d7_to_d10_migration/drupal7/web/includes/database/query.inc

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<?php
/**
* @addtogroup database
* @{
*/
/**
* @file
* Non-specific Database query code. Used by all engines.
*/
/**
* Interface for a conditional clause in a query.
*/
interface QueryConditionInterface {
/**
* Helper function: builds the most common conditional clauses.
*
* This method can take a variable number of parameters. If called with two
* parameters, they are taken as $field and $value with $operator having a
* value of IN if $value is an array and = otherwise.
*
* Do not use this method to test for NULL values. Instead, use
* QueryConditionInterface::isNull() or QueryConditionInterface::isNotNull().
*
* @param $field
* The name of the field to check. If you would like to add a more complex
* condition involving operators or functions, use where().
* @param $value
* The value to test the field against. In most cases, this is a scalar.
* For more complex options, it is an array. The meaning of each element in
* the array is dependent on the $operator.
* @param $operator
* The comparison operator, such as =, <, or >=. It also accepts more
* complex options such as IN, LIKE, or BETWEEN. Defaults to IN if $value is
* an array, and = otherwise.
*
* @return QueryConditionInterface
* The called object.
*
* @see QueryConditionInterface::isNull()
* @see QueryConditionInterface::isNotNull()
*/
public function condition($field, $value = NULL, $operator = NULL);
/**
* Adds an arbitrary WHERE clause to the query.
*
* @param $snippet
* A portion of a WHERE clause as a prepared statement. It must use named
* placeholders, not ? placeholders.
* @param $args
* An associative array of arguments.
*
* @return QueryConditionInterface
* The called object.
*/
public function where($snippet, $args = array());
/**
* Sets a condition that the specified field be NULL.
*
* @param $field
* The name of the field to check.
*
* @return QueryConditionInterface
* The called object.
*/
public function isNull($field);
/**
* Sets a condition that the specified field be NOT NULL.
*
* @param $field
* The name of the field to check.
*
* @return QueryConditionInterface
* The called object.
*/
public function isNotNull($field);
/**
* Sets a condition that the specified subquery returns values.
*
* @param SelectQueryInterface $select
* The subquery that must contain results.
*
* @return QueryConditionInterface
* The called object.
*/
public function exists(SelectQueryInterface $select);
/**
* Sets a condition that the specified subquery returns no values.
*
* @param SelectQueryInterface $select
* The subquery that must not contain results.
*
* @return QueryConditionInterface
* The called object.
*/
public function notExists(SelectQueryInterface $select);
/**
* Gets a complete list of all conditions in this conditional clause.
*
* This method returns by reference. That allows alter hooks to access the
* data structure directly and manipulate it before it gets compiled.
*
* The data structure that is returned is an indexed array of entries, where
* each entry looks like the following:
* @code
* array(
* 'field' => $field,
* 'value' => $value,
* 'operator' => $operator,
* );
* @endcode
*
* In the special case that $operator is NULL, the $field is taken as a raw
* SQL snippet (possibly containing a function) and $value is an associative
* array of placeholders for the snippet.
*
* There will also be a single array entry of #conjunction, which is the
* conjunction that will be applied to the array, such as AND.
*/
public function &conditions();
/**
* Gets a complete list of all values to insert into the prepared statement.
*
* @return
* An associative array of placeholders and values.
*/
public function arguments();
/**
* Compiles the saved conditions for later retrieval.
*
* This method does not return anything, but simply prepares data to be
* retrieved via __toString() and arguments().
*
* @param $connection
* The database connection for which to compile the conditionals.
* @param $queryPlaceholder
* The query this condition belongs to. If not given, the current query is
* used.
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder);
/**
* Check whether a condition has been previously compiled.
*
* @return
* TRUE if the condition has been previously compiled.
*/
public function compiled();
}
/**
* Interface for a query that can be manipulated via an alter hook.
*/
interface QueryAlterableInterface {
/**
* Adds a tag to a query.
*
* Tags are strings that identify a query. A query may have any number of
* tags. Tags are used to mark a query so that alter hooks may decide if they
* wish to take action. Tags should be all lower-case and contain only
* letters, numbers, and underscore, and start with a letter. That is, they
* should follow the same rules as PHP identifiers in general.
*
* @param $tag
* The tag to add.
*
* @return QueryAlterableInterface
* The called object.
*/
public function addTag($tag);
/**
* Determines if a given query has a given tag.
*
* @param $tag
* The tag to check.
*
* @return
* TRUE if this query has been marked with this tag, FALSE otherwise.
*/
public function hasTag($tag);
/**
* Determines if a given query has all specified tags.
*
* @param $tags
* A variable number of arguments, one for each tag to check.
*
* @return
* TRUE if this query has been marked with all specified tags, FALSE
* otherwise.
*/
public function hasAllTags();
/**
* Determines if a given query has any specified tag.
*
* @param $tags
* A variable number of arguments, one for each tag to check.
*
* @return
* TRUE if this query has been marked with at least one of the specified
* tags, FALSE otherwise.
*/
public function hasAnyTag();
/**
* Adds additional metadata to the query.
*
* Often, a query may need to provide additional contextual data to alter
* hooks. Alter hooks may then use that information to decide if and how
* to take action.
*
* @param $key
* The unique identifier for this piece of metadata. Must be a string that
* follows the same rules as any other PHP identifier.
* @param $object
* The additional data to add to the query. May be any valid PHP variable.
*
* @return QueryAlterableInterface
* The called object.
*/
public function addMetaData($key, $object);
/**
* Retrieves a given piece of metadata.
*
* @param $key
* The unique identifier for the piece of metadata to retrieve.
*
* @return
* The previously attached metadata object, or NULL if one doesn't exist.
*/
public function getMetaData($key);
}
/**
* Interface for a query that accepts placeholders.
*/
interface QueryPlaceholderInterface {
/**
* Returns a unique identifier for this object.
