Chatta subito con l'assistenza
Chat con il supporto

NetVault Plug-in for MySQL 13.2 - User Guide

Introducing NetVault Plug-in for MySQL Installing and removing the plug-in Configuring the plug-in Backing up data Restoring data
Restoring data: an overview Restoring data Using advanced restore procedures for MySQL Standard/Community
Working with native MySQL replication Using the plug-in in a Failover Cluster environment Troubleshooting

Finalizing and submitting the job

The final steps include setting additional options on the Schedule, Source Options, and Advanced Options pages, submitting the job, and monitoring the progress through the Job Status and View Logs pages. These pages and options are common to all NetVault Backup Plug-ins. For more information, see the Quest NetVault Backup Administrator’s Guide.

1
To save the settings, click Ok, and then click Next.
2
In Job Name, specify a name for the job if you do not want to use the default setting.
3
In the Target Client list, select the machine on which you want to restore the data.
TIP: You can also click Choose, and then locate and select the applicable client in the Choose the Target Client dialog box.
4
Use the Schedule, Source Options, and Advanced Options lists to configure any additional required options.
5
Click Save or Save & Submit, whichever is applicable.
You can monitor progress on the Job Status page and view the logs on the View Logs page. For more information, see the Quest NetVault Backup Administrator’s Guide.

Examples of restore scenarios for MySQL Standard/Community

To recover successfully from a failure or data corruption, various settings must be made when setting up the job regarding data selected for restore and options available on the Options tab. The following topics offer examples of various types of recovery and cover the specific options required.

Full Backup only restore scenarios

In the following examples, the MySQL DBA has established a backup policy in which Full Backups are performed daily at 11:00 P.M.

On Monday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Monday before the DBA’s arrival at work.

Method 1: Recovery before erroneous statement

The DBA decides to recover up to the time right before the Drop Table command was issued. This decision means that the DBA must restore the Sunday’s Full Backup, and perform PIT Recovery on the current Binary Logs.

1
Select the Full Restore from Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery on Current Binary Logs: Selected to enable this form of restore and all associated options.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “5:59” and “8 Jan 2007”; that is, one minute before 6:00 A.M. on Monday.
Method 2: Recovery before and after erroneous statement

The DBA decides to recover up to the time right before the Drop Table command was issued. The DBA also wants to recover the transactions that occurred to the remaining tables from the time after the erroneous statement was issued, and up until the end of the current Binary Logs. This decision ensures that he has recovered as many of the transactions as feasible, in addition to recovering the dropped table.

1
Select the Full Restore from Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery on Current Binary Logs: Selected to enable this form of restore all associated options.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “5:59” and “8 Jan 2007”; that is, one minute before 6:00 A.M. on Monday.
Enable Recovery After Erroneous/Bad SQL Statements: Selected to recover transactions that occurred after the Order table was dropped, and entered a later time and date in the Start Date/Time. Finally, because the recovery is to be performed to the end of the named Binary Log, the None option was selected for the Stop Date/Time.

On Monday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Monday before the DBA’s arrival at work.

Method 1: Recovery before erroneous statement

The DBA decides to recover up to the time right before the Drop Table command was issued. Furthermore, because the DBA wants a more precise recovery than estimating the time at which the developer dropped the table, the DBA chooses to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and perform a PIT Recovery on the current Binary Logs.

1
Use the mysqlbinlog utility against the current Binary Logs: This step is performed outside of NetVault Backup to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the “MYSQLSVR-bin.000009” Binary Log.
2
Select the Full Restore from Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
3
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery on Current Binary Logs: Selected to enable this form of restore and all associated options.
Position Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position before the one identified using mysqlbinlog. Set Binary Log Containing Stop Position to OTHER FILE, and entered the name of the target binary file in the text box, for example, “MYSQLSVR-bin.000009.”
IMPORTANT: Stop and Start positions must be actual positions listed in a Binary Log, not arbitrary numbers that are greater than the position of the unwanted transaction.
Method 2: Recovery before and after erroneous statement

The DBA decides to recover up to the time right before the Drop Table command was issued. The DBA also wants to recover the transactions that occurred to the remaining tables from the time after the Orders table was dropped, and up until the end of the current Binary Logs. This decision ensures that he has recovered as many of the transactions as feasible, in addition to recovering the dropped table. Furthermore, the DBA wants a more precise recovery, so he decides to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and perform a PIT Recovery on the current Binary Logs.

