How to commission machines with MAAS

Note that if you are using your own commissioning scripts, and you do not want them to automatically run every time, you must specify noauto, as in this script snippet:

#!/bin/bash
#
# --- Start MAAS 1.0 script metadata ---
# name: 50-script-example
# title: Example
# description: Just an example
# script_type: commissioning
# tags: noauto

If you do not specify noauto, your custom commissioning scripts will run every time commissioning is attempted. Refer to commissioning scripts for technical details and examples.

Commission machines

To commission a machine:

  • Go to the “Machines” page.

  • Select the machine(s) you want to commission.

  • Choose “Commission” under the “Take action” drop-down menu:

You have the option of selecting some extra parameters (checkboxes) and performing hardware tests.

These options include:

  • Allow SSH access and prevent machine powering off: Machines are normally powered off after commissioning. This option keeps the machine on and enables SSH so you can access the machine.

  • Retain network configuration: When enabled, preserves any custom network settings previously configured for the machine. See About MAAS networks for more information.

  • Retain storage configuration: When enabled, preserves any storage settings previously configured for the machine.

  • Update firmware: Runs scripts tagged with update_firmware.

  • Configure HBA: Runs scripts tagged with configure_hba.

  • Click the Hardware tests field to reveal a drop-down list of tests to add and run during commissioning.

  • Finalise the directive by hitting “Commission machine”.

While commissioning, the machine status will change to reflect this state (Commissioning). MAAS discovers the machine’s network topology. MAAS then prompts a machine network interface to connect to the fabric, VLAN, and subnet combination for configuration. Usually, MAAS assigns a static IP address out of the reserved IP range for the subnet (“Auto assign” mode). The next section details several assignment modes.

Once commissioned, a machine’s status will change to Ready, and an extra tab for the machine called “Commissioning” will become available. This tab contains the results of the scripts executed during the commissioning process.

To commission a machine that’s in the “Ready” state, via the CLI, use the following command:

