performance-docs/doc/source/test_plans/keystone/plan.rst
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Keystone Performance testing

status

ready

version

1.0

Abstract

This document describes a test plan for measuring OpenStack Identity service (Keystone) performance, including primary analysis of database and cache operations effectiveness. This test plan assumes to use OSprofiler library for cross-project OpenStack requests profiling.

Test Plan

Keystone is an OpenStack project that provides Identity, Token, Catalog and Policy services for use specifically by projects in the OpenStack family. It implements OpenStacks Identity API and is widely used by almost all OpenStack services, therefore its performance is a key. To evaluate it this test plan proposes to use OSprofiler.

OSprofiler is an Oslo library that provides Python wrappers to trace operations on the Python level. It provides several ways to wrap separated methods, all methods inside one specific class and all methods encapsulated under Python classes having common ancestor.

For every profiled method, notifications are sent about operation start time and end time, including information about parent operation. Right now these notifications are stored as OpenStack Telemetry (Ceilometer) events, so on high level OpenStack profiling process can be presented as follows:

image

Test Environment

This section describes the setup for Keystone testing. It can be either a single (all-in-one) or a multi-node installation.

A single-node setup requires just one node to be up and running. It has both compute and controller roles and all OpenStack services run on this node. This setup does not support test cases, related to the performance measurements, combined with the components HA testing.

A basic multi-node setup with Keystone comprises 4 physical nodes:
  • One node for a compute node. This node simulates activity which is typical for OpenStack compute components.
  • Three nodes for a controller nodes. These node simulate activity which is typical for OpenStack control plane services, including running three MySQL instances managed by Galera cluster and memcached cluster for Keystone caching.

Preparation

Common preparation steps

No matter if you're running single node or multi node setup, you will require several steps to be completed before running any profiling tasks: * Ensure OSprofiler library is installed to all environment nodes to present most full information in the trace. * OSprofiler requires persistent profiling events storage to be presented in the environment. For now, the only supported variant is to use OpenStack Telemetry (Ceilometer) project, that will consume profiling events via message queue notifications from the affected OpenStack services. * OSprofiler integration to the OpenStack projects is ongoing initiative, so please ensure that all OpenStack services you would like to profile support it in your environment. Here is a project to release mapping that can be useful: * Cinder OSprofiler support - OpenStack Juno release * Glance OSprofiler support - OpenStack Juno release * Heat OSprofiler support - OpenStack Juno release * Trove OSprofiler support - OpenStack Juno release * Nova OSprofiler support - [planned] OpenStack Newton release * Neutron OSprofiler support - [planned] OpenStack Newton release * Keystone OSprofiler support - [planned] OpenStack Newton release At the time of this document composing Nova, Neutron and Keystone changes need to be applied manually to trace these projects usage. * Please make sure that all OpenStack services are properly configured to allow cross-project request profiling. In case of single node installation using DevStack this will be automatically managed by OSprofiler DevStack plugin, but for multi node environment this needs to be tracked separately. Please pay attention to the appropriate subsection under Multi node installation section. * Test cases described in this document suppose to collect information for comparison analysis of Keystone database and cache operations effectiveness, that requires Keystone reconfiguration depending on if caching mechanism is used at the moment or not. This is tracked via specialized keystone.conf file section:

[cache]
enabled = True|False
backend = oslo_cache.memcache_pool
memcache_servers = <memcached_host>:<memcached_port>[,<memcached_host>:<memcached_port>]
expiration_time = 600

Single node installation

For single node installation the one can use DevStack tool that is targeted at developers and CI systems to use upstream code. It makes many choices that are not appropriate for production systems, but for the all-in-one purposes this can fit ok.

