no timeout was set, we likely started QEMU without waiting for it
# to boot. This being the case, we best check that it has finished
# first.
self._child.sendline(S.getValue('GUEST_PASSWORD')[self._number])
self._expect_process(S.getValue('GUEST_PROMPT')[self._number], timeout=5)
-
- def send_and_pass(self, cmd, timeout=30):
- """
- Send ``cmd`` and wait ``timeout`` seconds for it to pass.
-
- :param cmd: Command to send to guest.
- :param timeout: Time to wait for prompt before checking return code.
-
- :returns: None
- """
- self.execute(cmd)
- self.wait(S.getValue('GUEST_PROMPT')[self._number], timeout=timeout)
- self.execute('echo $?')
- self._child.expect('^0$', timeout=1) # expect a 0
- self.wait(S.getValue('GUEST_PROMPT')[self._number], timeout=timeout)
+ self._login_active = True
+ return self._login_active
def _affinitize(self):
"""
for cpu in range(0, int(S.getValue('GUEST_SMP')[self._number])):
match = None
+ guest_thread_binding = S.getValue('GUEST_THREAD_BINDING')[self._number]
+ if guest_thread_binding is None:
+ guest_thread_binding = S.getValue('GUEST_CORE_BINDING')[self._number]
for line in output.decode(cur_locale).split('\n'):
match = re.search(thread_id % cpu, line)
if match:
- self._affinitize_pid(
- S.getValue('GUEST_CORE_BINDING')[self._number][cpu],
- match.group(1))
+ self._affinitize_pid(guest_thread_binding[cpu], match.group(1))
break
if not match:
"""
Configure VM to run VNF, e.g. port forwarding application based on the configuration
"""
+ if self._guest_loopback == 'buildin':
+ return
+
+ self.login()
+
if self._guest_loopback == 'testpmd':
- self._login()
self._configure_testpmd()
elif self._guest_loopback == 'l2fwd':
- self._login()
self._configure_l2fwd()
elif self._guest_loopback == 'linux_bridge':
- self._login()
self._configure_linux_bridge()
- elif self._guest_loopback != 'buildin':
- self._logger.error('Unsupported guest loopback method "%s" was specified. Option'
- ' "buildin" will be used as a fallback.', self._guest_loopback)
+ elif self._guest_loopback != 'clean':
+ raise RuntimeError('Unsupported guest loopback method "%s" was specified.',
+ self._guest_loopback)
def wait(self, prompt=None, timeout=30):
if prompt is None:
prompt = S.getValue('GUEST_PROMPT')[self._number]
- super(IVnfQemu, self).wait(prompt=prompt, timeout=timeout)
+ return super(IVnfQemu, self).wait(prompt=prompt, timeout=timeout)
def execute_and_wait(self, cmd, timeout=30, prompt=None):
if prompt is None:
prompt = S.getValue('GUEST_PROMPT')[self._number]
- super(IVnfQemu, self).execute_and_wait(cmd, timeout=timeout,
- prompt=prompt)
+ return super(IVnfQemu, self).execute_and_wait(cmd, timeout=timeout,
+ prompt=prompt)
def _modify_dpdk_makefile(self):
"""
self.execute_and_wait("{} -t {} -F".format(iptables, table))
self.execute_and_wait("{} -t {} -X".format(iptables, table))
-
def _configure_testpmd(self):
"""
Configure VM to perform L2 forwarding between NICs by DPDK's testpmd
for nic in self._nics:
self.execute_and_wait('ifdown ' + nic['device'])
- # build and insert igb_uio and rebind interfaces to it
- self.execute_and_wait('make RTE_OUTPUT=$RTE_SDK/$RTE_TARGET -C '
- '$RTE_SDK/lib/librte_eal/linuxapp/igb_uio')
- self.execute_and_wait('modprobe uio')
- self.execute_and_wait('insmod %s/kmod/igb_uio.ko' %
- S.getValue('RTE_TARGET'))
- self.execute_and_wait('./tools/dpdk*bind.py --status')
+ self.execute_and_wait('./*tools/dpdk*bind.py --status')
pci_list = ' '.join([nic['pci'] for nic in self._nics])
