The avrorouter is a MariaDB 10.0 binary log to Avro file converter. It consumes binary logs from a local directory and transforms them into a set of Avro files. These files can then be queried by clients for various purposes.
This router is intended to be used in tandem with the Binlog Server. The Binlog Server can connect to a master server and request binlog records. These records can then consumed by the avrorouter directly from the binlog cache of the Binlog Server. This allows MariaDB MaxScale to automatically transform binlog events on the master to local Avro format files.
The avrorouter can also consume binary logs straight from the master. This will remove the need to configure the Binlog Server but it will increase the disk space requirement on the master server by at least a factor of two.
The converted Avro files can be requested with the CDC protocol. This protocol should be used to communicate with the avrorouter and currently it is the only supported protocol. The clients can request either Avro or JSON format data streams from a database table.
For information about common service parameters, refer to the Configuration Guide.
The source for the binary logs. This is an optional parameter.
The value of this parameter should be the name of a Binlog Server service. The filestem and binlogdir parameters of this service will be read from the router_options and they will be used as the source for the binary logs. This removes the need to manually enter the right binlogdir and filestem options for the avrorouter.
Here is an example of two services. The first service (
responsible for downloading the binary logs from the master and the second service
avro-router) will convert the binary logs into Avro format files and store them
[replication-router] type=service router=binlogrouter router_options=server-id=4000,binlogdir=/var/lib/mysql,filestem=binlog user=maxuser passwd=maxpwd [avro-router] type=service router=avrorouter source=replication-router
The avrorouter is configured with a comma-separated list of key-value pairs.
Currently the router has one mandatory parameter,
binlogdir. If no
parameter is defined, binlogdir needs to be manually defined in the router
options. The following options should be given as a value to the
These options control various file locations and names.
The location of the binary log files. This is the first mandatory parameter and it defines where the module will read binlog files from. Read access to this directory is required.
If used in conjunction with the Binlog Server, the value of this option should
be the same for both the Binlog Server and the avrorouter if the
is not used.
The location where the Avro files are stored. This is the second mandatory parameter and it governs where the converted files are stored. This directory will be used to store the Avro files, plain-text Avro schemas and other files needed by the avrorouter. The user running MariaDB MaxScale will need both read and write access to this directory.
The avrorouter will also use the avrodir to store various internal files. These files are named avro.index and avro-conversion.ini. By default, the same directory where the binlog files are stored is used.
The base name of the binlog files. The default value is "mysql-bin". The binlog files are assumed to follow the naming schema <filestem>.<n> where <n> is the binlog number and <filestem> is the value of this router option.
For example, with the following router option:
The first binlog file the avrorouter would look for is
The starting index number of the binlog file. The default value is 1. For the binlog mysql-bin.000001 the index would be 1, for mysql-bin.000005 the index would be 5.
If you need to start from a binlog file other than 1, you need to set the value of this option to the correct index. The avrorouter will always start from the beginning of the binary log file.
Avro file options
These options control how large the Avro file data blocks can get. Increasing or lowering the block size could have a positive effect depending on your use case. For more information about the Avro file format and how it organizes data, refer to the Avro documentation.
The avrorouter will flush a block and start a new one when either
group_rows row events have been processed. Changing these
options will also allow more frequent updates to stored data but this
will cause a small increase in file size and search times.
It is highly recommended to keep the block sizes relatively large to allow larger chunks of memory to be flushed to disk at one time. This will make the conversion process noticeably faster.
Controls the number of transactions that are grouped into a single Avro data block. The default value is 1 transaction.
Controls the number of row events that are grouped into a single Avro data block. The default value is 1000 row events.
Files Created by the Avrorouter
The avrorouter creates two files in the location pointed by avrodir: avro.index and avro-conversion.ini. The avro.index file is used to store the locations of the GTIDs in the .avro files. The avro-conversion.ini contains the last converted position and GTID in the binlogs. If you need to reset the conversion process, delete these two files and restart MaxScale.
The avrorouter comes with an example client program, cdc.py, written in Python 3. This client can connect to a MaxScale configured with the CDC protocol and the avrorouter.
Before using this client, you will need to install the Python 3 interpreter and add users to the service with the cdc_users.py script. Fore more details about the user creation, please refer to the CDC Protocol and CDC Users documentation.
Read the output of
cdc.py --help for a full list of supported options
and a short usage description of the client program.
Avro Schema Generator
The cdc_schema.go example Go program is provided with MaxScale. This file
can be used to create Avro schemas for the avrorouter by connecting to a
database and reading the table definitions. You can find the file in MaxScale's
share directory in
You'll need to install the Go compiler and run
go get to resolve Go
dependencies before you can use the cdc_schema program. After resolving the
dependencies you can run the program with
go run cdc_schema.go. The program
will create .avsc files in the current directory. These files should be moved
to the location pointed by the avrodir option of the avrorouter if they are
to be used by the router itself.
Read the output of
go run cdc_schema.go -help for more information on how
to run the program.
The Avrorouter Tutorial shows you how the Avrorouter works with the Binlog Server to convert binlogs from a master server into easy to process Avro data.
Here is a simple configuration example which reads binary logs locally from
and stores them as Avro files in
/var/lib/maxscale/avro/. The service has one listener
listening on port 4001 for CDC protocol clients.
[avro-converter] type=service router=avrorouter router_options=binlogdir=/var/lib/mysql/, filestem=binlog, avrodir=/var/lib/maxscale/avro/ [avro-listener] type=listener service=avro-converter protocol=CDC port=4001
Here is an example how you can query for data in JSON format using the cdc.py Python script. It queries the table test.mytable for all change records.
cdc.py --user=myuser --password=mypasswd --host=127.0.0.1 --port=4001 test.mytable
You can then combine it with the cdc_kafka_producer.py to publish these change records to a Kafka broker.
cdc.py --user=myuser --password=mypasswd --host=127.0.0.1 --port=4001 test.mytable | cdc_kafka_producer.py --kafka-broker 127.0.0.1:9092 --kafka-topic test.mytable
For more information on how to use these scripts, see the output of
cdc.py -h and
To build the avrorouter from source, you will need the Avro C
library, liblzma, the Jansson library and sqlite3 development headers. When
configuring MaxScale with CMake, you will need to add
-DBUILD_CDC=Y to build the avrorouter and the CDC protocol module.
For more details about building MaxScale from source, please refer to the Building MaxScale from Source Code document.