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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd"> <HTML ><HEAD ><TITLE >Explicit Locking</TITLE ><META NAME="GENERATOR" CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK REV="MADE" HREF="mailto:pgsql-docs@postgresql.org"><LINK REL="HOME" TITLE="PostgreSQL 9.2.24 Documentation" HREF="index.html"><LINK REL="UP" TITLE="Concurrency Control" HREF="mvcc.html"><LINK REL="PREVIOUS" TITLE="Transaction Isolation" HREF="transaction-iso.html"><LINK REL="NEXT" TITLE="Data Consistency Checks at the Application Level" HREF="applevel-consistency.html"><LINK REL="STYLESHEET" TYPE="text/css" HREF="stylesheet.css"><META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=ISO-8859-1"><META NAME="creation" CONTENT="2017-11-06T22:43:11"></HEAD ><BODY CLASS="SECT1" ><DIV CLASS="NAVHEADER" ><TABLE SUMMARY="Header navigation table" WIDTH="100%" BORDER="0" CELLPADDING="0" CELLSPACING="0" ><TR ><TH COLSPAN="5" ALIGN="center" VALIGN="bottom" ><A HREF="index.html" >PostgreSQL 9.2.24 Documentation</A ></TH ></TR ><TR ><TD WIDTH="10%" ALIGN="left" VALIGN="top" ><A TITLE="Transaction Isolation" HREF="transaction-iso.html" ACCESSKEY="P" >Prev</A ></TD ><TD WIDTH="10%" ALIGN="left" VALIGN="top" ><A HREF="mvcc.html" ACCESSKEY="U" >Up</A ></TD ><TD WIDTH="60%" ALIGN="center" VALIGN="bottom" >Chapter 13. Concurrency Control</TD ><TD WIDTH="20%" ALIGN="right" VALIGN="top" ><A TITLE="Data Consistency Checks at the Application Level" HREF="applevel-consistency.html" ACCESSKEY="N" >Next</A ></TD ></TR ></TABLE ><HR ALIGN="LEFT" WIDTH="100%"></DIV ><DIV CLASS="SECT1" ><H1 CLASS="SECT1" ><A NAME="EXPLICIT-LOCKING" >13.3. Explicit Locking</A ></H1 ><P > <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > provides various lock modes to control concurrent access to data in tables. These modes can be used for application-controlled locking in situations where <ACRONYM CLASS="ACRONYM" >MVCC</ACRONYM > does not give the desired behavior. Also, most <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > commands automatically acquire locks of appropriate modes to ensure that referenced tables are not dropped or modified in incompatible ways while the command executes. (For example, <TT CLASS="COMMAND" >TRUNCATE</TT > cannot safely be executed concurrently with other operations on the same table, so it obtains an exclusive lock on the table to enforce that.) </P ><P > To examine a list of the currently outstanding locks in a database server, use the <A HREF="view-pg-locks.html" ><TT CLASS="STRUCTNAME" >pg_locks</TT ></A > system view. For more information on monitoring the status of the lock manager subsystem, refer to <A HREF="monitoring.html" >Chapter 27</A >. </P ><DIV CLASS="SECT2" ><H2 CLASS="SECT2" ><A NAME="LOCKING-TABLES" >13.3.1. Table-level Locks</A ></H2 ><P > The list below shows the available lock modes and the contexts in which they are used automatically by <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN >. You can also acquire any of these locks explicitly with the command <A HREF="sql-lock.html" >LOCK</A >. Remember that all of these lock modes are table-level locks, even if the name contains the word <SPAN CLASS="QUOTE" >"row"</SPAN >; the names of the lock modes are historical. To some extent the names reflect the typical usage of each lock mode — but the semantics are all the same. The only real difference between one lock mode and another is the set of lock modes with which each conflicts (see <A HREF="explicit-locking.html#TABLE-LOCK-COMPATIBILITY" >Table 13-2</A >). Two transactions cannot hold locks of conflicting modes on the same table at the same time. (However, a transaction never conflicts with itself. For example, it might acquire <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock and later acquire <TT CLASS="LITERAL" >ACCESS SHARE</TT > lock on the same table.) Non-conflicting lock modes can be held concurrently by many transactions. Notice in particular that some lock modes are self-conflicting (for example, an <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock cannot be held by more than one transaction at a time) while