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BenchmarkSQL

BenchmarkSQL is a GPLv2 fair-use TPC-C like testing tool.

TPC-C

The TPC-C is an OLTP benchmark defined by the Transaction Processing Counil. It consists of 9 tables that are connected with 10 Foreign Key Relationships. Except for the Item table, everything is scaled in cardinality by the number of warehouses (W), that are generated during the initial load of the database.

This schema is used by 5 different transactions that produce a variety of different access patterns on the tables.

  • Item is read only.
  • Warehouse, District, Customer and Stock are read/write.
  • New-Order is insert, read and delete, like a queue that at any given time has approximately W * 9000 rows in it.
  • Order and Order-Line receive inserts and every row inserted will have a time delayed update to it, after which the row becomes stale and may be read infrequently in the future.
  • History is insert only.

This is an impressive complexity and set of different access patterns for such a small schema and number of transaction profiles. It is one of the reasons why TPC-C is still one of the most important database benchmarks today.

Overview

BenchmarkSQL is implemented in JAVA, using JDBC to stress test SQL databases. The overall architecture is a series of data structures, queues and thread groups that handle the simulated terminals, users and application threads.

Its architecture allows BenchmarkSQL to drive TPC-C configurations up to many thousands of warehouses (known as the scaling factor) without overwhelming the job scheduler of the test driver itself. Yet it is capable of doing so without sacrificing one of the most important measurements in a TPC-C, the end-user experienced response time at the terminal.

Please read the Full Architecture Description for a detailed explanation of the above diagram.

Building

BenchmarkSQL V6 is meant to be built into a Docker container and controlled via its Flask based WEB UI and/or API. This allows for easy deployment of the benchmark driver on servers and cloud systems while controlling it through a browser or scripted.

See the build instructions for details.

Launching the Service Container

Once the Docker image is built a container can be started with the service-start.sh script.

#!/bin/sh

mkdir -p ./service_data

docker run --rm -it --name benchmarksql-service \
	--publish 5000:5000 \
	--volume "`pwd`/service_data:/service_data" \
	--user `id -u`:`id -g` \
	benchmarksql-v6.0
  • It creates a local directory to preserve configuration and result data. This directory is mounted into the container.
  • It runs the docker image benchmarksql-v6.0 as a container with a tag benchmarksql-service. This container is running the service under the current user (not root) and it forwards port 5000/tcp into the container for the Flask UI and API.

This container will run in the foreground and show the Flask log for debugging purposes. To run it in the background simply replace the flags -it with -d.

At this point the BenchmarkSQL service is running and you can connect to it with you browser on http://localhost:5000

If you created this service on a remote machine, don't simply open port 5000/tcp in the firewall. Keep in mind that the configuration file, controlling the benchmark run settings, contains all the connection credentials for your database in clear text! The plan is to substantially enhance the Flask GUI and API with user and configuration management. Then provide instructions on how to secure the container behind an nginx reverse proxy for encryption. In the meantime please use ssh to tunnel port 5000/tcp securely to the benchmark driver machine. Since that tunnel is only for the WEB UI and API traffic, it won't affect the benchmark results at all.

Configuring and Running a Benchmark

BenchmarkSQL is configured with files in the JAVA properties format. A detailed description of all parameters in that file can be found here.

TODO: Tutorial of how to use the WEB UI

Automation

TODO: Point to a tutorial walking through using the (yet to be written) command line interface.