1
Use the mysqlbinlog utility against the current Binary Logs: This step is performed outside of NetVault Backup to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the “MYSQLSVR-PM-bin.000009” Binary Log.
2
Select the Full Restore from Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
3
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery on Current Binary Logs: Selected to enable this form of restore and all associated options.
Position Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position before the one identified using mysqlbinlog. Set Binary Log Containing Stop Position to OTHER FILE, and entered the name of the target binary file in the text box, for example, “MYSQLSVR-PM-bin.000009.”
Enable Recovery After to Erroneous/Bad SQL Statement(s): Selected this option, and set the Start Position to “806,” the position after the one identified using mysqlbinlog. Set Binary Log Containing Start Position to OTHER FILE, and entered the name of the target binary file in the text box, for example, “MYSQLSVR-bin.000009.” Finally, because the recovery is to be performed to the end of the named Binary Log, the None option was selected for the Stop Position.
IMPORTANT: Stop and Start positions must be actual positions listed in a Binary Log, not arbitrary numbers that are greater than the position of the unwanted transaction.

Full and Incremental Backup restore scenarios

The DBA has established a backup policy in which Full Backups are performed every Sunday at 11:00 P.M. and Incremental Backups are performed Monday through Saturday, at 11:00 P.M. Because the DBA is performing Incremental Backups, the Binary Logs are deleted after each Incremental Backup. This process makes the overall backup faster, but requires more time and steps when performing the restore.

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors for the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped the table sometime early Thursday, before the DBA’s arrival at work.

The DBA decides to perform a complete recovery up to the point of the last Incremental Backup — the backup performed on Wednesday night.

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2
1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2

In the following examples, a Full and Incremental Backup scenario is in place, and the DBA wants to recover data to a specific time.

Method 1: Recovery before erroneous statement using restored Binary Logs only

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 8:00 P.M. on Wednesday.

The DBA must perform a recovery that restores the database up to the time right before the developer dropped the table at 8:00 P.M. on Wednesday. Therefore, the following phases would be performed:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2
1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to specify PIT Recovery and enable all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to specify the Binary Log included in the backup for use.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “19:59” and “10 Jan 2007,” that is, one minute before 8:00 P.M. on Wednesday.
Method 2: Recovery before and after erroneous statement using restored Binary Logs only

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 8:00 P.M. on Wednesday.

The DBA decides to recover up to the time right before the Drop Table command was issued at 8:00 P.M. The DBA also wants to recover the transactions that occurred to the remaining tables from the time after the Orders table was dropped, and up until the end of the backed-up Binary Logs. This decision ensures that he has recovered as many of the transactions as feasible, in addition to recovering the dropped table. Therefore, the following phases would be performed:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2
1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to specify PIT Recovery and enable all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to specify the Binary Log included in the backup for use.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “19:59” and “10 Jan 2007,” that is, one minute before 8:00 P.M. on Wednesday.
Enable Recovery After Erroneous/Bad SQL Statements: Selected to recover transactions that occurred after the Order table was dropped, entered a later time and date in the Start Date/Time. Finally, because the recovery is to be performed to the end of the Binary Log included in the backup, the None option was selected for the Stop Date/Time.
Method 3: Recovery before erroneous statement using restored and current Binary Logs

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Thursday.

The DBA must perform a recovery that restores the database up to the time right before the developer dropped the table at 6:00 A.M. on Thursday.

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2
1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to specify PIT Recovery and enable all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to indicate that the Binary Log included in the backup is to be used.
Include Current Binary Logs: Selected to use the current Binary Logs to apply entries that occurred between the time the backup was completed on Wednesday, and the issuance of the Drop Table command.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “05:59” and “11 Jan 2007,” that is, one minute before 6:00 A.M. on Thursday.
Method 4: Recovery before and after erroneous statement using restored and current Binary Logs

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Thursday.

The DBA decides to recover up to the time right before the Drop Table command was issued. The DBA also wants to recover the transactions that occurred to the remaining tables from the time after the Orders table was dropped, and up until the end of the current Binary Logs. This decision ensures that he has recovered as many of the transactions as feasible, in addition to recovering the dropped table. Therefore, the following phases would be performed:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2
1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to specify PIT Recovery and enable all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to indicate that the Binary Log included in the backup is to be used.
Include Current Binary Logs: Selected to use the current Binary Logs to apply entries that occurred between the time the backup was completed on Wednesday, and the issuance of the Drop Table command.
Time Based PIT: Selected as the type.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Date/Time to “05:59” and “11 Jan 2007,” that is, one minute before 6:00 A.M. on Thursday.
Enable Recovery After Erroneous/Bad SQL Statements: Selected to recover transactions that occurred after the Order table was dropped, entered a later time and date in the Start Date/Time. Finally, because the recovery is to be performed to the end of the current Binary Log, the None option was selected for the Stop Date/Time.

