File: /var/www/payments-gateway/vendor/doctrine/orm/src/Tools/SchemaTool.php
<?php
declare(strict_types=1);
namespace Doctrine\ORM\Tools;
use BackedEnum;
use Doctrine\DBAL\Platforms\AbstractPlatform;
use Doctrine\DBAL\Schema\AbstractAsset;
use Doctrine\DBAL\Schema\AbstractSchemaManager;
use Doctrine\DBAL\Schema\ComparatorConfig;
use Doctrine\DBAL\Schema\ForeignKeyConstraintEditor;
use Doctrine\DBAL\Schema\Index;
use Doctrine\DBAL\Schema\Index\IndexedColumn;
use Doctrine\DBAL\Schema\Name\Identifier;
use Doctrine\DBAL\Schema\Name\UnqualifiedName;
use Doctrine\DBAL\Schema\PrimaryKeyConstraint;
use Doctrine\DBAL\Schema\Schema;
use Doctrine\DBAL\Schema\Table;
use Doctrine\ORM\EntityManagerInterface;
use Doctrine\ORM\Mapping\AssociationMapping;
use Doctrine\ORM\Mapping\ClassMetadata;
use Doctrine\ORM\Mapping\DiscriminatorColumnMapping;
use Doctrine\ORM\Mapping\FieldMapping;
use Doctrine\ORM\Mapping\JoinColumnMapping;
use Doctrine\ORM\Mapping\ManyToManyOwningSideMapping;
use Doctrine\ORM\Mapping\MappingException;
use Doctrine\ORM\Mapping\QuoteStrategy;
use Doctrine\ORM\Tools\Event\GenerateSchemaEventArgs;
use Doctrine\ORM\Tools\Event\GenerateSchemaTableEventArgs;
use Doctrine\ORM\Tools\Exception\MissingColumnException;
use Doctrine\ORM\Tools\Exception\NotSupported;
use Throwable;
use function array_diff;
use function array_diff_key;
use function array_filter;
use function array_flip;
use function array_intersect_key;
use function array_map;
use function assert;
use function class_exists;
use function count;
use function current;
use function implode;
use function in_array;
use function is_numeric;
use function method_exists;
use function strtolower;
/**
* The SchemaTool is a tool to create/drop/update database schemas based on
* <tt>ClassMetadata</tt> class descriptors.
*
* @link www.doctrine-project.org
*/
class SchemaTool
{
private const KNOWN_COLUMN_OPTIONS = ['comment', 'unsigned', 'fixed', 'default', 'values'];
private readonly AbstractPlatform $platform;
private readonly QuoteStrategy $quoteStrategy;
private readonly AbstractSchemaManager $schemaManager;
/**
* Initializes a new SchemaTool instance that uses the connection of the
* provided EntityManager.
*/
public function __construct(private readonly EntityManagerInterface $em)
{
$this->platform = $em->getConnection()->getDatabasePlatform();
$this->quoteStrategy = $em->getConfiguration()->getQuoteStrategy();
$this->schemaManager = $em->getConnection()->createSchemaManager();
}
/**
* Creates the database schema for the given array of ClassMetadata instances.
*
* @phpstan-param list<ClassMetadata> $classes
*
* @throws ToolsException
*/
public function createSchema(array $classes): void
{
$createSchemaSql = $this->getCreateSchemaSql($classes);
$conn = $this->em->getConnection();
foreach ($createSchemaSql as $sql) {
try {
$conn->executeStatement($sql);
} catch (Throwable $e) {
throw ToolsException::schemaToolFailure($sql, $e);
}
}
}
/**
* Gets the list of DDL statements that are required to create the database schema for
* the given list of ClassMetadata instances.
*
* @phpstan-param list<ClassMetadata> $classes
*
* @return list<string> The SQL statements needed to create the schema for the classes.