*/
public function uniqueIdentifier();
/**
* Returns the next placeholder ID for the query.
*
* @return
* The next available placeholder ID as an integer.
*/
public function nextPlaceholder();
}
/**
* Base class for query builders.
*
* Note that query builders use PHP's magic __toString() method to compile the
* query object into a prepared statement.
*/
abstract class Query implements QueryPlaceholderInterface {
/**
* The connection object on which to run this query.
*
* @var DatabaseConnection
*/
protected $connection;
/**
* The target of the connection object.
*
* @var string
*/
protected $connectionTarget;
/**
* The key of the connection object.
*
* @var string
*/
protected $connectionKey;
/**
* The query options to pass on to the connection object.
*
* @var array
*/
protected $queryOptions;
/**
* A unique identifier for this query object.
*/
protected $uniqueIdentifier;
/**
* The placeholder counter.
*/
protected $nextPlaceholder = 0;
/**
* An array of comments that can be prepended to a query.
*
* @var array
*/
protected $comments = array();
/**
* Constructs a Query object.
*
* @param DatabaseConnection $connection
* Database connection object.
* @param array $options
* Array of query options.
*/
public function __construct(DatabaseConnection $connection, $options) {
$this->uniqueIdentifier = uniqid('', TRUE);
$this->connection = $connection;
$this->connectionKey = $this->connection->getKey();
$this->connectionTarget = $this->connection->getTarget();
$this->queryOptions = $options;
}
/**
* Implements the magic __sleep function to disconnect from the database.
*/
public function __sleep() {
$keys = get_object_vars($this);
unset($keys['connection']);
return array_keys($keys);
}
/**
* Implements the magic __wakeup function to reconnect to the database.
*/
public function __wakeup() {
$this->connection = Database::getConnection($this->connectionTarget, $this->connectionKey);
}
/**
* Implements the magic __clone function.
*/
public function __clone() {
$this->uniqueIdentifier = uniqid('', TRUE);
}
/**
* Runs the query against the database.
*/
abstract protected function execute();
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* The toString operation is how we compile a query object to a prepared
* statement.
*
* @return
* A prepared statement query string for this object.
*/
abstract public function __toString();
/**
* Returns a unique identifier for this object.
*/
public function uniqueIdentifier() {
return $this->uniqueIdentifier;
}
/**
* Gets the next placeholder value for this query object.
*
* @return int
* Next placeholder value.
*/
public function nextPlaceholder() {
return $this->nextPlaceholder++;
}
/**
* Adds a comment to the query.
*
* By adding a comment to a query, you can more easily find it in your
* query log or the list of active queries on an SQL server. This allows
* for easier debugging and allows you to more easily find where a query
* with a performance problem is being generated.
*
* The comment string will be sanitized to remove * / and other characters
* that may terminate the string early so as to avoid SQL injection attacks.
*
* @param $comment
* The comment string to be inserted into the query.
*
* @return Query
* The called object.
*/
public function comment($comment) {
$this->comments[] = $comment;
return $this;
}
/**
* Returns a reference to the comments array for the query.
*
* Because this method returns by reference, alter hooks may edit the comments
* array directly to make their changes. If just adding comments, however, the
* use of comment() is preferred.
*
* Note that this method must be called by reference as well:
* @code
* $comments =& $query->getComments();
* @endcode
*
* @return
* A reference to the comments array structure.
*/
public function &getComments() {
return $this->comments;
}
}
/**
* General class for an abstracted INSERT query.
*/
class InsertQuery extends Query {
/**
* The table on which to insert.
*
* @var string
*/
protected $table;
/**
* An array of fields on which to insert.
*
* @var array
*/
protected $insertFields = array();
/**
* An array of fields that should be set to their database-defined defaults.
*
* @var array
*/
protected $defaultFields = array();
/**
* A nested array of values to insert.
*
* $insertValues is an array of arrays. Each sub-array is either an
* associative array whose keys are field names and whose values are field
* values to insert, or a non-associative array of values in the same order
* as $insertFields.
*
* Whether multiple insert sets will be run in a single query or multiple
* queries is left to individual drivers to implement in whatever manner is
* most appropriate. The order of values in each sub-array must match the
* order of fields in $insertFields.
*
* @var array
*/
protected $insertValues = array();
/**
* A SelectQuery object to fetch the rows that should be inserted.
*
* @var SelectQueryInterface
*/
protected $fromQuery;
/**
* Constructs an InsertQuery object.
*
* @param DatabaseConnection $connection
* A DatabaseConnection object.
* @param string $table
* Name of the table to associate with this query.
* @param array $options
* Array of database options.
*/
public function __construct($connection, $table, array $options = array()) {
if (!isset($options['return'])) {
$options['return'] = Database::RETURN_INSERT_ID;
}
parent::__construct($connection, $options);
$this->table = $table;
}
/**
* Adds a set of field->value pairs to be inserted.
*
* This method may only be called once. Calling it a second time will be
* ignored. To queue up multiple sets of values to be inserted at once,
* use the values() method.
*
* @param $fields
* An array of fields on which to insert. This array may be indexed or
* associative. If indexed, the array is taken to be the list of fields.
* If associative, the keys of the array are taken to be the fields and
* the values are taken to be corresponding values to insert. If a
* $values argument is provided, $fields must be indexed.
* @param $values
* An array of fields to insert into the database. The values must be
* specified in the same order as the $fields array.
*
* @return InsertQuery
* The called object.
*/
public function fields(array $fields, array $values = array()) {
if (empty($this->insertFields)) {
if (empty($values)) {
if (!is_numeric(key($fields))) {
$values = array_values($fields);
$fields = array_keys($fields);
}
}
$this->insertFields = $fields;
if (!empty($values)) {
$this->insertValues[] = $values;
}
}
return $this;
}
/**
* Adds another set of values to the query to be inserted.
