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5a30d9d995e60c9bf08d7e5a9e7215fe3c34be77
vppcfg/config/interface.py
Pim van Pelt bc0310e088 Study and respond to PyLint 
Add a reasonably tolerant .pylintrc and fix most pylint errors and
warnings.

------------------------------------------------------------------
Your code has been rated at 9.78/10
2022-04-22 19:32:38 +00:00

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#
# Copyright (c) 2022 Pim van Pelt
#
# 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.
#
import logging
from config import bondethernet
from config import bridgedomain
from config import loopback
from config import vxlan_tunnel
from config import lcp
from config import address
from config import mac
from config import tap
def get_qinx_parent_by_name(yaml, ifname):
"""Returns the sub-interface which matches a QinAD or QinQ outer tag, or None,None
if that sub-interface doesn't exist."""
if not is_qinx(yaml, ifname):
return None, None
_qinx_ifname, qinx_iface = get_by_name(yaml, ifname)
if not qinx_iface:
return None, None
qinx_encap = get_encapsulation(yaml, ifname)
if not qinx_encap:
return None, None
parent_ifname, parent_iface = get_parent_by_name(yaml, ifname)
if not parent_iface:
return None, None
for subid, sub_iface in parent_iface["sub-interfaces"].items():
sub_ifname = f"{parent_ifname}.{int(subid)}"
sub_encap = get_encapsulation(yaml, sub_ifname)
if not sub_encap:
continue
if qinx_encap["dot1q"] > 0 and sub_encap["dot1q"] == qinx_encap["dot1q"]:
return sub_ifname, sub_iface
if qinx_encap["dot1ad"] > 0 and sub_encap["dot1ad"] == qinx_encap["dot1ad"]:
return sub_ifname, sub_iface
return None, None
def get_parent_by_name(yaml, ifname):
"""Returns the sub-interface's parent, or None,None if the sub-int doesn't exist."""
if not ifname:
return None, None
try:
parent_ifname, subid = ifname.split(".")
subid = int(subid)
iface = yaml["interfaces"][parent_ifname]
return parent_ifname, iface
except KeyError:
pass
except ValueError:
pass
return None, None
def get_by_lcp_name(yaml, lcpname):
"""Returns the interface or sub-interface by a given lcp name, or None,None if it does not exist"""
if not "interfaces" in yaml:
return None, None
for ifname, iface in yaml["interfaces"].items():
if "lcp" in iface and iface["lcp"] == lcpname:
return ifname, iface
if not "sub-interfaces" in iface:
continue
for subid, sub_iface in yaml["interfaces"][ifname]["sub-interfaces"].items():
sub_ifname = f"{ifname}.{int(subid)}"
if "lcp" in sub_iface and sub_iface["lcp"] == lcpname:
return sub_ifname, sub_iface
return None, None
def get_by_name(yaml, ifname):
"""Returns the interface or sub-interface by a given name, or None,None if it does not exist"""
if "." in ifname:
try:
phy_ifname, subid = ifname.split(".")
subid = int(subid)
iface = yaml["interfaces"][phy_ifname]["sub-interfaces"][subid]
return ifname, iface
except ValueError:
return None, None
except KeyError:
return None, None
try:
iface = yaml["interfaces"][ifname]
return ifname, iface
except KeyError:
pass
return None, None
def is_sub(yaml, ifname):
"""Returns True if this interface is a sub-interface"""
_parent_ifname, parent_iface = get_parent_by_name(yaml, ifname)
return isinstance(parent_iface, dict)
def has_sub(yaml, ifname):
"""Returns True if this interface has sub-interfaces"""
if not "interfaces" in yaml:
return False
if ifname in yaml["interfaces"]:
iface = yaml["interfaces"][ifname]
if "sub-interfaces" in iface and len(iface["sub-interfaces"]) > 0:
return True
return False
def has_address(yaml, ifname):
"""Returns True if this interface or sub-interface has one or more addresses"""
ifname, iface = get_by_name(yaml, ifname)
if not iface:
return False
return "addresses" in iface
def get_l2xc_interfaces(yaml):
"""Returns a list of all interfaces that have an L2 CrossConnect"""
ret = []
if not "interfaces" in yaml:
return ret
for ifname, iface in yaml["interfaces"].items():
if "l2xc" in iface:
ret.append(ifname)
if "sub-interfaces" in iface:
for subid, sub_iface in iface["sub-interfaces"].items():
sub_ifname = f"{ifname}.{int(subid)}"
if "l2xc" in sub_iface:
ret.append(sub_ifname)
return ret
def is_l2xc_interface(yaml, ifname):
"""Returns True if this interface has an L2 CrossConnect"""
