| .. vim: syntax=rst |
| |
| Aether-in-a-Box on Hardware Radios (4G) |
| ======================================= |
| |
| This document describes how to set up an Aether-in-a-Box (AiaB) with |
| a Sercomm eNodeB and connect real devices (e.g., 4G phones). This |
| setup is suitable for laboratory experiments and proof-of-concept deployments. |
| To create this setup you will need the following equipment: |
| |
| * Server for running AiaB (SD-CORE / UPF / ROC) |
| |
| * Haswell CPU family or newer |
| * At least 4 CPUs and 12GB RAM |
| * Internet connection |
| |
| * Sercomm CBRS LTE small cell eNodeB |
| |
| * Firmware version 3918 or newer. For instructions on how to update the firmware see `here <https://docs.aetherproject.org/master/edge_deployment/enb_installation.html#upgrade-firmware>`_. |
| |
| * SIM card writer and blank SIM cards |
| |
| We assume that the server and the eNodeB are connected to the same |
| LAN, and the LAN also provides external Internet connectivity. |
| |
| Preparation |
| ----------- |
| |
| Create SIM cards by following the instructions for your SIM card writer. |
| Of course you are free to use any values for IMSI, etc. that you choose, |
| but these are the values that will work with the rest of the configuration |
| in this document: |
| |
| * IMSI: each one is unique, matching pattern ``315010*********`` (15 digits) |
| * OPc: ``69d5c2eb2e2e624750541d3bbc692ba5`` |
| * Transport Key: ``000102030405060708090a0b0c0d0e0f`` |
| |
| If you choose different values for your SIM cards, you will need to |
| modify subsequent configuration steps appropriately. |
| |
| Insert the SIM cards in devices that you wish to be able to connect to the Aether network. |
| |
| Server setup |
| ------------ |
| |
| The server will run Aether-in-a-Box. The eNodeB will connect to the server over the local network. |
| Perform these steps to prepare the server for the AiaB install: |
| |
| * Connect the server to the local network |
| * Perform a clean install of Ubuntu 18.04 on the server |
| * Set up password-less sudo for the user that will install Aether-in-a-Box |
| |
| After the steps above have been completed, install Aether-in-a-Box as follows:: |
| |
| sudo apt install git make |
| git clone "https://gerrit.opencord.org/aether-in-a-box" |
| cd aether-in-a-box |
| |
| Next, modify the file *sd-core-4g-values.yaml*. Under ``subscribers``, |
| add an IMSI range for the SIM cards you created, with the Transport Key |
| and OPc values you used earlier. For example, the following will add |
| IMSIs between 315010999912301 and 315010999912303:: |
| |
| subscribers: |
| - ueId-start: 315010999912301 |
| ueId-end: 315010999912303 |
| plmnId: 315010 |
| opc: 69d5c2eb2e2e624750541d3bbc692ba5 |
| key: 000102030405060708090a0b0c0d0e0f |
| sequenceNumber: 135 |
| |
| Determine which is the interface that has L3 connectivity to the |
| eNodeB -- this will be *DATA_IFACE* in the configuration later. If |
| the eNodeB will also be connected to the local network, then this is just the |
| server’s primary interface. If the eNodeB will be connected via an |
| isolated L2/L3 network segment, then *DATA_IFACE* refers to the server |
| interface on that network. Remember this interface for later. |
| |
| Option 1: Configure Aether with ROC |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| The Aether ROC provides a GUI and API for dynamically configuring |
| Aether. If you don’t wish to use the ROC to configure AiaB, you |
| can skip to the next section. |
| |
| Install AiaB as follows (specifying *DATA_IFACE* from above):: |
| |
| ENABLE_OAISIM=false DATA_IFACE=<iface> CHARTS=latest make roc-4g-models 4g-core |
| |
| Next, use the ROC to add information about your SIM cards. |
| The ROC GUI is available at `http://<server-ip>:31194`. |
| |
| Choose *Configuration > Site* from the drop-down at top right and edit |
| the “AiaB site”. Change the following values and click “Update”: |
| |