*
* If $values is a numeric-keyed array, it will be assumed to be in the same
* order as the original fields() call. If it is associative, it may be
* in any order as long as the keys of the array match the names of the
* fields.
*
* @param $values
* An array of values to add to the query.
*
* @return InsertQuery
* The called object.
*/
public function values(array $values) {
if (is_numeric(key($values))) {
$this->insertValues[] = $values;
}
else {
// Reorder the submitted values to match the fields array.
foreach ($this->insertFields as $key) {
$insert_values[$key] = $values[$key];
}
// For consistency, the values array is always numerically indexed.
$this->insertValues[] = array_values($insert_values);
}
return $this;
}
/**
* Specifies fields for which the database defaults should be used.
*
* If you want to force a given field to use the database-defined default,
* not NULL or undefined, use this method to instruct the database to use
* default values explicitly. In most cases this will not be necessary
* unless you are inserting a row that is all default values, as you cannot
* specify no values in an INSERT query.
*
* Specifying a field both in fields() and in useDefaults() is an error
* and will not execute.
*
* @param $fields
* An array of values for which to use the default values
* specified in the table definition.
*
* @return InsertQuery
* The called object.
*/
public function useDefaults(array $fields) {
$this->defaultFields = $fields;
return $this;
}
/**
* Sets the fromQuery on this InsertQuery object.
*
* @param SelectQueryInterface $query
* The query to fetch the rows that should be inserted.
*
* @return InsertQuery
* The called object.
*/
public function from(SelectQueryInterface $query) {
$this->fromQuery = $query;
return $this;
}
/**
* Executes the insert query.
*
* @return
* The last insert ID of the query, if one exists. If the query
* was given multiple sets of values to insert, the return value is
* undefined. If no fields are specified, this method will do nothing and
* return NULL. That makes it safe to use in multi-insert loops.
*/
public function execute() {
// If validation fails, simply return NULL. Note that validation routines
// in preExecute() may throw exceptions instead.
if (!$this->preExecute()) {
return NULL;
}
// If we're selecting from a SelectQuery, finish building the query and
// pass it back, as any remaining options are irrelevant.
if (!empty($this->fromQuery)) {
$sql = (string) $this;
// The SelectQuery may contain arguments, load and pass them through.
return $this->connection->query($sql, $this->fromQuery->getArguments(), $this->queryOptions);
}
$last_insert_id = 0;
// Each insert happens in its own query in the degenerate case. However,
// we wrap it in a transaction so that it is atomic where possible. On many
// databases, such as SQLite, this is also a notable performance boost.
$transaction = $this->connection->startTransaction();
try {
$sql = (string) $this;
foreach ($this->insertValues as $insert_values) {
$last_insert_id = $this->connection->query($sql, $insert_values, $this->queryOptions);
}
}
catch (Exception $e) {
// One of the INSERTs failed, rollback the whole batch.
$transaction->rollback();
// Rethrow the exception for the calling code.
throw $e;
}
// Re-initialize the values array so that we can re-use this query.
$this->insertValues = array();
// Transaction commits here where $transaction looses scope.
return $last_insert_id;
}
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* @return string
* The prepared statement.
*/
public function __toString() {
// Create a sanitized comment string to prepend to the query.
$comments = $this->connection->makeComment($this->comments);
// Default fields are always placed first for consistency.
$insert_fields = array_merge($this->defaultFields, $this->insertFields);
if (!empty($this->fromQuery)) {
return $comments . 'INSERT INTO {' . $this->table . '} (' . implode(', ', $insert_fields) . ') ' . $this->fromQuery;
}
// For simplicity, we will use the $placeholders array to inject
// default keywords even though they are not, strictly speaking,
// placeholders for prepared statements.
$placeholders = array();
$placeholders = array_pad($placeholders, count($this->defaultFields), 'default');
$placeholders = array_pad($placeholders, count($this->insertFields), '?');
return $comments . 'INSERT INTO {' . $this->table . '} (' . implode(', ', $insert_fields) . ') VALUES (' . implode(', ', $placeholders) . ')';
}
/**
* Preprocesses and validates the query.
*
* @return
* TRUE if the validation was successful, FALSE if not.
*
* @throws FieldsOverlapException
* @throws NoFieldsException
*/
public function preExecute() {
// Confirm that the user did not try to specify an identical
// field and default field.
if (array_intersect($this->insertFields, $this->defaultFields)) {
throw new FieldsOverlapException('You may not specify the same field to have a value and a schema-default value.');
}
if (!empty($this->fromQuery)) {
// We have to assume that the used aliases match the insert fields.
// Regular fields are added to the query before expressions, maintain the
// same order for the insert fields.
// This behavior can be overridden by calling fields() manually as only the
// first call to fields() does have an effect.
$this->fields(array_merge(array_keys($this->fromQuery->getFields()), array_keys($this->fromQuery->getExpressions())));
}
else {
// Don't execute query without fields.
if (count($this->insertFields) + count($this->defaultFields) == 0) {
throw new NoFieldsException('There are no fields available to insert with.');
}
}
// If no values have been added, silently ignore this query. This can happen
// if values are added conditionally, so we don't want to throw an
// exception.
if (!isset($this->insertValues[0]) && count($this->insertFields) > 0 && empty($this->fromQuery)) {
return FALSE;
}
return TRUE;
}
}
/**
* General class for an abstracted DELETE operation.
*/
class DeleteQuery extends Query implements QueryConditionInterface {
/**
* The table from which to delete.
*
* @var string
*/
protected $table;
/**
* The condition object for this query.
*
* Condition handling is handled via composition.
*
* @var DatabaseCondition
*/
protected $condition;
/**
* Constructs a DeleteQuery object.
*
* @param DatabaseConnection $connection
* A DatabaseConnection object.
* @param string $table
* Name of the table to associate with this query.
* @param array $options
* Array of database options.