*/
public function getCreateSchemaSql(array $classes): array
{
$schema = $this->getSchemaFromMetadata($classes);
return $schema->toSql($this->platform);
}
/**
* Detects instances of ClassMetadata that don't need to be processed in the SchemaTool context.
*
* @phpstan-param array<string, bool> $processedClasses
*/
private function processingNotRequired(
ClassMetadata $class,
array $processedClasses,
): bool {
return isset($processedClasses[$class->name]) ||
$class->isMappedSuperclass ||
$class->isEmbeddedClass ||
($class->isInheritanceTypeSingleTable() && $class->name !== $class->rootEntityName) ||
in_array($class->name, $this->em->getConfiguration()->getSchemaIgnoreClasses());
}
/**
* Resolves fields in index mapping to column names
*
* @param mixed[] $indexData index or unique constraint data
*
* @return list<string> Column names from combined fields and columns mappings
*/
private function getIndexColumns(ClassMetadata $class, array $indexData): array
{
$columns = [];
if (
isset($indexData['columns'], $indexData['fields'])
|| (
! isset($indexData['columns'])
&& ! isset($indexData['fields'])
)
) {
throw MappingException::invalidIndexConfiguration(
(string) $class,
$indexData['name'] ?? 'unnamed',
);
}
if (isset($indexData['columns'])) {
$columns = $indexData['columns'];
}
if (isset($indexData['fields'])) {
foreach ($indexData['fields'] as $fieldName) {
if ($class->hasField($fieldName)) {
$columns[] = $this->quoteStrategy->getColumnName($fieldName, $class, $this->platform);
} elseif ($class->hasAssociation($fieldName)) {
$assoc = $class->getAssociationMapping($fieldName);
assert($assoc->isToOneOwningSide());
foreach ($assoc->joinColumns as $joinColumn) {
$columns[] = $this->quoteStrategy->getJoinColumnName($joinColumn, $class, $this->platform);
}
}
}
}
return $columns;
}
/**
* Creates a Schema instance from a given set of metadata classes.
*
* @phpstan-param list<ClassMetadata> $classes
*
* @throws NotSupported
*/
public function getSchemaFromMetadata(array $classes): Schema
{
// Reminder for processed classes, used for hierarchies
$processedClasses = [];
$eventManager = $this->em->getEventManager();
$metadataSchemaConfig = $this->schemaManager->createSchemaConfig();
$schema = new Schema([], [], $metadataSchemaConfig);
$addedFks = [];
$blacklistedFks = [];
foreach ($classes as $class) {
if ($this->processingNotRequired($class, $processedClasses)) {
continue;
}
$table = $schema->createTable($this->quoteStrategy->getTableName($class, $this->platform));
if ($class->isInheritanceTypeSingleTable()) {
$this->gatherColumns($class, $table);
$this->gatherRelationsSql($class, $table, $schema, $addedFks, $blacklistedFks);
// Add the discriminator column
$this->addDiscriminatorColumnDefinition($class, $table);
// Aggregate all the information from all classes in the hierarchy
foreach ($class->parentClasses as $parentClassName) {
// Parent class information is already contained in this class
$processedClasses[$parentClassName] = true;
}
foreach ($class->subClasses as $subClassName) {
$subClass = $this->em->getClassMetadata($subClassName);
$this->gatherColumns($subClass, $table);
$this->gatherRelationsSql($subClass, $table, $schema, $addedFks, $blacklistedFks);
$processedClasses[$subClassName] = true;
}
} elseif ($class->isInheritanceTypeJoined()) {
// Add all non-inherited fields as columns
foreach ($class->fieldMappings as $fieldName => $mapping) {
if (! isset($mapping->inherited)) {
$this->gatherColumn($class, $mapping, $table);
}
}
$this->gatherRelationsSql($class, $table, $schema, $addedFks, $blacklistedFks);
// Add the discriminator column only to the root table
if ($class->name === $class->rootEntityName) {
$this->addDiscriminatorColumnDefinition($class, $table);
} else {
// Add an ID FK column to child tables
$pkColumns = [];
$inheritedKeyColumns = [];
foreach ($class->identifier as $identifierField) {
if (isset($class->fieldMappings[$identifierField]->inherited)) {
$idMapping = $class->fieldMappings[$identifierField];
$this->gatherColumn($class, $idMapping, $table);
$columnName = $this->quoteStrategy->getColumnName(
$identifierField,
$class,
$this->platform,
);
// TODO: This seems rather hackish, can we optimize it?
