#!/usr/bin/env python
# Copyright 2014, Rackspace US, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.


import keystoneclient.v3.client as ksclient
from neutronclient.neutron import client as nclient

# import module snippets
from ansible.module_utils.basic import *


DOCUMENTATION = """
---
module: neutron
short_description:
    - Basic module for interacting with openstack neutron
description:
    - Basic module for interacting with openstack neutron
options:
    command:
        description:
            - Operation for the module to perform. Currently available
        choices:
            - create_network
            - create_subnet
            - create_router
            - add_router_interface
            - get_networks
        required: True
    openrc_path:
        decription:
            - Path to openrc file from which credentials and keystone endpoint
              will be extracted
    net_name:
        description:
            - Name of network
    subnet_name:
        description:
            - Name of subnet
    allocation_pools:
        description:
            - List of allocation pools for a subnet. Format is
              startip-endip[,startip-endip]...
    router_name:
        description:
            - Name of router
    cidr:
        description:
            - Specify CIDR to use when creating subnet
    provider_physical_network:
        description:
            - Specify provider:physical_network when creating network
    provider_network_type:
        description:
            - Specify provider:network_type when creating network
    provider_segmentation_id:
        description:
            - Specify provider:segmentation_id when creating network
    router_external:
        description:
            - Specify router:external' when creating network
    external_gateway_info:
        description:
            - Specify external_gateway_info when creating router
    insecure:
        description:
            - Explicitly allow client to perform "insecure" TLS
        choices:
            - false
            - true
        default: false
author: Hugh Saunders
"""

EXAMPLES = """
- name: Create private network
  neutron:
    command: create_network
    openrc_path: /root/openrc
    net_name: private
- name: Create public network
  neutron:
    command: create_network
    openrc_path: /root/openrc
    net_name: public
    provider_network_type: flat
    provider_physical_network: vlan
    router_external: true
- name: Create private subnet
  neutron:
    command: create_subnet
    openrc_path: /root/openrc
    net_name: private
    subnet_name: private-subnet
    cidr: "192.168.74.0/24"
- name: Create public subnet
  neutron:
    command: create_subnet
    openrc_path: /root/openrc
    net_name: public
    subnet_name: public-subnet
    cidr: "10.1.13.0/24"
- name: Create router
  neutron:
    command: create_router
    openrc_path: /root/openrc
    router_name: router
    external_gateway_info: public
- name: Add private subnet to router
  neutron:
    command: add_router_interface
    openrc_path: /root/openrc
    router_name: router
    subnet_name: private-subnet
- name: Get network information
    command: get_network
    openrc_path: /root/openrc
    net_name: public
"""


COMMAND_MAP = {
    'create_network': {
        'variables': [
            'net_name',
            'provider_physical_network',
            'provider_network_type',
            'provider_segmentation_id',
            'router_external',
            'tenant_id'
        ]
    },
    'create_subnet': {
        'variables': [
            'net_name',
            'subnet_name',
            'cidr',
            'tenant_id',
            'allocation_pools'
        ]
    },
    'create_router': {
        'variables': [
            'router_name',
            'external_gateway_info',
            'tenant_id'
        ]
    },
    'add_router_interface': {
        'variables': [
            'router_name',
            'subnet_name'
        ]
    },
    'get_networks': {
        'variables': [
            'net_name'
        ]
    }
}


class ManageNeutron(object):
    def __init__(self, module):
        self.state_change = False
        self.neutron = None
        self.keystone = None
        self.module = module

    def command_router(self):
        """Run the command as its provided to the module."""
        command_name = self.module.params['command']
        if command_name not in COMMAND_MAP:
            self.failure(
                error='No Command Found',
                rc=2,
                msg='Command [ %s ] was not found.' % command_name
            )

        action_command = COMMAND_MAP[command_name]
        if hasattr(self, '_%s' % command_name):
            action = getattr(self, '_%s' % command_name)
            try:
                self._keystone_authenticate()
                self._init_neutron()
            except Exception as e:
                self.module.fail_json(
                    err="Initialisation Error: %s" % e,
                    rc=2, msg=str(e))
            facts = action(variables=action_command['variables'])
            if facts is None:
                self.module.exit_json(changed=self.state_change)
            else:
                self.module.exit_json(
                    changed=self.state_change,
                    ansible_facts=facts
                )
        else:
            self.failure(
                error='Command not in ManageNeutron class',
                rc=2,
                msg='Method [ %s ] was not found.' % command_name
            )

    @staticmethod
    def _facts(resource_type, resource_data):
        """Return a dict for our Ansible facts."""
        key = 'neutron_%s' % resource_type
        facts = {key: {}}
        for f in resource_data[resource_type]:
            res_name = f['name']
            del f['name']
            facts[key][res_name] = f

        return facts

    def _get_vars(self, variables, required=None):
        """Return a dict of all variables as found within the module.

