cisco-config-parser 2.1

This Package Will Parse Cisco IOS, IOS-XE, IOS-XR and NXOS Configuration File.

Cisco Configuration Parser

This Package Will Parse Cisco IOS, IOS-XE, IOS-XR, and NXOS Configuration File.

New Version 2.0

1. Layer3 Interfaces:

• added interface details - returns dict of all layer3 interfaces
• methods are unified
• platform agnostic
• able to set custom regex and create dynamic method

• Example:

from cisco_config_parser import ConfigParser

l3_intf = ConfigParser(res)
l3 = l3_intf.get_l3_interfaces(ip_pim="ip pim *",  ospf="ip ospf.*")

for i in l3:
    print(i.name)
    print(i.ip_pim)
    print(i.ospf)

Output:

Loopback100
ip pim sparse-mode
ip ospf 100 area 0
!
Loopback200
ip pim sparse-mode
None
!

1. Layer2 Interfaces:

Issue: there are some Layer2 interfaces that by default dont have any configurations on them, and config_parser will only be able to determine the l2 or l3 if there are certain keywords in the config.

---

---

Old Version < 2.0

There are two ways to parse the config, 1, SSH which is not recommended, and 2, feeding the running-config file

• to use file, use ConfigParser(method="file", content=<your_file>, json=True/False).
• to use SSH:

from cisco_config_parser import ConfigParserOld



ConfigParserOld(
    method="int_ssh",
    ssh=True, 
    user="username", 
    password="password", 
    device_type="cisco_ios", 
    host="your_switch_ip",
    )

device types that are accepted are:

cisco_ios
cisco_xe
cisco_xr
cisco_nxos

pass the kwargs then it will login to your device and does the show running-config and will parse it.

if you select json=True then the object will return the result in json format. else, it would return as list of objects.

Install the package

https://pypi.org/project/cisco-config-parser/

pip install cisco-config-parser

Regex Search Strings:

• to find lines in the configuration starting with "router"

parse.find_parent_child("^router")

• to parse all confuguration into parent and child format

parse.find_parent_child("^.")

• to find lines in the configuration that has "Loopback" in them

parse.find_parent_child("^.*Loopback")

Examples:

• Parsing NXOS Config For All the Related VLAN Info.

>>> nxos_parser = ConfigParserOld(method="file", content=file1)
>>> vlan_info = nxos_parser.nxos_get_vlan_info()
>>> vlan_info.vlan = "2626"
>>> print(vlan_info.vlan)
:return:
!
vlan 2626
  name GRN200_nonPROD_APP_01
  vn-segment 2002626
!
interface Vlan2626
  description grn200 nonPROD App Servers 01
  no shutdown
  mtu 9216
  vrf member GRN200
  no ip redirects
  ip address 10.147.148.1/24
  no ipv6 redirects
  fabric forwarding mode anycast-gateway
!
int nve1
  member vni 2002626
    suppress-arp
    ingress-replication protocol bgp
!
evpn
  vni 2002626 l2
    rd auto
    route-target import auto
    route-target export aut

• Getting Routed Ports

from cisco_config_parser import ConfigParserOld

my_file = "running-config.txt"

parser = ConfigParserOld(method="file", content=my_file)

obj = parser.ios_get_routed_port()

for i in obj:
    print(i.intf)
    print(i.ip_add, i.mask)
    print(i.subnet)
    print(i.description)
    print(i.vrf)
    print(i.description)
    print(i.state)
    print("!")

output:

interface TenGigE0/3/0/29.3240
10.10.1.1 255.255.255.248
10.10.1.0/29
 description Connected to device_A
 vrf vrf_A
 no shutdown
!
interface TenGigE0/3/0/29.3340
10.244.10.1 255.255.255.252
10.244.10.0/30
 description Connected to device_A
 vrf vrf_B
 no shutdown

• Getting Switchport: there are two different mode on switchport, access and trunk. you should specify the mode mode=trunk or mode=access. this way you will be able to access all the access-ports or trunk-ports by accessing the methods (get_access or get_trunk)

from cisco_config_parser import ConfigParserOld

my_file = "switch01_run_config.txt"

parser = ConfigParserOld(method="file", content=my_file)

obj = parser.ios_get_switchport(mode="access")

for i in obj:
    print(i.port)
    print(i.vlan)
    print(i.voice)
    print(i.description)
    print("!")

for i in obj:
    print(i.get_access)

output:

  
interface GigabitEthernet10/38
Access Port
Vlan  200
Voice  vlan 700
 description ent-user
!
interface GigabitEthernet10/38
Access Port
Vlan  200
Voice  vlan 700
 description ent-user

• Finding Routing Protocol

    from cisco_config_parser import ConfigParserOld
    
    
    my_file = "switch01_running_config.txt"
    parse = ConfigParserOld(method="file", content=my_file)
    
    
    obj_list = parse.find_parent_child("^router")
    for i in obj_list:
        print(i.parent)
        for child_obj in i.child:
            print(child_obj)
 

Output:

router eigrp 252
!
address-family ipv4 vrf vrf_A autonomous-system 252
 network 10.10.10.0 0.0.0.63
 passive-interface default
 no passive-interface Vlan3123
 no passive-interface Vlan3124
 eigrp stub connected summary
exit-address-family
!
address-family ipv4 vrf vrf_B autonomous-system 252
 network 10.20.10.0 0.0.0.3
 network 10.20.11.0 0.0.0.3
 passive-interface default
 no passive-interface Vlan3223
 no passive-interface Vlan3224
 eigrp stub connected summary
exit-address-family
!

• Finding Interface and Helper address Example

    from cisco_config_parser import ConfigParserOld


    my_file = "switch01_running_config.txt"
    parse = ConfigParserOld(method="file", content=my_file)
    obj_list = parse.find_parent_child("^interface")

    for i in obj_list:
        vlan_200 = re.search("Vlan200", i.parent)
        if vlan_200:
            print(i.parent)
            for c_obj in i.child:
                if str(c_obj).startswith(" ip helper"):
                    print(str(c_obj))

Output:

interface Vlan200
 ip helper-address 192.168.1.10
 ip helper-address 172.31.10.10

• Finding SVI in the config with all its child configuration

from cisco_config_parser import ConfigParserOld



my_file = "switch_01-run_config.txt"
parser = ConfigParserOld(method="file", content=my_file)

res = parser.ios_get_svi_objects()

for i in res:
    if "lan200" in i.intf:
        print(i.intf)
        print(i.ip_add)
        print(i.description)
        print(i.vrf)
        print(i.state)
        print(i.helper)
        print("!")

output:

interface Vlan200
 ip address 10.20.80.1 255.255.254.0
 description USER VLAN-
 ip vrf forwarding vrf_A
 no shutdown
[' ip helper-address 10.10.1.10 ', ' ip helper-address 10.20.1.10']
!