Patent application number | Description | Published |
20100070725 | SYSTEMS AND METHODS FOR MANAGEMENT OF VIRTUALIZATION DATA - Described in detail herein is a method of copying data of one or more virtual machines being hosted by one or more non-virtual machines. The method includes receiving an indication that specifies how to perform a copy of data of one or more virtual machines hosted by one or more virtual machine hosts. The method may include determining whether the one or more virtual machines are managed by a virtual machine manager that manages or facilitates management of the virtual machines. If so, the virtual machine manager is dynamically queried to automatically determine the virtual machines that it manages or that it facilitates management of. If not, a virtual machine host is dynamically queried to automatically determine the virtual machines that it hosts. The data of each virtual machine is then copied according to the specifications of the received indication. | 03-18-2010 |
20100070726 | USING A SNAPSHOT AS A DATA SOURCE - A system and method for using a snapshot as a data source is described. In some cases, the system stores a snapshot and an associated data structure or index to storage media to create a secondary copy of a volume of data. In some cases, the associated index includes application specific data about a file system or other application that created the data to identify the location of the data. The associated index may include three entries, and may be used to facilitate the recovery of data via the snapshot. | 03-18-2010 |
20100332453 | DATA MINING SYSTEMS AND METHODS FOR HETEROGENEOUS DATA SOURCES - Systems and methods integrate disparate backup devices with a unified interface. In certain examples, a management console manages data from various backup devices, while retaining such data in its native format. The management console can display a hierarchical view the client devices and/or their data and can further provide utilities for processing the various data formats. A data structure including fields for storing both metadata common to the client device data and value-added metadata can be used to mine or process the data of the disparate client devices. The unified single platform and interface reduces the need for multiple data management products and/or customized data utilities for each individual client device and provides a single pane of glass view into data management operations. Integrating the various types of storage formats and media allows a user to retain existing storage infrastructures and further facilitates scaling to meet long-term management needs. | 12-30-2010 |
20100332561 | SYSTEMS AND METHODS FOR NORMALIZING DATA OF HETEROGENEOUS DATA SOURCES - Systems and methods integrate disparate backup devices with a unified interface. In certain examples, a management console manages data from various backup devices, while retaining such data in its native format. The management console can display a hierarchical view the client devices and/or their data and can further provide utilities for processing the various data formats. A data structure including fields for storing both metadata common to the client device data and value-added metadata can be used to mine or process the data of the disparate client devices. The unified single platform and interface reduces the need for multiple data management products and/or customized data utilities for each individual client device and provides a single pane of glass view into data management operations. Integrating the various types of storage formats and media allows a user to retain existing storage infrastructures and further facilitates scaling to meet long-term management needs. | 12-30-2010 |
20100332990 | INFORMATION MANAGEMENT SYSTEMS AND METHODS FOR HETEROGENEOUS DATA SOURCES - Systems and methods integrate disparate backup devices with a unified interface. In certain examples, a management console manages data from various backup devices, while retaining such data in its native format. The management console can display a hierarchical view the client devices and/or their data and can further provide utilities for processing the various data formats. A data structure including fields for storing both metadata common to the client device data and value-added metadata can be used to mine or process the data of the disparate client devices. The unified single platform and interface reduces the need for multiple data management products and/or customized data utilities for each individual client device and provides a single pane of glass view into data management operations. Integrating the various types of storage formats and media allows a user to retain existing storage infrastructures and further facilitates scaling to meet long-term management needs. | 12-30-2010 |
20110161299 | SYSTEMS AND METHODS FOR PERFORMING DATA MANAGEMENT OPERATIONS USING SNAPSHOTS - A system and method for using a snapshot as a data source is described. In some cases, the system stores a snapshot and an associated data structure or index to storage media to create a secondary copy of a volume of data. In some cases, the associated index includes application specific data about a file system or other application that created the data to identify the location of the data. The associated index may include three entries, and may be used to facilitate the recovery of data via the snapshot. The snapshot may be used by ancillary applications to perform various functions, such as content indexing, data classification, deduplication, e-discovery, and other functions. | 06-30-2011 |
