Updated on 2022-08-16 GMT+08:00

From MySQL to MySQL

Supported Source and Destination Databases

Table 1 Supported databases

Source DB

Destination DB

  • On-premises MySQL databases
  • MySQL databases on an ECS
  • MySQL databases on other clouds
  • RDS for MySQL
  • RDS for MySQL

Prerequisites

  • You have logged in to the DRS console.
  • For details about the DB types and versions supported by real-time migration, see Real-Time Migration.

Suggestions

  • When a task is being started or in the full migration phase, do not perform DDL operations on the source database. Otherwise, the task may be abnormal.
  • To maintain data consistency before and after the migration, do not write data to the source and destination databases in the full migration mode. In the full+incremental migration mode, you can continue the migration while data is still being written to the source database.
  • The success of migration depends on environment and manual operations. You can run a migration test before you start the full-scale migration to help you detect and resolve problems in advance.
  • Start your migration task during off-peak hours. A less active database is easier to migrate successfully. If the data is fairly static, there is less likely to be any severe performance impacts during the migration.
    • If network bandwidth is not limited, the query rate of the source database increases by about 50 MB/s during full migration, and two to four CPUs are occupied.
    • To ensure data consistency, tables to be migrated without a primary key may be locked for 3s.
    • The data being migrated may be locked by other transactions for a long period of time, resulting in read timeout.
    • Due to the inherent characteristics of MySQL, in some scenarios the performance may be negatively affected. For example, if the CPU resources are insufficient and the storage engine is TokuDB, the read speed on tables may be decreased by 10%.
    • If DRS concurrently reads data from a database, it will use about 6 to 10 sessions. The impact of the connections on services must be considered.
    • If you read a table, especially a large table, during the full migration, the exclusive lock on that table may be blocked.
  • Data-level comparison

    To obtain accurate comparison results, compare data at a specified time point during off-peak hours. If it is needed, select Start at a specified time for Comparison Time. Due to slight time difference and continuous operations on data, inconsistent comparison results may be generated, reducing the reliability and validity of the results.

Precautions

Before creating a migration task, read the following notes.

Table 2 Precautions

Type

Restrictions

Database permissions

  • Full migration (minimum permissions):
    • The source database user must have the following permissions:

      SELECT, SHOW VIEW, and EVENT

    • The destination database user must have the following permissions:

      SELECT, CREATE, ALTER, DROP, DELETE, INSERT, UPDATE, INDEX, EVENT, CREATE VIEW, CREATE ROUTINE, TRIGGER, REFERENCES, and WITH GRANT OPTION. If the destination database version is in the range 8.0.14 to 8.0.18, the SESSION_VARIABLES_ADMIN permission is required.

  • Full+incremental migration (minimum permissions):
    • The source database user must have the following permissions:

      SELECT, SHOW VIEW, EVENT, LOCK TABLES, REPLICATION SLAVE, and REPLICATION CLIENT

    • The destination database user must have the following permissions:

      SELECT, CREATE, ALTER, DROP, DELETE, INSERT, UPDATE, INDEX, EVENT, CREATE VIEW, CREATE ROUTINE, TRIGGER, REFERENCES, and WITH GRANT OPTION. If the destination database version is in the range 8.0.14 to 8.0.18, the SESSION_VARIABLES_ADMIN permission is required.

  • Account migration (minimum permissions):
    • The user must have the SELECT permission for mysql.user.
    • The destination database user must have the SELECT, INSERT, UPDATE, and DELETE permissions for the MySQL database.

