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srsran-docker-emulated

This is a minimal example of an end-to-end srsRAN LTE system running with Docker. The core network, base station and user device all run in separate containers. The air interface is emulated via ZeroMQ.

Prerequisite

Please see instructions file to install prerequisite

Script Auto configuration

To easily set this all up, use the provided shell script:

  • Start the containers with the following command make sure you in into the srsRAN_4G-docker dirtectory
./start.sh
  • to install taceroute and speed test into your srsUE container use:
./setup--cli.sh
  • to configure internet access via corenetwrok use :
./setup-internet-access.sh

Note: some time you might need to give permissions in that case please use

chmod +x start.sh setup--cli.sh start.sh

Manual configuration

  • Start the containers with the following command:
docker-compose up
  • After a while you'll see the UE attach:
virtual-srsue | Network attach successful. IP: 172.16.0.2
virtual-srsenb | User 0x46 connected
  • Now you can test the connection in a new terminal:
docker exec -i -t virtual-srsepc ping 172.16.0.2
PING 172.16.0.2 (172.16.0.2) 56(84) bytes of data.
64 bytes from 172.16.0.2: icmp_seq=1 ttl=64 time=25.3 ms
64 bytes from 172.16.0.2: icmp_seq=2 ttl=64 time=24.2 ms

A note on configuration: During build, the example config files are copied into the workdir. These are the files you see used in the compose file with some option overrides. If you want to play around with the config yourself, it is much easier to place your custom files in this directory and ADD them in the Dockerfile. You can find the exact versions in srsepc, srsenb and srsue.

Adding UEs: The compose file contains an optional second UE. It uses the second IMSI from the default user_db.csv (srsEPC). To add more UEs, add IMSIs to the csv and tell the UEs to use them.

Internet access for UEs

By default, containers are attached to a Docker network with a default route. This means everyone has internet access through the virtualized Docker network. It takes two extra steps to make UEs access the internet through the EPC instead. First configure network address translation at the EPC

docker exec virtual-srsepc iptables -t nat -A POSTROUTING -s 172.16.0.0/24 -o eth0 -j MASQUERADE

This will masquerade all forwarded traffic from UEs (matched by source IP address) leaving the EPC's eth0 (Docker) interface.

Second, tell the UE to route traffic via the EPC by default

docker exec virtual-srsue ip route replace default via 172.16.0.1

Now you have network access through the EPC

docker exec virtual-srsue ping google.com

You can verify that this ping is using the LTE connection by checking whether it has about 20 ms added latency due to uplink scheduling or by waiting until the UE enters "RRC IDLE" state, in which your ping command will trigger a random access and connection setup. The UE enters that state after one minute of not having sent or received any data through the LTE connection, so make sure no pings are running.

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