rally/doc/source/overview.rst
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Overview

Rally is a benchmarking tool that automates and unifies multi-node OpenStack deployment, cloud verification, benchmarking & profiling. It can be used as a basic tool for an OpenStack CI/CD system that would continuously improve its SLA, performance and stability.

Who Is Using Rally

Here's a small selection of some of the many companies using Rally:

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Use Cases

Let's take a look at 3 major high level Use Cases of Rally:

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Generally, there are a few typical cases where Rally proves to be of great use:

  1. Automate measuring & profiling focused on how new code changes affect the OS performance;

  2. Using Rally profiler to detect scaling & performance issues;

  3. Investigate how different deployments affect the OS performance:

    • Find the set of suitable OpenStack deployment architectures;
    • Create deployment specifications for different loads (amount of controllers, swift nodes, etc.);
  4. Automate the search for hardware best suited for particular OpenStack cloud;

  5. Automate the production cloud specification generation:

    • Determine terminal loads for basic cloud operations: VM start & stop, Block Device create/destroy & various OpenStack API methods;
    • Check performance of basic cloud operations in case of different loads.

Real-life examples

To be substantive, let's investigate a couple of real-life examples of Rally in action.

How does amqp_rpc_single_reply_queue affect performance?

Rally allowed us to reveal a quite an interesting fact about Nova. We used NovaServers.boot_and_delete benchmark scenario to see how the amqp_rpc_single_reply_queue option affects VM bootup time (it turns on a kind of fast RPC). Some time ago it was shown that cloud performance can be boosted by setting it on, so we naturally decided to check this result with Rally. To make this test, we issued requests for booting and deleting VMs for a number of concurrent users ranging from 1 to 30 with and without the investigated option. For each group of users, a total number of 200 requests was issued. Averaged time per request is shown below:

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So Rally has unexpectedly indicated that setting the *amqp_rpc_single_reply_queue* option apparently affects the cloud performance, but in quite an opposite way rather than it was thought before.

Performance of Nova list command

Another interesting result comes from the NovaServers.boot_and_list_server scenario, which enabled us to we launched the following benchmark with Rally:

  • Benchmark environment (which we also call "Context"): 1 temporary OpenStack user.
  • Benchmark scenario: boot a single VM from this user & list all VMs.
  • Benchmark runner setting: repeat this procedure 200 times in a continuous way.

During the execution of this benchmark scenario, the user has more and more VMs on each iteration. Rally has shown that in this case, the performance of the VM list command in Nova is degrading much faster than one might expect:

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Complex scenarios

In fact, the vast majority of Rally scenarios is expressed as a sequence of "atomic" actions. For example, NovaServers.snapshot is composed of 6 atomic actions:

  1. boot VM
  2. snapshot VM
  3. delete VM
  4. boot VM from snapshot
  5. delete VM
  6. delete snapshot

Rally measures not only the performance of the benchmark scenario as a whole, but also that of single atomic actions. As a result, Rally also plots the atomic actions performance data for each benchmark iteration in a quite detailed way:

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Architecture

Usually OpenStack projects are implemented "as-a-Service", so Rally provides this approach. In addition, it implements a CLI-driven approach that does not require a daemon:

  1. Rally as-a-Service: Run rally as a set of daemons that present Web UI (work in progress) so 1 RaaS could be used by a whole team.
  2. Rally as-an-App: Rally as a just lightweight and portable CLI app (without any daemons) that makes it simple to use & develop.

The diagram below shows how this is possible:

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The actual Rally core consists of 4 main components, listed below in the order they go into action:

  1. Server Providers - provide a unified interface for interaction with different virtualization technologies (LXS, Virsh etc.) and cloud suppliers (like Amazon): it does so via ssh access and in one L3 network;
  2. Deploy Engines - deploy some OpenStack distribution (like DevStack or FUEL) before any benchmarking procedures take place, using servers retrieved from Server Providers;
  3. Verification - runs Tempest (or another specific set of tests) against the deployed cloud to check that it works correctly, collects results & presents them in human readable form;
  4. Benchmark Engine - allows to write parameterized benchmark scenarios & run them against the cloud.

It should become fairly obvious why Rally core needs to be split to these parts if you take a look at the following diagram that visualizes a rough algorithm for starting benchmarking OpenStack at scale. Keep in mind that there might be lots of different ways to set up virtual servers, as well as to deploy OpenStack to them.

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