ironic-inspector/ironic_inspector/common/lldp_tlvs.py
Harald Jensås 868965c340 Fix pycodestyle warnings/errors now visible with hacking 1.1.0
This fixes the warning/errors except for the C901 Function is
too complex in the ironic_inspector/rules.py's create method.

Bump's max-complexity to 18 in tox.ini to workaround the C901.

Story: 2001985
Task: 19604
Change-Id: I6c76a43353b1beb572dbde78dba4b4a839d45ea7
2018-05-08 23:46:05 +02:00

368 lines
10 KiB
Python

# 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.
""" Link Layer Discovery Protocol TLVs """
import functools
# See http://construct.readthedocs.io/en/latest/index.html
import construct
from construct import core
import netaddr
from ironic_inspector import utils
LOG = utils.getProcessingLogger(__name__)
# Constants defined according to 802.1AB-2016 LLDP spec
# https://standards.ieee.org/findstds/standard/802.1AB-2016.html
# TLV types
LLDP_TLV_END_LLDPPDU = 0
LLDP_TLV_CHASSIS_ID = 1
LLDP_TLV_PORT_ID = 2
LLDP_TLV_TTL = 3
LLDP_TLV_PORT_DESCRIPTION = 4
LLDP_TLV_SYS_NAME = 5
LLDP_TLV_SYS_DESCRIPTION = 6
LLDP_TLV_SYS_CAPABILITIES = 7
LLDP_TLV_MGMT_ADDRESS = 8
LLDP_TLV_ORG_SPECIFIC = 127
# 802.1Q defines from http://www.ieee802.org/1/pages/802.1Q-2014.html, Annex D
LLDP_802dot1_OUI = "0080c2"
# subtypes
dot1_PORT_VLANID = 1
dot1_PORT_PROTOCOL_VLANID = 2
dot1_VLAN_NAME = 3
dot1_PROTOCOL_IDENTITY = 4
dot1_MANAGEMENT_VID = 6
dot1_LINK_AGGREGATION = 7
# 802.3 defines from http://standards.ieee.org/about/get/802/802.3.html,
# section 79
LLDP_802dot3_OUI = "00120f"
# Subtypes
dot3_MACPHY_CONFIG_STATUS = 1
dot3_LINK_AGGREGATION = 3 # Deprecated, but still in use
dot3_MTU = 4
def bytes_to_int(obj):
"""Convert bytes to an integer
:param: obj - array of bytes
"""
return functools.reduce(lambda x, y: x << 8 | y, obj)
def mapping_for_enum(mapping):
"""Return tuple used for keys as a dict
:param: mapping - dict with tuple as keys
"""
return dict(mapping.keys())
def mapping_for_switch(mapping):
"""Return dict from values
:param: mapping - dict with tuple as keys
"""
return {key[0]: value for key, value in mapping.items()}
IPv4Address = core.ExprAdapter(
core.Byte[4],
encoder=lambda obj, ctx: netaddr.IPAddress(obj).words,
decoder=lambda obj, ctx: str(netaddr.IPAddress(bytes_to_int(obj)))
)
IPv6Address = core.ExprAdapter(
core.Byte[16],
encoder=lambda obj, ctx: netaddr.IPAddress(obj).words,
decoder=lambda obj, ctx: str(netaddr.IPAddress(bytes_to_int(obj)))
)
MACAddress = core.ExprAdapter(
core.Byte[6],
encoder=lambda obj, ctx: netaddr.EUI(obj).words,
decoder=lambda obj, ctx: str(netaddr.EUI(bytes_to_int(obj),
dialect=netaddr.mac_unix_expanded))
)
IANA_ADDRESS_FAMILY_ID_MAPPING = {
('ipv4', 1): IPv4Address,
('ipv6', 2): IPv6Address,
('mac', 6): MACAddress,
}
IANAAddress = core.Embedded(core.Struct(
'family' / core.Enum(core.Int8ub, **mapping_for_enum(
IANA_ADDRESS_FAMILY_ID_MAPPING)),
'value' / core.Switch(construct.this.family, mapping_for_switch(
IANA_ADDRESS_FAMILY_ID_MAPPING))))
# Note that 'GreedyString()' is used in cases where string len is not defined
CHASSIS_ID_MAPPING = {
('entPhysAlias_c', 1): core.Struct('value' / core.GreedyString("utf8")),
('ifAlias', 2): core.Struct('value' / core.GreedyString("utf8")),