$table->getColumn($columnName)->setAutoincrement(false);
$pkColumns[] = $columnName;
$inheritedKeyColumns[] = $columnName;
continue;
}
if (isset($class->associationMappings[$identifierField]->inherited)) {
$idMapping = $class->associationMappings[$identifierField];
assert($idMapping->isToOneOwningSide());
$targetEntity = current(
array_filter(
$classes,
static fn (ClassMetadata $class): bool => $class->name === $idMapping->targetEntity,
),
);
foreach ($idMapping->joinColumns as $joinColumn) {
if (isset($targetEntity->fieldMappings[$joinColumn->referencedColumnName])) {
$columnName = $this->quoteStrategy->getJoinColumnName(
$joinColumn,
$class,
$this->platform,
);
$pkColumns[] = $columnName;
$inheritedKeyColumns[] = $columnName;
}
}
}
}
if ($inheritedKeyColumns !== []) {
// Add a FK constraint on the ID column
$table->addForeignKeyConstraint(
$this->quoteStrategy->getTableName(
$this->em->getClassMetadata($class->rootEntityName),
$this->platform,
),
$inheritedKeyColumns,
$inheritedKeyColumns,
['onDelete' => 'CASCADE'],
);
}
if ($pkColumns !== []) {
self::addPrimaryKeyConstraint($table, $pkColumns);
}
}
} else {
$this->gatherColumns($class, $table);
$this->gatherRelationsSql($class, $table, $schema, $addedFks, $blacklistedFks);
}
$pkColumns = [];
foreach ($class->identifier as $identifierField) {
if (isset($class->fieldMappings[$identifierField])) {
$pkColumns[] = $this->quoteStrategy->getColumnName($identifierField, $class, $this->platform);
} elseif (isset($class->associationMappings[$identifierField])) {
$assoc = $class->associationMappings[$identifierField];
assert($assoc->isToOneOwningSide());
foreach ($assoc->joinColumns as $joinColumn) {
$pkColumns[] = $this->quoteStrategy->getJoinColumnName($joinColumn, $class, $this->platform);
}
}
}
if (! $table->hasIndex('primary')) {
self::addPrimaryKeyConstraint($table, $pkColumns);
}
// there can be unique indexes automatically created for join column
// if join column is also primary key we should keep only primary key on this column
// so, remove indexes overruled by primary key
$primaryKey = $table->getIndex('primary');
foreach ($table->getIndexes() as $idxKey => $existingIndex) {
if ($existingIndex !== $primaryKey && $primaryKey->spansColumns(self::getIndexedColumns($existingIndex))) {
$table->dropIndex($idxKey);
}
}
if (isset($class->table['indexes'])) {
foreach ($class->table['indexes'] as $indexName => $indexData) {
if (! isset($indexData['flags'])) {
$indexData['flags'] = [];
}
$table->addIndex(
$this->getIndexColumns($class, $indexData),
is_numeric($indexName) ? null : $indexName,
(array) $indexData['flags'],
$indexData['options'] ?? [],
);
}
}
if (isset($class->table['uniqueConstraints'])) {
foreach ($class->table['uniqueConstraints'] as $indexName => $indexData) {
$uniqIndex = new Index('tmp__' . $indexName, $this->getIndexColumns($class, $indexData), true, false, [], $indexData['options'] ?? []);
foreach ($table->getIndexes() as $tableIndexName => $tableIndex) {
if ($tableIndex->isFulfilledBy($uniqIndex)) {
$table->dropIndex($tableIndexName);
break;
}
}
$table->addUniqueIndex(self::getIndexedColumns($uniqIndex), is_numeric($indexName) ? null : $indexName, $indexData['options'] ?? []);
}
}
if (isset($class->table['options'])) {
foreach ($class->table['options'] as $key => $val) {
$table->addOption($key, $val);
}
}
$processedClasses[$class->name] = true;
if ($class->isIdGeneratorSequence() && $class->name === $class->rootEntityName) {
$seqDef = $class->sequenceGeneratorDefinition;
$quotedName = $this->quoteStrategy->getSequenceName($seqDef, $class, $this->platform);
if (! $schema->hasSequence($quotedName)) {