- self.execute_and_wait('./tools/dpdk*bind.py -u ' + pci_list)
- self.execute_and_wait('./tools/dpdk*bind.py -b igb_uio ' + pci_list)
- self.execute_and_wait('./tools/dpdk*bind.py --status')
+ self.execute_and_wait('./*tools/dpdk*bind.py -u ' + pci_list)
+ self._bind_dpdk_driver(S.getValue(
+ 'GUEST_DPDK_BIND_DRIVER')[self._number], pci_list)
+ self.execute_and_wait('./*tools/dpdk*bind.py --status')
# build and run 'test-pmd'
self.execute_and_wait('cd ' + S.getValue('GUEST_OVS_DPDK_DIR')[self._number] +
'/DPDK/app/test-pmd')
self.execute_and_wait('make clean')
self.execute_and_wait('make')
- if int(S.getValue('GUEST_NIC_QUEUES')[self._number]):
- self.execute_and_wait(
- './testpmd {} -n4 --socket-mem 512 --'.format(
- S.getValue('GUEST_TESTPMD_CPU_MASK')[self._number]) +
- ' --burst=64 -i --txqflags=0xf00 ' +
- '--nb-cores={} --rxq={} --txq={} '.format(
- S.getValue('GUEST_TESTPMD_NB_CORES')[self._number],
- S.getValue('GUEST_TESTPMD_TXQ')[self._number],
- S.getValue('GUEST_TESTPMD_RXQ')[self._number]) +
- '--disable-hw-vlan', 60, "Done")
- else:
- self.execute_and_wait(
- './testpmd {} -n 4 --socket-mem 512 --'.format(
- S.getValue('GUEST_TESTPMD_CPU_MASK')[self._number]) +
- ' --burst=64 -i --txqflags=0xf00 ' +
- '--disable-hw-vlan', 60, "Done")
- self.execute('set fwd ' + self._testpmd_fwd_mode, 1)
- self.execute_and_wait('start', 20,
- 'TX RS bit threshold=.+ - TXQ flags=0xf00')
+
+ # get testpmd settings from CLI
+ testpmd_params = S.getValue('GUEST_TESTPMD_PARAMS')[self._number]
+ if S.getValue('VSWITCH_JUMBO_FRAMES_ENABLED'):
+ testpmd_params += ' --max-pkt-len={}'.format(S.getValue(
+ 'VSWITCH_JUMBO_FRAMES_SIZE'))
+
+ self.execute_and_wait('./testpmd {}'.format(testpmd_params), 60, "Done")
+ self.execute_and_wait('set fwd ' + self._testpmd_fwd_mode, 20, 'testpmd>')
+ self.execute_and_wait('start', 20, 'testpmd>')
def _configure_l2fwd(self):
"""
# configure all interfaces
for nic in self._nics:
- self.execute('ip addr add ' +
- nic['ip'] + ' dev ' + nic['device'])
- self.execute('ip link set dev ' + nic['device'] + ' up')
+ self.execute_and_wait('ip addr add ' +
+ nic['ip'] + ' dev ' + nic['device'])
+ if S.getValue('VSWITCH_JUMBO_FRAMES_ENABLED'):
+ self.execute_and_wait('ifconfig {} mtu {}'.format(
+ nic['device'], S.getValue('VSWITCH_JUMBO_FRAMES_SIZE')))
+ self.execute_and_wait('ip link set dev ' + nic['device'] + ' up')
# build and configure system for l2fwd
self.execute_and_wait('cd ' + S.getValue('GUEST_OVS_DPDK_DIR')[self._number] +
self._configure_disable_firewall()
# configure linux bridge
- self.execute('brctl addbr br0')
+ self.execute_and_wait('brctl addbr br0')
# add all NICs into the bridge
for nic in self._nics:
- self.execute('ip addr add ' +
- nic['ip'] + ' dev ' + nic['device'])
- self.execute('ip link set dev ' + nic['device'] + ' up')
- self.execute('brctl addif br0 ' + nic['device'])
+ self.execute_and_wait('ip addr add ' + nic['ip'] + ' dev ' + nic['device'])
+ if S.getValue('VSWITCH_JUMBO_FRAMES_ENABLED'):
+ self.execute_and_wait('ifconfig {} mtu {}'.format(
+ nic['device'], S.getValue('VSWITCH_JUMBO_FRAMES_SIZE')))
+ self.execute_and_wait('ip link set dev ' + nic['device'] + ' up')
+ self.execute_and_wait('brctl addif br0 ' + nic['device'])
- self.execute('ip addr add ' +
- S.getValue('GUEST_BRIDGE_IP')[self._number] +
- ' dev br0')
- self.execute('ip link set dev br0 up')
+ self.execute_and_wait('ip addr add {} dev br0'.format(
+ S.getValue('GUEST_BRIDGE_IP')[self._number]))
+ self.execute_and_wait('ip link set dev br0 up')
