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Virtual IP » History » Version 20

Version 19 (Tobias Brunner, 31.05.2016 09:13) → Version 20/24 (Brian Julin, 07.12.2016 01:35)

h1. Virtual IP

{{>toc}}

IKEv1 and IKEv2 both know the concept of _virtual IPs_. This means that the initiator requests an additional IP address from the responder to use as inner IPsec tunnel address.

In IKEv1, virtual IPs are exchanged using the _mode config_ extension. IKEv2 has full support for virtual IPs in the core standard using _configuration payloads_.

strongSwan currently implements one scenario with IKEv2 configuration payloads, where an IP address is assigned to the initiator (since version:5.0.1 multiple addresses can be assigned from multiple pools). The opposite is possible by the protocol, but is an uncommon setup and therefore not supported. It is supported for IKEv1, though, with mode config in _push mode_.

h2. Initiator Configuration

To request an *arbitrary* virtual IP from the responder the client configures the following:

|_<.Configuration File |_<.IPv4|_<.IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.vips = 0.0.0.0_|_connections.<conn>.vips = ::_|
|(level2). [[ipsec.conf]] |_leftsourceip=%config_|_leftsourceip=%config6_|

It is possible to request a specific address by setting:

|_<.Configuration File |_<.IPv4|_<.IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.vips = 10.3.0.5_|_connections.<conn>.vips = 2001:db8::1_|
|(level2). [[ipsec.conf]] |_leftsourceip=10.3.0.5_|_leftsourceip=2001:db8::1_|

However, the responder may return a *different address*, or may *not return* one at all.

To use a *specific and static* virtual IP (i.e. without exchanging any configuration payloads) it may simply be added to any local interface (even _lo_) and referenced in the client's local traffic selector (_local_ts_ in [[swanctl.conf]] or _leftsubnet_ in [[ipsec.conf]]). Configuring such an IP as in the example above will not have the intended effect because the IP won't get [[VirtualIp#Implementation|installed on the system]] unless the server actually assigns that IP to the client with a configuration payload.

The *traffic selectors* in [[swanctl.conf]] and [[ipsec.conf]] (_local|remote_ts_ and _left|rightsubnet_, respectively) default to the value _%dynamic_. If virtual IPs are used, this value gets dynamically replaced by the received or assigned virtual IP.
Therefore, no local traffic selector *must be* configured on the client and no remote traffic selector on the server when using virtual IPs. This ensures the client's traffic selector is correctly narrowed to the assigned virtual IP.

Since version:5.0.1 a client may request *multiple* IP addresses by listing a comma-separated combination of _%config4_, _%config6_ or fixed IP addresses in _leftsourceip_, respectively multiple IP addresses in _connections.<conn>.vips_. Configuring _%config_ in _leftsourceip_ will request an address of the traffic selectors' address family.
The main use case is for dual-stack hosts to request a virtual IP of each address family:

|_<.Configuration File |_<.IPv4 & IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.vips = 0.0.0.0, ::_|
|(level2). [[ipsec.conf]] |_leftsourceip=%config4,%config6_|

This is also illustrated in the {{tc(ikev2/ip-two-pools-v4v6)}} test scenario.

h3. DNS servers

Before version:5.0.1 the client couldn't explicitly request other attributes, but it may still have requested and processed the DNS attribute (depending on the loaded plugins). With current releases DNS servers may explicitly be requested with the _leftdns_ option in [[ipsec.conf]] (there is nothing similar in [[swanctl.conf]]). Received DNS servers are handled, for instance, by the [[resolveplugin|resolve plugin]], which uses the @resolvconf@ utility to install them or writes them to _/etc/resolv.conf_ (or another file specified with the _--with-resolve-conf_ configure directive).

h3. Implementation

On Linux, the virtual IP addresses will be installed on the outbound interface by default (may be changed, since version:5.0.1, with the _charon.install_virtual_ip_on_ option) and source routes will be installed in the routing table configured with _charon.routing_table_ in [[strongswan.conf]] (or [[Autoconf|./configured]] with _--with-routing-table_). The source routes force the use of the virtual IP when sending packets to the subnets defined as remote traffic selector (if the physical IP was used the IPsec policies wouldn't match and the packets wouldn't get tunneled).

h2. Responder Configuration

As already documented above, the remote *traffic selector* in [[swanctl.conf]] and [[ipsec.conf]] (_remote_ts_ and _rightsubnet_, respectively) defaults to the value _%dynamic_. This value gets dynamically replaced by the virtual IP assigned to a client. Therefore, *no remote traffic selector must be configured* on the server when using virtual IPs. This ensures the client's traffic selector is correctly narrowed to the assigned virtual IP (otherwise, every client would get the same traffic selector assigned, resulting in conflicting policies).

