import datetime import time from django.db.utils import DatabaseError try: from django.utils.six.moves import _thread as thread except ImportError: from django.utils.six.moves import _dummy_thread as thread from collections import namedtuple from contextlib import contextmanager from importlib import import_module from django.conf import settings from django.db import DEFAULT_DB_ALIAS from django.db.backends.signals import connection_created from django.db.backends import util from django.db.transaction import TransactionManagementError from django.db.utils import DatabaseErrorWrapper from django.utils.functional import cached_property from django.utils import six from django.utils import timezone class BaseDatabaseWrapper(object): """ Represents a database connection. """ ops = None vendor = 'unknown' def __init__(self, settings_dict, alias=DEFAULT_DB_ALIAS, allow_thread_sharing=False): # `settings_dict` should be a dictionary containing keys such as # NAME, USER, etc. It's called `settings_dict` instead of `settings` # to disambiguate it from Django settings modules. self.connection = None self.queries = [] self.settings_dict = settings_dict self.alias = alias self.use_debug_cursor = None # Savepoint management related attributes self.savepoint_state = 0 # Transaction management related attributes self.autocommit = False self.transaction_state = [] # Tracks if the connection is believed to be in transaction. This is # set somewhat aggressively, as the DBAPI doesn't make it easy to # deduce if the connection is in transaction or not. self._dirty = False # Tracks if the connection is in a transaction managed by 'atomic'. self.in_atomic_block = False # List of savepoints created by 'atomic' self.savepoint_ids = [] # Tracks if the outermost 'atomic' block should commit on exit, # ie. if autocommit was active on entry. self.commit_on_exit = True # Tracks if the transaction should be rolled back to the next # available savepoint because of an exception in an inner block. self.needs_rollback = False # Connection termination related attributes self.close_at = None self.errors_occurred = False # Thread-safety related attributes self.allow_thread_sharing = allow_thread_sharing self._thread_ident = thread.get_ident() def __eq__(self, other): if isinstance(other, BaseDatabaseWrapper): return self.alias == other.alias return NotImplemented def __ne__(self, other): return not self == other def __hash__(self): return hash(self.alias) ##### Backend-specific methods for creating connections and cursors ##### def get_connection_params(self): """Returns a dict of parameters suitable for get_new_connection.""" raise NotImplementedError def get_new_connection(self, conn_params): """Opens a connection to the database.""" raise NotImplementedError def init_connection_state(self): """Initializes the database connection settings.""" raise NotImplementedError def create_cursor(self): """Creates a cursor. Assumes that a connection is established.""" raise NotImplementedError ##### Backend-specific methods for creating connections ##### def connect(self): """Connects to the database. Assumes that the connection is closed.""" # In case the previous connection was closed while in an atomic block self.in_atomic_block = False self.savepoint_ids = [] # Reset parameters defining when to close the connection max_age = self.settings_dict['CONN_MAX_AGE'] self.close_at = None if max_age is None else time.time() + max_age self.errors_occurred = False # Establish the connection conn_params = self.get_connection_params() self.connection = self.get_new_connection(conn_params) self.init_connection_state() if self.settings_dict['AUTOCOMMIT']: self.set_autocommit(True) connection_created.send(sender=self.__class__, connection=self) def ensure_connection(self): """ Guarantees that a connection to the database is established. """ if self.connection is None: with self.wrap_database_errors(): self.connect() ##### Backend-specific wrappers for PEP-249 connection methods ##### def _cursor(self): self.ensure_connection() with self.wrap_database_errors(): return self.create_cursor() def _commit(self): if self.connection is not None: with self.wrap_database_errors(): return self.connection.commit() def _rollback(self): if self.connection is not None: with self.wrap_database_errors(): return self.connection.rollback() def _close(self): if self.connection is not None: with self.wrap_database_errors(): return self.connection.close() ##### Generic wrappers for PEP-249 connection methods ##### def cursor(self): """ Creates a cursor, opening a connection if necessary. """ self.validate_thread_sharing() if (self.use_debug_cursor or (self.use_debug_cursor is None and settings.DEBUG)): cursor = self.make_debug_cursor(self._cursor()) else: cursor = util.CursorWrapper(self._cursor(), self) return cursor def commit(self): """ Commits a transaction and resets the dirty flag. """ self.validate_thread_sharing() self.validate_no_atomic_block() self._commit() self.set_clean() def rollback(self): """ Rolls back a transaction and resets the dirty flag. """ self.validate_thread_sharing() self.validate_no_atomic_block() self._rollback() self.set_clean() def close(self): """ Closes the connection to the database. """ self.validate_thread_sharing() # Don't call validate_no_atomic_block() to avoid making it difficult # to get rid of a connection in an invalid state. The next connect() # will reset the transaction state anyway. try: self._close() finally: self.connection = None self.set_clean() ##### Backend-specific savepoint management methods ##### def _savepoint(self, sid): self.cursor().execute(self.ops.savepoint_create_sql(sid)) def _savepoint_rollback(self, sid): self.cursor().execute(self.ops.savepoint_rollback_sql(sid)) def _savepoint_commit(self, sid): self.cursor().execute(self.ops.savepoint_commit_sql(sid)) def _savepoint_allowed(self): # Savepoints cannot be created outside a transaction return self.features.uses_savepoints and not self.get_autocommit() ##### Generic savepoint management methods ##### def savepoint(self): """ Creates a savepoint inside the current transaction. Returns an identifier for the savepoint that will be used for the subsequent rollback or commit. Does nothing if savepoints are not supported. """ if not self._savepoint_allowed(): return thread_ident = thread.get_ident() tid = str(thread_ident).replace('-', '') self.savepoint_state += 1 sid = "s%s_x%d" % (tid, self.savepoint_state) self.validate_thread_sharing() self._savepoint(sid) return sid def savepoint_rollback(self, sid): """ Rolls back to a savepoint. Does nothing if savepoints are not supported. """ if not self._savepoint_allowed(): return self.validate_thread_sharing() self._savepoint_rollback(sid) def savepoint_commit(self, sid): """ Releases a savepoint. Does nothing if savepoints are not supported. """ if not self._savepoint_allowed(): return self.validate_thread_sharing() self._savepoint_commit(sid) def clean_savepoints(self): """ Resets the counter used to generate unique savepoint ids in this thread. """ self.savepoint_state = 0 ##### Backend-specific transaction management methods ##### def _set_autocommit(self, autocommit): """ Backend-specific implementation to enable or disable autocommit. """ raise NotImplementedError ##### Generic transaction management methods ##### def enter_transaction_management(self, managed=True, forced=False): """ Enters transaction management for a running thread. It must be balanced with the appropriate leave_transaction_management call, since the actual state is managed as a stack. The state and dirty flag are carried over from the surrounding block or from the settings, if there is no surrounding block (dirty is always false when no current block is running). If you switch off transaction management and there is a pending commit/rollback, the data will be commited, unless "forced" is True. """ self.validate_no_atomic_block() self.transaction_state.append(managed) if not managed and self.is_dirty() and not forced: self.commit() self.set_clean() if managed == self.get_autocommit(): self.set_autocommit(not managed) def leave_transaction_management(self): """ Leaves transaction management for a running thread. A dirty flag is carried over to the surrounding block, as a commit will commit all changes, even those from outside. (Commits are on connection level.) """ self.validate_no_atomic_block() if self.transaction_state: del self.transaction_state[-1] else: raise TransactionManagementError( "This code isn't under transaction management") if self.transaction_state: managed = self.transaction_state[-1] else: managed = not self.settings_dict['AUTOCOMMIT'] if self._dirty: self.rollback() if managed == self.get_autocommit(): self.set_autocommit(not managed) raise TransactionManagementError( "Transaction managed block ended with pending COMMIT/ROLLBACK") if managed == self.get_autocommit(): self.set_autocommit(not managed) def get_autocommit(self): """ Check the autocommit state. """ self.ensure_connection() return self.autocommit def set_autocommit(self, autocommit): """ Enable or disable autocommit. """ self.validate_no_atomic_block() self.ensure_connection() self._set_autocommit(autocommit) self.autocommit = autocommit def get_rollback(self): """ Get the "needs rollback" flag -- for *advanced use* only. """ if not self.in_atomic_block: raise TransactionManagementError( "The rollback flag doesn't work outside of an 'atomic' block.") return self.needs_rollback def set_rollback(self, rollback): """ Set or unset the "needs rollback" flag -- for *advanced use* only. """ if not self.in_atomic_block: raise TransactionManagementError( "The rollback flag doesn't work outside of an 'atomic' block.") self.needs_rollback = rollback def validate_no_atomic_block(self): """ Raise an error if an atomic block is active. """ if self.in_atomic_block: raise