'''
The functions in this file interact with the VPP API to retrieve certain
interface metadata.
'''
from vpp_papi import VPPApiClient
import os
import sys
import fnmatch
import logging
import socket
import yaml
import config.bondethernet as bondethernet
class VPPApi():
def __init__(self, address='/run/vpp/api.sock', clientname='vppcfg'):
self.logger = logging.getLogger('vppcfg.vppapi')
self.logger.addHandler(logging.NullHandler())
self.address = address
self.connected = False
self.clientname = clientname
self.vpp = None
self.cache = self.cache_clear()
self.cache_read = False
self.lcp_enabled = False
def connect(self):
if self.connected:
return True
vpp_json_dir = '/usr/share/vpp/api/'
## vpp_json_dir = "/home/pim/src/vpp/build-root/build-vpp_debug-native/vpp/CMakeFiles/"
# construct a list of all the json api files
jsonfiles = []
for root, dirnames, filenames in os.walk(vpp_json_dir):
for filename in fnmatch.filter(filenames, '*.api.json'):
jsonfiles.append(os.path.join(root, filename))
if not jsonfiles:
self.logger.error('no json api files found')
return False
self.vpp = VPPApiClient(apifiles=jsonfiles,
server_address=self.address)
try:
self.logger.debug('Connecting to VPP')
self.vpp.connect(self.clientname)
except:
return False
v = self.vpp.api.show_version()
self.logger.info('VPP version is %s' % v.version)
self.connected = True
return True
def disconnect(self):
if not self.connected:
return True
self.vpp.disconnect()
self.logger.debug('Disconnected from VPP')
self.connected = False
return True
def cache_clear(self):
self.cache_read = False
return {"lcps": {}, "interface_names": {}, "interfaces": {}, "interface_addresses": {},
"bondethernets": {}, "bondethernet_members": {},
"bridgedomains": {}, "vxlan_tunnels": {}, "l2xcs": {}}
def cache_remove_lcp(self, lcpname):
""" Removes the LCP and TAP interface, identified by lcpname, from the config. """
for idx, lcp in self.cache['lcps'].items():
if lcp.host_if_name == lcpname:
found = True
break
if not found:
self.logger.warning("Trying to remove an LCP which is not in the config: %s" % lcpname)
return False
ifname = self.cache['interfaces'][lcp.host_sw_if_index].interface_name
del self.cache['interface_names'][ifname]
del self.cache['interface_addresses'][lcp.host_sw_if_index]
del self.cache['interfaces'][lcp.host_sw_if_index]
del self.cache['lcps'][lcp.phy_sw_if_index]
return True
def cache_remove_bondethernet_member(self, ifname):
""" Removes the bonderthernet member interface, identified by name, from the config. """
if not ifname in self.cache['interface_names']:
self.logger.warning("Trying to remove a bondethernet member interface which is not in the config: %s" % ifname)
return False
iface = self.cache['interface_names'][ifname]
for bond_idx, members in self.cache['bondethernet_members'].items():
if iface.sw_if_index in members:
self.cache['bondethernet_members'][bond_idx].remove(iface.sw_if_index)
return True
def cache_remove_l2xc(self, ifname):
if not ifname in self.cache['interface_names']:
self.logger.warning("Trying to remove an L2XC which is not in the config: %s" % ifname)
return False
iface = self.cache['interface_names'][ifname]
self.cache['l2xcs'].pop(iface.sw_if_index, None)
return True
def cache_remove_vxlan_tunnel(self, ifname):
if not ifname in self.cache['interface_names']:
self.logger.warning("Trying to remove a VXLAN Tunnel which is not in the config: %s" % ifname)
return False
iface = self.cache['interface_names'][ifname]
self.cache['vxlan_tunnels'].pop(iface.sw_if_index, None)
return True
def cache_remove_interface(self, ifname):
""" Removes the interface, identified by name, from the config. """
if not ifname in self.cache['interface_names']:
self.logger.warning("Trying to remove an interface which is not in the config: %s" % ifname)
return False
iface = self.cache['interface_names'][ifname]
del self.cache['interfaces'][iface.sw_if_index]
if len(self.cache['interface_addresses'][iface.sw_if_index]) > 0:
self.logger.warning("Not all addresses were removed on %s" % ifname)
del self.cache['interface_addresses'][iface.sw_if_index]
del self.cache['interface_names'][ifname]
## Use my_dict.pop('key', None), as it allows 'key' to be absent
if iface.sw_if_index in self.cache['bondethernet_members']:
if len(self.cache['bondethernet_members'][iface.sw_if_index]) != 0:
self.logger.warning("When removing BondEthernet %s, its members are not empty: %s" % (ifname, self.cache['bondethernet_members'][iface.sw_if_index]))
else:
del self.cache['bondethernet_members'][iface.sw_if_index]
self.cache['bondethernets'].pop(iface.sw_if_index, None)
return True
def readconfig(self):
if not self.connected and not self.connect():
self.logger.error("Could not connect to VPP")