At the time of document writing, DevStack's local.conf should be looking like as following to have and all-in-one OpenStack installation with Neutron enabled and OSprofiler installation included with all needed fixes to the OpenStack services:

[[local|localrc]]
ADMIN_PASSWORD=password
DATABASE_PASSWORD=$ADMIN_PASSWORD
RABBIT_PASSWORD=$ADMIN_PASSWORD
SERVICE_PASSWORD=$ADMIN_PASSWORD

LIBS_FROM_GIT=osprofiler,python-openstackclient

NOVA_REPO=https://review.openstack.org/p/openstack/nova
NOVA_BRANCH=refs/changes/03/254703/39

KEYSTONE_REPO=https://review.openstack.org/p/openstack/keystone
KEYSTONE_BRANCH=refs/changes/35/294535/2

NEUTRON_REPO=https://review.openstack.org/p/openstack/neutron
NEUTRON_BRANCH=refs/changes/51/273951/12

disable_service n-net horizon
enable_service q-svc q-dhcp q-meta q-agt q-l3 neutron

enable_plugin ceilometer https://git.openstack.org/openstack/ceilometer.git
enable_plugin osprofiler https://github.com/openstack/osprofiler.git

To add Fernet tokens usage (as for the time of document writing, default token format for DevStack is still UUID), the next line needs to be added explicitly:

KEYSTONE_TOKEN_FORMAT=fernet

Please make sure to have identical cache configuration for Keystone authtoken middleware. For example, cache might be external (memcached) and appropriate configuration section will look like this in this case:

[keystone_authtoken]
memcache_servers = <memcached_host>:<memcached_port>[,<memcached_host>:<memcached_port>]
signing_dir = <signing_dir>
cafile = <cafile.pem>
auth_uri = <auth_uri>
project_domain_id = <domain>
project_name = <service>
user_domain_id = <domain>
password = <password>
username = <project_user_name>
auth_url = <auth_url>
auth_plugin = <password>

Sadly there is no simple way to setup specific patches to be applyed on the python libraries used (OpenStack clients, OSProfiler, etc.) so they require manual patching in this case:

Multi node installation

Multi node environment installation depends much on the chosen set of OpenStack deployment tools. Whatever instrument will be used, please consider to ensure the following patches to be applied against main OpenStack services to be profiled (Nova, Neutron, Keystone) and the appropriate libraries:

OpenStack services configuration

Several OpenStack configuration files need to be modified to enable appropriate OSprofiler workability.

First of all, the one needs to enable Ceilometer profiling events storage via adding the following lines to the event_definitions.yaml file, declaratively announcing the wish to consume them:

- event_type: profiler.*
  traits:
    project:
      fields: payload.project
    service:
      fields: payload.service
    name:
      fields: payload.name
    base_id:
      fields: payload.base_id
    trace_id:
      fields: payload.trace_id
    parent_id:
      fields: payload.parent_id
    timestamp:
      fields: payload.timestamp
    host:
      fields: payload.info.host
    path:
      fields: payload.info.request.path
    query:
      fields: payload.info.request.query
    method:
      fields: payload.info.request.method
    scheme:
      fields: payload.info.request.scheme
    db.statement:
      fields: payload.info.db.statement
    db.params:
      fields: payload.info.db.params

Also, for extended tracing information providing it's useful (although, not mandatory if you need only high-level traces) to add the following lines to the ceilometer.conf configuration file:

[event]
store_raw=info

Note

Please pay attention to the fact, that the configuration parameter defined above will store raw events for all info level event notifications coming to the Ceilometer queue. Please make sure either to turn off not needed events in event_definitions.yaml or save enough place for the Ceilometer storage backend.

Also for every project you would like to trace it's required to enable its profiling via service configuration files and add the following section:

[profiler]
enabled = True
trace_sqlalchemy = True
hmac_keys = SECRET_KEY

In this test plan it's supposed to turn profiling on for Cinder, Glance, Nova, Neutron and Keystone.

Environment description

The environment description includes hardware specification of servers, network parameters, operation system and OpenStack deployment characteristics.

Hardware

This section contains list of all types of hardware nodes.