return ifname in get_l2xc_interfaces(yaml)
def get_l2xc_target_interfaces(yaml):
"""Returns a list of all interfaces that are the target of an L2 CrossConnect"""
ret = []
if "interfaces" in yaml:
for _ifname, iface in yaml["interfaces"].items():
if "l2xc" in iface:
ret.append(iface["l2xc"])
if "sub-interfaces" in iface:
for _subid, sub_iface in iface["sub-interfaces"].items():
if "l2xc" in sub_iface:
ret.append(sub_iface["l2xc"])
return ret
def is_l2xc_target_interface(yaml, ifname):
"""Returns True if this interface is the target of an L2 CrossConnect"""
return ifname in get_l2xc_target_interfaces(yaml)
def is_l2xc_target_interface_unique(yaml, ifname):
"""Returns True if this interface is referenced as an l2xc target zero or one times"""
ifs = get_l2xc_target_interfaces(yaml)
return ifs.count(ifname) < 2
def has_lcp(yaml, ifname):
"""Returns True if this interface or sub-interface has an LCP"""
ifname, iface = get_by_name(yaml, ifname)
if not iface:
return False
return "lcp" in iface
def valid_encapsulation(yaml, ifname):
"""Returns True if the sub interface has a valid encapsulation, or
none at all"""
ifname, iface = get_by_name(yaml, ifname)
if not iface:
return True
if not "encapsulation" in iface:
return True
encap = iface["encapsulation"]
if "dot1ad" in encap and "dot1q" in encap:
return False
if "inner-dot1q" in encap and not ("dot1ad" in encap or "dot1q" in encap):
return False
if "exact-match" in encap and not encap["exact-match"] and has_lcp(yaml, ifname):
return False
return True
def get_encapsulation(yaml, ifname):
"""Returns the encapsulation of an interface name as a fully formed dictionary:
dot1q: int (default 0)
dot1ad: int (default 0)
inner-dot1q: int (default 0)
exact-match: bool (default False)
If the interface is not a sub-int with valid encapsulation, None is returned.
"""
if not valid_encapsulation(yaml, ifname):
return None
ifname, iface = get_by_name(yaml, ifname)
if not iface:
return None
_parent_ifname, parent_iface = get_parent_by_name(yaml, ifname)
if not iface or not parent_iface:
return None
_parent_ifname, subid = ifname.split(".")
dot1q = 0
dot1ad = 0
inner_dot1q = 0
exact_match = False
if not "encapsulation" in iface:
dot1q = int(subid)
exact_match = True
else:
if "dot1q" in iface["encapsulation"]:
dot1q = iface["encapsulation"]["dot1q"]
elif "dot1ad" in iface["encapsulation"]:
dot1ad = iface["encapsulation"]["dot1ad"]
if "inner-dot1q" in iface["encapsulation"]:
inner_dot1q = iface["encapsulation"]["inner-dot1q"]
if "exact-match" in iface["encapsulation"]:
exact_match = iface["encapsulation"]["exact-match"]
return {
"dot1q": int(dot1q),
"dot1ad": int(dot1ad),
"inner-dot1q": int(inner_dot1q),
"exact-match": bool(exact_match),
}
def get_phys(yaml):
"""Return a list of all toplevel (ie. non-sub) interfaces which are
assumed to be physical network cards, eg TenGigabitEthernet1/0/0. Note
that derived/created interfaces such as Tunnels, BondEthernets and
Loopbacks are not returned"""
ret = []
if not "interfaces" in yaml:
return ret
for ifname, _iface in yaml["interfaces"].items():
if is_phy(yaml, ifname):
ret.append(ifname)
return ret
def is_phy(yaml, ifname):
"""Returns True if the ifname is the name of a physical network interface."""
ifname, iface = get_by_name(yaml, ifname)
if iface is None:
return False
if is_sub(yaml, ifname):
return False
if bondethernet.is_bondethernet(yaml, ifname):
return False
if loopback.is_loopback(yaml, ifname):
return False
if vxlan_tunnel.is_vxlan_tunnel(yaml, ifname):
return False
if tap.is_tap(yaml, ifname):
return False
return True
def get_interfaces(yaml):
"""Return a list of all interface and sub-interface names"""
ret = []
if not "interfaces" in yaml:
return ret
for ifname, iface in yaml["interfaces"].items():
ret.append(ifname)
if not "sub-interfaces" in iface:
continue
for subid, _sub_iface in iface["sub-interfaces"].items():
ret.append(f"{ifname}.{int(subid)}")
return ret
def get_sub_interfaces(yaml):
"""Return all interfaces which are a subinterface."""
ret = []
for ifname in get_interfaces(yaml):
if is_sub(yaml, ifname):
ret.append(ifname)
return ret
def get_qinx_interfaces(yaml):
"""Return all interfaces which are double-tagged, either QinAD or QinQ.
