aboutsummaryrefslogtreecommitdiffstats
path: root/src/plugins/srv6-mobile/README.md
diff options
context:
space:
mode:
authorTetsuya Murakami <tetsuya.mrk@gmail.com>2019-11-06 11:05:51 -0800
committerOle Trøan <otroan@employees.org>2019-11-19 07:02:40 +0000
commit1b81e6ef66cbce15ba1b05904732f92251d531cd (patch)
tree114135a6f83405d4883bcb37f1c362051944831a /src/plugins/srv6-mobile/README.md
parent360b523b52a91bd0d1d7de1247141367c484d70f (diff)
srv6-mobile
Type: feature Plug-in for IPv6 Segment Routing Mobile This funcion was developed by Signed-off-by: Satoru Matsuchima <satoru.matsushima@gmail.com> Signed-off-by: Filip Varga <filipvarga89@gmail.com> Signed-off-by: Tetsuya Murakami <tetsuya.mrk@gmail.com> Signed-off-by: Tetsuya Murakami <tetsuya.mrk@gmail.com> Change-Id: Ie995adc73d8f8d444339aab71619c3599e69f12d Signed-off-by: Tetsuya Murakami <tetsuya.mrk@gmail.com>
Diffstat (limited to 'src/plugins/srv6-mobile/README.md')
-rw-r--r--src/plugins/srv6-mobile/README.md178
1 files changed, 178 insertions, 0 deletions
diff --git a/src/plugins/srv6-mobile/README.md b/src/plugins/srv6-mobile/README.md
new file mode 100644
index 00000000000..18628806cbc
--- /dev/null
+++ b/src/plugins/srv6-mobile/README.md
@@ -0,0 +1,178 @@
+SRv6 Mobile User Plane Plugin for VPP
+========================
+
+## Introduction
+
+This plugin module can provide the stateless mobile user plane protocols translation between GTP-U and SRv6.
+The functions of the translation take advantage of SRv6 network programmability.
+[SRv6 Mobile User Plane](https://tools.ietf.org/html/draft-ietf-dmm-srv6-mobile-uplane) defines the user plane protocol using SRv6
+including following stateless translation functions:
+
+- **T.M.GTP4.D:**
+ GTP-U over UDP/IPv4 -> SRv6
+- **End.M.GTP4.E:**
+ SRv6 -> GTP-U over UDP/IPv4
+- **End.M.GTP6.D:**
+ GTP-U over UDP/IPv6 -> SRv6
+- **End.M.GTP6.E:**
+ SRv6 -> GTP-U over UDP/IPv6
+
+These functions benefit user plane(overlay) to be able to utilize data plane(underlay) networks properly. And also it benefits
+data plane to be able to handle user plane in routing paradigm.
+
+## Getting started
+To play with SRv6 Mobile User Plane on VPP, you need to install following packages:
+
+ docker
+ python3
+ pip3
+
+ Python packages (use pip):
+ docker
+ scapy
+ jinja2
+
+
+### Quick-start
+
+1. Build up the docker container image as following:
+
+```
+$ git clone https://github.com/filvarga/srv6-mobile.git
+$ cd ./srv6-mobile/extras/ietf105
+$ ./runner.py infra build
+
+$ docker images
+REPOSITORY TAG IMAGE ID CREATED SIZE
+ietf105-image latest 577e786b7ec6 2 days ago 5.57GB
+ubuntu 18.04 4c108a37151f 4 weeks ago 64.2MB
+
+```
+
+The runner script [runner.py](test/runner.py) has features to automate configurations and procedures for the test.
+
+2. Instantiate test Scenario
+
+Let's try following command to instantiate a topology:
+
+```
+$ ./runner.py infra start
+```
+
+This command instantiates 4 VPP containers with following topology:
+
+![Topology Diagram](test/topo-init.png)
+
+You can check the instantiated docker instances with "docker ps".
+
+
+```
+$ docker ps
+CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
+44cb98994500 ietf105-image "/bin/sh -c 'vpp -c …" About a minute ago Up About a minute hck-vpp-4
+6d65fff8aee9 ietf105-image "/bin/sh -c 'vpp -c …" About a minute ago Up About a minute hck-vpp-3
+ad123b516b24 ietf105-image "/bin/sh -c 'vpp -c …" About a minute ago Up About a minute hck-vpp-2
+5efed405b96a ietf105-image "/bin/sh -c 'vpp -c …" About a minute ago Up About a minute hck-vpp-1
+
+```
+
+You can login to and configure each instantiated container.