others are not self-conflicting (for example, an <TT CLASS="LITERAL" >ACCESS SHARE</TT > lock can be held by multiple transactions). </P ><P ></P ><DIV CLASS="VARIABLELIST" ><P ><B >Table-level Lock Modes</B ></P ><DL ><DT ><TT CLASS="LITERAL" >ACCESS SHARE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock mode only. </P ><P > The <TT CLASS="COMMAND" >SELECT</TT > command acquires a lock of this mode on referenced tables. In general, any query that only <SPAN CLASS="emphasis" ><I CLASS="EMPHASIS" >reads</I ></SPAN > a table and does not modify it will acquire this lock mode. </P ></DD ><DT ><TT CLASS="LITERAL" >ROW SHARE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >EXCLUSIVE</TT > and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. </P ><P > The <TT CLASS="COMMAND" >SELECT FOR UPDATE</TT > and <TT CLASS="COMMAND" >SELECT FOR SHARE</TT > commands acquire a lock of this mode on the target table(s) (in addition to <TT CLASS="LITERAL" >ACCESS SHARE</TT > locks on any other tables that are referenced but not selected <TT CLASS="OPTION" >FOR UPDATE/FOR SHARE</TT >). </P ></DD ><DT ><TT CLASS="LITERAL" >ROW EXCLUSIVE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >SHARE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. </P ><P > The commands <TT CLASS="COMMAND" >UPDATE</TT >, <TT CLASS="COMMAND" >DELETE</TT >, and <TT CLASS="COMMAND" >INSERT</TT > acquire this lock mode on the target table (in addition to <TT CLASS="LITERAL" >ACCESS SHARE</TT > locks on any other referenced tables). In general, this lock mode will be acquired by any command that <SPAN CLASS="emphasis" ><I CLASS="EMPHASIS" >modifies data</I ></SPAN > in a table. </P ></DD ><DT ><TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. This mode protects a table against concurrent schema changes and <TT CLASS="COMMAND" >VACUUM</TT > runs. </P ><P > Acquired by <TT CLASS="COMMAND" >VACUUM</TT > (without <TT CLASS="OPTION" >FULL</TT >), <TT CLASS="COMMAND" >ANALYZE</TT >, <TT CLASS="COMMAND" >CREATE INDEX CONCURRENTLY</TT >, and some forms of <TT CLASS="COMMAND" >ALTER TABLE</TT >. </P ></DD ><DT ><TT CLASS="LITERAL" >SHARE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. This mode protects a table against concurrent data changes. </P ><P > Acquired by <TT CLASS="COMMAND" >CREATE INDEX</TT > (without <TT CLASS="OPTION" >CONCURRENTLY</TT >). </P ></DD ><DT ><TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. This mode protects a table against concurrent data changes, and is self-exclusive so that only one session can hold it at a time. </P ><P > This lock mode is not automatically acquired by any <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > command. </P ></DD ><DT ><TT CLASS="LITERAL" >EXCLUSIVE</TT ></DT ><DD ><P > Conflicts with the <TT CLASS="LITERAL" >ROW SHARE</TT >, <TT CLASS="LITERAL" >ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock modes. This mode allows only concurrent <TT CLASS="LITERAL" >ACCESS SHARE</TT > locks, i.e., only reads from the table can proceed in parallel with a transaction holding this lock mode. </P ><P > This lock mode is not automatically acquired on tables by any <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > command. </P ></DD ><DT ><TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT ></DT ><DD ><P > Conflicts with locks of all modes (<TT CLASS="LITERAL" >ACCESS SHARE</TT >, <TT CLASS="LITERAL" >ROW SHARE</TT >, <TT CLASS="LITERAL" >ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE UPDATE EXCLUSIVE</TT >, <TT CLASS="LITERAL" >SHARE</TT >, <TT CLASS="LITERAL" >SHARE ROW EXCLUSIVE</TT >, <TT CLASS="LITERAL" >EXCLUSIVE</TT >, and <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT >). This mode guarantees that the holder is the only transaction accessing the table in any way. </P ><P > Acquired by the <TT CLASS="COMMAND" >ALTER TABLE</TT >, <TT CLASS="COMMAND" >DROP TABLE</TT >, <TT CLASS="COMMAND" >TRUNCATE</TT >, <TT CLASS="COMMAND" >REINDEX</TT >, <TT CLASS="COMMAND" >CLUSTER</TT >, and <TT CLASS="COMMAND" >VACUUM FULL</TT > commands. This is also the default lock mode for <TT CLASS="COMMAND" >LOCK TABLE</TT > statements that