Merge "[doc] Add testing VPNaaS with devstack"

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Zuul 2018-01-12 08:02:35 +00:00 committed by Gerrit Code Review
commit 5c97c2bc2e
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[[local|localrc]]
enable_plugin neutron-vpnaas https://git.openstack.org/openstack/neutron-vpnaas
disable_service n-net
enable_service q-svc
enable_service q-agt
enable_service q-dhcp
enable_service q-l3
enable_service q-meta
# Optional, to enable tempest configuration as part of devstack
enable_service tempest
# IPsec driver to use. Optional, defaults to strongswan.
IPSEC_PACKAGE="strongswan"

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[[local|localrc]]
disable_service n-net
enable_service q-svc
enable_service q-agent
enable_service q-dhcp
enable_service q-l3
enable_service q-meta
enable_plugin neutron-vpnaas https://git.openstack.org/openstack/neutron-vpnaas
FIXED_RANGE=10.1.0.0/24
FIXED_NETWORK_SIZE=256
NETWORK_GATEWAY=10.1.0.1
PRIVATE_SUBNET_NAME=privateA
PUBLIC_SUBNET_NAME=public-subnet
FLOATING_RANGE=172.24.4.0/24
PUBLIC_NETWORK_GATEWAY=172.24.4.10
Q_FLOATING_ALLOCATION_POOL="start=172.24.4.11,end=172.24.4.29"

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:maxdepth: 3
devstack
testing-with-devstack
.. todo::

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============================
Testing VPNaaS with devstack
============================
Installation
------------
In order to use Neutron-VPNaaS with `devstack <http://devstack.org>`_ a single node setup,
you'll need the following settings in your local.conf.
.. literalinclude:: ../../../devstack/local.conf.sample
You can find an example at `devstack/local.conf.sample
<https://git.openstack.org/cgit/openstack/neutron-vpnaas/tree/devstack/local.conf.sample>`_
in the source tree.
Quick Test Script
-----------------
This quick test script creates two sites with a router, a network and a subnet connected
with public network. Then, connect both sites via VPN.
You can find an example at `tools/test_script.sh
<https://git.openstack.org/cgit/openstack/neutron-vpnaas/tree/tools/test_script.sh>`_
in the source tree.
Using Two DevStack Nodes for Testing
------------------------------------
You can use two DevStack nodes connected by a common "public" network to test VPNaaS.
The second node can be set up with the same public network as the first node, except
it will use a different gateway IP (and hence router IP). In this example, we'll assume
we have two DevStack nodes (``East`` and ``West``), each running on hardware.
.. note::
- You can do the same thing with multiple VM guests, if desired.
- You can also create similar topology using two virtual routers with one devstack.
Example Topology
^^^^^^^^^^^^^^^^
.. code-block:: none
(10.1.0.0/24 - DevStack East)
|
| 10.1.0.1
[Neutron Router]
| 172.24.4.226
|
| 172.24.4.225
[Internet GW]
|
|
[Internet GW]
| 172.24.4.232
|
| 172.24.4.233
[Neutron Router]
| 10.2.0.1
|
(10.2.0.0/24 DevStack West)
DevStack Configuration
^^^^^^^^^^^^^^^^^^^^^^
For ``East`` you need to append the following lines to the local.conf, which will give you
a private net of 10.1.0.0/24 and public network of 172.24.4.0/24
.. code-block:: none
PUBLIC_SUBNET_NAME=yoursubnet
PRIVATE_SUBNET_NAME=mysubnet
FIXED_RANGE=10.1.0.0/24
NETWORK_GATEWAY=10.1.0.1
PUBLIC_NETWORK_GATEWAY=172.24.4.225
Q_FLOATING_ALLOCATION_POOL=start=172.24.4.226,end=172.24.4.231
For ``West`` you can add the following lines to local.conf to use a different local network,
public GW (and implicitly router) IP.
