MySQL/MariaDB binlog change data capture (CDC) connector for .NET
Implements MySQL replication protocol to stream binary log events in real-time.
Transaction log events are immutable and appended in strictly sequential order. This simplifies your concurrency model and allows you to avoid distributed locks that handle race conditions from parallel database requests.
- Event sourcing.
- Cache invalidation.
- OLAP. Analytics. Reporting. Data Warehouse.
- Replicating MySQL database to Memcached/Redis cache.
- Replicating MySQL database to NoSQL/Elasticsearch. Derived data systems.
Be careful when working with binary log event streaming.
- Binlog stream includes changes made to all databases on the master server including sql queries with sensitive information and you may leak data from the databases. Consider deploying your database to an isolated instance.
- Transaction log represents a sequence of append-only files. It includes changes for databases/tables that you deleted and then recreated. Make sure you don't replay the phantom events in your application.
- In transactional storage engines(InnoDB, MyRocks) binlog will only include committed transactions in their commit order to guarantee consistency. Aborted or rolled-back transactions will not appear in the binary log. On the other hand in non-transactional storage engines(MyISAM) binlog will also include changes from rolled-back transactions.
Please note the lib currently has the following limitations:
- Supports only standard auth plugins
mysql_native_password
andcaching_sha2_password
. - Currently, the library doesn't fully support SSL encryption.
Please make sure the following requirements are met:
-
The user is granted
REPLICATION SLAVE
,REPLICATION CLIENT
privileges. -
Binary logging is enabled(it's done by default in MySQL 8). To enable binary logging configure the following settings on the master server and restart the service:
binlog_format = row binlog_row_image = full
MySQL 5.6/5.7 and MariaDB 10.1 also require the following line:
server-id = 1
-
Optionally in MySQL 5.6+ / MariaDB 10.5+ you can enable logging table metadata(column names, types, see
TableMetadata
class).binlog_row_metadata = full
-
Optionally you can enable logging SQL queries that precede row based events and listen to
RowsQueryEvent
.MySQL
binlog_rows_query_log_events = on
MariaDB
binlog_annotate_row_events = on
-
Also note that there are
expire_logs_days
,binlog_expire_logs_seconds
settings that control how long binlog files live. By default MySQL/MariaDB have expiration time set and delete expired binlog files. You can disable automatic purging of binlog files this way:expire_logs_days = 0
You have to obtain columns ordinal position of the table that you are interested in. The library is not responsible for this so you have to do it using another tool.
select TABLE_SCHEMA, TABLE_NAME, COLUMN_NAME, ORDINAL_POSITION
from INFORMATION_SCHEMA.COLUMNS
where TABLE_NAME='AspNetUsers' and TABLE_SCHEMA='Identity'
order by ORDINAL_POSITION;
Alternatively, in MySQL 5.6 / MariaDB 10.5 and newer you can obtain column names by logging full metadata (see TableMetadataEvent.Metadata
).
This way the metadata is logged with each TableMapEvent
which impacts bandwidth.
binlog_row_metadata = full
Data is stored in Cells property of row events in the same order. See the C# sample project.
var client = new BinlogClient(options =>
{
options.Port = 3306;
options.Username = "root";
options.Password = "Qwertyu1";
options.SslMode = SslMode.Disabled;
options.HeartbeatInterval = TimeSpan.FromSeconds(30);
options.Blocking = true;
// Start replication from MariaDB GTID. Recommended.
options.Binlog = BinlogOptions.FromGtid(GtidList.Parse("0-1-270"));
// Start replication from MySQL GTID. Recommended.
var gtidSet = "d4c17f0c-4f11-11ea-93e3-325d3e1cd1c8:1-107, f442510a-2881-11ea-b1dd-27916133dbb2:1-7";
options.Binlog = BinlogOptions.FromGtid(GtidSet.Parse(gtidSet));
// Start replication from the master binlog filename and position
options.Binlog = BinlogOptions.FromPosition("mysql-bin.000008", 195);
// Start replication from the master last binlog filename and position.
options.Binlog = BinlogOptions.FromEnd();
// Start replication from the master first available(not purged) binlog filename and position.
options.Binlog = BinlogOptions.FromStart();
});
await foreach (var binlogEvent in client.Replicate())
{
var state = client.State;
if (binlogEvent is TableMapEvent tableMap)
{
await HandleTableMapEvent(tableMap);
}
else if (binlogEvent is WriteRowsEvent writeRows)
{
await HandleWriteRowsEvent(writeRows);
}
else if (binlogEvent is UpdateRowsEvent updateRows)
{
await HandleUpdateRowsEvent(updateRows);
}
else if (binlogEvent is DeleteRowsEvent deleteRows)
{
await HandleDeleteRowsEvent(deleteRows);
}
else await PrintEventAsync(binlogEvent);
}
A typical transaction has the following structure.
