SDK to simplify common workflows for Network Devices.
Project description
Introduction
pyntc is an open source multi-vendor Python library that establishes a common framework for working with different network APIs & device types (including IOS devices)
It's main purpose is to simplify the execution of common tasks including:
- Executing commands
- Copying files
- Upgrading devices
- Rebooting devices
- Saving / Backing Up Configs
Supported Platforms
- Cisco AireOS - uses netmiko (SSH)
- Cisco ASA - uses netmiko (SSH)
- Cisco IOS platforms - uses netmiko (SSH)
- Cisco NX-OS - uses pynxos (NX-API)
- Arista EOS - uses pyeapi (eAPI)
- Juniper Junos - uses PyEz (NETCONF)
- F5 Networks - uses f5-sdk (ReST)
Installing pyntc
Option 1:
"pip install pyntc" or "pip install pyntc --upgrade"
Option 2:
git clone https://github.com/networktocode/pyntc.git
cd pyntc
pip install poetry
poetry install
Getting Started with pyntc
There are two ways to get started with pyntc.
The first way is to use the ntc_device
object. Just pass in all required parameters to the object to initialize your device. Here we are showing the import, but renaming the object to NTC
.
>>> from pyntc import ntc_device as NTC
>>>
Like many libraries, we need to pass in the host/IP and credentials. Because this is a multi-vendor/API library, we also use the device_type
parameter to identify which device we are building an instance of.
pyntc currently supports four device types:
- cisco_aireos_ssh
- cisco_asa_ssh
- cisco_ios_ssh
- cisco_nxos_nxapi
- arista_eos_eapi
- juniper_junos_netconf
- f5_tmos_icontrol
The example below shows how to build a device object when working with a Cisco IOS router.
>>> # CREATE DEVICE OBJECT FOR AN IOS DEVICE
>>>
>>> csr1 = NTC(host='csr1', username='ntc', password='ntc123', device_type='cisco_ios_ssh')
>>>
And here is an object for a Cisco Nexus device:
>>> # CREATE DEVICE OBJECT FOR A NEXUS DEVICE
>>>
>>> nxs1 = NTC(host='nxos-spine1', username='ntc', password='ntc123', device_type='cisco_nxos_nxapi')
>>>
The second way to get started with pyntc is to use the pyntc configuration file. This was modeled after Arista's .eapi.conf
file. Our file is called .ntc.conf
This simplifies creating device objects since you no longer need to specify credentials and other device specific parameters when you build the device object. Instead, they are stored in the conf file.
pyntc Configration File
- filename:
.ntc.conf
- Priority of locating the conf file:
filename
param inntc_device_by_name
- Environment Variable aka
PYNTC_CONF
- Home directory
.ntc.conf
- Specify device_type and a name
- host is not required if the name is the device's FQDN
- Four supported device types:
cisco_nxos_nxapi
,cisco_ios_ssh
,arista_eos_eapi
, andjuniper_junos_netconf
Here is an example .ntc.conf
file:
[cisco_nxos_nxapi:nxos-spine1]
host: 31.220.64.117
username: ntc
password: ntc123
transport: http
[cisco_ios_ssh:csr1]
host: 176.126.88.94
username: ntc
password: ntc123
port: 22
[juniper_junos_netconf:vmx1]
host: 176.126.88.99
username: ntc
password: ntc123
We can now build device objects just by referencing the name of the device from the conf file.
>>> from pyntc import ntc_device_by_name as NTCNAME
>>>
>>> csr1 = NTCNAME('csr1')
>>>
>>> nxs1 = NTCNAME('nxos-spine1')
>>>
>>> vmx1 = NTCNAME('vmx1')
Once the device object is creating using either ntc_device
or ntc_device_by_name
, you can start using the built-in device methods in pyntc.
Note: the only method and property not supported on all devices is install_os
. It is not supported on Juniper Junos devices.
