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The AWS Java SDK for AWS Database Migration Service module holds the client classes that are used for communicating with AWS Database Migration Service.

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/*
 * Copyright 2017-2022 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 * 
 * Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with
 * the License. A copy of the License is located at
 * 
 * http://aws.amazon.com/apache2.0
 * 
 * or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
 * CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions
 * and limitations under the License.
 */
package com.amazonaws.services.databasemigrationservice.model;

import java.io.Serializable;
import javax.annotation.Generated;
import com.amazonaws.protocol.StructuredPojo;
import com.amazonaws.protocol.ProtocolMarshaller;

/**
 * 

* Provides information that defines an Oracle endpoint. *

* * @see AWS API * Documentation */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class OracleSettings implements Serializable, Cloneable, StructuredPojo { /** *

* Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute enables * PRIMARY KEY supplemental logging on all tables selected for a migration task. *

*

* If you use this option, you still need to enable database-level supplemental logging. *

*/ private Boolean addSupplementalLogging; /** *

* Specifies the ID of the destination for the archived redo logs. This value should be the same as a number in the * dest_id column of the v$archived_log view. If you work with an additional redo log destination, use the * AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this improves * performance by ensuring that the correct logs are accessed from the outset. *

*/ private Integer archivedLogDestId; /** *

* Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is useful in * the case of a switchover. In this case, DMS needs to know which destination to get archive redo logs from to read * changes. This need arises because the previous primary instance is now a standby instance after switchover. *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

*/ private Integer additionalArchivedLogDestId; /** *

* Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of the * dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup. *

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this case, DMS * needs information about what destination to get archive redo logs from to read changes. DMS needs this because * after the switchover the previous primary is a standby instance. For example, in a primary-to-single standby * setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

*/ private java.util.List extraArchivedLogDestIds; /** *

* Set this attribute to true to enable replication of Oracle tables containing columns that are nested * tables or defined types. *

*/ private Boolean allowSelectNestedTables; /** *

* Set this attribute to change the number of threads that DMS configures to perform a change data capture (CDC) * load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 (the default) * and 8 (the maximum). Use this attribute together with the readAheadBlocks attribute. *

*/ private Integer parallelAsmReadThreads; /** *

* Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 1000 (the * default) and 200,000 (the maximum). *

*/ private Integer readAheadBlocks; /** *

* Set this attribute to false in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any specified path * prefix replacement using direct file access. *

*/ private Boolean accessAlternateDirectly; /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement to access all * online redo logs. *

*/ private Boolean useAlternateFolderForOnline; /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access the redo logs. *

*/ private String oraclePathPrefix; /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the default Oracle root * to access the redo logs. *

*/ private String usePathPrefix; /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for Oracle * as the source. This setting tells DMS instance to replace the default Oracle root with the specified * usePathPrefix setting to access the redo logs. *

*/ private Boolean replacePathPrefix; /** *

* Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under the * same tablespace on the target. *

*/ private Boolean enableHomogenousTablespace; /** *

* When set to true, this attribute helps to increase the commit rate on the Oracle target database by * writing directly to tables and not writing a trail to database logs. *

*/ private Boolean directPathNoLog; /** *

* When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo logs are * stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. *

*/ private Boolean archivedLogsOnly; /** *

* For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this value * from the asm_user_password value. You set this value as part of the comma-separated value * that you set to the Password request parameter when you create the endpoint to access transaction * logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

*/ private String asmPassword; /** *

* For an Oracle source endpoint, your ASM server address. You can set this value from the asm_server * value. You set asm_server as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

*/ private String asmServer; /** *

* For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user value. * You set asm_user as part of the extra connection attribute string to access an Oracle server with * Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

*/ private String asmUser; /** *

* Specifies whether the length of a character column is in bytes or in characters. To indicate that the character * column length is in characters, set this attribute to CHAR. Otherwise, the character column length * is in bytes. *

*

* Example: charLengthSemantics=CHAR; *

*/ private String charLengthSemantics; /** *

* Database name for the endpoint. *

*/ private String databaseName; /** *

* When set to true, this attribute specifies a parallel load when useDirectPathFullLoad * is set to Y. This attribute also only applies when you use the DMS parallel load feature. Note that * the target table cannot have any constraints or indexes. *

*/ private Boolean directPathParallelLoad; /** *

* When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize. *

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead of * truncating the LOB data. *

*/ private Boolean failTasksOnLobTruncation; /** *

* Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the NUMBER data * type is converted to precision 38, scale 10. *

*

* Example: numberDataTypeScale=12 *

*/ private Integer numberDatatypeScale; /** *

* Endpoint connection password. *

*/ private String password; /** *

* Endpoint TCP port. *

*/ private Integer port; /** *

* When set to true, this attribute supports tablespace replication. *

*/ private Boolean readTableSpaceName; /** *

* Specifies the number of seconds that the system waits before resending a query. *

*

* Example: retryInterval=6; *

*/ private Integer retryInterval; /** *

* For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to access * Oracle redo logs encrypted by TDE using Binary Reader. It is also the TDE_Password part of * the comma-separated value you set to the Password request parameter when you create the endpoint. * The SecurityDbEncryptian setting is related to this SecurityDbEncryptionName setting. * For more information, see * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

*/ private String securityDbEncryption; /** *

* For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the columns * and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the value of the * SecurityDbEncryption setting. For more information on setting the key name value of * SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

*/ private String securityDbEncryptionName; /** *

* Fully qualified domain name of the endpoint. *

*/ private String serverName; /** *

* Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS calls the * SDO2GEOJSON custom function if present and accessible. Or you can create your own custom function * that mimics the operation of SDOGEOJSON and set SpatialDataOptionToGeoJsonFunctionName * to call it instead. *

*/ private String spatialDataOptionToGeoJsonFunctionName; /** *

* Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle Active * Data Guard standby database, use this attribute to specify the time lag between primary and standby databases. *

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be in * production. *

*/ private Integer standbyDelayTime; /** *

* Endpoint connection user name. *

*/ private String username; /** *

* Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for Oracle * as the source, you set additional attributes. For more information about using this setting with Oracle Automatic * Storage Management (ASM), see Using * Oracle LogMiner or DMS Binary Reader for CDC. *

*/ private Boolean useBFile; /** *

* Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target tables * during a full load. *

*/ private Boolean useDirectPathFullLoad; /** *

* Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set UseLogminerReader * to N, also set UseBfile to Y. For more information on this setting and using Oracle ASM, see Using * Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. *

*/ private Boolean useLogminerReader; /** *

* The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants the * required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web Services * Secrets Manager secret that allows access to the Oracle endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerSecretId. Or you can specify clear-text values for UserName, * Password, ServerName, and Port. You can't specify both. For more * information on creating this SecretsManagerSecret and the SecretsManagerAccessRoleArn * and SecretsManagerSecretId required to access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
*/ private String secretsManagerAccessRoleArn; /** *

* The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the Oracle * endpoint connection details. *

*/ private String secretsManagerSecretId; /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role that * specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret value * that allows access to the Oracle ASM of the endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for AsmUserName, * AsmPassword, and AsmServerName. You can't specify both. For more information on * creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId required to * access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
*/ private String secretsManagerOracleAsmAccessRoleArn; /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or friendly * name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection details for the * Oracle endpoint. *

*/ private String secretsManagerOracleAsmSecretId; /** *

* Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types during * migration. The default value is true. *

*/ private Boolean trimSpaceInChar; /** *

* Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute enables * PRIMARY KEY supplemental logging on all tables selected for a migration task. *

*

* If you use this option, you still need to enable database-level supplemental logging. *

* * @param addSupplementalLogging * Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute * enables PRIMARY KEY supplemental logging on all tables selected for a migration task.

*

* If you use this option, you still need to enable database-level supplemental logging. */ public void setAddSupplementalLogging(Boolean addSupplementalLogging) { this.addSupplementalLogging = addSupplementalLogging; } /** *

* Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute enables * PRIMARY KEY supplemental logging on all tables selected for a migration task. *

*

* If you use this option, you still need to enable database-level supplemental logging. *

* * @return Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute * enables PRIMARY KEY supplemental logging on all tables selected for a migration task.

*

* If you use this option, you still need to enable database-level supplemental logging. */ public Boolean getAddSupplementalLogging() { return this.addSupplementalLogging; } /** *

* Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute enables * PRIMARY KEY supplemental logging on all tables selected for a migration task. *

*

* If you use this option, you still need to enable database-level supplemental logging. *

* * @param addSupplementalLogging * Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute * enables PRIMARY KEY supplemental logging on all tables selected for a migration task.

*

* If you use this option, you still need to enable database-level supplemental logging. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAddSupplementalLogging(Boolean addSupplementalLogging) { setAddSupplementalLogging(addSupplementalLogging); return this; } /** *

* Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute enables * PRIMARY KEY supplemental logging on all tables selected for a migration task. *

*

* If you use this option, you still need to enable database-level supplemental logging. *

* * @return Set this attribute to set up table-level supplemental logging for the Oracle database. This attribute * enables PRIMARY KEY supplemental logging on all tables selected for a migration task.

*

* If you use this option, you still need to enable database-level supplemental logging. */ public Boolean isAddSupplementalLogging() { return this.addSupplementalLogging; } /** *

* Specifies the ID of the destination for the archived redo logs. This value should be the same as a number in the * dest_id column of the v$archived_log view. If you work with an additional redo log destination, use the * AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this improves * performance by ensuring that the correct logs are accessed from the outset. *

* * @param archivedLogDestId * Specifies the ID of the destination for the archived redo logs. This value should be the same as a number * in the dest_id column of the v$archived_log view. If you work with an additional redo log destination, use * the AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this * improves performance by ensuring that the correct logs are accessed from the outset. */ public void setArchivedLogDestId(Integer archivedLogDestId) { this.archivedLogDestId = archivedLogDestId; } /** *

* Specifies the ID of the destination for the archived redo logs. This value should be the same as a number in the * dest_id column of the v$archived_log view. If you work with an additional redo log destination, use the * AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this improves * performance by ensuring that the correct logs are accessed from the outset. *

* * @return Specifies the ID of the destination for the archived redo logs. This value should be the same as a number * in the dest_id column of the v$archived_log view. If you work with an additional redo log destination, * use the AdditionalArchivedLogDestId option to specify the additional destination ID. Doing * this improves performance by ensuring that the correct logs are accessed from the outset. */ public Integer getArchivedLogDestId() { return this.archivedLogDestId; } /** *

* Specifies the ID of the destination for the archived redo logs. This value should be the same as a number in the * dest_id column of the v$archived_log view. If you work with an additional redo log destination, use the * AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this improves * performance by ensuring that the correct logs are accessed from the outset. *

* * @param archivedLogDestId * Specifies the ID of the destination for the archived redo logs. This value should be the same as a number * in the dest_id column of the v$archived_log view. If you work with an additional redo log destination, use * the AdditionalArchivedLogDestId option to specify the additional destination ID. Doing this * improves performance by ensuring that the correct logs are accessed from the outset. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withArchivedLogDestId(Integer archivedLogDestId) { setArchivedLogDestId(archivedLogDestId); return this; } /** *

* Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is useful in * the case of a switchover. In this case, DMS needs to know which destination to get archive redo logs from to read * changes. This need arises because the previous primary instance is now a standby instance after switchover. *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @param additionalArchivedLogDestId * Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is * useful in the case of a switchover. In this case, DMS needs to know which destination to get archive redo * logs from to read changes. This need arises because the previous primary instance is now a standby * instance after switchover.

