File: /var/www/payments-gateway/vendor/doctrine/orm/src/Tools/SchemaValidator.php
<?php
declare(strict_types=1);
namespace Doctrine\ORM\Tools;
use BackedEnum;
use Doctrine\DBAL\Types\AsciiStringType;
use Doctrine\DBAL\Types\BigIntType;
use Doctrine\DBAL\Types\BooleanType;
use Doctrine\DBAL\Types\DecimalType;
use Doctrine\DBAL\Types\FloatType;
use Doctrine\DBAL\Types\GuidType;
use Doctrine\DBAL\Types\IntegerType;
use Doctrine\DBAL\Types\JsonType;
use Doctrine\DBAL\Types\SimpleArrayType;
use Doctrine\DBAL\Types\SmallIntType;
use Doctrine\DBAL\Types\StringType;
use Doctrine\DBAL\Types\TextType;
use Doctrine\DBAL\Types\Type;
use Doctrine\ORM\EntityManagerInterface;
use Doctrine\ORM\Mapping\ClassMetadata;
use Doctrine\ORM\Mapping\FieldMapping;
use ReflectionEnum;
use ReflectionNamedType;
use function array_diff;
use function array_filter;
use function array_key_exists;
use function array_map;
use function array_push;
use function array_search;
use function array_values;
use function assert;
use function class_exists;
use function class_parents;
use function count;
use function implode;
use function in_array;
use function interface_exists;
use function is_a;
use function sprintf;
/**
* Performs strict validation of the mapping schema
*
* @link www.doctrine-project.com
*/
class SchemaValidator
{
/**
* It maps built-in Doctrine types to PHP types
*/
private const BUILTIN_TYPES_MAP = [
AsciiStringType::class => ['string'],
BigIntType::class => ['int', 'string'],
BooleanType::class => ['bool'],
DecimalType::class => ['string'],
FloatType::class => ['float'],
GuidType::class => ['string'],
IntegerType::class => ['int'],
JsonType::class => ['array'],
SimpleArrayType::class => ['array'],
SmallIntType::class => ['int'],
StringType::class => ['string'],
TextType::class => ['string'],
];
public function __construct(
private readonly EntityManagerInterface $em,
private readonly bool $validatePropertyTypes = true,
) {
}
/**
* 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.
*
* @phpstan-return array<string, list<string>>
*/
public function validateMapping(): array
{
$errors = [];
$cmf = $this->em->getMetadataFactory();
$classes = $cmf->getAllMetadata();
foreach ($classes as $class) {
$ce = $this->validateClass($class);
if ($ce) {
$errors[$class->name] = $ce;
}
}
return $errors;
}
/**
* Validates a single class of the current.
*
* @return string[]
* @phpstan-return list<string>
*/
public function validateClass(ClassMetadata $class): array
{
$ce = [];
$cmf = $this->em->getMetadataFactory();
foreach ($class->fieldMappings as $fieldName => $mapping) {
if (! Type::hasType($mapping->type)) {
$ce[] = "The field '" . $class->name . '#' . $fieldName . "' uses a non-existent type '" . $mapping->type . "'.";
}
}
if ($this->validatePropertyTypes) {
array_push($ce, ...$this->validatePropertiesTypes($class));
}
foreach ($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;
}
$targetMetadata = $cmf->getMetadataFor($assoc->targetEntity);
if ($targetMetadata->isMappedSuperclass) {
$ce[] = "The target entity '" . $assoc->targetEntity . "' specified on " . $class->name . '#' . $fieldName . ' is a mapped superclass. This is not possible since there is no table that a foreign key could refer to.';
return $ce;
}
if (isset($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 (! $assoc->isOwningSide()) {
if ($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, but as field.';
}
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->isOwningSide() && $assoc->inversedBy !== null) {
if ($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]->isOwningSide()) {
$ce[] = 'The field ' . $class->name . '#' . $fieldName . ' is on the owning side of a ' .
'bi-directional relationship, but the specified inversedBy association on the target-entity ' .
$assoc->targetEntity . '#' . $assoc->inversedBy . ' does not contain the required ' .
"'mappedBy=\"" . $fieldName . "\"' attribute.";
} elseif ($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->isOneToOne() && ! $targetAssoc->isOneToOne()) {
$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->isManyToOne() && ! $targetAssoc->isOneToMany()) {
$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->isManyToMany() && ! $targetAssoc->isManyToMany()) {
$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->isManyToManyOwningSide()) {
$identifierColumns = $class->getIdentifierColumnNames();
foreach ($assoc->joinTable->joinColumns as $joinColumn) {
if (! in_array($joinColumn->referencedColumnName, $identifierColumns, true)) {
$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, true)) {
$ce[] = "The referenced column name '" . $inverseJoinColumn->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->isToOneOwningSide()) {
$identifierColumns = $targetMetadata->getIdentifierColumnNames();
foreach ($assoc->joinColumns as $joinColumn) {
if (! in_array($joinColumn->referencedColumnName, $identifierColumns, true)) {
$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)) {
$ids = [];
foreach ($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 '" . $targetMetadata->name . "', " .
"however '" . implode(', ', array_diff($targetMetadata->getIdentifierColumnNames(), $ids)) .
