#!/usr/bin/python
# -*- coding: utf-8 -*-
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
#
# Copyright (C) 2019 Lenovo, Inc.
# (c) 2019, Ansible by Red Hat, inc
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible.  If not, see <http://www.gnu.org/licenses/>.
#
# Module to work on Link Aggregation with Lenovo Switches
# Lenovo Networking
#
DOCUMENTATION = '''
---
module: cnos_l3_interface
deprecated:
  removed_in: 6.0.0
  why: This collection and all content in it is unmaintained and deprecated.
  alternative: Unknown.
author: "Anil Kumar Muraleedharan (@amuraleedhar)"
short_description: Manage Layer-3 interfaces on Lenovo CNOS network devices.
description:
  - This module provides declarative management of Layer-3 interfaces
    on CNOS network devices.
notes:
  - Tested against CNOS 10.8.1
options:
  name:
    description:
      - Name of the Layer-3 interface to be configured eg. Ethernet1/2
  ipv4:
    description:
      - IPv4 address to be set for the Layer-3 interface mentioned in I(name)
        option. The address format is <ipv4 address>/<mask>, the mask is number
        in range 0-32 eg. 10.241.107.1/24
  ipv6:
    description:
      - IPv6 address to be set for the Layer-3 interface mentioned in I(name)
        option. The address format is <ipv6 address>/<mask>, the mask is number
        in range 0-128 eg. fd5d:12c9:2201:1::1/64
  aggregate:
    description:
      - List of Layer-3 interfaces definitions. Each of the entry in aggregate
        list should define name of interface C(name) and a optional C(ipv4) or
        C(ipv6) address.
  state:
    description:
      - State of the Layer-3 interface configuration. It indicates if the
        configuration should be present or absent on remote device.
    default: present
    choices: ['present', 'absent']
'''

EXAMPLES = """
- name: Remove Ethernet1/33 IPv4 and IPv6 address
  community.network.cnos_l3_interface:
    name: Ethernet1/33
    state: absent

- name: Set Ethernet1/33 IPv4 address
  community.network.cnos_l3_interface:
    name: Ethernet1/33
    ipv4: 10.241.107.1/24

- name: Set Ethernet1/33 IPv6 address
  community.network.cnos_l3_interface:
    name: Ethernet1/33
    ipv6: "fd5d:12c9:2201:1::1/64"

- name: Set Ethernet1/33 in dhcp
  community.network.cnos_l3_interface:
    name: Ethernet1/33
    ipv4: dhcp
    ipv6: dhcp

- name: Set interface Vlan1 (SVI) IPv4 address
  community.network.cnos_l3_interface:
    name: Vlan1
    ipv4: 192.168.0.5/24

- name: Set IP addresses on aggregate
  community.network.cnos_l3_interface:
    aggregate:
      - { name: Ethernet1/33, ipv4: 10.241.107.1/24 }
      - { name: Ethernet1/44, ipv4: 10.240.106.1/24,
          ipv6: "fd5d:12c9:2201:1::1/64" }

- name: Remove IP addresses on aggregate
  community.network.cnos_l3_interface:
    aggregate:
      - { name: Ethernet1/33, ipv4: 10.241.107.1/24 }
      - { name: Ethernet1/44, ipv4: 10.240.106.1/24,
          ipv6: "fd5d:12c9:2201:1::1/64" }
    state: absent
"""