| * MCC: 315 |
| * MNC: 010 |
| |
| Choose *Sim Cards* from the drop-down at top right. Edit the |
| existing entries to reflect the SIM cards you are adding to devices |
| by replacing their IMSI values. Click “Update” after each edit. |
| If you want to connect more than two devices, consult the `ROC |
| documentation <https://docs.aetherproject.org/master/operations/subscriber.html#configure-connectivity-service-for-a-new-device>`_. |
| |
| Finally, click the Basket icon at top right and click the “Commit” button. |
| |
| Now jump to the `Verifying the AiaB installation`_ section. |
| |
| Option 2: Configure Aether without ROC |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| It is possible to configure Aether without the ROC, |
| using static YAML files and the SimApp service. If you have already |
| installed the ROC, you should skip this section. |
| |
| Edit *sd-core-4g-values.yaml*. Change ``mcc`` and ``mnc`` as follows:: |
| |
| plmn: |
| mcc: "315" |
| mnc: "010" |
| |
| Also add the IMSIs of your devices under ``imsis``, for example:: |
| |
| device-groups: |
| - name: "4g-oaisim-user" |
| imsis: |
| - "315010999912301" |
| - "315010999912302" |
| - "315010999912303" |
| |
| Install AiaB as follows (specifying *DATA_IFACE* from above):: |
| |
| ENABLE_OAISIM=false DATA_IFACE=<iface> CHARTS=latest make 4g-core |
| |
| Verifying the AiaB installation |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Installing AiaB will take about 20 minutes with a fast Internet |
| connection. If you see any errors / timeouts, try running the `make` |
| command again. The build will finish with a message: |
| “Your MME IP address is… ” This is just the IP address assigned to |
| the *DATA_IFACE*. Remember this for the eNodeB setup. |
| |
| When the install is complete, check that the 4G SD-CORE is running |
| as follows:: |
| |
| $ kubectl -n omec get pod |
| NAME READY STATUS RESTARTS AGE |
| cassandra-0 1/1 Running 0 7m27s |
| config4g-0 1/1 Running 0 7m27s |
| hss-0 1/1 Running 0 7m27s |
| mme-0 4/4 Running 0 7m27s |
| pcrf-0 1/1 Running 0 7m27s |
| simapp-65dc44b9d-stx6q 1/1 Running 0 7m27s |
| spgwc-0 2/2 Running 0 7m27s |
| upf-0 5/5 Running 0 7m27s |
| |
| You should see all pods in Running status. |
| |
| If you have installed the ROC, check that all its pods are running |
| as follows:: |
| |
| $ kubectl -n aether-roc get pod |
| NAME READY STATUS RESTARTS AGE |
| aether-roc-api-78cc548bb9-7vjs2 1/1 Running 0 4m16s |
| aether-roc-gui-v2-6d674fd446-tttb5 1/1 Running 0 4m16s |
| aether-roc-umbrella-grafana-74f8489c8f-s9p45 2/2 Running 0 4m16s |
| aether-roc-websocket-855d64549b-44fnc 1/1 Running 0 4m16s |
| onos-cli-5d448ff6c4-stq5t 1/1 Running 0 4m16s |
| onos-config-7f4df96b88-vtp5s 6/6 Running 0 4m16s |
| onos-consensus-store-0 1/1 Running 0 4m15s |
| onos-topo-585c7c8976-6jq7b 3/3 Running 0 4m16s |
| sdcore-adapter-v2-5646d455b9-2d6zl 1/1 Running 0 4m15s |
| |
| You should see all pods in Running status. |
| |
| Sercomm eNodeB setup |
| -------------------- |
| |
| The instructions in this section describe a basic configuration of |
| the eNodeB. For a more comprehensive guide to |
| eNodeB configuration see `eNB Installation <https://docs.aetherproject.org/master/edge_deployment/enb_installation.html>`_. |
| |
| The Sercomm eNodeB has two Ethernet ports: WAN and LAN. We will use |
| the LAN port for configuration of the eNodeB and the WAN port for |
| normal operation. Connect the eNodeB WAN port to the local network. |
| |
| Connect the eNodeB LAN port to a free Ethernet port on a Linux machine |
| (say, a laptop) that will be used for the initial configuration of |
| the eNodeB. On that machine run `dhclient` on the interface corresponding |
| to the Ethernet port, for example:: |
| |
| sudo dhclient eth1 |
| |
| The interface should receive an IP address from the Sercomm eNodeB on |
| the 11.11.11.0/24 subnet. Check this using `ifconfig`:: |
| |
| $ ifconfig eth1 |
