Parsing semi-structured text with Ansible¶
The cli_parse module parses semi-structured data such as network configurations into structured data to allow programmatic use of the data from that device. You can pull information from a network device and update a CMDB in one playbook. Use cases include automated troubleshooting, creating dynamic documentation, updating IPAM (IP address management) tools and so on.
Understanding the CLI parser¶
The ansible.netcommon collection version 1.2.0 or later includes the cli_parse module that can run CLI commands and parse the semi-structured text output. You can use the cli_parse
module on a device, host, or platform that only supports a command-line interface and the commands issued return semi-structured text. The cli_parse
module can either run a CLI command on a device and return a parsed result or can simply parse any text document. The cli_parse
module includes cli_parser plugins to interface with a variety of parsing engines.
Why parse the text?¶
Parsing semi-structured data such as network configurations into structured data allows programmatic use of the data from that device. Use cases include automated troubleshooting, creating dynamic documentation, updating IPAM (IP address management) tools and so on. You may prefer to do this with Ansible natively to take advantage of native Ansible constructs such as:
- The
when
clause to conditionally run other tasks or roles - The
assert
module to check configuration and operational state compliance - The
template
module to generate reports about configuration and operational state information - Templates and
command
orconfig
modules to generate host, device, or platform commands or configuration - The current platform
facts
modules to supplement native facts information
By parsing semi-structured text into Ansible native data structures, you can take full advantage of Ansible’s network modules and plugins.
When not to parse the text¶
You should not parse semi-structured text when:
- The device, host, or platform has a RESTAPI and returns JSON.
- Existing Ansible facts modules already return the desired data.
- Ansible network resource modules exist for configuration management of the device and resource.
Parsing the CLI¶
The cli_parse
module includes the following cli_parsing plugins:
native
- The native parsing engine built into Ansible and requires no addition python libraries
xml
- Convert XML to an Ansible native data structure
textfsm
- A python module which implements a template based state machine for parsing semi-formatted text
ntc_templates
- Predefined
textfsm
templates packages supporting a variety of platforms and commands ttp
- A library for semi-structured text parsing using templates, with added capabilities to simplify the process
pyats
- Uses the parsers included with the Cisco Test Automation & Validation Solution
json
- Converts JSON output at the CLI to an Ansible native data structure
Although Ansible contains a number of plugins that can convert XML to Ansible native data structures, the``cli_parse`` module runs the command on devices that return XML and returns the converted data in a single task.
Because cli_parse
uses a plugin based architecture, it can use additional parsing engines from any Ansible collection.
Note
The ansible.netcommon.native
and ansible.netcommon.json
parsing engines are fully supported with a Red Hat Ansible Automation Platform subscription. Red Hat Ansible Automation Platform subscription support is limited to the use of the ntc_templates
, pyATS, textfsm
, xmltodict
, public APIs as documented.
Parsing with the native parsing engine¶
The native parsing engine is included with the cli_parse
module. It uses data captured using regular expressions to populate the parsed data structure. The native parsing engine requires a YAML template file to parse the command output.
Networking example¶
This example uses the output of a network device command and applies a native template to produce an output in Ansible structured data format.
The show interface
command output from the network device looks as follows:
Ethernet1/1 is up
admin state is up, Dedicated Interface
Hardware: 100/1000/10000 Ethernet, address: 5254.005a.f8bd (bia 5254.005a.f8bd)
MTU 1500 bytes, BW 1000000 Kbit, DLY 10 usec
reliability 255/255, txload 1/255, rxload 1/255
Encapsulation ARPA, medium is broadcast
Port mode is access
full-duplex, auto-speed
Beacon is turned off
Auto-Negotiation is turned on FEC mode is Auto
Input flow-control is off, output flow-control is off
Auto-mdix is turned off
Switchport monitor is off
EtherType is 0x8100
EEE (efficient-ethernet) : n/a
Last link flapped 4week(s) 6day(s)
Last clearing of "show interface" counters never
<...>
Create the native template to match this output and store it as templates/nxos_show_interface.yaml
:
---
- example: Ethernet1/1 is up
getval: '(?P<name>\S+) is (?P<oper_state>\S+)'
result:
"{{ name }}":
name: "{{ name }}"
state:
operating: "{{ oper_state }}"
shared: true
- example: admin state is up, Dedicated Interface
getval: 'admin state is (?P<admin_state>\S+),'
result:
"{{ name }}":
name: "{{ name }}"
state:
admin: "{{ admin_state }}"
- example: " Hardware: Ethernet, address: 5254.005a.f8b5 (bia 5254.005a.f8b5)"
getval: '\s+Hardware: (?P<hardware>.*), address: (?P<mac>\S+)'
result:
"{{ name }}":
hardware: "{{ hardware }}"
mac_address: "{{ mac }}"
This native parser template is structured as a list of parsers, each containing the following key-value pairs:
example
- An example line of the text line to be parsedgetval
- A regular expression using named capture groups to store the extracted dataresult
- A data tree, populated as a template, from the parsed datashared
- (optional) The shared key makes the parsed values available to the rest of the parser entries until matched again.
