django1/django/db/backends/schema.py

728 lines
33 KiB
Python

import hashlib
import operator
import sys
from django.db.backends.creation import BaseDatabaseCreation
from django.db.backends.util import truncate_name
from django.db.models.fields.related import ManyToManyField
from django.db.transaction import atomic
from django.utils.log import getLogger
from django.utils.six.moves import reduce
from django.utils.six import callable
logger = getLogger('django.db.backends.schema')
class BaseDatabaseSchemaEditor(object):
"""
This class (and its subclasses) are responsible for emitting schema-changing
statements to the databases - model creation/removal/alteration, field
renaming, index fiddling, and so on.
It is intended to eventually completely replace DatabaseCreation.
This class should be used by creating an instance for each set of schema
changes (e.g. a syncdb run, a migration file), and by first calling start(),
then the relevant actions, and then commit(). This is necessary to allow
things like circular foreign key references - FKs will only be created once
commit() is called.
"""
# Overrideable SQL templates
sql_create_table = "CREATE TABLE %(table)s (%(definition)s)"
sql_create_table_unique = "UNIQUE (%(columns)s)"
sql_rename_table = "ALTER TABLE %(old_table)s RENAME TO %(new_table)s"
sql_retablespace_table = "ALTER TABLE %(table)s SET TABLESPACE %(new_tablespace)s"
sql_delete_table = "DROP TABLE %(table)s CASCADE"
sql_create_column = "ALTER TABLE %(table)s ADD COLUMN %(column)s %(definition)s"
sql_alter_column = "ALTER TABLE %(table)s %(changes)s"
sql_alter_column_type = "ALTER COLUMN %(column)s TYPE %(type)s"
sql_alter_column_null = "ALTER COLUMN %(column)s DROP NOT NULL"
sql_alter_column_not_null = "ALTER COLUMN %(column)s SET NOT NULL"
sql_alter_column_default = "ALTER COLUMN %(column)s SET DEFAULT %(default)s"
sql_alter_column_no_default = "ALTER COLUMN %(column)s DROP DEFAULT"
sql_delete_column = "ALTER TABLE %(table)s DROP COLUMN %(column)s CASCADE"
sql_rename_column = "ALTER TABLE %(table)s RENAME COLUMN %(old_column)s TO %(new_column)s"
sql_create_check = "ALTER TABLE %(table)s ADD CONSTRAINT %(name)s CHECK (%(check)s)"
sql_delete_check = "ALTER TABLE %(table)s DROP CONSTRAINT %(name)s"
sql_create_unique = "ALTER TABLE %(table)s ADD CONSTRAINT %(name)s UNIQUE (%(columns)s)"
sql_delete_unique = "ALTER TABLE %(table)s DROP CONSTRAINT %(name)s"
sql_create_fk = "ALTER TABLE %(table)s ADD CONSTRAINT %(name)s FOREIGN KEY (%(column)s) REFERENCES %(to_table)s (%(to_column)s) DEFERRABLE INITIALLY DEFERRED"
sql_delete_fk = "ALTER TABLE %(table)s DROP CONSTRAINT %(name)s"
sql_create_index = "CREATE INDEX %(name)s ON %(table)s (%(columns)s)%(extra)s;"
sql_delete_index = "DROP INDEX %(name)s"
sql_create_pk = "ALTER TABLE %(table)s ADD CONSTRAINT %(name)s PRIMARY KEY (%(columns)s)"
sql_delete_pk = "ALTER TABLE %(table)s DROP CONSTRAINT %(name)s"
def __init__(self, connection):
self.connection = connection
# State-managing methods
def __enter__(self):
self.deferred_sql = []
atomic(self.connection.alias, self.connection.features.can_rollback_ddl).__enter__()
return self
def __exit__(self, exc_type, exc_value, traceback):
if exc_type is None:
for sql in self.deferred_sql:
self.execute(sql)
atomic(self.connection.alias, self.connection.features.can_rollback_ddl).__exit__(exc_type, exc_value, traceback)
# Core utility functions
def execute(self, sql, params=[]):
"""
Executes the given SQL statement, with optional parameters.