Source database

  • The source database names cannot contain non-ASCII characters or special characters '<`>/\"
  • The names of the source tables and views cannot contain non-ASCII characters or special characters '<>/\"
  • The source database name cannot be ib_logfile.
  • The binlog of the MySQL source database must be enabled and use the row-based format.
  • If the storage space is sufficient, store the source database binlog for as long as possible. The recommended retention period is three days.
  • If the expire_logs_days value of the source database is 0, the migration may fail.
  • During an incremental migration, the server_id value of the MySQL source database must be set. If the source database version is MySQL 5.6 or earlier, the server_id value ranges from 2 to 4294967296. If the source database is MySQL 5.7 or later, the server_id value ranges from 1 to 4294967296.
  • Enable skip-name-resolve for the MySQL source database to reduce the possibility of connection timeout.
  • Enable the Global Transaction Identifier (GTID) of the source database.
  • The source database does not support the mysql binlog dump command.
  • The character sets of the source and destination databases must be the same. Otherwise, the migration fails.
  • The log_slave_updates parameter of the source database must be enabled. Otherwise, the migration fails.
  • The binlog_row_image parameter value of the source database must be FULL. Otherwise, the migration fails.
  • If the value of lower_case_table_names of the MySQL 8.0 source database is 0, the database cannot be migrated.

Destination database

  • Data cannot be migrated from a newer version database to an older version database.
  • You are advised to use the row-based binlog in the destination MySQL database. Otherwise, an error may occur during an incremental migration.
  • The destination DB instance is running properly.
  • The destination DB instance must have sufficient storage space.
  • The destination DB instance cannot contain databases with the same name as the source databases (except the MySQL system database).
  • The destination database isolation level must be set to at least read committed.
  • During migration, a large amount of data is written to the destination database. If the value of the max_allowed_packet parameter of the destination database is too small, data cannot be written. You are advised to set the max_allowed_packet parameter to a value greater than 100 MB.
  • Enable GTID of the destination database.
  • If the server_uuid values of the source and destination databases are the same, the incremental migration fails.
  • The collation_server values of the source and destination databases must be the same. Otherwise, the migration fails.
  • The table containing the foreign key must be migrated with the referenced tables. Otherwise, the migration fails.
  • The time_zone values of the source and destination databases must be the same. Otherwise, the migration fails.
  • The sql_mode values of the source and destination databases must be the same. Otherwise, the migration fails.
  • If the MyISAM tables are included in the migration objects, the sql_mode parameter in the destination database cannot contain the no_engine_substitution parameter. Otherwise, the migration fails.
  • The innodb_strict_mode values of the source and destination databases must be the same. Otherwise, the migration fails.
  • The lower_case_table_names values of the source and destination databases must be the same. Otherwise, the migration fails.
  • The log_bin_trust_function_creators parameter value of the destination database must be set to on. Otherwise, the migration fails.

Migration objects

  • Supported objects: databases, tables, views, indexes, constraints, functions, stored procedures, triggers, and events.
  • The system database and event statuses cannot be migrated.
  • Tables with storage engine different to MyISAM and InnoDB tables cannot be migrated.