20110161327 | ASYNCHRONOUS METHODS OF DATA CLASSIFICATION USING CHANGE JOURNALS AND OTHER DATA STRUCTURES - Aspects of the present invention are generally concerned with systems and methods for generating a database of metadata that describes system data and storage operations. The database of metadata may be referred to herein as a “metabase.” For example, to generate a metabase, a data agent may traverse a file system to obtain certain characteristics of data managed by the file system while substantially simultaneously detecting and recording change notifications. These actions may be performed even if the actions of the data agent are interrupted one or more times during the traversal of the file system. The data agent may process the characteristics and change notifications to generate and update a metabase. Once formed, the metabase may be consulted to determine changes in system data rather than determining the changes by scanning the data files themselves. | 06-30-2011 |
20110314120 | SYSTEM AND METHOD FOR PERFORMING MULTISTREAM STORAGE OPERATIONS - Systems and methods for performing storage operations over multi-stream data paths are provided. Prior to performing a storage operation, it may be determined whether multi-streaming resources are available to perform a multi-stream storage operation. Availability of multi-streaming resources may be related to network pathways capable of supporting multi-stream storage operations, existing network load related to other storage operations being or to be performed, availability of components capable of supporting multi-stream storage operation, and other factors. If system resources to support multi-stream storage operations are not available, the system may optionally perform a traditional storage operation that does not incorporate multiple data streams. | 12-22-2011 |
20120084262 | EFFICIENT DATA MANAGEMENT IMPROVEMENTS, SUCH AS DOCKING LIMITED-FEATURE DATA MANAGEMENT MODULES TO A FULL-FEATURED DATA MANAGEMENT SYSTEM - Software, firmware, and systems are described herein that permit an organization to dock previously-utilized, limited-feature data management modules with a full-featured data management system. By docking limited-feature data management modules to a full-featured data management system, metadata and data from the various limited-feature data management modules can be integrated and utilized more efficiently and effectively. Moreover, additional data management features can be provided to users after a more seamless transition. | 04-05-2012 |
20130006945 | DATA MINING SYSTEMS AND METHODS FOR HETEROGENEOUS DATA SOURCES - Systems and methods integrate disparate backup devices with a unified interface. In certain examples, a management console manages data from various backup devices, while retaining such data in its native format. The management console can display a hierarchical view the client devices and/or their data and can further provide utilities for processing the various data formats. A data structure including fields for storing both metadata common to the client device data and value-added metadata can be used to mine or process the data of the disparate client devices. The unified single platform and interface reduces the need for multiple data management products and/or customized data utilities for each individual client device and provides a single pane of glass view into data management operations. Integrating the various types of storage formats and media allows a user to retain existing storage infrastructures and further facilitates scaling to meet long-term management needs. | 01-03-2013 |
20130061014 | SYSTEMS AND METHODS FOR MANAGEMENT OF VIRTUALIZATION DATA - Described in detail herein is a method of copying data of one or more virtual machines being hosted by one or more non-virtual machines. The method includes receiving an indication that specifies how to perform a copy of data of one or more virtual machines hosted by one or more virtual machine hosts. The method may include determining whether the one or more virtual machines are managed by a virtual machine manager that manages or facilitates management of the virtual machines. If so, the virtual machine manager is dynamically queried to automatically determine the virtual machines that it manages or that it facilitates management of. If not, a virtual machine host is dynamically queried to automatically determine the virtual machines that it hosts. The data of each virtual machine is then copied according to the specifications of the received indication. | 03-07-2013 |
20130246485 | ASYNCHRONOUS METHODS OF DATA CLASSIFICATION USING CHANGE JOURNALS AND OTHER DATA STRUCTURES - Aspects of the present invention are generally concerned with systems and methods for generating a database of metadata that describes system data and storage operations. The database of metadata may be referred to herein as a “metabase.” For example, to generate a metabase, a data agent may traverse a file system to obtain certain characteristics of data managed by the file system while substantially simultaneously detecting and recording change notifications. These actions may be performed even if the actions of the data agent are interrupted one or more times during the traversal of the file system. The data agent may process the characteristics and change notifications to generate and update a metabase. Once formed, the metabase may be consulted to determine changes in system data rather than determining the changes by scanning the data files themselves. | 09-19-2013 |