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. */ public void setAdditionalArchivedLogDestId(Integer additionalArchivedLogDestId) { this.additionalArchivedLogDestId = additionalArchivedLogDestId; } /** *

* Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is useful in * the case of a switchover. In this case, DMS needs to know which destination to get archive redo logs from to read * changes. This need arises because the previous primary instance is now a standby instance after switchover. *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @return Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is * useful in the case of a switchover. In this case, DMS needs to know which destination to get archive redo * logs from to read changes. This need arises because the previous primary instance is now a standby * instance after switchover.

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. */ public Integer getAdditionalArchivedLogDestId() { return this.additionalArchivedLogDestId; } /** *

* Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is useful in * the case of a switchover. In this case, DMS needs to know which destination to get archive redo logs from to read * changes. This need arises because the previous primary instance is now a standby instance after switchover. *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @param additionalArchivedLogDestId * Set this attribute with ArchivedLogDestId in a primary/ standby setup. This attribute is * useful in the case of a switchover. In this case, DMS needs to know which destination to get archive redo * logs from to read changes. This need arises because the previous primary instance is now a standby * instance after switchover.

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless necessary. For additional information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAdditionalArchivedLogDestId(Integer additionalArchivedLogDestId) { setAdditionalArchivedLogDestId(additionalArchivedLogDestId); return this; } /** *

* Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of the * dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup. *

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this case, DMS * needs information about what destination to get archive redo logs from to read changes. DMS needs this because * after the switchover the previous primary is a standby instance. For example, in a primary-to-single standby * setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @return Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values * of the dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup.

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this * case, DMS needs information about what destination to get archive redo logs from to read changes. DMS * needs this because after the switchover the previous primary is a standby instance. For example, in a * primary-to-single standby setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. */ public java.util.List getExtraArchivedLogDestIds() { return extraArchivedLogDestIds; } /** *

* Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of the * dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup. *

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this case, DMS * needs information about what destination to get archive redo logs from to read changes. DMS needs this because * after the switchover the previous primary is a standby instance. For example, in a primary-to-single standby * setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @param extraArchivedLogDestIds * Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of * the dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup.

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this * case, DMS needs information about what destination to get archive redo logs from to read changes. DMS * needs this because after the switchover the previous primary is a standby instance. For example, in a * primary-to-single standby setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. */ public void setExtraArchivedLogDestIds(java.util.Collection extraArchivedLogDestIds) { if (extraArchivedLogDestIds == null) { this.extraArchivedLogDestIds = null; return; } this.extraArchivedLogDestIds = new java.util.ArrayList(extraArchivedLogDestIds); } /** *

* Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of the * dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup. *

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this case, DMS * needs information about what destination to get archive redo logs from to read changes. DMS needs this because * after the switchover the previous primary is a standby instance. For example, in a primary-to-single standby * setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

*

* NOTE: This method appends the values to the existing list (if any). Use * {@link #setExtraArchivedLogDestIds(java.util.Collection)} or * {@link #withExtraArchivedLogDestIds(java.util.Collection)} if you want to override the existing values. *

* * @param extraArchivedLogDestIds * Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of * the dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup.

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this * case, DMS needs information about what destination to get archive redo logs from to read changes. DMS * needs this because after the switchover the previous primary is a standby instance. For example, in a * primary-to-single standby setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withExtraArchivedLogDestIds(Integer... extraArchivedLogDestIds) { if (this.extraArchivedLogDestIds == null) { setExtraArchivedLogDestIds(new java.util.ArrayList(extraArchivedLogDestIds.length)); } for (Integer ele : extraArchivedLogDestIds) { this.extraArchivedLogDestIds.add(ele); } return this; } /** *

* Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of the * dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup. *

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this case, DMS * needs information about what destination to get archive redo logs from to read changes. DMS needs this because * after the switchover the previous primary is a standby instance. For example, in a primary-to-single standby * setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. *

* * @param extraArchivedLogDestIds * Specifies the IDs of one more destinations for one or more archived redo logs. These IDs are the values of * the dest_id column in the v$archived_log view. Use this setting with the * archivedLogDestId extra connection attribute in a primary-to-single setup or a * primary-to-multiple-standby setup.

*

* This setting is useful in a switchover when you use an Oracle Data Guard database as a source. In this * case, DMS needs information about what destination to get archive redo logs from to read changes. DMS * needs this because after the switchover the previous primary is a standby instance. For example, in a * primary-to-single standby setup you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2] *

*

* In a primary-to-multiple-standby setup, you might apply the following settings. *

*

* archivedLogDestId=1; ExtraArchivedLogDestIds=[2,3,4] *

*

* Although DMS supports the use of the Oracle RESETLOGS option to open the database, never use * RESETLOGS unless it's necessary. For more information about RESETLOGS, see RMAN Data Repair Concepts in the Oracle Database Backup and Recovery User's Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withExtraArchivedLogDestIds(java.util.Collection extraArchivedLogDestIds) { setExtraArchivedLogDestIds(extraArchivedLogDestIds); return this; } /** *

* Set this attribute to true to enable replication of Oracle tables containing columns that are nested * tables or defined types. *

* * @param allowSelectNestedTables * Set this attribute to true to enable replication of Oracle tables containing columns that are * nested tables or defined types. */ public void setAllowSelectNestedTables(Boolean allowSelectNestedTables) { this.allowSelectNestedTables = allowSelectNestedTables; } /** *

* Set this attribute to true to enable replication of Oracle tables containing columns that are nested * tables or defined types. *

* * @return Set this attribute to true to enable replication of Oracle tables containing columns that * are nested tables or defined types. */ public Boolean getAllowSelectNestedTables() { return this.allowSelectNestedTables; } /** *

* Set this attribute to true to enable replication of Oracle tables containing columns that are nested * tables or defined types. *

* * @param allowSelectNestedTables * Set this attribute to true to enable replication of Oracle tables containing columns that are * nested tables or defined types. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAllowSelectNestedTables(Boolean allowSelectNestedTables) { setAllowSelectNestedTables(allowSelectNestedTables); return this; } /** *

* Set this attribute to true to enable replication of Oracle tables containing columns that are nested * tables or defined types. *

* * @return Set this attribute to true to enable replication of Oracle tables containing columns that * are nested tables or defined types. */ public Boolean isAllowSelectNestedTables() { return this.allowSelectNestedTables; } /** *

* Set this attribute to change the number of threads that DMS configures to perform a change data capture (CDC) * load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 (the default) * and 8 (the maximum). Use this attribute together with the readAheadBlocks attribute. *

* * @param parallelAsmReadThreads * Set this attribute to change the number of threads that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 * (the default) and 8 (the maximum). Use this attribute together with the readAheadBlocks * attribute. */ public void setParallelAsmReadThreads(Integer parallelAsmReadThreads) { this.parallelAsmReadThreads = parallelAsmReadThreads; } /** *

* Set this attribute to change the number of threads that DMS configures to perform a change data capture (CDC) * load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 (the default) * and 8 (the maximum). Use this attribute together with the readAheadBlocks attribute. *

* * @return Set this attribute to change the number of threads that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 * (the default) and 8 (the maximum). Use this attribute together with the readAheadBlocks * attribute. */ public Integer getParallelAsmReadThreads() { return this.parallelAsmReadThreads; } /** *

* Set this attribute to change the number of threads that DMS configures to perform a change data capture (CDC) * load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 (the default) * and 8 (the maximum). Use this attribute together with the readAheadBlocks attribute. *

* * @param parallelAsmReadThreads * Set this attribute to change the number of threads that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 2 * (the default) and 8 (the maximum). Use this attribute together with the readAheadBlocks * attribute. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withParallelAsmReadThreads(Integer parallelAsmReadThreads) { setParallelAsmReadThreads(parallelAsmReadThreads); return this; } /** *

* Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 1000 (the * default) and 200,000 (the maximum). *

* * @param readAheadBlocks * Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data * capture (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value * between 1000 (the default) and 200,000 (the maximum). */ public void setReadAheadBlocks(Integer readAheadBlocks) { this.readAheadBlocks = readAheadBlocks; } /** *

* Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 1000 (the * default) and 200,000 (the maximum). *

* * @return Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data * capture (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value * between 1000 (the default) and 200,000 (the maximum). */ public Integer getReadAheadBlocks() { return this.readAheadBlocks; } /** *

* Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data capture * (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value between 1000 (the * default) and 200,000 (the maximum). *

* * @param readAheadBlocks * Set this attribute to change the number of read-ahead blocks that DMS configures to perform a change data * capture (CDC) load using Oracle Automatic Storage Management (ASM). You can specify an integer value * between 1000 (the default) and 200,000 (the maximum). * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withReadAheadBlocks(Integer readAheadBlocks) { setReadAheadBlocks(readAheadBlocks); return this; } /** *

* Set this attribute to false in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any specified path * prefix replacement using direct file access. *

* * @param accessAlternateDirectly * Set this attribute to false in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any * specified path prefix replacement using direct file access. */ public void setAccessAlternateDirectly(Boolean accessAlternateDirectly) { this.accessAlternateDirectly = accessAlternateDirectly; } /** *

* Set this attribute to false in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any specified path * prefix replacement using direct file access. *

* * @return Set this attribute to false in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any * specified path prefix replacement using direct file access. */ public Boolean getAccessAlternateDirectly() { return this.accessAlternateDirectly; } /** *

* Set this attribute to false in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any specified path * prefix replacement using direct file access. *

* * @param accessAlternateDirectly * Set this attribute to false in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any * specified path prefix replacement using direct file access. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAccessAlternateDirectly(Boolean accessAlternateDirectly) { setAccessAlternateDirectly(accessAlternateDirectly); return this; } /** *

* Set this attribute to false in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any specified path * prefix replacement using direct file access. *

