When the HADB database is created, specify the number, and size of each data device. These devices must have room for all the user data to be stored. In addition, allocate extra space to account for internal overhead as discussed in the following section.
If the database runs out of device space, the HADB returns error codes 4593 or 4592 to the Application Server.
See Sun Java System Application Server Error Message Reference for more information on these error messages.
HADB stores session states as binary data. It serializes the session state and stores it as a BLOB (binary large object). It splits each BLOB into chunks of approximately 7KB each and stores each chunk as a database row (context row is synonymous with tuple, or record) in pages of 16KB.
There is some small memory overhead for each row (approximately 30 bytes). With the most compact allocation of rows (BLOB chunks), two rows are stored in a page. Internal fragmentation can result in each page containing only one row. On average, 50% of each page contains user data.
For availability in case of node failure, HADB always replicates user data. An HADB node stores its own data, plus a copy of the data from its mirror node. Hence, all data is stored twice. Since 50% of the space on a node is user data (on average), and each node is mirrored, the data devices must have space for at least four times the volume of the user data.
In the case of data refragmentation, HADB keeps both the old and the new versions of a table while the refragmentation operation is running. All application requests are performed on the old table while the new table is being created. Assuming that the database is primarily used for one huge table containing BLOB data for session states, this means the device space requirement must be multiplied by another factor of two. Consequently, if you add nodes to a running database, and want to refragment the data to use all nodes, you must have eight times the volume of user data available.
Additionally, you must also account for the device space that HADB reserves for its internal use (four times that of the LogBufferSize). HADB uses this disk space for temporary storage of the log buffer during high load conditions.