forked from Mirrors/freeswitch
165f180162
git-svn-id: http://svn.freeswitch.org/svn/freeswitch/trunk@3735 d0543943-73ff-0310-b7d9-9358b9ac24b2
92 lines
3.8 KiB
Tcl
92 lines
3.8 KiB
Tcl
#
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# Run this Tcl script to generate the constraint.html file.
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#
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set rcsid {$Id: conflict.tcl,v 1.4 2004/10/10 17:24:55 drh Exp $ }
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source common.tcl
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header {Constraint Conflict Resolution in SQLite}
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puts {
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<h1>Constraint Conflict Resolution in SQLite</h1>
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<p>
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In most SQL databases, if you have a UNIQUE constraint on
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a table and you try to do an UPDATE or INSERT that violates
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the constraint, the database will abort the operation in
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progress, back out any prior changes associated with
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UPDATE or INSERT command, and return an error.
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This is the default behavior of SQLite.
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Beginning with version 2.3.0, though, SQLite allows you to
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define alternative ways for dealing with constraint violations.
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This article describes those alternatives and how to use them.
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</p>
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<h2>Conflict Resolution Algorithms</h2>
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<p>
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SQLite defines five constraint conflict resolution algorithms
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as follows:
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</p>
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<dl>
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<dt><b>ROLLBACK</b></dt>
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<dd><p>When a constraint violation occurs, an immediate ROLLBACK
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occurs, thus ending the current transaction, and the command aborts
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with a return code of SQLITE_CONSTRAINT. If no transaction is
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active (other than the implied transaction that is created on every
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command) then this algorithm works the same as ABORT.</p></dd>
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<dt><b>ABORT</b></dt>
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<dd><p>When a constraint violation occurs, the command backs out
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any prior changes it might have made and aborts with a return code
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of SQLITE_CONSTRAINT. But no ROLLBACK is executed so changes
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from prior commands within the same transaction
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are preserved. This is the default behavior for SQLite.</p></dd>
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<dt><b>FAIL</b></dt>
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<dd><p>When a constraint violation occurs, the command aborts with a
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return code SQLITE_CONSTRAINT. But any changes to the database that
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the command made prior to encountering the constraint violation
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are preserved and are not backed out. For example, if an UPDATE
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statement encountered a constraint violation on the 100th row that
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it attempts to update, then the first 99 row changes are preserved
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by change to rows 100 and beyond never occur.</p></dd>
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<dt><b>IGNORE</b></dt>
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<dd><p>When a constraint violation occurs, the one row that contains
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the constraint violation is not inserted or changed. But the command
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continues executing normally. Other rows before and after the row that
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contained the constraint violation continue to be inserted or updated
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normally. No error is returned.</p></dd>
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<dt><b>REPLACE</b></dt>
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<dd><p>When a UNIQUE constraint violation occurs, the pre-existing row
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that caused the constraint violation is removed prior to inserting
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or updating the current row. Thus the insert or update always occurs.
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The command continues executing normally. No error is returned.</p></dd>
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</dl>
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<h2>Why So Many Choices?</h2>
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<p>SQLite provides multiple conflict resolution algorithms for a
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couple of reasons. First, SQLite tries to be roughly compatible with as
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many other SQL databases as possible, but different SQL database
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engines exhibit different conflict resolution strategies. For
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example, PostgreSQL always uses ROLLBACK, Oracle always uses ABORT, and
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MySQL usually uses FAIL but can be instructed to use IGNORE or REPLACE.
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By supporting all five alternatives, SQLite provides maximum
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portability.</p>
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<p>Another reason for supporting multiple algorithms is that sometimes
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it is useful to use an algorithm other than the default.
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Suppose, for example, you are
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inserting 1000 records into a database, all within a single
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transaction, but one of those records is malformed and causes
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a constraint error. Under PostgreSQL or Oracle, none of the
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1000 records would get inserted. In MySQL, some subset of the
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records that appeared before the malformed record would be inserted
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but the rest would not. Neither behavior is especially helpful.
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What you really want is to use the IGNORE algorithm to insert
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all but the malformed record.</p>
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}
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footer $rcsid
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