return False
self.cache_read = False
## Workaround LCPng and linux-cp, in order.
self.lcp_enabled = False
try:
self.logger.debug("Retrieving LCPs")
r = self.vpp.api.lcp_itf_pair_get()
if isinstance(r, tuple) and r[0].retval == 0:
for lcp in r[1]:
if lcp.phy_sw_if_index > 65535 or lcp.host_sw_if_index > 65535:
## Work around endianness bug: https://gerrit.fd.io/r/c/vpp/+/35479
## TODO(pim) - remove this when 22.06 ships
lcp = lcp._replace(phy_sw_if_index=socket.ntohl(lcp.phy_sw_if_index))
lcp = lcp._replace(host_sw_if_index=socket.ntohl(lcp.host_sw_if_index))
lcp = lcp._replace(vif_index=socket.ntohl(lcp.vif_index))
self.logger.warning("LCP workaround for endianness issue on %s" % lcp.host_if_name)
self.cache['lcps'][lcp.phy_sw_if_index] = lcp
self.lcp_enabled = True
except:
self.logger.warning("linux-cp not found, will not reconcile Linux Control Plane")
self.logger.debug("Retrieving interfaces")
r = self.vpp.api.sw_interface_dump()
for iface in r:
self.cache['interfaces'][iface.sw_if_index] = iface
self.cache['interface_names'][iface.interface_name] = iface
self.cache['interface_addresses'][iface.sw_if_index] = []
self.logger.debug("Retrieving IPv4 addresses for %s" % iface.interface_name)
ipr = self.vpp.api.ip_address_dump(sw_if_index=iface.sw_if_index, is_ipv6=False)
for ip in ipr:
self.cache['interface_addresses'][iface.sw_if_index].append(str(ip.prefix))
self.logger.debug("Retrieving IPv6 addresses for %s" % iface.interface_name)
ipr = self.vpp.api.ip_address_dump(sw_if_index=iface.sw_if_index, is_ipv6=True)
for ip in ipr:
self.cache['interface_addresses'][iface.sw_if_index].append(str(ip.prefix))
self.logger.debug("Retrieving bondethernets")
r = self.vpp.api.sw_bond_interface_dump()
for iface in r:
self.cache['bondethernets'][iface.sw_if_index] = iface
self.cache['bondethernet_members'][iface.sw_if_index] = []
for member in self.vpp.api.sw_member_interface_dump(sw_if_index=iface.sw_if_index):
self.cache['bondethernet_members'][iface.sw_if_index].append(member.sw_if_index)
self.logger.debug("Retrieving bridgedomains")
r = self.vpp.api.bridge_domain_dump()
for bridge in r:
self.cache['bridgedomains'][bridge.bd_id] = bridge
self.logger.debug("Retrieving vxlan_tunnels")
r = self.vpp.api.vxlan_tunnel_v2_dump()
for vxlan in r:
self.cache['vxlan_tunnels'][vxlan.sw_if_index] = vxlan
self.logger.debug("Retrieving L2 Cross Connects")
r = self.vpp.api.l2_xconnect_dump()
for l2xc in r:
self.cache['l2xcs'][l2xc.rx_sw_if_index] = l2xc
self.cache_read = True
return self.cache_read
def phys_exist(self, ifname_list):
""" Return True if all interfaces in the `ifname_list` exist as physical interface names
in VPP. Return False otherwise."""
