The OTA Community Edition is open-source server software to allow over-the-air (OTA) updates of compatible clients (see the Aktualizr open-source example client). It is comprised of a number of services which together make up the OTA system. The source code for the servers is available on Github and is licensed under the MPL2.0 (as is the code in this repository, see below). Docker container images of the latest build are available on Docker Hub.
This repository contains scripts to launch the open-source OTA Community Edition software under the Kubernetes orchestration system on a single machine (minikube).
Note that the OTA Community Edition doesn't use authentication nor any other security provision needed for a production system. It is meant to run locally/inside of a firewall.
OTA needs at least 8GB of RAM to run.
The following software tools are required to run the scripts in the current repository:
The single entry point to the scripts is the Makefile
.
It is self-documenting, run make
to see a list of the available commands.
-
Start all services
Run
make start
to start all services inside minikube. See troubleshooting if it fails at first. -
Update your hosts file
OTA CE running in kubernetes has a single ingress point; it routes traffic to the appropriate pod/microservice based on the host name. That means that you need to either set up a DNS server pointing to the right place, or just edit your hosts file. We suggest going with the hosts file initially. Run
make print-hosts
to print a list of entries to add to your/etc/hosts
file. -
Visit the Admin User Interface
The OTA Community Edition Admin UI should now be available to view in your browser at http://app.ota.local (by default).
-
(optional) Forward ports in VirtualBox to make OTA CE accessible outside of localhost
Unless you're just testing on your local machine, you'll probably want to access OTA CE from somewhere else on your network. Assuming your minikube is using virtualbox as the backend (this is the default setup), you can use virtualbox to forward the relevant ports. To allow devices to connect, you'll need to forward port 30443, and to expose the Admin UI you'll need to forward port 80. You can do this from the command line:
# For the clients
vboxmanage controlvm "minikube" natpf1 "client_forwarding_rule,tcp,,30443,,30443"
# To access the UI
vboxmanage controlvm "minikube" natpf1 "adminui_forwarding_rule,tcp,,80,,80"
You will also need to modify the hosts file on any other computer that you want to use the Admin UI from. Note that the IP you give it won't be the minikube IP (normally 192.168.99.100); it will be the external IP address of the machine you are running minikube on. For example:
export OTA_CE_IP=external_ip_of_ota_machine
sudo cat <<EOF >> /etc/hosts
${OTA_CE_IP} app.ota.local
${OTA_CE_IP} gateway.ota.local
${OTA_CE_IP} treehub.ota.local
${OTA_CE_IP} tuf-reposerver.ota.local
${OTA_CE_IP} web-events.ota.local
EOF
Run minikube dashboard
to open minikube's admin interface in your browser, which will be at http://192.168.99.100:30000 by default.
Clients can be built with Yocto. A complete guide to building a Yocto client is out of scope here, but you can follow the instructions for HERE OTA Connect to build a QEMU or Raspberry Pi client.
However, OTA Community Edition supports only provisioning with device credentials, instead of provisioning with shared credentials which is possible in HERE OTA Connect. When provisioning with device credentials, the device must be pre-loaded with credentials signed by a root CA that OTA CE trusts. As a part of the setup performed by make start
(specifically, the new_server
function), this root CA is generated and stored in the ota.ce
directory. Additionally, a credentials.zip file is created. You will find it in ota-community-edition/generated/ota.ce/credentials.zip
after running make start
.
You must supply your yocto build with the credentials.zip, and specify that you want to provision with device credentials. Add the following lines to the local.conf
of your Yocto build:
SOTA_CLIENT_PROV = "aktualizr-device-prov"
SOTA_DEPLOY_CREDENTIALS = "0"
SOTA_PACKED_CREDENTIALS = "/path/to/ota.ce/generated/credentials.zip"
Note that, if your build machine is different from the machine where minikube is running, you'll need to forward ports on the minikube machine and modify the build machine's hosts file as described above.
Once your build is complete and the device (virtual or real) is running, you can generate device credentials, register them, and copy them to the device with make new-client
. You'll need to specify a device name, the IP and SSH port of the device, and the IP address of the OTA CE instance. For example, if your OTA CE machine is running at 192.168.1.99 and you've built a Raspberry Pi image that's running at 192.168.1.50, you could do the following:
export DEVICE_ID=raspberrypi_1
export DEVICE_ADDR=192.168.1.50
export DEVICE_PORT=22
export GATEWAY_ADDR=192.168.1.99
make new-client
This will also modify the hosts file on the client so it's able to connect.
You can start OTA CE with make start-ota
. This will run OTA CE in the cluster
configured in your kubectl
config. However, OTA CE in its default
configuration is intended to work with Minikube, so you will need to
reconfigure it for your own environment. For example, config/config.yaml:4
sets the hostname for configuring the ingress resources. Depending on your
environment may need to make other changes.
Try re-running make start
if you receive any of the following errors:
Unable to connect to the server: dial tcp 192.168.99.100:8443: getsockopt: operation timed out
ERROR 2002 (HY000): Can't connect to local MySQL server through socket '/var/run/mysqld/mysqld.sock' (2)
error on line 12 of ota-community-edition/scripts/server.cnf 140680409176832:error:0EFFF068:configuration file routines:CRYPTO_internal:variable has no valu e:conf/conf_def.c:563:line 12 error: error reading ota.ce/server.chain.pem: no such file or directory
If your device isn't connecting, verify that the virtualbox port forwarding of port 30443 is set up correctly.
This code is licensed under the Mozilla Public License 2.0, a copy of which can be found in this repository. All code is copyright ATS Advanced Telematic Systems GmbH, 2016-2018.