docs: networking: convert gtp.txt to ReST
- add SPDX header; - adjust titles and chapters, adding proper markups; - add notes markups; - adjust identation, whitespaces and blank lines; - add to networking/index.rst. Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org> Signed-off-by: David S. Miller <davem@davemloft.net>
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.. SPDX-License-Identifier: GPL-2.0
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=====================================
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The Linux kernel GTP tunneling module
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The Linux kernel GTP tunneling module
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======================================================================
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=====================================
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Documentation by Harald Welte <laforge@gnumonks.org> and
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Andreas Schultz <aschultz@tpip.net>
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Documentation by
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Harald Welte <laforge@gnumonks.org> and
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Andreas Schultz <aschultz@tpip.net>
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In 'drivers/net/gtp.c' you are finding a kernel-level implementation
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In 'drivers/net/gtp.c' you are finding a kernel-level implementation
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of a GTP tunnel endpoint.
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of a GTP tunnel endpoint.
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== What is GTP ==
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What is GTP
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===========
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GTP is the Generic Tunnel Protocol, which is a 3GPP protocol used for
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GTP is the Generic Tunnel Protocol, which is a 3GPP protocol used for
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tunneling User-IP payload between a mobile station (phone, modem)
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tunneling User-IP payload between a mobile station (phone, modem)
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@ -41,7 +47,8 @@ publicly via the 3GPP website at http://www.3gpp.org/DynaReport/29060.htm
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A direct PDF link to v13.6.0 is provided for convenience below:
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A direct PDF link to v13.6.0 is provided for convenience below:
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http://www.etsi.org/deliver/etsi_ts/129000_129099/129060/13.06.00_60/ts_129060v130600p.pdf
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http://www.etsi.org/deliver/etsi_ts/129000_129099/129060/13.06.00_60/ts_129060v130600p.pdf
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== The Linux GTP tunnelling module ==
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The Linux GTP tunnelling module
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===============================
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The module implements the function of a tunnel endpoint, i.e. it is
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The module implements the function of a tunnel endpoint, i.e. it is
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able to decapsulate tunneled IP packets in the uplink originated by
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able to decapsulate tunneled IP packets in the uplink originated by
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@ -70,7 +77,8 @@ Userspace :)
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The official homepage of the module is at
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The official homepage of the module is at
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https://osmocom.org/projects/linux-kernel-gtp-u/wiki
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https://osmocom.org/projects/linux-kernel-gtp-u/wiki
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== Userspace Programs with Linux Kernel GTP-U support ==
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Userspace Programs with Linux Kernel GTP-U support
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==================================================
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At the time of this writing, there are at least two Free Software
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At the time of this writing, there are at least two Free Software
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implementations that implement GTP-C and can use the netlink interface
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implementations that implement GTP-C and can use the netlink interface
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@ -82,7 +90,8 @@ to make use of the Linux kernel GTP-U support:
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* ergw (GGSN + P-GW in Erlang):
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* ergw (GGSN + P-GW in Erlang):
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https://github.com/travelping/ergw
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https://github.com/travelping/ergw
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== Userspace Library / Command Line Utilities ==
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Userspace Library / Command Line Utilities
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==========================================
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There is a userspace library called 'libgtpnl' which is based on
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There is a userspace library called 'libgtpnl' which is based on
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libmnl and which implements a C-language API towards the netlink
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libmnl and which implements a C-language API towards the netlink
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@ -90,7 +99,8 @@ interface provided by the Kernel GTP module:
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http://git.osmocom.org/libgtpnl/
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http://git.osmocom.org/libgtpnl/
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== Protocol Versions ==
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Protocol Versions
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=================
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There are two different versions of GTP-U: v0 [GSM TS 09.60] and v1
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There are two different versions of GTP-U: v0 [GSM TS 09.60] and v1
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[3GPP TS 29.281]. Both are implemented in the Kernel GTP module.