These interfaces will always have a valid encapsulation with 'inner-dot1q'
set to non-zero.
Note: this is always a strict subset of get_sub_interfaces()
"""
ret = []
for ifname in get_interfaces(yaml):
if not is_sub(yaml, ifname):
continue
encap = get_encapsulation(yaml, ifname)
if not encap:
continue
if encap["inner-dot1q"] > 0:
ret.append(ifname)
return ret
def is_qinx(yaml, ifname):
"""Returns True if the interface is a double-tagged (QinQ or QinAD) interface"""
return ifname in get_qinx_interfaces(yaml)
def unique_encapsulation(yaml, sub_ifname):
"""Ensures that for the sub_ifname specified, there exist no other sub-ints on the
parent with the same encapsulation."""
new_ifname, iface = get_by_name(yaml, sub_ifname)
parent_ifname, parent_iface = get_parent_by_name(yaml, new_ifname)
if not iface or not parent_iface:
return False
sub_encap = get_encapsulation(yaml, new_ifname)
if not sub_encap:
return False
ncount = 0
for subid, _sibling_iface in parent_iface["sub-interfaces"].items():
sibling_ifname = f"{parent_ifname}.{int(subid)}"
sibling_encap = get_encapsulation(yaml, sibling_ifname)
if sub_encap == sibling_encap and new_ifname != sibling_ifname:
ncount = ncount + 1
return ncount == 0
def is_l2(yaml, ifname):
"""Returns True if the interface is an L2XC source, L2XC target or a member of a bridgedomain"""
if bridgedomain.is_bridge_interface(yaml, ifname):
return True
if is_l2xc_interface(yaml, ifname):
return True
if is_l2xc_target_interface(yaml, ifname):
return True
return False
def is_l3(yaml, ifname):
"""Returns True if the interface exists and is neither l2xc target nor bridgedomain"""
return not is_l2(yaml, ifname)
def get_lcp(yaml, ifname):
"""Returns the LCP of the interface. If the interface is a sub-interface with L3
enabled, synthesize it based on its parent, using smart QinQ syntax.
Return None if no LCP can be found."""
ifname, iface = get_by_name(yaml, ifname)
if iface and "lcp" in iface:
return iface["lcp"]
return None
def get_mtu(yaml, ifname):
"""Returns MTU of the interface. If it's not set, return the parent's MTU, and
return 1500 if no MTU was set on the sub-int or the parent."""
ifname, iface = get_by_name(yaml, ifname)
if iface and "mtu" in iface:
return iface["mtu"]
_parent_ifname, parent_iface = get_parent_by_name(yaml, ifname)
if parent_iface and "mtu" in parent_iface:
return parent_iface["mtu"]
return 1500
def get_admin_state(yaml, ifname):
"""Return True if the interface admin state should be 'up'. Return False
if it does not exist, or if it's set to 'down'."""