+
+```
+$ ./runner.py cmd vppctl 0
+
+Verified image: None
+connecting to: hck-vpp-1
+ _______ _ _ _____ ___
+ __/ __/ _ \ (_)__ | | / / _ \/ _ \
+ _/ _// // / / / _ \ | |/ / ___/ ___/
+ /_/ /____(_)_/\___/ |___/_/ /_/
+
+vpp#
+```
+
+## Test Scenarios
+### SRv6 Drop-in between GTP-U tunnel
+
+This test scenario introduces SRv6 path between GTP-U tunnel transparently. A GTP-U packet sent out from one end to another is translated to SRv6 and then back to GTP-U. All GTP-U tunnel identifiers are preserved in IPv6 header and SRH.
+
+
+#### GTP-U over UDP/IPv4 case
+
+This case uses SRv6 end functions, T.M.GTP4.D and End.M.GTP4.E.
+
+![Topology Diagram](test/topo-test_gtp4d.png)
+
+VPP1 is configured with "T.M.GTP4.D", and VPP4 is configured with "End.M.GTP4.E". Others are configured with "End". The packet generator sends a GTP-U packet over UDP/IPv4 toward the packet capture. VPP1 translates it to SRv6 toward D4::TEID with SR policy <D2::, D3::> in SRH. VPP4 translates the SRv6 packet to the original GTP-U packet and send out to the packet capture.
+
+To start this case with IPv4 payload over GTP-U, you can run:
+
+```
+$ ./runner.py test tmap
+```
+
+If you want to use IPv6 payload instead of IPv4, you can run:
+
+```
+$ ./runner.py test tmap_ipv6
+```
+
+
+#### GTP-U over UDP/IPv6 case
+
+This case uses SRv6 end functions, End.M.GTP6.D.Di and End.M.GTP6.E.
+
+![Topology Diagram](test/topo-test_gtp6d.png)
+
+VPP1 is configured with "End.M.GTP6.D.Di", and VPP4 is configured with "End.M.GTP4.E". Others are configured with "End". The packet generator sends a GTP-U packet over UDP/IPv6 toward D:: of the packet capture. VPP1 translates it to SRv6 toward D:: with SR policy <D2::, D3::, D4::TEID> in SRH. VPP4 translates the SRv6 packet to the original GTP-U packet and send out to the packet capture.
+
+To start this case with IPv4 payload over GTP-U, you can run:
+
+```
+$ ./runner.py test gtp6_drop_in
+```
+
+If you want to use IPv6 payload instead of IPv4, you can run:
+
+```
+$ ./runner.py test gtp6_drop_in_ipv6
+```
+
+
+### GTP-U to SRv6
+
+This test scenario demonstrates GTP-U to SRv6 translation. A GTP-U packet sent out from one end to another is translated to SRv6.
+
+#### GTP-U over UDP/IPv6 case
+
+##### IPv4 payload
+
+This case uses SRv6 end functions, End.M.GTP6.D and End.DT4.
+
+![Topology Diagram](test/topo-test_gtp6.png)
+
+VPP1 is configured with "End.M.GTP6.D", and VPP4 is configured with "End.DT4". Others are configured with "End". The packet generator sends a GTP-U packet over UDP/IPv6 toward D::2. VPP1 translates it to SRv6 toward the IPv6 destination consists of D4:: and TEID of GTP-U with SR policy <D2::, D3::> in SRH. VPP4 decapsulates the SRv6 packet and lookup the table for the inner IPv4 packet and send out to the packet capture.
+
+To start this case, you can run:
+
+```
+$ ./runner.py test gtp6
+```
+
+##### IPv6 payload
+
+This case uses SRv6 end functions, End.M.GTP6.D and End.DT6.
+
+
+![Topology Diagram](test/topo-test_gtp6ip6.png)
+
+The configurations are same with IPv4 payload case, except D4:: is configured as "End.DT6" in VPP4. VPP4 decapsulates the SRv6 packet and lookup the table for the inner IPv6 packet and send out to the packet capture.
+
+If you want to use IPv6 payload instead of IPv4, you can run:
+
+```
+$ ./runner.py test gtp6_ipv6
+```
+
+## More information
+TBD