GtidEvent
if gtid mode is enabled.- One or many
TableMapEvent
events.- One or many
WriteRowsEvent
events. - One or many
UpdateRowsEvent
events. - One or many
DeleteRowsEvent
events.
- One or many
XidEvent
indicating commit of the transaction.
It's best practice to use GTID replication with the FromGtid
method. Using the approach you can correctly perform replication failover.
Note that in GTID mode FromGtid
has the following behavior:
FromGtid(@@gtid_purged)
acts likeFromStart()
FromGtid(@@gtid_executed)
acts likeFromEnd()
In some cases you will need to read binlog files offline from the file system.
This can be done using BinlogReader
class.
using (Stream stream = File.OpenRead("mysql-bin.000001"))
{
EventDeserializer deserializer = mariadb
? new MariaDbEventDeserializer()
: new MySqlEventDeserializer();
var reader = new BinlogReader(deserializer, stream);
await foreach (var binlogEvent in reader.ReadEvents())
{
await PrintEventAsync(binlogEvent);
}
}
MySQL Type | .NET type |
---|---|
BLOB types | byte[] |
GEOMETRY | byte[] |
JSON (MySQL) | byte[], see below |
JSON (MariaDB) | byte[], see below |
BIT | bool[] |
TINYINT | byte |
SMALLINT | short |
MEDIUMINT | int(3), see below |
INT | int |
BIGING | long |
FLOAT | float |
DOUBLE | double |
DECIMAL | string |
VARCHAR, VARBINARY | string |
CHAR | string |
ENUM | int |
SET | long |
YEAR | int |
DATE | Nullable<DateOnly> |
DATETIME | Nullable<DateTime> |
TIME | TimeSpan |
TIMESTAMP | DateTimeOffset |
-
Invalid DATE, DATETIME values(0000-00-00) are parsed as DateOnly and DateTime
null
respectively. -
TIME, DATETIME, TIMESTAMP (MySQL 5.6.4+) will lose microseconds when converted to .NET types as MySQL types have bigger fractional part than corresponding .NET types can store.
-
Signedness of numeric columns cannot be determined in MariaDB/MySQL 5.5. The library stores all numeric columns as CLS-compliant types from the table above. The client has the information and should manually cast to
sbyte
,ushort
,uint
orulong
if necessary. The only exception is 3-byteunsigned mediumint
which must be casted this way:// casting unsigned mediumint columns uint cellValue = (uint)(int)row.Cells[0]; uint mediumint = (cellValue << 8) >> 8;
-
JSON columns have different storage format in MariaDB and MySQL:
// MariaDB stores JSON as strings byte[] data = (byte[])row.Cells[0]; string json = Encoding.UTF8.GetString(data); // MySQL stores JSON in binary format that needs to be parsed byte[] data = (byte[])row.Cells[0]; string json = MySqlCdc.Providers.MySql.JsonParser.Parse(data);
-
GEOMETRY type is read as
byte[]
but there is no parser that constructs .NET objects. -
DECIMAL type is parsed to string as MySql decimal has bigger range(65 digits) than .NET decimal.
The project is based on mysql-binlog-connector-java library, MariaDB and MySQL documentation.
- Rust: https://github.com/rusuly/mysql_cdc
- Java: https://github.com/shyiko/mysql-binlog-connector-java
- PHP: https://github.com/krowinski/php-mysql-replication
- Python: https://github.com/noplay/python-mysql-replication
MySqlCdc supports both MariaDB & MySQL server.
MariaDB | Status |
---|---|
10.1 | ✅ Supported |
10.2 | ✅ Supported |
10.3 | ✅ Supported |
10.4 | ✅ Supported |
10.5 | ✅ Supported |
10.6 | ✅ Supported |
MySQL | Status |
---|---|
5.6 | ✅ Supported |
5.7 | ✅ Supported |
8.0 | ✅ Supported |
The library is provided under the MIT License.