"""
# Get the cursor
cursor = self.connection.cursor()
# Log the command we're running, then run it
logger.debug("%s; (params %r)" % (sql, params))
cursor.execute(sql, params)
def quote_name(self, name):
return self.connection.ops.quote_name(name)
# Field <-> database mapping functions
def column_sql(self, model, field, include_default=False):
"""
Takes a field and returns its column definition.
The field must already have had set_attributes_from_name called.
"""
# Get the column's type and use that as the basis of the SQL
db_params = field.db_parameters(connection=self.connection)
sql = db_params['type']
params = []
# Check for fields that aren't actually columns (e.g. M2M)
if sql is None:
return None
# Work out nullability
null = field.null
# If we were told to include a default value, do so
default_value = self.effective_default(field)
if include_default and default_value is not None:
if self.connection.features.requires_literal_defaults:
# Some databases can't take defaults as a parameter (oracle)
# If this is the case, the individual schema backend should
# implement prepare_default
sql += " DEFAULT %s" % self.prepare_default(default_value)
else:
sql += " DEFAULT %s"
params += [default_value]
# Oracle treats the empty string ('') as null, so coerce the null
# option whenever '' is a possible value.
if (field.empty_strings_allowed and not field.primary_key and
self.connection.features.interprets_empty_strings_as_nulls):
null = True
if null:
sql += " NULL"
else:
sql += " NOT NULL"
# Primary key/unique outputs
if field.primary_key:
sql += " PRIMARY KEY"
elif field.unique:
sql += " UNIQUE"
# Optionally add the tablespace if it's an implicitly indexed column
tablespace = field.db_tablespace or model._meta.db_tablespace
if tablespace and self.connection.features.supports_tablespaces and field.unique:
sql += " %s" % self.connection.ops.tablespace_sql(tablespace, inline=True)
# Return the sql
return sql, params
def prepare_default(self, value):
"""
Only used for backends which have requires_literal_defaults feature
"""
raise NotImplementedError()
def effective_default(self, field):
"""
Returns a field's effective database default value
"""
if field.has_default():
default = field.get_default()
elif not field.null and field.blank and field.empty_strings_allowed:
default = ""
else:
default = None
# If it's a callable, call it
if callable(default):
default = default()
return default
# Actions
def create_model(self, model):
"""
Takes a model and creates a table for it in the database.
Will also create any accompanying indexes or unique constraints.
"""
# Create column SQL, add FK deferreds if needed
column_sqls = []
params = []
for field in model._meta.local_fields:
# SQL
definition, extra_params = self.column_sql(model, field)
if definition is None:
continue
# Check constraints can go on the column SQL here
db_params = field.db_parameters(connection=self.connection)
if db_params['check']:
definition += " CHECK (%s)" % db_params['check']
# Add the SQL to our big list
column_sqls.append("%s %s" % (
self.quote_name(field.column),
definition,
))
params.extend(extra_params)
# Indexes
if field.db_index and not field.unique:
self.deferred_sql.append(
self.sql_create_index % {
"name": self._create_index_name(model, [field.column], suffix=""),
"table": self.quote_name(model._meta.db_table),
"columns": self.quote_name(field.column),
"extra": "",
}
)
# FK
if field.rel and self.connection.features.supports_foreign_keys:
to_table = field.rel.to._meta.db_table
to_column = field.rel.to._meta.get_field(field.rel.field_name).column
self.deferred_sql.append(
self.sql_create_fk % {
"name": self._create_index_name(model, [field.column], suffix="_fk_%s_%s" % (to_table, to_column)),
"table": self.quote_name(model._meta.db_table),
"column": self.quote_name(field.column),
"to_table": self.quote_name(to_table),
"to_column": self.quote_name(to_column),
}
)
# Autoincrement SQL
if field.get_internal_type() == "AutoField":
autoinc_sql = self.connection.ops.autoinc_sql(model._meta.db_table, field.column)
if autoinc_sql:
self.deferred_sql.extend(autoinc_sql)
# Add any unique_togethers
for fields in model._meta.unique_together:
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
column_sqls.append(self.sql_create_table_unique % {
"columns": ", ".join(self.quote_name(column) for column in columns),
})
# Make the table
sql = self.sql_create_table % {
"table": model._meta.db_table,
"definition": ", ".join(column_sqls)
}
self.execute(sql, params)
# Add any index_togethers
for fields in model._meta.index_together:
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
self.execute(self.sql_create_index % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, columns, suffix="_idx"),
"columns": ", ".join(self.quote_name(column) for column in columns),
"extra": "",
})
# Make M2M tables
for field in model._meta.local_many_to_many:
self.create_model(field.rel.through)
def delete_model(self, model):
"""
Deletes a model from the database.
