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Standalone deployments

In this tutorial we will demonstrate standalone deployments with the Mender client, where no Mender server is used and the deployments are triggered at the device terminal either manually or by custom scripts. This can be useful in order to deploy updates to devices which do not have network connectivity or are updated through external storage like a USB stick.

For an explanation of the difference between managed and standalone deployments, please see Modes of operation.


The tutorial will in general assume that you use a physical device connected to your workstation. However, it can also be carried out with a virtual QEMU device so you do not have to configure any hardware. If you follow it using a QEMU device, please make sure QEMU for the ARM architecture works, it is typically installed with the qemu-system-arm package.

Disk and rootfs images

You will need two images of different types.

The first is an image file to flash to the entire disk of the device. meta-mender creates these files with a .sdimg suffix, so they are easy to recognize. This file contains all the partitions of the given storage device, as described in Partition layout.

In addition, you need an Artifact file to update to, recognized by its .mender suffix. See Mender Artifacts for a more detailed overview.

You can build the required images by following the steps described in Building a Mender Yocto Project image.

If you are testing Mender on the reference devices BeagleBone Black or QEMU, you can save the build time by downloading the prebuilt demo images. The .sdimg disk images, and .mender Artifacts are found in the vexpress-qemu and beaglebone directories.

Network connectivity

There must be network connectivity between your workstation and the device. For example, you could connect your workstation and the device using a cross-over Ethernet cable and use static IP addresses at both ends.

If you are testing with QEMU, the network is automatically set up by the provided script

Write the disk image to the SD card

Please see Provisioning a new device for steps how to provision the device storage using the *.sdimg image.

If you are testing with QEMU, there is no need to do this step as you will run it from virtual storage.

Boot the device

Take the SD card out of your card reader and insert it into your device. Then boot the device from the SD card, which might entail keeping a button pressed during boot until you see console output, or change of a jumper setting.

If you boot from internal flash storage (which is standard on BeagleBone Black unless the S2 button is pressed), this will interfere with Mender's rollback mechanism.

If you are testing with QEMU, you can boot the device by changing directory to the location of the script and running /bin/sh

This will take you to the login prompt, and you should see a message similar to the following:

"Poky (Yocto Project Reference Distro)..."

If you are using the Mender demo images, you can login with user root. No password is required.

Serve an Artifact to the device over http

To deploy a new Artifact to the device, you need to start a http server on your workstation to serve the image. Open a new terminal on your workstation and change into the directory with your Artifact (e.g. *.mender). Start a simple Python webserver in that directory, like so:

python -m SimpleHTTPServer

SimpleHTTPServer starts on port 8000, but the IP address your device should use to reach it depends on the network setup between your device and workstation. You can find the IP address by using network tools like ip on your workstation. We will assume the device can reach your workstation's webserver on http://<IP-OF-WORKSTATION>:8000/.

If you are testing with QEMU, the virtual device should be able to access your workstation's directory at, i.e. <IP-OF-WORKSTATION> is in this case.

Deploy the new Artifact to the device

In your device terminal, test the connection to the workstation with:


To deploy the new rootfs image to your device, run the following command in its terminal:

mender -log-level info -rootfs http://<IP-OF-WORKSTATION>:8000/<ARTIFACT>

Use the appropriate Artifact file in place of <ARTIFACT>, e.g. artifact.mender. You can find the right name by opening a browser at http://localhost:8000.

Mender will download the new Artifact, process its metadata information, extract the contents and write it to the inactive rootfs partition. It will configure the bootloader to boot into it on the next reboot. This should take about 2 minutes to complete.

The mender -rootfs option accepts http(s) URIs, as well as file paths. Thus you can also update from a file system file from local storage like a USB-stick or remotely-mounted storage like NFS by simply changing the path to the image accordingly.

To run the updated rootfs image, simply reboot your device:


Your device should boot into the updated rootfs.

If you are using the Mender demo images, you can verify the new rootfs image is running as you see a message similar to This system has been updated by Mender build... before the login prompt.

Congratulations! You have just deployed your first rootfs image with Mender! If you are happy with the update, you can make it permanent by running the following in your device terminal:

mender -commit

By running this command, Mender will configure the bootloader to persistently boot from this updated rootfs partition. To deploy another update, simply follow these instructions again (from mender ... -rootfs ...).

If we reboot the device again without running mender -commit, it will boot into the previous rootfs partition that is known to be working (where we deployed the update from). This ensures a robust update process in cases where the newly deployed rootfs does not boot or otherwise has issues that we want to roll back from. Also note that it is possible to automate deployments by running the Mender client as a daemon.