Precautions

  • Objects that have dependencies must be migrated at the same time to avoid migration failure. Common dependencies: tables referenced by views, views referenced by views, views and tables referenced by stored procedures/functions/triggers, and tables referenced by primary and foreign keys
  • Cascade operations cannot be performed on tables with foreign keys.
  • Due to the MySQL constraints, if the one-time event triggering time of the source database is earlier than the migration start time, the event will not be migrated to the destination database.
  • If you create multiple migration tasks in the many-to-one scenario, ensure that the read and write settings of the destination database are consistent in these tasks.
  • The table without a primary key lacks a unique identifier for rows. When the network is unstable, you may need to retry the task several times, or data inconsistency may occur.
  • The destination database cannot be restored to a point in time when a full migration was being performed.
  • If the source and destination sides are RDS MySQL instances, transparent data encryption (TDE) is not supported, and tables with the encryption function cannot be created.
  • If the source MySQL database does not support TLS 1.2 or is a self-built database of an earlier version (earlier than 5.6.46 or between 5.7 and 5.7.28), you need to submit an O&M application for testing the SSL connection.
  • If the source database is an on-premises database and has Percona Server for MySQL 5.6.x or Percona Server for MySQL 5.7.x installed, the memory manager must use Jemalloc to prevent Out of Memory errors caused by frequent queries on system tables.
  • The destination database of a migration task can be set to Read-only or Read/Write.
    • Read-only: During the migration, the destination database is read-only. After the migration is complete, it restores to the read/write status. This option ensures the integrity and success rate of data migration.
    • Read/Write: During the migration, the destination database can be queried or modified. Data being migrated may be modified when operations are performed or applications are connected. It should be noted that background processes can often generate or modify data, which may result in data conflicts, task faults, and upload failures. Do not select this option if you do not fully understand the risks.
  • Set the expire_log_day parameter to a proper value to ensure that the binlog does not expire before data transfer resumes. This ensures that services can be recovered after interruption.
  • During task startup or full migration, DDL operations, such as deleting databases, indexes, and views, may cause the migration task to fail.
  • During migration, do not modify or delete the usernames, passwords, permissions, or ports of the source and destination databases.
  • To ensure data consistency, you are not allowed to modify the destination database (including but not limited to DDL and DML operations) during migration.
  • During migration, do not write the statement-based binlog into the source database.
  • During migration, do not clear the binlog in the source database.
  • During migration, do not create a database named ib_logfile on the source side.
  • During an incremental migration of table-level objects, renaming tables is not supported.
  • During an incremental migration, do not perform the point-in-time recovery (PITR) operation on the source database.
  • During an incremental migration, resumable upload is supported. However, data may be repeatedly inserted into a non-transactional table that does not have a primary key when the server operating system or the database breaks down.
  • DDL statements are supported in full migration.
  • If the source and destination databases are of the same major version and the entire instance is migrated, DCL statements can be migrated in incremental mode, but users cannot be changed by updating the mysql.user table. For details about DCL statements, see the MySQL official document.
  • The selected events and triggers are migrated while the migration task proceeds to the final stage. Before a task is completed, ensure that the source and destination databases are connected and pay attention to the migration status reported by the migration log.

Procedure

This section uses the migration from MySQL to RDS MySQL in a VPC as an example to describe how to configure a migration task on the DRS console.

  1. On the Online Migration Management page, click Create Migration Task.
  2. On the Create Replication Instance page, configure task details, description, and the replication instance, and click Next.

    Table 3 Task information

    Parameter

    Description

    Task Name

    The task name consists of 4 to 50 characters, starts with a letter, and can contain only letters (case-insensitive), digits, hyphens (-), and underscores (_).

    Description

    The description consists of a maximum of 256 characters and cannot contain special characters !=<>'&"\

    Table 4 Replication instance settings

    Parameter

    Description

    Data Flow

    Select To the cloud.

    The destination DB is on the current cloud.

    Source DB Engine

    Select MySQL.

    Destination DB Engine

    Select MySQL.

    Network Type

    Select VPC.

    Available options: VPC, VPN or Direct Connect, and Public network. By default, the value is Public network.

    • VPC is suitable for migrations of cloud databases.
    • Public network is suitable for migrations from on-premises or external cloud databases to the destination databases bound with an EIP.
    • VPN is suitable for migrations from on-premises databases to cloud databases or between cloud databases across regions.
    • Direct Connect is suitable for migrations from on-premises databases to cloud databases or between cloud databases across regions.

    Destination DB Instance

    The RDS DB instance you created.

    Replication Instance Subnet

    The subnet where the replication instance resides. You can also click View Subnet to go to the network console to view the subnet where the instance resides.

    By default, the DRS instance and the destination DB instance are in the same subnet. You need to select the subnet where the DRS instance resides, and there are available IP addresses for the subnet. To ensure that the replication instance is successfully created, only subnets with DHCP enabled are displayed.

    Destination Database Access

    • Read-only

      During migration, the destination database is read-only. After the migration is complete, it restores to the read/write status. This option ensures the integrity and success rate of data migration.