ret = True
for ifname in ifname_list:
if not ifname in self.cache['interface_names']:
self.logger.warning("Interface %s does not exist in VPP" % ifname)
ret = False
return ret
def get_sub_interfaces(self):
subints = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].sub_id>0 and self.cache['interfaces'][x].sub_number_of_tags > 0]
return subints
def get_qinx_interfaces(self):
qinx_subints = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].sub_id>0 and self.cache['interfaces'][x].sub_inner_vlan_id>0]
return qinx_subints
def get_dot1x_interfaces(self):
dot1x_subints = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].sub_id>0 and self.cache['interfaces'][x].sub_inner_vlan_id==0]
return dot1x_subints
def get_loopbacks(self):
loopbacks = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].interface_dev_type=='Loopback']
return loopbacks
def get_phys(self):
phys = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].sw_if_index == self.cache['interfaces'][x].sup_sw_if_index and self.cache['interfaces'][x].interface_dev_type not in ['virtio', 'BVI', 'Loopback', 'VXLAN', 'local', 'bond']]
return phys
def get_bondethernets(self):
bonds = [self.cache['bondethernets'][x].interface_name for x in self.cache['bondethernets']]
return bonds
def get_vxlan_tunnels(self):
vxlan_tunnels = [self.cache['interfaces'][x].interface_name for x in self.cache['interfaces'] if self.cache['interfaces'][x].interface_dev_type in ['VXLAN']]
return vxlan_tunnels
def get_lcp_by_interface(self, sw_if_index):
for idx, lcp in self.cache['lcps'].items():
if lcp.phy_sw_if_index == sw_if_index:
return lcp
return None
class VPPApiDumper(VPPApi):
def __init__(self, address='/run/vpp/api.sock', clientname='vppcfg'):
VPPApi.__init__(self, address, clientname)
def write(self, outfile):
if outfile and outfile == '-':
fh = sys.stdout
outfile = "(stdout)"
else:
fh = open(outfile, 'w')
config = self.cache_to_config()
print(yaml.dump(config), file=fh)
if fh is not sys.stdout:
fh.close()
self.logger.info("Wrote YAML config to %s" % (outfile))
def cache_to_config(self):
config = {"loopbacks": {}, "bondethernets": {}, "interfaces": {}, "bridgedomains": {}, "vxlan_tunnels": {} }
for idx, iface in self.cache['bondethernets'].items():
bond = {"description": ""}
if iface.sw_if_index in self.cache['bondethernet_members']:
bond['interfaces'] = [self.cache['interfaces'][x].interface_name for x in self.cache['bondethernet_members'][iface.sw_if_index]]
mode = bondethernet.int_to_mode(iface.mode)
bond['mode'] = mode
if mode in ['xor', 'lacp']:
bond['load-balance'] = bondethernet.int_to_lb(iface.lb)
config['bondethernets'][iface.interface_name] = bond
for numtags in [ 0, 1, 2 ]:
for idx, iface in self.cache['interfaces'].items():
if iface.sub_number_of_tags != numtags:
continue
if iface.interface_dev_type=='Loopback':
if iface.sub_id > 0:
self.logger.warning("Refusing to export sub-interfaces of loopback devices (%s)" % iface.interface_name)
continue
loop = {"description": ""}
loop['mtu'] = iface.mtu[0]
if iface.sw_if_index in self.cache['lcps']:
loop['lcp'] = self.cache['lcps'][iface.sw_if_index].host_if_name
