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MaxScale 24.02 WCAR: Workload Capture and Replay

WCAR: Workload Capture and Replay

NOTE The WCAR filter requires a MaxScale license. This license is included with a MariaDB support agreement, but can also be purchased separately. The WCAR filter will be a standard part of MaxScale 24.08, but is available upon request for evaluation with MaxScale 24.02.

The WCAR filter captures client traffic and stores it in a replayable format.

The filter is designed for capturing traffic on a production MaxScale instance. The captured data can then be used as a reproducible way of generating accurate client traffic without having to write application-specific traffic generators.

The captured workloads can be used to verify that upgrades of MariaDB behave as expected and to measure what effects configuration changes may have.

Another use case is to find out why certain scenarios take much longer then expected, a kind of sql debugging.

Prerequisites

  • Both the capture MaxScale and replay MaxScale servers must use the same linux distribution and CPU architecture. For example, if the capture was taken on an x86_64 RHEL 8 instance, the replay should also happen on an x86_64 RHEL 8 instance. Captured workloads are however usually compatible across different linux distributions that use the same CPU architecture.

  • The capture MariaDB instance must have binlogging enabled (log-bin=1)

Capture

Configuration

To start capturing the workload, define the WCAR filter by adding the following configuration object and add it to each service whose traffic is going to be captured. The traffic from all services that use the filter will be combined so only use the filter in services that point to the same database cluster.

[WCAR]
type=filter
module=wcar
# Limit capture duration to one hour
capture_duration=1h
# Limit capture size to 1GiB
capture_size=1Gi
# Start capturing immediately after starting MaxScale
start_capture=true

Example configuration

If capture is used dynamically, using WCAR Commands (command line using maxctrl), the simplest filter configuration is:

[WCAR]
type=filter
module=wcar

Here is an example configuration for capturing from a single MariaDB server, where capture starts when MaxScale starts and ends when MaxScale is stopped (start_capture=true). MaxScale listens on port 4006 and connects to MariaDB on port 3306.

[server1]
type=server
address=127.0.0.1
port=3306

[MariaDB-Monitor]
type=monitor
module=mariadbmon
servers=server1
user=maxuser
password=maxpwd

[WCAR]
type=filter
module=wcar
# Limit capture duration to one hour
capture_duration=1h
# Limit capture size to 1GiB
capture_size=1Gi
# Start capturing immediately after starting MaxScale
start_capture=true

[RWS-Router]
type=service
router=readwritesplit
cluster=MariaDB-Monitor
user=maxuser
password=maxpwd
filters=WCAR

[RWS-Listener]
type=listener
service=RWS-Router
protocol=MariaDBClient
port=4006

Capturing Traffic

This first section explains how capture is done with configuration value start_capture=true. But note that capture can be started and stopped dynamically using module commands as well (where the configuration value can be start_capture=false, or omitted as that is the default).

Two things are needed to replay a workload: the client traffic that's captured by MaxScale and a backup of the database that is used to initialize the replay server. The backup must be taken from the point in time where the capture starts and the simplest way to achieve this is to take a logical backup by doing the following.

  • Stop MaxScale
  • Take a backup of the database with mariadb-dump --all-databases --system=all
  • Start MaxScale

Once MaxScale has been started, the captured traffic will be written to files in /var/lib/maxscale/wcar/<name> where <name> is the name of the filter (WCAR in the examples).

Each capture will generate a number files named NAME_YYYY-MM-DD_HHMMSS.SUFFIX where NAME is the capture name (defaults to capture), YYYY-MM-DD is the date and HHMMSS is the time and the SUFFIX is one of .cx, .ex or .gx. For example, a capture started on the 18th of April 2024 at 10:26:11 would generate a file named capture_2024-04-18_102611.cx.

Stopping the Capture

To stop the capture, simply stop MaxScale, or issue the command:

maxctrl call command wcar stop WCAR

where "WCAR" is the name given to the filter as was done in the example configuration above.

To disable capturing altogether, remove the WCAR filter from the configuration and remove it from all services that it was added to. Restart MaxScale.

If the replay is to take place on another server, the results can be collected easily from /var/lib/maxscale/wcar/ with the following command.

tar -caf captures.tar.gz -C /var/lib/maxscale wcar

Once the capture tarball has been generated, copy it to the replay server. You might then want to delete the directories on the capture server from /var/lib/maxscale/wcar/* to save space (and not copy them again later).