do not specify a mode explicitly. </P ></DD ></DL ></DIV ><DIV CLASS="TIP" ><BLOCKQUOTE CLASS="TIP" ><P ><B >Tip: </B > Only an <TT CLASS="LITERAL" >ACCESS EXCLUSIVE</TT > lock blocks a <TT CLASS="COMMAND" >SELECT</TT > (without <TT CLASS="OPTION" >FOR UPDATE/SHARE</TT >) statement. </P ></BLOCKQUOTE ></DIV ><P > Once acquired, a lock is normally held till end of transaction. But if a lock is acquired after establishing a savepoint, the lock is released immediately if the savepoint is rolled back to. This is consistent with the principle that <TT CLASS="COMMAND" >ROLLBACK</TT > cancels all effects of the commands since the savepoint. The same holds for locks acquired within a <SPAN CLASS="APPLICATION" >PL/pgSQL</SPAN > exception block: an error escape from the block releases locks acquired within it. </P ><DIV CLASS="TABLE" ><A NAME="TABLE-LOCK-COMPATIBILITY" ></A ><P ><B >Table 13-2. Conflicting Lock Modes</B ></P ><TABLE BORDER="1" CLASS="CALSTABLE" ><COL><COL WIDTH="1*" TITLE="lockst"><COL><COL><COL><COL><COL><COL><COL WIDTH="1*" TITLE="lockend"><THEAD ><TR ><TH ROWSPAN="2" >Requested Lock Mode</TH ><TH COLSPAN="8" >Current Lock Mode</TH ></TR ><TR ><TH >ACCESS SHARE</TH ><TH >ROW SHARE</TH ><TH >ROW EXCLUSIVE</TH ><TH >SHARE UPDATE EXCLUSIVE</TH ><TH >SHARE</TH ><TH >SHARE ROW EXCLUSIVE</TH ><TH >EXCLUSIVE</TH ><TH >ACCESS EXCLUSIVE</TH ></TR ></THEAD ><TBODY ><TR ><TD >ACCESS SHARE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >ROW SHARE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >ROW EXCLUSIVE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >SHARE UPDATE EXCLUSIVE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >SHARE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >SHARE ROW EXCLUSIVE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >EXCLUSIVE</TD ><TD ALIGN="CENTER" > </TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ><TR ><TD >ACCESS EXCLUSIVE</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ><TD ALIGN="CENTER" >X</TD ></TR ></TBODY ></TABLE ></DIV ></DIV ><DIV CLASS="SECT2" ><H2 CLASS="SECT2" ><A NAME="LOCKING-ROWS" >13.3.2. Row-level Locks</A ></H2 ><P > In addition to table-level locks, there are row-level locks, which can be exclusive or shared locks. An exclusive row-level lock on a specific row is automatically acquired when the row is updated or deleted. The lock is held until the transaction commits or rolls back, just like table-level locks. Row-level locks do not affect data querying; they block only <SPAN CLASS="emphasis" ><I CLASS="EMPHASIS" >writers to the same row</I ></SPAN >. </P ><P > To acquire an exclusive row-level lock on a row without actually modifying the row, select the row with <TT CLASS="COMMAND" >SELECT FOR UPDATE</TT >. Note that once the row-level lock is acquired, the transaction can update the row multiple times without fear of conflicts. </P ><P > To acquire a shared row-level lock on a row, select the row with <TT CLASS="COMMAND" >SELECT FOR SHARE</TT >. A shared lock does not prevent other transactions from acquiring the same shared lock. However, no transaction is allowed to update, delete, or exclusively lock a row on which any other transaction holds a shared lock. Any attempt to do so will block until the shared lock(s) have been released. </P ><P > <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > doesn't remember any information about modified rows in memory, so there is no limit on the number of rows locked at one time. However, locking a row might cause a disk write, e.g., <TT CLASS="COMMAND" >SELECT FOR UPDATE</TT > modifies selected rows to mark them locked, and so will result in disk writes. </P ><P > In addition to table and row locks, page-level share/exclusive locks are used to control read/write access to table pages in the shared buffer pool. These locks are released immediately after a row is fetched or updated. Application developers normally need not be concerned with page-level locks, but they are mentioned here for completeness. </P ></DIV ><DIV CLASS="SECT2" ><H2 CLASS="SECT2" ><A NAME="LOCKING-DEADLOCKS" >13.3.3. Deadlocks</A ></H2 ><P > The use of explicit locking can increase