. */ namespace Doctrine\ORM\Tools; use Doctrine\ORM\EntityManager; use Doctrine\ORM\Mapping\ClassMetadataInfo; use Doctrine\DBAL\Types\Type; /** * Performs strict validation of the mapping schema * * @license http://www.opensource.org/licenses/lgpl-license.php LGPL * @link www.doctrine-project.com * @since 1.0 * @author Benjamin Eberlei * @author Guilherme Blanco * @author Jonathan Wage * @author Roman Borschel */ class SchemaValidator { /** * @var EntityManager */ private $em; /** * @param EntityManager $em */ public function __construct(EntityManager $em) { $this->em = $em; } /** * Checks the internal consistency of all mapping files. * * There are several checks that can't be done at runtime or are too expensive, which can be verified * with this command. For example: * * 1. Check if a relation with "mappedBy" is actually connected to that specified field. * 2. Check if "mappedBy" and "inversedBy" are consistent to each other. * 3. Check if "referencedColumnName" attributes are really pointing to primary key columns. * 4. Check if there are public properties that might cause problems with lazy loading. * * @return array */ public function validateMapping() { $errors = array(); $cmf = $this->em->getMetadataFactory(); $classes = $cmf->getAllMetadata(); foreach ($classes as $class) { if ($ce = $this->validateClass($class)) { $errors[$class->name] = $ce; } } return $errors; } /** * Validates a single class of the current. * * @param ClassMetadataInfo $class * * @return array */ public function validateClass(ClassMetadataInfo $class) { $ce = array(); $cmf = $this->em->getMetadataFactory(); foreach ($class->fieldMappings as $fieldName => $mapping) { if (!Type::hasType($mapping['type'])) { $ce[] = "The field '" . $class->name . "#" . $fieldName."' uses a non-existant type '" . $mapping['type'] . "'."; } } foreach ($class->associationMappings as $fieldName => $assoc) { if (!class_exists($assoc['targetEntity']) || $cmf->isTransient($assoc['targetEntity'])) { $ce[] = "The target entity '" . $assoc['targetEntity'] . "' specified on " . $class->name . '#' . $fieldName . ' is unknown or not an entity.'; return $ce; } if ($assoc['mappedBy'] && $assoc['inversedBy']) { $ce[] = "The association " . $class . "#" . $fieldName . " cannot be defined as both inverse and owning."; } $targetMetadata = $cmf->getMetadataFor($assoc['targetEntity']); if (isset($assoc['id']) && $targetMetadata->containsForeignIdentifier) { $ce[] = "Cannot map association '" . $class->name. "#". $fieldName ." as identifier, because " . "the target entity '". $targetMetadata->name . "' also maps an association as identifier."; } if ($assoc['mappedBy']) { if ($targetMetadata->hasField($assoc['mappedBy'])) { $ce[] = "The association " . $class->name . "#" . $fieldName . " refers to the owning side ". "field " . $assoc['targetEntity'] . "#" . $assoc['mappedBy'] . " which is not defined as association."; } if (!$targetMetadata->hasAssociation($assoc['mappedBy'])) { $ce[] = "The association " . $class->name . "#" . $fieldName . " refers to the owning side ". "field " . $assoc['targetEntity'] . "#" . $assoc['mappedBy'] . " which does not exist."; } elseif ($targetMetadata->associationMappings[$assoc['mappedBy']]['inversedBy'] == null) { $ce[] = "The field " . $class->name . "#" . $fieldName . " is on the inverse side of a ". "bi-directional relationship, but the specified mappedBy association on the target-entity ". $assoc['targetEntity'] . "#" . $assoc['mappedBy'] . " does not contain the required ". "'inversedBy=".$fieldName."' attribute."; } elseif ($targetMetadata->associationMappings[$assoc['mappedBy']]['inversedBy'] != $fieldName) { $ce[] = "The mappings " . $class->name . "#" . $fieldName . " and " . $assoc['targetEntity'] . "#" . $assoc['mappedBy'] . " are ". "inconsistent with each other."; } } if ($assoc['inversedBy']) { if ($targetMetadata->hasField($assoc['inversedBy'])) { $ce[] = "The association " . $class->name . "#" . $fieldName . " refers to the inverse side ". "field " . $assoc['targetEntity'] . "#" . $assoc['inversedBy'] . " which is not defined as association."; } if (!$targetMetadata->hasAssociation($assoc['inversedBy'])) { $ce[] = "The association " . $class->name . "#" . $fieldName . " refers to the inverse side ". "field " . $assoc['targetEntity'] . "#" . $assoc['inversedBy'] . " which does not exist."; } elseif ($targetMetadata->associationMappings[$assoc['inversedBy']]['mappedBy'] == null) { $ce[] = "The field " . $class->name . "#" . $fieldName . " is on the owning side of a ". "bi-directional relationship, but the specified mappedBy association on the target-entity ". $assoc['targetEntity'] . "#" . $assoc['mappedBy'] . " does not contain the required ". "'inversedBy' attribute."; } elseif ($targetMetadata->associationMappings[$assoc['inversedBy']]['mappedBy'] != $fieldName) { $ce[] = "The mappings " . $class->name . "#" . $fieldName . " and " . $assoc['targetEntity'] . "#" . $assoc['inversedBy'] . " are ". "inconsistent with each other."; } // Verify inverse side/owning side match each other if (array_key_exists($assoc['inversedBy'], $targetMetadata->associationMappings)) { $targetAssoc = $targetMetadata->associationMappings[$assoc['inversedBy']]; if ($assoc['type'] == ClassMetadataInfo::ONE_TO_ONE && $targetAssoc['type'] !