The following example task uses cli_parse
with the native parser and the example template above to parse the show interface
command from a Cisco NXOS device:
- name: "Run command and parse with native"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.native
set_fact: interfaces
Taking a deeper dive into this task:
- The
command
option provides the command you want to run on the device or host. Alternately, you can provide text from a previous command with thetext
option instead. - The
parser
option provides information specific to the parser engine. - The
name
suboption provides the fully qualified collection name (FQCN) of the parsing engine (ansible.netcommon.native
). - The
cli_parse
module, by default, looks for the template in the templates directory as{{ short_os }}_{{ command }}.yaml
.- The
short_os
in the template filename is derived from either the hostansible_network_os
oransible_distribution
. - Spaces in the network or host command are replace with
_
in thecommand
portion of the template filename. In this example, theshow interfaces
network CLI command becomesshow_interfaces
in the filename.
- The
Note
ansible.netcommon.native
parsing engine is fully supported with a Red Hat Ansible Automation Platform subscription.
Lastly in this task, the set_fact
option sets the following interfaces
fact for the device based on the now-structured data returned from cli_parse
:
Ethernet1/1:
hardware: 100/1000/10000 Ethernet
mac_address: 5254.005a.f8bd
name: Ethernet1/1
state:
admin: up
operating: up
Ethernet1/10:
hardware: 100/1000/10000 Ethernet
mac_address: 5254.005a.f8c6
<...>
Linux example¶
You can also use the native parser to run commands and parse output from Linux hosts.
The output of a sample Linux command (ip addr show
) looks as follows:
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: enp0s31f6: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc fq_codel state DOWN group default qlen 1000
link/ether x2:6a:64:9d:84:19 brd ff:ff:ff:ff:ff:ff
3: wlp2s0: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN group default qlen 1000
link/ether x6:c2:44:f7:41:e0 brd ff:ff:ff:ff:ff:ff permaddr d8:f2:ca:99:5c:82
Create the native template to match this output and store it as templates/fedora_ip_addr_show.yaml
:
---
- example: '1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000'
getval: |
(?x) # free-spacing
\d+:\s # the interface index
(?P<name>\S+):\s # the name
<(?P<properties>\S+)> # the properties
\smtu\s(?P<mtu>\d+) # the mtu
.* # gunk
state\s(?P<state>\S+) # the state of the interface
result:
"{{ name }}":
name: "{{ name }}"
loopback: "{{ 'LOOPBACK' in stats.split(',') }}"
up: "{{ 'UP' in properties.split(',') }}"
carrier: "{{ not 'NO-CARRIER' in properties.split(',') }}"
broadcast: "{{ 'BROADCAST' in properties.split(',') }}"
multicast: "{{ 'MULTICAST' in properties.split(',') }}"
state: "{{ state|lower() }}"
mtu: "{{ mtu }}"
shared: True
- example: 'inet 192.168.122.1/24 brd 192.168.122.255 scope global virbr0'
getval: |
(?x) # free-spacing
\s+inet\s(?P<inet>([0-9]{1,3}\.){3}[0-9]{1,3}) # the ip address
/(?P<bits>\d{1,2}) # the mask bits
result:
"{{ name }}":
ip_address: "{{ inet }}"
mask_bits: "{{ bits }}"
Note
The shared
key in the parser template allows the interface name to be used in subsequent parser entries. The use of examples and free-spacing mode with the regular expressions makes the template easier to read.
The following example task uses cli_parse
with the native parser and the example template above to parse the Linux output:
- name: Run command and parse
ansible.netcommon.cli_parse:
command: ip addr show
parser:
name: ansible.netcommon.native
set_fact: interfaces
This task assumes you previously gathered facts to determine the ansible_distribution
needed to locate the template. Alternately, you could provide the path in the parser/template_path
option.