To serve a specific IP address (even if the initiator requests a different address) to a single client the following may be configured:

|_<.Configuration File |_<.IPv4|_<.IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 10.3.0.5_|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 2001:db8::1_|
|(level2). [[ipsec.conf]] |_rightsourceip=10.3.0.5_|_rightsourceip=2001:db8::1_|

Alternatively, the responder may define the following to let the client choose an address. This is *not recommended* if the client is not completely trusted.

|_<.Configuration File |_<.IPv4 & IPv6|
|(level2). [[ipsec.conf]] |_rightsourceip=%config_|

To serve *multiple clients* define an address pool in CIDR notation or as an address range:

|_<.Configuration File |_<.IPv4|_<.IPv6|
|/2(level2). [[swanctl.conf]]|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 10.3.0.0/24_|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 2001:db8::3:0/24_|
|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 10.3.0.1-10.3.0.100_|_connections.<conn>.pools = <name>_
_pools.<name>.addrs = 2001:db8::3:1-2001:db8::3:100_|
|/2(level2). [[ipsec.conf]] |_rightsourceip=10.3.0.0/24_|_rightsourceip=2001:db8::3:0/24_|
|_rightsourceip=10.3.0.1-10.3.0.100_|_rightsourceip=2001:db8::3:1-2001:db8::3:100_|

Since version:5.0.1 multiple connections in [[ipsec.conf]] (i.e. [[ConnSection|conn sections]]) can share the same pool if they use the same definition in _rightsourceip_ (previously each connection would use it's own copy and the same virtual IP may have been handed out to different clients).
As address pools are explicitly assigned to connections defined in [[swanctl.conf]] multiple connections can easily share the same pool.

It's also possible to use an external pool provided by a plugin by specifying a pool name to request addresses from:

|_<.Configuration File |_<.IPv4 & IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = poolname_|
|(level2). [[ipsec.conf]] |_rightsourceip=%poolname_|

This queries registered plugins for an IP address from a pool named _poolname_ (below are two examples that use the _dhcp_ and _eap-radius_ plugins, respectively).

Multiple pools may be listed since version:5.0.1:

|_<.Configuration File |_<.IPv4 & IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = v4pool, v6pool_
_pools.v4pool.addrs = 10.3.0.0/24_
_pools.v6pool.addrs = 2001:db8::3:0/24_|
|(level2). [[ipsec.conf]] |_rightsourceip=10.3.0.0/28,2001:db8::3:0/24_|

As used in the {{tc(ikev2/ip-two-pools-v4v6)}} test scenario.

h3. DNS servers

DNS servers and other attributes can be assigned by plugins (e.g. the [[AttrPlugin|attr plugin]]) or since version:5.0.1 directly in [[ipsec.conf]] by use of the _rightdns_ option. In [[swanctl.conf]] each pool in the _pools_ section may define a list of attributes to assign to clients.

h3. In-memory backend

A non-persistent memory-based back-end is the default. This backend is suitable for environments where pools are not shared across multiple gateways, server restarts are rare, and direct administration of the pools is not needed (though there are some provisions for non-destructively reloading pool configurations in a running server when using [[swanctl.conf]].) To preserve IP address affinity, the IPSec Identity (as defined for the connection in question) and the far-end IP address and port are used. This maintains the same IP for a client (most of the time) even across brief teardowns of connections, approximating the behavior of a DHCP server without the stricture of lease expiry timers, but prevents clients from intentionally attempting to get a different IP address as there is no corresponding release mechanism,

h3.
Database backend

The [[IpsecPool|ipsec pool]] utility allows to easily manage IP address pools and other attributes, like DNS servers, stored in an SQL database using the [[attrsql|attr-sql plugin]].

h3. DHCP backend

With the [[DHCPPlugin|dhcp plugin]] the responder can request virtual IP addresses for clients from a DHCP server using broadcasts, or a designated server.

DNS/WINS server information is additionally served to clients if the DHCP server provides such information.

The plugin is used by setting

|_<.Configuration File |_<.IPv4|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = dhcp_|
|(level2). [[ipsec.conf]] |_rightsourceip=%dhcp_|

The [[FARPPlugin|farp plugin]] might also be of use when using the [[DHCPPlugin|dhcp plugin]]. It allows the responder to fake ARP responses for virtual IP addresses handed out to clients. This lets a road-warrior act as a client on the local LAN of the responder.

h3. RADIUS backend

Since version:5.0.3 the [[EAPRAdius|RADIUS plugin]] can provide virtual IP addresses assigned to RADIUS clients via the Framed-IP-Address attribute. [[EAPRAdius#RADIUS-attribute-forwarding|Forwarding of other RADIUS attributes]] has been added in later releases.

The plugin is used by setting

|_<.Configuration File |_<.IPv4 & IPv6|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = radius_|
|(level2). [[ipsec.conf]] |_rightsourceip=%radius_|

h3. Multiple pools, different backends

If multiple pools are defined from *different* backends, for instance

|_<.Configuration File |_<.IPv4|
|(level2). [[swanctl.conf]]|_connections.<conn>.pools = radius, v4pool_
_pools.v4pool.addrs = 10.3.0.0/24_|
|(level2). [[ipsec.conf]] |_rightsourceip=%radius,10.3.0.0/24_|

the order in which they are queried for virtual IPs depends on the [[PluginLoad|plugin load order]] (in-memory pools are provided by the _stroke_ and _vici_ plugins, respectively). The order in _rightsourceip_ or _pools_ is irrelevant unless multiple in-memory pools from the same backend are defined.

h2. Versions before 5.0.0

The description above covers the features of the charon daemon, which handled only IKEv2 connections in earlier releases. The pluto daemon that handled IKEv1 connections provided a similar feature set but not everything was supported (for instance, the _dhcp_ and _farp_ plugins).

The pluto daemon did not request virtual IP addresses from the responder if they were explicitly configured with _leftsourceip_ (but it still installed it on the system, which charon does not do). In that case, that is, if the virtual IP was not assigned by the responder with _rightsourceip_ one may had to use the _rightsubnetwithin_ directive (refer to "this example":http://www.strongswan.org/uml/testresults4/ikev1/virtual-ip/). That's not required in charon due to narrowing.

The IKEv2 daemon charon supports address pools since version version:4.2.1, the IKEv1 daemon pluto gained support for this in version:4.4.0.