ironic/doc/source/admin/tuning.rst
Arne Wiebalck e52a13cca9 [doc] Cross-reference the updated power sync docs from tuning
Change-Id: I44f92d329e1bd6fdba2ed038ee94753aeb349659
2021-08-24 15:26:08 +02:00

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Tuning Ironic

Memory Utilization

Memory utilization is a difficult thing to tune in Ironic as largely we may be asked by API consumers to perform work for which the underlying tools require large amounts of memory.

The biggest example of this is image conversion. Images not in a raw format need to be written out to disk for conversion (when requested) which requires the conversion process to generate an in-memory map to re-assemble the image contents into a coherent stream of data. This entire process also stresses the kernel buffers and cache.

This ultimately comes down to a trade-off of Memory versus Performance, similar to the trade-off of Performance versus Cost.

On a plus side, an idle Ironic deployment does not need much in the way of memory. On the down side, a highly bursty environment where a large number of concurrent deployments may be requested should consider two aspects:

  • How is the ironic-api service/process set up? Will more processes be launched automatically?
  • Are images prioritized for storage size on disk? Or are they compressed and require format conversion?

API

Ironic's API should have a fairly stable memory footprint with activity, however depending on how the webserver is running the API, additional processes can be launched.

Under normal conditions, as of Ironic 15.1, the ironic-api service/process consumes approximately 270MB of memory per worker. Depending on how the process is being launched, the number of workers and maximum request threads per worker may differ. Naturally there are configuration and performance trade-offs.

  • Directly as a native python process, i.e. execute ironic-api processes. Each single worker allows for multiple requests to be handled and threaded at the same time which can allow high levels of request concurrency. As of the Victoria cycle, a direct invocation of the ironic-api program will only launch a maximum of four workers.
  • Launched via a wrapper such as Apache+uWSGI may allow for multiple distinct worker processes, but these workers typically limit the number of request processing threads that are permitted to execute. This means requests can stack up in the front-end webserver and be released to the ironic-api as prior requests complete. In environments with long running synchronous calls, such as use of the vendor passthru interface, this can be very problematic.

When the webserver is launched by the API process directly, the default is based upon the number of CPU sockets in your machine.

When launching using uwsgi, this will entirely vary upon your configuration, but balancing workers/threads based upon your load and needs is highly advisable. Each worker process is unique and consumes far more memory than a comparable number of worker threads. At the same time, the scheduler will focus on worker processes as the threads are greenthreads.

Note

Host operating systems featuring in-memory de-duplication should see an improvement in the overall memory footprint with multiple processes, but this is not something the development team has measured and will vary based upon multiple factors.

One important item to note: each Ironic API service/process does keep a copy of the hash ring as generated from the database in-memory. This is done to help allocate load across a cluster in-line with how individual nodes and their responsible conductors are allocated across the cluster. In other words, your amount of memory WILL increase corresponding to the number of nodes managed by each ironic conductor. It is important to understand that features such as conductor groups means that only matching portions of nodes will be considered for the hash ring if needed.

Conductor

A conductor process will launch a number of other processes, as required, in order to complete the requested work. Ultimately this means it can quickly consume large amounts of memory because it was asked to complete a substantial amount of work all at once.

The ironic-conductor from ironic 15.1 consumes by default about 340MB of RAM in an idle configuration. This process, by default, operates as a single process. Additional processes can be launched, but they must have unique resolvable hostnames and addresses for JSON-RPC or use a central oslo.messaging supported message bus in order for Webserver API to Conductor API communication to be functional.

Typically, the most memory intensive operation that can be triggered is a image conversion for deployment, which is limited to 1GB of RAM per conversion process.

Most deployments, by default, do have a concurrency limit depending on their Compute (See nova.conf setting max_concurrent_builds) configuration. However, this is only per nova-compute worker, so naturally this concurrency will scale with additional workers.

Stand-alone users can easily request deployments exceeding the Compute service default maximum concurrent builds. As such, if your environment is used this way, you may wish to carefully consider your deployment architecture.

With a single nova-compute process talking to a single conductor, asked to perform ten concurrent deployments of images requiring conversion, the memory needed may exceed 10GB. This does however, entirely depend upon image block structure and layout, and what deploy interface is being used.

Database

Query load upon the database is one of the biggest potential bottlenecks which can cascade across a deployment and ultimately degrade service to an Ironic user.

