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Migrate Large Datasets from MySQL to TiDB

When the data volume to be migrated is small, you can easily use DM to migrate data, both for full migration and incremental replication. However, because DM imports data at a slow speed (30~50 GiB/h), when the data volume is large, the migration might take a long time. "Large datasets" in this document usually mean data around one TiB or more.

This document describes how to perform the full migration using Dumpling and TiDB Lightning. TiDB Lightning Physical Import Mode can import data at a speed of up to 500 GiB/h. Note that this speed is affected by various factors such as hardware configuration, table schema, and the number of indexes. After the full migration is completed, you can replicate the incremental data using DM.


Resource requirements

Operating system: The example in this document uses fresh CentOS 7 instances. You can deploy a virtual machine either on your local host or in the cloud. Because TiDB Lightning consumes as much CPU resources as needed by default, it is recommended that you deploy it on a dedicated server. If this is not possible, you can deploy it on a single server together with other TiDB components (for example, tikv-server) and then configure region-concurrency to limit the CPU usage from TiDB Lightning. Usually, you can configure the size to 75% of the logical CPU.

Memory and CPU: Because TiDB Lightning consumes high resources, it is recommended to allocate more than 64 GiB of memory and more than 32 CPU cores. To get the best performance, make sure that the CPU core to memory (GiB) ratio is greater than 1:2.

Disk space:

  • Dumpling requires a disk space that can store the whole data source (or to store all upstream tables to be exported). SSD is recommended. To calculate the required space, see Downstream storage space requirements.
  • During the import, TiDB Lightning needs temporary space to store the sorted key-value pairs. The disk space should be enough to hold the largest single table from the data source.
  • If the full data volume is large, you can increase the binlog storage time in the upstream. This is to ensure that the binlogs are not lost during the incremental replication.

Note: It is difficult to calculate the exact data volume exported by Dumpling from MySQL, but you can estimate the data volume by using the following SQL statement to summarize the DATA_LENGTH field in the information_schema.tables table:

-- Calculate the size of all schemas SELECT TABLE_SCHEMA, FORMAT_BYTES(SUM(DATA_LENGTH)) AS 'Data Size', FORMAT_BYTES(SUM(INDEX_LENGTH)) 'Index Size' FROM information_schema.tables GROUP BY TABLE_SCHEMA; -- Calculate the 5 largest tables SELECT TABLE_NAME, TABLE_SCHEMA, FORMAT_BYTES(SUM(data_length)) AS 'Data Size', FORMAT_BYTES(SUM(index_length)) AS 'Index Size', FORMAT_BYTES(SUM(data_length+index_length)) AS 'Total Size' FROM information_schema.tables GROUP BY TABLE_NAME, TABLE_SCHEMA ORDER BY SUM(DATA_LENGTH+INDEX_LENGTH) DESC LIMIT 5;

Disk space for the target TiKV cluster

The target TiKV cluster must have enough disk space to store the imported data. In addition to the standard hardware requirements, the storage space of the target TiKV cluster must be larger than the size of the data source x the number of replicas x 2. For example, if the cluster uses 3 replicas by default, the target TiKV cluster must have a storage space larger than 6 times the size of the data source. The formula has x 2 because:

  • Index might take extra space.
  • RocksDB has a space amplification effect.

Step 1. Export all data from MySQL

  1. Export all data from MySQL by running the following command:

    tiup dumpling -h ${ip} -P 3306 -u root -t 16 -r 200000 -F 256MiB -B my_db1 -f 'my_db1.table[12]' -o 's3://my-bucket/sql-backup'

    Dumpling exports data in SQL files by default. You can specify a different file format by adding the --filetype option.

    The parameters used above are as follows. For more Dumpling parameters, refer to Dumpling Overview.

    -u or --userMySQL user
    -p or --passwordMySQL user password
    -P or --portMySQL port
    -h or --hostMySQL IP address
    -t or --threadThe number of threads used for export
    -o or --outputThe directory that stores the exported file. Supports a local path or an external storage URI
    -r or --rowThe maximum number of rows in a single file
    -FThe maximum size of a single file, in MiB. Recommended value: 256 MiB.
    -B or --databaseSpecifies a database to be exported
    -f or --filterExports tables that match the pattern. Refer to table-filter for the syntax.