Parameter Value Comments
model e.g. Supermicro X9SRD-F
CPU e.g. 6 x Intel(R) Xeon(R) CPU E5-2620 v2 @ 2.10GHz
Network

This section contains list of interfaces and network parameters. For complicated cases this section may include topology diagram and switch parameters.

Parameter Value Comments
card model e.g. Intel
driver e.g. ixgbe
speed e.g. 10G or 1G
Software

This section describes installed software.

Parameter Value Comments
OS e.g. Ubuntu 14.04.3
Keystone DB e.g. MySQL 5.6
Keystone Cache on/off e.g. memcached v1.4.25
HA mode e.g. Cluster

Test Case 1: Keystone DB / cache operations analysis

Description

This test records all HTTP, RPC and DB calls happening during selected list of OpenStack control plane operations, including Keystone operations and their duration via OSprofiler. Human-readable report would be automatically generated to evaluate overall number of DB / cache calls, as well as raw information ported to the JSON format.

Let's focus on the following control plane operations:

  • Keystone token get (token issue)
  • Keystone user list
  • Keystone endpoint list
  • Keystone service list
  • Nova instance boot (server create)

OSprofiler adds an opportunity to call CLI command, generating report on the profiled control plane operation in one of the chosen formats - either JSON or HTML.

To initiate OpenStack request tracing --profile <HMAC_KEY> option needs to be added to the CLI command, triggering this specific action. This key needs to present one of the secret keys defined in <project>.conf configuration file with hmac_keys option under the [profiler] configuration section. In case if all OpenStack projects have shared HMAC_KEY defined in their configuration files, it will be possible to generate a report, containing tracing points from all services taking part in the request processing.

To initiate VM creation tracing the following command should be used from the CLI:

openstack --profile SECRET_KEY server create --image <image> --flavor <flavor> <server-name>

Without --profile SECRET_KEY option trace generation won't be triggered even if it's enabled in the OpenStack services configuration files.

At the end of output there will be message printed with <trace_id>, and to plot nice HTML graphs the following command should be used:

osprofiler trace show <trace_id> --html --out result.html

All other chosen control plane operations request can be traced via similar
approach.

Parameters

Parameter name Value
OpenStack release Liberty, Mitaka
Cache on, off
Token type UUID, fernet
Environment characteristics Single node, multi node (clusterized DB / memcached)

List of performance metrics

Test case result is presented as a weighted tree structure with operations as nodes and time spent on them as node weights for every control plane operation under the test. This information is automatically gathered in Ceilometer and can be gracefully transformed to the human-friendly report via OSprofiler.

Priority Value Measurement Units Description
1 Operation time milliseconds Time spent on every HTTP/RPC/DB operation

Note

Please keep in mind that OSprofiler uses python code and libraries to listen on specific events to happen - in common case that will be before method starts and after method starts via Python decorators usage, therefore time it collects includes time spent on Python operations inside. For DB calls tracing OSprofiler uses before_cursor_execute and after_cursor_execute events defined in SQLAlchemy library.

Test Case 2: Keystone DB / cache operations analysis (HA version)

Description

This test case should provide almost the same analysis as the previous one, the difference is in adding failover testing component to the research. First test run assumes to be the same as for previous case, the second one should happen after turning off one of the distributed components used by Keystone, e.g. stop one of memcached instances and run the same control plane operations tracing.

Parameters

Parameter name Value
OpenStack release Liberty, Mitaka
Cache on, off
Token type UUID, fernet
Environment characteristics Single node, multi node (clusterized DB / memcached)
Memcached cluster status 3 nodes, 2 nodes, 1 node
Galera cluster status 3 nodes, 2 nodes

List of performance metrics

Priority Value Measurement Units Description
1 Operation time milliseconds Time spent on every HTTP/RPC/DB operation

Reports

Test plan execution reports:
  • keystone_performance_all_in_one