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SQLite Foreign Key Support
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Table Of Contents
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<div id="toc_sub"><div class="fancy-toc1"><a href="#fk_basics">1. Introduction to Foreign Key Constraints</a></div>
<div class="fancy-toc1"><a href="#fk_enable">2.
Enabling Foreign Key Support
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<div class="fancy-toc1"><a href="#fk_indexes">3. Required and Suggested Database Indexes</a></div>
<div class="fancy-toc1"><a href="#fk_advanced">4. Advanced Foreign Key Constraint Features</a></div>
<div class="fancy-toc2"><a href="#fk_composite">4.1. Composite Foreign Key Constraints</a></div>
<div class="fancy-toc2"><a href="#fk_deferred">4.2. Deferred Foreign Key Constraints</a></div>
<div class="fancy-toc2"><a href="#fk_actions">4.3.
ON DELETE and ON UPDATE Actions
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<div class="fancy-toc1"><a href="#fk_schemacommands">5. CREATE, ALTER and DROP TABLE commands</a></div>
<div class="fancy-toc1"><a href="#fk_unsupported">6. Limits and Unsupported Features</a></div>
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<h2 style="margin-left:1.0em" notoc="1" id="overview"> Overview</h2>

<p>This document describes the support for SQL foreign key constraints
   introduced in SQLite <a href="releaselog/3_6_19.html">version 3.6.19</a> (2009-10-14). 

</p><p>The first section introduces the 
   concept of an SQL foreign key by example and defines the terminology 
   used for the remainder of the document. Section 2 describes the steps 
   an application must take in order to enable foreign key constraints in 
   SQLite (it is disabled by default). The next section, section 3, 
   describes the indexes that the user must create in order to use 
   foreign key constraints, and those that should be created in order for
   foreign key constraints to function efficiently. Section 4 describes
   the advanced foreign key related features supported by SQLite and
   section 5 describes the way the <a href="lang_altertable.html">ALTER</a> and <a href="lang_droptable.html">DROP TABLE</a> commands are
   enhanced to support foreign key constraints. Finally, section 6 
   enumerates the missing features and limits of the current implementation.

</p><p>This document does not contain a full description of the syntax used
   to create foreign key constraints in SQLite. This may be found as 
   part of the documentation for the <a href="lang_createtable.html">CREATE TABLE</a> statement.

</p><h1 id="fk_basics"><span>1. </span>Introduction to Foreign Key Constraints</h1>

  <p>
    SQL foreign key constraints are used to enforce "exists" relationships 
    between tables. For example, consider a database schema created using 
    the following SQL commands:

</p><div class="codeblock"><pre>CREATE TABLE artist(
  artistid    INTEGER PRIMARY KEY, 
  artistname  TEXT
);
CREATE TABLE track(
  trackid     INTEGER,
  trackname   TEXT, 
  trackartist INTEGER     <b>-- Must map to an artist.artistid!</b>
);
</pre></div>

  <p>
    The applications using this database are entitled to assume that for
    each row in the <i>track</i> table there exists a corresponding row in the
    <i>artist</i> table. After all, the comment in the declaration says so.
    Unfortunately, if a user edits the database using an external tool or 
    if there is a bug in an application, rows might be inserted into the 
    <i>track</i> table that do not correspond to any row in the <i>artist</i>
    table. Or rows might be deleted from the <i>artist</i> table, leaving
    orphaned rows in the <i>track</i> table that do not correspond to any of
    the remaining rows in <i>artist</i>. This might cause the application
    or applications to malfunction later on, or at least make coding the
    application more difficult.

  </p><p>
    One solution is to add an SQL foreign key constraint to the database 
    schema to enforce the relationship between the <i>artist</i> and 
    <i>track</i> table. To do so, a foreign key definition may be added
    by modifying the declaration of the <i>track</i> table to the following:

</p><div class="codeblock"><pre>CREATE TABLE track(
  trackid     INTEGER, 
  trackname   TEXT, 
  trackartist INTEGER,
  <b>FOREIGN KEY(trackartist) REFERENCES artist(artistid)</b>
);
</pre></div>

  <p>
    This way, the constraint is enforced by SQLite. Attempting to insert
    a row into the <i>track</i> table that does not correspond to any
    row in the <i>artist</i> table will fail, as will attempting to
    delete a row from the <i>artist</i> table when there exist dependent 
    rows in the <i>track</i> table There is one exception: if the foreign
    key column in the <i>track</i> table is NULL, then no corresponding
    entry in the <i>artist</i> table is required. Expressed in SQL, this
    means that for every row in the <i>track</i> table, the following
    expression evaluates to true:
</p><div class="codeblock"><pre>trackartist IS NULL OR EXISTS(SELECT 1 FROM artist WHERE artistid=trackartist)
</pre></div>

  <p>Tip: If the application requires a stricter relationship between 
     <i>artist</i> and <i>track</i>, where NULL values are not permitted 
     in the <i>trackartist</i> column, simply add the appropriate 
     "NOT NULL" constraint to the schema.

  </p><p>There are several other ways to add an equivalent foreign key declaration 
     to a <a href="lang_createtable.html">CREATE TABLE</a> statement. Refer to the 
     <a href="lang_createtable.html">CREATE TABLE documentation</a> for details.

