import datetime import decimal import json from importlib import import_module import sqlparse from django.conf import settings from django.db import NotSupportedError, transaction from django.db.backends import utils from django.utils import timezone from django.utils.encoding import force_str class BaseDatabaseOperations: """ Encapsulate 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" # Integer field safe ranges by `internal_type` as documented # in docs/ref/models/fields.txt. integer_field_ranges = { "SmallIntegerField": (-32768, 32767), "IntegerField": (-2147483648, 2147483647), "BigIntegerField": (-9223372036854775808, 9223372036854775807), "PositiveBigIntegerField": (0, 9223372036854775807), "PositiveSmallIntegerField": (0, 32767), "PositiveIntegerField": (0, 2147483647), "SmallAutoField": (-32768, 32767), "AutoField": (-2147483648, 2147483647), "BigAutoField": (-9223372036854775808, 9223372036854775807), } set_operators = { "union": "UNION", "intersection": "INTERSECT", "difference": "EXCEPT", } # Mapping of Field.get_internal_type() (typically the model field's class # name) to the data type to use for the Cast() function, if different from # DatabaseWrapper.data_types. cast_data_types = {} # CharField data type if the max_length argument isn't provided. cast_char_field_without_max_length = None # Start and end points for window expressions. PRECEDING = "PRECEDING" FOLLOWING = "FOLLOWING" UNBOUNDED_PRECEDING = "UNBOUNDED " + PRECEDING UNBOUNDED_FOLLOWING = "UNBOUNDED " + FOLLOWING CURRENT_ROW = "CURRENT ROW" # Prefix for EXPLAIN queries, or None EXPLAIN isn't supported. explain_prefix = None def __init__(self, connection): self.connection = connection self._cache = None def autoinc_sql(self, table, column): """ Return 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): """ Return 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 format_for_duration_arithmetic(self, sql): raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a " "format_for_duration_arithmetic() method." ) def cache_key_culling_sql(self): """ Return an 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. """ cache_key = self.quote_name("cache_key") return f"SELECT {cache_key} FROM %s ORDER BY {cache_key} LIMIT 1 OFFSET %%s" def unification_cast_sql(self, output_field): """ Given a field instance, return the SQL that casts the result of a union to that type. The resulting string should contain a '%s' placeholder for the expression being cast. """ return "%s" def date_extract_sql(self, lookup_type, sql, params): """ Given a lookup_type of 'year', 'month', or 'day', return the SQL that extracts a value from the given date field field_name. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a date_extract_sql() " "method" ) def date_trunc_sql(self, lookup_type, sql, params, tzname=None): """ Given a lookup_type of 'year', 'month', or 'day', return the SQL that truncates the given date or datetime field field_name to a date object with only the given specificity. If `tzname` is provided, the given value is truncated in a specific timezone. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a date_trunc_sql() " "method." ) def datetime_cast_date_sql(self, sql, params, tzname): """ Return the SQL to cast a datetime value to date value. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a " "datetime_cast_date_sql() method." ) def datetime_cast_time_sql(self, sql, params, tzname): """ Return the SQL to cast a datetime value to time value. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a " "datetime_cast_time_sql() method" ) def datetime_extract_sql(self, lookup_type, sql, params, tzname): """ Given a lookup_type of 'year', 'month', 'day', 'hour', 'minute', or 'second', return the SQL that extracts a value from the given datetime field field_name. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a datetime_extract_sql() " "method" ) def datetime_trunc_sql(self, lookup_type, sql, params, tzname): """ Given a lookup_type of 'year', 'month', 'day', 'hour', 'minute', or 'second', return the SQL that truncates the given datetime field field_name to a datetime object with only the given specificity. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a datetime_trunc_sql() " "method" ) def time_trunc_sql(self, lookup_type, sql, params, tzname=None): """ Given a lookup_type of 'hour', 'minute' or 'second', return the SQL that truncates the given time or datetime field field_name to a time object with only the given specificity. If `tzname` is provided, the given value is truncated in a specific timezone. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a time_trunc_sql() method" ) def time_extract_sql(self, lookup_type, sql, params): """ Given a lookup_type of 'hour', 'minute', or 'second', return the SQL that extracts a value from the given time field field_name. """ return self.date_extract_sql(lookup_type, sql, params) def deferrable_sql(self): """ Return the SQL to make a constraint "initially deferred" during a CREATE TABLE statement. """ return "" def distinct_sql(self, fields, params): """ Return an SQL DISTINCT clause which removes duplicate rows from the result set. If any fields are given, only check the given fields for duplicates. """ if fields: raise NotSupportedError( "DISTINCT ON fields is not supported by this database backend" ) else: return ["DISTINCT"], [] def fetch_returned_insert_columns(self, cursor, returning_params): """ Given a cursor object that has just performed an INSERT...RETURNING statement into a table, return the newly created data. """ return cursor.fetchone() def field_cast_sql(self, db_type, internal_type): """ Given a column type (e.g. 'BLOB', 'VARCHAR') and an internal type (e.g. 'GenericIPAddressField'), return the SQL to cast it before using it in a WHERE statement. The resulting string should contain a '%s' placeholder for the column being searched against. """ return "%s" def force_no_ordering(self): """ Return a list used in the "ORDER BY" clause to force no ordering at all. Return an empty list to include nothing in the ordering. """ return [] def for_update_sql(self, nowait=False, skip_locked=False, of=(), no_key=False): """ Return the FOR UPDATE SQL clause to lock rows for an update operation. """ return "FOR%s UPDATE%s%s%s" % ( " NO KEY" if no_key else "", " OF %s" % ", ".join(of) if of else "", " NOWAIT" if nowait else "", " SKIP LOCKED" if skip_locked else "", ) def _get_limit_offset_params(self, low_mark, high_mark): offset = low_mark or 0 if high_mark is not None: return (high_mark - offset), offset elif offset: return self.connection.ops.no_limit_value(), offset return None, offset def limit_offset_sql(self, low_mark, high_mark): """Return LIMIT/OFFSET SQL clause.""" limit, offset = self._get_limit_offset_params(low_mark, high_mark) return " ".join( sql for sql in ( ("LIMIT %d" % limit) if limit else None, ("OFFSET %d" % offset) if offset else None, ) if sql ) def last_executed_query(self, cursor, sql, params): """ Return 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. """ # Convert params to contain string values. def to_string(s): return force_str(s, strings_only=True, errors="replace") if isinstance(params, (list, tuple)): u_params = tuple(to_string(val) for val in params) elif params is None: u_params = () else: u_params = {to_string(k): to_string(v) for k, v in params.items()} return "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, return the newly created ID. `pk_name` is the name of the primary-key column. """ return cursor.lastrowid def lookup_cast(self, lookup_type, internal_type=None): """ Return the string to use in a query when performing lookups ("contains", "like", etc.). It should contain a '%s' placeholder for the column being searched against. """ return "%s" def max_in_list_size(self): """ Return 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): """ Return the maximum length of table and column names, or None if there is no limit. """ return None def no_limit_value(self): """ Return the value to use for the LIMIT when we are wanting "LIMIT infinity". Return None if the limit clause can be omitted in this case. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a no_limit_value() method" ) def pk_default_value(self): """ Return the value to use during an INSERT statement to specify that the field should use its default value. """ return "DEFAULT" def prepare_sql_script(self, sql): """ Take an SQL script that may contain multiple lines and return a list of statements to feed to successive cursor.execute() calls. Since few databases are able to process raw SQL scripts in a single cursor.execute() call and PEP 249 doesn't talk about this use case, the default implementation is conservative. """ return [ sqlparse.format(statement, strip_comments=True) for statement in sqlparse.split(sql) if statement ] def process_clob(self, value): """ Return the value of a CLOB column, for backends that return a locator object that requires additional processing. """ return value def return_insert_columns(self, fields): """ For backends that support returning columns as part of an insert query, return 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): """ Return 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): """ Return a quoted version of the given table, index, or column name. Do not quote the given name if it's already been quoted. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a quote_name() method" ) def regex_lookup(self, lookup_type): """ Return the string to use in a query when performing regular expression lookups (using "regex" or "iregex"). It should contain a '%s' placeholder for the column being searched against. If the feature is not supported (or part of it is not supported), raise NotImplementedError. """ raise NotImplementedError( "subclasses of BaseDatabaseOperations may require a regex_lookup() method" ) def savepoint_create_sql(self, sid): """ Return 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): """ Return the SQL for committing the given savepoint. """ return "RELEASE SAVEPOINT %s" % self.quote_name(sid) def savepoint_rollback_sql(self, sid): """ Return the SQL for rolling back the given savepoint. """ return "ROLLBACK TO SAVEPOINT %s" % self.quote_name(sid) def set_time_zone_sql(self): """ Return the SQL that will set the connection's time zone. Return '' if the backend doesn't support time zones. """ return "" def sql_flush(self, style, tables, *, reset_sequences=False, allow_cascade=False): """ Return a list of SQL statements required to remove all data from the given database tables (without actually removing the tables themselves). The `style` argument is a Style object as returned by either color_style() or no_style() in django.core.management.color. If `reset_sequences` is True, the list includes SQL statements required to reset the sequences. 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( "subclasses of BaseDatabaseOperations must provide an sql_flush() method" ) def execute_sql_flush(self, sql_list): """Execute a list of SQL statements to flush the database.""" with transaction.atomic( using=self.connection.alias, savepoint=self.connection.features.can_rollback_ddl, ): with self.connection.cursor() as cursor: for sql in sql_list: cursor.execute(sql) def sequence_reset_by_name_sql(self, style, sequences): """ Return a list of the SQL statements required to reset sequences passed in `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): """ Return 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): """Return the SQL statement required to start a transaction.""" return "BEGIN;" def end_transaction_sql(self, success=True): """Return the SQL statement required to end a transaction.""" if not success: return "ROLLBACK;" return "COMMIT;" def tablespace_sql(self, tablespace, inline=False): """ Return the SQL that will be used in a query to define the tablespace. Return '' if the backend doesn't support tablespaces. If `inline` is True, append the SQL to a row; otherwise append it to the entire CREATE TABLE or CREATE INDEX statement. """ return "" def prep_for_like_query(self, x): """Prepare a value for use in a LIKE query.""" return str(x).replace("\\", "\\\\").replace("%", r"\%").replace("_", r"\_") # 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). Raise a ValueError if the value is invalid, otherwise return the validated value. """ return value def adapt_unknown_value(self, value): """ Transform a value to something compatible with the backend driver. This method only depends on the type of the value. It's designed for cases where the target type isn't known, such as .raw() SQL queries. As a consequence it may not work perfectly in all circumstances. """ if isinstance(value, datetime.datetime): # must be before date return self.adapt_datetimefield_value(value) elif isinstance(value, datetime.date): return self.adapt_datefield_value(value) elif isinstance(value, datetime.time): return self.adapt_timefield_value(value) elif isinstance(value, decimal.Decimal): return self.adapt_decimalfield_value(value) else: return value def adapt_integerfield_value(self, value, internal_type): return value def adapt_datefield_value(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 str(value) def adapt_datetimefield_value(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 # Expression values are adapted by the database. if hasattr(value, "resolve_expression"): return value return str(value) def adapt_timefield_value(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 # Expression values are adapted by the database. if hasattr(value, "resolve_expression"): return value if timezone.is_aware(value): raise ValueError("Django does not support timezone-aware times.") return str(value) def adapt_decimalfield_value(self, value, max_digits=None, decimal_places=None): """ Transform a decimal.Decimal value to an object compatible with what is expected by the backend driver for decimal (numeric) columns. """ return utils.format_number(value, max_digits, decimal_places) def adapt_ipaddressfield_value(self, value): """ Transform a string representation of an IP address into the expected type for the backend driver. """ return value or None def adapt_json_value(self, value, encoder): return json.dumps(value, cls=encoder) def year_lookup_bounds_for_date_field(self, value, iso_year=False): """ Return 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. If `iso_year` is True, return bounds for ISO-8601 week-numbering years. """ if iso_year: first = datetime.date.fromisocalendar(value, 1, 1) second = datetime.date.fromisocalendar( value + 1, 1, 1 ) - datetime.timedelta(days=1) else: first = datetime.date(value, 1, 1) second = datetime.date(value, 12, 