Lastly in this task, the set_fact
option sets the following interfaces
fact for the host, based on the now-structured data returned from cli_parse
:
lo:
broadcast: false
carrier: true
ip_address: 127.0.0.1
mask_bits: 8
mtu: 65536
multicast: false
name: lo
state: unknown
up: true
enp64s0u1:
broadcast: true
carrier: true
ip_address: 192.168.86.83
mask_bits: 24
mtu: 1500
multicast: true
name: enp64s0u1
state: up
up: true
<...>
Parsing JSON¶
Although Ansible will natively convert serialized JSON to Ansible native data when recognized, you can also use the cli_parse
module for this conversion.
Example task:
- name: "Run command and parse as json"
ansible.netcommon.cli_parse:
command: show interface | json
parser:
name: ansible.netcommon.json
register: interfaces
Taking a deeper dive into this task:
- The
show interface | json
command is issued on the device. - The output is set as the
interfaces
fact for the device. - JSON support is provided primarily for playbook consistency.
Note
The use of ansible.netcommon.json
is fully supported with a Red Hat Ansible Automation Platform subscription
Parsing with ntc_templates¶
The ntc_templates
python library includes pre-defined textfsm
templates for parsing a variety of network device commands output.
Example task:
- name: "Run command and parse with ntc_templates"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.ntc_templates
set_fact: interfaces
Taking a deeper dive into this task:
- The
ansible_network_os
of the device is converted to the ntc_template formatcisco_nxos
. Alternately, you can provide theos
with theparser/os
option instead. - The
cisco_nxos_show_interface.textfsm
template, included with thentc_templates
package, parses the output. - See the ntc_templates README for additional information about the
ntc_templates
python library.
Note
Red Hat Ansible Automation Platform subscription support is limited to the use of the ntc_templates
public APIs as documented.
This task and and the predefined template sets the following fact as the interfaces
fact for the host:
interfaces:
- address: 5254.005a.f8b5
admin_state: up
bandwidth: 1000000 Kbit
bia: 5254.005a.f8b5
delay: 10 usec
description: ''
duplex: full-duplex
encapsulation: ARPA
hardware_type: Ethernet
input_errors: ''
input_packets: ''
interface: mgmt0
ip_address: 192.168.101.14/24
last_link_flapped: ''
link_status: up
mode: ''
mtu: '1500'
output_errors: ''
output_packets: ''
speed: 1000 Mb/s
- address: 5254.005a.f8bd
admin_state: up
bandwidth: 1000000 Kbit
bia: 5254.005a.f8bd
delay: 10 usec
Parsing with pyATS¶
pyATS
is part of the Cisco Test Automation & Validation Solution. It includes many predefined parsers for a number of network platforms and commands. You can use the predefined parsers that are part of the pyATS
package with the cli_parse
module.
Example task:
- name: "Run command and parse with pyats"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.pyats
set_fact: interfaces
Taking a deeper dive into this task:
- The
cli_parse
modules converts theansible_network_os
automatically (in this example,ansible_network_os
set tocisco.nxos.nxos
, converts tonxos
for pyATS. Alternately, you can set the OS with theparser/os
option instead. - Using a combination of the command and OS, the pyATS selects the following parser: https://pubhub.devnetcloud.com/media/genie-feature-browser/docs/#/parsers/show%2520interface.
- The
cli_parse
module setscisco.ios.ios
toiosxe
for pyATS. You can override this with theparser/os
option. cli_parse
only uses the predefined parsers in pyATS. See the pyATS documentation and the full list of pyATS included parsers.
Note
Red Hat Ansible Automation Platform subscription support is limited to the use of the pyATS public APIs as documented.
This task sets the following fact as the interfaces
fact for the host:
mgmt0:
admin_state: up
auto_mdix: 'off'
auto_negotiate: true
bandwidth: 1000000
counters:
in_broadcast_pkts: 3
in_multicast_pkts: 1652395
in_octets: 556155103
in_pkts: 2236713
in_unicast_pkts: 584259
rate:
in_rate: 320
in_rate_pkts: 0
load_interval: 1
out_rate: 48
out_rate_pkts: 0
rx: true
tx: true
delay: 10
duplex_mode: full
enabled: true
encapsulations:
encapsulation: arpa
ethertype: '0x0000'
ipv4:
192.168.101.14/24:
ip: 192.168.101.14
prefix_length: '24'
link_state: up
<...>
Parsing with textfsm¶
textfsm
is a Python module which implements a template-based state machine for parsing semi-formatted text.
