Commit 2f77a3f5 authored by James Chapman's avatar James Chapman Committed by David S. Miller

l2tp: Update documentation

This patch adds documentation about the L2TPv3 functionality.
Signed-off-by: default avatarJames Chapman <jchapman@katalix.com>
Reviewed-by: default avatarRandy Dunlap <randy.dunlap@oracle.com>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent 789a4a2c
This brief document describes how to use the kernel's PPPoL2TP driver This document describes how to use the kernel's L2TP drivers to
to provide L2TP functionality. L2TP is a protocol that tunnels one or provide L2TP functionality. L2TP is a protocol that tunnels one or
more PPP sessions over a UDP tunnel. It is commonly used for VPNs more sessions over an IP tunnel. It is commonly used for VPNs
(L2TP/IPSec) and by ISPs to tunnel subscriber PPP sessions over an IP (L2TP/IPSec) and by ISPs to tunnel subscriber PPP sessions over an IP
network infrastructure. network infrastructure. With L2TPv3, it is also useful as a Layer-2
tunneling infrastructure.
Features
========
L2TPv2 (PPP over L2TP (UDP tunnels)).
L2TPv3 ethernet pseudowires.
L2TPv3 PPP pseudowires.
L2TPv3 IP encapsulation.
Netlink sockets for L2TPv3 configuration management.
History
=======
The original pppol2tp driver was introduced in 2.6.23 and provided
L2TPv2 functionality (rfc2661). L2TPv2 is used to tunnel one or more PPP
sessions over a UDP tunnel.
L2TPv3 (rfc3931) changes the protocol to allow different frame types
to be passed over an L2TP tunnel by moving the PPP-specific parts of
the protocol out of the core L2TP packet headers. Each frame type is
known as a pseudowire type. Ethernet, PPP, HDLC, Frame Relay and ATM
pseudowires for L2TP are defined in separate RFC standards. Another
change for L2TPv3 is that it can be carried directly over IP with no
UDP header (UDP is optional). It is also possible to create static
unmanaged L2TPv3 tunnels manually without a control protocol
(userspace daemon) to manage them.
To support L2TPv3, the original pppol2tp driver was split up to
separate the L2TP and PPP functionality. Existing L2TPv2 userspace
apps should be unaffected as the original pppol2tp sockets API is
retained. L2TPv3, however, uses netlink to manage L2TPv3 tunnels and
sessions.
Design Design
====== ======
The PPPoL2TP driver, drivers/net/pppol2tp.c, provides a mechanism by The L2TP protocol separates control and data frames. The L2TP kernel
which PPP frames carried through an L2TP session are passed through drivers handle only L2TP data frames; control frames are always
the kernel's PPP subsystem. The standard PPP daemon, pppd, handles all handled by userspace. L2TP control frames carry messages between L2TP
PPP interaction with the peer. PPP network interfaces are created for clients/servers and are used to setup / teardown tunnels and
each local PPP endpoint. sessions. An L2TP client or server is implemented in userspace.
The L2TP protocol http://www.faqs.org/rfcs/rfc2661.html defines L2TP Each L2TP tunnel is implemented using a UDP or L2TPIP socket; L2TPIP
control and data frames. L2TP control frames carry messages between provides L2TPv3 IP encapsulation (no UDP) and is implemented using a
L2TP clients/servers and are used to setup / teardown tunnels and new l2tpip socket family. The tunnel socket is typically created by
sessions. An L2TP client or server is implemented in userspace and userspace, though for unmanaged L2TPv3 tunnels, the socket can also be
will use a regular UDP socket per tunnel. L2TP data frames carry PPP created by the kernel. Each L2TP session (pseudowire) gets a network
frames, which may be PPP control or PPP data. The kernel's PPP interface instance. In the case of PPP, these interfaces are created
indirectly by pppd using a pppol2tp socket. In the case of ethernet,
the netdevice is created upon a netlink request to create an L2TPv3
ethernet pseudowire.
For PPP, the PPPoL2TP driver, net/l2tp/l2tp_ppp.c, provides a
mechanism by which PPP frames carried through an L2TP session are
passed through the kernel's PPP subsystem. The standard PPP daemon,
pppd, handles all PPP interaction with the peer. PPP network
interfaces are created for each local PPP endpoint. The kernel's PPP
subsystem arranges for PPP control frames to be delivered to pppd, subsystem arranges for PPP control frames to be delivered to pppd,
while data frames are forwarded as usual. while data frames are forwarded as usual.