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[3GPP TS 29.281]. Both are implemented in the Kernel GTP module.
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@ -105,7 +115,8 @@ doesn't implement GTP-C, we don't have to worry about this. It's the
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responsibility of the control plane implementation in userspace to
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responsibility of the control plane implementation in userspace to
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implement that.
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implement that.
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== IPv6 ==
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IPv6
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====
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The 3GPP specifications indicate either IPv4 or IPv6 can be used both
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The 3GPP specifications indicate either IPv4 or IPv6 can be used both
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on the inner (user) IP layer, or on the outer (transport) layer.
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on the inner (user) IP layer, or on the outer (transport) layer.
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@ -114,22 +125,25 @@ Unfortunately, the Kernel module currently supports IPv6 neither for
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the User IP payload, nor for the outer IP layer. Patches or other
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the User IP payload, nor for the outer IP layer. Patches or other
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Contributions to fix this are most welcome!
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Contributions to fix this are most welcome!
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== Mailing List ==
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Mailing List
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============
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If yo have questions regarding how to use the Kernel GTP module from
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If you have questions regarding how to use the Kernel GTP module from
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your own software, or want to contribute to the code, please use the
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your own software, or want to contribute to the code, please use the
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osmocom-net-grps mailing list for related discussion. The list can be
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osmocom-net-grps mailing list for related discussion. The list can be
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reached at osmocom-net-gprs@lists.osmocom.org and the mailman
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reached at osmocom-net-gprs@lists.osmocom.org and the mailman
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interface for managing your subscription is at
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interface for managing your subscription is at
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https://lists.osmocom.org/mailman/listinfo/osmocom-net-gprs
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https://lists.osmocom.org/mailman/listinfo/osmocom-net-gprs
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== Issue Tracker ==
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Issue Tracker
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=============
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The Osmocom project maintains an issue tracker for the Kernel GTP-U
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The Osmocom project maintains an issue tracker for the Kernel GTP-U
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module at
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module at
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https://osmocom.org/projects/linux-kernel-gtp-u/issues
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https://osmocom.org/projects/linux-kernel-gtp-u/issues
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== History / Acknowledgements ==
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History / Acknowledgements
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==========================
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The Module was originally created in 2012 by Harald Welte, but never
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The Module was originally created in 2012 by Harald Welte, but never
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completed. Pablo came in to finish the mess Harald left behind. But
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completed. Pablo came in to finish the mess Harald left behind. But
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@ -139,9 +153,11 @@ In 2015, Andreas Schultz came to the rescue and fixed lots more bugs,
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extended it with new features and finally pushed all of us to get it
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extended it with new features and finally pushed all of us to get it
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mainline, where it was merged in 4.7.0.
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mainline, where it was merged in 4.7.0.
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== Architectural Details ==
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Architectural Details
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=====================
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=== Local GTP-U entity and tunnel identification ===
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Local GTP-U entity and tunnel identification
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--------------------------------------------
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GTP-U uses UDP for transporting PDU's. The receiving UDP port is 2152
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GTP-U uses UDP for transporting PDU's. The receiving UDP port is 2152
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for GTPv1-U and 3386 for GTPv0-U.
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for GTPv1-U and 3386 for GTPv0-U.
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@ -164,15 +180,15 @@ Therefore:
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destination IP and the tunnel endpoint id. The source IP and port
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destination IP and the tunnel endpoint id. The source IP and port
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have no meaning and can change at any time.
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have no meaning and can change at any time.
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[3GPP TS 29.281] Section 4.3.0 defines this so:
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[3GPP TS 29.281] Section 4.3.0 defines this so::
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> The TEID in the GTP-U header is used to de-multiplex traffic
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The TEID in the GTP-U header is used to de-multiplex traffic
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> incoming from remote tunnel endpoints so that it is delivered to the
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incoming from remote tunnel endpoints so that it is delivered to the
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> User plane entities in a way that allows multiplexing of different
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User plane entities in a way that allows multiplexing of different
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> users, different packet protocols and different QoS levels.