Gathering Facts
- Use
facts
device property
On a Nexus device:
>>> nxs1 = NTCNAME('nxos-spine1')
>>>
>>> nxs1.facts
{'vendor': 'cisco', 'interfaces': [], u'hostname': 'nxos-spine1', u'os_version': '7.1(0)D1(1) [build 7.2(0)ZD(0.17)]', u'serial_number': 'TM600C2833B', u'model': 'NX-OSv Chassis', 'vlans': ['1']}
>>>
>>> print(json.dumps(nxs1.facts, indent=4))
{
"vendor": "cisco",
"interfaces": [],
"hostname": "nxos-spine1",
"os_version": "7.1(0)D1(1) [build 7.2(0)ZD(0.17)]",
"serial_number": "TM600C2833B",
"model": "NX-OSv Chassis",
"vlans": [
"1"
]
}
On an IOS device:
>>> csr1 = NTCNAME('csr1')
>>>
>>> print(json.dumps(csr1.facts, indent=4))
{
"uptime": 87060,
"vendor": "cisco",
"uptime_string": "01:00:11:00",
"interfaces": [
"GigabitEthernet1",
"GigabitEthernet2",
"GigabitEthernet3",
"GigabitEthernet4",
"Loopback100"
],
"hostname": "csr1",
"ios": {
"config_register": "0x2102"
},
"fqdn": "N/A",
"os_version": "15.5(1)S1",
"serial_number": "",
"model": "CSR1000V",
"vlans": []
}
Sending Show Commands
show
method- Note: API enabled devices return JSON by default
>>> nxs1.show('show hostname')
{'hostname': 'nxos-spine1'}
>>>
- Use
raw_text=True
to get unstructured data from the device
>>> nxs1.show('show hostname', raw_text=True)
'nxos-spine1 \n'
>>>
Sending Multiple Commands
show_list
method
>>> cmds = ['show hostname', 'show run int Eth2/1']
>>> data = nxs1.show_list(cmds, raw_text=True)
>>> for d in data:
... print(d)
...
nxos-spine1
!Command: show running-config interface Ethernet2/1
!Time: Wed Jan 6 18:10:01 2016
version 7.1(0)D1(1)
interface Ethernet2/1
switchport
no shutdown
Config Commands
- Use
config
andconfig_list
>>> csr1.config('hostname testname')
>>>
>>> csr1.config_list(['interface Gi3', 'shutdown'])
>>>
Viewing Running/Startup Configs
- Use
running_config
andstart_up
device properties- Only showing partial config (manually shortened for this slide)
>>> run = csr1.running_config
>>>
>>> print(run)
Building configuration...
Current configuration : 2062 bytes
!
! Last configuration change at 18:26:59 UTC Wed Jan 6 2016 by ntc
!
version 15.5
service timestamps debug datetime msec
lldp run
cdp run
!
ip scp server enable
!
interface GigabitEthernet1
ip address 10.0.0.50 255.255.255.0
cdp enable
Copying files
file_copy
method
>>> devices = [csr1, nxs1]
>>>
>>> for device in devices:
... device.file_copy('newconfig.cfg')
...
>>>
Save Configs
save
method
copy run start
for Cisco/Arista and commit
for Juniper
>>> csr1.save()
True
You can also do the equivalent of copy running-config <filename>
by specifying a filename:
>>> csr1.save('mynewconfig.cfg')
True
Backup Configs
Backup current running configuration and store it locally
>>> csr1.backup_running_config('csr1.cfg')
>>>
Reboot
Reboot target device
Parameters:
timer=0
by defaultconfirm=False
by default
>>> csr1.reboot(confirm=True)
>>>
Installing Operating Systems
>>> device.install_os('nxos.7.0.3.I2.1.bin')
>>>
Full workflow example:
>>> device.file_copy('nxos.7.0.3.I2.1.bin')
>>> device.install_os('nxos.7.0.3.I2.1.bin')
>>> device.save()
>>> device.reboot() # IF NEEDED, NXOS automatically reboots
>>>
Contributing
This section describes how to install pyntc for development, how to run tests, and make sure you are a good contributor.
Branches
master
- Reserved for released codedevelop
- Work in progress on the main roadmap<feature>
- Individual feature branches, should be PR'd todevelop
.
Installing dependencies for local development
This repository uses poetry for dependency management.
For best results, you should use
virtualenv and
virtualenvwrapper, which
can both be installed to your system packages using pip install virtualenv virtualenvwrapper
.
You'll also need Python 3.6+ as your interpreter. See the virtualenv documentation on choosing the correct Python interpretery binary if your system provides multiple versions.
Follow these steps to set up your local development environment:
# Make a new virtualenv named "pyntc" and activate it
$ mkvirtualenv pyntc
# Double check your version
$ python --version
Python 3.7.7
# Install poetry
$ pip install poetry
# Install project dependencies as well as development dependencies
$ poetry install
In addition to poetry, you may want to install tox which is a test environment controller and runner.
# Make sure you're in the "pyntc" virtualenv, skip this step if you already are
$ workon pyntc
# Install tox
$ pip install tox
Running tests locally
The easiest way to run tests locally is to directly invoke the unittest module directly.
Test modules are located in ./test/unit/
and fixtures in ./test/fixtures/
.
# Run all tests locally
$ python -m unittest discover ./test/unit
It's also possible to run local tests using tox if you have it installed.
This will create separate virtualenvs for each Python version in the tox.ini
configuration, and download all dependencies separately.
# Run all tests against multiple Python versions
$ tox
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