maas $PROFILE machine commission $SYSTEM_ID
Typical JSON output (long listing)
Success.
Machine-readable output follows:
{
    "storage_test_status_name": "Pending",
    "bcaches": [],
    "cpu_count": 1,
    "interface_set": [
        {
            "params": ",
            "numa_node": 0,
            "tags": [],
            "id": 10,
            "mac_address": "52:54:00:15:36:f2",
            "vendor": "Red Hat, Inc.",
            "children": [],
            "effective_mtu": 1500,
            "discovered": [],
            "links": [],
            "link_speed": 0,
            "link_connected": true,
            "system_id": "bhxws3",
            "enabled": true,
            "interface_speed": 0,
            "firmware_version": null,
            "name": "ens3",
            "sriov_max_vf": 0,
            "product": null,
            "vlan": {
                "vid": 0,
                "mtu": 1500,
                "dhcp_on": true,
                "external_dhcp": null,
                "relay_vlan": null,
                "fabric": "fabric-2",
                "primary_rack": "8dwnne",
                "name": "untagged",
                "id": 5003,
                "space": "undefined",
                "secondary_rack": null,
                "fabric_id": 2,
                "resource_uri": "/MAAS/api/2.0/vlans/5003/"
            },
            "parents": [],
            "type": "physical",
            "resource_uri": "/MAAS/api/2.0/nodes/bhxws3/interfaces/10/"
        }
    ],
    "network_test_status_name": "Unknown",
    "numanode_set": [
        {
            "index": 0,
            "memory": 985,
            "cores": [
                0
            ]
        }
    ],
    "locked": false,
    "hardware_uuid": "F677A842-571C-4E65-ADC9-11E2CF92D363",
    "default_gateways": {
        "ipv4": {
            "gateway_ip": null,
            "link_id": null
        },
        "ipv6": {
            "gateway_ip": null,
            "link_id": null
        }
    },
    "status_action": ",
    "status_message": "Commissioning",
    "cpu_test_status_name": "Unknown",
    "memory_test_status": -1,
    "virtualblockdevice_set": [],
    "pool": {
        "name": "default",
        "description": "Default pool",
        "id": 0,
        "resource_uri": "/MAAS/api/2.0/resourcepool/0/"
    },
    "current_testing_result_id": 9,
    "current_installation_result_id": null,
    "netboot": true,
    "description": ",
    "special_filesystems": [],
    "testing_status": 0,
    "memory": 1024,
    "current_commissioning_result_id": 8,
    "storage": 5368.70912,
    "commissioning_status": 0,
    "cpu_test_status": -1,
    "tag_names": [
        "virtual"
    ],
    "memory_test_status_name": "Unknown",
    "swap_size": null,
    "status_name": "Commissioning",
    "other_test_status": -1,
    "pod": null,
    "storage_test_status": 0,
    "blockdevice_set": [
        {
            "id_path": "/dev/disk/by-id/ata-QEMU_HARDDISK_QM00001",
            "size": 5368709120,
            "block_size": 512,
            "tags": [
                "ssd"
            ],
            "serial": "QM00001",
            "uuid": null,
            "numa_node": 0,
            "available_size": 5368709120,
            "id": 3,
            "partition_table_type": null,
            "model": "QEMU HARDDISK",
            "path": "/dev/disk/by-dname/sda",
            "storage_pool": null,
            "used_for": "Unused",
            "filesystem": null,
            "system_id": "bhxws3",
            "used_size": 0,
            "partitions": [],
            "name": "sda",
            "type": "physical",
            "resource_uri": "/MAAS/api/2.0/nodes/bhxws3/blockdevices/3/"
        }
    ],
    "other_test_status_name": "Unknown",
    "distro_series": ",
    "testing_status_name": "Pending",
    "ip_addresses": [],
    "address_ttl": null,
    "system_id": "bhxws3",
    "physicalblockdevice_set": [
        {
            "firmware_version": "2.5+",
            "serial": "QM00001",
            "uuid": null,
            "numa_node": 0,
            "available_size": 5368709120,
            "size": 5368709120,
            "tags": [
                "ssd"
            ],
            "id": 3,
            "partition_table_type": null,
            "id_path": "/dev/disk/by-id/ata-QEMU_HARDDISK_QM00001",
            "model": "QEMU HARDDISK",
            "path": "/dev/disk/by-dname/sda",
            "storage_pool": null,
            "used_for": "Unused",
            "filesystem": null,
            "system_id": "bhxws3",
            "used_size": 0,
            "partitions": [],
            "name": "sda",
            "block_size": 512,
            "type": "physical",
            "resource_uri": "/MAAS/api/2.0/nodes/bhxws3/blockdevices/3/"
        }
    ],
    "fqdn": "ace-swan.maas",
    "osystem": ",
    "domain": {
        "authoritative": true,
        "ttl": null,
        "resource_record_count": 0,
        "name": "maas",
        "id": 0,
        "is_default": true,
        "resource_uri": "/MAAS/api/2.0/domains/0/"
    },
    "boot_interface": {
        "params": ",
        "numa_node": 0,
        "tags": [],
        "id": 10,
        "mac_address": "52:54:00:15:36:f2",
        "vendor": "Red Hat, Inc.",
        "children": [],
        "effective_mtu": 1500,
        "discovered": [],
        "links": [],
        "link_speed": 0,
        "link_connected": true,
        "system_id": "bhxws3",
        "enabled": true,
        "interface_speed": 0,
        "firmware_version": null,
        "name": "ens3",
        "sriov_max_vf": 0,
        "product": null,
        "vlan": {
            "vid": 0,
            "mtu": 1500,
            "dhcp_on": true,
            "external_dhcp": null,
            "relay_vlan": null,
            "fabric": "fabric-2",
            "primary_rack": "8dwnne",
            "name": "untagged",
            "id": 5003,
            "space": "undefined",
            "secondary_rack": null,
            "fabric_id": 2,
            "resource_uri": "/MAAS/api/2.0/vlans/5003/"
        },
        "parents": [],
        "type": "physical",
        "resource_uri": "/MAAS/api/2.0/nodes/bhxws3/interfaces/10/"
    },
    "hostname": "ace-swan",
    "network_test_status": -1,
    "min_hwe_kernel": ",
    "power_state": "off",
    "interface_test_status_name": "Unknown",
    "owner_data": {},
    "volume_groups": [],
    "power_type": "virsh",
    "node_type": 0,
    "owner": "admin",
    "cache_sets": [],
    "architecture": "amd64/generic",
    "hwe_kernel": null,
    "zone": {
        "name": "default",
        "description": ",
        "id": 1,
        "resource_uri": "/MAAS/api/2.0/zones/default/"
    },
    "disable_ipv4": false,
    "boot_disk": {
        "firmware_version": "2.5+",
        "serial": "QM00001",
        "uuid": null,
        "numa_node": 0,
        "available_size": 5368709120,
        "size": 5368709120,
        "tags": [
            "ssd"
        ],
        "id": 3,
        "partition_table_type": null,
        "id_path": "/dev/disk/by-id/ata-QEMU_HARDDISK_QM00001",
        "model": "QEMU HARDDISK",
        "path": "/dev/disk/by-dname/sda",
        "storage_pool": null,
        "used_for": "Unused",
        "filesystem": null,
        "system_id": "bhxws3",
        "used_size": 0,
        "partitions": [],
        "name": "sda",
        "block_size": 512,
        "type": "physical",
        "resource_uri": "/MAAS/api/2.0/nodes/bhxws3/blockdevices/3/"
    },
    "status": 1,
    "iscsiblockdevice_set": [],
    "raids": [],
    "node_type_name": "Machine",
    "hardware_info": {
        "system_vendor": "QEMU",
        "system_product": "Standard PC (i440FX + PIIX, 1996)",
        "system_family": "Unknown",
        "system_version": "pc-i440fx-focal",
        "system_sku": "Unknown",
        "system_serial": "Unknown",
        "cpu_model": "Intel Core Processor (Skylake, IBRS)",
        "mainboard_vendor": "Unknown",
        "mainboard_product": "Unknown",
        "mainboard_serial": "Unknown",
        "mainboard_version": "Unknown",
        "mainboard_firmware_vendor": "SeaBIOS",
        "mainboard_firmware_date": "04/01/2014",
        "mainboard_firmware_version": "1.13.0-1ubuntu1",
        "chassis_vendor": "QEMU",
        "chassis_type": "Other",
        "chassis_serial": "Unknown",
        "chassis_version": "pc-i440fx-focal"
    },
    "commissioning_status_name": "Pending",
    "bios_boot_method": "pxe",
    "interface_test_status": -1,
    "cpu_speed": 0,
    "resource_uri": "/MAAS/api/2.0/machines/bhxws3/"
}