"""
# Delete the table
self.execute(self.sql_delete_table % {
"table": self.quote_name(model._meta.db_table),
})
def alter_unique_together(self, model, old_unique_together, new_unique_together):
"""
Deals with a model changing its unique_together.
Note: The input unique_togethers must be doubly-nested, not the single-
nested ["foo", "bar"] format.
"""
olds = set(tuple(fields) for fields in old_unique_together)
news = set(tuple(fields) for fields in new_unique_together)
# Deleted uniques
for fields in olds.difference(news):
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
constraint_names = self._constraint_names(model, columns, unique=True)
if len(constraint_names) != 1:
raise ValueError("Found wrong number (%s) of constraints for %s(%s)" % (
len(constraint_names),
model._meta.db_table,
", ".join(columns),
))
self.execute(
self.sql_delete_unique % {
"table": self.quote_name(model._meta.db_table),
"name": constraint_names[0],
},
)
# Created uniques
for fields in news.difference(olds):
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
self.execute(self.sql_create_unique % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, columns, suffix="_uniq"),
"columns": ", ".join(self.quote_name(column) for column in columns),
})
def alter_index_together(self, model, old_index_together, new_index_together):
"""
Deals with a model changing its index_together.
Note: The input index_togethers must be doubly-nested, not the single-
nested ["foo", "bar"] format.
"""
olds = set(tuple(fields) for fields in old_index_together)
news = set(tuple(fields) for fields in new_index_together)
# Deleted indexes
for fields in olds.difference(news):
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
constraint_names = self._constraint_names(model, list(columns), index=True)
if len(constraint_names) != 1:
raise ValueError("Found wrong number (%s) of constraints for %s(%s)" % (
len(constraint_names),
model._meta.db_table,
", ".join(columns),
))
self.execute(
self.sql_delete_index % {
"table": self.quote_name(model._meta.db_table),
"name": constraint_names[0],
},
)
# Created indexes
for fields in news.difference(olds):
columns = [model._meta.get_field_by_name(field)[0].column for field in fields]
self.execute(self.sql_create_index % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, columns, suffix="_idx"),
"columns": ", ".join(self.quote_name(column) for column in columns),
"extra": "",
})
def alter_db_table(self, model, old_db_table, new_db_table):
"""
Renames the table a model points to.
"""
self.execute(self.sql_rename_table % {
"old_table": self.quote_name(old_db_table),
"new_table": self.quote_name(new_db_table),
})
def alter_db_tablespace(self, model, old_db_tablespace, new_db_tablespace):
"""
Moves a model's table between tablespaces
"""
self.execute(self.sql_retablespace_table % {
"table": self.quote_name(model._meta.db_table),
"old_tablespace": self.quote_name(old_db_tablespace),
"new_tablespace": self.quote_name(new_db_tablespace),
})
def add_field(self, model, field):
"""
Creates a field on a model.