RETURN = """
commands:
  description: The list of configuration mode commands to send to the device
  returned: always, except for the platforms that use Netconf transport to
   manage the device.
  type: list
  sample:
    - interface Ethernet1/33
    - ip address 10.241.107.1 255.255.255.0
    - ipv6 address fd5d:12c9:2201:1::1/64
"""
import re

from copy import deepcopy

from ansible.module_utils._text import to_text
from ansible.module_utils.basic import AnsibleModule
from ansible_collections.community.network.plugins.module_utils.network.cnos.cnos import get_config, load_config
from ansible_collections.community.network.plugins.module_utils.network.cnos.cnos import cnos_argument_spec
from ansible_collections.community.network.plugins.module_utils.network.cnos.cnos import run_commands
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.config import NetworkConfig
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.utils import remove_default_spec
try:
    from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.utils import is_netmask, is_masklen, to_netmask, to_masklen
except ImportError:
    from ansible.module_utils.common.network import is_netmask, is_masklen, to_netmask, to_masklen


def validate_ipv4(value, module):
    if value:
        address = value.split('/')
        if len(address) != 2:
            module.fail_json(
                msg='address format is <ipv4 address>/<mask>,got invalid format %s' % value)
        if not is_masklen(address[1]):
            module.fail_json(
                msg='invalid value for mask: %s, mask should be in range 0-32' % address[1])


def validate_ipv6(value, module):
    if value:
        address = value.split('/')
        if len(address) != 2:
            module.fail_json(
                msg='address format is <ipv6 address>/<mask>, got invalid format %s' % value)
        else:
            if not 0 <= int(address[1]) <= 128:
                module.fail_json(
                    msg='invalid value for mask: %s, mask should be in range 0-128' % address[1])


def validate_param_values(module, obj, param=None):
    if param is None:
        param = module.params
    for key in obj:
        # validate the param value (if validator func exists)
        validator = globals().get('validate_%s' % key)
        if callable(validator):
            validator(param.get(key), module)


def parse_config_argument(configobj, name, arg=None):
    cfg = configobj['interface %s' % name]
    cfg = '\n'.join(cfg.children)

    values = []
    matches = re.finditer(r'%s (.+)$' % arg, cfg, re.M)
    for match in matches:
        match_str = match.group(1).strip()
        if arg == 'ipv6 address':
            values.append(match_str)
        else:
            values = match_str
            break

    return values or None


def search_obj_in_list(name, lst):
    for o in lst:
        if o['name'].lower() == name.lower():
            return o

    return None


def get_interface_type(interface):
    intf_type = 'unknown'
    if interface.upper()[:2] in ('ET', 'GI', 'FA', 'TE', 'FO', 'HU', 'TWE'):
        intf_type = 'ethernet'
    elif interface.upper().startswith('VL'):
        intf_type = 'svi'
    elif interface.upper().startswith('LO'):
        intf_type = 'loopback'
    elif interface.upper()[:2] in ('MG', 'MA'):
        intf_type = 'management'
    elif interface.upper().startswith('PO'):
        intf_type = 'portchannel'
    elif interface.upper().startswith('NV'):
        intf_type = 'nve'

    return intf_type


def is_switchport(name, module):
    intf_type = get_interface_type(name)

    if intf_type in ('ethernet', 'portchannel'):
        config = run_commands(module,
                              ['show interface {0} switchport'.format(name)])[0]
        match = re.search(r'Switchport              : enabled', config)
        return bool(match)
    return False


def map_obj_to_commands(updates, module):
    commands = list()
    want, have = updates
    for w in want:
        name = w['name']
        ipv4 = w['ipv4']
        ipv6 = w['ipv6']
        state = w['state']

        interface = 'interface ' + name
        commands.append(interface)

        obj_in_have = search_obj_in_list(name, have)
        if state == 'absent' and obj_in_have:
            if obj_in_have['ipv4']:
                if ipv4:
                    address = ipv4.split('/')
                    if len(address) == 2:
                        ipv4 = '{0} {1}'.format(
                            address[0], to_netmask(address[1]))
                    commands.append('no ip address %s' % ipv4)
                else:
                    commands.append('no ip address')
            if obj_in_have['ipv6']:
                if ipv6:
                    commands.append('no ipv6 address %s' % ipv6)
                else:
                    commands.append('no ipv6 address')
                    if 'dhcp' in obj_in_have['ipv6']:
                        commands.append('no ipv6 address dhcp')