If you need to find the machine’s $SYSTEM_ID, you can use a command like this one:

maas $PROFILE machines read | jq '.[] | .hostname, .system_id'
"ace-swan"
"bhxws3"

Test machines

You can also test machines and networks with standard or custom test scripts. Refer to testing scripts for an explanation of the testing process.

Upload test scripts

Scripts can be uploaded to MAAS using the web UI. Select the ‘User scripts’ tab of the ‘Settings’ page - the ‘Commissioning scripts’ section is near the top. Within the Commissioning scripts section, click the Upload script button followed by ‘Choose file’ to open a requester, locate the script, and select Upload to upload it to MAAS.

A status message of Commissioning script created will appear. You’ll then be able to select your script after selecting test hardware from a machine’s ‘Take action’ menu.

MAAS executes scripts in lexicographical order. This order allows you to control when your scripts execute, and whether they run before or after the standard MAAS scripts.

To upload a hardware testing script to MAAS, enter the following:

maas $PROFILE node-scripts create name=$SCRIPT_NAME name> \
 script=$PATH_TO_SCRIPT type=testing

Changing the type to commissioning adds the test script to the commissioning process.

Debug test scripts

This feature is only available through the MAAS UI.

Clicking on the title of a completed or failed script will reveal the output from that specific script.

If you need further details, especially when writing and running your own scripts, you can connect to a machine and examine its logs and environment.

To do this, enable Allow SSH access and prevent the machine from powering off when selecting ‘Test hardware’ from the machine ‘Take action’ menu.

Because scripts operate within an ephemeral version of Ubuntu, enabling this option stops the machine from shutting down, allowing you to connect and probe a script’s status.

As long as you’ve added your SSH key to MAAS, you can connect with SSH to the machine’s IP with a username of ubuntu. Type sudo -i to get root access.

Download test scripts

This feature is only available through the MAAS CLI.

You can download the source for all commissioning and test scripts via the API with the following command:

maas $PROFILE node-script download $SCRIPT_NAME

The source code to all built-in scripts is available on launchpad^.

List test scripts

This feature is only available through the MAAS CLI.

You can list all uploaded scripts with the following command:

maas $PROFILE node-scripts read type=testing filters=$TAG

The optional filters argument lets you search for tags assigned to a script, such as using TAG=cpu with the above example.

Update test scripts

This feature is only available through the MAAS CLI.

A script’s metadata, and even the script itself, can be updated from the command line:

maas $PROFILE node-script update \
 $SCRIPT_NAME script=$PATH_TO_SCRIPT comment=$COMMENT

The JSON formatted output to the above command will include ‘history’ dictionary entries, detailing script modification times and associated comments:

"history": [
    {
        "id": 40,
        "created": "Tue, 12 Sep 2017 12:12:08 -0000",
        "comment": "Updated version"
    },
    {
        "id": 34,
        "created": "Fri, 08 Sep 2017 17:07:46 -0000",
        "comment": null
    }
]

Revert test scripts

This feature is only available through the MAAS CLI.