== ClassMetadataInfo::ONE_TO_ONE){ $ce[] = "If association " . $class->name . "#" . $fieldName . " is one-to-one, then the inversed " . "side " . $targetMetadata->name . "#" . $assoc['inversedBy'] . " has to be one-to-one as well."; } elseif ($assoc['type'] == ClassMetadataInfo::MANY_TO_ONE && $targetAssoc['type'] !== ClassMetadataInfo::ONE_TO_MANY){ $ce[] = "If association " . $class->name . "#" . $fieldName . " is many-to-one, then the inversed " . "side " . $targetMetadata->name . "#" . $assoc['inversedBy'] . " has to be one-to-many."; } elseif ($assoc['type'] == ClassMetadataInfo::MANY_TO_MANY && $targetAssoc['type'] !== ClassMetadataInfo::MANY_TO_MANY){ $ce[] = "If association " . $class->name . "#" . $fieldName . " is many-to-many, then the inversed " . "side " . $targetMetadata->name . "#" . $assoc['inversedBy'] . " has to be many-to-many as well."; } } } if ($assoc['isOwningSide']) { if ($assoc['type'] == ClassMetadataInfo::MANY_TO_MANY) { $identifierColumns = $class->getIdentifierColumnNames(); foreach ($assoc['joinTable']['joinColumns'] as $joinColumn) { if (!in_array($joinColumn['referencedColumnName'], $identifierColumns)) { $ce[] = "The referenced column name '" . $joinColumn['referencedColumnName'] . "' " . "has to be a primary key column on the target entity class '".$class->name."'."; break; } } $identifierColumns = $targetMetadata->getIdentifierColumnNames(); foreach ($assoc['joinTable']['inverseJoinColumns'] as $inverseJoinColumn) { if (!in_array($inverseJoinColumn['referencedColumnName'], $identifierColumns)) { $ce[] = "The referenced column name '" . $joinColumn['referencedColumnName'] . "' " . "has to be a primary key column on the target entity class '".$targetMetadata->name."'."; break; } } if (count($targetMetadata->getIdentifierColumnNames()) != count($assoc['joinTable']['inverseJoinColumns'])) { $ce[] = "The inverse join columns of the many-to-many table '" . $assoc['joinTable']['name'] . "' " . "have to contain to ALL identifier columns of the target entity '". $targetMetadata->name . "', " . "however '" . implode(", ", array_diff($targetMetadata->getIdentifierColumnNames(), array_values($assoc['relationToTargetKeyColumns']))) . "' are missing."; } if (count($class->getIdentifierColumnNames()) != count($assoc['joinTable']['joinColumns'])) { $ce[] = "The join columns of the many-to-many table '" . $assoc['joinTable']['name'] . "' " . "have to contain to ALL identifier columns of the source entity '". $class->name . "', " . "however '" . implode(", ", array_diff($class->getIdentifierColumnNames(), array_values($assoc['relationToSourceKeyColumns']))) . "' are missing."; } } elseif ($assoc['type'] & ClassMetadataInfo::TO_ONE) { $identifierColumns = $targetMetadata->getIdentifierColumnNames(); foreach ($assoc['joinColumns'] as $joinColumn) { if (!in_array($joinColumn['referencedColumnName'], $identifierColumns)) { $ce[] = "The referenced column name '" . $joinColumn['referencedColumnName'] . "' " . "has to be a primary key column on the target entity class '".$targetMetadata->name."'."; } } if (count($identifierColumns) != count($assoc['joinColumns'])) { $ids = array(); foreach ($assoc['joinColumns'] as $joinColumn) { $ids[] = $joinColumn['name']; } $ce[] = "The join columns of the association '" . $assoc['fieldName'] . "' " . "have to match to ALL identifier columns of the target entity '". $class->name . "', " . "however '" . implode(", ", array_diff($targetMetadata->getIdentifierColumnNames(), $ids)) . "' are missing."; } } } if (isset($assoc['orderBy']) && $assoc['orderBy'] !== null) { foreach ($assoc['orderBy'] as $orderField => $orientation) { if (!$targetMetadata->hasField($orderField)) { $ce[] = "The association " . $class->name."#".$fieldName." is ordered by a foreign field " . $orderField . " that is not a field on the target entity " . $targetMetadata->name; } } } } foreach ($class->reflClass->getProperties(\ReflectionProperty::IS_PUBLIC) as $publicAttr) { if ($publicAttr->isStatic()) { continue; } $ce[] = "Field '".$publicAttr->getName()."' in class '".$class->name."' must be private ". "or protected. Public fields may break lazy-loading."; } foreach ($class->subClasses as $subClass) { if (!in_array($class->name, class_parents($subClass))) { $ce[] = "According to the discriminator map class '" . $subClass . "' has to be a child ". "of '" . $class->name . "' but these entities are not related through inheritance."; } } return $ce; } /** * Checks if the Database Schema is in sync with the current metadata state. * * @return bool */ public function schemaInSyncWithMetadata() { $schemaTool = new SchemaTool($this->em); $allMetadata = $this->em->getMetadataFactory()->getAllMetadata(); return count($schemaTool->getUpdateSchemaSql($allMetadata, true)) == 0; } }