* * @return Set this attribute to false in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to not access redo logs through any * specified path prefix replacement using direct file access. */ public Boolean isAccessAlternateDirectly() { return this.accessAlternateDirectly; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement to access all * online redo logs. *

* * @param useAlternateFolderForOnline * Set this attribute to true in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement * to access all online redo logs. */ public void setUseAlternateFolderForOnline(Boolean useAlternateFolderForOnline) { this.useAlternateFolderForOnline = useAlternateFolderForOnline; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement to access all * online redo logs. *

* * @return Set this attribute to true in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement * to access all online redo logs. */ public Boolean getUseAlternateFolderForOnline() { return this.useAlternateFolderForOnline; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement to access all * online redo logs. *

* * @param useAlternateFolderForOnline * Set this attribute to true in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement * to access all online redo logs. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUseAlternateFolderForOnline(Boolean useAlternateFolderForOnline) { setUseAlternateFolderForOnline(useAlternateFolderForOnline); return this; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon * RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement to access all * online redo logs. *

* * @return Set this attribute to true in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This tells the DMS instance to use any specified prefix replacement * to access all online redo logs. */ public Boolean isUseAlternateFolderForOnline() { return this.useAlternateFolderForOnline; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access the redo logs. *

* * @param oraclePathPrefix * Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access * the redo logs. */ public void setOraclePathPrefix(String oraclePathPrefix) { this.oraclePathPrefix = oraclePathPrefix; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access the redo logs. *

* * @return Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access * the redo logs. */ public String getOraclePathPrefix() { return this.oraclePathPrefix; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access the redo logs. *

* * @param oraclePathPrefix * Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the default Oracle root used to access * the redo logs. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withOraclePathPrefix(String oraclePathPrefix) { setOraclePathPrefix(oraclePathPrefix); return this; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the default Oracle root * to access the redo logs. *

* * @param usePathPrefix * Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the * default Oracle root to access the redo logs. */ public void setUsePathPrefix(String usePathPrefix) { this.usePathPrefix = usePathPrefix; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the default Oracle root * to access the redo logs. *

* * @return Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the * default Oracle root to access the redo logs. */ public String getUsePathPrefix() { return this.usePathPrefix; } /** *

* Set this string attribute to the required value in order to use the Binary Reader to capture change data for an * Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the default Oracle root * to access the redo logs. *

* * @param usePathPrefix * Set this string attribute to the required value in order to use the Binary Reader to capture change data * for an Amazon RDS for Oracle as the source. This value specifies the path prefix used to replace the * default Oracle root to access the redo logs. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUsePathPrefix(String usePathPrefix) { setUsePathPrefix(usePathPrefix); return this; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for Oracle * as the source. This setting tells DMS instance to replace the default Oracle root with the specified * usePathPrefix setting to access the redo logs. *

* * @param replacePathPrefix * Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for * Oracle as the source. This setting tells DMS instance to replace the default Oracle root with the * specified usePathPrefix setting to access the redo logs. */ public void setReplacePathPrefix(Boolean replacePathPrefix) { this.replacePathPrefix = replacePathPrefix; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for Oracle * as the source. This setting tells DMS instance to replace the default Oracle root with the specified * usePathPrefix setting to access the redo logs. *

* * @return Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for * Oracle as the source. This setting tells DMS instance to replace the default Oracle root with the * specified usePathPrefix setting to access the redo logs. */ public Boolean getReplacePathPrefix() { return this.replacePathPrefix; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for Oracle * as the source. This setting tells DMS instance to replace the default Oracle root with the specified * usePathPrefix setting to access the redo logs. *

* * @param replacePathPrefix * Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for * Oracle as the source. This setting tells DMS instance to replace the default Oracle root with the * specified usePathPrefix setting to access the redo logs. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withReplacePathPrefix(Boolean replacePathPrefix) { setReplacePathPrefix(replacePathPrefix); return this; } /** *

* Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for Oracle * as the source. This setting tells DMS instance to replace the default Oracle root with the specified * usePathPrefix setting to access the redo logs. *

* * @return Set this attribute to true in order to use the Binary Reader to capture change data for an Amazon RDS for * Oracle as the source. This setting tells DMS instance to replace the default Oracle root with the * specified usePathPrefix setting to access the redo logs. */ public Boolean isReplacePathPrefix() { return this.replacePathPrefix; } /** *

* Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under the * same tablespace on the target. *

* * @param enableHomogenousTablespace * Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under * the same tablespace on the target. */ public void setEnableHomogenousTablespace(Boolean enableHomogenousTablespace) { this.enableHomogenousTablespace = enableHomogenousTablespace; } /** *

* Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under the * same tablespace on the target. *

* * @return Set this attribute to enable homogenous tablespace replication and create existing tables or indexes * under the same tablespace on the target. */ public Boolean getEnableHomogenousTablespace() { return this.enableHomogenousTablespace; } /** *

* Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under the * same tablespace on the target. *

* * @param enableHomogenousTablespace * Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under * the same tablespace on the target. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withEnableHomogenousTablespace(Boolean enableHomogenousTablespace) { setEnableHomogenousTablespace(enableHomogenousTablespace); return this; } /** *

* Set this attribute to enable homogenous tablespace replication and create existing tables or indexes under the * same tablespace on the target. *

* * @return Set this attribute to enable homogenous tablespace replication and create existing tables or indexes * under the same tablespace on the target. */ public Boolean isEnableHomogenousTablespace() { return this.enableHomogenousTablespace; } /** *

* When set to true, this attribute helps to increase the commit rate on the Oracle target database by * writing directly to tables and not writing a trail to database logs. *

* * @param directPathNoLog * When set to true, this attribute helps to increase the commit rate on the Oracle target * database by writing directly to tables and not writing a trail to database logs. */ public void setDirectPathNoLog(Boolean directPathNoLog) { this.directPathNoLog = directPathNoLog; } /** *

* When set to true, this attribute helps to increase the commit rate on the Oracle target database by * writing directly to tables and not writing a trail to database logs. *

* * @return When set to true, this attribute helps to increase the commit rate on the Oracle target * database by writing directly to tables and not writing a trail to database logs. */ public Boolean getDirectPathNoLog() { return this.directPathNoLog; } /** *

* When set to true, this attribute helps to increase the commit rate on the Oracle target database by * writing directly to tables and not writing a trail to database logs. *

* * @param directPathNoLog * When set to true, this attribute helps to increase the commit rate on the Oracle target * database by writing directly to tables and not writing a trail to database logs. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withDirectPathNoLog(Boolean directPathNoLog) { setDirectPathNoLog(directPathNoLog); return this; } /** *

* When set to true, this attribute helps to increase the commit rate on the Oracle target database by * writing directly to tables and not writing a trail to database logs. *

* * @return When set to true, this attribute helps to increase the commit rate on the Oracle target * database by writing directly to tables and not writing a trail to database logs. */ public Boolean isDirectPathNoLog() { return this.directPathNoLog; } /** *

* When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo logs are * stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. *

* * @param archivedLogsOnly * When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo * logs are stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. */ public void setArchivedLogsOnly(Boolean archivedLogsOnly) { this.archivedLogsOnly = archivedLogsOnly; } /** *

* When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo logs are * stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. *

* * @return When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo * logs are stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. */ public Boolean getArchivedLogsOnly() { return this.archivedLogsOnly; } /** *

* When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo logs are * stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. *

* * @param archivedLogsOnly * When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo * logs are stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withArchivedLogsOnly(Boolean archivedLogsOnly) { setArchivedLogsOnly(archivedLogsOnly); return this; } /** *

* When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo logs are * stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. *

* * @return When this field is set to Y, DMS only accesses the archived redo logs. If the archived redo * logs are stored on Oracle ASM only, the DMS user account needs to be granted ASM privileges. */ public Boolean isArchivedLogsOnly() { return this.archivedLogsOnly; } /** *

* For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this value * from the asm_user_password value. You set this value as part of the comma-separated value * that you set to the Password request parameter when you create the endpoint to access transaction * logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmPassword * For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this * value from the asm_user_password value. You set this value as part of the * comma-separated value that you set to the Password request parameter when you create the * endpoint to access transaction logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public void setAsmPassword(String asmPassword) { this.asmPassword = asmPassword; } /** *

* For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this value * from the asm_user_password value. You set this value as part of the comma-separated value * that you set to the Password request parameter when you create the endpoint to access transaction * logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @return For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this * value from the asm_user_password value. You set this value as part of the * comma-separated value that you set to the Password request parameter when you create the * endpoint to access transaction logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public String getAsmPassword() { return this.asmPassword; } /** *

* For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this value * from the asm_user_password value. You set this value as part of the comma-separated value * that you set to the Password request parameter when you create the endpoint to access transaction * logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmPassword * For an Oracle source endpoint, your Oracle Automatic Storage Management (ASM) password. You can set this * value from the asm_user_password value. You set this value as part of the * comma-separated value that you set to the Password request parameter when you create the * endpoint to access transaction logs using Binary Reader. For more information, see Configuration for change data capture (CDC) on an Oracle source database. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAsmPassword(String asmPassword) { setAsmPassword(asmPassword); return this; } /** *

* For an Oracle source endpoint, your ASM server address. You can set this value from the asm_server * value. You set asm_server as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmServer * For an Oracle source endpoint, your ASM server address. You can set this value from the * asm_server value. You set asm_server as part of the extra connection attribute * string to access an Oracle server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public void setAsmServer(String asmServer) { this.asmServer = asmServer; } /** *

* For an Oracle source endpoint, your ASM server address. You can set this value from the asm_server * value. You set asm_server as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @return For an Oracle source endpoint, your ASM server address. You can set this value from the * asm_server value. You set asm_server as part of the extra connection attribute * string to access an Oracle server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public String getAsmServer() { return this.asmServer; } /** *

* For an Oracle source endpoint, your ASM server address. You can set this value from the asm_server * value. You set asm_server as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmServer * For an Oracle source endpoint, your ASM server address. You can set this value from the * asm_server value. You set asm_server as part of the extra connection attribute * string to access an Oracle server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAsmServer(String asmServer) { setAsmServer(asmServer); return this; } /** *

* For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user value. * You set asm_user as part of the extra connection attribute string to access an Oracle server with * Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmUser * For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user * value. You set asm_user as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public void setAsmUser(String asmUser) { this.asmUser = asmUser; } /** *

* For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user value. * You set asm_user as part of the extra connection attribute string to access an Oracle server with * Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @return For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user * value. You set asm_user as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. */ public String getAsmUser() { return this.asmUser; } /** *

* For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user value. * You set asm_user as part of the extra connection attribute string to access an Oracle server with * Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. *

* * @param asmUser * For an Oracle source endpoint, your ASM user name. You can set this value from the asm_user * value. You set asm_user as part of the extra connection attribute string to access an Oracle * server with Binary Reader that uses ASM. For more information, see Configuration for change data capture (CDC) on an Oracle source database. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withAsmUser(String asmUser) { setAsmUser(asmUser); return this; } /** *

* Specifies whether the length of a character column is in bytes or in characters. To indicate that the character * column length is in characters, set this attribute to CHAR. Otherwise, the character column length * is in bytes. *

*

* Example: charLengthSemantics=CHAR; *

* * @param charLengthSemantics * Specifies whether the length of a character column is in bytes or in characters. To indicate that the * character column length is in characters, set this attribute to CHAR. Otherwise, the * character column length is in bytes.