For ethernet, the L2TPETH driver, net/l2tp/l2tp_eth.c, implements a
netdevice driver, managing virtual ethernet devices, one per
pseudowire. These interfaces can be managed using standard Linux tools
such as "ip" and "ifconfig". If only IP frames are passed over the
tunnel, the interface can be given an IP addresses of itself and its
peer. If non-IP frames are to be passed over the tunnel, the interface
can be added to a bridge using brctl. All L2TP datapath protocol
functions are handled by the L2TP core driver.
Each tunnel and session within a tunnel is assigned a unique tunnel_id Each tunnel and session within a tunnel is assigned a unique tunnel_id
and session_id. These ids are carried in the L2TP header of every and session_id. These ids are carried in the L2TP header of every
control and data packet. The pppol2tp driver uses them to lookup control and data packet. (Actually, in L2TPv3, the tunnel_id isn't
internal tunnel and/or session contexts. Zero tunnel / session ids are present in data frames - it is inferred from the IP connection on
treated specially - zero ids are never assigned to tunnels or sessions which the packet was received.) The L2TP driver uses the ids to lookup
in the network. In the driver, the tunnel context keeps a pointer to internal tunnel and/or session contexts to determine how to handle the
the tunnel UDP socket. The session context keeps a pointer to the packet. Zero tunnel / session ids are treated specially - zero ids are
PPPoL2TP socket, as well as other data that lets the driver interface never assigned to tunnels or sessions in the network. In the driver,
to the kernel PPP subsystem. the tunnel context keeps a reference to the tunnel UDP or L2TPIP
socket. The session context holds data that lets the driver interface
Note that the pppol2tp kernel driver handles only L2TP data frames; to the kernel's network frame type subsystems, i.e. PPP, ethernet.
L2TP control frames are simply passed up to userspace in the UDP
tunnel socket. The kernel handles all datapath aspects of the Userspace Programming
protocol, including data packet resequencing (if enabled). =====================
There are a number of requirements on the userspace L2TP daemon in For L2TPv2, there are a number of requirements on the userspace L2TP
order to use the pppol2tp driver. daemon in order to use the pppol2tp driver.
1. Use a UDP socket per tunnel. 1. Use a UDP socket per tunnel.
...@@ -86,6 +137,35 @@ In addition to the standard PPP ioctls, a PPPIOCGL2TPSTATS is provided ...@@ -86,6 +137,35 @@ In addition to the standard PPP ioctls, a PPPIOCGL2TPSTATS is provided
to retrieve tunnel and session statistics from the kernel using the to retrieve tunnel and session statistics from the kernel using the
PPPoX socket of the appropriate tunnel or session. PPPoX socket of the appropriate tunnel or session.
For L2TPv3, userspace must use the netlink API defined in
include/linux/l2tp.h to manage tunnel and session contexts. The
general procedure to create a new L2TP tunnel with one session is:-
1. Open a GENL socket using L2TP_GENL_NAME for configuring the kernel
using netlink.
2. Create a UDP or L2TPIP socket for the tunnel.
3. Create a new L2TP tunnel using a L2TP_CMD_TUNNEL_CREATE
request. Set attributes according to desired tunnel parameters,
referencing the UDP or L2TPIP socket created in the previous step.
4. Create a new L2TP session in the tunnel using a
L2TP_CMD_SESSION_CREATE request.
The tunnel and all of its sessions are closed when the tunnel socket
is closed. The netlink API may also be used to delete sessions and
tunnels. Configuration and status info may be set or read using netlink.
The L2TP driver also supports static (unmanaged) L2TPv3 tunnels. These
are where there is no L2TP control message exchange with the peer to
setup the tunnel; the tunnel is configured manually at each end of the
tunnel. There is no need for an L2TP userspace application in this
case -- the tunnel socket is created by the kernel and configured
using parameters sent in the L2TP_CMD_TUNNEL_CREATE netlink
request. The "ip" utility of iproute2 has commands for managing static
L2TPv3 tunnels; do "ip l2tp help" for more information.
Debugging Debugging
========= =========
...@@ -102,6 +182,69 @@ PPPOL2TP_MSG_CONTROL userspace - kernel interface ...@@ -102,6 +182,69 @@ PPPOL2TP_MSG_CONTROL userspace - kernel interface
PPPOL2TP_MSG_SEQ sequence numbers handling PPPOL2TP_MSG_SEQ sequence numbers handling
PPPOL2TP_MSG_DATA data packets PPPOL2TP_MSG_DATA data packets
If enabled, files under a l2tp debugfs directory can be used to dump
kernel state about L2TP tunnels and sessions. To access it, the
debugfs filesystem must first be mounted.