$schema->createSequence(
$quotedName,
(int) $seqDef['allocationSize'],
(int) $seqDef['initialValue'],
);
}
}
if ($eventManager->hasListeners(ToolEvents::postGenerateSchemaTable)) {
$eventManager->dispatchEvent(
ToolEvents::postGenerateSchemaTable,
new GenerateSchemaTableEventArgs($class, $schema, $table),
);
}
}
if ($eventManager->hasListeners(ToolEvents::postGenerateSchema)) {
$eventManager->dispatchEvent(
ToolEvents::postGenerateSchema,
new GenerateSchemaEventArgs($this->em, $schema),
);
}
return $schema;
}
/**
* Gets a portable column definition as required by the DBAL for the discriminator
* column of a class.
*/
private function addDiscriminatorColumnDefinition(ClassMetadata $class, Table $table): void
{
$discrColumn = $class->discriminatorColumn;
assert($discrColumn !== null);
if (strtolower($discrColumn->type) === 'string' && ! isset($discrColumn->length)) {
$discrColumn->type = 'string';
$discrColumn->length = 255;
}
$options = [
'length' => $discrColumn->length ?? null,
'notnull' => true,
];
if (isset($discrColumn->columnDefinition)) {
$options['columnDefinition'] = $discrColumn->columnDefinition;
}
$options = $this->gatherColumnOptions($discrColumn) + $options;
$table->addColumn($discrColumn->name, $discrColumn->type, $options);
}
/**
* Gathers the column definitions as required by the DBAL of all field mappings
* found in the given class.
*/
private function gatherColumns(ClassMetadata $class, Table $table): void
{
foreach ($class->fieldMappings as $mapping) {
if ($class->isInheritanceTypeSingleTable() && isset($mapping->inherited)) {
continue;
}
$this->gatherColumn($class, $mapping, $table);
}
}
/**
* Creates a column definition as required by the DBAL from an ORM field mapping definition.
*
* @param ClassMetadata $class The class that owns the field mapping.
* @phpstan-param FieldMapping $mapping The field mapping.
*/
private function gatherColumn(
ClassMetadata $class,
FieldMapping $mapping,
Table $table,
): void {
$columnName = $this->quoteStrategy->getColumnName($mapping->fieldName, $class, $this->platform);
$columnType = $mapping->type;
$options = [];
$options['length'] = $mapping->length ?? null;
$options['notnull'] = isset($mapping->nullable) ? ! $mapping->nullable : true;
if ($class->isInheritanceTypeSingleTable() && $class->parentClasses) {
$options['notnull'] = false;
}
$options['platformOptions'] = [];
$options['platformOptions']['version'] = $class->isVersioned && $class->versionField === $mapping->fieldName;
if (strtolower($columnType) === 'string' && $options['length'] === null) {
$options['length'] = 255;
}
if (isset($mapping->precision)) {
$options['precision'] = $mapping->precision;
}
if (isset($mapping->scale)) {
$options['scale'] = $mapping->scale;
}
if (isset($mapping->default)) {
$options['default'] = $mapping->default;
}
if (isset($mapping->columnDefinition)) {
$options['columnDefinition'] = $mapping->columnDefinition;
}
// the 'default' option can be overwritten here
$options = $this->gatherColumnOptions($mapping) + $options;
if ($class->isIdGeneratorIdentity() && $class->getIdentifierFieldNames() === [$mapping->fieldName]) {
$options['autoincrement'] = true;
}
if ($class->isInheritanceTypeJoined() && $class->name !== $class->rootEntityName) {
$options['autoincrement'] = false;
}
if ($table->hasColumn($columnName)) {
// required in some inheritance scenarios
$table->modifyColumn($columnName, $options);
} else {
$table->addColumn($columnName, $columnType, $options);
}
$isUnique = $mapping->unique ?? false;
if ($isUnique) {
$table->addUniqueIndex([$columnName]);
}
}
/**
* Gathers the SQL for properly setting up the relations of the given class.