('entPhysAlias_p', 3): core.Struct('value' / core.GreedyString("utf8")),
('mac_address', 4): core.Struct('value' / MACAddress),
('IANA_address', 5): IANAAddress,
('ifName', 6): core.Struct('value' / core.GreedyString("utf8")),
('local', 7): core.Struct('value' / core.GreedyString("utf8"))
}
#
# Basic Management Set TLV field definitions
#
# Chassis ID value is based on the subtype
ChassisId = core.Struct(
'subtype' / core.Enum(core.Byte, **mapping_for_enum(
CHASSIS_ID_MAPPING)),
'value' /
core.Embedded(core.Switch(construct.this.subtype,
mapping_for_switch(CHASSIS_ID_MAPPING)))
)
PORT_ID_MAPPING = {
('ifAlias', 1): core.Struct('value' / core.GreedyString("utf8")),
('entPhysicalAlias', 2): core.Struct('value' / core.GreedyString("utf8")),
('mac_address', 3): core.Struct('value' / MACAddress),
('IANA_address', 4): IANAAddress,
('ifName', 5): core.Struct('value' / core.GreedyString("utf8")),
('local', 7): core.Struct('value' / core.GreedyString("utf8"))
}
# Port ID value is based on the subtype
PortId = core.Struct(
'subtype' / core.Enum(core.Byte, **mapping_for_enum(
PORT_ID_MAPPING)),
'value' /
core.Embedded(core.Switch(construct.this.subtype,
mapping_for_switch(PORT_ID_MAPPING)))
)
PortDesc = core.Struct('value' / core.GreedyString("utf8"))
SysName = core.Struct('value' / core.GreedyString("utf8"))
SysDesc = core.Struct('value' / core.GreedyString("utf8"))
MgmtAddress = core.Struct(
'len' / core.Int8ub,
'family' / core.Enum(core.Int8ub, **mapping_for_enum(
IANA_ADDRESS_FAMILY_ID_MAPPING)),
'address' / core.Switch(construct.this.family, mapping_for_switch(
IANA_ADDRESS_FAMILY_ID_MAPPING))
)
Capabilities = core.BitStruct(
core.Padding(5),
'tpmr' / core.Bit,
'svlan' / core.Bit,
'cvlan' / core.Bit,
'station' / core.Bit,
'docsis' / core.Bit,
'telephone' / core.Bit,
'router' / core.Bit,
'wlan' / core.Bit,
'bridge' / core.Bit,
'repeater' / core.Bit,
core.Padding(1)
)
SysCapabilities = core.Struct(
'system' / Capabilities,
'enabled' / Capabilities
)
OrgSpecific = core.Struct(
'oui' / core.Bytes(3),
'subtype' / core.Int8ub
)
#
# 802.1Q TLV field definitions
# See http://www.ieee802.org/1/pages/802.1Q-2014.html, Annex D
#
Dot1_UntaggedVlanId = core.Struct('value' / core.Int16ub)
Dot1_PortProtocolVlan = core.Struct(
'flags' / core.BitStruct(
core.Padding(5),
'enabled' / core.Flag,
'supported' / core.Flag,
core.Padding(1),
),
'vlanid' / core.Int16ub
)
Dot1_VlanName = core.Struct(
'vlanid' / core.Int16ub,
'name_len' / core.Rebuild(core.Int8ub,
construct.len_(construct.this.value)),
'vlan_name' / core.String(construct.this.name_len, "utf8")
)
Dot1_ProtocolIdentity = core.Struct(
'len' / core.Rebuild(core.Int8ub, construct.len_(construct.this.value)),
'protocol' / core.Bytes(construct.this.len)
)
Dot1_MgmtVlanId = core.Struct('value' / core.Int16ub)
Dot1_LinkAggregationId = core.Struct(
'status' / core.BitStruct(
core.Padding(6),
'enabled' / core.Flag,
'supported' / core.Flag
),
'portid' / core.Int32ub
)
#
# 802.3 TLV field definitions
# See http://standards.ieee.org/about/get/802/802.3.html,
# section 79
#
def get_autoneg_cap(pmd):
"""Get autonegotiated capability strings
This returns a list of capability strings from the Physical Media
Dependent (PMD) capability bits.
