Patent application number | Description | Published |
20090265398 | Adaptive Buffering of Database Server Response Data - Aspects of the subject matter described herein relate to buffering database server response data. In aspects, a database driver receives a request for data from a requester such as an application. Based on the request and information associated with a query, the database driver determines whether the requester is allowed to obtain data that has been previously buffered. If the database driver determines that the requester is not allowed to obtain data that has been previously buffered, the database driver indicates that blocks corresponding to the data may be freed. The database driver obtains new blocks from the database when they are needed. The database driver may determine whether to free blocks depending on a mode in which the blocks are accessed. When blocks are requested in a stream mode, they may be discarded once provided to a requester unless a bookmark has been set. | 10-22-2009 |
20110099166 | EXTENDING TYPES HOSTED IN DATABASE TO OTHER PLATFORMS - Aspects of the subject matter described herein relate to extending types hosted in a database to other platforms. In aspects, a database may store objects according to a one type system while an application accessing the database may store objects according to another type system. To allow the application to understand the types, a mapping mechanism may be employed that maps from the types of type system of the database to types of a type system of the application. The mapping mechanism may utilize metadata associated with the data in mapping between types. In conjunction with mapping a source type to a target type, a target object may be instantiated and populated with properties of a source object of the source type. | 04-28-2011 |
20120265801 | OUT OF ORDER ASSEMBLING OF DATA PACKETS - A data transfer is received and processed out of order based on contextual information provided by the sending computer. Individual packets within a data transfer are marked as requiring in order processing while the remaining packets of the data transfer are processed out of order. The packets may be labeled with a sequential identifier to enable the receiving computer to determine the proper ordering of packets that require in order processing. | 10-18-2012 |
20120265855 | MAXIMIZING DATA TRANSFER THROUGH MULTIPLE NETWORK DEVICES - A first computer utilizes a logical connection with a second computer. The logical connection comprises multiple physical network connections using multiple physical network devices on the first computer. Two or more of the physical network devices of a logical connection are used to transfer packets of a single data transfer such as a database request or response. A logical connection can include a single physical network device on the second computer creating a one-to-many logical connection or may also include multiple physical network devices on the second computer creating a many-to-many logical connection. | 10-18-2012 |
20120266211 | TRANSPARENT DATABASE CONNECTION RECONNECT - A first computer establishes a logical connection to a second computer for requesting and/or receiving data from a database. A logical connection is independent of the underlying physical network connection used to connect to the database. A context identifier is stored by both computers to enable the context of a logical connection to be persisted between switches from one physical network connection to another within the logical connection thus enabling database transfers to be continued on a second physical network connection when a failure in a first physical network connection occurs. | 10-18-2012 |
20130311525 | IDEMPOTENT COMMAND EXECUTION - Systems and methods are described that facilitate idempotent execution of commands generated by a client for execution by a database server. Each command transmitted to the server includes a command ID generated by the client. The server attempts to execute each command and subsequently stores the command ID associated therewith in a repository along with an indication of whether the command executed successfully. When a new command is received by the server, it determines if the command ID associated therewith has already been stored in the repository. If the command ID associated with the new command has not already been stored in the repository, then the server executes the new command. If the command ID associated with the new command has already been stored in the repository and a previously-received command associated with the command ID has been executed successfully, then the server will not execute the new command. | 11-21-2013 |
20130339533 | VIRTUAL SESSION MANAGEMENT AND REESTABLISHMENT - Systems and methods are described that establish and maintain a virtual session between a client and one or more database servers. A database server establishes a first session with a client wherein establishing the virtual session with the client comprises associating a virtual session identifier (ID) with the first session, generates state information in association with the first session, and stores the state information in a repository in association with the virtual session ID. After the first session fails, a same or different database server establishes a second session with the client wherein establishing the second session with the client comprises receiving the virtual session ID from the client, accesses the state information that was stored in the repository in association with the virtual session ID, and associates the state information with the second session. | 12-19-2013 |
20140032491 | AUTOMATIC TRANSACTION RETRY AFTER SESSION FAILURE - Techniques for recovering from session failures between clients and database servers are described herein. A session may be established between a client and a first database server, and a transaction may be opened to process a plurality of database commands. One or more commands associated with the transaction may be received from the client at the database server. Each received command has an associated command identifier. A transaction log stores the command identifier associated with each received command and indicates whether each received command has been successfully executed at the database server. After a session failure, the session is reestablished, and a command identifier for a further command is received from the client. If the command identifier associated with the further command is determined to have been stored in the transaction log, the command does not need to be executed, and the transaction may continue. | 01-30-2014 |
20140108868 | SMART ERROR RECOVERY FOR DATABASE APPLICATIONS - A database server includes logic that is operable to monitor and analyze at least events occurring within an environment of the database server and/or execution errors generated by the database server in order to detect whether a problem condition exists. The database server further includes logic that is operable to send one or more commands to a database driver of a client that is communicatively connected to the database server, the one or more commands specifying one or more actions to be taken by the database driver in response to the existence of the problem condition. The database driver includes logic that is operable to receive the one or more commands from the database server and logic that is operable to cause the one or more commands to be executed. | 04-17-2014 |
20140222959 | MAXIMIZING DATA TRANSFER THROUGH MULTIPLE NETWORK DEVICES - A first computer utilizes a logical connection with a second computer. The logical connection comprises multiple physical network connections using multiple physical network devices on the first computer. Two or more of the physical network devices of a logical connection are used to transfer packets of a single data transfer such as a database request or response. A logical connection can include a single physical network device on the second computer creating a one-to-many logical connection or may also include multiple physical network devices on the second computer creating a many-to-many logical connection. | 08-07-2014 |