How it works

Integration with Ironic

For information on how to install and configure Ironic drivers, including drivers for IPA, see the Ironic drivers documentation.

Lookup

On startup, the agent performs a lookup in Ironic to determine its node UUID by sending a hardware profile to the Ironic lookup endpoint: /v1/lookup.

Heartbeat

After successfully looking up its node, the agent heartbeats via /v1/heartbeat/{node_ident} every N seconds, where N is the Ironic conductor’s agent.heartbeat_timeout value multiplied by a number between .3 and .6.

For example, if your conductor’s ironic.conf contains:

[agent]
heartbeat_timeout = 60

IPA will heartbeat between every 20 and 36 seconds. This is to ensure jitter for any agents reconnecting after a network or API disruption.

After the agent heartbeats, the conductor performs any actions needed against the node, including querying status of an already run command. For example, initiating in-band cleaning tasks or deploying an image to the node.

Inspection

IPA can conduct hardware inspection on start up and post data to the Ironic Inspector via the /v1/continue endpoint.

Edit your default PXE/iPXE configuration or IPA options baked in the image, and set ipa-inspection-callback-url to the full endpoint of Ironic Inspector, for example:

ipa-inspection-callback-url=http://IP:5050/v1/continue

Make sure your DHCP environment is set to boot IPA by default.

For the cases where the infrastructure operator and cloud user are the same, an additional tool exists that can be installed alongside the agent inside a running instance. This is the ironic-collect-introspection-data command which allows for a node in ACTIVE state to publish updated introspection data to ironic-inspector. This ability requires ironic-inspector to be configured with [processing]permit_active_introspection set to True. For example:

ironic-collect-introspection-data --inspection_callback_url http://IP:5050/v1/continue

Alternatively, this command may also be used with multicast DNS functionality to identify the Ironic Inspector service endpoint. For example:

ironic-collect-introspection-data --inspection_callback_url mdns

An additional daemon mode may be useful for some operators who wish to receive regular updates, in the form of the [DEFAULT]introspection_daemon boolean configuration option. For example:

ironic-collect-introspection-data --inspection_callback_url mdns --introspection_daemon

The above command will attempt to connect to introspection and will then enter a loop to publish every 300 seconds. This can be tuned with the [DEFAULT]introspection_daemon_post_interval configuration option.

Inspection Data

As part of the inspection process, data is collected on the machine and sent back to Ironic Inspector for storage. It can be accessed via the introspection data API.

The exact format of the data depends on the enabled collectors, which can be configured using the ipa-inspection-collectors kernel parameter. Each collector appends information to the resulting JSON object. The in-tree collectors are:

default

The default enabled collectors. Collects the following keys:

  • inventory - Hardware Inventory.

  • root_disk - The default root device for this machine, which will be used for deployment if root device hints are not provided.

  • configuration - Inspection configuration, an object with two keys:

    • collectors - List of enabled collectors.

    • managers - List of enabled Hardware Managers: items with keys name and version.

  • boot_interface - Deprecated, use the inventory.boot.pxe_interface field.

logs

Collect system logs. To yield useful results it must always go last in the list of collectors. Provides one key:

  • logs - base64 encoded tarball with various logs.

pci-devices

Collects the list of PCI devices. Provides one key:

  • pci_devices - list of objects with keys vendor_id and product_id.

extra-hardware

Collects a vast list of facts about the systems, using the hardware library, which is a required dependency for this collector. Adds one key:

  • data - raw data from the hardware-collect utility. Is a list of lists with 4 items each. It is recommended to use this collector together with the extra_hardware processing hook on the Ironic Inspector side to convert it to a nested dictionary in the extra key.

    If ipa-inspection-benchmarks is set, the corresponding benchmarks are executed and their result is also provided.

dmi-decode

Collects information from dmidecode. Provides one key:

  • dmi DMI information in three keys: bios, cpu and memory.

numa-topology

Collects NUMA topology information. Provides one key:

  • numa_topology with three nested keys:

    • ram - list of objects with keys numa_node (node ID) and size_kb.

    • cpus - list of objects with keys cpu (CPU ID), numa_node (node ID) and thread_siblings (list of sibling threads).

    • nics - list of objects with keys name (NIC name) and numa_node (node ID).

lldp

Collects information about the network connectivity using LLDP. Provides one key:

  • lldp_raw - mapping of interface names to lists of raw type-length-value (TLV) records.

Hardware Inventory

IPA collects various hardware information using its Hardware Managers, and sends it to Ironic on lookup and to Ironic Inspector on Inspection.

The exact format of the inventory depends on the hardware manager used. Here is the basic format expected to be provided by all hardware managers. The inventory is a dictionary (JSON object), containing at least the following fields:

cpu

CPU information: model_name, frequency, count, architecture and flags.

memory

RAM information: total (total size in bytes), physical_mb (physically installed memory size in MiB, optional).

Note

The difference is that the latter includes the memory region reserved by the kernel and is always slightly bigger. It also matches what the Nova flavor would contain for this node and thus is used by the inspection process instead of total.

bmc_address

IPv4 address of the node’s BMC (aka IPMI v4 address), optional.

bmc_v6address

IPv6 address of the node’s BMC (aka IPMI v6 address), optional.

disks

list of disk block devices with fields: name, model, size (in bytes), rotational (boolean), wwn, serial, uuid, vendor, wwn_with_extension, wwn_vendor_extension, hctl and by_path (the full disk path, in the form /dev/disk/by-path/<rest-of-path>).

interfaces

list of network interfaces with fields: name, mac_address, ipv4_address, lldp, vendor, product, and optionally biosdevname (BIOS given NIC name) and speed_mbps (maximum supported speed).

Note

For backward compatibility, interfaces may contain lldp fields. They are deprecated, consumers should rely on the lldp inspection collector instead.

system_vendor

system vendor information from SMBIOS as reported by dmidecode: product_name, serial_number and manufacturer, as well as a firmware structure with fields vendor, version and build_date.

boot

boot information with fields: current_boot_mode (boot mode used for the current boot - BIOS or UEFI) and pxe_interface (interface used for PXE booting, if any).

hostname

hostname for the system

Note

This is most likely to be set by the DHCP server. Could be localhost if the DHCP server does not set it.

Image Checksums

As part of the process of downloading images to be written to disk as part of image deployment, a series of fields are utilized to determine if the image which has been downloaded matches what the user stated as the expected image checksum utilizing the instance_info/image_checksum value.

OpenStack, as a whole, has replaced the “legacy” checksum field with os_hash_value and os_hash_algo fields, which allows for an image checksum and value to be asserted. An advantage of this is a variety of algorithms are available, if a user/operator is so-inclined.

For the purposes of Ironic, we continue to support the pass-through checksum field as we support the checksum being retrieved via a URL.

We also support determining the checksum by length.

The field can be utilized to designate:

  • A URL to retreive a checksum from.

  • MD5 (Disabled by default, see [DEFAULT]md5_enabled in the agent configuration file.)

  • SHA-2 based SHA256

  • SHA-2 based SHA512

SHA-3 based checksums are not supported for auto-determination as they can have a variable length checksum result. At of when this documentation was added, SHA-2 based checksum algorithms have not been withdrawn from from approval. If you need to force use of SHA-3 based checksums, you must utilize the os_hash_algo setting along with the os_hash_value setting.