# Add the arp entries for the IXIA ports and the bridge you are using.
# Use command line values if provided.
- trafficgen_mac = get_test_param('vanilla_tgen_port1_mac',
- S.getValue('VANILLA_TGEN_PORT1_MAC'))
- trafficgen_ip = get_test_param('vanilla_tgen_port1_ip',
- S.getValue('VANILLA_TGEN_PORT1_IP'))
+ trafficgen_mac = S.getValue('VANILLA_TGEN_PORT1_MAC')
+ trafficgen_ip = S.getValue('VANILLA_TGEN_PORT1_IP')
- self.execute('arp -s ' + trafficgen_ip + ' ' + trafficgen_mac)
+ self.execute_and_wait('arp -s ' + trafficgen_ip + ' ' + trafficgen_mac)
- trafficgen_mac = get_test_param('vanilla_tgen_port2_mac',
- S.getValue('VANILLA_TGEN_PORT2_MAC'))
- trafficgen_ip = get_test_param('vanilla_tgen_port2_ip',
- S.getValue('VANILLA_TGEN_PORT2_IP'))
+ trafficgen_mac = S.getValue('VANILLA_TGEN_PORT2_MAC')
+ trafficgen_ip = S.getValue('VANILLA_TGEN_PORT2_IP')
- self.execute('arp -s ' + trafficgen_ip + ' ' + trafficgen_mac)
+ self.execute_and_wait('arp -s ' + trafficgen_ip + ' ' + trafficgen_mac)
# Enable forwarding
- self.execute('sysctl -w net.ipv4.ip_forward=1')
+ self.execute_and_wait('sysctl -w net.ipv4.ip_forward=1')
# Controls source route verification
# 0 means no source validation
- self.execute('sysctl -w net.ipv4.conf.all.rp_filter=0')
+ self.execute_and_wait('sysctl -w net.ipv4.conf.all.rp_filter=0')
for nic in self._nics:
- self.execute('sysctl -w net.ipv4.conf.' + nic['device'] + '.rp_filter=0')
+ self.execute_and_wait('sysctl -w net.ipv4.conf.' + nic['device'] +
+ '.rp_filter=0')
+
+ def _bind_dpdk_driver(self, driver, pci_slots):
+ """
+ Bind the virtual nics to the driver specific in the conf file
+ :return: None
+ """
+ if driver == 'uio_pci_generic':
+ if S.getValue('VNF') == 'QemuPciPassthrough':
+ # unsupported config, bind to igb_uio instead and exit the
+ # outer function after completion.
+ self._logger.error('SR-IOV does not support uio_pci_generic. '
+ 'Igb_uio will be used instead.')
+ self._bind_dpdk_driver('igb_uio_from_src', pci_slots)
+ return
+ self.execute_and_wait('modprobe uio_pci_generic')
+ self.execute_and_wait('./*tools/dpdk*bind.py -b uio_pci_generic '+
+ pci_slots)
+ elif driver == 'vfio_no_iommu':
+ self.execute_and_wait('modprobe -r vfio')
+ self.execute_and_wait('modprobe -r vfio_iommu_type1')
+ self.execute_and_wait('modprobe vfio enable_unsafe_noiommu_mode=Y')
+ self.execute_and_wait('modprobe vfio-pci')
+ self.execute_and_wait('./*tools/dpdk*bind.py -b vfio-pci ' +
+ pci_slots)
+ elif driver == 'igb_uio_from_src':
+ # build and insert igb_uio and rebind interfaces to it
+ self.execute_and_wait('make RTE_OUTPUT=$RTE_SDK/$RTE_TARGET -C '
+ '$RTE_SDK/lib/librte_eal/linuxapp/igb_uio')
+ self.execute_and_wait('modprobe uio')
+ self.execute_and_wait('insmod %s/kmod/igb_uio.ko' %
+ S.getValue('RTE_TARGET'))
+ self.execute_and_wait('./*tools/dpdk*bind.py -b igb_uio ' + pci_slots)
+ else:
+ self._logger.error(
+ 'Unknown driver for binding specified, defaulting to igb_uio')
+ self._bind_dpdk_driver('igb_uio_from_src', pci_slots)
def _set_multi_queue_nic(self):
"""