TransactionManagementError( "This is forbidden when an 'atomic' block is active.") def abort(self): """ Roll back any ongoing transaction and clean the transaction state stack. """ if self._dirty: self.rollback() while self.transaction_state: self.leave_transaction_management() def is_dirty(self): """ Returns True if the current transaction requires a commit for changes to happen. """ return self._dirty def set_dirty(self): """ Sets a dirty flag for the current thread and code streak. This can be used to decide in a managed block of code to decide whether there are open changes waiting for commit. """ if not self.get_autocommit(): self._dirty = True def set_clean(self): """ Resets a dirty flag for the current thread and code streak. This can be used to decide in a managed block of code to decide whether a commit or rollback should happen. """ self._dirty = False self.clean_savepoints() ##### Foreign key constraints checks handling ##### @contextmanager def constraint_checks_disabled(self): """ Context manager that disables foreign key constraint checking. """ disabled = self.disable_constraint_checking() try: yield finally: if disabled: self.enable_constraint_checking() def disable_constraint_checking(self): """ Backends can implement as needed to temporarily disable foreign key constraint checking. Should return True if the constraints were disabled and will need to be reenabled. """ return False def enable_constraint_checking(self): """ Backends can implement as needed to re-enable foreign key constraint checking. """ pass def check_constraints(self, table_names=None): """ Backends can override this method if they can apply constraint checking (e.g. via "SET CONSTRAINTS ALL IMMEDIATE"). Should raise an IntegrityError if any invalid foreign key references are encountered. """ pass ##### Connection termination handling ##### def is_usable(self): """ Tests if the database connection is usable. This function may assume that self.connection is not None. """ raise NotImplementedError def close_if_unusable_or_obsolete(self): """ Closes the current connection if unrecoverable errors have occurred, or if it outlived its maximum age. """ if self.connection is not None: # If the application didn't restore the original autocommit setting, # don't take chances, drop the connection. if self.get_autocommit() != self.settings_dict['AUTOCOMMIT']: self.close() return if self.errors_occurred: if self.is_usable(): self.errors_occurred = False else: self.close() return if self.close_at is not None and time.time() >= self.close_at: self.close() return ##### Thread safety handling ##### def validate_thread_sharing(self): """ Validates that the connection isn't accessed by another thread than the one which originally created it, unless the connection was explicitly authorized to be shared between threads (via the `allow_thread_sharing` property). Raises an exception if the validation fails. """ if not (self.allow_thread_sharing or self._thread_ident == thread.get_ident()): raise DatabaseError("DatabaseWrapper objects created in a " "thread can only be used in that same thread. The object " "with alias '%s' was created in thread id %s and this is " "thread id %s." % (self.alias, self._thread_ident, thread.get_ident())) ##### Miscellaneous ##### def wrap_database_errors(self): """ Context manager and decorator that re-throws backend-specific database exceptions using Django's common wrappers. """ return DatabaseErrorWrapper(self) def make_debug_cursor(self, cursor): """ Creates a cursor that logs all queries in self.queries. """ return util.CursorDebugWrapper(cursor, self) @contextmanager def temporary_connection(self): """ Context manager that ensures that a connection is established, and if it opened one, closes it to avoid leaving a dangling connection. This is useful for operations outside of the request-response cycle. Provides a cursor: with self.temporary_connection() as cursor: ... """ must_close = self.connection is None cursor = self.cursor() try: yield cursor finally: cursor.close() if must_close: self.close() def _start_transaction_under_autocommit(self): """ Only required when autocommits_when_autocommit_is_off = True. """ raise NotImplementedError def schema_editor(self): "Returns a new instance of this backend's SchemaEditor" raise NotImplementedError() class BaseDatabaseFeatures(object): allows_group_by_pk = False # True if django.db.backend.utils.typecast_timestamp is used on values # returned from dates() calls. needs_datetime_string_cast = True empty_fetchmany_value = [] update_can_self_select = True # Does the backend distinguish between '' and None? interprets_empty_strings_as_nulls = False # Does the backend allow inserting duplicate rows when a unique_together # constraint exists, but one of the unique_together columns is NULL? ignores_nulls_in_unique_constraints = True can_use_chunked_reads = True can_return_id_from_insert = False has_bulk_insert = False uses_savepoints = False can_combine_inserts_with_and_without_auto_increment_pk = False # If True, don't use integer foreign keys referring to, e.g., positive # integer primary keys. related_fields_match_type = False allow_sliced_subqueries = True has_select_for_update = False has_select_for_update_nowait = False supports_select_related = True # Does the default test database allow multiple connections? # Usually an indication that the test database is in-memory test_db_allows_multiple_connections = True # Can an object be saved without an explicit primary key? supports_unspecified_pk = False # Can a fixture contain forward references? i.e., are # FK constraints checked at the end of transaction, or # at the end of each save operation? supports_forward_references = True # Does a dirty transaction need to be rolled back # before the cursor can be used again? requires_rollback_on_dirty_transaction = False # Does the backend allow very long model names without error? supports_long_model_names = True # Is there a REAL datatype in addition to floats/doubles? has_real_datatype = False supports_subqueries_in_group_by = True supports_bitwise_or = True # Do time/datetime fields have microsecond precision? supports_microsecond_precision = True # Does the __regex lookup support backreferencing and grouping? supports_regex_backreferencing = True # Can date/datetime lookups be performed using a string? supports_date_lookup_using_string = True # Can datetimes with timezones be used? supports_timezones = True # Does the database have a copy of the zoneinfo database? has_zoneinfo_database = True # When performing a GROUP BY, is an ORDER BY NULL required # to remove any ordering? requires_explicit_null_ordering_when_grouping = False # Does the backend order NULL values as largest or smallest? nulls_order_largest = False # Is there a 1000 item limit on query parameters? supports_1000_query_parameters = True # Can an object have a primary key of 0? MySQL says No. allows_primary_key_0 = True # Do we need to NULL a ForeignKey out, or can the constraint check be # deferred can_defer_constraint_checks = False # date_interval_sql can properly handle mixed Date/DateTime fields and timedeltas supports_mixed_date_datetime_comparisons = True # Does the backend support tablespaces? Default to False because it isn't # in the SQL standard. supports_tablespaces = False # Does the backend reset sequences between tests? supports_sequence_reset = True # Confirm support for introspected foreign keys # Every database can do this reliably, except MySQL, # which can't do it for MyISAM tables can_introspect_foreign_keys = True # Support for the DISTINCT ON clause can_distinct_on_fields = False # Does the backend decide to commit before SAVEPOINT statements # when autocommit is disabled? http://bugs.python.org/issue8145#msg109965 autocommits_when_autocommit_is_off = False # Can we roll back DDL in a transaction? can_rollback_ddl = False # Can we issue more than one ALTER COLUMN clause in an ALTER TABLE? supports_combined_alters = False # What's the maximum length for index names? max_index_name_length = 63 # Does it support foreign keys? supports_foreign_keys = True # Does it support CHECK constraints? supports_check_constraints = True # Does the backend support 'pyformat' style ("... %(name)s ...", {'name': value}) # parameter passing? Note this can be provided by the backend even if not # supported by the Python driver supports_paramstyle_pyformat = True def __init__(self, connection): self.connection = connection @cached_property def supports_transactions(self): "Confirm support for transactions" try: # Make sure to run inside a managed transaction block, # otherwise autocommit will cause the confimation to # fail. self.connection.enter_transaction_management() cursor = self.connection.cursor() cursor.execute('CREATE TABLE ROLLBACK_TEST (X INT)') self.connection.commit() cursor.execute('INSERT INTO ROLLBACK_TEST (X) VALUES (8)') self.connection.rollback() cursor.execute('SELECT COUNT(X) FROM ROLLBACK_TEST') count, = cursor.fetchone() cursor.execute('DROP TABLE ROLLBACK_TEST') self.connection.commit() finally: self.connection.leave_transaction_management() return count == 0 @cached_property def supports_stddev(self): "Confirm support for STDDEV and related stats functions" class StdDevPop(object): sql_function = 'STDDEV_POP' try: self.connection.ops.check_aggregate_support(StdDevPop()) return True except NotImplementedError: return False class BaseDatabaseOperations(object): """ This class encapsulates all backend-specific differences, such as the way a backend performs ordering or calculates the ID of a recently-inserted row. """ compiler_module = "django.db.models.sql.compiler" def __init__(self, connection): self.connection = connection self._cache = None def autoinc_sql(self, table, column): """ Returns any SQL needed to support auto-incrementing primary keys, or None if no SQL