.. code-block:: none
PUBLIC_SUBNET_NAME=yoursubnet
PRIVATE_SUBNET_NAME=mysubnet
FIXED_RANGE=10.2.0.0/24
NETWORK_GATEWAY=10.2.0.1
PUBLIC_NETWORK_GATEWAY=172.24.4.232
Q_FLOATING_ALLOCATION_POOL=start=172.24.4.233,end=172.24.4.238
VPNaaS Configuration
^^^^^^^^^^^^^^^^^^^^
With DevStack running on ``East`` and ``West`` and connectivity confirmed (make sure
you can ping one router/GW from the other), you can perform these VPNaaS CLI commands.
On ``East``
.. code-block:: none
neutron vpn-ikepolicy-create ikepolicy1
neutron vpn-ipsecpolicy-create ipsecpolicy1
neutron vpn-service-create --name myvpn --description "My vpn service" router1
neutron vpn-endpoint-group-create --name my-locals --type subnet --value mysubnet
neutron vpn-endpoint-group-create --name my-peers --type cidr --value 10.2.0.0/24
neutron ipsec-site-connection-create --name vpnconnection1 --vpnservice-id myvpn \
--ikepolicy-id ikepolicy1 --ipsecpolicy-id ipsecpolicy1 --peer-address 172.24.4.233 \
--peer-id 172.24.4.233 --local-ep-group my-locals --peer-ep-group my-peers --psk secret
On ``West``
.. code-block:: none
neutron vpn-ikepolicy-create ikepolicy1
neutron vpn-ipsecpolicy-create ipsecpolicy1
neutron vpn-service-create --name myvpn --description "My vpn service" router1
neutron vpn-endpoint-group-create --name my-locals --type subnet --value mysubnet
neutron vpn-endpoint-group-create --name my-peers --type cidr --value 10.1.0.0/24
neutron ipsec-site-connection-create --name vpnconnection1 --vpnservice-id myvpn \
--ikepolicy-id ikepolicy1 --ipsecpolicy-id ipsecpolicy1 --peer-address 172.24.4.226 \
--peer-id 172.24.4.226 --local-ep-group my-locals --peer-ep-group my-peers --psk secret
.. note::
Make sure setup security group (open icmp for vpn subnet etc)
Verification
^^^^^^^^^^^^
You can spin up VMs on each node, and then from the VM ping to the other one.
With tcpdump running on one of the nodes, you can see that pings appear
as encrypted packets (ESP). Note that BOOTP, IGMP, and the keepalive packets between
the two nodes are not encrypted (nor are pings between the two external IP addresses).
Once stacked, VMs were created for testing, VPN IPsec commands used to establish connections
between the nodes, and security group rules added to allow ICMP and SSH.
Using single DevStack and two routers for testing
-------------------------------------------------
Simple instructions on how to setup a test environment where a VPNaaS IPsec
connection can be established using the reference implementation (StrongSwan).
This example uses VirtualBox running on laptop to provide a VM for running
DevStack.
The idea here is to have a single OpenStack cloud created using DevStack,
two routers (one created automatically), two private networks (one created automatically)
10.1.0.0/24 and 10.2.0.0/24, a VM in each private network, and establish a VPN connection
between the two private nets, using the public network (172.24.4.0/24).
Preparation
^^^^^^^^^^^
Create a VM (e.g. 4 GB RAM, 2 CPUs) running Ubuntu 16.04, with NAT I/F for
access to the Internet. Clone a DevStack repo with latest.
DevStack Configuration
^^^^^^^^^^^^^^^^^^^^^^
For single DevStack and two routers case, You can find an example at `devstack/local_AIO.conf.sample
<https://git.openstack.org/cgit/openstack/neutron-vpnaas/tree/devstack/local_AIO.conf.sample>`_
in the source tree.
Start up the cloud using ``./stack.sh`` and ensure it completes successfully.
Once stacked, you can change ``RECLONE`` option in local.conf to No.
Cloud Configuration
^^^^^^^^^^^^^^^^^^^
Once stacking is completed, you'll have a private network (10.1.0.0/24), and a router (router1).
To prepare for establishing a VPN connection, a second network, subnet, and router needs
to be created, and a VM spun up in each private network.
