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89 lines
3.6 KiB
Markdown
89 lines
3.6 KiB
Markdown
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# Wal-Mode Blocking Locks
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On some Unix-like systems, SQLite may be configured to use POSIX blocking locks
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by:
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* building the library with SQLITE\_ENABLE\_SETLK\_TIMEOUT defined, and
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* configuring a timeout in ms using the sqlite3\_busy\_timeout() API.
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Blocking locks may be advantageous as (a) waiting database clients do not
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need to continuously poll the database lock, and (b) using blocking locks
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facilitates transfer of OS priority between processes when a high priority
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process is blocked by a lower priority one.
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Only read/write clients use blocking locks. Clients that have read-only access
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to the \*-shm file nevery use blocking locks.
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Threads or processes that access a single database at a time never deadlock as
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a result of blocking database locks. But it is of course possible for threads
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that lock multiple databases simultaneously to do so. In most cases the OS will
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detect the deadlock and return an error.
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## Wal Recovery
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Wal database "recovery" is a process required when the number of connected
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database clients changes from zero to one. In this case, a client is
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considered to connect to the database when it first reads data from it.
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Before recovery commences, an exclusive WRITER lock is taken.
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Without blocking locks, if two clients attempt recovery simultaneously, one
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fails to obtain the WRITER lock and either invokes the busy-handler callback or
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returns SQLITE\_BUSY to the user. With blocking locks configured, the second
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client blocks on the WRITER lock.
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## Database Readers
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Usually, read-only are not blocked by any other database clients, so they
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have no need of blocking locks.
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If a read-only transaction is being opened on a snapshot, the CHECKPOINTER
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lock is required briefly as part of opening the transaction (to check that a
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checkpointer is not currently overwriting the snapshot being opened). A
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blocking lock is used to obtain the CHECKPOINTER lock in this case. A snapshot
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opener may therefore block on and transfer priority to a checkpointer in some
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cases.
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## Database Writers
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A database writer must obtain the exclusive WRITER lock. It uses a blocking
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lock to do so if any of the following are true:
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* the transaction is an implicit one consisting of a single DML or DDL
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statement, or
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* the transaction is opened using BEGIN IMMEDIATE or BEGIN EXCLUSIVE, or
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* the first SQL statement executed following the BEGIN command is a DML or
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DDL statement (not a read-only statement like a SELECT).
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In other words, in all cases except when an open read-transaction is upgraded
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to a write-transaction. In that case a non-blocking lock is used.
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## Database Checkpointers
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Database checkpointers takes the following locks, in order:
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* The exclusive CHECKPOINTER lock.
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* The exclusive WRITER lock (FULL, RESTART and TRUNCATE only).
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* Exclusive lock on read-mark slots 1-N. These are immediately released after being taken.
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* Exclusive lock on read-mark 0.
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* Exclusive lock on read-mark slots 1-N again. These are immediately released
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after being taken (RESTART and TRUNCATE only).
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All of the above use blocking locks.
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## Summary
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With blocking locks configured, the only cases in which clients should see an
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SQLITE\_BUSY error are:
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* if the OS does not grant a blocking lock before the configured timeout
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expires, and
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* when an open read-transaction is upgraded to a write-transaction.
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In all other cases the blocking locks implementation should prevent clients
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from having to handle SQLITE\_BUSY errors and facilitate appropriate transfer
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of priorities between competing clients.
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Clients that lock multiple databases simultaneously must be wary of deadlock.
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