31) first = self.adapt_datefield_value(first) second = self.adapt_datefield_value(second) return [first, second] def year_lookup_bounds_for_datetime_field(self, value, iso_year=False): """ Return 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. If `iso_year` is True, return bounds for ISO-8601 week-numbering years. """ if iso_year: first = datetime.datetime.fromisocalendar(value, 1, 1) second = datetime.datetime.fromisocalendar( value + 1, 1, 1 ) - datetime.timedelta(microseconds=1) else: 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) first = self.adapt_datetimefield_value(first) second = self.adapt_datetimefield_value(second) return [first, second] def get_db_converters(self, expression): """ Return a list of functions needed to convert field data. Some field types on some backends do not provide data in the correct format, this is the hook for converter functions. """ return [] def convert_durationfield_value(self, value, expression, connection): if value is not None: return datetime.timedelta(0, 0, value) def check_expression_support(self, expression): """ Check that the backend supports the provided expression. This is used on specific backends to rule out known expressions that have problematic or nonexistent implementations. If the expression has a known problem, the backend should raise NotSupportedError. """ pass def conditional_expression_supported_in_where_clause(self, expression): """ Return True, if the conditional expression is supported in the WHERE clause. """ return True 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 combine_duration_expression(self, connector, sub_expressions): return self.combine_expression(connector, sub_expressions) def binary_placeholder_sql(self, value): """ Some backends require special syntax to insert binary content (MySQL for example uses '_binary %s'). """ return "%s" def modify_insert_params(self, placeholder, params): """ Allow modification of insert parameters. Needed for Oracle Spatial backend due to #10888. """ return params def integer_field_range(self, internal_type): """ Given an integer field internal type (e.g. 'PositiveIntegerField'), return a tuple of the (min_value, max_value) form representing the range of the column type bound to the field. """ return self.integer_field_ranges[internal_type] def subtract_temporals(self, internal_type, lhs, rhs): if self.connection.features.supports_temporal_subtraction: lhs_sql, lhs_params = lhs rhs_sql, rhs_params = rhs return "(%s - %s)" % (lhs_sql, rhs_sql), (*lhs_params, *rhs_params) raise NotSupportedError( "This backend does not support %s subtraction." % internal_type ) def window_frame_start(self, start): if isinstance(start, int): if start < 0: return "%d %s" % (abs(start), self.PRECEDING) elif start == 0: return self.CURRENT_ROW elif start is None: return self.UNBOUNDED_PRECEDING raise ValueError( "start argument must be a negative integer, zero, or None, but got '%s'." % start ) def window_frame_end(self, end): if isinstance(end, int): if end == 0: return self.CURRENT_ROW elif end > 0: return "%d %s" % (end, self.FOLLOWING) elif end is None: return self.UNBOUNDED_FOLLOWING raise ValueError( "end argument must be a positive integer, zero, or None, but got '%s'." % end ) def window_frame_rows_start_end(self, start=None, end=None): """ Return SQL for start and end points in an OVER clause window frame. """ if not self.connection.features.supports_over_clause: raise NotSupportedError("This backend does not support window expressions.") return self.window_frame_start(start), self.window_frame_end(end) def window_frame_range_start_end(self, start=None, end=None): start_, end_ = self.window_frame_rows_start_end(start, end) features = self.connection.features if features.only_supports_unbounded_with_preceding_and_following and ( (start and start < 0) or (end and end > 0) ): raise NotSupportedError( "%s only supports UNBOUNDED together with PRECEDING and " "FOLLOWING." % self.connection.display_name ) return start_, end_ def explain_query_prefix(self, format=None, **options): if not self.connection.features.supports_explaining_query_execution: raise NotSupportedError( "This backend does not support explaining query execution." ) if format: supported_formats = self.connection.features.supported_explain_formats normalized_format = format.upper() if normalized_format not in supported_formats: msg = "%s is not a recognized format." % normalized_format if supported_formats: msg += " Allowed formats: %s" % ", ".join(sorted(supported_formats)) else: msg += ( f" {self.connection.display_name} does not support any formats." ) raise ValueError(msg) if options: raise ValueError("Unknown options: %s" % ", ".join(sorted(options.keys()))) return self.explain_prefix def insert_statement(self, on_conflict=None): return "INSERT INTO" def on_conflict_suffix_sql(self, fields, on_conflict, update_fields, unique_fields): return ""