20130262390 | MIGRATION OF EXISTING COMPUTING SYSTEMS TO CLOUD COMPUTING SITES OR VIRTUAL MACHINES - Software, firmware, and systems are described herein that migrate functionality of a source physical computing device to a destination virtual machine. A non-production copy of data associated with a source physical computing device is created. A configuration of the source physical computing device is determined. A configuration for a destination virtual machine is determined based at least in part on the configuration of the source physical computing device. The destination virtual machine is provided access to data and metadata associated with the source physical computing device using the non-production copy of data associated with the source physical computing device. | 10-03-2013 |
20130262638 | MIGRATION OF AN EXISTING COMPUTING SYSTEM TO NEW HARDWARE - Software, firmware, and systems are described herein that migrate functionality of a source physical computing device to a destination physical computing device. A non-production copy of data associated with a source physical computing device is created. A configuration of the source physical computing device is determined. A configuration for a destination physical computing device is determined based at least in part on the configuration of the source physical computing device. The destination physical computing device is provided access to data and metadata associated with the source physical computing device using the non-production copy of data associated with the source physical computing device. | 10-03-2013 |
20130262801 | INFORMATION MANAGEMENT OF VIRTUAL MACHINES HAVING MAPPED STORAGE DEVICES - Software, firmware, and systems are described herein that create and use a non-production copy of a virtual machine for reverting or restoring the virtual machine. The virtual machine is associated with an external storage device via a logical mapping. A snapshot is taken of a virtual disk associated with the virtual machine to create a snapshot copy of the virtual disk. A snapshot is taken of at least a portion of the mapped external storage device to create a snapshot copy of the mapped external storage device. The snapshot copy of the virtual disk is associated with the snapshot copy of the mapped external storage device. The snapshot copies can then be used to either revert or restore the virtual machine. | 10-03-2013 |
20130290267 | EFFICIENT DATA MANAGEMENT IMPROVEMENTS, SUCH AS DOCKING LIMITED-FEATURE DATA MANAGEMENT MODULES TO A FULL-FEATURED DATA MANAGEMENT SYSTEM - Software, firmware, and systems are described herein that permit an organization to dock previously-utilized, limited-feature data management modules with a full-featured data management system. By docking limited-feature data management modules to a full-featured data management system, metadata and data from the various limited-feature data management modules can be integrated and utilized more efficiently and effectively. Moreover, additional data management features can be provided to users after a more seamless transition. | 10-31-2013 |
20140025640 | DATA MINING SYSTEMS AND METHODS FOR HETEROGENEOUS DATA SOURCES - Systems and methods integrate disparate backup devices with a unified interface. In certain examples, a management console manages data from various backup devices, while retaining such data in its native format. The management console can display a hierarchical view the client devices and/or their data and can further provide utilities for processing the various data formats. A data structure including fields for storing both metadata common to the client device data and value-added metadata can be used to mine or process the data of the disparate client devices. The unified single platform and interface reduces the need for multiple data management products and/or customized data utilities for each individual client device and provides a single pane of glass view into data management operations. Integrating the various types of storage formats and media allows a user to retain existing storage infrastructures and further facilitates scaling to meet long-term management needs. | 01-23-2014 |
20140075440 | SYSTEMS AND METHODS FOR PERFORMING DATA MANAGEMENT OPERATIONS USING SNAPSHOTS - A system stores a snapshot and an associated data structure or index to storage media to create a secondary copy of a volume of data. In some cases, the associated index includes application specific data about a file system or other application that created the data to identify the location of the data. The associated index may include three entries, and may be used to facilitate the recovery of data via the snapshot. The snapshot may be used by ancillary applications to perform various functions, such as content indexing, data classification, deduplication, e-discovery, and other functions. | 03-13-2014 |
20140181028 | SYSTEM AND METHOD FOR PERFORMING AN IMAGE LEVEL SNAPSHOT AND FOR RESTORING PARTIAL VOLUME DATA - The present invention relates to a method for performing an image level copy of an information store. The present invention comprises performing a snapshot of an information store that indexes the contents of the information store, retrieving data associated with the contents of the information store from a file allocation table, copying the contents of the information store to a storage device based on the snapshot, and associating the retrieved data with the copied contents to provide file system information for the copied contents. | 06-26-2014 |