  </p><p>The following SQLite command-line session illustrates the effect of the
     foreign key constraint added to the <i>track</i> table:

</p><div class="codeblock"><pre>sqlite&gt; SELECT * FROM artist;
artistid  artistname       
--------  -----------------
1         Dean Martin      
2         Frank Sinatra    

sqlite> SELECT * FROM track;
trackid  trackname          trackartist
-------  -----------------  -----------
11       That's Amore       1  
12       Christmas Blues    1  
13       My Way             2  

sqlite&gt; <i>-- This fails because the value inserted into the trackartist column (3)</i>
sqlite&gt; <i>-- does not correspond to row in the artist table.</i>
sqlite&gt; INSERT INTO track VALUES(14, 'Mr. Bojangles', 3);
<b>SQL error: foreign key constraint failed</b>

sqlite&gt; <i>-- This succeeds because a NULL is inserted into trackartist. A</i>
sqlite&gt; <i>-- corresponding row in the artist table is not required in this case.</i>
sqlite&gt; INSERT INTO track VALUES(14, 'Mr. Bojangles', NULL);

sqlite&gt; <i>-- Trying to modify the trackartist field of the record after it has </i>
sqlite&gt; <i>-- been inserted does not work either, since the new value of trackartist (3)</i>
sqlite&gt; <i>-- Still does not correspond to any row in the artist table.</i>
sqlite&gt; UPDATE track SET trackartist = 3 WHERE trackname = 'Mr. Bojangles';
<b>SQL error: foreign key constraint failed</b>

sqlite&gt; <i>-- Insert the required row into the artist table. It is then possible to</i>
sqlite&gt; <i>-- update the inserted row to set trackartist to 3 (since a corresponding</i>
sqlite&gt; <i>-- row in the artist table now exists).</i>
sqlite&gt; INSERT INTO artist VALUES(3, 'Sammy Davis Jr.');
sqlite&gt; UPDATE track SET trackartist = 3 WHERE trackname = 'Mr. Bojangles';

sqlite&gt; <i>-- Now that "Sammy Davis Jr." (artistid = 3) has been added to the database,</i>
sqlite&gt; <i>-- it is possible to INSERT new tracks using this artist without violating</i>
sqlite&gt; <i>-- the foreign key constraint:</i>
sqlite&gt; INSERT INTO track VALUES(15, 'Boogie Woogie', 3);
</pre></div>

  <p>
    As you would expect, it is not possible to manipulate the database to a state
    that violates the foreign key constraint by deleting or updating rows in the 
    <i>artist</i> table either:
</p><div class="codeblock"><pre>sqlite&gt; <i>-- Attempting to delete the artist record for "Frank Sinatra" fails, since</i>
sqlite&gt; <i>-- the track table contains a row that refer to it.</i>
sqlite&gt; DELETE FROM artist WHERE artistname = 'Frank Sinatra';
<b>SQL error: foreign key constraint failed</b>

sqlite&gt; <i>-- Delete all the records from the track table that refer to the artist</i>
sqlite&gt; <i>-- "Frank Sinatra". Only then is it possible to delete the artist.</i>
sqlite&gt; DELETE FROM track WHERE trackname = 'My Way';
sqlite&gt; DELETE FROM artist WHERE artistname = 'Frank Sinatra';

sqlite&gt; <i>-- Try to update the artistid of a row in the artist table while there</i>
sqlite&gt; <i>-- exists records in the track table that refer to it. </i>
sqlite&gt; UPDATE artist SET artistid=4 WHERE artistname = 'Dean Martin';
<b>SQL error: foreign key constraint failed</b>

sqlite&gt; <i>-- Once all the records that refer to a row in the artist table have</i>
sqlite&gt; <i>-- been deleted, it is possible to modify the artistid of the row.</i>
sqlite&gt; DELETE FROM track WHERE trackname IN('That''s Amore', 'Christmas Blues');
sqlite&gt; UPDATE artist SET artistid=4 WHERE artistname = 'Dean Martin';
</pre></div>

  <p>
    SQLite uses the following terminology:
<a name="parentchild"></a>

  </p><ul>
    <li><p>The <b>parent table</b> is the table that a foreign key constraint
        refers to. The parent table in the example in this section is the
        <i>artist</i> table. Some books and articles refer to this as the
        <i>referenced table</i>, which is arguably more correct, but tends
        to lead to confusion.

    </p></li><li><p>The <b>child table</b> is the table that a foreign key constraint
        is applied to and the table that contains the REFERENCES clause.
        The example in this section uses the <i>track</i> table
        as the child table. Other books and articles refer to this as the
        <i>referencing table</i>.

    </p></li><li><p>The <b>parent key</b> is the column or set of columns in the parent 
        table that the foreign key constraint refers to. This is normally, but
        not always, the primary key of the parent table.  The parent key must
        be a named column or columns in the parent table, not the <a href="lang_createtable.html#rowid">rowid</a>.

    </p></li><li><p>The <b>child key</b> is the column or set of columns in the child 
        table that are constrained by the foreign key constraint and which
        hold the REFERENCES clause.
  </p></li></ul>

  <p>
    The foreign key constraint is satisfied if for each row in the child table 
    either one or more of the child key columns are NULL, or there exists a 
    row in the parent table for which each parent key column contains a value
    equal to the value in its associated child key column.