:param pmd: PMD bits
:return: Sorted ist containing capability strings
"""
caps_set = set()
pmd_map = [
(pmd._10base_t_hdx, '10BASE-T hdx'),
(pmd._10base_t_hdx, '10BASE-T fdx'),
(pmd._10base_t4, '10BASE-T4'),
(pmd._100base_tx_hdx, '100BASE-TX hdx'),
(pmd._100base_tx_fdx, '100BASE-TX fdx'),
(pmd._100base_t2_hdx, '100BASE-T2 hdx'),
(pmd._100base_t2_fdx, '100BASE-T2 fdx'),
(pmd.pause_fdx, 'PAUSE fdx'),
(pmd.asym_pause, 'Asym PAUSE fdx'),
(pmd.sym_pause, 'Sym PAUSE fdx'),
(pmd.asym_sym_pause, 'Asym and Sym PAUSE fdx'),
(pmd._1000base_x_hdx, '1000BASE-X hdx'),
(pmd._1000base_x_fdx, '1000BASE-X fdx'),
(pmd._1000base_t_hdx, '1000BASE-T hdx'),
(pmd._1000base_t_fdx, '1000BASE-T fdx')]
for bit, cap in pmd_map:
if bit:
caps_set.add(cap)
return sorted(caps_set)
Dot3_MACPhy_Config_Status = core.Struct(
'autoneg' / core.BitStruct(
core.Padding(6),
'enabled' / core.Flag,
'supported' / core.Flag,
),
# See IANAifMauAutoNegCapBits
# RFC 4836, Definitions of Managed Objects for IEEE 802.3
'pmd_autoneg' / core.BitStruct(
core.Padding(1),
'_10base_t_hdx' / core.Bit,
'_10base_t_fdx' / core.Bit,
'_10base_t4' / core.Bit,
'_100base_tx_hdx' / core.Bit,
'_100base_tx_fdx' / core.Bit,
'_100base_t2_hdx' / core.Bit,
'_100base_t2_fdx' / core.Bit,
'pause_fdx' / core.Bit,
'asym_pause' / core.Bit,
'sym_pause' / core.Bit,
'asym_sym_pause' / core.Bit,
'_1000base_x_hdx' / core.Bit,
'_1000base_x_fdx' / core.Bit,
'_1000base_t_hdx' / core.Bit,
'_1000base_t_fdx' / core.Bit
),
'mau_type' / core.Int16ub
)
# See ifMauTypeList in
# RFC 4836, Definitions of Managed Objects for IEEE 802.3
OPER_MAU_TYPES = {
0: "Unknown",
1: "AUI",
2: "10BASE-5",
3: "FOIRL",
4: "10BASE-2",
5: "10BASE-T duplex mode unknown",
6: "10BASE-FP",
7: "10BASE-FB",
8: "10BASE-FL duplex mode unknown",
9: "10BROAD36",
10: "10BASE-T half duplex",
11: "10BASE-T full duplex",
12: "10BASE-FL half duplex",
13: "10BASE-FL full duplex",
14: "100 BASE-T4",
15: "100BASE-TX half duplex",
16: "100BASE-TX full duplex",
17: "100BASE-FX half duplex",
18: "100BASE-FX full duplex",
19: "100BASE-T2 half duplex",
20: "100BASE-T2 full duplex",
21: "1000BASE-X half duplex",
22: "1000BASE-X full duplex",
23: "1000BASE-LX half duplex",
24: "1000BASE-LX full duplex",
25: "1000BASE-SX half duplex",
26: "1000BASE-SX full duplex",
27: "1000BASE-CX half duplex",
28: "1000BASE-CX full duplex",
29: "1000BASE-T half duplex",
30: "1000BASE-T full duplex",
31: "10GBASE-X",
32: "10GBASE-LX4",
33: "10GBASE-R",
34: "10GBASE-ER",
35: "10GBASE-LR",
36: "10GBASE-SR",
37: "10GBASE-W",
38: "10GBASE-EW",
39: "10GBASE-LW",
40: "10GBASE-SW",
41: "10GBASE-CX4",
42: "2BASE-TL",
43: "10PASS-TS",
44: "100BASE-BX10D",
45: "100BASE-BX10U",
46: "100BASE-LX10",
47: "1000BASE-BX10D",
48: "1000BASE-BX10U",
49: "1000BASE-LX10",
50: "1000BASE-PX10D",
51: "1000BASE-PX10U",
52: "1000BASE-PX20D",
53: "1000BASE-PX20U",
}
Dot3_MTU = core.Struct('value' / core.Int16ub)