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Berkeley DB fully supports multithreaded applications. The Berkeley DB library is not itself multithreaded, and was deliberately architected to not use threads internally because of the portability problems that would introduce. Database environment and database object handles returned from Berkeley DB library functions are free-threaded. No other object handles returned from the Berkeley DB library are free-threaded. The following rules should be observed when using threads to access the Berkeley DB library:
Threading is assumed in the Java API, so no special flags are required; and Berkeley DB functions will always behave as if the DB_THREAD flag was specified.
Only a single thread may call the DB_ENV->close or DB->close methods for a returned environment or database handle.
No other Berkeley DB handles are free-threaded.
For this reason, if the DB_THREAD handle was specified to the DB->open method, either DB_DBT_MALLOC, DB_DBT_REALLOC, or DB_DBT_USERMEM must be specified in the DBT when performing any non-cursor key or data retrieval.
Transactions and cursors may span threads, but only serially, that is, the application must serialize access to the DB_TXN and DBC handles. In the case of nested transactions, since all child transactions are part of the same parent transaction, they must observe the same constraints. That is, children may execute in different threads only if each child executes serially.
If blocking mutexes are available (for example POSIX pthreads), they will be used. Otherwise, the Berkeley DB library will make a system call to pause for some amount of time when it is necessary to wait on a lock. This may not be optimal, especially in a thread-only environment, in which it is usually more efficient to explicitly yield the processor to another thread.
It is possible to specify a yield function on an per-application basis. See db_env_set_func_yield for more information.
It is possible to specify the number of attempts that will be made to acquire the mutex before waiting. See DB_ENV->set_tas_spins for more information.
When creating multiple databases in a single physical file, multithreaded programs may have additional requirements. For more information, see Opening multiple databases in a single file.
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