* This includes the SQL for foreign key constraints and join tables.
*
* @phpstan-param array<string, array{
* foreignTableName: string,
* foreignColumns: list<string>
* }> $addedFks
* @phpstan-param array<string, bool> $blacklistedFks
*
* @throws NotSupported
*/
private function gatherRelationsSql(
ClassMetadata $class,
Table $table,
Schema $schema,
array &$addedFks,
array &$blacklistedFks,
): void {
foreach ($class->associationMappings as $id => $mapping) {
if (isset($mapping->inherited) && ! in_array($id, $class->identifier, true)) {
continue;
}
$foreignClass = $this->em->getClassMetadata($mapping->targetEntity);
if ($mapping->isToOneOwningSide()) {
$primaryKeyColumns = []; // PK is unnecessary for this relation-type
$this->gatherRelationJoinColumns(
$mapping->joinColumns,
$table,
$foreignClass,
$mapping,
$primaryKeyColumns,
$addedFks,
$blacklistedFks,
);
} elseif ($mapping instanceof ManyToManyOwningSideMapping) {
// create join table
$joinTable = $mapping->joinTable;
$theJoinTable = $schema->createTable(
$this->quoteStrategy->getJoinTableName($mapping, $foreignClass, $this->platform),
);
foreach ($joinTable->options as $key => $val) {
$theJoinTable->addOption($key, $val);
}
$primaryKeyColumns = [];
// Build first FK constraint (relation table => source table)
$this->gatherRelationJoinColumns(
$joinTable->joinColumns,
$theJoinTable,
$class,
$mapping,
$primaryKeyColumns,
$addedFks,
$blacklistedFks,
);
// Build second FK constraint (relation table => target table)
$this->gatherRelationJoinColumns(
$joinTable->inverseJoinColumns,
$theJoinTable,
$foreignClass,
$mapping,
$primaryKeyColumns,
$addedFks,
$blacklistedFks,
);
self::addPrimaryKeyConstraint($theJoinTable, $primaryKeyColumns);
}
}
}
/**
* Gets the class metadata that is responsible for the definition of the referenced column name.
*
* Previously this was a simple task, but with DDC-117 this problem is actually recursive. If its
* not a simple field, go through all identifier field names that are associations recursively and
* find that referenced column name.
*
* TODO: Is there any way to make this code more pleasing?
*
* @phpstan-return array{ClassMetadata, string}|null
*/
private function getDefiningClass(ClassMetadata $class, string $referencedColumnName): array|null
{
$referencedFieldName = $class->getFieldName($referencedColumnName);
if ($class->hasField($referencedFieldName)) {
return [$class, $referencedFieldName];
}
if (in_array($referencedColumnName, $class->getIdentifierColumnNames(), true)) {
// it seems to be an entity as foreign key
foreach ($class->getIdentifierFieldNames() as $fieldName) {
if (
$class->hasAssociation($fieldName)
&& $class->getSingleAssociationJoinColumnName($fieldName) === $referencedColumnName
) {
return $this->getDefiningClass(
$this->em->getClassMetadata($class->associationMappings[$fieldName]->targetEntity),
$class->getSingleAssociationReferencedJoinColumnName($fieldName),
);
}
}
}
return null;
}
/**
* Gathers columns and fk constraints that are required for one part of relationship.