*/
public function __construct(DatabaseConnection $connection, $table, array $options = array()) {
$options['return'] = Database::RETURN_AFFECTED;
parent::__construct($connection, $options);
$this->table = $table;
$this->condition = new DatabaseCondition('AND');
}
/**
* Implements QueryConditionInterface::condition().
*/
public function condition($field, $value = NULL, $operator = NULL) {
$this->condition->condition($field, $value, $operator);
return $this;
}
/**
* Implements QueryConditionInterface::isNull().
*/
public function isNull($field) {
$this->condition->isNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::isNotNull().
*/
public function isNotNull($field) {
$this->condition->isNotNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::exists().
*/
public function exists(SelectQueryInterface $select) {
$this->condition->exists($select);
return $this;
}
/**
* Implements QueryConditionInterface::notExists().
*/
public function notExists(SelectQueryInterface $select) {
$this->condition->notExists($select);
return $this;
}
/**
* Implements QueryConditionInterface::conditions().
*/
public function &conditions() {
return $this->condition->conditions();
}
/**
* Implements QueryConditionInterface::arguments().
*/
public function arguments() {
return $this->condition->arguments();
}
/**
* Implements QueryConditionInterface::where().
*/
public function where($snippet, $args = array()) {
$this->condition->where($snippet, $args);
return $this;
}
/**
* Implements QueryConditionInterface::compile().
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) {
return $this->condition->compile($connection, $queryPlaceholder);
}
/**
* Implements QueryConditionInterface::compiled().
*/
public function compiled() {
return $this->condition->compiled();
}
/**
* Executes the DELETE query.
*
* @return int
* The number of rows affected by the delete query.
*/
public function execute() {
$values = array();
if (count($this->condition)) {
$this->condition->compile($this->connection, $this);
$values = $this->condition->arguments();
}
return $this->connection->query((string) $this, $values, $this->queryOptions);
}
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* @return string
* The prepared statement.
*/
public function __toString() {
// Create a sanitized comment string to prepend to the query.
$comments = $this->connection->makeComment($this->comments);
$query = $comments . 'DELETE FROM {' . $this->connection->escapeTable($this->table) . '} ';
if (count($this->condition)) {
try {
$this->condition->compile($this->connection, $this);
}
// PHP does not allow exceptions to be thrown in __toString(), so trigger
// a fatal error instead.
catch (InvalidQueryConditionOperatorException $e) {
drupal_trigger_fatal_error($e->getMessage());
}
$query .= "\nWHERE " . $this->condition;
}
return $query;
}
}
/**
* General class for an abstracted TRUNCATE operation.
*/
class TruncateQuery extends Query {
/**
* The table to truncate.
*
* @var string
*/
protected $table;
/**
* Constructs a TruncateQuery object.
*
* @param DatabaseConnection $connection
* A DatabaseConnection object.
* @param string $table
* Name of the table to associate with this query.
* @param array $options
* Array of database options.
*/
public function __construct(DatabaseConnection $connection, $table, array $options = array()) {
$options['return'] = Database::RETURN_AFFECTED;
parent::__construct($connection, $options);
$this->table = $table;
}
/**
* Implements QueryConditionInterface::compile().
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) {
return $this->condition->compile($connection, $queryPlaceholder);
}
/**
* Implements QueryConditionInterface::compiled().
*/
public function compiled() {
return $this->condition->compiled();
}
/**
* Executes the TRUNCATE query.
*
* @return
* Return value is dependent on the database type.
*/
public function execute() {
return $this->connection->query((string) $this, array(), $this->queryOptions);
}
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* @return string
* The prepared statement.
*/
public function __toString() {
// Create a sanitized comment string to prepend to the query.
$comments = $this->connection->makeComment($this->comments);
// In most cases, TRUNCATE is not a transaction safe statement as it is a
// DDL statement which results in an implicit COMMIT. When we are in a
// transaction, fallback to the slower, but transactional, DELETE.
// PostgreSQL also locks the entire table for a TRUNCATE strongly reducing
// the concurrency with other transactions.
if ($this->connection->inTransaction()) {
return $comments . 'DELETE FROM {' . $this->connection->escapeTable($this->table) . '}';
}
else {
return $comments . 'TRUNCATE {' . $this->connection->escapeTable($this->table) . '} ';
}
}
}
/**
* General class for an abstracted UPDATE operation.
*/
class UpdateQuery extends Query implements QueryConditionInterface {
/**
* The table to update.
*
* @var string
*/
protected $table;
/**
* An array of fields that will be updated.
*
* @var array
*/
protected $fields = array();
/**
* An array of values to update to.
*
* @var array
*/
protected $arguments = array();
/**
* The condition object for this query.
*
* Condition handling is handled via composition.
*
* @var DatabaseCondition
*/
protected $condition;
/**
* Array of fields to update to an expression in case of a duplicate record.
*
* This variable is a nested array in the following format:
* @code
* <some field> => array(
* 'condition' => <condition to execute, as a string>,
* 'arguments' => <array of arguments for condition, or NULL for none>,
* );
* @endcode
*
* @var array
*/
protected $expressionFields = array();
/**
* Constructs an UpdateQuery object.
*
* @param DatabaseConnection $connection
* A DatabaseConnection object.
* @param string $table
* Name of the table to associate with this query.
* @param array $options
* Array of database options.
*/
public function __construct(DatabaseConnection $connection, $table, array $options = array()) {
$options['return'] = Database::RETURN_AFFECTED;
parent::__construct($connection, $options);
$this->table = $table;
$this->condition = new DatabaseCondition('AND');
}
/**
* Implements QueryConditionInterface::condition().
*/
public function condition($field, $value = NULL, $operator = NULL) {
$this->condition->condition($field, $value, $operator);
return $this;
}
/**
* Implements QueryConditionInterface::isNull().
*/
public function isNull($field) {
$this->condition->isNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::isNotNull().
*/
public function isNotNull($field) {
$this->condition->isNotNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::exists().
*/
public function exists(SelectQueryInterface $select) {
$this->condition->exists($select);
return $this;
}
/**
* Implements QueryConditionInterface::notExists().