*

* Example: charLengthSemantics=CHAR; * @see CharLengthSemantics */ public void setCharLengthSemantics(String charLengthSemantics) { this.charLengthSemantics = charLengthSemantics; } /** *

* Specifies whether the length of a character column is in bytes or in characters. To indicate that the character * column length is in characters, set this attribute to CHAR. Otherwise, the character column length * is in bytes. *

*

* Example: charLengthSemantics=CHAR; *

* * @return Specifies whether the length of a character column is in bytes or in characters. To indicate that the * character column length is in characters, set this attribute to CHAR. Otherwise, the * character column length is in bytes.

*

* Example: charLengthSemantics=CHAR; * @see CharLengthSemantics */ public String getCharLengthSemantics() { return this.charLengthSemantics; } /** *

* Specifies whether the length of a character column is in bytes or in characters. To indicate that the character * column length is in characters, set this attribute to CHAR. Otherwise, the character column length * is in bytes. *

*

* Example: charLengthSemantics=CHAR; *

* * @param charLengthSemantics * Specifies whether the length of a character column is in bytes or in characters. To indicate that the * character column length is in characters, set this attribute to CHAR. Otherwise, the * character column length is in bytes.

*

* Example: charLengthSemantics=CHAR; * @return Returns a reference to this object so that method calls can be chained together. * @see CharLengthSemantics */ public OracleSettings withCharLengthSemantics(String charLengthSemantics) { setCharLengthSemantics(charLengthSemantics); return this; } /** *

* Specifies whether the length of a character column is in bytes or in characters. To indicate that the character * column length is in characters, set this attribute to CHAR. Otherwise, the character column length * is in bytes. *

*

* Example: charLengthSemantics=CHAR; *

* * @param charLengthSemantics * Specifies whether the length of a character column is in bytes or in characters. To indicate that the * character column length is in characters, set this attribute to CHAR. Otherwise, the * character column length is in bytes.

*

* Example: charLengthSemantics=CHAR; * @return Returns a reference to this object so that method calls can be chained together. * @see CharLengthSemantics */ public OracleSettings withCharLengthSemantics(CharLengthSemantics charLengthSemantics) { this.charLengthSemantics = charLengthSemantics.toString(); return this; } /** *

* Database name for the endpoint. *

* * @param databaseName * Database name for the endpoint. */ public void setDatabaseName(String databaseName) { this.databaseName = databaseName; } /** *

* Database name for the endpoint. *

* * @return Database name for the endpoint. */ public String getDatabaseName() { return this.databaseName; } /** *

* Database name for the endpoint. *

* * @param databaseName * Database name for the endpoint. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withDatabaseName(String databaseName) { setDatabaseName(databaseName); return this; } /** *

* When set to true, this attribute specifies a parallel load when useDirectPathFullLoad * is set to Y. This attribute also only applies when you use the DMS parallel load feature. Note that * the target table cannot have any constraints or indexes. *

* * @param directPathParallelLoad * When set to true, this attribute specifies a parallel load when * useDirectPathFullLoad is set to Y. This attribute also only applies when you use * the DMS parallel load feature. Note that the target table cannot have any constraints or indexes. */ public void setDirectPathParallelLoad(Boolean directPathParallelLoad) { this.directPathParallelLoad = directPathParallelLoad; } /** *

* When set to true, this attribute specifies a parallel load when useDirectPathFullLoad * is set to Y. This attribute also only applies when you use the DMS parallel load feature. Note that * the target table cannot have any constraints or indexes. *

* * @return When set to true, this attribute specifies a parallel load when * useDirectPathFullLoad is set to Y. This attribute also only applies when you * use the DMS parallel load feature. Note that the target table cannot have any constraints or indexes. */ public Boolean getDirectPathParallelLoad() { return this.directPathParallelLoad; } /** *

* When set to true, this attribute specifies a parallel load when useDirectPathFullLoad * is set to Y. This attribute also only applies when you use the DMS parallel load feature. Note that * the target table cannot have any constraints or indexes. *

* * @param directPathParallelLoad * When set to true, this attribute specifies a parallel load when * useDirectPathFullLoad is set to Y. This attribute also only applies when you use * the DMS parallel load feature. Note that the target table cannot have any constraints or indexes. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withDirectPathParallelLoad(Boolean directPathParallelLoad) { setDirectPathParallelLoad(directPathParallelLoad); return this; } /** *

* When set to true, this attribute specifies a parallel load when useDirectPathFullLoad * is set to Y. This attribute also only applies when you use the DMS parallel load feature. Note that * the target table cannot have any constraints or indexes. *

* * @return When set to true, this attribute specifies a parallel load when * useDirectPathFullLoad is set to Y. This attribute also only applies when you * use the DMS parallel load feature. Note that the target table cannot have any constraints or indexes. */ public Boolean isDirectPathParallelLoad() { return this.directPathParallelLoad; } /** *

* When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize. *

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead of * truncating the LOB data. *

* * @param failTasksOnLobTruncation * When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize.

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead * of truncating the LOB data. */ public void setFailTasksOnLobTruncation(Boolean failTasksOnLobTruncation) { this.failTasksOnLobTruncation = failTasksOnLobTruncation; } /** *

* When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize. *

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead of * truncating the LOB data. *

* * @return When set to true, this attribute causes a task to fail if the actual size of an LOB column * is greater than the specified LobMaxSize.

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead * of truncating the LOB data. */ public Boolean getFailTasksOnLobTruncation() { return this.failTasksOnLobTruncation; } /** *

* When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize. *

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead of * truncating the LOB data. *

* * @param failTasksOnLobTruncation * When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize.

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead * of truncating the LOB data. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withFailTasksOnLobTruncation(Boolean failTasksOnLobTruncation) { setFailTasksOnLobTruncation(failTasksOnLobTruncation); return this; } /** *

* When set to true, this attribute causes a task to fail if the actual size of an LOB column is * greater than the specified LobMaxSize. *

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead of * truncating the LOB data. *

* * @return When set to true, this attribute causes a task to fail if the actual size of an LOB column * is greater than the specified LobMaxSize.

*

* If a task is set to limited LOB mode and this option is set to true, the task fails instead * of truncating the LOB data. */ public Boolean isFailTasksOnLobTruncation() { return this.failTasksOnLobTruncation; } /** *

* Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the NUMBER data * type is converted to precision 38, scale 10. *

*

* Example: numberDataTypeScale=12 *

* * @param numberDatatypeScale * Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the * NUMBER data type is converted to precision 38, scale 10.

*

* Example: numberDataTypeScale=12 */ public void setNumberDatatypeScale(Integer numberDatatypeScale) { this.numberDatatypeScale = numberDatatypeScale; } /** *

* Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the NUMBER data * type is converted to precision 38, scale 10. *

*

* Example: numberDataTypeScale=12 *

* * @return Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the * NUMBER data type is converted to precision 38, scale 10.

*

* Example: numberDataTypeScale=12 */ public Integer getNumberDatatypeScale() { return this.numberDatatypeScale; } /** *

* Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the NUMBER data * type is converted to precision 38, scale 10. *

*

* Example: numberDataTypeScale=12 *

* * @param numberDatatypeScale * Specifies the number scale. You can select a scale up to 38, or you can select FLOAT. By default, the * NUMBER data type is converted to precision 38, scale 10.

*

* Example: numberDataTypeScale=12 * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withNumberDatatypeScale(Integer numberDatatypeScale) { setNumberDatatypeScale(numberDatatypeScale); return this; } /** *

* Endpoint connection password. *

* * @param password * Endpoint connection password. */ public void setPassword(String password) { this.password = password; } /** *

* Endpoint connection password. *

* * @return Endpoint connection password. */ public String getPassword() { return this.password; } /** *

* Endpoint connection password. *

* * @param password * Endpoint connection password. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withPassword(String password) { setPassword(password); return this; } /** *

* Endpoint TCP port. *

* * @param port * Endpoint TCP port. */ public void setPort(Integer port) { this.port = port; } /** *

* Endpoint TCP port. *

* * @return Endpoint TCP port. */ public Integer getPort() { return this.port; } /** *

* Endpoint TCP port. *

* * @param port * Endpoint TCP port. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withPort(Integer port) { setPort(port); return this; } /** *

* When set to true, this attribute supports tablespace replication. *

* * @param readTableSpaceName * When set to true, this attribute supports tablespace replication. */ public void setReadTableSpaceName(Boolean readTableSpaceName) { this.readTableSpaceName = readTableSpaceName; } /** *

* When set to true, this attribute supports tablespace replication. *

* * @return When set to true, this attribute supports tablespace replication. */ public Boolean getReadTableSpaceName() { return this.readTableSpaceName; } /** *

* When set to true, this attribute supports tablespace replication. *

* * @param readTableSpaceName * When set to true, this attribute supports tablespace replication. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withReadTableSpaceName(Boolean readTableSpaceName) { setReadTableSpaceName(readTableSpaceName); return this; } /** *

* When set to true, this attribute supports tablespace replication. *

* * @return When set to true, this attribute supports tablespace replication. */ public Boolean isReadTableSpaceName() { return this.readTableSpaceName; } /** *

* Specifies the number of seconds that the system waits before resending a query. *

*

* Example: retryInterval=6; *

* * @param retryInterval * Specifies the number of seconds that the system waits before resending a query.

*

* Example: retryInterval=6; */ public void setRetryInterval(Integer retryInterval) { this.retryInterval = retryInterval; } /** *

* Specifies the number of seconds that the system waits before resending a query. *

*

* Example: retryInterval=6; *

* * @return Specifies the number of seconds that the system waits before resending a query.

*

* Example: retryInterval=6; */ public Integer getRetryInterval() { return this.retryInterval; } /** *

* Specifies the number of seconds that the system waits before resending a query. *

*

* Example: retryInterval=6; *

* * @param retryInterval * Specifies the number of seconds that the system waits before resending a query.