        elif state == 'present':
            if ipv4:
                if obj_in_have is None or obj_in_have.get('ipv4') is None or ipv4 != obj_in_have['ipv4']:
                    address = ipv4.split('/')
                    if len(address) == 2:
                        ipv4 = '{0} {1}'.format(
                            address[0], to_netmask(address[1]))
                    commands.append('ip address %s' % ipv4)

            if ipv6:
                if obj_in_have is None or obj_in_have.get('ipv6') is None or ipv6.lower() not in [addr.lower() for addr in obj_in_have['ipv6']]:
                    commands.append('ipv6 address %s' % ipv6)
        if commands[-1] == interface:
            commands.pop(-1)

    return commands


def map_config_to_obj(module):
    config = get_config(module)
    configobj = NetworkConfig(indent=1, contents=config)

    match = re.findall(r'^interface (\S+)', config, re.M)
    if not match:
        return list()

    instances = list()

    for item in set(match):
        ipv4 = parse_config_argument(configobj, item, 'ip address')
        if ipv4:
            # eg. 192.168.2.10 255.255.255.0 -> 192.168.2.10/24
            address = ipv4.strip().split(' ')
            if len(address) == 2 and is_netmask(address[1]):
                ipv4 = '{0}/{1}'.format(address[0], to_text(to_masklen(address[1])))

        obj = {
            'name': item,
            'ipv4': ipv4,
            'ipv6': parse_config_argument(configobj, item, 'ipv6 address'),
            'state': 'present'
        }
        instances.append(obj)

    return instances


def map_params_to_obj(module):
    obj = []

    aggregate = module.params.get('aggregate')
    if aggregate:
        for item in aggregate:
            for key in item:
                if item.get(key) is None:
                    item[key] = module.params[key]

            validate_param_values(module, item, item)
            obj.append(item.copy())
    else:
        obj.append({
            'name': module.params['name'],
            'ipv4': module.params['ipv4'],
            'ipv6': module.params['ipv6'],
            'state': module.params['state']
        })

        validate_param_values(module, obj)

    return obj


def main():
    """ main entry point for module execution
    """
    element_spec = dict(
        name=dict(),
        ipv4=dict(),
        ipv6=dict(),
        state=dict(default='present',
                   choices=['present', 'absent'])
    )

    aggregate_spec = deepcopy(element_spec)
    aggregate_spec['name'] = dict(required=True)

    # remove default in aggregate spec, to handle common arguments
    remove_default_spec(aggregate_spec)

    argument_spec = dict(
        aggregate=dict(type='list', elements='dict', options=aggregate_spec),
    )

    argument_spec.update(element_spec)
    argument_spec.update(cnos_argument_spec)

    required_one_of = [['name', 'aggregate']]
    mutually_exclusive = [['name', 'aggregate']]
    module = AnsibleModule(argument_spec=argument_spec,
                           required_one_of=required_one_of,
                           mutually_exclusive=mutually_exclusive,
                           supports_check_mode=True)

    warnings = list()

    result = {'changed': False}

    want = map_params_to_obj(module)
    for w in want:
        name = w['name']
        name = name.lower()
        if is_switchport(name, module):
            module.fail_json(msg='Ensure interface is configured to be a L3'
                             '\nport first before using this module. You can use'
                             '\nthe cnos_interface module for this.')

    have = map_config_to_obj(module)

    commands = map_obj_to_commands((want, have), module)
    result['commands'] = commands

    if commands:
        if not module.check_mode:
            resp = load_config(module, commands)
            if resp is not None:
                warnings.extend((out for out in resp if out))

        result['changed'] = True

    if warnings:
        result['warnings'] = warnings
        if 'overlaps with address configured on' in warnings[0]:
            result['failed'] = True
            result['msg'] = warnings[0]
        if 'Cannot set overlapping address' in warnings[0]:
            result['failed'] = True
            result['msg'] = warnings[0]

    module.exit_json(**result)


if __name__ == '__main__':
    main()