Usually involves adding a column, but may involve adding a
table instead (for M2M fields)
"""
# Special-case implicit M2M tables
if isinstance(field, ManyToManyField) and field.rel.through._meta.auto_created:
return self.create_model(field.rel.through)
# Get the column's definition
definition, params = self.column_sql(model, field, include_default=True)
# It might not actually have a column behind it
if definition is None:
return
# Check constraints can go on the column SQL here
db_params = field.db_parameters(connection=self.connection)
if db_params['check']:
definition += " CHECK (%s)" % db_params['check']
# Build the SQL and run it
sql = self.sql_create_column % {
"table": self.quote_name(model._meta.db_table),
"column": self.quote_name(field.column),
"definition": definition,
}
self.execute(sql, params)
# Drop the default if we need to
# (Django usually does not use in-database defaults)
if field.default is not None:
sql = self.sql_alter_column % {
"table": self.quote_name(model._meta.db_table),
"changes": self.sql_alter_column_no_default % {
"column": self.quote_name(field.column),
}
}
self.execute(sql)
# Add an index, if required
if field.db_index and not field.unique:
self.deferred_sql.append(
self.sql_create_index % {
"name": self._create_index_name(model, [field.column], suffix=""),
"table": self.quote_name(model._meta.db_table),
"columns": self.quote_name(field.column),
"extra": "",
}
)
# Add any FK constraints later
if field.rel and self.connection.features.supports_foreign_keys:
to_table = field.rel.to._meta.db_table
to_column = field.rel.to._meta.get_field(field.rel.field_name).column
self.deferred_sql.append(
self.sql_create_fk % {
"name": '%s_refs_%s_%x' % (
field.column,
to_column,
abs(hash((model._meta.db_table, to_table)))
),
"table": self.quote_name(model._meta.db_table),
"column": self.quote_name(field.column),
"to_table": self.quote_name(to_table),
"to_column": self.quote_name(to_column),
}
)
# Reset connection if required
if self.connection.features.connection_persists_old_columns:
self.connection.close()
def remove_field(self, model, field):
"""
Removes a field from a model. Usually involves deleting a column,
but for M2Ms may involve deleting a table.
"""
# Special-case implicit M2M tables
if isinstance(field, ManyToManyField) and field.rel.through._meta.auto_created:
return self.delete_model(field.rel.through)
# It might not actually have a column behind it
if field.db_parameters(connection=self.connection)['type'] is None:
return
# Get the column's definition
definition, params = self.column_sql(model, field)
# Delete the column
sql = self.sql_delete_column % {
"table": self.quote_name(model._meta.db_table),
"column": self.quote_name(field.column),
}
self.execute(sql)
# Reset connection if required
if self.connection.features.connection_persists_old_columns:
self.connection.close()
def alter_field(self, model, old_field, new_field, strict=False):
"""
Allows a field's type, uniqueness, nullability, default, column,
constraints etc. to be modified.
Requires a copy of the old field as well so we can only perform
changes that are required.
If strict is true, raises errors if the old column does not match old_field precisely.
"""
# Ensure this field is even column-based
old_db_params = old_field.db_parameters(connection=self.connection)
old_type = old_db_params['type']
new_db_params = new_field.db_parameters(connection=self.connection)
new_type = new_db_params['type']
if old_type is None and new_type is None and (old_field.rel.through and new_field.rel.through and old_field.rel.through._meta.auto_created and new_field.rel.through._meta.auto_created):
return self._alter_many_to_many(model, old_field, new_field, strict)
elif old_type is None or new_type is None:
raise ValueError("Cannot alter field %s into %s - they are not compatible types (probably means only one is an M2M with implicit through model)" % (
old_field,
new_field,
))
# Has unique been removed?
if old_field.unique and (not new_field.unique or (not old_field.primary_key and new_field.primary_key)):
# Find the unique constraint for this field
constraint_names = self._constraint_names(model, [old_field.column], unique=True)
if strict and len(constraint_names) != 1:
raise ValueError("Found wrong number (%s) of unique constraints for %s.%s" % (
len(constraint_names),
model._meta.db_table,
old_field.column,
))
for constraint_name in constraint_names:
self.execute(
self.sql_delete_unique % {
"table": self.quote_name(model._meta.db_table),
"name": constraint_name,
},
)