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users, different packet protocols and different QoS levels.
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> Therefore no two remote GTP-U endpoints shall send traffic to a
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Therefore no two remote GTP-U endpoints shall send traffic to a
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> GTP-U protocol entity using the same TEID value except
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GTP-U protocol entity using the same TEID value except
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> for data forwarding as part of mobility procedures.
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for data forwarding as part of mobility procedures.
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The definition above only defines that two remote GTP-U endpoints
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The definition above only defines that two remote GTP-U endpoints
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*should not* send to the same TEID, it *does not* forbid or exclude
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*should not* send to the same TEID, it *does not* forbid or exclude
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@ -183,7 +199,8 @@ multiple or unknown peers.
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Therefore, the receiving side identifies tunnels exclusively based on
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Therefore, the receiving side identifies tunnels exclusively based on
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TEIDs, not based on the source IP!
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TEIDs, not based on the source IP!
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== APN vs. Network Device ==
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APN vs. Network Device
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======================
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The GTP-U driver creates a Linux network device for each Gi/SGi
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The GTP-U driver creates a Linux network device for each Gi/SGi
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interface.
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interface.
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@ -201,29 +218,33 @@ number of Gi/SGi interfaces implemented by a GGSN/P-GW.
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[3GPP TS 29.061] Section 11.3 makes it clear that the selection of a
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[3GPP TS 29.061] Section 11.3 makes it clear that the selection of a
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specific Gi/SGi interfaces is made through the Access Point Name
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specific Gi/SGi interfaces is made through the Access Point Name
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(APN):
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(APN)::
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> 2. each private network manages its own addressing. In general this
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2. each private network manages its own addressing. In general this
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> will result in different private networks having overlapping
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will result in different private networks having overlapping
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> address ranges. A logically separate connection (e.g. an IP in IP
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address ranges. A logically separate connection (e.g. an IP in IP
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> tunnel or layer 2 virtual circuit) is used between the GGSN/P-GW
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tunnel or layer 2 virtual circuit) is used between the GGSN/P-GW
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> and each private network.
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and each private network.
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>
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> In this case the IP address alone is not necessarily unique. The
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In this case the IP address alone is not necessarily unique. The
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> pair of values, Access Point Name (APN) and IPv4 address and/or
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pair of values, Access Point Name (APN) and IPv4 address and/or
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> IPv6 prefixes, is unique.
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IPv6 prefixes, is unique.
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In order to support the overlapping address range use case, each APN
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In order to support the overlapping address range use case, each APN
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is mapped to a separate Gi/SGi interface (network device).
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is mapped to a separate Gi/SGi interface (network device).
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NOTE: The Access Point Name is purely a control plane (GTP-C) concept.
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.. note::
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At the GTP-U level, only Tunnel Endpoint Identifiers are present in
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GTP-U packets and network devices are known
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The Access Point Name is purely a control plane (GTP-C) concept.
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At the GTP-U level, only Tunnel Endpoint Identifiers are present in
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GTP-U packets and network devices are known
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Therefore for a given UE the mapping in IP to PDN network is:
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Therefore for a given UE the mapping in IP to PDN network is:
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* network device + MS IP -> Peer IP + Peer TEID,
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* network device + MS IP -> Peer IP + Peer TEID,
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and from PDN to IP network:
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and from PDN to IP network:
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* local GTP-U IP + TEID -> network device
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* local GTP-U IP + TEID -> network device
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Furthermore, before a received T-PDU is injected into the network
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Furthermore, before a received T-PDU is injected into the network
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@ -62,6 +62,7 @@ Contents:
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generic-hdlc
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generic-hdlc
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generic_netlink
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generic_netlink
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gen_stats
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gen_stats
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gtp
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.. only:: subproject and html
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.. only:: subproject and html
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