MAAS keeps a history of all uploaded script versions, allowing you to easily revert to a previous version, using the id of the desired version:

maas $PROFILE node-script revert $SCRIPT_NAME to=$VERSION_ID

The history for later modifications will be lost when reverting to an earlier version of the script.

Delete test scripts

This feature is only available through the MAAS CLI.

To delete a script, use delete:

maas $PROFILE node-script delete $SCRIPT_NAME

View results

This feature is only available through the MAAS CLI.

The command line allows you to not only view the current script’s progress but also retrieve the verbatim output from any previous runs too.

If you only want to see the latest or currently-running result, you can use current-commissioning, current-testing, or current-installation instead of an id:

maas $PROFILE node-script-result read $SYSTEM_ID $RESULTS

Filter results

This feature is only available through the MAAS CLI.

You can also limit which results are returned by type (commissioning, testing, or installation), script name, or script run:

maas $PROFILE node-script-results read \
 $SYSTEM_ID type=$SCRIPT_TYPE filters=$SCRIPT_NAME,$TAGS

Suppress failures

This feature is only available through the MAAS CLI.

You can also suppress failed results, which is useful if you want to ignore a known failure:

maas $PROFILE node-script-results update \
 $SYSTEM_ID type=$SCRIPT_TYPE filters=$SCRIPT_NAME,$TAGS suppressed=$SUPPRESSED

where $SUPPRESSED is either True or False. The JSON formatted output to the above command will include ‘results’ dictionary with an entry for suppressed:

"results": [
    {
        "id": 21,
        "created": "Tue, 02 Apr 2019 17:00:36 -0000",
        "updated": "Tue, 02 Apr 2019 20:56:41 -0000",
        "name": "smartctl-validate",
        "status": 5,
        "status_name": "Aborted",
        "exit_status": null,
        "started": "Tue, 02 Apr 2019 20:56:41 -0000",
        "ended": "Tue, 02 Apr 2019 20:56:41 -0000",
        "runtime": "0:00:00",
        "starttime": 1554238601.765214,
        "endtime": 1554238601.765214,
        "estimated_runtime": "0:00:00",
        "parameters": {
            "storage": {
                "argument_format": "{path}",
                "type": "storage",
                "value": {
                    "id_path": "/dev/vda",
                    "model": ",
                    "name": "sda",
                    "physical_blockdevice_id": 1,
                    "serial": "
                }
            }
        },
        "script_id": 1,
        "script_revision_id": null,
        "suppressed": true
    }
]

Finally, results can be downloaded, either to stdout, stderr, as combined output or as a tar.xz:

maas $PROFILE node-script-result download $SYSTEM_ID $RUN_ID output=all \
 filetype=tar.xz > $LOCAL_FILENAME

$RUN_ID is labelled id in the verbose result output.

Locate script files

Commissioning and testing script files may be found in the following directories:

  • /tmp/user_data.sh.*/scripts/commissioning/: Commissioning scripts
  • /tmp/user_data.sh.*/scripts/testing/: Hardware testing scripts

Locate log files

Commissioning and testing log files may be found in the following directories:

  • /tmp/user_data.sh*/out/
  • /var/log/cloud-init-output.log
  • /var/log/cloud-init.log

Run scripts manually

You can also run all commissioning and hardware-testing scripts on a machine for debugging.

/tmp/user_data.sh.*/bin/maas-run-remote-scripts \
    [--no-download] \
    [--no-send] \
    /tmp/user_data.sh.*

Where:

  • --no-download: Optional. Do not download the scripts from MAAS again.
  • --no-send: Optional. Do not send the results to MAAS.

For example, to run all the scripts again without downloading again from MAAS:

/tmp/user_data.sh.*/bin/maas-run-remote-scripts --no-download /tmp/user_data.sh.*

Here, all the scripts are run again after downloading from MAAS, but no output data is sent to MAAS:

/tmp/user_data.sh.*/bin/maas-run-remote-scripts --no-send /tmp/user_data.sh.*

Test network links

MAAS can check whether links are connected or disconnected, so that you can detect unplugged cables. If you are not running MAAS 2.7 or higher, you must first upgrade and then recommission your machines to find disconnected links. MAAS not only reports unplugged cables, but also gives a warning when trying to configure a disconnected interface. In addition, administrators can change the cable connection status after manually resolving the issue.