*

* Example: retryInterval=6; * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withRetryInterval(Integer retryInterval) { setRetryInterval(retryInterval); return this; } /** *

* For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to access * Oracle redo logs encrypted by TDE using Binary Reader. It is also the TDE_Password part of * the comma-separated value you set to the Password request parameter when you create the endpoint. * The SecurityDbEncryptian setting is related to this SecurityDbEncryptionName setting. * For more information, see * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @param securityDbEncryption * For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to * access Oracle redo logs encrypted by TDE using Binary Reader. It is also the * TDE_Password part of the comma-separated value you set to the Password * request parameter when you create the endpoint. The SecurityDbEncryptian setting is related * to this SecurityDbEncryptionName setting. For more information, see Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. */ public void setSecurityDbEncryption(String securityDbEncryption) { this.securityDbEncryption = securityDbEncryption; } /** *

* For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to access * Oracle redo logs encrypted by TDE using Binary Reader. It is also the TDE_Password part of * the comma-separated value you set to the Password request parameter when you create the endpoint. * The SecurityDbEncryptian setting is related to this SecurityDbEncryptionName setting. * For more information, see * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @return For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to * access Oracle redo logs encrypted by TDE using Binary Reader. It is also the * TDE_Password part of the comma-separated value you set to the Password * request parameter when you create the endpoint. The SecurityDbEncryptian setting is related * to this SecurityDbEncryptionName setting. For more information, see Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. */ public String getSecurityDbEncryption() { return this.securityDbEncryption; } /** *

* For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to access * Oracle redo logs encrypted by TDE using Binary Reader. It is also the TDE_Password part of * the comma-separated value you set to the Password request parameter when you create the endpoint. * The SecurityDbEncryptian setting is related to this SecurityDbEncryptionName setting. * For more information, see * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @param securityDbEncryption * For an Oracle source endpoint, the transparent data encryption (TDE) password required by AWM DMS to * access Oracle redo logs encrypted by TDE using Binary Reader. It is also the * TDE_Password part of the comma-separated value you set to the Password * request parameter when you create the endpoint. The SecurityDbEncryptian setting is related * to this SecurityDbEncryptionName setting. For more information, see Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecurityDbEncryption(String securityDbEncryption) { setSecurityDbEncryption(securityDbEncryption); return this; } /** *

* For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the columns * and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the value of the * SecurityDbEncryption setting. For more information on setting the key name value of * SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @param securityDbEncryptionName * For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the * columns and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the * value of the SecurityDbEncryption setting. For more information on setting the key name value * of SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. */ public void setSecurityDbEncryptionName(String securityDbEncryptionName) { this.securityDbEncryptionName = securityDbEncryptionName; } /** *

* For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the columns * and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the value of the * SecurityDbEncryption setting. For more information on setting the key name value of * SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @return For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the * columns and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the * value of the SecurityDbEncryption setting. For more information on setting the key name * value of SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. */ public String getSecurityDbEncryptionName() { return this.securityDbEncryptionName; } /** *

* For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the columns * and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the value of the * SecurityDbEncryption setting. For more information on setting the key name value of * SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in * Supported encryption methods for using Oracle as a source for DMS in the Database Migration Service User * Guide. *

* * @param securityDbEncryptionName * For an Oracle source endpoint, the name of a key used for the transparent data encryption (TDE) of the * columns and tablespaces in an Oracle source database that is encrypted using TDE. The key value is the * value of the SecurityDbEncryption setting. For more information on setting the key name value * of SecurityDbEncryptionName, see the information and example for setting the * securityDbEncryptionName extra connection attribute in Supported encryption methods for using Oracle as a source for DMS in the Database Migration * Service User Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecurityDbEncryptionName(String securityDbEncryptionName) { setSecurityDbEncryptionName(securityDbEncryptionName); return this; } /** *

* Fully qualified domain name of the endpoint. *

* * @param serverName * Fully qualified domain name of the endpoint. */ public void setServerName(String serverName) { this.serverName = serverName; } /** *

* Fully qualified domain name of the endpoint. *

* * @return Fully qualified domain name of the endpoint. */ public String getServerName() { return this.serverName; } /** *

* Fully qualified domain name of the endpoint. *

* * @param serverName * Fully qualified domain name of the endpoint. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withServerName(String serverName) { setServerName(serverName); return this; } /** *

* Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS calls the * SDO2GEOJSON custom function if present and accessible. Or you can create your own custom function * that mimics the operation of SDOGEOJSON and set SpatialDataOptionToGeoJsonFunctionName * to call it instead. *

* * @param spatialDataOptionToGeoJsonFunctionName * Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS * calls the SDO2GEOJSON custom function if present and accessible. Or you can create your own * custom function that mimics the operation of SDOGEOJSON and set * SpatialDataOptionToGeoJsonFunctionName to call it instead. */ public void setSpatialDataOptionToGeoJsonFunctionName(String spatialDataOptionToGeoJsonFunctionName) { this.spatialDataOptionToGeoJsonFunctionName = spatialDataOptionToGeoJsonFunctionName; } /** *

* Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS calls the * SDO2GEOJSON custom function if present and accessible. Or you can create your own custom function * that mimics the operation of SDOGEOJSON and set SpatialDataOptionToGeoJsonFunctionName * to call it instead. *

* * @return Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS * calls the SDO2GEOJSON custom function if present and accessible. Or you can create your own * custom function that mimics the operation of SDOGEOJSON and set * SpatialDataOptionToGeoJsonFunctionName to call it instead. */ public String getSpatialDataOptionToGeoJsonFunctionName() { return this.spatialDataOptionToGeoJsonFunctionName; } /** *

* Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS calls the * SDO2GEOJSON custom function if present and accessible. Or you can create your own custom function * that mimics the operation of SDOGEOJSON and set SpatialDataOptionToGeoJsonFunctionName * to call it instead. *

* * @param spatialDataOptionToGeoJsonFunctionName * Use this attribute to convert SDO_GEOMETRY to GEOJSON format. By default, DMS * calls the SDO2GEOJSON custom function if present and accessible. Or you can create your own * custom function that mimics the operation of SDOGEOJSON and set * SpatialDataOptionToGeoJsonFunctionName to call it instead. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSpatialDataOptionToGeoJsonFunctionName(String spatialDataOptionToGeoJsonFunctionName) { setSpatialDataOptionToGeoJsonFunctionName(spatialDataOptionToGeoJsonFunctionName); return this; } /** *

* Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle Active * Data Guard standby database, use this attribute to specify the time lag between primary and standby databases. *

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be in * production. *

* * @param standbyDelayTime * Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle * Active Data Guard standby database, use this attribute to specify the time lag between primary and standby * databases.

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be * in production. */ public void setStandbyDelayTime(Integer standbyDelayTime) { this.standbyDelayTime = standbyDelayTime; } /** *

* Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle Active * Data Guard standby database, use this attribute to specify the time lag between primary and standby databases. *

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be in * production. *

* * @return Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle * Active Data Guard standby database, use this attribute to specify the time lag between primary and * standby databases.

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might * be in production. */ public Integer getStandbyDelayTime() { return this.standbyDelayTime; } /** *

* Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle Active * Data Guard standby database, use this attribute to specify the time lag between primary and standby databases. *

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be in * production. *

* * @param standbyDelayTime * Use this attribute to specify a time in minutes for the delay in standby sync. If the source is an Oracle * Active Data Guard standby database, use this attribute to specify the time lag between primary and standby * databases.

*

* In DMS, you can create an Oracle CDC task that uses an Active Data Guard standby instance as a source for * replicating ongoing changes. Doing this eliminates the need to connect to an active database that might be * in production. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withStandbyDelayTime(Integer standbyDelayTime) { setStandbyDelayTime(standbyDelayTime); return this; } /** *

* Endpoint connection user name. *

* * @param username * Endpoint connection user name. */ public void setUsername(String username) { this.username = username; } /** *

* Endpoint connection user name. *

* * @return Endpoint connection user name. */ public String getUsername() { return this.username; } /** *

* Endpoint connection user name. *

* * @param username * Endpoint connection user name. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUsername(String username) { setUsername(username); return this; } /** *

* Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for Oracle * as the source, you set additional attributes. For more information about using this setting with Oracle Automatic * Storage Management (ASM), see Using * Oracle LogMiner or DMS Binary Reader for CDC. *

* * @param useBFile * Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for * Oracle as the source, you set additional attributes. For more information about using this setting with * Oracle Automatic Storage Management (ASM), see * Using Oracle LogMiner or DMS Binary Reader for CDC. */ public void setUseBFile(Boolean useBFile) { this.useBFile = useBFile; } /** *

* Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for Oracle * as the source, you set additional attributes. For more information about using this setting with Oracle Automatic * Storage Management (ASM), see Using * Oracle LogMiner or DMS Binary Reader for CDC. *

* * @return Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for * Oracle as the source, you set additional attributes. For more information about using this setting with * Oracle Automatic Storage Management (ASM), see * Using Oracle LogMiner or DMS Binary Reader for CDC. */ public Boolean getUseBFile() { return this.useBFile; } /** *

* Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for Oracle * as the source, you set additional attributes. For more information about using this setting with Oracle Automatic * Storage Management (ASM), see Using * Oracle LogMiner or DMS Binary Reader for CDC. *

* * @param useBFile * Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for * Oracle as the source, you set additional attributes. For more information about using this setting with * Oracle Automatic Storage Management (ASM), see * Using Oracle LogMiner or DMS Binary Reader for CDC. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUseBFile(Boolean useBFile) { setUseBFile(useBFile); return this; } /** *

* Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for Oracle * as the source, you set additional attributes. For more information about using this setting with Oracle Automatic * Storage Management (ASM), see Using * Oracle LogMiner or DMS Binary Reader for CDC. *

* * @return Set this attribute to Y to capture change data using the Binary Reader utility. Set * UseLogminerReader to N to set this attribute to Y. To use Binary Reader with Amazon RDS for * Oracle as the source, you set additional attributes. For more information about using this setting with * Oracle Automatic Storage Management (ASM), see * Using Oracle LogMiner or DMS Binary Reader for CDC. */ public Boolean isUseBFile() { return this.useBFile; } /** *

* Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target tables * during a full load. *

* * @param useDirectPathFullLoad * Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target * tables during a full load. */ public void setUseDirectPathFullLoad(Boolean useDirectPathFullLoad) { this.useDirectPathFullLoad = useDirectPathFullLoad; } /** *

* Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target tables * during a full load. *

* * @return Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct * path protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle * target tables during a full load. */ public Boolean getUseDirectPathFullLoad() { return this.useDirectPathFullLoad; } /** *

* Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target tables * during a full load. *

* * @param useDirectPathFullLoad * Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target * tables during a full load. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUseDirectPathFullLoad(Boolean useDirectPathFullLoad) { setUseDirectPathFullLoad(useDirectPathFullLoad); return this; } /** *

* Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct path * protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle target tables * during a full load. *

* * @return Set this attribute to Y to have DMS use a direct path full load. Specify this value to use the direct * path protocol in the Oracle Call Interface (OCI). By using this OCI protocol, you can bulk-load Oracle * target tables during a full load. */ public Boolean isUseDirectPathFullLoad() { return this.useDirectPathFullLoad; } /** *

* Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set UseLogminerReader * to N, also set UseBfile to Y. For more information on this setting and using Oracle ASM, see Using * Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. *

* * @param useLogminerReader * Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set * UseLogminerReader to N, also set UseBfile to Y. For more information on this * setting and using Oracle ASM, see * Using Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. */ public void setUseLogminerReader(Boolean useLogminerReader) { this.useLogminerReader = useLogminerReader; } /** *

* Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set UseLogminerReader * to N, also set UseBfile to Y. For more information on this setting and using Oracle ASM, see Using * Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. *

* * @return Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set * UseLogminerReader to N, also set UseBfile to Y. For more information on this * setting and using Oracle ASM, see * Using Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. */ public Boolean getUseLogminerReader() { return this.useLogminerReader; } /** *

* Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set UseLogminerReader * to N, also set UseBfile to Y. For more information on this setting and using Oracle ASM, see Using * Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. *

* * @param useLogminerReader * Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set * UseLogminerReader to N, also set UseBfile to Y. For more information on this * setting and using Oracle ASM, see * Using Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withUseLogminerReader(Boolean useLogminerReader) { setUseLogminerReader(useLogminerReader); return this; } /** *

* Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set UseLogminerReader * to N, also set UseBfile to Y. For more information on this setting and using Oracle ASM, see Using * Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. *

* * @return Set this attribute to Y to capture change data using the Oracle LogMiner utility (the default). Set this * attribute to N if you want to access the redo logs as a binary file. When you set * UseLogminerReader to N, also set UseBfile to Y. For more information on this * setting and using Oracle ASM, see * Using Oracle LogMiner or DMS Binary Reader for CDC in the DMS User Guide. */ public Boolean isUseLogminerReader() { return this.useLogminerReader; } /** *

* The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants the * required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web Services * Secrets Manager secret that allows access to the Oracle endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerSecretId. Or you can specify clear-text values for UserName, * Password, ServerName, and Port. You can't specify both. For more * information on creating this SecretsManagerSecret and the SecretsManagerAccessRoleArn * and SecretsManagerSecretId required to access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @param secretsManagerAccessRoleArn * The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants * the required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web * Services Secrets Manager secret that allows access to the Oracle endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerSecretId. Or you can specify clear-text values for * UserName, Password, ServerName, and Port. You can't * specify both. For more information on creating this SecretsManagerSecret and the * SecretsManagerAccessRoleArn and SecretsManagerSecretId required to access it, * see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

*/ public void setSecretsManagerAccessRoleArn(String secretsManagerAccessRoleArn) { this.secretsManagerAccessRoleArn = secretsManagerAccessRoleArn; } /** *

* The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants the * required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web Services * Secrets Manager secret that allows access to the Oracle endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerSecretId. Or you can specify clear-text values for UserName, * Password, ServerName, and Port. You can't specify both. For more * information on creating this SecretsManagerSecret and the SecretsManagerAccessRoleArn * and SecretsManagerSecretId required to access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @return The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants * the required permissions to access the value in SecretsManagerSecret. The role must allow * the iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web * Services Secrets Manager secret that allows access to the Oracle endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerSecretId. Or you can specify clear-text values for * UserName, Password, ServerName, and Port. You can't * specify both. For more information on creating this SecretsManagerSecret and the * SecretsManagerAccessRoleArn and SecretsManagerSecretId required to access it, * see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

*/ public String getSecretsManagerAccessRoleArn() { return this.secretsManagerAccessRoleArn; } /** *

* The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants the * required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web Services * Secrets Manager secret that allows access to the Oracle endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerSecretId. Or you can specify clear-text values for UserName, * Password, ServerName, and Port. You can't specify both. For more * information on creating this SecretsManagerSecret and the SecretsManagerAccessRoleArn * and SecretsManagerSecretId required to access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @param secretsManagerAccessRoleArn * The full Amazon Resource Name (ARN) of the IAM role that specifies DMS as the trusted entity and grants * the required permissions to access the value in SecretsManagerSecret. The role must allow the * iam:PassRole action. SecretsManagerSecret has the value of the Amazon Web * Services Secrets Manager secret that allows access to the Oracle endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerSecretId. Or you can specify clear-text values for * UserName, Password, ServerName, and Port. You can't * specify both. For more information on creating this SecretsManagerSecret and the * SecretsManagerAccessRoleArn and SecretsManagerSecretId required to access it, * see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

* @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecretsManagerAccessRoleArn(String secretsManagerAccessRoleArn) { setSecretsManagerAccessRoleArn(secretsManagerAccessRoleArn); return this; } /** *

* The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the Oracle * endpoint connection details. *

* * @param secretsManagerSecretId * The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the * Oracle endpoint connection details. */ public void setSecretsManagerSecretId(String secretsManagerSecretId) { this.secretsManagerSecretId = secretsManagerSecretId; } /** *

* The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the Oracle * endpoint connection details. *

* * @return The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the * Oracle endpoint connection details. */ public String getSecretsManagerSecretId() { return this.secretsManagerSecretId; } /** *

* The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the Oracle * endpoint connection details. *

* * @param secretsManagerSecretId * The full ARN, partial ARN, or friendly name of the SecretsManagerSecret that contains the * Oracle endpoint connection details. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecretsManagerSecretId(String secretsManagerSecretId) { setSecretsManagerSecretId(secretsManagerSecretId); return this; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role that * specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret value * that allows access to the Oracle ASM of the endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for AsmUserName, * AsmPassword, and AsmServerName. You can't specify both. For more information on * creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId required to * access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @param secretsManagerOracleAsmAccessRoleArn * Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role * that specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret * value that allows access to the Oracle ASM of the endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for * AsmUserName, AsmPassword, and AsmServerName. You can't specify * both. For more information on creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId * required to access it, see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

*/ public void setSecretsManagerOracleAsmAccessRoleArn(String secretsManagerOracleAsmAccessRoleArn) { this.secretsManagerOracleAsmAccessRoleArn = secretsManagerOracleAsmAccessRoleArn; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role that * specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret value * that allows access to the Oracle ASM of the endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for AsmUserName, * AsmPassword, and AsmServerName. You can't specify both. For more information on * creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId required to * access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @return Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role * that specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the * secret value that allows access to the Oracle ASM of the endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for * AsmUserName, AsmPassword, and AsmServerName. You can't specify * both. For more information on creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId * required to access it, see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

*/ public String getSecretsManagerOracleAsmAccessRoleArn() { return this.secretsManagerOracleAsmAccessRoleArn; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role that * specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret value * that allows access to the Oracle ASM of the endpoint. *

* *

* You can specify one of two sets of values for these permissions. You can specify the values for this setting and * SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for AsmUserName, * AsmPassword, and AsmServerName. You can't specify both. For more information on * creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId required to * access it, see Using * secrets to access Database Migration Service resources in the Database Migration Service User Guide. *

*
* * @param secretsManagerOracleAsmAccessRoleArn * Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN of the IAM role * that specifies DMS as the trusted entity and grants the required permissions to access the * SecretsManagerOracleAsmSecret. This SecretsManagerOracleAsmSecret has the secret * value that allows access to the Oracle ASM of the endpoint.

*

* You can specify one of two sets of values for these permissions. You can specify the values for this * setting and SecretsManagerOracleAsmSecretId. Or you can specify clear-text values for * AsmUserName, AsmPassword, and AsmServerName. You can't specify * both. For more information on creating this SecretsManagerOracleAsmSecret and the * SecretsManagerOracleAsmAccessRoleArn and SecretsManagerOracleAsmSecretId * required to access it, see Using secrets to access Database Migration Service resources in the Database Migration Service * User Guide. *

* @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecretsManagerOracleAsmAccessRoleArn(String secretsManagerOracleAsmAccessRoleArn) { setSecretsManagerOracleAsmAccessRoleArn(secretsManagerOracleAsmAccessRoleArn); return this; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or friendly * name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection details for the * Oracle endpoint. *

* * @param secretsManagerOracleAsmSecretId * Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or * friendly name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection * details for the Oracle endpoint. */ public void setSecretsManagerOracleAsmSecretId(String secretsManagerOracleAsmSecretId) { this.secretsManagerOracleAsmSecretId = secretsManagerOracleAsmSecretId; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or friendly * name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection details for the * Oracle endpoint. *

* * @return Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or * friendly name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection * details for the Oracle endpoint. */ public String getSecretsManagerOracleAsmSecretId() { return this.secretsManagerOracleAsmSecretId; } /** *

* Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or friendly * name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection details for the * Oracle endpoint. *

* * @param secretsManagerOracleAsmSecretId * Required only if your Oracle endpoint uses Advanced Storage Manager (ASM). The full ARN, partial ARN, or * friendly name of the SecretsManagerOracleAsmSecret that contains the Oracle ASM connection * details for the Oracle endpoint. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withSecretsManagerOracleAsmSecretId(String secretsManagerOracleAsmSecretId) { setSecretsManagerOracleAsmSecretId(secretsManagerOracleAsmSecretId); return this; } /** *

* Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types during * migration. The default value is true. *

* * @param trimSpaceInChar * Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types * during migration. The default value is true. */ public void setTrimSpaceInChar(Boolean trimSpaceInChar) { this.trimSpaceInChar = trimSpaceInChar; } /** *

* Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types during * migration. The default value is true. *

* * @return Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types * during migration. The default value is true. */ public Boolean getTrimSpaceInChar() { return this.trimSpaceInChar; } /** *

* Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types during * migration. The default value is true. *

* * @param trimSpaceInChar * Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types * during migration. The default value is true. * @return Returns a reference to this object so that method calls can be chained together. */ public OracleSettings withTrimSpaceInChar(Boolean trimSpaceInChar) { setTrimSpaceInChar(trimSpaceInChar); return this; } /** *

* Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types during * migration. The default value is true. *