is necessary. This SQL is executed when a table is created. """ return None def bulk_batch_size(self, fields, objs): """ Returns the maximum allowed batch size for the backend. The fields are the fields going to be inserted in the batch, the objs contains all the objects to be inserted. """ return len(objs) def cache_key_culling_sql(self): """ Returns a SQL query that retrieves the first cache key greater than the n smallest. This is used by the 'db' cache backend to determine where to start culling. """ return "SELECT cache_key FROM %s ORDER BY cache_key LIMIT 1 OFFSET %%s" def date_extract_sql(self, lookup_type, field_name): """ Given a lookup_type of 'year', 'month' or 'day', returns the SQL that extracts a value from the given date field field_name. """ raise NotImplementedError() def date_interval_sql(self, sql, connector, timedelta): """ Implements the date interval functionality for expressions """ raise NotImplementedError() def date_trunc_sql(self, lookup_type, field_name): """ Given a lookup_type of 'year', 'month' or 'day', returns the SQL that truncates the given date field field_name to a date object with only the given specificity. """ raise NotImplementedError() def datetime_cast_sql(self): """ Returns the SQL necessary to cast a datetime value so that it will be retrieved as a Python datetime object instead of a string. This SQL should include a '%s' in place of the field's name. """ return "%s" def datetime_extract_sql(self, lookup_type, field_name, tzname): """ Given a lookup_type of 'year', 'month', 'day', 'hour', 'minute' or 'second', returns the SQL that extracts a value from the given datetime field field_name, and a tuple of parameters. """ raise NotImplementedError() def datetime_trunc_sql(self, lookup_type, field_name, tzname): """ Given a lookup_type of 'year', 'month', 'day', 'hour', 'minute' or 'second', returns the SQL that truncates the given datetime field field_name to a datetime object with only the given specificity, and a tuple of parameters. """ raise NotImplementedError() def deferrable_sql(self): """ Returns the SQL necessary to make a constraint "initially deferred" during a CREATE TABLE statement. """ return '' def distinct_sql(self, fields): """ Returns an SQL DISTINCT clause which removes duplicate rows from the result set. If any fields are given, only the given fields are being checked for duplicates. """ if fields: raise NotImplementedError('DISTINCT ON fields is not supported by this database backend') else: return 'DISTINCT' def drop_foreignkey_sql(self): """ Returns the SQL command that drops a foreign key. """ return "DROP CONSTRAINT" def drop_sequence_sql(self, table): """ Returns any SQL necessary to drop the sequence for the given table. Returns None if no SQL is necessary. """ return None def fetch_returned_insert_id(self, cursor): """ Given a cursor object that has just performed an INSERT...RETURNING statement into a table that has an auto-incrementing ID, returns the newly created ID. """ return cursor.fetchone()[0] def field_cast_sql(self, db_type, internal_type): """ Given a column type (e.g. 'BLOB', 'VARCHAR'), and an internal type (e.g. 'GenericIPAddressField'), returns the SQL necessary to cast it before using it in a WHERE statement. Note that the resulting string should contain a '%s' placeholder for the column being searched against. """ return '%s' def force_no_ordering(self): """ Returns a list used in the "ORDER BY" clause to force no ordering at all. Returning an empty list means that nothing will be included in the ordering. """ return [] def for_update_sql(self, nowait=False): """ Returns the FOR UPDATE SQL clause to lock rows for an update operation. """ if nowait: return 'FOR UPDATE NOWAIT' else: return 'FOR UPDATE' def fulltext_search_sql(self, field_name): """ Returns the SQL WHERE clause to use in order to perform a full-text search of the given field_name. Note that the resulting string should contain a '%s' placeholder for the value being searched against. """ raise NotImplementedError('Full-text search is not implemented for this database backend') def last_executed_query(self, cursor, sql, params): """ Returns a string of the query last executed by the given cursor, with placeholders replaced with actual values. `sql` is the raw query containing placeholders, and `params` is the sequence of parameters. These are used by default, but this method exists for database backends to provide a better implementation according to their own quoting schemes. """ from django.utils.encoding import force_text # Convert params to contain Unicode values. to_unicode = lambda s: force_text(s, strings_only=True, errors='replace') if isinstance(params, (list, tuple)): u_params = tuple(to_unicode(val) for val in params) elif params is None: u_params = () else: u_params = dict((to_unicode(k), to_unicode(v)) for k, v in params.items()) return six.text_type("QUERY = %r - PARAMS = %r") % (sql, u_params) def