django1/django/db/backends/base/creation.py

245 lines
9.6 KiB
Python
Raw Normal View History

import sys
import time
from django.apps import apps
from django.conf import settings
from django.core import serializers
from django.db import router
from django.utils.six import StringIO
from django.utils.six.moves import input
# The prefix to put on the default database name when creating
# the test database.
TEST_DATABASE_PREFIX = 'test_'
class BaseDatabaseCreation(object):
"""
This class encapsulates all backend-specific differences that pertain to
creation and destruction of the test database.
"""
def __init__(self, connection):
self.connection = connection
@property
def _nodb_connection(self):
"""
Used to be defined here, now moved to DatabaseWrapper.
"""
return self.connection._nodb_connection
def create_test_db(self, verbosity=1, autoclobber=False, serialize=True, keepdb=False):
"""
Creates a test database, prompting the user for confirmation if the
database already exists. Returns the name of the test database created.
"""
# Don't import django.core.management if it isn't needed.
from django.core.management import call_command
test_database_name = self._get_test_db_name()
if verbosity >= 1:
test_db_repr = ''
action = 'Creating'
if verbosity >= 2:
test_db_repr = " ('%s')" % test_database_name
if keepdb:
action = "Using existing"
print("%s test database for alias '%s'%s..." % (
action, self.connection.alias, test_db_repr))
# We could skip this call if keepdb is True, but we instead
# give it the keepdb param. This is to handle the case
# where the test DB doesn't exist, in which case we need to
# create it, then just not destroy it. If we instead skip
# this, we will get an exception.
self._create_test_db(verbosity, autoclobber, keepdb)
self.connection.close()
settings.DATABASES[self.connection.alias]["NAME"] = test_database_name
self.connection.settings_dict["NAME"] = test_database_name
# We report migrate messages at one level lower than that requested.
# This ensures we don't get flooded with messages during testing
# (unless you really ask to be flooded).
call_command(
'migrate',
verbosity=max(verbosity - 1, 0),
interactive=False,
database=self.connection.alias,
run_syncdb=True,
)
# We then serialize the current state of the database into a string
# and store it on the connection. This slightly horrific process is so people
# who are testing on databases without transactions or who are using
# a TransactionTestCase still get a clean database on every test run.
if serialize:
self.connection._test_serialized_contents = self.serialize_db_to_string()
call_command('createcachetable', database=self.connection.alias)
# Ensure a connection for the side effect of initializing the test database.
self.connection.ensure_connection()
return test_database_name
def serialize_db_to_string(self):
"""
Serializes all data in the database into a JSON string.
Designed only for test runner usage; will not handle large
amounts of data.
"""
# Build list of all apps to serialize
from django.db.migrations.loader import MigrationLoader
loader = MigrationLoader(self.connection)
app_list = []
for app_config in apps.get_app_configs():
if (
app_config.models_module is not None and
app_config.label in loader.migrated_apps and
app_config.name not in settings.TEST_NON_SERIALIZED_APPS
):
app_list.append((app_config, None))
# Make a function to iteratively return every object
def get_objects():
for model in serializers.sort_dependencies(app_list):
if (not model._meta.proxy and model._meta.managed and
router.allow_migrate(self.connection.alias, model)):
queryset = model._default_manager.using(self.connection.alias).order_by(model._meta.pk.name)
for obj in queryset.iterator():
yield obj
2015-01-20 22:54:12 +08:00
# Serialize to a string
out = StringIO()
serializers.serialize("json", get_objects(), indent=None, stream=out)
return out.getvalue()
def deserialize_db_from_string(self, data):
"""
Reloads the database with data from a string generated by
the serialize_db_to_string method.
"""
data = StringIO(data)
for obj in serializers.deserialize("json", data, using=self.connection.alias):
obj.save()
def _get_test_db_name(self):
"""
Internal implementation - returns the name of the test DB that will be
created. Only useful when called from create_test_db() and
_create_test_db() and when no external munging is done with the 'NAME'
or 'TEST_NAME' settings.
"""
if self.connection.settings_dict['TEST']['NAME']:
return self.connection.settings_dict['TEST']['NAME']
return TEST_DATABASE_PREFIX + self.connection.settings_dict['NAME']
def _create_test_db(self, verbosity, autoclobber, keepdb=False):
"""
Internal implementation - creates the test db tables.
"""
suffix = self.sql_table_creation_suffix()
test_database_name = self._get_test_db_name()
qn = self.connection.ops.quote_name
# Create the test database and connect to it.
with self._nodb_connection.cursor() as cursor:
try:
cursor.execute(
"CREATE DATABASE %s %s" % (qn(test_database_name), suffix))
except Exception as e:
# if we want to keep the db, then no need to do any of the below,
# just return and skip it all.
if keepdb:
return test_database_name
sys.stderr.write(
"Got an error creating the test database: %s\n" % e)
if not autoclobber:
confirm = input(
"Type 'yes' if you would like to try deleting the test "
"database '%s', or 'no' to cancel: " % test_database_name)
if autoclobber or confirm == 'yes':
try:
if verbosity >= 1:
print("Destroying old test database '%s'..."
% self.connection.alias)
cursor.execute(
"DROP DATABASE %s" % qn(test_database_name))
cursor.execute(
"CREATE DATABASE %s %s" % (qn(test_database_name),
suffix))
except Exception as e:
sys.stderr.write(
"Got an error recreating the test database: %s\n" % e)
sys.exit(2)
else:
print("Tests cancelled.")
sys.exit(1)
return test_database_name
def destroy_test_db(self, old_database_name, verbosity=1, keepdb=False):
"""
Destroy a test database, prompting the user for confirmation if the
database already exists.
"""
self.connection.close()
test_database_name = self.connection.settings_dict['NAME']
if verbosity >= 1:
test_db_repr = ''
action = 'Destroying'
if verbosity >= 2:
test_db_repr = " ('%s')" % test_database_name
if keepdb:
action = 'Preserving'
print("%s test database for alias '%s'%s..." % (
action, self.connection.alias, test_db_repr))
# if we want to preserve the database
# skip the actual destroying piece.
if not keepdb:
self._destroy_test_db(test_database_name, verbosity)
# Restore the original database name
settings.DATABASES[self.connection.alias]["NAME"] = old_database_name
self.connection.settings_dict["NAME"] = old_database_name
def _destroy_test_db(self, test_database_name, verbosity):
"""
Internal implementation - remove the test db tables.
"""
# Remove the test database to clean up after
# ourselves. Connect to the previous database (not the test database)
# to do so, because it's not allowed to delete a database while being
# connected to it.
with self._nodb_connection.cursor() as cursor:
# Wait to avoid "database is being accessed by other users" errors.
time.sleep(1)
cursor.execute("DROP DATABASE %s"
% self.connection.ops.quote_name(test_database_name))
def sql_table_creation_suffix(self):
"""
SQL to append to the end of the test table creation statements.
"""
return ''
def test_db_signature(self):
"""
Returns a tuple with elements of self.connection.settings_dict (a
DATABASES setting value) that uniquely identify a database
accordingly to the RDBMS particularities.
"""
settings_dict = self.connection.settings_dict
return (
settings_dict['HOST'],
settings_dict['PORT'],
settings_dict['ENGINE'],
settings_dict['NAME']
)