Patent application number | Description | Published |
20090019545 | COMPUTER SECURITY METHOD AND SYSTEM WITH INPUT PARAMETER VALIDATION - A security system, including a receiver for receiving a downloadable, a scanner, coupled with the receiver, for scanning the downloadable to identify suspicious computer operations therein, a code modifier, coupled with the scanner, for overwriting the suspicious computer operations with substitute computer operations, if at least one suspicious computer operation is identified by the scanner, and for appending monitoring program code to the downloadable thereby generating a modified downloadable, if at least one suspicious computer operation is identified by the scanner, and a processor, coupled with the code modifier, for executing programmed instructions, wherein the monitoring program code includes program instructions for the processor to validate input parameters for the suspicious computer operations during run-time of the downloadable. A method is also described and claimed. | 01-15-2009 |
20120144485 | COMPUTER SECURITY METHOD AND SYSTEM WITH INPUT PARAMETER VALIDATION - A security system, including a receiver for receiving a downloadable, a scanner, coupled with the receiver, for scanning the downloadable to identify suspicious computer operations therein, a code modifier, coupled with the scanner, for overwriting the suspicious computer operations with substitute computer operations, if at least one suspicious computer operation is identified by the scanner, and for appending monitoring program code to the downloadable thereby generating a modified downloadable, if at least one suspicious computer operation is identified by the scanner, and a processor, coupled with the code modifier, for executing programmed instructions, wherein the monitoring program code includes program instructions for the processor to validate input parameters for the suspicious computer operations during run-time of the downloadable. A method is also described and claimed. | 06-07-2012 |
Patent application number | Description | Published |
20110289290 | SPACE RESERVATION IN A DEDUPLICATION SYSTEM - Various embodiments for space reservation in a deduplication system are provided. A calculated factoring ratio is determined as a weighted ratio of current nominal data to physical data based on at least one storage capacity threshold and a used storage space currently physically consumed by one of backup and replication data. A maximal nominal estimated space in the computing storage environment is calculated. A remaining space, defined as the maximal nominal estimated space minus a current nominal space in the computing storage environment, is calculated. If the remaining space is one of equal and less than a user-configured reservation space for backup operations, data replication operations are accepted and stored in the computing storage environment. | 11-24-2011 |
20120047338 | SWITCHING VISIBILITY BETWEEN VIRTUAL DATA STORAGE ENTITIES - Various embodiments for switching visibility between virtual data storage entities in a data storage environment using a processor device are provided. Visibility of a data storage entity on a first storage system is switched to a replicated data storage entity on a second storage system. Data from the data storage entity is replicated from the first storage system to the second storage system using a common serial number. The data storage entity is hidden from the first storage system by concealing the common serial number. An ejection of the data storage entity from the first storage system is automated, and the replicated data storage entity is introduced to the second storage system. | 02-23-2012 |
20120047392 | DISASTER RECOVERY REPLICATION THROTTLING IN DEDUPLICATION SYSTEMS - Various embodiments for disaster recovery (DR) replication throttling in a computing environment by a processor device are provided. Communication is arrested between a source data entity and a replicated data entity at a location declared in a DR mode. The DR mode is negotiated to a central replication management component as a DR mode entry event. The DR mode entry event is distributed, by the central replication management component, to each member in a shared group. The DR mode is enforced using at least one replication policy. | 02-23-2012 |
20120089866 | DISASTER RECOVERY PRODUCTION TAKEOVER - Various embodiments for disaster recovery (DR) production takeover in a computing environment by a processor device are provided. If, for a designated storage system operable in the computing environment, a takeover operation may be executed, and a DR storage system has validly replaced the designated storage system using a replacement process, a withdrawal of a DR mode of operation is performed, and ownership of at least one storage device operable in the computing environment is transferred to the DR storage system. The replacement process authorizes the DR storage system to transfer the ownership while withdrawn from the DR mode of operation. | 04-12-2012 |