*
* @phpstan-param list<JoinColumnMapping> $joinColumns
* @phpstan-param list<string> $primaryKeyColumns
* @phpstan-param array<string, array{
* foreignTableName: string,
* foreignColumns: list<string>
* }> $addedFks
* @phpstan-param array<string,bool> $blacklistedFks
*
* @throws MissingColumnException
*/
private function gatherRelationJoinColumns(
array $joinColumns,
Table $theJoinTable,
ClassMetadata $class,
AssociationMapping $mapping,
array &$primaryKeyColumns,
array &$addedFks,
array &$blacklistedFks,
): void {
$localColumns = [];
$foreignColumns = [];
$fkOptions = [];
$foreignTableName = $this->quoteStrategy->getTableName($class, $this->platform);
$uniqueConstraints = [];
foreach ($joinColumns as $joinColumn) {
[$definingClass, $referencedFieldName] = $this->getDefiningClass(
$class,
$joinColumn->referencedColumnName,
);
if (! $definingClass) {
throw MissingColumnException::fromColumnSourceAndTarget(
$joinColumn->referencedColumnName,
$mapping->sourceEntity,
$mapping->targetEntity,
);
}
$quotedColumnName = $this->quoteStrategy->getJoinColumnName($joinColumn, $class, $this->platform);
$quotedRefColumnName = $this->quoteStrategy->getReferencedJoinColumnName(
$joinColumn,
$class,
$this->platform,
);
$primaryKeyColumns[] = $quotedColumnName;
$localColumns[] = $quotedColumnName;
$foreignColumns[] = $quotedRefColumnName;
if (! $theJoinTable->hasColumn($quotedColumnName)) {
// Only add the column to the table if it does not exist already.
// It might exist already if the foreign key is mapped into a regular
// property as well.
$fieldMapping = $definingClass->getFieldMapping($referencedFieldName);
$columnOptions = ['notnull' => false];
if (isset($joinColumn->columnDefinition)) {
$columnOptions['columnDefinition'] = $joinColumn->columnDefinition;
} elseif (isset($fieldMapping->columnDefinition)) {
$columnOptions['columnDefinition'] = $fieldMapping->columnDefinition;
}
if (isset($joinColumn->nullable)) {
$columnOptions['notnull'] = ! $joinColumn->nullable;
}
$columnOptions += $this->gatherColumnOptions($fieldMapping);
if (isset($fieldMapping->length)) {
$columnOptions['length'] = $fieldMapping->length;
}
if ($fieldMapping->type === 'decimal') {
$columnOptions['scale'] = $fieldMapping->scale;
$columnOptions['precision'] = $fieldMapping->precision;
}
$columnOptions = $this->gatherColumnOptions($joinColumn) + $columnOptions;
$theJoinTable->addColumn($quotedColumnName, $fieldMapping->type, $columnOptions);
}
if (isset($joinColumn->unique) && $joinColumn->unique === true) {
$uniqueConstraints[] = ['columns' => [$quotedColumnName]];
}
if (isset($joinColumn->onDelete)) {
$fkOptions['onDelete'] = $joinColumn->onDelete;
}
}
// Prefer unique constraints over implicit simple indexes created for foreign keys.
