[mirror_ubuntu-artful-kernel.git] / Documentation / networking / gtp.txt

The Linux kernel GTP tunneling module
======================================================================
Documentation by Harald Welte <laforge@gnumonks.org>

In 'drivers/net/gtp.c' you are finding a kernel-level implementation
of a GTP tunnel endpoint.

== What is GTP ==

GTP is the Generic Tunnel Protocol, which is a 3GPP protocol used for
tunneling User-IP payload between a mobile station (phone, modem)
and the interconnection between an external packet data network (such
as the internet).

So when you start a 'data connection' from your mobile phone, the
phone will use the control plane to signal for the establishment of
such a tunnel between that external data network and the phone.  The
tunnel endpoints thus reside on the phone and in the gateway.  All
intermediate nodes just transport the encapsulated packet.

The phone itself does not implement GTP but uses some other
technology-dependent protocol stack for transmitting the user IP
payload, such as LLC/SNDCP/RLC/MAC.

At some network element inside the cellular operator infrastructure
(SGSN in case of GPRS/EGPRS or classic UMTS, hNodeB in case of a 3G
femtocell, eNodeB in case of 4G/LTE), the cellular protocol stacking
is translated into GTP *without breaking the end-to-end tunnel*.  So
intermediate nodes just perform some specific relay function.

At some point the GTP packet ends up on the so-called GGSN (GSM/UMTS)
or P-GW (LTE), which terminates the tunnel, decapsulates the packet
and forwards it onto an external packet data network.  This can be
public internet, but can also be any private IP network (or even
theoretically some non-IP network like X.25).

You can find the protocol specification in 3GPP TS 29.060, available
publicly via the 3GPP website at http://www.3gpp.org/DynaReport/29060.htm

A direct PDF link to v13.6.0 is provided for convenience below:
http://www.etsi.org/deliver/etsi_ts/129000_129099/129060/13.06.00_60/ts_129060v130600p.pdf

== The Linux GTP tunnelling module ==

The module implements the function of a tunnel endpoint, i.e. it is
able to decapsulate tunneled IP packets in the uplink originated by
the phone, and encapsulate raw IP packets received from the external
packet network in downlink towards the phone.

It *only* implements the so-called 'user plane', carrying the User-IP
payload, called GTP-U.  It does not implement the 'control plane',
which is a signaling protocol used for establishment and teardown of
GTP tunnels (GTP-C).

So in order to have a working GGSN/P-GW setup, you will need a
userspace program that implements the GTP-C protocol and which then
uses the netlink interface provided by the GTP-U module in the kernel
to configure the kernel module.

This split architecture follows the tunneling modules of other
protocols, e.g. PPPoE or L2TP, where you also run a userspace daemon
to handle the tunnel establishment, authentication etc. and only the
data plane is accelerated inside the kernel.

Don't be confused by terminology:  The GTP User Plane goes through
kernel accelerated path, while the GTP Control Plane goes to
Userspace :)

The official homepge of the module is at
https://osmocom.org/projects/linux-kernel-gtp-u/wiki

== Userspace Programs with Linux Kernel GTP-U support ==

At the time of this writing, there are at least two Free Software
implementations that implement GTP-C and can use the netlink interface
to make use of the Linux kernel GTP-U support:

* OpenGGSN (classic 2G/3G GGSN in C):
  https://osmocom.org/projects/openggsn/wiki/OpenGGSN

* ergw (GGSN + P-GW in Erlang):
  https://github.com/travelping/ergw

== Userspace Library / Command Line Utilities ==

There is a userspace library called 'libgtpnl' which is based on
libmnl and which implements a C-language API towards the netlink
interface provided by the Kernel GTP module:

http://git.osmocom.org/libgtpnl/

== Protocol Versions ==

There are two different versions of GTP-U: v0 and v1.  Both are
implemented in the Kernel GTP module.  Version 0 is a legacy version,
and deprecated from recent 3GPP specifications.

There are three versions of GTP-C: v0, v1, and v2.  As the kernel
doesn't implement GTP-C, we don't have to worry about this.  It's the
responsibility of the control plane implementation in userspace to
implement that.

== IPv6 ==

The 3GPP specifications indicate either IPv4 or IPv6 can be used both
on the inner (user) IP layer, or on the outer (transport) layer.

Unfortunately, the Kernel module currently supports IPv6 neither for
the User IP payload, nor for the outer IP layer.  Patches or other
Contributions to fix this are most welcome!

== Mailing List ==

If yo have questions regarding how to use the Kernel GTP module from
your own software, or want to contribute to the code, please use the
osmocom-net-grps mailing list for related discussion. The list can be
reached at osmocom-net-gprs@lists.osmocom.org and the mailman
interface for managign your subscription is at
https://lists.osmocom.org/mailman/listinfo/osmocom-net-gprs

== Issue Tracker ==

The Osmocom project maintains an issue tracker for the Kernel GTP-U
module at
https://osmocom.org/projects/linux-kernel-gtp-u/issues

== History / Acknowledgements ==

The Module was originally created in 2012 by Harald Welte, but never
completed.  Pablo came in to finish the mess Harald left behind.  But
doe to a lack of user interest, it never got merged.