Often, depending on load, query patterns, periodic tasks, and so on and so forth, additional indexes may be needed to help provide hints to the database so it can most efficently attempt to reduce the number of rows which need to be examined in order to return a result set.

Adding indexes

This example below is specific to MariaDB/MySQL, but the syntax should be easy to modify for operators using PostgreSQL.

use ironic;
create index owner_idx on nodes (owner) LOCK = SHARED;
create index lessee_idx on nodes (lessee) LOCK = SHARED;
create index driver_idx on nodes (driver) LOCK = SHARED;
create index provision_state_idx on nodes (provision_state) LOCK = SHARED;
create index reservation_idx on nodes (reservation) LOCK = SHARED;
create index conductor_group_idx on nodes (conductor_group) LOCK = SHARED;
create index resource_class_idx on nodes (resource_class) LOCK = SHARED;

Note

The indexes noted have been added automatically by Xena versions of Ironic and later. They are provided here as an example and operators can add them manually prior with versions of Ironic. The database upgrade for the Xena release of Ironic which adds these indexes are only aware of being able to skip index creation if it already exists on MySQL/MariaDB.

Note

It may be possible to use "LOCK = NONE". Basic testing indicates this takes a little bit longer, but shouldn't result in the database table becoming write locked during the index creation. If the database engine cannot support this, then the index creation will fail.

Database platforms also have a concept of what is called a "compound index" where the index is aligned with the exact query pattern being submitted to the database. The database is able to use this compound index to attempt to drastically reduce the result set generation time for the remainder of the query. As of the composition of this document, we do not ship compound indexes in Ironic as we feel the most general benefit is single column indexes, and depending on data present, an operator may wish to explore compound indexes with their database administrator, as comound indexes can also have negative performance impacts if improperly constructed.

use ironic;
create index my_custom_app_query_index on nodes (reservation, provision_state, driver);

The risk, and WHY you should engage a Database Administrator, is depending on your configuration, the actual index may need to include one or more additional fields such as owner or lessee which may be added on to the index. At the same time, queries with less field matches, or in different orders will exhibit different performance as the compound index may not be able to be consulted.

Indexes will not fix everything

Indexes are not a magical cure-all for all API or database performance issues, but they are an increadibly important part depending on data access and query patterns.

The underlying object layer and data conversions including record pagination do add a substantial amount of overhead to what may otherwise return as a result set on a manual database query. In Ironic's case, due to the object model and the need to extract multiple pieces of data at varying levels of the data model to handle cases such as upgrades, the entire result set is downloaded and transformed which is an overhead you do not experience with a command line database client.

BMC interaction

In its default configuration, Ironic runs a periodic task to synchronize the power state of the managed physical nodes with the Ironic database. For the hardware type ipmi (see /admin/drivers/ipmitool) and depending on the number of nodes, the network connectivity, and the parallelism of these queries, this synchronization may fail and retries will be triggered. Please find more details on the power synchronization and which options to adapt in case too many power sync failures occur in the section on /admin/power-sync.

What can I do?

Previously in this document, we've already suggested some architectural constraints and limitations, but there are some things that can be done to maximize performance. Again, this will vary greatly depending on your use.

  • Use the direct deploy interface. This offloads any final image conversion to the host running the ironic-python-agent. Additionally, if Swift or other object storage such as RadosGW is used, downloads can be completely separated from the host running the ironic-conductor.
  • Use small/compact "raw" images. Qcow2 files are generally compressed and require substantial amounts of memory to decompress and stream.
  • Tune the internal memory limit for the conductor using the [DEFAULT]memory_required_minimum setting. This will help the conductor throttle back memory intensive operations. The default should prevent Out-of-Memory operations, but under extreme memory pressure this may still be sub-optimal. Before changing this setting, it is highly advised to consult with your resident "Unix wizard" or even the Ironic development team in upstream IRC. This feature was added in the Wallaby development cycle.
  • If network bandwidth is the problem you are seeking to solve for, you may wish to explore a mix of the direct deploy interface and caching proxies. Such a configuration can be highly beneficial in wide area deployments. See Using proxies for image download <ipa-proxies>.
  • If you're making use of large configuration drives, you may wish to ensure you're using Swift to store them as opposed to housing them inside of the database. The entire object and contents are returned whenever Ironic needs to evaluate the entire node, which can become a performance impact. For more information on configuration drives, please see Enabling the configuration drive <configdrive>.