  </p><p>
    In the above paragraph, the term "equal" means equal when values are 
    compared using the rules <a href="datatype3.html#comparisons">specified 
    here</a>. The following clarifications apply:
    
  </p><ul>
    <li><p>When comparing text values, the <a href="datatype3.html#collation">collating sequence</a>
        associated with the parent key column is always used.
    </p></li><li><p>When comparing values, if the parent key column has an <a href="datatype3.html#affinity">affinity</a>,
        then that affinity is applied to the child key value before the
        comparison is performed.  
  </p></li></ul>

<a name="fk_enable"></a>
<h1 id="fk_enable" tags="foreign key constraints are enabled"><span>2. </span>
  Enabling Foreign Key Support
</h1>
  <p>
    In order to use foreign key constraints in SQLite, the library must
    be compiled with neither <a href="compile.html#omit_foreign_key">SQLITE_OMIT_FOREIGN_KEY</a> nor 
    <a href="compile.html#omit_trigger">SQLITE_OMIT_TRIGGER</a> defined. If SQLITE_OMIT_TRIGGER is defined 
    but SQLITE_OMIT_FOREIGN_KEY is not, then SQLite behaves as it did prior 
    to <a href="releaselog/3_6_19.html">version 3.6.19</a> (2009-10-14)
    - foreign key definitions are parsed and may be 
    queried using <a href="pragma.html#pragma_foreign_key_list">PRAGMA foreign_key_list</a>, but foreign key constraints 
    are not enforced. The <a href="pragma.html#pragma_foreign_keys">PRAGMA foreign_keys</a> command is a no-op in this 
    configuration. If OMIT_FOREIGN_KEY is defined, then foreign key 
    definitions cannot even be parsed (attempting to specify a foreign
    key definition is a syntax error).

  </p><p>
    Assuming the library is compiled with foreign key constraints enabled,
    it must still be enabled by the application at runtime, using the
    <a href="pragma.html#pragma_foreign_keys">PRAGMA foreign_keys</a> command. For example:

</p><div class="codeblock"><pre>sqlite&gt; PRAGMA foreign_keys = ON;
</pre></div>

  <p>
    Foreign key constraints are disabled by default 
    (for backwards compatibility),
    so must be enabled separately for each <a href="c3ref/sqlite3.html">database connection</a>.
    (Note, however, that future releases of SQLite might change
    so that foreign key constraints enabled by default.  Careful
    developers will not
    make any assumptions about whether or not foreign keys are enabled by
    default but will instead enable or disable them as necessary.)
    The application can also use a <a href="pragma.html#pragma_foreign_keys">PRAGMA foreign_keys</a> statement to
    determine if foreign keys are currently enabled. The following 
    command-line session demonstrates this:
</p><div class="codeblock"><pre>sqlite> PRAGMA foreign_keys;
0
sqlite> PRAGMA foreign_keys = ON;
sqlite> PRAGMA foreign_keys;
1
sqlite> PRAGMA foreign_keys = OFF;
sqlite> PRAGMA foreign_keys;
0
</pre></div>

  <p>Tip: If the command "PRAGMA foreign_keys" returns no data instead of a
     single row containing "0" or "1", then the version of SQLite you are
     using does not support foreign keys (either because it is older than
     3.6.19 or because it was compiled with <a href="compile.html#omit_foreign_key">SQLITE_OMIT_FOREIGN_KEY</a> or 
     <a href="compile.html#omit_trigger">SQLITE_OMIT_TRIGGER</a> defined).

  </p><p>
    It is not possible to enable or disable foreign key constraints
    in the middle of a <a href="lang_transaction.html">multi-statement transaction</a> (when SQLite
    is not in <a href="c3ref/get_autocommit.html">autocommit mode</a>).  Attempting to do so does not return
    an error; it simply has no effect.

</p><h1 id="fk_indexes"><span>3. </span>Required and Suggested Database Indexes</h1>

  <p>
    Usually, the parent key of a foreign key constraint is the primary key of
    the parent table. If they are not the primary key, then the parent key
    columns must be collectively subject to a UNIQUE constraint or have
    a UNIQUE index. 
    If the parent key columns have a UNIQUE index,
    then that index must use the collation sequences that are specified
    in the CREATE TABLE statement for the parent table.
    For example,

</p><div class="codeblock"><pre>CREATE TABLE parent(a PRIMARY KEY, b UNIQUE, c, d, e, f);
CREATE UNIQUE INDEX i1 ON parent(c, d);
CREATE INDEX i2 ON parent(e);
CREATE UNIQUE INDEX i3 ON parent(f COLLATE nocase);

CREATE TABLE child1(f, g REFERENCES parent(a));                        <i>-- Ok</i>
CREATE TABLE child2(h, i REFERENCES parent(b));                        <i>-- Ok</i>
CREATE TABLE child3(j, k, FOREIGN KEY(j, k) REFERENCES parent(c, d));  <i>-- Ok</i>
CREATE TABLE child4(l, m REFERENCES parent(e));                        <i>-- Error!</i>
CREATE TABLE child5(n, o REFERENCES parent(f));                        <i>-- Error!</i>
CREATE TABLE child6(p, q, FOREIGN KEY(p, q) REFERENCES parent(b, c));  <i>-- Error!</i>
CREATE TABLE child7(r REFERENCES parent(c));                           <i>-- Error!</i>
</pre></div>

  <p>
    The foreign key constraints created as part of tables <i>child1</i>, 
    <i>child2</i> and <i>child3</i> are all fine. The foreign key
    declared as part of table <i>child4</i> is an error because even though
    the parent key column is indexed, the index is not UNIQUE.
    The foreign key for table <i>child5</i>
    is an error because even though the parent key column has a unique
    index, the index uses a different collating sequence.
    Tables <i>child6</i> and <i>child7</i> are incorrect because while
    both have UNIQUE indices on their parent keys, the keys are not an
    exact match to the columns of a single UNIQUE index.