In 2015, Andreas Schultz came to the rescue and fixed lots more bugs,
extended it with new features and finally pushed all of us to get it
mainline, where it was merged in 4.7.0.
Commit	Line	Data
93a66e93 HW	1	The Linux kernel GTP tunneling module
	2	======================================================================
	3	Documentation by Harald Welte <laforge@gnumonks.org>
	4
	5	In 'drivers/net/gtp.c' you are finding a kernel-level implementation
	6	of a GTP tunnel endpoint.
	7
	8	== What is GTP ==
	9
	10	GTP is the Generic Tunnel Protocol, which is a 3GPP protocol used for
	11	tunneling User-IP payload between a mobile station (phone, modem)
	12	and the interconnection between an external packet data network (such
	13	as the internet).
	14
	15	So when you start a 'data connection' from your mobile phone, the
	16	phone will use the control plane to signal for the establishment of
	17	such a tunnel between that external data network and the phone. The
	18	tunnel endpoints thus reside on the phone and in the gateway. All
	19	intermediate nodes just transport the encapsulated packet.
	20
	21	The phone itself does not implement GTP but uses some other
	22	technology-dependent protocol stack for transmitting the user IP
	23	payload, such as LLC/SNDCP/RLC/MAC.
	24
	25	At some network element inside the cellular operator infrastructure
	26	(SGSN in case of GPRS/EGPRS or classic UMTS, hNodeB in case of a 3G
	27	femtocell, eNodeB in case of 4G/LTE), the cellular protocol stacking
	28	is translated into GTP without breaking the end-to-end tunnel. So
	29	intermediate nodes just perform some specific relay function.
	30
	31	At some point the GTP packet ends up on the so-called GGSN (GSM/UMTS)
	32	or P-GW (LTE), which terminates the tunnel, decapsulates the packet
	33	and forwards it onto an external packet data network. This can be
	34	public internet, but can also be any private IP network (or even
	35	theoretically some non-IP network like X.25).
	36
	37	You can find the protocol specification in 3GPP TS 29.060, available
	38	publicly via the 3GPP website at http://www.3gpp.org/DynaReport/29060.htm
	39
	40	A direct PDF link to v13.6.0 is provided for convenience below:
	41	http://www.etsi.org/deliver/etsi_ts/129000_129099/129060/13.06.00_60/ts_129060v130600p.pdf
	42
	43	== The Linux GTP tunnelling module ==
	44
	45	The module implements the function of a tunnel endpoint, i.e. it is
	46	able to decapsulate tunneled IP packets in the uplink originated by
	47	the phone, and encapsulate raw IP packets received from the external
	48	packet network in downlink towards the phone.
	49
	50	It only implements the so-called 'user plane', carrying the User-IP
	51	payload, called GTP-U. It does not implement the 'control plane',
	52	which is a signaling protocol used for establishment and teardown of
	53	GTP tunnels (GTP-C).
	54
	55	So in order to have a working GGSN/P-GW setup, you will need a
	56	userspace program that implements the GTP-C protocol and which then
	57	uses the netlink interface provided by the GTP-U module in the kernel
	58	to configure the kernel module.
	59
	60	This split architecture follows the tunneling modules of other
	61	protocols, e.g. PPPoE or L2TP, where you also run a userspace daemon
	62	to handle the tunnel establishment, authentication etc. and only the
	63	data plane is accelerated inside the kernel.
	64
65	Don't be confused by terminology: The GTP User Plane goes through
66	kernel accelerated path, while the GTP Control Plane goes to
67	Userspace :)
68
69	The official homepge of the module is at
70	https://osmocom.org/projects/linux-kernel-gtp-u/wiki
71
72	== Userspace Programs with Linux Kernel GTP-U support ==
73
74	At the time of this writing, there are at least two Free Software
75	implementations that implement GTP-C and can use the netlink interface
76	to make use of the Linux kernel GTP-U support:
77
78	* OpenGGSN (classic 2G/3G GGSN in C):
79	https://osmocom.org/projects/openggsn/wiki/OpenGGSN
80
81	* ergw (GGSN + P-GW in Erlang):
82	https://github.com/travelping/ergw
83
84	== Userspace Library / Command Line Utilities ==
85
86	There is a userspace library called 'libgtpnl' which is based on
87	libmnl and which implements a C-language API towards the netlink
88	interface provided by the Kernel GTP module:
89
90	http://git.osmocom.org/libgtpnl/
91
92	== Protocol Versions ==
93
94	There are two different versions of GTP-U: v0 and v1. Both are
95	implemented in the Kernel GTP module. Version 0 is a legacy version,
96	and deprecated from recent 3GPP specifications.
97
98	There are three versions of GTP-C: v0, v1, and v2. As the kernel
99	doesn't implement GTP-C, we don't have to worry about this. It's the
100	responsibility of the control plane implementation in userspace to
101	implement that.
102
103	== IPv6 ==
104
105	The 3GPP specifications indicate either IPv4 or IPv6 can be used both
106	on the inner (user) IP layer, or on the outer (transport) layer.
107
108	Unfortunately, the Kernel module currently supports IPv6 neither for
109	the User IP payload, nor for the outer IP layer. Patches or other
110	Contributions to fix this are most welcome!
111
112	== Mailing List ==
113
114	If yo have questions regarding how to use the Kernel GTP module from
115	your own software, or want to contribute to the code, please use the
116	osmocom-net-grps mailing list for related discussion. The list can be
117	reached at osmocom-net-gprs@lists.osmocom.org and the mailman
118	interface for managign your subscription is at
119	https://lists.osmocom.org/mailman/listinfo/osmocom-net-gprs
120
121	== Issue Tracker ==
122
123	The Osmocom project maintains an issue tracker for the Kernel GTP-U
124	module at
125	https://osmocom.org/projects/linux-kernel-gtp-u/issues
126
127	== History / Acknowledgements ==
128
129	The Module was originally created in 2012 by Harald Welte, but never
130	completed. Pablo came in to finish the mess Harald left behind. But
131	doe to a lack of user interest, it never got merged.
132
133	In 2015, Andreas Schultz came to the rescue and fixed lots more bugs,
134	extended it with new features and finally pushed all of us to get it
135	mainline, where it was merged in 4.7.0.