if iface.sw_if_index in self.cache['interface_addresses']:
if len(self.cache['interface_addresses'][iface.sw_if_index]) > 0:
loop['addresses'] = self.cache['interface_addresses'][iface.sw_if_index]
config['loopbacks'][iface.interface_name] = loop
elif iface.interface_dev_type in ['bond', 'VXLAN', 'dpdk']:
i = {"description": "" }
if iface.sw_if_index in self.cache['lcps']:
i['lcp'] = self.cache['lcps'][iface.sw_if_index].host_if_name
if iface.sw_if_index in self.cache['interface_addresses']:
if len(self.cache['interface_addresses'][iface.sw_if_index]) > 0:
i['addresses'] = self.cache['interface_addresses'][iface.sw_if_index]
if iface.sw_if_index in self.cache['l2xcs']:
l2xc = self.cache['l2xcs'][iface.sw_if_index]
i['l2xc'] = self.cache['interfaces'][l2xc.tx_sw_if_index].interface_name
if not self.cache['interfaces'][idx].flags & 1: # IF_STATUS_API_FLAG_ADMIN_UP
i['state'] = 'down'
i['mtu'] = iface.mtu[0]
if iface.sub_number_of_tags == 0:
config['interfaces'][iface.interface_name] = i
continue
encap = {}
if iface.sub_if_flags&8:
encap['dot1ad'] = iface.sub_outer_vlan_id
else:
encap['dot1q'] = iface.sub_outer_vlan_id
if iface.sub_inner_vlan_id > 0:
encap['inner-dot1q'] = iface.sub_inner_vlan_id
encap['exact-match'] = bool(iface.sub_if_flags&16)
i['encapsulation'] = encap
sup_iface = self.cache['interfaces'][iface.sup_sw_if_index]
if iface.mtu[0] > 0:
i['mtu'] = iface.mtu[0]
else:
i['mtu'] = sup_iface.mtu[0]
if not 'sub-interfaces' in config['interfaces'][sup_iface.interface_name]:
config['interfaces'][sup_iface.interface_name]['sub-interfaces'] = {}
config['interfaces'][sup_iface.interface_name]['sub-interfaces'][iface.sub_id] = i
for idx, iface in self.cache['vxlan_tunnels'].items():
vpp_iface = self.cache['interfaces'][iface.sw_if_index]
vxlan = { "description": "",
"vni": int(iface.vni),
"local": str(iface.src_address),
"remote": str(iface.dst_address) }
config['vxlan_tunnels'][vpp_iface.interface_name] = vxlan
for idx, iface in self.cache['bridgedomains'].items():
# self.logger.info("%d: %s" % (idx, iface))
bridge_name = "bd%d" % idx
mtu = 1500
bridge = {"description": ""}
settings = {}
settings['learn'] = iface.learn
settings['unicast-flood'] = iface.flood
settings['unknown-unicast-flood'] = iface.uu_flood
settings['unicast-forward'] = iface.forward
settings['arp-termination'] = iface.arp_term
settings['arp-unicast-forward'] = iface.arp_ufwd
settings['mac-age-minutes'] = int(iface.mac_age)
bridge['settings'] = settings
bvi = None
if iface.bvi_sw_if_index != 2**32-1:
bvi = self.cache['interfaces'][iface.bvi_sw_if_index]
mtu = bvi.mtu[0]
bridge['bvi'] = bvi.interface_name
members = []
for member in iface.sw_if_details:
if bvi and bvi.interface_name == self.cache['interfaces'][member.sw_if_index].interface_name == bvi.interface_name:
continue
members.append(self.cache['interfaces'][member.sw_if_index].interface_name)
mtu = self.cache['interfaces'][member.sw_if_index].mtu[0]
if len(members) > 0:
bridge['interfaces'] = members
bridge['mtu'] = mtu
config['bridgedomains'][bridge_name] = bridge
return config