    • Read/Write

      During the migration, the destination database can be queried or modified. Data being migrated may be modified when operations are performed or applications are connected. It should be noted that background processes can often generate or modify data, which may result in data conflicts, task faults, and upload failures. Do not select this option if you do not fully understand the risks. Set the destination database to Read/Write only when you need to modify other data in the database during the migration.

      The task cannot be modified after being created.

    Migration Type

    • Full: This migration type is suitable for scenarios where service interruption is acceptable. All objects and data in non-system databases are migrated to the destination database at one time. The objects include tables, views, and stored procedures.
      NOTE:

      If you are performing a full migration, do not perform operations on the source database. Otherwise, data generated in the source database during the migration will not be synchronized to the destination database.

    • Full+Incremental: This migration type allows you to migrate data without interrupting services. After a full migration initializes the destination database, an incremental migration initiates and parses logs to ensure data consistency between the source and destination databases.
      NOTE:

      If you select Full+Incremental, data generated during the full migration will be continuously synchronized to the destination database, and the source remains accessible.

  3. On the Configure Source and Destination Databases page, wait until the replication instance is created. Then, specify source and destination database information and click Test Connection for both the source and destination databases to check whether they have been connected to the replication instance. After the connection tests are successful, select the check box before the agreement and click Next.

    The source database can be an ECS database or an RDS instance. Configure parameters based on different scenarios.

    • Scenario 1: Databases on an ECS - source database configuration
      Table 5 Self-build on ECS - source database information

      Parameter

      Description

      Source Database Type

      Select Self-built on ECS.

      VPC

      A dedicated virtual network in which the source database is located. It isolates networks for different services. You can select an existing VPC or create a VPC.

      Subnet

      A subnet provides dedicated network resources that are isolated from other networks, improving network security. The subnet must be in the AZ where the source database resides. You need to enable DHCP for creating the source database subnet.

      IP Address or Domain Name

      The IP address or domain name of the source database.

      Port

      The port of the source database. Range: 1 – 65535

      Database Username

      The username for accessing the source database.

      Database Password

      The password for the database username.

      SSL Connection

      SSL encrypts the connections between the source and destination databases. If SSL is enabled, upload the SSL CA root certificate.

      NOTE:
      • The maximum size of a single certificate file that can be uploaded is 500 KB.
      • If the SSL certificate is not used, your data may be at risk.

      The IP address, domain name, username, and password of the source database are encrypted and stored in DRS, and will be cleared after the task is deleted.

    • Scenario 2: RDS DB instance - source database configuration
      Table 6 RDS DB instance - source database information

      Parameter

      Description

      Source Database Type

      Select RDS DB Instance.

      DB Instance Name

      Select the RDS DB instance to be migrated as the source DB instance.

      Database Username

      The username for accessing the source database.

      Database Password

      The password for the database username.

    • Destination database configuration
      Table 7 Destination database settings

      Parameter

      Description

      DB Instance Name

      The RDS DB instance selected during migration task creation. This parameter cannot be changed.

      Database Username

      The username for accessing the destination database.

      Database Password

      The password for the database username.

      Migrate Definer to User

      • Yes
      • No

        The Definers of all source database objects will not be changed. You need to migrate all accounts and permissions of the source database in the next step.

      The database username and password are encrypted and stored in the system and will be cleared after the task is deleted.

  4. On the Set Task page, select the accounts and objects to be migrated, and click Next.

    Table 8 Migration types and objects

    Parameter

    Description

    Flow Control

    You can choose whether to control the flow.

    • Yes

      You can customize the maximum migration speed.

      In addition, you can set the time range based on your service requirements. The traffic rate setting usually includes setting of a rate limiting time period and a traffic rate value. Flow can be controlled all day or during specific time ranges. The default value is All day. A maximum of three time ranges can be set, and they cannot overlap.

      The flow rate must be set based on the service scenario and cannot exceed 9,999 MB/s.

    • No
      The migration speed is not limited and the outbound bandwidth of the source database is maximally used, which will increase the read burden on the source database. For example, if the outbound bandwidth of the source database is 100 MB/s and 80% bandwidth is used, the I/O consumption on the source database is 80 MB/s.
      NOTE:
      • Flow control mode takes effect only during a full migration.
      • You can also change the flow control mode after creating a task. For details, see Modifying the Flow Control Mode.