# Removed an index?
if old_field.db_index and not new_field.db_index and not old_field.unique and not (not new_field.unique and old_field.unique):
# Find the index for this field
index_names = self._constraint_names(model, [old_field.column], index=True)
if strict and len(index_names) != 1:
raise ValueError("Found wrong number (%s) of indexes for %s.%s" % (
len(index_names),
model._meta.db_table,
old_field.column,
))
for index_name in index_names:
self.execute(
self.sql_delete_index % {
"table": self.quote_name(model._meta.db_table),
"name": index_name,
}
)
# Drop any FK constraints, we'll remake them later
if old_field.rel:
fk_names = self._constraint_names(model, [old_field.column], foreign_key=True)
if strict and len(fk_names) != 1:
raise ValueError("Found wrong number (%s) of foreign key constraints for %s.%s" % (
len(fk_names),
model._meta.db_table,
old_field.column,
))
for fk_name in fk_names:
self.execute(
self.sql_delete_fk % {
"table": self.quote_name(model._meta.db_table),
"name": fk_name,
}
)
# Change check constraints?
if old_db_params['check'] != new_db_params['check'] and old_db_params['check']:
constraint_names = self._constraint_names(model, [old_field.column], check=True)
if strict and len(constraint_names) != 1:
raise ValueError("Found wrong number (%s) of check constraints for %s.%s" % (
len(constraint_names),
model._meta.db_table,
old_field.column,
))
for constraint_name in constraint_names:
self.execute(
self.sql_delete_check % {
"table": self.quote_name(model._meta.db_table),
"name": constraint_name,
}
)
# Have they renamed the column?
if old_field.column != new_field.column:
self.execute(self.sql_rename_column % {
"table": self.quote_name(model._meta.db_table),
"old_column": self.quote_name(old_field.column),
"new_column": self.quote_name(new_field.column),
"type": new_type,
})
# Next, start accumulating actions to do
actions = []
# Type change?
if old_type != new_type:
actions.append((
self.sql_alter_column_type % {
"column": self.quote_name(new_field.column),
"type": new_type,
},
[],
))
# Default change?
old_default = self.effective_default(old_field)
new_default = self.effective_default(new_field)
if old_default != new_default:
if new_default is None:
actions.append((
self.sql_alter_column_no_default % {
"column": self.quote_name(new_field.column),
},
[],
))
else:
if self.connection.features.requires_literal_defaults:
# Some databases can't take defaults as a parameter (oracle)
# If this is the case, the individual schema backend should
# implement prepare_default
actions.append((
self.sql_alter_column_default % {
"column": self.quote_name(new_field.column),
"default": self.prepare_default(new_default),
},
[],
))
else:
actions.append((
self.sql_alter_column_default % {
"column": self.quote_name(new_field.column),
"default": "%s",
},
[new_default],
))
# Nullability change?
if old_field.null != new_field.null:
if new_field.null:
actions.append((
self.sql_alter_column_null % {
"column": self.quote_name(new_field.column),
"type": new_type,
},
[],
))
else:
actions.append((
self.sql_alter_column_not_null % {
"column": self.quote_name(new_field.column),
"type": new_type,
},
[],
))
if actions:
# Combine actions together if we can (e.g. postgres)
if self.connection.features.supports_combined_alters:
sql, params = tuple(zip(*actions))
actions = [(", ".join(sql), reduce(operator.add, params))]
# Apply those actions
for sql, params in actions:
self.execute(
self.sql_alter_column % {
"table": self.quote_name(model._meta.db_table),
"changes": sql,
},
params,
)
# Added a unique?
if not old_field.unique and new_field.unique:
self.execute(
self.sql_create_unique % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, [new_field.column], suffix="_uniq"),
"columns": self.quote_name(new_field.column),
}
)
# Added an index?
if not old_field.db_index and new_field.db_index and not new_field.unique and not (not old_field.unique and new_field.unique):
self.execute(
self.sql_create_index % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, [new_field.column], suffix="_uniq"),
"columns": self.quote_name(new_field.column),
"extra": "",
}
)