WCAR Commands

Each of the commands can be called with the following syntax.

maxctrl call command wcar <command> <filter> [options]

The <filter> is the name of the filter instance. In the example configuration, the value would be WCAR. The [options] is a list of optional arguments that the command might expect.

start <filter> [options]

Starts a new capture. Issuing a start command will stop any ongoing capture.

The start command supports optional key-value pairs. If the values are also defined in the configuration file the command line options have priority. The supported keys are: - prefix The prefix added to capture files. The default value is capture. - duration Limit capture to this duration. See also configuration file value 'capture_duration'. - size Limit capture to approximately this many bytes in the file system. See also configuration file value 'capture_size'.

The start command options are not persistent, but apply only to the "start" capture where they are used.

For example, starting a capture with the below command would create a capture file named Scenario1_2024-04-18_102605.cx and limit the file system usage to approximately 10GiB. If capture_duration was defined in the configuration file it would also be used.

If both duration and size are specified, the one that triggers first, stops the capture.

maxctrl call command wcar start WCAR prefix=Scenario1 size=10G

Running the same command again, but without size=10G, the capture_size used would be that defined in the configuration file or no limit if there was no such definition.

stop <filter>

Stops the currently active capture if one is in progress.

maxctrl call command wcar stop WCAR

Replay

Installation

Install the required packages on the MaxScale server where the replay is to be done. An additional dependency that must be manually installed is Python, version 3.7 or newer. On most linux distributions a new enough version is available as the default Python interpreter.

The replay consists of restoring the database to the point in time where the capture was started. Start by restoring the replay database to this state. Once the database has been restored from the backup, copy the capture files over to the replay MaxScale server.

Preparing the Replay MariaDB Database

Full Restore

Start by restoring the database from the backup to put it at the point in time where the capture was started. The GTID position at which the capture starts can be seen in the output of the summary command:

maxplayer summary /path/to/capture.cx

Run maxplayer --help to see the command line options. The help output is also shown at the end of this file.

The replay also requires a user account using which the captured traffic is replayed. This user must have access to all the tables in question. In practice the simplest way to do this for testing is to create the user as follows:

CREATE USER 'maxreplay'@'%' IDENTIFIED BY 'replay-pw';
GRANT ALL ON *.* TO 'maxreplay'@'%';

Restore for read-only Replay

For captures that are intended for read-only Replay, it may not be as important that the servers to be tested against are in the exact GTID the capture server was when capture started. In fact, it may be advantageous that the servers are at the state after the capture finished.

On the other hand, Replay also supports write-only. Following the Full Replay procedure above and then running a write-only Replay prepares the replay server(s) for easily running read-only multiple times. This way of running read-only may, for example, be used when fine tuning server settings.

Replaying the Capture

When replay is first done, the capture files will be transformed in-place. Transform can be run separately as well. Depending on the size and structure of the capture file, Transform can use up to twice the space of the capture.ex file. The files with extension .ex contain most of the captured data (events).

Start by copying the replay file tarball created earlier (captures.tar.gz) to the replay MaxScale server and copy it to a directory of your choice (here called /path/to/capture-dir). Then extract the files.

cd /path/to/capture-dir
tar -xaf captures.tar.gz

After this, replay the workload against the baseline MariaDB setup:

maxplayer replay --user maxreplay --password replay-pw --host <host:port> --output baseline-result.csv /path/to/capture.cx

Once the baseline replay results have been generated, run the replay again but this time against the new MariaDB setup to which the baseline is compared to:

maxplayer replay --user maxreplay --password replay-pw --host <host:port> --output comparison-result.csv /path/to/capture.cx

After both replays have been completed, the results can be post-processed and visualized.

Visualizing

The results of the WCAR replay must first be post-processed into summaries that the visualization will then use. First, the canonicals.csv file must be generated that is needed in the post-processing:

maxplayer canonicals /path/to/capture.cx > canonicals.csv

After that, the baseline and comparison replay results can be post-processed into summaries using the maxpostprocess command:

maxpostprocess canonicals.csv baseline-result.csv -o baseline-summary.json
maxpostprocess canonicals.csv comparison-result.csv -o comparison-summary.json

The visualization itself is done with the maxvisualize program. The visualization will open up a browser window to show the visualization. If no browser opens up, the visualization URL is also printed into the command line which by default should be http://localhost:8866/.

maxvisualize baseline-summary.json comparison-summary.json

WCAR Parameters

capture_dir

  • Type: path
  • Default: /var/lib/maxscale/capture/
  • Mandatory: No
  • Dynamic: No

Directory under which capture directories are stored. Each capture directory has the name of the filter. In the examples above the name "WCAR" was used.