The following sample``textfsm`` template is stored as templates/nxos_show_interface.textfsm
Value Required INTERFACE (\S+)
Value LINK_STATUS (.+?)
Value ADMIN_STATE (.+?)
Value HARDWARE_TYPE (.\*)
Value ADDRESS ([a-zA-Z0-9]+.[a-zA-Z0-9]+.[a-zA-Z0-9]+)
Value BIA ([a-zA-Z0-9]+.[a-zA-Z0-9]+.[a-zA-Z0-9]+)
Value DESCRIPTION (.\*)
Value IP_ADDRESS (\d+\.\d+\.\d+\.\d+\/\d+)
Value MTU (\d+)
Value MODE (\S+)
Value DUPLEX (.+duplex?)
Value SPEED (.+?)
Value INPUT_PACKETS (\d+)
Value OUTPUT_PACKETS (\d+)
Value INPUT_ERRORS (\d+)
Value OUTPUT_ERRORS (\d+)
Value BANDWIDTH (\d+\s+\w+)
Value DELAY (\d+\s+\w+)
Value ENCAPSULATION (\w+)
Value LAST_LINK_FLAPPED (.+?)
Start
^\S+\s+is.+ -> Continue.Record
^${INTERFACE}\s+is\s+${LINK_STATUS},\sline\sprotocol\sis\s${ADMIN_STATE}$$
^${INTERFACE}\s+is\s+${LINK_STATUS}$$
^admin\s+state\s+is\s+${ADMIN_STATE},
^\s+Hardware(:|\s+is)\s+${HARDWARE_TYPE},\s+address(:|\s+is)\s+${ADDRESS}(.*bia\s+${BIA})*
^\s+Description:\s+${DESCRIPTION}
^\s+Internet\s+Address\s+is\s+${IP_ADDRESS}
^\s+Port\s+mode\s+is\s+${MODE}
^\s+${DUPLEX}, ${SPEED}(,|$$)
^\s+MTU\s+${MTU}.\*BW\s+${BANDWIDTH}.\*DLY\s+${DELAY}
^\s+Encapsulation\s+${ENCAPSULATION}
^\s+${INPUT_PACKETS}\s+input\s+packets\s+\d+\s+bytes\s\*$$
^\s+${INPUT_ERRORS}\s+input\s+error\s+\d+\s+short\s+frame\s+\d+\s+overrun\s+\d+\s+underrun\s+\d+\s+ignored\s\*$$
^\s+${OUTPUT_PACKETS}\s+output\s+packets\s+\d+\s+bytes\s\*$$
^\s+${OUTPUT_ERRORS}\s+output\s+error\s+\d+\s+collision\s+\d+\s+deferred\s+\d+\s+late\s+collision\s\*$$
^\s+Last\s+link\s+flapped\s+${LAST_LINK_FLAPPED}\s\*$$
The following task uses the example template for textfsm
with the cli_parse
module.
- name: "Run command and parse with textfsm"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.textfsm
set_fact: interfaces
Taking a deeper dive into this task:
- The
ansible_network_os
for the device (cisco.nxos.nxos
) is converted tonxos
. Alternately you can provide the OS in theparser/os
option instead. - The textfsm template name defaulted to
templates/nxos_show_interface.textfsm
using a combination of the OS and command run. Alternately you can override the generated template path with theparser/template_path
option. - See the textfsm README for details.
textfsm
was previously made available as a filter plugin. Ansible users should transition to thecli_parse
module.
Note
Red Hat Ansible Automation Platform subscription support is limited to the use of the textfsm
public APIs as documented.
This task sets the following fact as the interfaces
fact for the host:
- ADDRESS: X254.005a.f8b5
ADMIN_STATE: up
BANDWIDTH: 1000000 Kbit
BIA: X254.005a.f8b5
DELAY: 10 usec
DESCRIPTION: ''
DUPLEX: full-duplex
ENCAPSULATION: ARPA
HARDWARE_TYPE: Ethernet
INPUT_ERRORS: ''
INPUT_PACKETS: ''
INTERFACE: mgmt0
IP_ADDRESS: 192.168.101.14/24
LAST_LINK_FLAPPED: ''
LINK_STATUS: up
MODE: ''
MTU: '1500'
OUTPUT_ERRORS: ''
OUTPUT_PACKETS: ''
SPEED: 1000 Mb/s
- ADDRESS: X254.005a.f8bd
ADMIN_STATE: up
BANDWIDTH: 1000000 Kbit
BIA: X254.005a.f8bd
Parsing with TTP¶
TTP is a Python library for semi-structured text parsing using templates. TTP uses a jinja-like syntax to limit the need for regular expressions. Users familiar with jinja templating may find the TTP template syntax familiar.