  </p><p>
    If the database schema contains foreign key errors that require looking
    at more than one table definition to identify, then those errors are not
    detected when the tables are created. Instead, such errors prevent
    the application from preparing SQL statements that modify the content
    of the child or parent tables in ways that use the foreign keys.
    Errors reported when content is changed are "DML errors" and errors
    reported when the schema is changed are "DDL errors".
    So, in other words, misconfigured foreign key constraints that require
    looking at both the child and parent are DML errors.
    The English language error message for foreign key DML errors is usually
    "foreign key mismatch" but can also be "no such table" if the parent
    table does not exist.
    Foreign key DML errors are reported if:

  </p><ul>
    <li> The parent table does not exist, or
    </li><li> The parent key columns named in the foreign key constraint do
         not exist, or
    </li><li> The parent key columns named in the foreign key constraint are not
         the primary key of the parent table and are not subject to a unique
         constraint using collating sequence specified in the CREATE TABLE, or
    </li><li> The child table references the primary key of the parent without
         specifying the primary key columns and the number of primary key
         columns in the parent do not match the number of child key columns.
  </li></ul>

  <p>
    The last bullet above is illustrated by the following:

</p><div class="codeblock"><pre>CREATE TABLE parent2(a, b, PRIMARY KEY(a,b));

CREATE TABLE child8(x, y, FOREIGN KEY(x,y) REFERENCES parent2);        <i>-- Ok</i>
CREATE TABLE child9(x REFERENCES parent2);                             <i>-- Error!</i>
CREATE TABLE child10(x,y,z, FOREIGN KEY(x,y,z) REFERENCES parent2);    <i>-- Error!</i>
</pre></div>

  <p>
    By contrast, if foreign key errors can be recognized simply by looking
    at the definition of the child table and without having to consult the
    parent table definition, then the 
    <a href="lang_createtable.html">CREATE TABLE</a> statement for the child table fails.  Because the error
    occurs during a schema change, this is a DDL error.
    Foreign key DDL errors are reported regardless of
    whether or not foreign key constraints are enabled when the
    table is created.

  </p><p>
    Indices are not required for child key columns but they are almost
    always beneficial. Returning to
    the example in <a href="#fk_basics">section 1</a>, each time an application
    deletes a row from the <i>artist</i> table (the parent table), it
    performs the equivalent of the following SELECT statement to search
    for referencing rows in the <i>track</i> table (the child table).

</p><div class="codeblock"><pre>SELECT rowid FROM track WHERE trackartist = ?
</pre></div>

 <p>
   where ? in the above is replaced with the value of the <i>artistid</i>
   column of the record being deleted from the <i>artist</i> table (recall
   that the <i>trackartist</i> column is the child key and the <i>artistid</i>
   column is the parent key). Or, more generally:

</p><div class="codeblock"><pre>SELECT rowid FROM &lt;child-table&gt; WHERE &lt;child-key&gt; = :parent_key_value
</pre></div>

 <p>
   If this SELECT returns any rows at all, then SQLite concludes that
   deleting the row from the parent table would violate the foreign key
   constraint and returns an error.
   Similar queries may be run if the content of the parent key
   is modified or a new row is inserted into the parent table.
   If these queries cannot use an index, they are forced to do a
   linear scan of the entire child table.  In a non-trivial database, this may
   be prohibitively expensive.

 </p><p>
   So, in most real systems, an index should be created on the child key columns
   of each foreign key constraint. The child key index does not have
   to be (and usually will not be) a UNIQUE index.
   Returning again to the example in section 1, the
   complete database schema for efficient implementation of the foreign key 
   constraint might be:

</p><div class="codeblock"><pre>CREATE TABLE artist(
  artistid    INTEGER PRIMARY KEY, 
  artistname  TEXT
);
CREATE TABLE track(
  trackid     INTEGER,
  trackname   TEXT, 
  trackartist INTEGER REFERENCES artist
);
CREATE INDEX trackindex ON track(trackartist);
</pre></div>

  <p>
    The block above uses a shorthand form to create the foreign key constraint.
    Attaching a "REFERENCES <i>&lt;parent-table&gt;</i>" clause to a column
    definition creates a foreign key constraint that maps the column to the
    primary key of <i>&lt;parent-table&gt;</i>. Refer to the <a href="lang_createtable.html">CREATE TABLE</a> 
    documentation for further details.


</p><h1 id="fk_advanced"><span>4. </span>Advanced Foreign Key Constraint Features</h1>

<h2 id="fk_composite"><span>4.1. </span>Composite Foreign Key Constraints</h2>

  <p>
    A composite foreign key constraint is one where the child and parent keys
    are both composite keys. For example, consider
    the following database schema:

</p><div class="codeblock"><pre>CREATE TABLE album(
  albumartist TEXT,
  albumname TEXT,
  albumcover BINARY,
  PRIMARY KEY(albumartist, albumname)
);

CREATE TABLE song(
  songid     INTEGER,
  songartist TEXT,
  songalbum TEXT,
  songname   TEXT,
  <b>FOREIGN KEY(songartist, songalbum) REFERENCES album(albumartist, albumname)</b>
);
</pre></div>

  <p>
    In this system, each entry in the song table is required to map to an entry
    in the album table with the same combination of artist and album.