*/
public function notExists(SelectQueryInterface $select) {
$this->condition->notExists($select);
return $this;
}
/**
* Implements QueryConditionInterface::conditions().
*/
public function &conditions() {
return $this->condition->conditions();
}
/**
* Implements QueryConditionInterface::arguments().
*/
public function arguments() {
return $this->condition->arguments();
}
/**
* Implements QueryConditionInterface::where().
*/
public function where($snippet, $args = array()) {
$this->condition->where($snippet, $args);
return $this;
}
/**
* Implements QueryConditionInterface::compile().
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) {
return $this->condition->compile($connection, $queryPlaceholder);
}
/**
* Implements QueryConditionInterface::compiled().
*/
public function compiled() {
return $this->condition->compiled();
}
/**
* Adds a set of field->value pairs to be updated.
*
* @param $fields
* An associative array of fields to write into the database. The array keys
* are the field names and the values are the values to which to set them.
*
* @return UpdateQuery
* The called object.
*/
public function fields(array $fields) {
$this->fields = $fields;
return $this;
}
/**
* Specifies fields to be updated as an expression.
*
* Expression fields are cases such as counter=counter+1. This method takes
* precedence over fields().
*
* @param $field
* The field to set.
* @param $expression
* The field will be set to the value of this expression. This parameter
* may include named placeholders.
* @param $arguments
* If specified, this is an array of key/value pairs for named placeholders
* corresponding to the expression.
*
* @return UpdateQuery
* The called object.
*/
public function expression($field, $expression, array $arguments = NULL) {
$this->expressionFields[$field] = array(
'expression' => $expression,
'arguments' => $arguments,
);
return $this;
}
/**
* Executes the UPDATE query.
*
* @return
* The number of rows affected by the update.
*/
public function execute() {
// Expressions take priority over literal fields, so we process those first
// and remove any literal fields that conflict.
$fields = $this->fields;
$update_values = array();
foreach ($this->expressionFields as $field => $data) {
if (!empty($data['arguments'])) {
$update_values += $data['arguments'];
}
unset($fields[$field]);
}
// Because we filter $fields the same way here and in __toString(), the
// placeholders will all match up properly.
$max_placeholder = 0;
foreach ($fields as $field => $value) {
$update_values[':db_update_placeholder_' . ($max_placeholder++)] = $value;
}
if (count($this->condition)) {
$this->condition->compile($this->connection, $this);
$update_values = array_merge($update_values, $this->condition->arguments());
}
return $this->connection->query((string) $this, $update_values, $this->queryOptions);
}
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* @return string
* The prepared statement.
*/
public function __toString() {
// Create a sanitized comment string to prepend to the query.
$comments = $this->connection->makeComment($this->comments);
// Expressions take priority over literal fields, so we process those first
// and remove any literal fields that conflict.
$fields = $this->fields;
$update_fields = array();
foreach ($this->expressionFields as $field => $data) {
$update_fields[] = $field . '=' . $data['expression'];
unset($fields[$field]);
}
$max_placeholder = 0;
foreach ($fields as $field => $value) {
$update_fields[] = $field . '=:db_update_placeholder_' . ($max_placeholder++);
}
$query = $comments . 'UPDATE {' . $this->connection->escapeTable($this->table) . '} SET ' . implode(', ', $update_fields);
if (count($this->condition)) {
try {
$this->condition->compile($this->connection, $this);
}
// PHP does not allow exceptions to be thrown in __toString(), so trigger
// a fatal error instead.
catch (InvalidQueryConditionOperatorException $e) {
drupal_trigger_fatal_error($e->getMessage());
}
// There is an implicit string cast on $this->condition.
$query .= "\nWHERE " . $this->condition;
}
return $query;
}
}
/**
* General class for an abstracted MERGE query operation.
*
* An ANSI SQL:2003 compatible database would run the following query:
*
* @code
* MERGE INTO table_name_1 USING table_name_2 ON (condition)
* WHEN MATCHED THEN
* UPDATE SET column1 = value1 [, column2 = value2 ...]
* WHEN NOT MATCHED THEN
* INSERT (column1 [, column2 ...]) VALUES (value1 [, value2 ...
* @endcode
*
* Other databases (most notably MySQL, PostgreSQL and SQLite) will emulate
* this statement by running a SELECT and then INSERT or UPDATE.
*
* By default, the two table names are identical and they are passed into the
* the constructor. table_name_2 can be specified by the
* MergeQuery::conditionTable() method. It can be either a string or a
* subquery.
*
* The condition is built exactly like SelectQuery or UpdateQuery conditions,
* the UPDATE query part is built similarly like an UpdateQuery and finally the
* INSERT query part is built similarly like an InsertQuery. However, both
* UpdateQuery and InsertQuery has a fields method so
* MergeQuery::updateFields() and MergeQuery::insertFields() needs to be called
* instead. MergeQuery::fields() can also be called which calls both of these
* methods as the common case is to use the same column-value pairs for both
* INSERT and UPDATE. However, this is not mandatory. Another convenient
* wrapper is MergeQuery::key() which adds the same column-value pairs to the
* condition and the INSERT query part.
*
* Several methods (key(), fields(), insertFields()) can be called to set a
* key-value pair for the INSERT query part. Subsequent calls for the same
* fields override the earlier ones. The same is true for UPDATE and key(),
* fields() and updateFields().
*/
class MergeQuery extends Query implements QueryConditionInterface {
/**
* Returned by execute() if an INSERT query has been executed.
*/
const STATUS_INSERT = 1;
/**
* Returned by execute() if an UPDATE query has been executed.
*/
const STATUS_UPDATE = 2;
/**
* The table to be used for INSERT and UPDATE.
*
* @var string
*/
protected $table;
/**
* The table or subquery to be used for the condition.
*/
protected $conditionTable;
/**
* The condition object for this query.