    Make sure ${data-path} has the space to store all exported upstream tables. To calculate the required space, see Downstream storage space requirements. To prevent the export from being interrupted by a large table consuming all the spaces, it is strongly recommended to use the -F option to limit the size of a single file.

  2. View the metadata file in the ${data-path} directory. This is a Dumpling-generated metadata file. Record the binlog position information, which is required for the incremental replication in Step 3.

    SHOW MASTER STATUS: Log: mysql-bin.000004 Pos: 109227 GTID:

Step 2. Import full data to TiDB

  1. Create the tidb-lightning.toml configuration file:

    [lightning] # log. level = "info" file = "tidb-lightning.log" [tikv-importer] # "local": Default backend. The local backend is recommended to import large volumes of data (1 TiB or more). During the import, the target TiDB cluster cannot provide any service. # "tidb": The "tidb" backend is recommended to import data less than 1 TiB. During the import, the target TiDB cluster can provide service normally. For more information on the backends, refer to backend = "local" # Sets the temporary storage directory for the sorted Key-Value files. The directory must be empty, and the storage space must be greater than the size of the dataset to be imported. For better import performance, it is recommended to use a directory different from `data-source-dir` and use flash storage, which can use I/O exclusively. sorted-kv-dir = "${sorted-kv-dir}" [mydumper] # The data source directory. The same directory where Dumpling exports data in "Step 1. Export all data from MySQL". data-source-dir = "${data-path}" # A local path or S3 path. For example, 's3://my-bucket/sql-backup'. [tidb] # The target TiDB cluster information. host = ${host} # e.g.: port = ${port} # e.g.: 4000 user = "${user_name}" # e.g.: "root" password = "${password}" # e.g.: "rootroot" status-port = ${status-port} # During the import, TiDB Lightning needs to obtain the table schema information from the TiDB status port. e.g.: 10080 pd-addr = "${ip}:${port}" # The address of the PD cluster, e.g.: TiDB Lightning obtains some information from PD. When backend = "local", you must specify status-port and pd-addr correctly. Otherwise, the import will be abnormal.

    For more information on TiDB Lightning configuration, refer to TiDB Lightning Configuration.

  2. Start the import by running tidb-lightning. If you launch the program directly in the command line, the process might exit unexpectedly after receiving a SIGHUP signal. In this case, it is recommended to run the program using a nohup or screen tool. For example:

    If you import data from S3, pass the SecretKey and AccessKey that have access to the S3 storage path as environment variables to the TiDB Lightning node. You can also read the credentials from ~/.aws/credentials.

    export AWS_ACCESS_KEY_ID=${access_key} export AWS_SECRET_ACCESS_KEY=${secret_key} nohup tiup tidb-lightning -config tidb-lightning.toml > nohup.out 2>&1 &
  3. After the import starts, you can check the progress of the import by one of the following methods:

  4. After TiDB Lightning completes the import, it exits automatically. Check whether tidb-lightning.log contains the whole procedure completed in the last lines. If yes, the import is successful. If no, the import encounters an error. Address the error as instructed in the error message.

If the import fails, refer to TiDB Lightning FAQ for troubleshooting.

Step 3. Replicate incremental data to TiDB

Add the data source

  1. Create a source1.yaml file as follows:

    # Must be unique. source-id: "mysql-01" # Configures whether DM-worker uses the global transaction identifier (GTID) to pull binlogs. To enable this mode, the upstream MySQL must also enable GTID. If the upstream MySQL service is configured to switch master between different nodes automatically, GTID mode is required. enable-gtid: true from: host: "${host}" # e.g.: user: "root" password: "${password}" # Supported but not recommended to use a plaintext password. It is recommended to use `dmctl encrypt` to encrypt the plaintext password before using it. port: 3306
  2. Load the data source configuration to the DM cluster using tiup dmctl by running the following command:

    tiup dmctl --master-addr ${advertise-addr} operate-source create source1.yaml

    The parameters used in the command above are described as follows:

    --master-addrThe {advertise-addr} of any DM-master in the cluster where dmctl is to be connected, e.g.:
    operate-source createLoads the data source to the DM cluster.

