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community.general/lib/ansible/modules/network/junos/junos_ping.py

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#!/usr/bin/python
# -*- coding: utf-8 -*-
# (c) 2019, Ansible by Red Hat, inc
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'network'}
DOCUMENTATION = """
---
module: junos_ping
short_description: Tests reachability using ping from devices running Juniper JUNOS
description:
- Tests reachability using ping from devices running Juniper JUNOS to a remote destination.
- Tested against Junos (17.3R1.10)
- For a general purpose network module, see the M(net_ping) module.
- For Windows targets, use the M(win_ping) module instead.
- For targets running Python, use the M(ping) module instead.
author:
- Nilashish Chakraborty (@nilashishc)
version_added: '2.8'
options:
dest:
description:
- The IP Address or hostname (resolvable by the device) of the remote node.
required: true
count:
description:
- Number of packets to send to check reachability.
type: int
default: 5
source:
description:
- The IP Address to use while sending the ping packet(s).
interface:
description:
- The source interface to use while sending the ping packet(s).
ttl:
description:
- The time-to-live value for the ICMP packet(s).
type: int
size:
description:
- Determines the size (in bytes) of the ping packet(s).
type: int
interval:
description:
- Determines the interval (in seconds) between consecutive pings.
type: int
state:
description:
- Determines if the expected result is success or fail.
choices: [ absent, present ]
default: present
notes:
- For a general purpose network module, see the M(net_ping) module.
- For Windows targets, use the M(win_ping) module instead.
- For targets running Python, use the M(ping) module instead.
extends_documentation_fragment: junos
"""
EXAMPLES = """
- name: Test reachability to 10.10.10.10
junos_ping:
dest: 10.10.10.10
- name: Test reachability to 10.20.20.20 using source and size set
junos_ping:
dest: 10.20.20.20
size: 1024
ttl: 128
- name: Test unreachability to 10.30.30.30 using interval
junos_ping:
dest: 10.30.30.30
interval: 3
state: absent
- name: Test reachability to 10.40.40.40 setting count and interface
junos_ping:
dest: 10.40.40.40
interface: fxp0
count: 20
size: 512
"""
RETURN = """
commands:
description: List of commands sent.
returned: always
type: list
sample: ["ping 10.8.38.44 count 10 source 10.8.38.38 ttl 128"]
packet_loss:
description: Percentage of packets lost.
returned: always
type: str
sample: "0%"
packets_rx:
description: Packets successfully received.
returned: always
type: int
sample: 20
packets_tx:
description: Packets successfully transmitted.
returned: always
type: int
sample: 20
rtt:
description: The round trip time (RTT) stats.
returned: when ping succeeds
type: dict
sample: {"avg": 2, "max": 8, "min": 1, "stddev": 24}
"""
import re
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.network.junos.junos import junos_argument_spec, get_connection
def main():
""" main entry point for module execution
"""
argument_spec = dict(
count=dict(type="int", default=5),
dest=dict(type="str", required=True),
source=dict(),
interface=dict(),
ttl=dict(type='int'),
size=dict(type='int'),
interval=dict(type='int'),
state=dict(type="str", choices=["absent", "present"], default="present"),
)
argument_spec.update(junos_argument_spec)
module = AnsibleModule(argument_spec=argument_spec)
count = module.params["count"]
dest = module.params["dest"]
source = module.params["source"]
size = module.params["size"]
ttl = module.params["ttl"]
interval = module.params["interval"]
interface = module.params['interface']
warnings = list()
results = {'changed': False}
if warnings:
results["warnings"] = warnings
results["commands"] = build_ping(dest, count, size, interval, source, ttl, interface)
conn = get_connection(module)
ping_results = conn.get(results["commands"])
rtt_info, rate_info = None, None
for line in ping_results.split("\n"):
if line.startswith('round-trip'):
rtt_info = line
if line.startswith('%s packets transmitted' % count):
rate_info = line
if rtt_info:
rtt = parse_rtt(rtt_info)
for k, v in rtt.items():
if rtt[k] is not None:
rtt[k] = float(v)
results["rtt"] = rtt
pkt_loss, rx, tx = parse_rate(rate_info)
results["packet_loss"] = str(pkt_loss) + "%"
results["packets_rx"] = int(rx)
results["packets_tx"] = int(tx)
validate_results(module, pkt_loss, results)
module.exit_json(**results)
def build_ping(dest, count, size=None, interval=None, source=None, ttl=None, interface=None):
cmd = "ping {0} count {1}".format(dest, str(count))
if source:
cmd += " source {0}".format(source)
if interface:
cmd += " interface {0}".format(interface)
if ttl:
cmd += " ttl {0}".format(str(ttl))
if size:
cmd += " size {0}".format(str(size))
if interval:
cmd += " interval {0}".format(str(interval))
return cmd
def parse_rate(rate_info):
rate_re = re.compile(
r"(?P<tx>\d*) packets transmitted,(?:\s*)(?P<rx>\d*) packets received,(?:\s*)(?P<pkt_loss>\d*)% packet loss")
rate = rate_re.match(rate_info)
return rate.group("pkt_loss"), rate.group("rx"), rate.group("tx")
def parse_rtt(rtt_info):
rtt_re = re.compile(
r"round-trip (?:.*)=(?:\s*)(?P<min>\d+\.\d+).(?:\d*)/(?P<avg>\d+\.\d+).(?:\d*)/(?P<max>\d*\.\d*).(?:\d*)/(?P<stddev>\d*\.\d*)")
rtt = rtt_re.match(rtt_info)
return rtt.groupdict()
def validate_results(module, loss, results):
state = module.params["state"]
if state == "present" and int(loss) == 100:
module.fail_json(msg="Ping failed unexpectedly", **results)
elif state == "absent" and int(loss) < 100:
module.fail_json(msg="Ping succeeded unexpectedly", **results)
if __name__ == "__main__":
main()
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