*
* Condition handling is handled via composition.
*
* @var DatabaseCondition
*/
protected $condition;
/**
* An array of fields on which to insert.
*
* @var array
*/
protected $insertFields = array();
/**
* An array of fields which should be set to their database-defined defaults.
*
* Used on INSERT.
*
* @var array
*/
protected $defaultFields = array();
/**
* An array of values to be inserted.
*
* @var string
*/
protected $insertValues = array();
/**
* An array of fields that will be updated.
*
* @var array
*/
protected $updateFields = array();
/**
* Array of fields to update to an expression in case of a duplicate record.
*
* This variable is a nested array in the following format:
* @code
* <some field> => array(
* 'condition' => <condition to execute, as a string>,
* 'arguments' => <array of arguments for condition, or NULL for none>,
* );
* @endcode
*
* @var array
*/
protected $expressionFields = array();
/**
* Flag indicating whether an UPDATE is necessary.
*
* @var boolean
*/
protected $needsUpdate = FALSE;
/**
* Constructs a MergeQuery object.
*
* @param DatabaseConnection $connection
* A DatabaseConnection object.
* @param string $table
* Name of the table to associate with this query.
* @param array $options
* Array of database options.
*/
public function __construct(DatabaseConnection $connection, $table, array $options = array()) {
$options['return'] = Database::RETURN_AFFECTED;
parent::__construct($connection, $options);
$this->table = $table;
$this->conditionTable = $table;
$this->condition = new DatabaseCondition('AND');
}
/**
* Sets the table or subquery to be used for the condition.
*
* @param $table
* The table name or the subquery to be used. Use a SelectQuery object to
* pass in a subquery.
*
* @return MergeQuery
* The called object.
*/
protected function conditionTable($table) {
$this->conditionTable = $table;
return $this;
}
/**
* Adds a set of field->value pairs to be updated.
*
* @param $fields
* An associative array of fields to write into the database. The array keys
* are the field names and the values are the values to which to set them.
*
* @return MergeQuery
* The called object.
*/
public function updateFields(array $fields) {
$this->updateFields = $fields;
$this->needsUpdate = TRUE;
return $this;
}
/**
* Specifies fields to be updated as an expression.
*
* Expression fields are cases such as counter = counter + 1. This method
* takes precedence over MergeQuery::updateFields() and it's wrappers,
* MergeQuery::key() and MergeQuery::fields().
*
* @param $field
* The field to set.
* @param $expression
* The field will be set to the value of this expression. This parameter
* may include named placeholders.
* @param $arguments
* If specified, this is an array of key/value pairs for named placeholders
* corresponding to the expression.
*
* @return MergeQuery
* The called object.
*/
public function expression($field, $expression, array $arguments = NULL) {
$this->expressionFields[$field] = array(
'expression' => $expression,
'arguments' => $arguments,
);
$this->needsUpdate = TRUE;
return $this;
}
/**
* Adds a set of field->value pairs to be inserted.
*
* @param $fields
* An array of fields on which to insert. This array may be indexed or
* associative. If indexed, the array is taken to be the list of fields.
* If associative, the keys of the array are taken to be the fields and
* the values are taken to be corresponding values to insert. If a
* $values argument is provided, $fields must be indexed.
* @param $values
* An array of fields to insert into the database. The values must be
* specified in the same order as the $fields array.
*
* @return MergeQuery
* The called object.
*/
public function insertFields(array $fields, array $values = array()) {
if ($values) {
$fields = array_combine($fields, $values);
}
$this->insertFields = $fields;
return $this;
}
/**
* Specifies fields for which the database-defaults should be used.
*
* If you want to force a given field to use the database-defined default,
* not NULL or undefined, use this method to instruct the database to use
* default values explicitly. In most cases this will not be necessary
* unless you are inserting a row that is all default values, as you cannot
* specify no values in an INSERT query.
*
* Specifying a field both in fields() and in useDefaults() is an error
* and will not execute.
*
* @param $fields
* An array of values for which to use the default values
* specified in the table definition.
*
* @return MergeQuery
* The called object.
*/
public function useDefaults(array $fields) {
$this->defaultFields = $fields;
return $this;
}
/**
* Sets common field-value pairs in the INSERT and UPDATE query parts.
*
* This method should only be called once. It may be called either
* with a single associative array or two indexed arrays. If called
* with an associative array, the keys are taken to be the fields
* and the values are taken to be the corresponding values to set.
* If called with two arrays, the first array is taken as the fields
* and the second array is taken as the corresponding values.
*
* @param $fields
* An array of fields to insert, or an associative array of fields and
* values. The keys of the array are taken to be the fields and the values
* are taken to be corresponding values to insert.
* @param $values
* An array of values to set into the database. The values must be
* specified in the same order as the $fields array.
*
* @return MergeQuery
* The called object.
*/
public function fields(array $fields, array $values = array()) {
if ($values) {
$fields = array_combine($fields, $values);
}
foreach ($fields as $key => $value) {
$this->insertFields[$key] = $value;
$this->updateFields[$key] = $value;
}
$this->needsUpdate = TRUE;
return $this;
}
/**
* Sets the key field(s) to be used as conditions for this query.
*
* This method should only be called once. It may be called either
* with a single associative array or two indexed arrays. If called
* with an associative array, the keys are taken to be the fields
* and the values are taken to be the corresponding values to set.
* If called with two arrays, the first array is taken as the fields
* and the second array is taken as the corresponding values.
*
* The fields are copied to the condition of the query and the INSERT part.
* If no other method is called, the UPDATE will become a no-op.
*
* @param $fields
* An array of fields to set, or an associative array of fields and values.
* @param $values
* An array of values to set into the database. The values must be
* specified in the same order as the $fields array.
*
* @return MergeQuery
* The called object.