// Also avoids index duplication.
foreach ($uniqueConstraints as $indexName => $unique) {
$theJoinTable->addUniqueIndex($unique['columns'], is_numeric($indexName) ? null : $indexName);
}
$compositeName = $theJoinTable->getName() . '.' . implode('', $localColumns);
if (
isset($addedFks[$compositeName])
&& ($foreignTableName !== $addedFks[$compositeName]['foreignTableName']
|| 0 < count(array_diff($foreignColumns, $addedFks[$compositeName]['foreignColumns'])))
) {
foreach ($theJoinTable->getForeignKeys() as $fkName => $key) {
if (
class_exists(ForeignKeyConstraintEditor::class)
&& count(array_diff(array_map(static fn (UnqualifiedName $name) => $name->toString(), $key->getReferencingColumnNames()), $localColumns)) === 0
&& (($key->getReferencedTableName()->toString() !== $foreignTableName)
|| 0 < count(array_diff(array_map(static fn (UnqualifiedName $name) => $name->toString(), $key->getReferencedColumnNames()), $foreignColumns)))
) {
$theJoinTable->dropForeignKey($fkName);
break;
}
if (
! class_exists(ForeignKeyConstraintEditor::class)
&& count(array_diff($key->getLocalColumns(), $localColumns)) === 0
&& (($key->getForeignTableName() !== $foreignTableName)
|| 0 < count(array_diff($key->getForeignColumns(), $foreignColumns)))
) {
$theJoinTable->removeForeignKey($fkName);
break;
}
}
$blacklistedFks[$compositeName] = true;
} elseif (! isset($blacklistedFks[$compositeName])) {
$addedFks[$compositeName] = ['foreignTableName' => $foreignTableName, 'foreignColumns' => $foreignColumns];
$theJoinTable->addForeignKeyConstraint(
$foreignTableName,
$localColumns,
$foreignColumns,
$fkOptions,
);
}
}
/** @return mixed[] */
private function gatherColumnOptions(JoinColumnMapping|FieldMapping|DiscriminatorColumnMapping $mapping): array
{
$mappingOptions = $mapping->options ?? [];
if (isset($mapping->enumType)) {
$mappingOptions['enumType'] = $mapping->enumType;
}
if (($mappingOptions['default'] ?? null) instanceof BackedEnum) {
$mappingOptions['default'] = $mappingOptions['default']->value;
}
if (empty($mappingOptions)) {
return [];
}
$options = array_intersect_key($mappingOptions, array_flip(self::KNOWN_COLUMN_OPTIONS));
$options['platformOptions'] = array_diff_key($mappingOptions, $options);
return $options;
}
/**
* Drops the database schema for the given classes.
*
* In any way when an exception is thrown it is suppressed since drop was
* issued for all classes of the schema and some probably just don't exist.
*
* @phpstan-param list<ClassMetadata> $classes
*/
public function dropSchema(array $classes): void
{
$dropSchemaSql = $this->getDropSchemaSQL($classes);
$conn = $this->em->getConnection();
foreach ($dropSchemaSql as $sql) {
try {
$conn->executeStatement($sql);
} catch (Throwable) {
// ignored
}
}
}
/**
* Drops all elements in the database of the current connection.
*/
public function dropDatabase(): void
{
$dropSchemaSql = $this->getDropDatabaseSQL();
$conn = $this->em->getConnection();
foreach ($dropSchemaSql as $sql) {
$conn->executeStatement($sql);
}
}
/**
* Gets the SQL needed to drop the database schema for the connections database.
*
* @return list<string>
*/
public function getDropDatabaseSQL(): array
{
return $this->schemaManager
->introspectSchema()
->toDropSql($this->platform);
}
/**
* Gets SQL to drop the tables defined by the passed classes.