20120096306 | DISASTER RECOVERY FAILBACK - Various embodiments for disaster recovery (DR) failback in a computing environment by a processor device are provided. Pursuant to execution of a predetermined failback policy, if a storage device is not preexistent in a source storage system operable in the computing environment, and an owner of the storage device is one of a DR storage system and a storage system having previously withdrawn from a replication grid, and the DR storage system has authorization to transfer ownership of the storage device by a replacement operation, an instance of the storage device is replicated to the source storage system to generate a replicated instance of the storage device on the source storage system, and ownership of the storage device is designated as the source storage system for each of the instance and the replicated instance of the storage device. | 04-19-2012 |
20120144149 | CAPACITY MANAGEMENT IN DEDUPLICATION STORAGE SYSTEMS - Various embodiments for capacity management in a deduplication computing storage environment by a processor device are provided. A deduplication storage capacity is estimated as a function of an expected deduplication ratio, the expected deduplication ratio being a combined average of a current deduplication ratio and a configured deduplication ratio, the current deduplication ratio depending on the data currently stored in the deduplication storage, and the configured deduplication ratio being an estimate made at a configuration stage of the deduplication computing storage environment. | 06-07-2012 |
20120221818 | SPACE RESERVATION IN A DEDUPLICATION SYSTEM - A calculated factoring ratio is determined as a weighted ratio of current nominal data to physical data based on at least one storage capacity threshold and a used storage space currently physically consumed by one of backup and replication data. A maximal nominal estimated space in the computing storage environment is calculated. A remaining space, defined as the maximal nominal estimated space minus a current nominal space in the computing storage environment, is calculated. If the remaining space is one of equal and less than a user-configured reservation space for backup operations, data replication operations are accepted and stored in the computing storage environment. | 08-30-2012 |
20120221820 | SWITCHING VISIBILITY BETWEEN VIRTUAL DATA STORAGE ENTITIES - Visibility of a data storage entity on a first storage system is switched to a replicated data storage entity on a second storage system. Data from the data storage entity is replicated from the first storage system to the second storage system using a common serial number. The data storage entity is hidden from the first storage system by concealing the common serial number. An ejection of the data storage entity from the first storage system is automated, and the replicated data storage entity is introduced to the second storage system. | 08-30-2012 |
20120226937 | DISASTER RECOVERY REPLICATION THROTTLING IN DEDUPLICATION SYSTEMS - Communication is arrested between a source data entity and a replicated data entity at a location declared in a DR mode. The DR mode is negotiated to a central replication management component as a DR mode entry event. The DR mode entry event is distributed, by the central replication management component, to each member in a shared group. The DR mode is enforced using at least one replication policy. | 09-06-2012 |
20120239974 | DISASTER RECOVERY FAILBACK - Pursuant to execution of a predetermined failback policy, if a storage device is not preexistent in a source storage system operable in the computing environment, and an owner of the storage device is one of a DR storage system and a storage system having previously withdrawn from a replication grid, and the DR storage system has authorization to transfer ownership of the storage device by a replacement operation, an instance of the storage device is replicated to the source storage system to generate a replicated instance of the storage device on the source storage system, and ownership of the storage device is designated as the source storage system for each of the instance and the replicated instance of the storage device. | 09-20-2012 |
20120246438 | CAPACITY MANAGEMENT IN DEDUPLICATION STORAGE SYSTEMS - A deduplication storage capacity is estimated as a function of an expected deduplication ratio, the expected deduplication ratio being a combined average of a current deduplication ratio and a configured deduplication ratio, the current deduplication ratio depending on the data currently stored in the deduplication storage, and the configured deduplication ratio being an estimate made at a configuration stage of the deduplication computing storage environment. | 09-27-2012 |