.. code-block:: none
# Create second net, subnet, router
source ~/devstack/openrc admin demo
neutron net-create privateB
neutron subnet-create --name subB privateB 10.2.0.0/24 --gateway 10.2.0.1
neutron router-create routerB
neutron router-interface-add routerB subB
neutron router-gateway-set routerB public
# Start up a VM in the privateA subnet.
PRIVATE_NET=`neutron net-list | grep 'private ' | cut -f 2 -d' '`
nova boot --flavor 1 --image cirros-0.3.5-x86_64-uec --nic net-id=$PRIVATE_NET peter
# Start up a VM in the privateB subnet
PRIVATE_NETB=`neutron net-list | grep privateB | cut -f 2 -d' '`
nova boot --flavor 1 --image cirros-0.3.5-x86_64-uec --nic net-id=$PRIVATE_NETB paul
At this point, you can verify that you have basic connectivity.
.. note::
DevStack will create a static route that will allow you to ping the private interface IP of
router1 from privateB network. You can remove the route, if desired.
IPsec Site-to-site Connection Creation
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following commands will create the IPsec connection:
.. code-block:: none
# Create VPN connections
neutron vpn-ikepolicy-create ikepolicy
neutron vpn-ipsecpolicy-create ipsecpolicy
neutron vpn-service-create --name myvpn --description "My vpn service" router1
neutron vpn-endpoint-group-create --name my-localsA --type subnet --value privateA
neutron vpn-endpoint-group-create --name my-peersA --type cidr --value 10.2.0.0/24
neutron ipsec-site-connection-create --name vpnconnection1 --vpnservice-id myvpn \
--ikepolicy-id ikepolicy --ipsecpolicy-id ipsecpolicy --peer-address 172.24.4.13 \
--peer-id 172.24.4.13 --local-ep-group my-localsA --peer-ep-group my-peersA --psk secret
neutron vpn-service-create --name myvpnB --description "My vpn serviceB" routerB
neutron vpn-endpoint-group-create --name my-localsB --type subnet --value subB
neutron vpn-endpoint-group-create --name my-peersB --type cidr --value 10.1.0.0/24
neutron ipsec-site-connection-create --name vpnconnection2 --vpnservice-id myvpnB \
--ikepolicy-id ikepolicy --ipsecpolicy-id ipsecpolicy --peer-address 172.24.4.11 \
--peer-id 172.24.4.11 --local-ep-group my-localsB --peer-ep-group my-peersB --psk secret
At this point (once the connections become active - which can take up to 30 seconds or so),
you should be able to ping from the VM in the privateA network, to the VM in the privateB
network. You'll see encrypted packets, if you tcpdump using the qg-# interface from one
of the router namespaces. If you delete one of the connections, you'll see that the pings
fail (if all works out correctly :)).
.. note::
Because routerB is created manually, its public IP address may change (172.24.4.13
in this case).
Multiple Local Subnets
^^^^^^^^^^^^^^^^^^^^^^
Early in Mitaka, IPsec site-to-site connections will support multiple local subnets,
in addition to the current multiple peer CIDRs. The multiple local subnet feature
is triggered by not specifying a local subnet, when creating a VPN service.
Backwards compatibility is maintained with single local subnets, by providing
the subnet in the VPN service creation.
To support multiple local subnets, a new capability has been provided (since Liberty),
called "Endpoint Groups". Each endpoint group will define one or more endpoints of
a specific type, and can be used to specify both local and peer endpoints for
IPsec connections. The Endpoint Groups separate the "what gets connected" from
the "how to connect" for a VPN service, and can be used for different flavors
of VPN, in the future. An example:
.. code-block:: none
# Create VPN connections
neutron vpn-ikepolicy-create ikepolicy
neutron vpn-ipsecpolicy-create ipsecpolicy
neutron vpn-service-create --name myvpnC --description "My vpn service" router1
To prepare for an IPsec site-to-site, one would create an endpoint group for
the local subnets, and an endpoint group for the peer CIDRs, like so:
.. code-block:: none
neutron vpn-endpoint-group-create --name my-locals --type subnet --value privateA --value privateA2
neutron vpn-endpoint-group-create --name my-peers --type cidr --value 10.2.0.0/24 --value 20.2.0.0/24
where privateA and privateA2 are two local (private) subnets, and 10.2.0.0/24 and 20.2.0.0/24
are two CIDRs representing peer (private) subnets that will be used by a connection.