  </p><p>
    Parent and child keys must have the same cardinality.
    In SQLite, if any of the child key columns (in this case songartist 
    and songalbum) are NULL, then there is no requirement for a corresponding
    row in the parent table.

</p><h2 id="fk_deferred"><span>4.2. </span>Deferred Foreign Key Constraints</h2>

  <p>
    Each foreign key constraint in SQLite is classified as either immediate
     or deferred. Foreign key constraints are immediate by default.
     All the foreign key examples presented
     so far have been of immediate foreign key constraints.

  </p><p>
    If a statement modifies the contents of the database so that an immediate 
    foreign key constraint is in violation at the conclusion the statement, 
    an exception is thrown and 
    the effects of the statement are reverted. By contrast, if
    a statement modifies the contents of the database such that a deferred 
    foreign key constraint is violated, the violation is not reported
    immediately. Deferred foreign key constraints are not checked
    until the transaction tries to <a href="lang_transaction.html">COMMIT</a>.
    For as long as the user has 
    an open transaction, the database is allowed to exist in a state that 
    violates any number of deferred foreign key constraints. However, 
    <a href="lang_transaction.html">COMMIT</a> will fail as long as foreign key constraints remain in
    violation.

  </p><p>
    If the current statement is not inside an explicit transaction (a 
    <a href="lang_transaction.html">BEGIN</a>/<a href="lang_transaction.html">COMMIT</a>/<a href="lang_transaction.html">ROLLBACK</a> block), then an implicit
    transaction is committed
    as soon as the statement has finished executing. In this case deferred
    constraints behave the same as immediate constraints.

  </p><p>
    To mark a foreign key constraint as deferred, its declaration must
    include the following clause:

</p><div class="codeblock"><pre>DEFERRABLE INITIALLY DEFERRED                <i>-- A deferred foreign key constraint</i>
</pre></div>

  <p>
    The full syntax for specifying foreign key constraints is available as part
    of the <a href="lang_createtable.html">CREATE TABLE</a> documentation. Replacing the phrase above
    with any of the following 
    creates an immediate foreign key constraint.

</p><div class="codeblock"><pre>NOT DEFERRABLE INITIALLY DEFERRED            <i>-- An immediate foreign key constraint</i>
NOT DEFERRABLE INITIALLY IMMEDIATE           <i>-- An immediate foreign key constraint</i>
NOT DEFERRABLE                               <i>-- An immediate foreign key constraint</i>
DEFERRABLE INITIALLY IMMEDIATE               <i>-- An immediate foreign key constraint</i>
DEFERRABLE                                   <i>-- An immediate foreign key constraint</i>
</pre></div>

  <p>The <a href="pragma.html#pragma_defer_foreign_keys">defer_foreign_keys pragma</a> can be used to temporarily change all foreign
    key constraints to deferred regardless of how they are declared.

  </p><p>
    The following example illustrates the effect of using a deferred foreign
    key constraint.

</p><div class="codeblock"><pre><i>-- Database schema. Both tables are initially empty. </i>
CREATE TABLE artist(
  artistid    INTEGER PRIMARY KEY, 
  artistname  TEXT
);
CREATE TABLE track(
  trackid     INTEGER,
  trackname   TEXT, 
  trackartist INTEGER REFERENCES artist(artistid) <b>DEFERRABLE INITIALLY DEFERRED</b>
);

sqlite3&gt; <i>-- If the foreign key constraint were immediate, this INSERT would</i>
sqlite3&gt; <i>-- cause an error (since as there is no row in table artist with</i>
sqlite3&gt; <i>-- artistid=5). But as the constraint is deferred and there is an</i>
sqlite3&gt; <i>-- open transaction, no error occurs.</i>
sqlite3&gt; BEGIN;
sqlite3&gt;   INSERT INTO track VALUES(1, 'White Christmas', 5);

sqlite3&gt; <i>-- The following COMMIT fails, as the database is in a state that</i>
sqlite3&gt; <i>-- does not satisfy the deferred foreign key constraint. The</i>
sqlite3&gt; <i>-- transaction remains open.</i>
sqlite3&gt; COMMIT;
<b>SQL error: foreign key constraint failed</b>

sqlite3&gt; <i>-- After inserting a row into the artist table with artistid=5, the</i>
sqlite3&gt; <i>-- deferred foreign key constraint is satisfied. It is then possible</i>
sqlite3&gt; <i>-- to commit the transaction without error.</i>
sqlite3&gt;   INSERT INTO artist VALUES(5, 'Bing Crosby');
sqlite3&gt; COMMIT;
</pre></div>
  <p>
    A <a href="lang_savepoint.html">nested savepoint</a> transaction may be RELEASEd while the
    database is in a state that does not satisfy a deferred foreign key 
    constraint. A transaction savepoint (a non-nested savepoint that was
    opened while there was not currently an open transaction), on the 
    other hand, is subject to the same restrictions as a COMMIT - attempting 
    to RELEASE it while the database is in such a state will fail.

  </p><p>
    If a COMMIT statement (or the RELEASE of a transaction SAVEPOINT) fails
    because the database is currently in a state that violates a deferred
    foreign key constraint and there are currently
    <a href="lang_savepoint.html">nested savepoints</a>, the nested savepoints remain open.