last_insert_id(self, cursor, table_name, pk_name): """ Given a cursor object that has just performed an INSERT statement into a table that has an auto-incrementing ID, returns the newly created ID. This method also receives the table name and the name of the primary-key column. """ return cursor.lastrowid def lookup_cast(self, lookup_type): """ Returns the string to use in a query when performing lookups ("contains", "like", etc). The resulting string should contain a '%s' placeholder for the column being searched against. """ return "%s" def max_in_list_size(self): """ Returns the maximum number of items that can be passed in a single 'IN' list condition, or None if the backend does not impose a limit. """ return None def max_name_length(self): """ Returns the maximum length of table and column names, or None if there is no limit. """ return None def no_limit_value(self): """ Returns the value to use for the LIMIT when we are wanting "LIMIT infinity". Returns None if the limit clause can be omitted in this case. """ raise NotImplementedError def pk_default_value(self): """ Returns the value to use during an INSERT statement to specify that the field should use its default value. """ return 'DEFAULT' def process_clob(self, value): """ Returns the value of a CLOB column, for backends that return a locator object that requires additional processing. """ return value def return_insert_id(self): """ For backends that support returning the last insert ID as part of an insert query, this method returns the SQL and params to append to the INSERT query. The returned fragment should contain a format string to hold the appropriate column. """ pass def compiler(self, compiler_name): """ Returns the SQLCompiler class corresponding to the given name, in the namespace corresponding to the `compiler_module` attribute on this backend. """ if self._cache is None: self._cache = import_module(self.compiler_module) return getattr(self._cache, compiler_name) def quote_name(self, name): """ Returns a quoted version of the given table, index or column name. Does not quote the given name if it's already been quoted. """ raise NotImplementedError() def random_function_sql(self): """ Returns a SQL expression that returns a random value. """ return 'RANDOM()' def regex_lookup(self, lookup_type): """ Returns the string to use in a query when performing regular expression lookups (using "regex" or "iregex"). The resulting string should contain a '%s' placeholder for the column being searched against. If the feature is not supported (or part of it is not supported), a NotImplementedError exception can be raised. """ raise NotImplementedError def savepoint_create_sql(self, sid): """ Returns the SQL for starting a new savepoint. Only required if the "uses_savepoints" feature is True. The "sid" parameter is a string for the savepoint id. """ return "SAVEPOINT %s" % self.quote_name(sid) def savepoint_commit_sql(self, sid): """ Returns the SQL for committing the given savepoint. """ return "RELEASE SAVEPOINT %s" % self.quote_name(sid) def savepoint_rollback_sql(self, sid): """ Returns the SQL for rolling back the given savepoint. """ return "ROLLBACK TO SAVEPOINT %s" % self.quote_name(sid) def set_time_zone_sql(self): """ Returns the SQL that will set the connection's time zone. Returns '' if the backend doesn't support time zones. """ return '' def sql_flush(self, style, tables, sequences, allow_cascade=False): """ Returns a list of SQL statements required to remove all data from the given database tables (without actually removing the tables themselves). The returned value also includes SQL statements required to reset DB sequences passed in :param sequences:. The `style` argument is a Style object as returned by either color_style() or no_style() in django.core.management.color. The `allow_cascade` argument determines whether truncation may cascade to tables with foreign keys pointing the tables being truncated. PostgreSQL requires a cascade even if these tables are empty. """ raise NotImplementedError() def sequence_reset_by_name_sql(self, style, sequences): """ Returns a list of the SQL statements required to reset sequences passed in :param sequences:. The `style` argument is a Style object as returned by either color_style() or no_style() in django.core.management.color. """ return [] def sequence_reset_sql(self, style, model_list): """ Returns a list of the SQL statements required to reset sequences for the given models. The `style` argument is a Style object as returned by either color_style() or no_style() in django.core.management.color. """ return [] # No sequence reset required by default. def start_transaction_sql(self): """ Returns the SQL statement required to start a transaction. """ return "BEGIN;" def end_transaction_sql(self, success=True): """ Returns the SQL statement required to end a transaction. """ if not success: return "ROLLBACK;" return "COMMIT;" def tablespace_sql(self, tablespace, inline=False): """ Returns the SQL that will be used in a query to define the tablespace. Returns '' if the backend doesn't support tablespaces. If inline is True, the SQL is appended to a row; otherwise it's appended to the entire CREATE TABLE or CREATE INDEX statement. """ return '' def prep_for_like_query(self, x): """Prepares a value for use in a LIKE query.""" from django.utils.encoding import force_text return force_text(x).replace("\\", "\\\\").replace("%", "\%").replace("_", "\_") # Same as prep_for_like_query(), but called for "iexact" matches, which # need not necessarily be implemented using "LIKE" in the backend. prep_for_iexact_query = prep_for_like_query def validate_autopk_value(self, value): """ Certain backends do not accept some values for "serial" fields (for example zero in MySQL). This method will raise a ValueError if the value is invalid, otherwise returns validated value. """ return value def value_to_db_date(self, value): """ Transform a date value to an object compatible with what is expected by the backend driver for date columns. """ if value is None: return None return six.text_type(value) def value_to_db_datetime(self, value): """ Transform a datetime value to an object compatible with what is expected by the backend driver for datetime columns. """ if value is None: return None return six.text_type(value) def value_to_db_time(self, value): """ Transform a time value to an object compatible with what is expected by the backend driver for time columns. """ if value is None: return None if timezone.is_aware(value): raise ValueError("Django does not support timezone-aware times.") return six.text_type(value) def value_to_db_decimal(self, value, max_digits, decimal_places): """ Transform a decimal.Decimal value to an object compatible with what is expected by the backend driver for decimal (numeric) columns. """ if value is None: return None return util.format_number(value, max_digits, decimal_places) def year_lookup_bounds_for_date_field(self, value): """ Returns a two-elements list with the lower and upper bound to be used with a BETWEEN operator to query a DateField value using a year lookup. `value` is an int, containing the looked-up year. """ first = datetime.date(value, 1, 1) second = datetime.date(value, 12, 31) return [first, second] def year_lookup_bounds_for_datetime_field(self, value): """ Returns a two-elements list with the lower and upper bound to be used with a BETWEEN operator to query a DateTimeField value using a year lookup. `value` is an int, containing the looked-up year. """ first = datetime.datetime(value, 1, 1) second = datetime.datetime(value, 12, 31, 23, 59, 59, 999999) if settings.USE_TZ: tz = timezone.get_current_timezone() first = timezone.make_aware(first, tz) second = timezone.make_aware(second, tz) return [first, second] def convert_values(self, value, field): """ Coerce the value returned by the database backend into a consistent type that is compatible with the field type. """ if value is None: return value internal_type = field.get_internal_type() if internal_type == 'FloatField': return float(value) elif (internal_type and (internal_type.endswith('IntegerField') or internal_type == 'AutoField')): return int(value) return value def check_aggregate_support(self, aggregate_func): """Check that the backend supports the provided aggregate This is used on specific backends to rule out known aggregates that are known to have faulty implementations. If the named aggregate function has a known problem, the backend should raise NotImplementedError. """ pass def combine_expression(self, connector, sub_expressions): """Combine a list of subexpressions into a single expression, using the provided connecting operator. This is required because operators can vary between backends (e.g., Oracle with %% and &) and between subexpression types (e.g., date expressions) """ conn = ' %s ' % connector return conn.join(sub_expressions) def modify_insert_params(self, placeholders, params): """Allow modification of insert parameters. Needed for Oracle Spatial backend due to #10888. """ return params # Structure returned by the DB-API cursor.description interface (PEP 249) FieldInfo = namedtuple('FieldInfo', 'name type_code display_size internal_size precision scale null_ok' ) class BaseDatabaseIntrospection(object): """ This class encapsulates all backend-specific introspection utilities """ data_types_reverse = {} def __init__(self, connection): self.connection = connection def get_field_type(self, data_type, description): """Hook for a database backend to use the cursor description to match a Django field type to a database column. For Oracle, the column data_type on its own is insufficient to distinguish between a FloatField and IntegerField, for example.""" return self.data_types_reverse[data_type] def table_name_converter(self, name): """Apply a conversion to the name