Then, when creating the IPsec site-to-site connection, these endpoint group IDs would
be specified, instead of the peer-cidrs attribute:
.. code-block:: none
neutron ipsec-site-connection-create --name vpnconnection3 --vpnservice-id myvpnC \
--ikepolicy-id ikepolicy --ipsecpolicy-id ipsecpolicy --peer-address 172.24.4.11 \
--peer-id 172.24.4.11 --local-ep-group my-locals --peer-ep-group my-peers --psk secret
.. note::
- The validation logic makes sure that endpoint groups and peer CIDRs are not intermixed.
- Endpoint group types are subnet, cidr, network, router, and vlan.
However, only subnet and cidr are implemented (for IPsec use).
- The endpoints in a group must be of the same type, although It can mix IP versions.
- For IPsec connections, validation currently enforces that the local and peer
endpoints all use the same IP version.
- IPsec connection validation requires that local endpoints are subnets,
and peer endpoints are CIDRs.
- Migration will convert information for any existing VPN services and connections to endpoint groups.
- The original APIs will work for backward compatibility.

53
tools/test_script.sh Executable file
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#!/usr/bin/env bash
EXT_NW_ID=`neutron net-list | awk '/public/{print $2}'`
WEST_SUBNET='192.168.1.0/24'
EAST_SUBNET='192.168.2.0/24'
function setup_site(){
local site_name=$1
local cidr=$2
neutron net-create net_$site_name
neutron subnet-create --name subnet_$site_name net_$site_name $2
neutron router-create router_$site_name
neutron router-interface-add router_$site_name subnet_$site_name
neutron router-gateway-set router_$site_name $EXT_NW_ID
neutron vpn-service-create --name vpn_$site_name router_$site_name subnet_$site_name
}
function get_external_ip(){
local router_id=`neutron router-show $1 | awk '/ id /{print $4}'`
echo `neutron port-list -c fixed_ips -c device_id -c device_owner|grep router_gateway | awk '/'.$router_id.'/{print $5}' | sed 's/["}]//g'`
}
function clean_site(){
local site_name=$1
neutron ipsec-site-connection-delete conn_$site_name
neutron vpn-service-list | awk '/vpn_'$site_name'/{print "neutron vpn-service-delete " $2}' | bash
neutron router-gateway-clear router_$site_name
neutron router-interface-delete router_$site_name subnet_$site_name
neutron router-list | awk '/router_'$site_name'/{print "neutron router-delete " $2}' | bash
neutron subnet-list | awk '/subnet_'$site_name'/{print "neutron subnet-delete " $2}' | bash
neutron net-list | awk '/net_'$site_name'/{print "neutron net-delete " $2}' | bash
}
function setup(){
neutron vpn-ikepolicy-create ikepolicy1
neutron vpn-ipsecpolicy-create ipsecpolicy1
setup_site west $WEST_SUBNET
WEST_IP=$(get_external_ip router_west)
setup_site east $EAST_SUBNET
EAST_IP=$(get_external_ip router_east)
neutron ipsec-site-connection-create --name conn_east --vpnservice-id vpn_east --ikepolicy-id ikepolicy1 --ipsecpolicy-id ipsecpolicy1 --peer-address $WEST_IP --peer-id $WEST_IP --peer-cidr $WEST_SUBNET --psk secret
neutron ipsec-site-connection-create --name conn_west --vpnservice-id vpn_west --ikepolicy-id ikepolicy1 --ipsecpolicy-id ipsecpolicy1 --peer-address $EAST_IP --peer-id $EAST_IP --peer-cidr $EAST_SUBNET --psk secret
}
function cleanup(){
clean_site west
clean_site east
neutron vpn-ikepolicy-delete ikepolicy1
neutron vpn-ipsecpolicy-delete ipsecpolicy1
}
cleanup
setup