20140181033 | SYSTEMS AND METHODS TO TRACK DELETED FILES - A data storage system protects data identified for deletion which has been created or modified between scheduled data backups. For instance, the system copies the data to temporary storage, saves the file path in the temporary storage, and identifies the copy of the data in temporary storage for backup. In another manner, the system converts the data to a hidden file, copies the hidden file to temporary storage, saves the file path to the temporary storage, and identifies the copy of the hidden file for backup. In a further manner, the system copies the data to temporary storage when it is created, saves the file path to the temporary storage, and identifies the data in the temporary storage for backup after the delete operation is detected and the data is identified as not protected or as modified after the last backup operation. | 06-26-2014 |
20140181037 | SYSTEMS AND METHODS TO DETECT DELETED FILES - A data storage system protects data identified for deletion which has been created or modified between scheduled data backups. For instance, the system monitors data operations and when the data operation is a delete, the system determines whether the data identified for deletion has been protected by a backup operation. Data that has not been backed up, such as newly created data, is copied to temporary storage before deletion. When the data has been protected, the system determines whether the data has been modified after the backup operation. Data modified after the backup operation is copied to temporary storage before deletion. | 06-26-2014 |
20140181038 | SYSTEMS AND METHODS TO CATEGORIZE UNPROTECTED VIRTUAL MACHINES - Virtualization sprawl can lead to virtual machines with no designated periodic backup. If the data associated with these unprotected virtual machines is not backed up, it cannot be restored if needed, leading to system failures. A data storage system identifies and protects the unprotected virtual machines. For instance, the system automatically determines whether characteristics of the unprotected virtual machines meet characterization rules for backup policies and assigns backup policies to the unprotected virtual machines whose characteristics meet the characterization rules for a certain backup policy. The system further identifies those unprotected virtual machines that remain uncategorized and applies a default backup policy to the uncategorized and unprotected virtual machines to provide protected virtual machines. | 06-26-2014 |
20140181044 | SYSTEMS AND METHODS TO IDENTIFY UNCHARACTERIZED AND UNPROTECTED VIRTUAL MACHINES - Virtualization sprawl can lead to virtual machines with no designated periodic backup. If the data associated with these unprotected virtual machines is not backed up, it cannot be restored if needed, leading to system failures. A data storage system identifies and protects the unprotected virtual machines. For instance, the system automatically identifies and categorizes unprotected virtual machines. The system further identifies those unprotected virtual machines that remain uncategorized and notifies a system administrator of the unprotected virtual machines. The system further applies a default backup policy to the uncategorized and unprotected virtual machines to provide protected virtual machines. | 06-26-2014 |
20140181045 | SYSTEMS AND METHODS TO IDENTIFY UNPROTECTED VIRTUAL MACHINES - Virtualization sprawl can lead to virtual machines with no designated periodic backup. If the data associated with these unprotected virtual machines is not backed up, it cannot be restored if needed, leading to system failures. A data storage system identifies and protects the unprotected virtual machines. For instance, the system compares a list of virtual machines with a list of computing devices having a designated backup policy in the data storage system and determines which of the virtual machines are unprotected. The system further automatically categorizes the unprotected virtual machines, identifies those unprotected virtual machines that remain uncategorized, and applies a default backup policy to the uncategorized and unprotected virtual machines to provide protected virtual machines. | 06-26-2014 |
20140181046 | SYSTEMS AND METHODS TO BACKUP UNPROTECTED VIRTUAL MACHINES - Virtualization sprawl can lead to virtual machines with no designated periodic backup. If the data associated with these unprotected virtual machines is not backed up, it cannot be restored if needed, leading to system failures. A data storage system identifies and protects the unprotected virtual machines. For instance, the system automatically identifies and categorizes unprotected virtual machines. The system further identifies those unprotected virtual machines that remain uncategorized, applies a default backup policy to the uncategorized and unprotected virtual machines, and backs up the virtual machines using the default backup policy. | 06-26-2014 |
20140181047 | SYSTEMS AND METHODS TO PROTECT DELETED FILES - A data storage system protects data identified for deletion which has been created or modified between scheduled data backups. The system copies the data to temporary storage, normalizes the copy, and merges the normalized data from the temporary storage to a secondary storage device. For instance, the system merges the data on the secondary storage device at locations indicated by the file path saved in metadata. In another manner, the system merges changes between the previously backed up version of the data and the data identified for deletion into the previously backed up version of the data stored on the secondary storage device at the locations indicated by the file path. In a further manner, the system merges the differences between the previously backed up version of the data and the data identified for deletion at the locations indicated by the file path. | 06-26-2014 |