20120284555 | OPTIMIZING DISASTER RECOVERY SYSTEMS DURING TAKEOVER OPERATIONS - Exemplary method, system, and computer program product embodiments for optimizing disaster recovery systems during takeover operations are provided. In one embodiment, by way of example only, a flag is set in a replication grid manager to identify replication grid members to consult in a reconciliation process for resolving intersecting and non-intersecting data amongst the disaster recovery systems for a takeover operation. The replication grid members are consulted for the takeover operation to accommodate a coordination of an ownership synchronization process for cartridges not distributed on-time to the replication grid members. Additional system and computer program product embodiments are disclosed and provide related advantages. | 11-08-2012 |
20120284556 | COORDINATED DISASTER RECOVERY PRODUCTION TAKEOVER OPERATIONS - For coordinated disaster reovery, a reconciliation process is performed for resolving intersecting and non-intersecting data amongst disaster recovery systems for takeover operations. An ownership synchronization process is coordinated for replica cartridges via the reconciliation process at the disaster recovery systems. The disaster recovery systems continue as a replication target for source systems and as a backup target for local backup applications. | 11-08-2012 |
20120284559 | COORDINATED DISASTER RECOVERY PRODUCTION TAKEOVER OPERATIONS - For coordinated disaster recovery, a reconciliation process is performed for resolving intersecting and non-intersecting data amongst disaster recovery systems for takeover operations. An ownership synchronization process is coordinated for replica cartridges via the reconciliation process at the disaster recovery systems. The disaster recovery systems continue as a replication target for source systems and as a backup target for local backup applications. | 11-08-2012 |
20120290807 | CHANGING OWNERSHIP OF CARTRIDGES - Exemplary method, system, and computer program product embodiments for changing ownership of cartridges, such as virtual cartridges between remotely located virtual tape libraries, are provided. In one embodiment, by way of example only, processes and protocols for the changing ownership of the cartridges are controlled from a primary location to a secondary location. The production site is moved for the cartridges. The ownership of the cartridges is waived. Access is allowed to the cartridges. Additional data is written and replicated using resources of the cartridges. | 11-15-2012 |
20130166946 | DISASTER RECOVERY PRODUCTION TAKEOVER - Various embodiments for disaster recovery (DR) production takeover in a computing environment by a processor device are provided. If, for a designated storage system operable in the computing environment, a takeover operation may be executed, and a DR storage system has validly replaced the designated storage system using a replacement process, a withdrawal of a DR mode of operation is performed, and ownership of at least one storage device operable in the computing environment is transferred to the DR storage system. The replacement process authorizes the DR storage system to transfer the ownership while withdrawn from the DR mode of operation. | 06-27-2013 |
20130232111 | OPTIMIZING DISASTER RECOVERY SYSTEMS DURING TAKEOVER OPERATIONS - Exemplary method, system, and computer program product embodiments for optimizing disaster recovery systems during takeover operations are provided. In one embodiment, by way of example only, a flag is set in a replication grid manager to identify replication grid members to consult in a reconciliation process for resolving intersecting and non-intersecting data amongst the disaster recovery systems for a takeover operation. The replication grid members are consulted for the takeover operation to accommodate a coordination of an ownership synchronization process for cartridges not distributed on-time to the replication grid members. Additional system and computer program product embodiments are disclosed and provide related advantages. | 09-05-2013 |
20130232299 | CHANGING OWNERSHIP OF CARTRIDGES - Exemplary method, system, and computer program product embodiments for changing ownership of cartridges, such as virtual cartridges between remotely located virtual tape libraries, are provided. In one embodiment, by way of example only, processes and protocols for the changing ownership of the cartridges are controlled from a primary location to a secondary location. The production site is moved for the cartridges. The ownership of the cartridges is waived. Access is allowed to the cartridges. Additional data is written and replicated using resources of the cartridges. | 09-05-2013 |
20130297971 | DISASTER RECOVERY FAILBACK - Pursuant to execution of a predetermined failback policy, if a storage device is not preexistent in a source storage system operable in the computing environment, and an owner of the storage device is one of a DR storage system and a storage system having previously withdrawn from a replication grid, and the DR storage system has authorization to transfer ownership of the storage device by a replacement operation, and an instance of the storage device is replicated to the source storage system to generate a replicated instance of the storage device on the source storage system. | 11-07-2013 |
20140006735 | SPACE RESERVATION IN A DEDUPLICATION SYSTEM | 01-02-2014 |