In the following examples, a Full and Incremental Backup scenario is in place, and the DBA wants to recover data to a specific time, but use a more definitive method to define the time. This recovery is done using identified “position values” that exist in the MySQL Binary Logs.

Method 1: Recovery before erroneous statement using restored Binary Logs only

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 8:00 P.M. on Wednesday.

The DBA decides to recover up to the time right before the Drop Table command was issued. Furthermore, the DBA wants a more precise recovery, so he decides to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and the subsequent Incrementals performed on Monday and Tuesday, and then perform a position-based PIT Recovery using Wednesday’s Incremental Backup. The following phases illustrate this process:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2

In this phase, only the Binary Logs recorded in Wednesday night’s Incremental Backup are restored to a temporary location. This process lets the DBA locate the specific position in the log that marks when the Orders table was dropped.

1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Restore Logs to Temporary Directory to Identify Time or Position: Selected to restore only the Binary Logs included in Wednesday night’s Incremental Backup.
Time Based PIT: Selected as the type, but left all options in the Time Based PIT Details section cleared.

Use the mysqlbinlog utility against the restored Binary Logs: This step is performed outside of NetVault Backup to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the “MYSQLSVR-bin.000009” Binary Log that was restored to the temporary location on the MySQL Server, and both values were noted.

With the position identified from the restored Binary Log, a PIT restore is then performed using the Wednesday’s Incremental Backup.

1
Select the Incremental Backup performed Wednesday night: The DBA again selects the backup saveset on the Create Restore Job — Choose Saveset page that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Apply Binary Logs from Temporary Directory: Selected to target the Binary Logs that were restored to the temporary location in the last phase of this procedure. Because the restored Binary Log was used to identify the specific position that the Drop Table command occupied, this option is selected to tell the plug-in to use this same Binary Log.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position in the Binary Logs that exists before the Drop Table command position identified using mysqlbinlog. The Binary Log Containing Stop Position option was used to select the Binary Log, “MYSQLSVR-bin.000009,” that was restored to the temporary directory.
Method 2: Recovery before and after erroneous statement using restored Binary Logs only

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors on the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 8:00 P.M. on Wednesday.

The DBA decides to recover up to the time right before the Drop Table command was issued. The DBA also wants to recover the transactions that occurred to the remaining tables from the time after the Orders table was dropped, and up until the end of the backed-up Binary Logs. Furthermore, the DBA wants a more precise recovery, so he decides to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and the subsequent Incrementals performed on Monday and Tuesday, and then perform a position-based PIT Recovery using Wednesday’s Incremental Backup. The following phases illustrate this process:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2

In this phase, only the Binary Logs recorded in Wednesday night’s Incremental Backup are restored to a temporary location. This step lets the DBA locate the specific position in the log that marks when the Orders table was dropped.

1
Select the Incremental Backup performed Wednesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Restore Logs to Temporary Directory to Identify Time or Position: Selected to restore only the Binary Logs included in Wednesday night’s Incremental Backup.
Time Based PIT: Selected as the type, but left all options in the Time Based PIT Details section cleared.

Use the mysqlbinlog utility against the restored Binary Logs: This step is performed outside of NetVault Backup to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the “MYSQLSVR-bin.000009” Binary Log that was restored to the temporary location on the MySQL Server, and both values were noted.

With the position identified from the restored Binary Logs, the PIT restore is then performed using Wednesday’s Incremental Backup.

1
Select the Incremental Backup performed Wednesday night: The DBA again selects the backup saveset on the Create Restore Job — Choose Saveset page that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Apply Binary Logs from Temporary Directory: Selected to target the Binary Logs that were restored to the temporary location in the last phase of this procedure. Because the restored Binary Log was used to identify the specific position that the Drop Table command occupied, this option is selected to tell the plug-in to use this same Binary Log.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position in the Binary Logs that exists before the Drop Table command position identified using mysqlbinlog. The Binary Log Containing Stop Position option was used to select the Binary Log, “MYSQLSVR-bin.000009,” that was restored to the temporary directory.
Enable Recovery After to Erroneous/Bad SQL Statement(s): Selected this option, and set the Start Position to “806,” the position in the Binary Logs that exists after the Drop Table command position identified using mysqlbinlog. The Binary Log Containing Stop Position option was used to select the Binary Log, “MYSQLSVR-bin.000009,” that was restored to the temporary directory. Finally, because the recovery is to be performed to the end of the named Binary Log, the None option was selected for the Stop Date/Time.
IMPORTANT: Stop and Start positions must be actual positions listed in a Binary Log, not arbitrary numbers that are greater than the position of the unwanted transaction.
Method 3: Recovery before erroneous statement using restored and current Binary Logs

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors for the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Thursday.