ifname, iface = get_by_name(yaml, ifname)
if not iface:
return False
if not "state" in iface:
return True
return iface["state"] == "up"
def validate_interfaces(yaml):
result = True
msgs = []
logger = logging.getLogger("vppcfg.config")
logger.addHandler(logging.NullHandler())
if not "interfaces" in yaml:
return result, msgs
for ifname, iface in yaml["interfaces"].items():
logger.debug(f"interface {iface}")
if ifname.startswith("BondEthernet") and (
None,
None,
) == bondethernet.get_by_name(yaml, ifname):
msgs.append(f"interface {ifname} does not exist in bondethernets")
result = False
if ifname.startswith("BondEthernet") and "mac" in iface:
msgs.append(
f"interface {ifname} is a member of bondethernet, cannot set MAC"
)
result = False
if not "state" in iface:
iface["state"] = "up"
if "mac" in iface and mac.is_multicast(iface["mac"]):
msgs.append(
f"interface {ifname} MAC address {iface['mac']} cannot be multicast"
)
result = False
iface_mtu = get_mtu(yaml, ifname)
iface_lcp = get_lcp(yaml, ifname)
iface_address = has_address(yaml, ifname)
if ifname.startswith("tap"):
_tap_ifname, tap_iface = tap.get_by_name(yaml, ifname)
if not tap_iface:
msgs.append(f"interface {ifname} is a TAP but does not exist in taps")
result = False
elif "mtu" in tap_iface["host"]:
host_mtu = tap_iface["host"]["mtu"]
if host_mtu != iface_mtu:
msgs.append(
f"interface {ifname} is a TAP so its MTU {int(iface_mtu)} must match host MTU {int(host_mtu)}"
)
result = False
if iface_address:
msgs.append(f"interface {ifname} is a TAP so it cannot have an address")
result = False
if iface_lcp:
msgs.append(f"interface {ifname} is a TAP so it cannot have an LCP")
result = False
if has_sub(yaml, ifname):
msgs.append(
f"interface {ifname} is a TAP so it cannot have sub-interfaces"
)
result = False
if is_l2(yaml, ifname) and iface_lcp:
msgs.append(
f"interface {ifname} is in L2 mode but has LCP name {iface_lcp}"
)
result = False
if is_l2(yaml, ifname) and iface_address:
msgs.append(f"interface {ifname} is in L2 mode but has an address")
result = False
if iface_lcp and not lcp.is_unique(yaml, iface_lcp):
msgs.append(
f"interface {ifname} does not have a unique LCP name {iface_lcp}"
)
result = False
if "addresses" in iface:
for addr in iface["addresses"]:
if not address.is_allowed(yaml, ifname, iface["addresses"], addr):
msgs.append(
f"interface {ifname} IP address {addr} conflicts with another"
)
result = False
if "l2xc" in iface:
if has_sub(yaml, ifname):
msgs.append(
f"interface {ifname} has l2xc so it cannot have sub-interfaces"
)
result = False
if iface_lcp:
msgs.append(f"interface {ifname} has l2xc so it cannot have an LCP")
result = False
if iface_address:
msgs.append(f"interface {ifname} has l2xc so it cannot have an address")
result = False
if (None, None) == get_by_name(yaml, iface["l2xc"]):
msgs.append(
f"interface {ifname} l2xc target {iface['l2xc']} does not exist"
)
result = False
if iface["l2xc"] == ifname:
msgs.append(f"interface {ifname} l2xc target cannot be itself")
result = False
target_mtu = get_mtu(yaml, iface["l2xc"])
if target_mtu != iface_mtu:
msgs.append(
f"interface {ifname} l2xc target MTU {int(target_mtu)} does not match source MTU {int(iface_mtu)}"
)
result = False
if not is_l2xc_target_interface_unique(yaml, iface["l2xc"]):
msgs.append(
f"interface {ifname} l2xc target {iface['l2xc']} is not unique"
)
result = False
if bridgedomain.is_bridge_interface(yaml, iface["l2xc"]):
msgs.append(
f"interface {ifname} l2xc target {iface['l2xc']} is in a bridgedomain"
)
result = False
if has_lcp(yaml, iface["l2xc"]):
msgs.append(
f"interface {ifname} l2xc target {iface['l2xc']} cannot have an LCP"
)
result = False
if has_address(yaml, iface["l2xc"]):
msgs.append(
f"interface {ifname} l2xc target {iface['l2xc']} cannot have an address"
)
result = False
if has_sub(yaml, ifname):
for sub_id, sub_iface in yaml["interfaces"][ifname][
"sub-interfaces"
].items():
logger.debug(f"sub-interface {sub_iface}")
sub_ifname = f"{ifname}.{int(sub_id)}"
if not sub_iface:
msgs.append(f"sub-interface {sub_ifname} has no config")
result = False
continue
if not "state" in sub_iface:
sub_iface["state"] = "up"
if sub_iface["state"] == "up" and iface["state"] == "down":
msgs.append(
f"sub-interface {sub_ifname} cannot be up if parent {ifname} is down"
)
result = False
sub_mtu = get_mtu(yaml, sub_ifname)
if sub_mtu > iface_mtu:
msgs.append(
f"sub-interface {sub_ifname} has MTU {int(sub_iface['mtu'])} higher than parent {ifname} MTU {int(iface_mtu)}"
)
result = False
if is_qinx(yaml, sub_ifname):
mid_ifname, mid_iface = get_qinx_parent_by_name(yaml, sub_ifname)
mid_mtu = get_mtu(yaml, mid_ifname)
if sub_mtu > mid_mtu:
msgs.append(
f"sub-interface {sub_ifname} has MTU {int(sub_iface['mtu'])} higher than parent {mid_ifname} MTU {int(mid_mtu)}"
)
result = False
sub_lcp = get_lcp(yaml, sub_ifname)
if is_l2(yaml, sub_ifname) and sub_lcp:
msgs.append(
f"sub-interface {sub_ifname} is in L2 mode but has LCP name {sub_lcp}"
)
result = False
if sub_lcp and not lcp.is_unique(yaml, sub_lcp):
msgs.append(
f"sub-interface {sub_ifname} does not have a unique LCP name {sub_lcp}"
)
result = False
if sub_lcp and not iface_lcp:
msgs.append(
f"sub-interface {sub_ifname} has LCP name {sub_lcp} but {ifname} does not have an LCP"
)
result = False
if sub_lcp and is_qinx(yaml, sub_ifname):
mid_ifname, mid_iface = get_qinx_parent_by_name(yaml, sub_ifname)
if not mid_iface:
msgs.append(
f"sub-interface {sub_ifname} is QinX and has LCP name {sub_lcp} which requires a parent"
)
result = False
elif not get_lcp(yaml, mid_ifname):
msgs.append(
f"sub-interface {sub_ifname} is QinX and has LCP name {sub_lcp} but {mid_ifname} does not have an LCP"
)
result = False
encap = get_encapsulation(yaml, sub_ifname)
if sub_lcp and (not encap or not encap["exact-match"]):
msgs.append(
f"sub-interface {sub_ifname} has LCP name {sub_lcp} but its encapsulation is not exact-match"
)
result = False
if has_address(yaml, sub_ifname):
if not encap or not encap["exact-match"]:
msgs.append(
f"sub-interface {sub_ifname} has an address but its encapsulation is not exact-match"
)
result = False
if is_l2(yaml, sub_ifname):
msgs.append(
f"sub-interface {sub_ifname} is in L2 mode but has an address"
)
result = False
for addr in sub_iface["addresses"]:
if not address.is_allowed(
yaml, sub_ifname, sub_iface["addresses"], addr
):
msgs.append(
f"sub-interface {sub_ifname} IP address {addr} conflicts with another"
)
result = False
if not valid_encapsulation(yaml, sub_ifname):
msgs.append(f"sub-interface {sub_ifname} has invalid encapsulation")
result = False
elif not unique_encapsulation(yaml, sub_ifname):
msgs.append(
f"sub-interface {sub_ifname} does not have unique encapsulation"
)
result = False
if "l2xc" in sub_iface:
if has_lcp(yaml, sub_ifname):
msgs.append(
f"sub-interface {sub_ifname} has l2xc so it cannot have an LCP"
)
result = False
if has_address(yaml, sub_ifname):
msgs.append(
f"sub-interface {sub_ifname} has l2xc so it cannot have an address"
)
result = False
if (None, None) == get_by_name(yaml, sub_iface["l2xc"]):
msgs.append(
f"sub-interface {sub_ifname} l2xc target {sub_iface['l2xc']} does not exist"
)
result = False
if sub_iface["l2xc"] == sub_ifname:
msgs.append(
f"sub-interface {sub_ifname} l2xc target cannot be itself"
)
result = False
target_mtu = get_mtu(yaml, sub_iface["l2xc"])
if target_mtu != sub_mtu:
msgs.append(
f"sub-interface {ifname} l2xc target MTU {int(target_mtu)} does not match source MTU {int(sub_mtu)}"
)
result = False
if not is_l2xc_target_interface_unique(yaml, sub_iface["l2xc"]):
msgs.append(
f"sub-interface {sub_ifname} l2xc target {sub_iface['l2xc']} is not unique"
)
result = False
if bridgedomain.is_bridge_interface(yaml, sub_iface["l2xc"]):
msgs.append(
f"sub-interface {sub_ifname} l2xc target {sub_iface['l2xc']} is in a bridgedomain"
)
result = False
if has_lcp(yaml, sub_iface["l2xc"]):
msgs.append(
f"sub-interface {sub_ifname} l2xc target {sub_iface['l2xc']} cannot have an LCP"
)
result = False
if has_address(yaml, sub_iface["l2xc"]):
msgs.append(
f"sub-interface {sub_ifname} l2xc target {sub_iface['l2xc']} cannot have an address"
)
result = False
return result, msgs
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