</p><a name="fk_actions"></a>
<h2 id="fk_actions" tags="foreign key actions"><span>4.3. </span>
  ON DELETE and ON UPDATE Actions
</h2>

  <p>
    Foreign key ON DELETE and ON UPDATE clauses are used to configure actions
    that take place when deleting rows from the parent table (ON DELETE), or 
    modifying the parent key values of existing rows (ON UPDATE). A single
    foreign key constraint may have different actions configured for ON DELETE
    and ON UPDATE. Foreign key actions are similar to triggers in many ways.

  </p><p>
    The ON DELETE and ON UPDATE action associated with each foreign key in an
    SQLite database is one of "NO ACTION", "RESTRICT", "SET NULL",
    "SET DEFAULT" or "CASCADE". If an action is not explicitly specified, it 
    defaults to "NO ACTION".

  </p><ul>
    <li><p> <b>NO ACTION</b>: Configuring "NO ACTION" means just that: when a
     parent key is modified or deleted from the database, no special action is
     taken.

    </p></li><li><p> <b>RESTRICT</b>: The "RESTRICT" action means that the application
      is prohibited from deleting (for ON DELETE RESTRICT) or modifying
      (for ON UPDATE RESTRICT) a parent key when there exists one or more child
      keys mapped to it. The difference between the effect of a RESTRICT
      action and normal foreign key constraint enforcement is that the
      RESTRICT action processing happens as soon as the field is updated -
      not at the end of the current statement as it would with an immediate
      constraint, or at the end of the current transaction as it would with
      a deferred constraint.
      Even if the foreign key constraint it is 
      attached to is deferred, configuring a RESTRICT action causes SQLite to 
      return an error immediately if a parent key with dependent child keys is 
      deleted or modified.

    </p></li><li><p> <b>SET NULL</b>: If the configured action is "SET NULL", then when
      a parent key is deleted (for ON DELETE SET NULL) or modified (for ON 
      UPDATE SET NULL), the child key columns of all rows in the child table
      that mapped to the parent key are set to contain SQL NULL values.

    </p></li><li><p> <b>SET DEFAULT</b>: The "SET DEFAULT" actions are similar to
      "SET NULL",
      except that each of the child key columns is set to contain the column's 
      default value instead of NULL. Refer to the <a href="lang_createtable.html">CREATE TABLE</a> 
      documentation for details on how default values are assigned to table
      columns.

    </p></li><li><p> <b>CASCADE</b>: A "CASCADE" action propagates the delete or update
      operation on the parent key to each dependent child key. For an "ON 
      DELETE CASCADE" action, this means that each row in the child table that
      was associated with the deleted parent row is also deleted. For an "ON
      UPDATE CASCADE" action, it means that the values stored in each dependent
      child key are modified to match the new parent key values.
  </p></li></ul>

  <p>
    For example, adding an "ON UPDATE CASCADE" clause to the foreign key as
    shown below enhances the example schema from section 1 to allow the user
    to update the artistid (the parent key of the foreign key constraint) 
    column without breaking referential integrity:
</p><div class="codeblock"><pre><i>-- Database schema</i>
CREATE TABLE artist(
  artistid    INTEGER PRIMARY KEY, 
  artistname  TEXT
);
CREATE TABLE track(
  trackid     INTEGER,
  trackname   TEXT, 
  trackartist INTEGER REFERENCES artist(artistid) <b>ON UPDATE CASCADE</b>
);

sqlite&gt; SELECT * FROM artist;
artistid  artistname       
--------  -----------------
1         Dean Martin      
2         Frank Sinatra    

sqlite&gt; SELECT * FROM track;
trackid  trackname          trackartist
-------  -----------------  -----------
11       That's Amore       1
12       Christmas Blues    1
13       My Way             2  

sqlite&gt; <i>-- Update the artistid column of the artist record for "Dean Martin".</i>
sqlite&gt; <i>-- Normally, this would raise a constraint, as it would orphan the two</i>
sqlite&gt; <i>-- dependent records in the track table. However, the ON UPDATE CASCADE clause</i>
sqlite&gt; <i>-- attached to the foreign key definition causes the update to "cascade"</i>
sqlite&gt; <i>-- to the child table, preventing the foreign key constraint violation.</i>
sqlite&gt; UPDATE artist SET artistid = 100 WHERE artistname = 'Dean Martin';

sqlite&gt; SELECT * FROM artist;
artistid  artistname       
--------  -----------------
2         Frank Sinatra    
100       Dean Martin      

sqlite&gt; SELECT * FROM track;
trackid  trackname          trackartist
-------  -----------------  -----------
11       That's Amore       100
12       Christmas Blues    100  
13       My Way             2  
</pre></div>

  <p>
    Configuring an ON UPDATE or ON DELETE action does not mean that the foreign
    key constraint does not need to be satisfied. For example, if an
    "ON DELETE SET DEFAULT" action is configured,
    but there is no row in the parent table 
    that corresponds to the default values of the child key columns, deleting
    a parent key while dependent child keys exist still causes a foreign key
    violation. For example:

</p><div class="codeblock"><pre><i>-- Database schema</i>
CREATE TABLE artist(
  artistid    INTEGER PRIMARY KEY, 
  artistname  TEXT
);
CREATE TABLE track(
  trackid     INTEGER,
  trackname   TEXT, 
  trackartist INTEGER <b>DEFAULT 0</b> REFERENCES artist(artistid) <b>ON DELETE SET DEFAULT</b>
);

sqlite&gt; SELECT * FROM artist;
artistid  artistname       
--------  -----------------
3         Sammy Davis Jr.

sqlite&gt; SELECT * FROM track;
trackid  trackname          trackartist
-------  -----------------  -----------
14       Mr. Bojangles      3

sqlite&gt; <i>-- Deleting the row from the parent table causes the child key</i>
sqlite&gt; <i>-- value of the dependent row to be set to integer value 0. However, this</i>
sqlite&gt; <i>-- value does not correspond to any row in the parent table. Therefore</i>
sqlite&gt; <i>-- the foreign key constraint is violated and an is exception thrown.</i>
sqlite&gt; DELETE FROM artist WHERE artistname = 'Sammy Davis Jr.';
<b>SQL error: foreign key constraint failed</b>

sqlite&gt; <i>-- This time, the value 0 does correspond to a parent table row. And</i>
sqlite&gt; <i>-- so the DELETE statement does not violate the foreign key constraint</i>
sqlite&gt; <i>-- and no exception is thrown.</i>
sqlite&gt; INSERT INTO artist VALUES(0, 'Unknown Artist');
sqlite&gt; DELETE FROM artist WHERE artistname = 'Sammy Davis Jr.';

sqlite&gt; SELECT * FROM artist;
artistid  artistname       
--------  -----------------
0         Unknown Artist

sqlite&gt; SELECT * FROM track;
trackid  trackname          trackartist
-------  -----------------  -----------
14       Mr. Bojangles      0
</pre></div>

  <p>
    Those familiar with <a href="lang_createtrigger.html">SQLite triggers</a>
    will have noticed that the 
    "ON DELETE SET DEFAULT" action demonstrated in the example above is
    similar in effect to the following AFTER DELETE trigger:
</p><div class="codeblock"><pre>CREATE TRIGGER on_delete_set_default AFTER DELETE ON artist BEGIN
  UPDATE child SET trackartist = 0 WHERE trackartist = old.artistid;
END;
</pre></div>

  <p>
    Whenever a row in the parent table of a foreign key constraint is deleted,
    or when the values stored in the parent key column or columns are modified, 
    the logical sequence of events is:

  </p><ol>
   <li> Execute applicable BEFORE trigger programs,
   </li><li> Check local (non foreign key) constraints,
   </li><li> Update or delete the row in the parent table,
   </li><li> Perform any required foreign key actions,
   </li><li> Execute applicable AFTER trigger programs.
  </li></ol>

  <p>
    There is one important difference between ON UPDATE foreign key actions and
    SQL triggers. An ON UPDATE action is only taken if the values of the
    parent key are modified so that the new parent key values are 
    not equal to the old. For example:

</p><div class="codeblock"><pre><i>-- Database schema</i>
CREATE TABLE parent(x PRIMARY KEY);
CREATE TABLE child(y REFERENCES parent ON UPDATE SET NULL);

sqlite&gt; SELECT * FROM parent;
x
----
key

sqlite&gt; SELECT * FROM child;
y
----
key

sqlite&gt; <i>-- Since the following UPDATE statement does not actually modify</i>
sqlite&gt; <i>-- the parent key value, the ON UPDATE action is not performed and</i>
sqlite&gt; <i>-- the child key value is not set to NULL.</i>
sqlite&gt; UPDATE parent SET x = 'key';
sqlite&gt; SELECT IFNULL(y, 'null') FROM child;
y
----
key

sqlite&gt; <i>-- This time, since the UPDATE statement does modify the parent key</i>
sqlite&gt; <i>-- value, the ON UPDATE action is performed and the child key is set</i>
sqlite&gt; <i>-- to NULL.</i>
sqlite&gt; UPDATE parent SET x = 'key2';
sqlite&gt; SELECT IFNULL(y, 'null') FROM child;
y
----
null
</pre></div>

<h1 id="fk_schemacommands"><span>5. </span>CREATE, ALTER and DROP TABLE commands</h1>

  <p>
    This section describes the way the <a href="lang_createtable.html">CREATE TABLE</a>, <a href="lang_altertable.html">ALTER TABLE</a>,
    and <a href="lang_droptable.html">DROP TABLE</a> commands
    interact with SQLite's foreign keys.

  </p><p>
    A <a href="lang_createtable.html">CREATE TABLE</a> command operates the same whether or not
    <a href="foreignkeys.html#fk_enable">foreign key constraints are enabled</a>.  The parent key definitions of 
    foreign key constraints are not checked when a table is created. There is
    nothing stopping the user from creating a foreign key definition that
    refers to a parent table that does not exist, or to parent key columns that
    do not exist or are not collectively bound by a PRIMARY KEY or UNIQUE
    constraint.

  </p><p>
    The <a href="lang_altertable.html">ALTER TABLE</a> command works differently in two respects when foreign
    key constraints are enabled:

  </p><ul>
    <li><p> 
         It is not possible to use the "ALTER TABLE ... ADD COLUMN" syntax
         to add a column that includes a REFERENCES clause, unless the default
         value of the new column is NULL. Attempting to do so returns an
         error.