The DBA must perform a recovery that restores the database up to the time right before the developer dropped the table at 6:00 A.M. on Thursday. Furthermore, the DBA wants a more precise recovery, so he decides to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and the subsequent Incrementals performed on Monday and Tuesday, and then perform a position-based PIT Recovery using Wednesday’s Incremental Backup. The following phases illustrate this process:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2

Use the mysqlbinlog utility against the current Binary Logs: This step is performed outside of NetVault to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the current Binary Log, “MYSQLSVR-bin.000009.”

With the position identified from the restored Binary Logs, the PIT restore is then performed using Wednesday’s Incremental Backup.

1
Select the Incremental Backup performed Wednesday night: The DBA again selects the backup saveset on the Create Restore Job — Choose Saveset page that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to tell the plug-in to use the Binary Log included in the backup.
Include Current Binary Logs: Selected to tell NetVault to use the current Binary Logs to apply all database transactions that occurred after Wednesday night’s Incremental Backup. This step recovers all transactions that occurred between the completion of the Incremental Backup on Wednesday night, and the time the Drop Table command was issued.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position in the current Binary Log that exists before the Drop Table command position identified using mysqlbinlog. Set Binary Log Containing Stop Position to OTHER FILE, and entered the name of the current binary file in the text box, for example, “MYSQLSVR-bin.000009.”
Method 4: Recovery before and after erroneous statement using restored and current Binary Logs

On Thursday at 9:00 A.M., the DBA learns that users are encountering “table not found” errors for the Orders table. The DBA then learns that the table no longer exists because a developer unknowingly dropped it at 6:00 A.M. on Thursday.

The DBA must perform a recovery that restores the database up to the time right before the developer dropped the table at 6:00 A.M. on Thursday. Furthermore, the DBA wants a more precise recovery, so he decides to use a position-based recovery. To accomplish this process, the DBA must restore Sunday’s Full Backup and the subsequent Incrementals performed on Monday and Tuesday, and then perform a position-based PIT Recovery using Wednesday’s Incremental Backup. The following phases illustrate this process:

1
Select the Full Backup performed Sunday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Sunday’s Full Backup.
2
1
Select the Incremental Backup performed Monday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Monday’s Incremental Backup.
2
1
Select the Incremental Backup performed Tuesday night: On the Create Restore Job — Choose Saveset page, the DBA selects the backup saveset that corresponds to Tuesday’s Incremental Backup.
2

Use the mysqlbinlog utility against the current Binary Logs: This step is performed outside of NetVault Backup to identify the position of the Drop Table command that the DBA does not want to restore. (For information about this utility and process, see the MySQL Reference Guide.) In this process, the DBA identified the Drop Table command as log position “805” in the current Binary Log, “MYSQLSVR-bin.000009.”

With the position identified from the restored Binary Logs, the PIT restore is then performed using Wednesday’s Incremental Backup.

1
Select the Incremental Backup performed Wednesday night: The DBA again selects the backup saveset on the Create Restore Job — Choose Saveset page that corresponds to Wednesday’s Incremental Backup.
2
Set specific options on the restore-related Options tab: The DBA sets the following options:
Perform PIT Recovery: Selected to enable this form of restore and all associated options.
Restore and Apply Binary Logs (Used when Time or Position is already known): Selected to tell the plug-in to use the Binary Log included in the backup.
Include Current Binary Logs: Selected to tell NetVault Backup to use the current Binary Logs to apply all database transactions that occurred after Wednesday night’s Incremental Backup. This step recovers all transactions that occurred between the completion of the Incremental Backup on Wednesday night, and the time the Drop Table command was issued.
Enable Recovery Prior to Erroneous/Bad SQL Statement(s): Selected this option, and set the Stop Position to “804,” the position in the current Binary Log that exists before the Drop Table command position identified using mysqlbinlog. Set Binary Log Containing Stop Position to OTHER FILE, and entered the name of the current binary file in the text box, for example, “MYSQLSVR-bin.000009.”
Enable Recovery After to Erroneous/Bad SQL Statement(s): Selected this option, and set the Start Position to “806,” the position in the current Binary Log that exists after the Drop Table command position that was identified using mysqlbinlog. Set Binary Log Containing Stop Position to OTHER FILE, and entered the name of the current binary file in the text box, for example, “MYSQLSVR-bin.000009.” Finally, because the recovery is to be performed to the end of the current Binary Log, the None option was selected for the Stop Position.
IMPORTANT: Stop and Start positions must be actual positions listed in a Binary Log, not arbitrary numbers that are greater than the position of the unwanted transaction.
Related Documents

The document was helpful.

Seleziona valutazione

I easily found the information I needed.

Seleziona valutazione