20140196038 | VIRTUAL MACHINE MANAGEMENT IN A DATA STORAGE SYSTEM - Virtual machine (VM) proliferation may be reduced through the use of Virtual Server Agents (VSAs) assigned to a group of VM hosts that may determine the availability of a VM to perform a task. Tasks may be assigned to existing VMs instead of creating a new VM to perform the task. Furthermore, a VSA coordinator may determine a grouping of VMs or VM hosts based on one or more factors associated with the VMs or the VM hosts, such as VM type or geographical location of the VM hosts. The VSA coordinator may also assign one or more VSAs to facilitate managing the group of VM hosts. In some embodiments, the VSA coordinators may facilitate load balancing of VSAs during operation, such as during a backup operation, a restore operation, or any other operation between a primary storage system and a secondary storage system. | 07-10-2014 |
20140196039 | VIRTUAL MACHINE CATEGORIZATION SYSTEM AND METHOD - Virtual machine (VM) proliferation may be reduced through the use of Virtual Server Agents (VSAs) assigned to a group of VM hosts that may determine the availability of a VM to perform a task. Tasks may be assigned to existing VMs instead of creating a new VM to perform the task. Furthermore, a VSA coordinator may determine a grouping of VMs or VM hosts based on one or more factors associated with the VMs or the VM hosts, such as VM type or geographical location of the VM hosts. The VSA coordinator may also assign one or more VSAs to facilitate managing the group of VM hosts. In some embodiments, the VSA coordinators may facilitate load balancing of VSAs during operation, such as during a backup operation, a restore operation, or any other operation between a primary storage system and a secondary storage system. | 07-10-2014 |
20140196056 | VIRTUAL SERVER AGENT LOAD BALANCING - Virtual machine (VM) proliferation may be reduced through the use of Virtual Server Agents (VSAs) assigned to a group of VM hosts that may determine the availability of a VM to perform a task. Tasks may be assigned to existing VMs instead of creating a new VM to perform the task. Furthermore, a VSA coordinator may determine a grouping of VMs or VM hosts based on one or more factors associated with the VMs or the VM hosts, such as VM type or geographical location of the VM hosts. The VSA coordinator may also assign one or more VSAs to facilitate managing the group of VM hosts. In some embodiments, the VSA coordinators may facilitate load balancing of VSAs during operation, such as during a backup operation, a restore operation, or any other operation between a primary storage system and a secondary storage system. | 07-10-2014 |
20140201151 | SYSTEMS AND METHODS TO SELECT FILES FOR RESTORATION FROM BLOCK-LEVEL BACKUP FOR VIRTUAL MACHINES - A data storage system receives a user instruction through a user interface to restore a specific virtual machine file from a block-level backup. The system accesses a file index which is created during the block-level backup by accessing the file allocation table of the underlying host system and associating the blocks with the file location information of the virtual machine files stored in the file allocation table. The system further creates a file level table based at least in part on the virtual machine file information stored in the file index, displays a listing of the virtual machine files from the file level table, and receives a user selected virtual machine file to restore. | 07-17-2014 |
20140201152 | SYSTEMS AND METHODS TO PROCESS BLOCK-LEVEL BACKUP FOR SELECTIVE FILE RESTORATION FOR VIRTUAL MACHINES - A data storage system protects virtual machines using block-level backup operations and restores the data at a file level. The system accesses the virtual machine file information from the file allocation table of the host system underlying the virtualization layer. A file index associates this virtual machine file information with the related protected blocks in a secondary storage device during the block-level backup. Using the file index, the system can identify the specific blocks in the secondary storage device associated with a selected restore file. As a result, file level granularity for restore operations is possible for virtual machine data protected by block-level backup operations without restoring more than the selected file blocks from the block-level backup data. | 07-17-2014 |
20140201157 | SYSTEMS AND METHODS FOR RULE-BASED VIRTUAL MACHINE DATA PROTECTION - A data storage system backs up or protects virtual machines. For instance, the system identifies the different virtual machines executing in the system and provides a number of factors that can be used to create a backup policy. The system further creates specific rules for virtual machine backup policies using a user interface with drop down boxes of relevant criteria and Boolean operators. A preview of included virtual machines allows the rule to be refined. Particular virtual machines can be excluded during the preview. The system further dynamically updates the list of virtual machines satisfying the rules at time of backup. | 07-17-2014 |
20140201162 | SYSTEMS AND METHODS TO RESTORE SELECTED FILES FROM BLOCK-LEVEL BACKUP FOR VIRTUAL MACHINES - A data storage system restores selected virtual machine files from a block-level backup without restoring blocks associated with files other than the selected virtual machine file. The system identifies the one or more blocks associated with a selected file from a file index that is created during the block-level backup of the virtual machine by accessing the file allocation tables of the underlying host system and associating the locations of the blocks with the file information from the file allocation table for the virtual files of the virtual machine. The system further restores the identified blocks without restoring blocks associated with files other than the selected file and/or file version, recreates the selected file from the restored blocks, and presents the restored file to the user. | 07-17-2014 |