    </p></li><li><p> 
         If an "ALTER TABLE ... RENAME TO" command is used to rename a table
         that is the parent table of one or more foreign key constraints, the
         definitions of the foreign key constraints are modified to refer to
         the parent table by its new name. The text of the child CREATE
         TABLE statement or statements stored in the <a href="schematab.html">sqlite_schema table</a> are 
         modified to reflect the new parent table name.
  </p></li></ul>

  <p>
    If foreign key constraints are enabled when it is prepared, the 
    <a href="lang_droptable.html">DROP TABLE</a> command performs an implicit <a href="lang_delete.html">DELETE</a> to remove all
    rows from the table before dropping it. The implicit DELETE does not cause
    any SQL triggers to fire, but may invoke foreign key actions or constraint
    violations. If an immediate foreign key constraint is violated, the DROP
    TABLE statement fails and the table is not dropped. If a deferred foreign
    key constraint is violated, then an error is reported when the user attempts
    to commit the transaction if the foreign key constraint violations still
    exist at that point. Any "foreign key mismatch" errors encountered as part 
    of an implicit DELETE are ignored.

  </p><p>
    The intent of these enhancements to the <a href="lang_altertable.html">ALTER TABLE</a> and <a href="lang_droptable.html">DROP TABLE</a>
    commands is to ensure that they cannot be used to create a database that
    contains foreign key violations, at least while foreign key constraints are
    enabled. There is one exception to this rule though. If a parent key is
    not subject to a PRIMARY KEY or UNIQUE constraint created as part of the
    parent table definition, but is subject to a UNIQUE constraint by virtue
    of an index created using the <a href="lang_createindex.html">CREATE INDEX</a> command, then the child 
    table may be populated without causing a "foreign key mismatch" error. If
    the UNIQUE index is dropped from the database schema, then the parent table
    itself is dropped, no error will be reported. However the database may be
    left in a state where the child table of the foreign key constraint contains
    rows that do not refer to any parent table row. This case can be avoided
    if all parent keys in the database schema are constrained by PRIMARY KEY
    or UNIQUE constraints added as part of the parent table definition, not
    by external UNIQUE indexes.

  </p><p>
    The properties of the <a href="lang_droptable.html">DROP TABLE</a> and <a href="lang_altertable.html">ALTER TABLE</a> commands described
    above only apply if foreign keys are enabled. If the user considers them
    undesirable, then the workaround is to use <a href="pragma.html#pragma_foreign_keys">PRAGMA foreign_keys</a> to 
    disable foreign key constraints before executing the DROP or ALTER TABLE 
    command. Of course, while foreign key constraints are disabled, there is nothing
    to stop the user from violating foreign key constraints and thus creating
    an internally inconsistent database.
   
    

</p><h1 id="fk_unsupported"><span>6. </span>Limits and Unsupported Features</h1>

  <p>
    This section lists a few limitations and omitted features that are not
    mentioned elsewhere.

  </p><ol>
    <li><p> 
      <b>No support for the MATCH clause.</b> According to SQL92, a MATCH clause
         may be attached to a composite foreign key definition to modify the way
         NULL values that occur in child keys are handled. If "MATCH SIMPLE" is
         specified, then a child key is not required to correspond to any row
         of the parent table if one or more of the child key values are NULL.
         If "MATCH FULL" is specified, then if any of the child key values is
         NULL, no corresponding row in the parent table is required, but all
         child key values must be NULL. Finally, if the foreign key constraint
         is declared as "MATCH PARTIAL" and one of the child key values is NULL,
         there must exist at least one row in the parent table for which the
         non-NULL child key values match the parent key values.

       </p><p>
         SQLite parses MATCH clauses (i.e. does not report a syntax error
         if you specify one), but does not enforce them. All foreign key 
         constraints in SQLite are handled as if MATCH SIMPLE were specified.
    </p></li><li> <p>
      <b>No support for switching constraints between deferred and immediate 
         mode.</b> Many systems allow the user to toggle individual foreign key
         constraints between <a href="#fk_deferred">deferred</a> and immediate 
         mode at runtime (for example using the Oracle "SET CONSTRAINT" command).
         SQLite does not support this. In SQLite, a foreign key constraint is
         permanently marked as deferred or immediate when it is created.

    </p></li><li><p>
      <b>Recursion limit on foreign key actions.</b> The 
         <a href="limits.html#max_trigger_depth">SQLITE_MAX_TRIGGER_DEPTH</a> and <a href="c3ref/c_limit_attached.html#sqlitelimittriggerdepth">SQLITE_LIMIT_TRIGGER_DEPTH</a>
         settings determine the maximum allowable depth of trigger
         program recursion. For the purposes of these limits,
         <a href="foreignkeys.html#fk_actions">foreign key actions</a> are considered trigger programs. The
         <a href="pragma.html#pragma_recursive_triggers">PRAGMA recursive_triggers</a> setting does not affect the operation 
         of foreign key actions. It is not possible to disable recursive foreign
         key actions.

    </p></li><li><p>
      <b>Foreign keys may not cross schema boundaries.</b> That is, in
      <code>REFERENCES (X.Y)</code> table <code>X</code> will only be resolved
      within the schema which contains the <code>REFERENCES</code> clause.
  </p></li></ol>
<p align="center"><small><i>This page last modified on  <a href="https://sqlite.org/docsrc/honeypot" id="mtimelink"  data-href="https://sqlite.org/docsrc/finfo/pages/foreignkeys.in?m=a8733ccf86">2024-01-23 13:08:17</a> UTC </small></i></p>