*/
public function key(array $fields, array $values = array()) {
if ($values) {
$fields = array_combine($fields, $values);
}
foreach ($fields as $key => $value) {
$this->insertFields[$key] = $value;
$this->condition($key, $value);
}
return $this;
}
/**
* Implements QueryConditionInterface::condition().
*/
public function condition($field, $value = NULL, $operator = NULL) {
$this->condition->condition($field, $value, $operator);
return $this;
}
/**
* Implements QueryConditionInterface::isNull().
*/
public function isNull($field) {
$this->condition->isNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::isNotNull().
*/
public function isNotNull($field) {
$this->condition->isNotNull($field);
return $this;
}
/**
* Implements QueryConditionInterface::exists().
*/
public function exists(SelectQueryInterface $select) {
$this->condition->exists($select);
return $this;
}
/**
* Implements QueryConditionInterface::notExists().
*/
public function notExists(SelectQueryInterface $select) {
$this->condition->notExists($select);
return $this;
}
/**
* Implements QueryConditionInterface::conditions().
*/
public function &conditions() {
return $this->condition->conditions();
}
/**
* Implements QueryConditionInterface::arguments().
*/
public function arguments() {
return $this->condition->arguments();
}
/**
* Implements QueryConditionInterface::where().
*/
public function where($snippet, $args = array()) {
$this->condition->where($snippet, $args);
return $this;
}
/**
* Implements QueryConditionInterface::compile().
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) {
return $this->condition->compile($connection, $queryPlaceholder);
}
/**
* Implements QueryConditionInterface::compiled().
*/
public function compiled() {
return $this->condition->compiled();
}
/**
* Implements PHP magic __toString method to convert the query to a string.
*
* In the degenerate case, there is no string-able query as this operation
* is potentially two queries.
*
* @return string
* The prepared query statement.
*/
public function __toString() {
}
public function execute() {
if (!count($this->condition)) {
throw new InvalidMergeQueryException(t('Invalid merge query: no conditions'));
}
$select = $this->connection->select($this->conditionTable)
->condition($this->condition);
$select->addExpression('1');
if (!$select->execute()->fetchField()) {
try {
$insert = $this->connection->insert($this->table)->fields($this->insertFields);
if ($this->defaultFields) {
$insert->useDefaults($this->defaultFields);
}
$insert->execute();
return self::STATUS_INSERT;
}
catch (Exception $e) {
// The insert query failed, maybe it's because a racing insert query
// beat us in inserting the same row. Retry the select query, if it
// returns a row, ignore the error and continue with the update
// query below.
if (!$select->execute()->fetchField()) {
throw $e;
}
}
}
if ($this->needsUpdate) {
$update = $this->connection->update($this->table)
->fields($this->updateFields)
->condition($this->condition);
if ($this->expressionFields) {
foreach ($this->expressionFields as $field => $data) {
$update->expression($field, $data['expression'], $data['arguments']);
}
}
$update->execute();
return self::STATUS_UPDATE;
}
}
}
/**
* Generic class for a series of conditions in a query.
*/
class DatabaseCondition implements QueryConditionInterface, Countable {
/**
* Array of conditions.
*
* @var array
*/
protected $conditions = array();
/**
* Array of arguments.
*
* @var array
*/
protected $arguments = array();
/**
* Whether the conditions have been changed.
*
* TRUE if the condition has been changed since the last compile.
* FALSE if the condition has been compiled and not changed.
*
* @var bool
*/
protected $changed = TRUE;
/**
* The identifier of the query placeholder this condition has been compiled against.
*/
protected $queryPlaceholderIdentifier;
/**
* Contains the string version of the Condition.
*
* @var string
*/
protected $stringVersion;
/**
* Constructs a DataBaseCondition object.
*
* @param string $conjunction
* The operator to use to combine conditions: 'AND' or 'OR'.
*/
public function __construct($conjunction) {
$this->conditions['#conjunction'] = $conjunction;
}
/**
* Implements Countable::count().
*
* Returns the size of this conditional. The size of the conditional is the
* size of its conditional array minus one, because one element is the
* conjunction.
*/
#[\ReturnTypeWillChange]
public function count() {
return count($this->conditions) - 1;
}
/**
* Implements QueryConditionInterface::condition().
*/
public function condition($field, $value = NULL, $operator = NULL) {
if (!isset($operator)) {
if (is_array($value)) {
$operator = 'IN';
}
elseif (!isset($value)) {
$operator = 'IS NULL';
}
else {
$operator = '=';
}
}
$this->conditions[] = array(
'field' => $field,
'value' => $value,
'operator' => $operator,
);
$this->changed = TRUE;
return $this;
}
/**
* Implements QueryConditionInterface::where().
*/
public function where($snippet, $args = array()) {
$this->conditions[] = array(
'field' => $snippet,
'value' => $args,
'operator' => NULL,
);
$this->changed = TRUE;
return $this;
}
/**
* Implements QueryConditionInterface::isNull().
*/
public function isNull($field) {
return $this->condition($field);
}
/**
* Implements QueryConditionInterface::isNotNull().
*/
public function isNotNull($field) {
return $this->condition($field, NULL, 'IS NOT NULL');
}
/**
* Implements QueryConditionInterface::exists().
*/
public function exists(SelectQueryInterface $select) {
return $this->condition('', $select, 'EXISTS');
}
/**
* Implements QueryConditionInterface::notExists().
*/
public function notExists(SelectQueryInterface $select) {
return $this->condition('', $select, 'NOT EXISTS');
}
/**
* Implements QueryConditionInterface::conditions().
*/
public function &conditions() {
return $this->conditions;
}
/**
* Implements QueryConditionInterface::arguments().
*/
public function arguments() {
// If the caller forgot to call compile() first, refuse to run.
if ($this->changed) {
return NULL;
}
return $this->arguments;
}
/**
* Implements QueryConditionInterface::compile().
