. . . . . . . . . . . 93 10.12 Unable to obtain a suitable IP in the case of multiple network interfaces . . . . . . . . . 93 iv 10.13 During the zk authorization upgrade process, there was a false jobs, it does not limit the types of jobs. It uses flexible job APIs to decouple jobs into job interfaces and actuator in‐ terfaces. Users can customize new job types, such as script execution, HTTP service HTTP type (Since 3.0.0‐beta). 5.5.2 Actuator interface It is used to execute user‐defined job interfaces and weave into the ElasticJob ecosystem through Java’ s SPI mechanism. 5.5. Job Open Ecosystem

platform such as Java, Ruby, and C# for Microsoft .NET. Independent Interfaces − MyBatis provides database-independent interfaces and APIs that help the rest of the application remain independent of any file. The attribute url points to the fully qualified path of the xml file. We can use mapper interfaces instead of xml file, the attribute class points to the class-path of the mapper interface. The

solution. 3.2.4 How it works ShardingSphere provides begin/ commit/rollback traditional transaction interfaces externally, and pro‐ vides distributed transaction capabilities through LOCAL, XA and BASE modes v5.2.1 LOCAL Transaction LOCAL mode is implemented based on ShardingSphere’s proxy database interfaces, that is be‐ gin/commit/rolllback. For a logical SQL, ShardingSphere starts transactions on each the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back

solution. 8.2.4 How it works ShardingSphere provides begin/ commit/rollback traditional transaction interfaces externally, and pro‐ vides distributed transaction capabilities through LOCAL, XA and BASE modes modes. LOCAL Transaction LOCAL mode is implemented based on ShardingSphere’s proxy database interfaces, that is be‐ gin/commit/rolllback. For a logical SQL, ShardingSphere starts transactions on each ShardingSphere provides syntax sugar func‐ tions to simplify operations. The currently provided SPI interfaces with syntactic sugar functions are as follows: • Show implementations of org.apache.shardingsphere

solution. 3.2.4 How it works ShardingSphere provides begin/ commit/rollback traditional transaction interfaces externally, and pro‐ vides distributed transaction capabilities through LOCAL, XA and BASE modes v5.2.0 LOCAL Transaction LOCAL mode is implemented based on ShardingSphere’s proxy database interfaces, that is be‐ gin/commit/rolllback. For a logical SQL, ShardingSphere starts transactions on each the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back

Manual#Scaling : Build, Manual • RAL#Scaling : DistSQL for Scaling • Dev Manual#Scaling : SPI interfaces and implementations 2.3. ShardingSphere-Scaling (Experimental) 9 3 Concepts The functions of implementation for Mod, Hash, Range and Time Interval etc. User-Defined Sharding Algorithm It provides interfaces for developers to implement the sharding algorithm related to business imple‐ mentation, and allows the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back

solution. 8.2.4 How it works ShardingSphere provides begin/ commit/rollback traditional transaction interfaces externally, and pro‐ vides distributed transaction capabilities through LOCAL, XA and BASE modes modes. LOCAL Transaction LOCAL mode is implemented based on ShardingSphere’s proxy database interfaces, that is be‐ gin/commit/rolllback. For a logical SQL, ShardingSphere starts transactions on each the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back

Manual#Scaling : Build, Manual • RAL#Scaling : DistSQL for Scaling • Dev Manual#Scaling : SPI interfaces and implementations 2.3. ShardingSphere-Scaling (Experimental) 9 3 Concepts The functions of implementation for Mod, Hash, Range and Time Interval etc. User-Defined Sharding Algorithm It provides interfaces for developers to implement the sharding algorithm related to business imple‐ mentation, and allows the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back

Sharding 30 Apache ShardingSphere document, v5.1.2 User-Defined Sharding Algorithm It provides interfaces for developers to implement the sharding algorithm related to business imple‐ mentation, and allows the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back two data encryption solutions, corresponding to two Shard‐ ingSphere encryption and decryption interfaces, i.e., EncryptAlgorithm and QueryAssistedEn- cryptAlgorithm. On the one hand, Apache ShardingSphere

two data encryption solutions, corresponding to two Shard‐ ingSphere encryption and decryption interfaces, i.e., EncryptAlgorithm and QueryAssistedEn- cryptAlgorithm. On the one hand, Apache ShardingSphere users’requirements for different scenarios, we have also opened relevant encryption and decryption interfaces, according to which, users can provide specific implementation types. Then, after simple configurations the built‐in implementation provided by Apache ShardingSphere; advanced users can refer to the interfaces for customized implementation. Apache ShardingSphere community welcomes developers to feed back