        :param variables: ``list``  List of all variables that are available to
                                    use within the Neutron Command.
        :param required: ``list``  Name of variables that are required.
        """
        return_dict = {}
        for variable in variables:
            return_dict[variable] = self.module.params.get(variable)
        else:
            if isinstance(required, list):
                for var_name in required:
                    check = return_dict.get(var_name)
                    if check is None:
                        self.failure(
                            error='Missing [ %s ] from Task or found a None'
                                  ' value' % var_name,
                            rc=000,
                            msg='variables %s - available params [ %s ]'
                                % (variables, self.module.params)
                        )
            return return_dict

    def failure(self, error, rc, msg):
        """Return a Failure when running an Ansible command.

        :param error: ``str``  Error that occurred.
        :param rc: ``int``     Return code while executing an Ansible command.
        :param msg: ``str``    Message to report.
        """
        self.module.fail_json(msg=msg, rc=rc, err=error)

    def _parse_openrc(self):
        """Get credentials from an openrc file."""
        openrc_path = self.module.params['openrc_path']
        line_re = re.compile('^export (?P<key>OS_\w*)=\'?(?P<value>[^\n\']*)')
        with open(openrc_path) as openrc:
            matches = [line_re.match(l) for l in openrc]
            return dict(
                (g.groupdict()['key'], g.groupdict()['value'])
                for g in matches if g
            )

    def _keystone_authenticate(self):
        """Authenticate with Keystone."""
        openrc = self._parse_openrc()
        insecure = self.module.params['insecure']
        self.keystone = ksclient.Client(insecure=insecure,
                                        username=openrc['OS_USERNAME'],
                                        password=openrc['OS_PASSWORD'],
                                        project_name=openrc['OS_PROJECT_NAME'],
                                        auth_url=openrc['OS_AUTH_URL'])

    def _init_neutron(self):
        """Create neutron client object using token and url from keystone."""
        openrc = self._parse_openrc()
        self.neutron = nclient.Client(
            '2.0',
            endpoint_url=self.keystone.service_catalog.url_for(
                service_type='network',
                endpoint_type=openrc['OS_ENDPOINT_TYPE']),
            token=self.keystone.get_token(self.keystone.session))

    def _get_resource_by_name(self, resource_type, resource_name):
        action = getattr(self.neutron, 'list_%s' % resource_type)
        resource = action(name=resource_name)[resource_type]

        if resource:
            return resource[0]['id']
        else:
            return None

    def _create_network(self, variables):
        required_vars = ['net_name']
        variables_dict = self._get_vars(variables, required=required_vars)
        net_name = variables_dict.pop('net_name')
        provider_physical_network = variables_dict.pop(
            'provider_physical_network'
        )
        provider_network_type = variables_dict.pop('provider_network_type')
        provider_segmentation_id = variables_dict.pop(
            'provider_segmentation_id'
        )
        router_external = variables_dict.pop('router_external')
        tenant_id = variables_dict.pop('tenant_id')

        if not self._get_resource_by_name('networks', net_name):
            n = {"name": net_name, "admin_state_up": True}
            if provider_physical_network:
                n['provider:physical_network'] = provider_physical_network
            if provider_network_type:
                n['provider:network_type'] = provider_network_type
            if provider_segmentation_id:
                n['provider:segmentation_id'] = str(provider_segmentation_id)
            if router_external:
                n['router:external'] = router_external
            if tenant_id:
                n['tenant_id'] = tenant_id

            self.state_change = True
            self.neutron.create_network({"network": n})

        return self._facts('networks', self.neutron.list_networks())

    def _create_subnet(self, variables):
        required_vars = ['net_name', 'subnet_name', 'cidr']
        variables_dict = self._get_vars(variables, required=required_vars)
        net_name = variables_dict.pop('net_name')
        subnet_name = variables_dict.pop('subnet_name')
        cidr = variables_dict.pop('cidr')
        network_id = self._get_resource_by_name('networks', net_name)
        tenant_id = variables_dict.pop('tenant_id')