# mount -t debugfs debugfs /debug
Files under the l2tp directory can then be accessed.
# cat /debug/l2tp/tunnels
The debugfs files should not be used by applications to obtain L2TP
state information because the file format is subject to change. It is
implemented to provide extra debug information to help diagnose
problems.) Users should use the netlink API.
/proc/net/pppol2tp is also provided for backwards compaibility with
the original pppol2tp driver. It lists information about L2TPv2
tunnels and sessions only. Its use is discouraged.
Unmanaged L2TPv3 Tunnels
========================
Some commercial L2TP products support unmanaged L2TPv3 ethernet
tunnels, where there is no L2TP control protocol; tunnels are
configured at each side manually. New commands are available in
iproute2's ip utility to support this.
To create an L2TPv3 ethernet pseudowire between local host 192.168.1.1
and peer 192.168.1.2, using IP addresses 10.5.1.1 and 10.5.1.2 for the
tunnel endpoints:-
# modprobe l2tp_eth
# modprobe l2tp_netlink
# ip l2tp add tunnel tunnel_id 1 peer_tunnel_id 1 udp_sport 5000 \
udp_dport 5000 encap udp local 192.168.1.1 remote 192.168.1.2
# ip l2tp add session tunnel_id 1 session_id 1 peer_session_id 1
# ifconfig -a
# ip addr add 10.5.1.2/32 peer 10.5.1.1/32 dev l2tpeth0
# ifconfig l2tpeth0 up
Choose IP addresses to be the address of a local IP interface and that
of the remote system. The IP addresses of the l2tpeth0 interface can be
anything suitable.
Repeat the above at the peer, with ports, tunnel/session ids and IP
addresses reversed. The tunnel and session IDs can be any non-zero
32-bit number, but the values must be reversed at the peer.
Host 1 Host2
udp_sport=5000 udp_sport=5001
udp_dport=5001 udp_dport=5000
tunnel_id=42 tunnel_id=45
peer_tunnel_id=45 peer_tunnel_id=42
session_id=128 session_id=5196755
peer_session_id=5196755 peer_session_id=128
When done at both ends of the tunnel, it should be possible to send
data over the network. e.g.
# ping 10.5.1.1
Sample Userspace Code Sample Userspace Code
===================== =====================
...@@ -158,12 +301,48 @@ Sample Userspace Code ...@@ -158,12 +301,48 @@ Sample Userspace Code
} }
return 0; return 0;
Internal Implementation
=======================
The driver keeps a struct l2tp_tunnel context per L2TP tunnel and a
struct l2tp_session context for each session. The l2tp_tunnel is
always associated with a UDP or L2TP/IP socket and keeps a list of
sessions in the tunnel. The l2tp_session context keeps kernel state
about the session. It has private data which is used for data specific
to the session type. With L2TPv2, the session always carried PPP
traffic. With L2TPv3, the session can also carry ethernet frames
(ethernet pseudowire) or other data types such as ATM, HDLC or Frame
Relay.
When a tunnel is first opened, the reference count on the socket is
increased using sock_hold(). This ensures that the kernel socket
cannot be removed while L2TP's data structures reference it.
Some L2TP sessions also have a socket (PPP pseudowires) while others
do not (ethernet pseudowires). We can't use the socket reference count
as the reference count for session contexts. The L2TP implementation
therefore has its own internal reference counts on the session
contexts.
To Do
=====
Add L2TP tunnel switching support. This would route tunneled traffic
from one L2TP tunnel into another. Specified in
http://tools.ietf.org/html/draft-ietf-l2tpext-tunnel-switching-08
Add L2TPv3 VLAN pseudowire support.
Add L2TPv3 IP pseudowire support.
Add L2TPv3 ATM pseudowire support.
Miscellaneous Miscellaneous
============ =============
The PPPoL2TP driver was developed as part of the OpenL2TP project by The L2TP drivers were developed as part of the OpenL2TP project by
Katalix Systems Ltd. OpenL2TP is a full-featured L2TP client / server, Katalix Systems Ltd. OpenL2TP is a full-featured L2TP client / server,
designed from the ground up to have the L2TP datapath in the designed from the ground up to have the L2TP datapath in the
kernel. The project also implemented the pppol2tp plugin for pppd kernel. The project also implemented the pppol2tp plugin for pppd
which allows pppd to use the kernel driver. Details can be found at which allows pppd to use the kernel driver. Details can be found at
http://openl2tp.sourceforge.net. http://www.openl2tp.org.
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