for the purposes of comparison. The default table name converter is for case sensitive comparison. """ return name def table_names(self, cursor=None): """ Returns a list of names of all tables that exist in the database. The returned table list is sorted by Python's default sorting. We do NOT use database's ORDER BY here to avoid subtle differences in sorting order between databases. """ if cursor is None: cursor = self.connection.cursor() return sorted(self.get_table_list(cursor)) def get_table_list(self, cursor): """ Returns an unsorted list of names of all tables that exist in the database. """ raise NotImplementedError def django_table_names(self, only_existing=False): """ Returns a list of all table names that have associated Django models and are in INSTALLED_APPS. If only_existing is True, the resulting list will only include the tables that actually exist in the database. """ from django.db import models, router tables = set() for app in models.get_apps(): for model in models.get_models(app): if not model._meta.managed: continue if not router.allow_migrate(self.connection.alias, model): continue tables.add(model._meta.db_table) tables.update([f.m2m_db_table() for f in model._meta.local_many_to_many]) tables = list(tables) if only_existing: existing_tables = self.table_names() tables = [ t for t in tables if self.table_name_converter(t) in existing_tables ] return tables def installed_models(self, tables): "Returns a set of all models represented by the provided list of table names." from django.db import models, router all_models = [] for app in models.get_apps(): for model in models.get_models(app): if router.allow_migrate(self.connection.alias, model): all_models.append(model) tables = list(map(self.table_name_converter, tables)) return set([ m for m in all_models if self.table_name_converter(m._meta.db_table) in tables ]) def sequence_list(self): "Returns a list of information about all DB sequences for all models in all apps." from django.db import models, router apps = models.get_apps() sequence_list = [] for app in apps: for model in models.get_models(app): if not model._meta.managed: continue if model._meta.swapped: continue if not router.allow_migrate(self.connection.alias, model): continue for f in model._meta.local_fields: if isinstance(f, models.AutoField): sequence_list.append({'table': model._meta.db_table, 'column': f.column}) break # Only one AutoField is allowed per model, so don't bother continuing. for f in model._meta.local_many_to_many: # If this is an m2m using an intermediate table, # we don't need to reset the sequence. if f.rel.through is None: sequence_list.append({'table': f.m2m_db_table(), 'column': None}) return sequence_list def get_key_columns(self, cursor, table_name): """ Backends can override this to return a list of (column_name, referenced_table_name, referenced_column_name) for all key columns in given table. """ raise NotImplementedError def get_primary_key_column(self, cursor, table_name): """ Returns the name of the primary key column for the given table. """ for column in six.iteritems(self.get_indexes(cursor, table_name)): if column[1]['primary_key']: return column[0] return None def get_indexes(self, cursor, table_name): """ Returns a dictionary of indexed fieldname -> infodict for the given table, where each infodict is in the format: {'primary_key': boolean representing whether it's the primary key, 'unique': boolean representing whether it's a unique index} Only single-column indexes are introspected. """ raise NotImplementedError def get_constraints(self, cursor, table_name): """ Retrieves any constraints or keys (unique, pk, fk, check, index) across one or more columns. Returns a dict mapping constraint names to their attributes, where attributes is a dict with keys: * columns: List of columns this covers * primary_key: True if primary key, False otherwise * unique: True if this is a unique constraint, False otherwise * foreign_key: (table, column) of target, or None * check: True if check constraint, False otherwise * index: True if index, False otherwise. Some backends may return special constraint names that don't exist if they don't name constraints of a certain type (e.g. SQLite) """ raise NotImplementedError class BaseDatabaseClient(object): """ This class encapsulates all backend-specific methods for opening a client shell. """ # This should be a string representing the name of the executable # (e.g., "psql"). Subclasses must override this. executable_name = None def __init__(self, connection): # connection is an instance of BaseDatabaseWrapper. self.connection = connection def runshell(self): raise NotImplementedError() class BaseDatabaseValidation(object): """ This class encapsualtes all backend-specific model validation. """ def __init__(self, connection): self.connection = connection def validate_field(self, errors, opts, f): "By default, there is no backend-specific validation" pass