the likelihood of <I CLASS="FIRSTTERM" >deadlocks</I >, wherein two (or more) transactions each hold locks that the other wants. For example, if transaction 1 acquires an exclusive lock on table A and then tries to acquire an exclusive lock on table B, while transaction 2 has already exclusive-locked table B and now wants an exclusive lock on table A, then neither one can proceed. <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > automatically detects deadlock situations and resolves them by aborting one of the transactions involved, allowing the other(s) to complete. (Exactly which transaction will be aborted is difficult to predict and should not be relied upon.) </P ><P > Note that deadlocks can also occur as the result of row-level locks (and thus, they can occur even if explicit locking is not used). Consider the case in which two concurrent transactions modify a table. The first transaction executes: </P><PRE CLASS="SCREEN" >UPDATE accounts SET balance = balance + 100.00 WHERE acctnum = 11111;</PRE ><P> This acquires a row-level lock on the row with the specified account number. Then, the second transaction executes: </P><PRE CLASS="SCREEN" >UPDATE accounts SET balance = balance + 100.00 WHERE acctnum = 22222; UPDATE accounts SET balance = balance - 100.00 WHERE acctnum = 11111;</PRE ><P> The first <TT CLASS="COMMAND" >UPDATE</TT > statement successfully acquires a row-level lock on the specified row, so it succeeds in updating that row. However, the second <TT CLASS="COMMAND" >UPDATE</TT > statement finds that the row it is attempting to update has already been locked, so it waits for the transaction that acquired the lock to complete. Transaction two is now waiting on transaction one to complete before it continues execution. Now, transaction one executes: </P><PRE CLASS="SCREEN" >UPDATE accounts SET balance = balance - 100.00 WHERE acctnum = 22222;</PRE ><P> Transaction one attempts to acquire a row-level lock on the specified row, but it cannot: transaction two already holds such a lock. So it waits for transaction two to complete. Thus, transaction one is blocked on transaction two, and transaction two is blocked on transaction one: a deadlock condition. <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > will detect this situation and abort one of the transactions. </P ><P > The best defense against deadlocks is generally to avoid them by being certain that all applications using a database acquire locks on multiple objects in a consistent order. In the example above, if both transactions had updated the rows in the same order, no deadlock would have occurred. One should also ensure that the first lock acquired on an object in a transaction is the most restrictive mode that will be needed for that object. If it is not feasible to verify this in advance, then deadlocks can be handled on-the-fly by retrying transactions that abort due to deadlocks. </P ><P > So long as no deadlock situation is detected, a transaction seeking either a table-level or row-level lock will wait indefinitely for conflicting locks to be released. This means it is a bad idea for applications to hold transactions open for long periods of time (e.g., while waiting for user input). </P ></DIV ><DIV CLASS="SECT2" ><H2 CLASS="SECT2" ><A NAME="ADVISORY-LOCKS" >13.3.4. Advisory Locks</A ></H2 ><P > <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN > provides a means for creating locks that have application-defined meanings. These are called <I CLASS="FIRSTTERM" >advisory locks</I >, because the system does not enforce their use — it is up to the application to use them correctly. Advisory locks can be useful for locking strategies that are an awkward fit for the MVCC model. For example, a common use of advisory locks is to emulate pessimistic locking strategies typical of so-called <SPAN CLASS="QUOTE" >"flat file"</SPAN > data management systems. While a flag stored in a table could be used for the same purpose, advisory locks are faster, avoid table bloat, and are automatically cleaned up by the server at the end of the session. </P ><P > There are two ways to acquire an advisory lock in <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN >: at session level or at transaction level. Once acquired at session level, an advisory lock is held until explicitly released or the session ends. Unlike standard lock requests, session-level advisory lock requests do not honor transaction semantics: a lock acquired during a transaction that is later rolled back will still be held following the rollback, and likewise an unlock is effective even if the calling transaction fails later. A lock can be acquired multiple times by its owning process; for each completed lock request there must be a corresponding unlock request before the lock is actually released. Transaction-level lock requests, on the other hand, behave more like regular lock requests: they are automatically released at the end of the transaction, and there is no explicit unlock operation. This behavior is often more convenient than the session-level behavior for short-term usage of an advisory lock. Session-level and transaction-level lock requests for the same advisory lock identifier will block each other in the expected way. If a session already holds a given advisory lock, additional requests by it will always succeed, even if other sessions are awaiting the lock; this statement is true regardless of whether the existing lock hold and new request are at session level or transaction level. </P ><P > Like all locks in <SPAN CLASS="PRODUCTNAME" >PostgreSQL</SPAN >, a complete list of advisory locks currently held by any session can be found in the <A HREF="view-pg-locks.html" ><TT CLASS="STRUCTNAME" >pg_locks</TT ></A > system view. </P ><P > Both advisory locks and regular locks are stored in a shared memory pool whose size is defined by the configuration variables <A HREF="runtime-config-locks.html#GUC-MAX-LOCKS-PER-TRANSACTION" >max_locks_per_transaction</A > and <A HREF="runtime-config-connection.html#GUC-MAX-CONNECTIONS" >max_connections</A >. Care must be taken not to exhaust this memory or the server will be unable to grant any locks at all. This imposes an upper limit on the number of advisory locks grantable by the server, typically in the tens to hundreds of thousands depending on how the server is configured. </P ><P > In certain cases using advisory locking methods, especially in queries involving explicit ordering and <TT CLASS="LITERAL" >LIMIT</TT > clauses, care must be taken to control the locks acquired because of the order in which SQL expressions are evaluated. For example: </P><PRE CLASS="SCREEN" >SELECT pg_advisory_lock(id) FROM foo WHERE id = 12345; -- ok SELECT pg_advisory_lock(id) FROM foo WHERE id > 12345 LIMIT 100; -- danger! SELECT pg_advisory_lock(q.id) FROM ( SELECT id FROM foo WHERE id > 12345 LIMIT 100 ) q; -- ok</PRE ><P> In the above queries, the second form is dangerous because the <TT CLASS="LITERAL" >LIMIT</TT > is not guaranteed to be applied before the locking function is executed. This might cause some locks to be acquired that the application was not expecting, and hence would fail to release (until it ends the session). From the point of view of the application, such locks would be dangling, although still viewable in <TT CLASS="STRUCTNAME" >pg_locks</TT >. </P ><P > The functions provided to manipulate advisory locks are described in <A HREF="functions-admin.html#FUNCTIONS-ADVISORY-LOCKS" >Section 9.26.8</A >. </P ></DIV ></DIV ><DIV CLASS="NAVFOOTER" ><HR ALIGN="LEFT" WIDTH="100%"><TABLE SUMMARY="Footer navigation table" WIDTH="100%" BORDER="0" CELLPADDING="0" CELLSPACING="0" ><TR ><TD WIDTH="33%" ALIGN="left" VALIGN="top" ><A HREF="transaction-iso.html" ACCESSKEY="P" >Prev</A ></TD ><TD WIDTH="34%" ALIGN="center" VALIGN="top" ><A HREF="index.html" ACCESSKEY="H" >Home</A ></TD ><TD WIDTH="33%" ALIGN="right" VALIGN="top" ><A HREF="applevel-consistency.html" ACCESSKEY="N" >Next</A ></TD ></TR ><TR ><TD WIDTH="33%" ALIGN="left" VALIGN="top" >Transaction Isolation</TD ><TD WIDTH="34%" ALIGN="center" VALIGN="top" ><A HREF="mvcc.html" ACCESSKEY="U" >Up</A ></TD ><TD WIDTH="33%" ALIGN="right" VALIGN="top" >Data Consistency Checks at the Application Level</TD ></TR ></TABLE ></DIV ></BODY ></HTML >