20140201737 | SEAMLESS VIRTUAL MACHINE RECALL IN A DATA STORAGE SYSTEM - The data storage system according to certain aspects can manage the archiving of virtual machines to (and restoring of virtual machines from) secondary storage. The system may archive virtual machines (VMs) that are determined to have a low level of utilization. The system may create a virtual machine placeholder for an archived VM, which may be a “light” or minimal version of the VM that acts like the actual VM. By using a VM placeholder, a VM may appear to be active and selectable by the user. When the user selects the VM, the VM placeholder can interact with the user in similar manner as the VM. Accessing the VM placeholder may trigger restore of the archived VM from secondary storage. The restore of the archived VM may be “seamless” to the user since the VM remains available while it is being restored. | 07-17-2014 |
20140250093 | SYSTEMS AND METHODS FOR MANAGEMENT OF VIRTUALIZATION DATA - Described in detail herein is a method of copying data of one or more virtual machines being hosted by one or more non-virtual machines. The method includes receiving an indication that specifies how to perform a copy of data of one or more virtual machines hosted by one or more virtual machine hosts. The method may include determining whether the one or more virtual machines are managed by a virtual machine manager that manages or facilitates management of the virtual machines. If so, the virtual machine manager is dynamically queried to automatically determine the virtual machines that it manages or that it facilitates management of. If not, a virtual machine host is dynamically queried to automatically determine the virtual machines that it hosts. The data of each virtual machine is then copied according to the specifications of the received indication. | 09-04-2014 |
20140281514 | AUTOMATIC FILE ENCRYPTION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281515 | ENCRYPTED FILE PRESENTATION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281516 | AUTOMATIC FILE DECRYPTION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281517 | FILE BACKUP WITH SELECTIVE ENCRYPTION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281518 | MULTI-TIER FILE RESTORATION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281519 | ENCRYPTED FILE BACKUP - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140281545 | MULTI-LAYER EMBEDDED ENCRYPTION - A method for automatically encrypting files is disclosed. In some cases, the method may be performed by computer hardware comprising one or more processors. The method can include detecting access to a first file, which may be stored in a primary storage system. Further, the method can include determining whether the access comprises a write access. In response to determining that the access comprises a write access, the method can include accessing file metadata associated with the first file and accessing a set of encryption rules. In addition, the method can include determining whether the file metadata satisfies the set of encryption rules. In response to determining that the file metadata satisfies the set of encryption rules, the method can include encrypting the first file to obtain a first encrypted file and modifying an extension of the first encrypted file to include an encryption extension. | 09-18-2014 |
20140310246 | MULTI-SOURCE RESTORE IN AN INFORMATION MANAGEMENT SYSTEM - According to certain aspects, an information management system may identify a set of secondary storage computing devices residing in a secondary storage subsystem, wherein each of at least two storage devices that each store a separate copy of a first file is associated with at least one of the secondary storage computing devices in the set. The system may also select a subset of the set of secondary storage computing devices based on stored selection criteria. The system can, using a first secondary storage computing device, initiate a restore operation of a first copy of the first file stored in a first storage device associated with at least the first secondary storage computing device and, using a second secondary storage computing device, initiate a restore operation of a second copy of the first file stored in a second storage device associated with at least the second secondary storage computing device. | 10-16-2014 |
20140310247 | MANAGING MULTI-SOURCE RESTORE OPERATIONS IN AN INFORMATION MANAGEMENT SYSTEM - According to certain aspects, an information management system may instruct a first secondary storage computing device in a set of secondary storage computing devices to initiate a restore of a first group of a plurality of files from a first storage device associated with the first secondary storage computing device, the first group including a first file. The computing system may instruct a second secondary storage computing device in the set to initiate a restore a second group of the plurality of files from a second storage device associated with the second secondary storage computing device, the second group including the first file. The computing system can, upon receiving notification that the restore of the first file from the first storage device has completed prior to completion of the restore of the first file from the second storage device, cancel restoration of the first file from the second storage device. | 10-16-2014 |