# Changed to become primary key?
# Note that we don't detect unsetting of a PK, as we assume another field
# will always come along and replace it.
if not old_field.primary_key and new_field.primary_key:
# First, drop the old PK
constraint_names = self._constraint_names(model, primary_key=True)
if strict and len(constraint_names) != 1:
raise ValueError("Found wrong number (%s) of PK constraints for %s" % (
len(constraint_names),
model._meta.db_table,
))
for constraint_name in constraint_names:
self.execute(
self.sql_delete_pk % {
"table": self.quote_name(model._meta.db_table),
"name": constraint_name,
},
)
# Make the new one
self.execute(
self.sql_create_pk % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, [new_field.column], suffix="_pk"),
"columns": self.quote_name(new_field.column),
}
)
# Does it have a foreign key?
if new_field.rel:
self.execute(
self.sql_create_fk % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, [new_field.column], suffix="_fk"),
"column": self.quote_name(new_field.column),
"to_table": self.quote_name(new_field.rel.to._meta.db_table),
"to_column": self.quote_name(new_field.rel.get_related_field().column),
}
)
# Does it have check constraints we need to add?
if old_db_params['check'] != new_db_params['check'] and new_db_params['check']:
self.execute(
self.sql_create_check % {
"table": self.quote_name(model._meta.db_table),
"name": self._create_index_name(model, [new_field.column], suffix="_check"),
"column": self.quote_name(new_field.column),
"check": new_db_params['check'],
}
)
# Reset connection if required
if self.connection.features.connection_persists_old_columns:
self.connection.close()
def _alter_many_to_many(self, model, old_field, new_field, strict):
"""
Alters M2Ms to repoint their to= endpoints.
"""
# Rename the through table
self.alter_db_table(old_field.rel.through, old_field.rel.through._meta.db_table, new_field.rel.through._meta.db_table)
# Repoint the FK to the other side
self.alter_field(
new_field.rel.through,
# We need the field that points to the target model, so we can tell alter_field to change it -
# this is m2m_reverse_field_name() (as opposed to m2m_field_name, which points to our model)
old_field.rel.through._meta.get_field_by_name(old_field.m2m_reverse_field_name())[0],
new_field.rel.through._meta.get_field_by_name(new_field.m2m_reverse_field_name())[0],
)
def _create_index_name(self, model, column_names, suffix=""):
"""
Generates a unique name for an index/unique constraint.
"""
# If there is just one column in the index, use a default algorithm from Django
if len(column_names) == 1 and not suffix:
return truncate_name(
'%s_%s' % (model._meta.db_table, BaseDatabaseCreation._digest(column_names[0])),
self.connection.ops.max_name_length()
)
# Else generate the name for the index using a different algorithm
table_name = model._meta.db_table.replace('"', '').replace('.', '_')
index_unique_name = '_%x' % abs(hash((table_name, ','.join(column_names))))
# If the index name is too long, truncate it
index_name = ('%s_%s%s%s' % (table_name, column_names[0], index_unique_name, suffix)).replace('"', '').replace('.', '_')
if len(index_name) > self.connection.features.max_index_name_length:
part = ('_%s%s%s' % (column_names[0], index_unique_name, suffix))
index_name = '%s%s' % (table_name[:(self.connection.features.max_index_name_length - len(part))], part)
# It shouldn't start with an underscore (Oracle hates this)
if index_name[0] == "_":
index_name = index_name[1:]
# If it's STILL too long, just hash it down
if len(index_name) > self.connection.features.max_index_name_length:
index_name = hashlib.md5(index_name).hexdigest()[:self.connection.features.max_index_name_length]
# It can't start with a number on Oracle, so prepend D if we need to
if index_name[0].isdigit():
index_name = "D%s" % index_name[:-1]
return index_name
def _constraint_names(self, model, column_names=None, unique=None, primary_key=None, index=None, foreign_key=None, check=None):
"""
Returns all constraint names matching the columns and conditions
"""
column_names = list(column_names) if column_names else None
constraints = self.connection.introspection.get_constraints(self.connection.cursor(), model._meta.db_table)
result = []
for name, infodict in constraints.items():
if column_names is None or column_names == infodict['columns']:
if unique is not None and infodict['unique'] != unique:
continue
if primary_key is not None and infodict['primary_key'] != primary_key:
continue
if index is not None and infodict['index'] != index:
continue
if check is not None and infodict['check'] != check:
continue
if foreign_key is not None and not infodict['foreign_key']:
continue
result.append(name)
return result