When MAAS detects a broken network link, users will see a screen similar to this one:

If you’re already using a version of MAAS less than 2.7, you will want to upgrade and recommission your existing machines to check link status. Note that you will also receive a warning from MAAS when trying to configure a disconnected interface.

To check network testing results, enter the following command:

maas $PROFILE interfaces read $SYSTEM_ID \
| jq -r '(["LINK_NAME","LINK_CONNECTED?","LINK_SPEED", "I/F_SPEED"]
| (., map(length*"-"))), (.[] | [.name, .link_connected, .link_speed, .interface_speed])
| @tsv' | column -t

which produces an output similar to this:

LINK_NAME  LINK_CONNECTED?  LINK_SPEED  I/F_SPEED
---------  ---------------  ----------  ---------
ens3       false            -           1 Gpbs

From this screen, you can see that the ens3 link is not connected (hence an unreported link speed).

Once you have manually repaired the broken connection, an administrator can change cable connection status.

Reset network links

maas $PROFILE interface update $SYSTEM_ID $INTERFACE_ID link_connected=true

Slow network links

As servers and hardware get faster, the chances increase that you might encounter a speed mismatch when connecting your NIC to a network device. MAAS can warn you if your interface is connected to a link slower than what the interface supports, by automatically detecting link and interface speed and reporting them via the UI:

Detect slow links

[tabs]

To detect slow links with the UI:

Depending on your physical hardware, the problem may not be repairable, but once you identify a slow link, you can replace a slow switch without recommissioning.

[tab version=“v3.4 Snap,v3.4 Packages,v3.3 Snap,v3.3 Packages,v3.2 Snap,v3.2 Packages,v3.1 Snap,v3.1 Packages,v3.0 Snap,v3.0 Packages,v2.9 Snap,v2.9 Packages” view=“CLI”]
To detect slow links with the CLI:

maas $PROFILE interfaces read $SYSTEM_ID \
| jq -r '(["LINK_NAME","LINK_CONNECTED?","LINK_SPEED", "I/F_SPEED"]
| (., map(length*"-"))), (.[] | [.name, .link_connected, .link_speed, .interface_speed])
| @tsv' | column -t

From the resulting output, you can detect when your link/interface speeds are slower than expected. Depending on your physical hardware, the problem may not be repairable, but once you identify a slow link, you can replace a slow switch without recommissioning.

Update speeds

This feature is only available via the MAAS CLI.

Administrators can change or update the link and interface speeds after manual changes to the connection:

maas $PROFILE interface update $SYSTEM_ID $INTERFACE_ID link_speed=$NEW_LINK_SPEED \
interface_speed=$NEW_INTERFACE_SPEED

Set up network scripts

This feature is only available via the MAAS UI.

MAAS allows you to configure network connectivity testing in a number of ways. If MAAS can’t connect to the rack controller, deployment can’t complete. MAAS can check connectivity to the rack controller and warn you if there’s no link, long before you have to try and debug it. For example, if you can’t connect to your gateway controller, traffic can’t leave your network.

MAAS can check this link and recognise that there’s no connectivity, which alleviates hard-to-detect network issues:

Users can now test their network configuration to check for:

  • Interfaces which have a broken network configuration
  • Bonds that are not fully operational
  • Broken gateways, rack controllers, and Internet links

Test Internet connectivity

This feature is only available via the MAAS UI.

You can give a list of URLs or IP addresses to check from the network testing screen:

In the ephemeral environment, standard DHCP is still applied, but when network testing runs, MAAS can apply your specific configuration for the duration of the test. While all URLs / IPs are tested with all interfaces, MAAS can test each of your interfaces individually, including breaking apart bonded NICS and testing each side of your redundant interfaces. You can also run different tests on each pass, e.g., a different set of URLs, although each run would be a different testing cycle.

Custom network testing

MAAS allow you to customise network testing according to your needs. You can create your own commissioning scripts and tests related to networking, and you can run them during the network testing portion of the MAAS workflow.

There are no particular restrictions on these scripts, so you can test a wide variety of possible conditions and situations. Administrators can upload network tests and test scripts. Administrators can also create tests which accept an interface parameter, or scripts which apply custom network configurations.

Users can specify unique parameters using the API, override machines which fail network testing (allowing their use), and suppress individual failed network tests. Users can also review the health status from all interface tests, even sorting them by interface name and MAC. In addition, MAAS can report the overall status of all interfaces.


Last updated 19 days ago.