| eth1: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500 |
| inet 11.11.11.100 netmask 255.255.255.0 broadcast 11.11.11.255 |
| inet6 fe80::2e0:4cff:fe68:2f76 prefixlen 64 scopeid 0x20<link> |
| ether 00:e0:4c:68:2f:76 txqueuelen 1000 (Ethernet) |
| RX packets 264652 bytes 216094312 (216.0 MB) |
| RX errors 0 dropped 0 overruns 0 frame 0 |
| TX packets 183978 bytes 36528580 (36.5 MB) |
| TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0 |
| |
| The eNodeB IP address should be 11.11.11.188 on that link. Verify |
| this using ping:: |
| |
| $ ping 11.11.11.188 |
| |
| To access the Sercomm eNodeB admin page, you can run a Web browser on |
| the laptop and direct it to `https://11.11.11.188`. Login to the admin |
| interface as user: *sc_femto* and password: *scHt3pp*. |
| |
| Click the ``NetWork set`` menu at the top. In the first section |
| “IP Address”, set *Connect type: DHCP* (assuming this is supported on |
| your local network, otherwise set up a static IP address). |
| Click the blue ``Save`` button at the bottom. |
| |
| Next, click the ``Manage`` menu at the top and then click the |
| ``LTE Basic Setting`` tab. Change these parameters and click ``Save``: |
| |
| * Carrier Number: 2 |
| * Carrier Aggregation: Unset |
| * BandWidth: 20 |
| * FrequencyBand: 48,48 |
| * EARFCN: 55440,55640 |
| * CellIdentity: 2,1 |
| * PCI: 100,101 |
| * TxPower: 20 |
| * Tunnel Type: IPv4 |
| * MME IP Address: <MME IP address from AiaB installation> |
| * PLMNID: 315010 |
| * TAC: 1 |
| * Sync Source: FREE_RUNNING |
| * Enable CWMP: Unset |
| |
| Click the ``SAS Configuration`` tab. In the ``Location Configuration`` |
| section, enter these values and click “Save”: |
| |
| * Location: Indoor |
| * Location Source: Manual |
| * Latitude: 0 |
| * Longitude: 0 |
| * Elevation: -18000 |
| |
| Next we need to add a static route to the UPF address, 192.168.252.3, |
| on the eNodeB. Click on ``TR098`` menu and then click on ``IP`` tab. |
| Scroll down to ``Device.Routing.Router.`` section. Click ``View List``. |
| Add this info on the blank line: |
| |
| * Enable: Set |
| * StaticRoute: Set |
| * DestIPAddress: 192.168.252.0 |
| * DestSubnetMask: 255.255.255.0 |
| * GatewayIPAddress: <Use MME IP address from AiaB installation> |
| * Interface: Device.IP.Interface.1. |
| |
| Then click the “Add” button at the far right. |
| |
| Finally click the ``FAPService`` menu and then go to the ``FAPControl`` |
| tab. Check the box next to ``AdminState`` in the first section and |
| click ``Save``. |
| |
| After these changes are made, reboot the eNodeB by clicking the red |
| ``power button`` square at top right and selecting ``Reboot``. When the |
| eNodeB comes back up, it should have an IP address on the network |
| (via the WAN port), and the admin page should now be available on |
| `https://<endoeb-ip>`. |
| |
| Test connectivity from the eNodeB to the MME and the UPF running on |
| the server as follows. Login to the eNodeB admin interface, click |
| the “Manage” menu at the top, and click the ``IP Diagnose`` tab. Under |
| ``Ping and Traceroute``, select ``ping``, and then type the following IP |
| addresses into the box to the right and click ``Run``: |
| |
| * <MME IP address from AiaB installation> |
| * 192.168.251.1 |
| * 192.168.252.3 |
| |
| If all of these are working, then you are ready to try to connect |
| devices to the network. |
| |
| Connecting Devices |
| ------------------ |
| |
| Is there already a document on how to configure different devices |
| to work with an Aether SIM card? |
| |
| Reinstalling AiaB |
| ----------------- |
| |
| A current limitation of AiaB is that if the host machine reboots, |
| AiaB needs to be reinstalled. We plan to fix this in the future so |
| that the AiaB configuration will persist across reboots. In the |
| meantime, to reinstall AiaB on a machine where it was previously |
| installed, run `make clean` and then start at the `Server setup`_ |
| section above. |