Add a replication task

  1. Edit the task.yaml file. Configure the incremental replication mode and the starting point of each data source:

    name: task-test # Task name. Must be globally unique. task-mode: incremental # Task mode. The "incremental" mode only performs incremental data replication. # Configures the target TiDB database. target-database: # The target database instance. host: "${host}" # e.g.: port: 4000 user: "root" password: "${password}" # It is recommended to use `dmctl encrypt` to encrypt the plaintext password before using it. # Use block and allow lists to specify the tables to be replicated. block-allow-list: # The collection of filtering rules that matches the tables in the source database instance. If the DM version is earlier than v2.0.0-beta.2, use black-white-list. bw-rule-1: # The block-allow-list configuration item ID. do-dbs: ["${db-name}"] # Name of databases to be replicated. # Configures the data source. mysql-instances: - source-id: "mysql-01" # Data source ID, i.e., source-id in source1.yaml block-allow-list: "bw-rule-1" # You can use the block-allow-list configuration above. # syncer-config-name: "global" # You can use the syncers incremental data configuration below. meta: # The position where the binlog replication starts when `task-mode` is `incremental` and the downstream database checkpoint does not exist. If the checkpoint exists, the checkpoint is used. If neither the `meta` configuration item nor the downstream database checkpoint exists, the migration starts from the latest binlog position of the upstream. # binlog-name: "mysql-bin.000004" # The binlog position recorded in "Step 1. Export all data from MySQL". If the upstream database service is configured to switch master between different nodes automatically, GTID mode is required. # binlog-pos: 109227 binlog-gtid: "09bec856-ba95-11ea-850a-58f2b4af5188:1-9" # (Optional) If you need to incrementally replicate data that has already been migrated in the full data migration, you need to enable the safe mode to avoid the incremental data replication error. # This scenario is common in the following case: the full migration data does not belong to the data source's consistency snapshot, and after that, DM starts to replicate incremental data from a position earlier than the full migration. # syncers: # The running configurations of the sync processing unit. # global: # Configuration name. # safe-mode: true # If this field is set to true, DM changes INSERT of the data source to REPLACE for the target database, and changes UPDATE of the data source to DELETE and REPLACE for the target database. This is to ensure that when the table schema contains a primary key or unique index, DML statements can be imported repeatedly. In the first minute of starting or resuming an incremental replication task, DM automatically enables the safe mode.

    The YAML above is the minimum configuration required for the migration task. For more configuration items, refer to DM Advanced Task Configuration File.

    Before you start the migration task, to reduce the probability of errors, it is recommended to confirm that the configuration meets the requirements of DM by running the check-task command:

    tiup dmctl --master-addr ${advertise-addr} check-task task.yaml
  2. Start the migration task by running the following command:

    tiup dmctl --master-addr ${advertise-addr} start-task task.yaml

    The parameters used in the command above are described as follows:

    --master-addrThe {advertise-addr} of any DM-master in the cluster where dmctl is to be connected, e.g.:
    start-taskStarts the migration task.

    If the task fails to start, check the prompt message and fix the configuration. After that, you can re-run the command above to start the task.

    If you encounter any problem, refer to DM error handling and DM FAQ.

Check the migration task status

To learn whether the DM cluster has an ongoing migration task and view the task status, run the query-status command using tiup dmctl:

tiup dmctl --master-addr ${advertise-addr} query-status ${task-name}

For a detailed interpretation of the results, refer to Query Status.

Monitor the task and view logs

To view the history status of the migration task and other internal metrics, take the following steps.

If you have deployed Prometheus, Alertmanager, and Grafana when you deployed DM using TiUP, you can access Grafana using the IP address and port specified during the deployment. You can then select DM dashboard to view DM-related monitoring metrics.

When DM is running, DM-worker, DM-master, and dmctl print the related information in logs. The log directories of these components are as follows:

  • DM-master: specified by the DM-master process parameter --log-file. If you deploy DM using TiUP, the log directory is /dm-deploy/dm-master-8261/log/ by default.
  • DM-worker: specified by the DM-worker process parameter --log-file. If you deploy DM using TiUP, the log directory is /dm-deploy/dm-worker-8262/log/ by default.

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