start_capture

  • Type: boolean
  • Default: false
  • Mandatory: No
  • Dynamic: No

Start capture when maxscale starts.

capture_duration

  • Type: duration
  • Default: 0s
  • Mandatory: No
  • Dynamic: No

Limit capture to this duration.

capture_size

  • Type: size
  • Default: 0
  • Mandatory: No
  • Dynamic: No

Limit capture to approximately this many bytes in the file system.

maxplayer command line options

maxplayer -u user -p pwd --speed 1.5 -i 5s -o baseline.csv /home/mariadb/maxscale/var/lib/maxscale/wcar/WCAR/capture_2024-06-11_135251.cx --help File /home/mariadb/maxscale/var/lib/maxscale/wcar/WCAR/capture_2024-06-11_135251.cx does not exist Usage: maxplayer [OPTION]... [COMMAND] FILE

Commands: (default: replay) summary Show a summary of the capture. replay Replay the capture. convert Converts the input file (either .cx or .rx) to a replay file (.rx or .csv). canonicals List the canonical forms of the captured SQL as CSV. dump-data Dump capture data as SQL. show Show the SQL of one or more events.

Options: --user User name for login to the replay server. -u This version does not support using the actual user names that were used during capture.

--password Only clear text passwords are supported as of yet. -p

--host The address of the replay server in <ip>:<port> format. -h E.g. 127.0.0.1:4006

--output The name of the output file: e.g. baseline.csv -o

--speed The value is a multiplier. 2.5 is 2.5x speed and 0.5 is half speed. -s A value of zero means no limit, or replay as fast as possible. A multiplier of 2.5 might not have any effect as the actual time spent depends on many factors, such as the captured volume and replay server.

--idle-wait Relates to playback speed, and can be used together with --speed. -i During capture there can be long delays where there is no traffic. One hour of no capture traffic would mean replay waits for one hour. idle-wait allows to move simulation time forwards when such gaps occure. A 'gap' starts when all prior queries have fully executed. --idle-wait takes a duration value. A negative value turns the feature off, i.e. the one hour wait would happen. --idle-wait 0s means time moves to the event start-time immediately when a gap is detected, i.e., all gaps are skipped over. --idle-wait 10s means time moves to the event start-time 10 seconds (wall time) after the gap was detected. Shorter gaps than 10 seconds will thus be fully waited for. --idle-wait has a default value of 1 second. Examples: 1h, 60m, 3600s, 3600000ms, which all define the same duration.

--query-filter Options: none, write-only, read-only. Default: none. -f Replay can optionally apply only writes or only reads. This option is useful once the databases to be tested have been prepared (see full documentation) and optionally either a write-only run, or a full replay has been run. Now multiple read-only runs against the server(s) are simple as no further data syncronization is needed. Note that this mode has its limitations as the query results may be very different than what they were during capture.

--commit-order Options: none, normal, serialized. Default: normal -C none - No ordering of transactions normal - A transaction can be scheduled to run if all transactions that ended before it during capture, have ended in replay. serialized - A transaction can only start when the previous transaction has commited. This effectivdly serializes the workload as far as transactions are concerned.

--analyze Enabling this option will track the server Rows_read statistic for each query. -A This will slow down the overall replay time. The query time measurements are still valid, but currently this option should only be used when it is of real value to know how many rows the server read for each query.

--verbose Verbose output. The option can be repeated for more verbosity: -vvv -v

--version Display the version number and copyrights. -V

Input file: /home/mariadb/maxscale/var/lib/maxscale/wcar/WCAR/capture_2024-06-11_135251.cx

-h --help this help text (with current option values) -u --user user -p --password pwd -H --host 127.1.1.0:3306 -O --output-type csv -o --output baseline.csv -s --speed 1.5 -i --idle-wait 5s -f --query-filter none -C --commit-order normal -A --analyze false -v --verbose 0 -V --version 0.1

Limitations

  • COM_RESET_CONNECTION is not captured (MXS-5055)

  • KILL commands do not work correctly during replay and may kill the wrong session (MXS-5056)

  • COM_STMT_BULK_EXECUTE is not captured (MXS-5057)

  • COM_STMT_EXECUTE that uses a cursor is replayed without a cursor (MXS-5059)

  • For MyISAM and Aria tables, this will cause the table level lock to be held for a shorter time.

  • Execution of a COM_STMT_SEND_LONG_DATA will not work (MXS-5060)

  • The capture files are not necessarily compatible with different linux distributions and CPU architectures than the original capture server has. Different combinations will require further testing, and once done, this document will be updated.

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