    Migrate Account

    During a database migration, accounts need to be migrated separately.

    There are accounts that can be migrated completely, accounts whose permissions need to be reduced, and accounts that cannot be migrated. You can choose whether to migrate the accounts based on service requirements.
    • No

      During migration, accounts, permissions, and passwords are not migrated.

    Filter DROP DATABASE

    To reduce the risks involved in data migration, DDL operations can be filtered out. You can choose not to synchronize certain DDL operations.

    • If you select Yes, any database deletion operations performed on the source database are not migrated during data migration.
    • If you select No, related operations are migrated to the destination database during data migration.

    Migrate Object

    You can choose to migrate all objects, tables, or databases based on your service requirements.

    • All: All objects in the source database are migrated to the destination database. After the migration, the object names will remain the same as those in the source database and cannot be modified.
    • Tables: The selected table-level objects will be migrated.
    • Databases: The selected database-level objects will be migrated.

    If the source database is changed, click in the upper right corner before selecting migration objects to ensure that the objects to be selected are from the changed source database.

    NOTE:
    • If you choose not to migrate all of the databases, the migration may fail because the objects, such as stored procedures and views, in the databases to be migrated may have dependencies on other objects that are not migrated. To prevent migration failure, migrate all of the databases.
    • When you select an object, the spaces before and after the object name are not displayed. If there are two or more consecutive spaces in the middle of the object name, only one space is displayed.
    • The search function can help you quickly select the required database objects.

  5. On the Check Task page, check the migration task.

    • If any check fails, review the cause and rectify the fault. After the fault is rectified, click Check Again.
    • If the check is complete and the check success rate is 100%, click Next.

      You can proceed to the next step only when all checks are successful. If there are any items that require confirmation, view and confirm the details first before proceeding to the next step.

  6. Compare source and destination parameters.

    By comparing common and performance parameters for the source databases against those of the destination databases, you can help ensure that services will not change after a migration is completed. You can determine whether to use this function based on service requirements. It mainly ensures that services are not affected after a migration is completed.
    • This process is optional, so you can click Next to skip the comparison.
    • Compare common parameters:

      If the common parameter values in the comparison results are inconsistent, click Save Change to change the destination database values to be the same as those of the source database.

      Performance parameter values in both the source and destination databases can be the same or different.

      • If you need to change the performance parameter values that are consistent in the comparison results to different values, locate the target parameter, enter values in the Change To column, and click Save Change in the upper left corner.
      • If you want to make the performance parameter values of the source and destination database be the same:
        1. Click Use Source Database Value.

          DRS automatically makes the destination database values the same as those of the source database.

          You can also manually enter parameter values.

        2. Click Save Change to save your changes.

          The system changes the parameter values based on your settings for the destination database values. After the modification, the list is updated automatically.

          Some parameters in the destination database require a restart before the changes can take effect. The system will display these as being inconsistent. In addition, restart the destination database before the migration task is started or after the migration task is completed. To minimize the impact of this restart on your services, it is recommended that you schedule a specific time to restart the destination database after the migration is complete.

          For details about how to set parameters during a comparison, see Parameters for Comparison.

        3. Click Next.

  7. On the displayed page, specify Start Time and confirm that the configured information is correct and click Submit to submit the task.

    Table 9 Task startup settings

    Parameter

    Description

    Started Time

    Set Start Time to Start upon task creation or Start at a specified time based on site requirements. The Start at a specified time option is recommended.

    NOTE:

    The migration task may affect the performance of the source and destination databases. You are advised to start the task in off-peak hours and reserve two to three days for data verification.

  8. After the task is submitted, view and manage it on the Online Migration Management page.

    • You can view the task status. For more information about task status, see Task Statuses.
    • You can click in the upper right corner to view the latest task status.