        # allocation_pools is a string with the format:
        # startip-endip[,startip-endip]...
        allocation_pools_str = variables_dict.get('allocation_pools', "")
        allocation_pools = []
        if allocation_pools_str:
            for ap in allocation_pools_str.split(','):
                if "-" not in ap:
                    continue
                start, end = ap.split('-')
                allocation_pools.append({'start': start, 'end': end})

        if not network_id:
            self.failure(
                error='Network not found',
                rc=1,
                msg='The specified network could not be found'
            )
        if not self.neutron.list_subnets(cidr=cidr,
                                         network_id=network_id)['subnets']:
            self.state_change = True
            s = {"name": subnet_name, "cidr": cidr, "ip_version": 4,
                 "network_id": network_id}
            if tenant_id:
                s["tenant_id"] = tenant_id
            if allocation_pools:
                s["allocation_pools"] = allocation_pools

            self.neutron.create_subnet({"subnet": s})
        return self._facts('subnets', self.neutron.list_subnets())

    def _create_router(self, variables):
        required_vars = ['router_name', 'external_gateway_info']
        variables_dict = self._get_vars(variables, required=required_vars)
        router_name = variables_dict.pop('router_name')
        external_gateway_info = variables_dict.pop('external_gateway_info')
        tenant_id = variables_dict.pop('tenant_id')

        if not self._get_resource_by_name('routers', router_name):
            self.state_change = True
            r = {'name': router_name}
            if external_gateway_info:
                network_id = self._get_resource_by_name('networks',
                                                        external_gateway_info)
                r['external_gateway_info'] = {'network_id': network_id}
            if tenant_id:
                r['tenant_id'] = tenant_id
            self.neutron.create_router({'router': r})

        return self._facts('routers', self.neutron.list_routers())

    def _add_router_interface(self, variables):
        required_vars = ['router_name', 'subnet_name']
        variables_dict = self._get_vars(variables, required=required_vars)
        router_name = variables_dict.pop('router_name')
        subnet_name = variables_dict.pop('subnet_name')
        router_id = self._get_resource_by_name('routers', router_name)
        subnet_id = self._get_resource_by_name('subnets', subnet_name)

        if not router_id:
            self.failure(
                error='Router not found',
                rc=1,
                msg='The specified router could not be found'
            )

        if not subnet_id:
            self.failure(
                error='Subnet not found',
                rc=1,
                msg='The specified subnet could not be found'
            )

        found = False

        for port in self.neutron.list_ports(device_id=router_id)['ports']:
            for fixed_ips in port['fixed_ips']:
                if fixed_ips['subnet_id'] == subnet_id:
                    found = True
        if not found:
            self.state_change = True
            self.neutron.add_interface_router(router_id,
                                              {'subnet_id': subnet_id})

    def _get_networks(self, variables):
        variables_dict = self._get_vars(variables)
        net_name = variables_dict.pop('net_name')
        if net_name:
            network_id = self._get_resource_by_name('networks', net_name)
            if not network_id:
                self.failure(
                    error='Network not found',
                    rc=1,
                    msg='The specified network could not be found'
                )

        return self._facts('networks', self.neutron.list_networks())


def main():
    module = AnsibleModule(
        argument_spec=dict(
            command=dict(required=True, choices=COMMAND_MAP.keys()),
            openrc_path=dict(required=True),
            net_name=dict(required=False),
            subnet_name=dict(required=False),
            cidr=dict(required=False),
            provider_physical_network=dict(required=False),
            provider_network_type=dict(required=False),
            provider_segmentation_id=dict(required=False),
            router_external=dict(required=False),
            router_name=dict(required=False),
            external_gateway_info=dict(required=False),
            tenant_id=dict(required=False),
            insecure=dict(default=False, required=False, type='bool'),
            allocation_pools=dict(required=False)
        ),
        supports_check_mode=False
    )
    mn = ManageNeutron(module)
    mn.command_router()

if __name__ == '__main__':
    main()