*
* @phpstan-param list<ClassMetadata> $classes
*
* @return list<string>
*/
public function getDropSchemaSQL(array $classes): array
{
$schema = $this->getSchemaFromMetadata($classes);
$deployedSchema = $this->schemaManager->introspectSchema();
foreach ($schema->getTables() as $table) {
if (! $deployedSchema->hasTable($table->getName())) {
$schema->dropTable($table->getName());
}
}
if ($this->platform->supportsSequences()) {
foreach ($schema->getSequences() as $sequence) {
if (! $deployedSchema->hasSequence($sequence->getName())) {
$schema->dropSequence($sequence->getName());
}
}
foreach ($schema->getTables() as $table) {
if (method_exists($table, 'getPrimaryKeyConstraint')) {
$primaryKey = $table->getPrimaryKeyConstraint();
} else {
$primaryKey = $table->getPrimaryKey();
}
if ($primaryKey === null) {
continue;
}
if ($primaryKey instanceof PrimaryKeyConstraint) {
$columns = array_map(static fn (UnqualifiedName $name) => $name->toString(), $primaryKey->getColumnNames());
} else {
$columns = self::getIndexedColumns($primaryKey);
}
if (count($columns) === 1) {
$checkSequence = $table->getName() . '_' . $columns[0] . '_seq';
if ($deployedSchema->hasSequence($checkSequence) && ! $schema->hasSequence($checkSequence)) {
$schema->createSequence($checkSequence);
}
}
}
}
return $schema->toDropSql($this->platform);
}
/**
* Updates the database schema of the given classes by comparing the ClassMetadata
* instances to the current database schema that is inspected.
*
* @param mixed[] $classes
*/
public function updateSchema(array $classes): void
{
$conn = $this->em->getConnection();
foreach ($this->getUpdateSchemaSql($classes) as $sql) {
$conn->executeStatement($sql);
}
}
/**
* Gets the sequence of SQL statements that need to be performed in order
* to bring the given class mappings in-synch with the relational schema.
*
* @param list<ClassMetadata> $classes The classes to consider.
*
* @return list<string> The sequence of SQL statements.
*/
public function getUpdateSchemaSql(array $classes): array
{
$toSchema = $this->getSchemaFromMetadata($classes);
$fromSchema = $this->createSchemaForComparison($toSchema);
if (class_exists(ComparatorConfig::class)) {
$comparator = $this->schemaManager->createComparator((new ComparatorConfig())->withReportModifiedIndexes(false));
} else {
$comparator = $this->schemaManager->createComparator();
}
$schemaDiff = $comparator->compareSchemas($fromSchema, $toSchema);
return $this->platform->getAlterSchemaSQL($schemaDiff);
}
/**
* Creates the schema from the database, ensuring tables from the target schema are whitelisted for comparison.
*/
private function createSchemaForComparison(Schema $toSchema): Schema
{
$connection = $this->em->getConnection();
// backup schema assets filter
$config = $connection->getConfiguration();
$previousFilter = $config->getSchemaAssetsFilter();
if ($previousFilter === null) {
return $this->schemaManager->introspectSchema();
}
// whitelist assets we already know about in $toSchema, use the existing filter otherwise
$config->setSchemaAssetsFilter(static function ($asset) use ($previousFilter, $toSchema): bool {
$assetName = $asset instanceof AbstractAsset ? $asset->getName() : $asset;
return $toSchema->hasTable($assetName) || $toSchema->hasSequence($assetName) || $previousFilter($asset);
});
try {
return $this->schemaManager->introspectSchema();
} finally {
// restore schema assets filter
$config->setSchemaAssetsFilter($previousFilter);
}
}
/** @param string[] $primaryKeyColumns */
private function addPrimaryKeyConstraint(Table $table, array $primaryKeyColumns): void
{
if (class_exists(PrimaryKeyConstraint::class)) {
$primaryKeyColumnNames = [];
foreach ($primaryKeyColumns as $primaryKeyColumn) {
$primaryKeyColumnNames[] = new UnqualifiedName(Identifier::unquoted($primaryKeyColumn));
}
$table->addPrimaryKeyConstraint(new PrimaryKeyConstraint(null, $primaryKeyColumnNames, true));
} else {
$table->setPrimaryKey($primaryKeyColumns);
}
}
/** @return string[] */
private static function getIndexedColumns(Index $index): array
{
if (method_exists(Index::class, 'getIndexedColumns')) {
return array_map(static fn (IndexedColumn $indexedColumn) => $indexedColumn->getColumnName()->toString(), $index->getIndexedColumns());
}
return $index->getColumns();
}
}