The following is an example TTP template stored as templates/nxos_show_interfaces.ttp
:
{{ interface }} is {{ state }}
admin state is {{ admin_state }}{{ ignore(".\*") }}
The following task uses this template to parse the show interface
command output:
- name: "Run command and parse with ttp"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.ttp
set_fact: interfaces
Taking a deeper dive in this task:
- The default template path
templates/nxos_show_interface.ttp
was generated using theansible_network_os
for the host andcommand
provided. - TTP supports several additional variables that will be passed to the parser. These include:
parser/vars/ttp_init
- Additional parameter passed when the parser is initialized.parser/vars/ttp_results
- Additional parameters used to influence the parser output.parser/vars/ttp_vars
- Additional variables made available in the template.
- See the TTP documentation for details.
The task sets the follow fact as the interfaces
fact for the host:
- admin_state: up,
interface: mgmt0
state: up
- admin_state: up,
interface: Ethernet1/1
state: up
- admin_state: up,
interface: Ethernet1/2
state: up
Converting XML¶
Although Ansible contains a number of plugins that can convert XML to Ansible native data structures, the``cli_parse`` module runs the command on devices that return XML and returns the converted data in a single task.
This example task runs the show interface
command and parses the output as XML:
- name: "Run command and parse as xml"
ansible.netcommon.cli_parse:
command: show interface | xml
parser:
name: ansible.netcommon.xml
set_fact: interfaces
Note
Red Hat Ansible Automation Platform subscription support is limited to the use of the xmltodict
public APIs as documented.
This task sets the interfaces
fact for the host based on this returned output:
nf:rpc-reply:
'@xmlns': http://www.cisco.com/nxos:1.0:if_manager
'@xmlns:nf': urn:ietf:params:xml:ns:netconf:base:1.0
nf:data:
show:
interface:
__XML__OPT_Cmd_show_interface_quick:
__XML__OPT_Cmd_show_interface___readonly__:
__readonly__:
TABLE_interface:
ROW_interface:
- admin_state: up
encapsulation: ARPA
eth_autoneg: 'on'
eth_bia_addr: x254.005a.f8b5
eth_bw: '1000000'
Advanced use cases¶
The cli_parse
module supports several features to support more complex uses cases.
Provide a full template path¶
Use the template_path
option to override the default template path in the task:
- name: "Run command and parse with native"
ansible.netcommon.cli_parse:
command: show interface
parser:
name: ansible.netcommon.native
template_path: /home/user/templates/filename.yaml
Provide command to parser different than the command run¶
Use the command
suboption for the parser
to configure the command the parser expects if it is different from the command cli_parse
runs:
- name: "Run command and parse with native"
ansible.netcommon.cli_parse:
command: sho int
parser:
name: ansible.netcommon.native
command: show interface
Provide a custom OS value¶
Use the os
suboption to the parser to directly set the OS instead of using ansible_network_os
or ansible_distribution
to generate the template path or with the specified parser engine:
- name: Use ios instead of iosxe for pyats
ansible.netcommon.cli_parse:
command: show something
parser:
name: ansible.netcommon.pyats
os: ios
- name: Use linux instead of fedora from ansible_distribution
ansible.netcommon.cli_parse:
command: ps -ef
parser:
name: ansible.netcommon.native
os: linux
Parse existing text¶
Use the text
option instead of command
to parse text collected earlier in the playbook.
# using /home/user/templates/filename.yaml
- name: "Parse text from previous task"
ansible.netcommon.cli_parse:
text: "{{ output['stdout'] }}"
parser:
name: ansible.netcommon.native
template_path: /home/user/templates/filename.yaml
# using /home/user/templates/filename.yaml
- name: "Parse text from file"
ansible.netcommon.cli_parse:
text: "{{ lookup('file', 'path/to/file.txt') }}"
parser:
name: ansible.netcommon.native
template_path: /home/user/templates/filename.yaml
# using templates/nxos_show_version.yaml
- name: "Parse text from previous task"
ansible.netcommon.cli_parse:
text: "{{ sho_version['stdout'] }}"
parser:
name: ansible.netcommon.native
os: nxos
command: show version