"' are missing.";
}
}
}
if ($assoc->isOrdered()) {
foreach ($assoc->orderBy() as $orderField => $orientation) {
if (! $targetMetadata->hasField($orderField) && ! $targetMetadata->hasAssociation($orderField)) {
$ce[] = 'The association ' . $class->name . '#' . $fieldName . ' is ordered by a foreign field ' .
$orderField . ' that is not a field on the target entity ' . $targetMetadata->name . '.';
continue;
}
if ($targetMetadata->isCollectionValuedAssociation($orderField)) {
$ce[] = 'The association ' . $class->name . '#' . $fieldName . ' is ordered by a field ' .
$orderField . ' on ' . $targetMetadata->name . ' that is a collection-valued association.';
continue;
}
if ($targetMetadata->isAssociationInverseSide($orderField)) {
$ce[] = 'The association ' . $class->name . '#' . $fieldName . ' is ordered by a field ' .
$orderField . ' on ' . $targetMetadata->name . ' that is the inverse side of an association.';
continue;
}
}
}
}
if (
! $class->isInheritanceTypeNone()
&& ! $class->isRootEntity()
&& ($class->reflClass !== null && ! $class->reflClass->isAbstract())
&& ! $class->isMappedSuperclass
&& array_search($class->name, $class->discriminatorMap, true) === false
) {
$ce[] = "Entity class '" . $class->name . "' is part of inheritance hierarchy, but is " .
"not mapped in the root entity '" . $class->rootEntityName . "' discriminator map. " .
'All subclasses must be listed in the discriminator map.';
}
foreach ($class->subClasses as $subClass) {
if (! in_array($class->name, class_parents($subClass), true)) {
$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 $ce;
}
/**
* Checks if the Database Schema is in sync with the current metadata state.
*/
public function schemaInSyncWithMetadata(): bool
{
return count($this->getUpdateSchemaList()) === 0;
}
/**
* Returns the list of missing Database Schema updates.
*
* @return array<string>
*/
public function getUpdateSchemaList(): array
{
$schemaTool = new SchemaTool($this->em);
$allMetadata = $this->em->getMetadataFactory()->getAllMetadata();
return $schemaTool->getUpdateSchemaSql($allMetadata);
}
/** @return list<string> containing the found issues */
private function validatePropertiesTypes(ClassMetadata $class): array
{
return array_values(
array_filter(
array_map(
function (FieldMapping $fieldMapping) use ($class): string|null {
$fieldName = $fieldMapping->fieldName;
assert(isset($class->reflFields[$fieldName]));
$propertyType = $class->reflFields[$fieldName]->getType();
// If the field type is not a built-in type, we cannot check it
if (! Type::hasType($fieldMapping->type)) {
return null;
}
// If the property type is not a named type, we cannot check it
if (! ($propertyType instanceof ReflectionNamedType) || $propertyType->getName() === 'mixed') {
return null;
}
$metadataFieldType = $this->findBuiltInType(Type::getType($fieldMapping->type));
//If the metadata field type is not a mapped built-in type, we cannot check it
if ($metadataFieldType === null) {
return null;
}
$propertyType = $propertyType->getName();
// If the property type is the same as the metadata field type, we are ok
if (in_array($propertyType, $metadataFieldType, true)) {
return null;
}
if (is_a($propertyType, BackedEnum::class, true)) {
$backingType = (string) (new ReflectionEnum($propertyType))->getBackingType();
if (! in_array($backingType, $metadataFieldType, true)) {
return sprintf(
"The field '%s#%s' has the property type '%s' with a backing type of '%s' that differs from the metadata field type '%s'.",
$class->name,
$fieldName,
$propertyType,
$backingType,
implode('|', $metadataFieldType),
);
}
if (! isset($fieldMapping->enumType) || $propertyType === $fieldMapping->enumType) {
return null;
}
return sprintf(
"The field '%s#%s' has the property type '%s' that differs from the metadata enumType '%s'.",
$class->name,
$fieldName,
$propertyType,
$fieldMapping->enumType,
);
}
if (
isset($fieldMapping->enumType)
&& $propertyType !== $fieldMapping->enumType
&& interface_exists($propertyType)
&& is_a($fieldMapping->enumType, $propertyType, true)
) {
$backingType = (string) (new ReflectionEnum($fieldMapping->enumType))->getBackingType();
if (in_array($backingType, $metadataFieldType, true)) {
return null;
}
return sprintf(
"The field '%s#%s' has the metadata enumType '%s' with a backing type of '%s' that differs from the metadata field type '%s'.",
$class->name,
$fieldName,
$fieldMapping->enumType,
$backingType,
implode('|', $metadataFieldType),
);
}
if (
$fieldMapping->type === 'json'
&& in_array($propertyType, ['string', 'int', 'float', 'bool', 'true', 'false', 'null'], true)
) {
return null;
}
return sprintf(
"The field '%s#%s' has the property type '%s' that differs from the metadata field type '%s' returned by the '%s' DBAL type.",
$class->name,
$fieldName,
$propertyType,
implode('|', $metadataFieldType),
$fieldMapping->type,
);
},
$class->fieldMappings,
),
),
);
}
/**
* The exact DBAL type must be used (no subclasses), since consumers of doctrine/orm may have their own
* customization around field types.
*
* @return list<string>|null
*/
private function findBuiltInType(Type $type): array|null
{
$typeName = $type::class;
return self::BUILTIN_TYPES_MAP[$typeName] ?? null;
}
}