*
* @throws InvalidQueryConditionOperatorException
*/
public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) {
// Re-compile if this condition changed or if we are compiled against a
// different query placeholder object.
if ($this->changed || isset($this->queryPlaceholderIdentifier) && ($this->queryPlaceholderIdentifier != $queryPlaceholder->uniqueIdentifier())) {
$this->queryPlaceholderIdentifier = $queryPlaceholder->uniqueIdentifier();
$condition_fragments = array();
$arguments = array();
$conditions = $this->conditions;
$conjunction = $conditions['#conjunction'];
unset($conditions['#conjunction']);
foreach ($conditions as $condition) {
if (empty($condition['operator'])) {
// This condition is a literal string, so let it through as is.
$condition_fragments[] = ' (' . $condition['field'] . ') ';
$arguments += $condition['value'];
}
else {
// It's a structured condition, so parse it out accordingly.
// Note that $condition['field'] will only be an object for a dependent
// DatabaseCondition object, not for a dependent subquery.
if ($condition['field'] instanceof QueryConditionInterface) {
// Compile the sub-condition recursively and add it to the list.
$condition['field']->compile($connection, $queryPlaceholder);
$condition_fragments[] = '(' . (string) $condition['field'] . ')';
$arguments += $condition['field']->arguments();
}
else {
// If the operator contains an invalid character, throw an
// exception to protect against SQL injection attempts.
if (stripos($condition['operator'], 'UNION') !== FALSE || strpbrk($condition['operator'], '[-\'"();') !== FALSE) {
throw new InvalidQueryConditionOperatorException('Invalid characters in query operator: ' . $condition['operator']);
}
// For simplicity, we treat all operators as the same data structure.
// In the typical degenerate case, this won't get changed.
$operator_defaults = array(
'prefix' => '',
'postfix' => '',
'delimiter' => '',
'operator' => $condition['operator'],
'use_value' => TRUE,
);
$operator = $connection->mapConditionOperator($condition['operator']);
if (!isset($operator)) {
$operator = $this->mapConditionOperator($condition['operator']);
}
$operator += $operator_defaults;
$placeholders = array();
if ($condition['value'] instanceof SelectQueryInterface) {
$condition['value']->compile($connection, $queryPlaceholder);
$placeholders[] = (string) $condition['value'];
$arguments += $condition['value']->arguments();
// Subqueries are the actual value of the operator, we don't
// need to add another below.
$operator['use_value'] = FALSE;
}
// We assume that if there is a delimiter, then the value is an
// array. If not, it is a scalar. For simplicity, we first convert
// up to an array so that we can build the placeholders in the same way.
elseif (!$operator['delimiter']) {
$condition['value'] = array($condition['value']);
}
if ($operator['use_value']) {
foreach ($condition['value'] as $value) {
$placeholder = ':db_condition_placeholder_' . $queryPlaceholder->nextPlaceholder();
$arguments[$placeholder] = $value;
$placeholders[] = $placeholder;
}
}
$condition_fragments[] = ' (' . $connection->escapeField($condition['field']) . ' ' . $operator['operator'] . ' ' . $operator['prefix'] . implode($operator['delimiter'], $placeholders) . $operator['postfix'] . ') ';
}
}
}
$this->changed = FALSE;
$this->stringVersion = implode($conjunction, $condition_fragments);
$this->arguments = $arguments;
}
}
/**
* Implements QueryConditionInterface::compiled().
*/
public function compiled() {
return !$this->changed;
}
/**
* Implements PHP magic __toString method to convert the conditions to string.
*
* @return string
* A string version of the conditions.
*/
public function __toString() {
// If the caller forgot to call compile() first, refuse to run.
if ($this->changed) {
return '';
}
return $this->stringVersion;
}
/**
* PHP magic __clone() method.
*
* Only copies fields that implement QueryConditionInterface. Also sets
* $this->changed to TRUE.
*/
function __clone() {
$this->changed = TRUE;
foreach ($this->conditions as $key => $condition) {
if ($key !== '#conjunction') {
if ($condition['field'] instanceOf QueryConditionInterface) {
$this->conditions[$key]['field'] = clone($condition['field']);
}
if ($condition['value'] instanceOf SelectQueryInterface) {
$this->conditions[$key]['value'] = clone($condition['value']);
}
}
}
}
/**
* Gets any special processing requirements for the condition operator.
*
* Some condition types require special processing, such as IN, because
* the value data they pass in is not a simple value. This is a simple
* overridable lookup function.
*
* @param $operator
* The condition operator, such as "IN", "BETWEEN", etc. Case-sensitive.
*
* @return
* The extra handling directives for the specified operator, or NULL.
*/
protected function mapConditionOperator($operator) {
// $specials does not use drupal_static as its value never changes.
static $specials = array(
'BETWEEN' => array('delimiter' => ' AND '),
'IN' => array('delimiter' => ', ', 'prefix' => ' (', 'postfix' => ')'),
'NOT IN' => array('delimiter' => ', ', 'prefix' => ' (', 'postfix' => ')'),
'EXISTS' => array('prefix' => ' (', 'postfix' => ')'),
'NOT EXISTS' => array('prefix' => ' (', 'postfix' => ')'),
'IS NULL' => array('use_value' => FALSE),
'IS NOT NULL' => array('use_value' => FALSE),
// Use backslash for escaping wildcard characters.
'LIKE' => array('postfix' => " ESCAPE '\\\\'"),
'NOT LIKE' => array('postfix' => " ESCAPE '\\\\'"),
// These ones are here for performance reasons.
'=' => array(),
'<' => array(),
'>' => array(),
'>=' => array(),
'<=' => array(),
);
if (isset($specials[$operator])) {
$return = $specials[$operator];
}
else {
// We need to upper case because PHP index matches are case sensitive but
// do not need the more expensive drupal_strtoupper because SQL statements are ASCII.
$operator = strtoupper($operator);
$return = isset($specials[$operator]) ? $specials[$operator] : array();
}
$return += array('operator' => $operator);
return $return;
}
}
/**
* @} End of "addtogroup database".
*/