* * @return Use the TrimSpaceInChar source endpoint setting to trim data on CHAR and NCHAR data types * during migration. The default value is true. */ public Boolean isTrimSpaceInChar() { return this.trimSpaceInChar; } /** * Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be * redacted from this string using a placeholder value. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getAddSupplementalLogging() != null) sb.append("AddSupplementalLogging: ").append(getAddSupplementalLogging()).append(","); if (getArchivedLogDestId() != null) sb.append("ArchivedLogDestId: ").append(getArchivedLogDestId()).append(","); if (getAdditionalArchivedLogDestId() != null) sb.append("AdditionalArchivedLogDestId: ").append(getAdditionalArchivedLogDestId()).append(","); if (getExtraArchivedLogDestIds() != null) sb.append("ExtraArchivedLogDestIds: ").append(getExtraArchivedLogDestIds()).append(","); if (getAllowSelectNestedTables() != null) sb.append("AllowSelectNestedTables: ").append(getAllowSelectNestedTables()).append(","); if (getParallelAsmReadThreads() != null) sb.append("ParallelAsmReadThreads: ").append(getParallelAsmReadThreads()).append(","); if (getReadAheadBlocks() != null) sb.append("ReadAheadBlocks: ").append(getReadAheadBlocks()).append(","); if (getAccessAlternateDirectly() != null) sb.append("AccessAlternateDirectly: ").append(getAccessAlternateDirectly()).append(","); if (getUseAlternateFolderForOnline() != null) sb.append("UseAlternateFolderForOnline: ").append(getUseAlternateFolderForOnline()).append(","); if (getOraclePathPrefix() != null) sb.append("OraclePathPrefix: ").append(getOraclePathPrefix()).append(","); if (getUsePathPrefix() != null) sb.append("UsePathPrefix: ").append(getUsePathPrefix()).append(","); if (getReplacePathPrefix() != null) sb.append("ReplacePathPrefix: ").append(getReplacePathPrefix()).append(","); if (getEnableHomogenousTablespace() != null) sb.append("EnableHomogenousTablespace: ").append(getEnableHomogenousTablespace()).append(","); if (getDirectPathNoLog() != null) sb.append("DirectPathNoLog: ").append(getDirectPathNoLog()).append(","); if (getArchivedLogsOnly() != null) sb.append("ArchivedLogsOnly: ").append(getArchivedLogsOnly()).append(","); if (getAsmPassword() != null) sb.append("AsmPassword: ").append("***Sensitive Data Redacted***").append(","); if (getAsmServer() != null) sb.append("AsmServer: ").append(getAsmServer()).append(","); if (getAsmUser() != null) sb.append("AsmUser: ").append(getAsmUser()).append(","); if (getCharLengthSemantics() != null) sb.append("CharLengthSemantics: ").append(getCharLengthSemantics()).append(","); if (getDatabaseName() != null) sb.append("DatabaseName: ").append(getDatabaseName()).append(","); if (getDirectPathParallelLoad() != null) sb.append("DirectPathParallelLoad: ").append(getDirectPathParallelLoad()).append(","); if (getFailTasksOnLobTruncation() != null) sb.append("FailTasksOnLobTruncation: ").append(getFailTasksOnLobTruncation()).append(","); if (getNumberDatatypeScale() != null) sb.append("NumberDatatypeScale: ").append(getNumberDatatypeScale()).append(","); if (getPassword() != null) sb.append("Password: ").append("***Sensitive Data Redacted***").append(","); if (getPort() != null) sb.append("Port: ").append(getPort()).append(","); if (getReadTableSpaceName() != null) sb.append("ReadTableSpaceName: ").append(getReadTableSpaceName()).append(","); if (getRetryInterval() != null) sb.append("RetryInterval: ").append(getRetryInterval()).append(","); if (getSecurityDbEncryption() != null) sb.append("SecurityDbEncryption: ").append("***Sensitive Data Redacted***").append(","); if (getSecurityDbEncryptionName() != null) sb.append("SecurityDbEncryptionName: ").append(getSecurityDbEncryptionName()).append(","); if (getServerName() != null) sb.append("ServerName: ").append(getServerName()).append(","); if (getSpatialDataOptionToGeoJsonFunctionName() != null) sb.append("SpatialDataOptionToGeoJsonFunctionName: ").append(getSpatialDataOptionToGeoJsonFunctionName()).append(","); if (getStandbyDelayTime() != null) sb.append("StandbyDelayTime: ").append(getStandbyDelayTime()).append(","); if (getUsername() != null) sb.append("Username: ").append(getUsername()).append(","); if (getUseBFile() != null) sb.append("UseBFile: ").append(getUseBFile()).append(","); if (getUseDirectPathFullLoad() != null) sb.append("UseDirectPathFullLoad: ").append(getUseDirectPathFullLoad()).append(","); if (getUseLogminerReader() != null) sb.append("UseLogminerReader: ").append(getUseLogminerReader()).append(","); if (getSecretsManagerAccessRoleArn() != null) sb.append("SecretsManagerAccessRoleArn: ").append(getSecretsManagerAccessRoleArn()).append(","); if (getSecretsManagerSecretId() != null) sb.append("SecretsManagerSecretId: ").append(getSecretsManagerSecretId()).append(","); if (getSecretsManagerOracleAsmAccessRoleArn() != null) sb.append("SecretsManagerOracleAsmAccessRoleArn: ").append(getSecretsManagerOracleAsmAccessRoleArn()).append(","); if (getSecretsManagerOracleAsmSecretId() != null) sb.append("SecretsManagerOracleAsmSecretId: ").append(getSecretsManagerOracleAsmSecretId()).append(","); if (getTrimSpaceInChar() != null) sb.append("TrimSpaceInChar: ").append(getTrimSpaceInChar()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof OracleSettings == false) return false; OracleSettings other = (OracleSettings) obj; if (other.getAddSupplementalLogging() == null ^ this.getAddSupplementalLogging() == null) return false; if (other.getAddSupplementalLogging() != null && other.getAddSupplementalLogging().equals(this.getAddSupplementalLogging()) == false) return false; if (other.getArchivedLogDestId() == null ^ this.getArchivedLogDestId() == null) return false; if (other.getArchivedLogDestId() != null && other.getArchivedLogDestId().equals(this.getArchivedLogDestId()) == false) return false; if (other.getAdditionalArchivedLogDestId() == null ^ this.getAdditionalArchivedLogDestId() == null) return false; if (other.getAdditionalArchivedLogDestId() != null && other.getAdditionalArchivedLogDestId().equals(this.getAdditionalArchivedLogDestId()) == false) return false; if (other.getExtraArchivedLogDestIds() == null ^ this.getExtraArchivedLogDestIds() == null) return false; if (other.getExtraArchivedLogDestIds() != null && other.getExtraArchivedLogDestIds().equals(this.getExtraArchivedLogDestIds()) == false) return false; if (other.getAllowSelectNestedTables() == null ^ this.getAllowSelectNestedTables() == null) return false; if (other.getAllowSelectNestedTables() != null && other.getAllowSelectNestedTables().equals(this.getAllowSelectNestedTables()) == false) return false; if (other.getParallelAsmReadThreads() == null ^ this.getParallelAsmReadThreads() == null) return false; if (other.getParallelAsmReadThreads() != null && other.getParallelAsmReadThreads().equals(this.getParallelAsmReadThreads()) == false) return false; if (other.getReadAheadBlocks() == null ^ this.getReadAheadBlocks() == null) return false; if (other.getReadAheadBlocks() != null && other.getReadAheadBlocks().equals(this.getReadAheadBlocks()) == false) return false; if (other.getAccessAlternateDirectly() == null ^ this.getAccessAlternateDirectly() == null) return false; if (other.getAccessAlternateDirectly() != null && other.getAccessAlternateDirectly().equals(this.getAccessAlternateDirectly()) == false) return false; if (other.getUseAlternateFolderForOnline() == null ^ this.getUseAlternateFolderForOnline() == null) return false; if (other.getUseAlternateFolderForOnline() != null && other.getUseAlternateFolderForOnline().equals(this.getUseAlternateFolderForOnline()) == false) return false; if (other.getOraclePathPrefix() == null ^ this.getOraclePathPrefix() == null) return false; if (other.getOraclePathPrefix() != null && other.getOraclePathPrefix().equals(this.getOraclePathPrefix()) == false) return false; if (other.getUsePathPrefix() == null ^ this.getUsePathPrefix() == null) return false; if (other.getUsePathPrefix() != null && other.getUsePathPrefix().equals(this.getUsePathPrefix()) == false) return false; if (other.getReplacePathPrefix() == null ^ this.getReplacePathPrefix() == null) return false; if (other.getReplacePathPrefix() != null && other.getReplacePathPrefix().equals(this.getReplacePathPrefix()) == false) return false; if (other.getEnableHomogenousTablespace() == null ^ this.getEnableHomogenousTablespace() == null) return false; if (other.getEnableHomogenousTablespace() != null && other.getEnableHomogenousTablespace().equals(this.getEnableHomogenousTablespace()) == false) return false; if (other.getDirectPathNoLog() == null ^ this.getDirectPathNoLog() == null) return false; if (other.getDirectPathNoLog() != null && other.getDirectPathNoLog().equals(this.getDirectPathNoLog()) == false) return false; if (other.getArchivedLogsOnly() == null ^ this.getArchivedLogsOnly() == null) return false; if (other.getArchivedLogsOnly() != null && other.getArchivedLogsOnly().equals(this.getArchivedLogsOnly()) == false) return false; if (other.getAsmPassword() == null ^ this.getAsmPassword() == null) return false; if (other.getAsmPassword() != null && other.getAsmPassword().equals(this.getAsmPassword()) == false) return false; if (other.getAsmServer() == null ^ this.getAsmServer() == null) return false; if (other.getAsmServer() != null && other.getAsmServer().equals(this.getAsmServer()) == false) return false; if (other.getAsmUser() == null ^ this.getAsmUser() == null) return false; if (other.getAsmUser() != null && other.getAsmUser().equals(this.getAsmUser()) == false) return false; if (other.getCharLengthSemantics() == null ^ this.getCharLengthSemantics() == null) return false; if (other.getCharLengthSemantics() != null && other.getCharLengthSemantics().equals(this.getCharLengthSemantics()) == false) return false; if (other.getDatabaseName() == null ^ this.getDatabaseName() == null) return false; if (other.getDatabaseName() != null && other.getDatabaseName().equals(this.getDatabaseName()) == false) return false; if (other.getDirectPathParallelLoad() == null ^ this.getDirectPathParallelLoad() == null) return false; if (other.getDirectPathParallelLoad() != null && other.getDirectPathParallelLoad().equals(this.getDirectPathParallelLoad()) == false) return false; if (other.getFailTasksOnLobTruncation() == null ^ this.getFailTasksOnLobTruncation() == null) return false; if (other.getFailTasksOnLobTruncation() != null && other.getFailTasksOnLobTruncation().equals(this.getFailTasksOnLobTruncation()) == false) return false; if (other.getNumberDatatypeScale() == null ^ this.getNumberDatatypeScale() == null) return false; if (other.getNumberDatatypeScale() != null && other.getNumberDatatypeScale().equals(this.getNumberDatatypeScale()) == false) return false; if (other.getPassword() == null ^ this.getPassword() == null) return false; if (other.getPassword() != null && other.getPassword().equals(this.getPassword()) == false) return false; if (other.getPort() == null ^ this.getPort() == null) return false; if (other.getPort() != null && other.getPort().equals(this.getPort()) == false) return false; if (other.getReadTableSpaceName() == null ^ this.getReadTableSpaceName() == null) return false; if (other.getReadTableSpaceName() != null && other.getReadTableSpaceName().equals(this.getReadTableSpaceName()) == false) return false; if (other.getRetryInterval() == null ^ this.getRetryInterval() == null) return false; if (other.getRetryInterval() != null && other.getRetryInterval().equals(this.getRetryInterval()) == false) return false; if (other.getSecurityDbEncryption() == null ^ this.getSecurityDbEncryption() == null) return false; if (other.getSecurityDbEncryption() != null && other.getSecurityDbEncryption().equals(this.getSecurityDbEncryption()) == false) return false; if (other.getSecurityDbEncryptionName() == null ^ this.getSecurityDbEncryptionName() == null) return false; if (other.getSecurityDbEncryptionName() != null && other.getSecurityDbEncryptionName().equals(this.getSecurityDbEncryptionName()) == false) return false; if (other.getServerName() == null ^ this.getServerName() == null) return false; if (other.getServerName() != null && other.getServerName().equals(this.getServerName()) == false) return false; if (other.getSpatialDataOptionToGeoJsonFunctionName() == null ^ this.getSpatialDataOptionToGeoJsonFunctionName() == null) return false; if (other.getSpatialDataOptionToGeoJsonFunctionName() != null && other.getSpatialDataOptionToGeoJsonFunctionName().equals(this.getSpatialDataOptionToGeoJsonFunctionName()) == false) return false; if (other.getStandbyDelayTime() == null ^ this.getStandbyDelayTime() == null) return false; if (other.getStandbyDelayTime() != null && other.getStandbyDelayTime().equals(this.getStandbyDelayTime()) == false) return false; if (other.getUsername() == null ^ this.getUsername() == null) return false; if (other.getUsername() != null && other.getUsername().equals(this.getUsername()) == false) return false; if (other.getUseBFile() == null ^ this.getUseBFile() == null) return false; if (other.getUseBFile() != null && other.getUseBFile().equals(this.getUseBFile()) == false) return false; if (other.getUseDirectPathFullLoad() == null ^ this.getUseDirectPathFullLoad() == null) return false; if (other.getUseDirectPathFullLoad() != null && other.getUseDirectPathFullLoad().equals(this.getUseDirectPathFullLoad()) == false) return false; if (other.getUseLogminerReader() == null ^ this.getUseLogminerReader() == null) return false; if (other.getUseLogminerReader() != null && other.getUseLogminerReader().equals(this.getUseLogminerReader()) == false) return false; if (other.getSecretsManagerAccessRoleArn() == null ^ this.getSecretsManagerAccessRoleArn() == null) return false; if (other.getSecretsManagerAccessRoleArn() != null && other.getSecretsManagerAccessRoleArn().equals(this.getSecretsManagerAccessRoleArn()) == false) return false; if (other.getSecretsManagerSecretId() == null ^ this.getSecretsManagerSecretId() == null) return false; if (other.getSecretsManagerSecretId() != null && other.getSecretsManagerSecretId().equals(this.getSecretsManagerSecretId()) == false) return false; if (other.getSecretsManagerOracleAsmAccessRoleArn() == null ^ this.getSecretsManagerOracleAsmAccessRoleArn() == null) return false; if (other.getSecretsManagerOracleAsmAccessRoleArn() != null && other.getSecretsManagerOracleAsmAccessRoleArn().equals(this.getSecretsManagerOracleAsmAccessRoleArn()) == false) return false; if (other.getSecretsManagerOracleAsmSecretId() == null ^ this.getSecretsManagerOracleAsmSecretId() == null) return false; if (other.getSecretsManagerOracleAsmSecretId() != null && other.getSecretsManagerOracleAsmSecretId().equals(this.getSecretsManagerOracleAsmSecretId()) == false) return false; if (other.getTrimSpaceInChar() == null ^ this.getTrimSpaceInChar() == null) return false; if (other.getTrimSpaceInChar() != null && other.getTrimSpaceInChar().equals(this.getTrimSpaceInChar()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getAddSupplementalLogging() == null) ? 0 : getAddSupplementalLogging().hashCode()); hashCode = prime * hashCode + ((getArchivedLogDestId() == null) ? 0 : getArchivedLogDestId().hashCode()); hashCode = prime * hashCode + ((getAdditionalArchivedLogDestId() == null) ? 0 : getAdditionalArchivedLogDestId().hashCode()); hashCode = prime * hashCode + ((getExtraArchivedLogDestIds() == null) ? 0 : getExtraArchivedLogDestIds().hashCode()); hashCode = prime * hashCode + ((getAllowSelectNestedTables() == null) ? 0 : getAllowSelectNestedTables().hashCode()); hashCode = prime * hashCode + ((getParallelAsmReadThreads() == null) ? 0 : getParallelAsmReadThreads().hashCode()); hashCode = prime * hashCode + ((getReadAheadBlocks() == null) ? 0 : getReadAheadBlocks().hashCode()); hashCode = prime * hashCode + ((getAccessAlternateDirectly() == null) ? 0 : getAccessAlternateDirectly().hashCode()); hashCode = prime * hashCode + ((getUseAlternateFolderForOnline() == null) ? 0 : getUseAlternateFolderForOnline().hashCode()); hashCode = prime * hashCode + ((getOraclePathPrefix() == null) ? 0 : getOraclePathPrefix().hashCode()); hashCode = prime * hashCode + ((getUsePathPrefix() == null) ? 0 : getUsePathPrefix().hashCode()); hashCode = prime * hashCode + ((getReplacePathPrefix() == null) ? 0 : getReplacePathPrefix().hashCode()); hashCode = prime * hashCode + ((getEnableHomogenousTablespace() == null) ? 0 : getEnableHomogenousTablespace().hashCode()); hashCode = prime * hashCode + ((getDirectPathNoLog() == null) ? 0 : getDirectPathNoLog().hashCode()); hashCode = prime * hashCode + ((getArchivedLogsOnly() == null) ? 0 : getArchivedLogsOnly().hashCode()); hashCode = prime * hashCode + ((getAsmPassword() == null) ? 0 : getAsmPassword().hashCode()); hashCode = prime * hashCode + ((getAsmServer() == null) ? 0 : getAsmServer().hashCode()); hashCode = prime * hashCode + ((getAsmUser() == null) ? 0 : getAsmUser().hashCode()); hashCode = prime * hashCode + ((getCharLengthSemantics() == null) ? 0 : getCharLengthSemantics().hashCode()); hashCode = prime * hashCode + ((getDatabaseName() == null) ? 0 : getDatabaseName().hashCode()); hashCode = prime * hashCode + ((getDirectPathParallelLoad() == null) ? 0 : getDirectPathParallelLoad().hashCode()); hashCode = prime * hashCode + ((getFailTasksOnLobTruncation() == null) ? 0 : getFailTasksOnLobTruncation().hashCode()); hashCode = prime * hashCode + ((getNumberDatatypeScale() == null) ? 0 : getNumberDatatypeScale().hashCode()); hashCode = prime * hashCode + ((getPassword() == null) ? 0 : getPassword().hashCode()); hashCode = prime * hashCode + ((getPort() == null) ? 0 : getPort().hashCode()); hashCode = prime * hashCode + ((getReadTableSpaceName() == null) ? 0 : getReadTableSpaceName().hashCode()); hashCode = prime * hashCode + ((getRetryInterval() == null) ? 0 : getRetryInterval().hashCode()); hashCode = prime * hashCode + ((getSecurityDbEncryption() == null) ? 0 : getSecurityDbEncryption().hashCode()); hashCode = prime * hashCode + ((getSecurityDbEncryptionName() == null) ? 0 : getSecurityDbEncryptionName().hashCode()); hashCode = prime * hashCode + ((getServerName() == null) ? 0 : getServerName().hashCode()); hashCode = prime * hashCode + ((getSpatialDataOptionToGeoJsonFunctionName() == null) ? 0 : getSpatialDataOptionToGeoJsonFunctionName().hashCode()); hashCode = prime * hashCode + ((getStandbyDelayTime() == null) ? 0 : getStandbyDelayTime().hashCode()); hashCode = prime * hashCode + ((getUsername() == null) ? 0 : getUsername().hashCode()); hashCode = prime * hashCode + ((getUseBFile() == null) ? 0 : getUseBFile().hashCode()); hashCode = prime * hashCode + ((getUseDirectPathFullLoad() == null) ? 0 : getUseDirectPathFullLoad().hashCode()); hashCode = prime * hashCode + ((getUseLogminerReader() == null) ? 0 : getUseLogminerReader().hashCode()); hashCode = prime * hashCode + ((getSecretsManagerAccessRoleArn() == null) ? 0 : getSecretsManagerAccessRoleArn().hashCode()); hashCode = prime * hashCode + ((getSecretsManagerSecretId() == null) ? 0 : getSecretsManagerSecretId().hashCode()); hashCode = prime * hashCode + ((getSecretsManagerOracleAsmAccessRoleArn() == null) ? 0 : getSecretsManagerOracleAsmAccessRoleArn().hashCode()); hashCode = prime * hashCode + ((getSecretsManagerOracleAsmSecretId() == null) ? 0 : getSecretsManagerOracleAsmSecretId().hashCode()); hashCode = prime * hashCode + ((getTrimSpaceInChar() == null) ? 0 : getTrimSpaceInChar().hashCode()); return hashCode; } @Override public OracleSettings clone() { try { return (OracleSettings) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } @com.amazonaws.annotation.SdkInternalApi @Override public void marshall(ProtocolMarshaller protocolMarshaller) { com.amazonaws.services.databasemigrationservice.model.transform.OracleSettingsMarshaller.getInstance().marshall(this, protocolMarshaller); } }




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