from django.conf import settings from django.core.management import call_command from django.db import connection from django.db.backends.creation import TEST_DATABASE_PREFIX import os, re, sys def getstatusoutput(cmd): "A simpler version of getstatusoutput that works on win32 platforms." stdin, stdout, stderr = os.popen3(cmd) output = stdout.read() if output.endswith('\n'): output = output[:-1] status = stdin.close() return status, output def create_lang(db_name, verbosity=1): "Sets up the pl/pgsql language on the given database." # Getting the command-line options for the shell command options = get_cmd_options(db_name) # Constructing the 'createlang' command. createlang_cmd = 'createlang %splpgsql' % options if verbosity >= 1: print createlang_cmd # Must have database super-user privileges to execute createlang -- it must # also be in your path. status, output = getstatusoutput(createlang_cmd) # Checking the status of the command, 0 => execution successful if status: raise Exception("Error executing 'plpgsql' command: %s\n" % output) def _create_with_cursor(db_name, verbosity=1, autoclobber=False): "Creates database with psycopg2 cursor." # Constructing the necessary SQL to create the database (the DATABASE_USER # must possess the privileges to create a database) create_sql = 'CREATE DATABASE %s' % connection.ops.quote_name(db_name) if settings.DATABASE_USER: create_sql += ' OWNER %s' % settings.DATABASE_USER cursor = connection.cursor() connection.creation.set_autocommit() try: # Trying to create the database first. cursor.execute(create_sql) #print create_sql except Exception, e: # Drop and recreate, if necessary. if not autoclobber: confirm = raw_input("\nIt appears the database, %s, already exists. Type 'yes' to delete it, or 'no' to cancel: " % db_name) if autoclobber or confirm == 'yes': if verbosity >= 1: print 'Destroying old spatial database...' drop_db(db_name) if verbosity >= 1: print 'Creating new spatial database...' cursor.execute(create_sql) else: raise Exception('Spatial Database Creation canceled.') foo = _create_with_cursor created_regex = re.compile(r'^createdb: database creation failed: ERROR: database ".+" already exists') def _create_with_shell(db_name, verbosity=1, autoclobber=False): """ If no spatial database already exists, then using a cursor will not work. Thus, a `createdb` command will be issued through the shell to bootstrap creation of the spatial database. """ # Getting the command-line options for the shell command options = get_cmd_options(False) create_cmd = 'createdb -O %s %s%s' % (settings.DATABASE_USER, options, db_name) if verbosity >= 1: print create_cmd # Attempting to create the database. status, output = getstatusoutput(create_cmd) if status: if created_regex.match(output): if not autoclobber: confirm = raw_input("\nIt appears the database, %s, already exists. Type 'yes' to delete it, or 'no' to cancel: " % db_name) if autoclobber or confirm == 'yes': if verbosity >= 1: print 'Destroying old spatial database...' drop_cmd = 'dropdb %s%s' % (options, db_name) status, output = getstatusoutput(drop_cmd) if status != 0: raise Exception('Could not drop database %s: %s' % (db_name, output)) if verbosity >= 1: print 'Creating new spatial database...' status, output = getstatusoutput(create_cmd) if status != 0: raise Exception('Could not create database after dropping: %s' % output) else: raise Exception('Spatial Database Creation canceled.') else: raise Exception('Unknown error occurred in creating database: %s' % output) def create_spatial_db(test=False, verbosity=1, autoclobber=False, interactive=False): "Creates a spatial database based on the settings." # Making sure we're using PostgreSQL and psycopg2 if settings.DATABASE_ENGINE != 'postgresql_psycopg2': raise Exception('Spatial database creation only supported postgresql_psycopg2 platform.') # Getting the spatial database name if test: db_name = get_spatial_db(test=True) _create_with_cursor(db_name, verbosity=verbosity, autoclobber=autoclobber) else: db_name = get_spatial_db() _create_with_shell(db_name, verbosity=verbosity, autoclobber=autoclobber) # Creating the db language, does not need to be done on NT platforms # since the PostGIS installer enables this capability. if os.name != 'nt': create_lang(db_name, verbosity=verbosity) # Now adding in the PostGIS routines. load_postgis_sql(db_name, verbosity=verbosity) if verbosity >= 1: print 'Creation of spatial database %s successful.' % db_name # Closing the connection connection.close() settings.DATABASE_NAME = db_name # Syncing the database call_command('syncdb', verbosity=verbosity, interactive=interactive) def drop_db(db_name=False, test=False): """ Drops the given database (defaults to what is returned from get_spatial_db()). All exceptions are propagated up to the caller. """ if not db_name: db_name = get_spatial_db(test=test) cursor = connection.cursor() cursor.execute('DROP DATABASE %s' % connection.ops.quote_name(db_name)) def get_cmd_options(db_name): "Obtains the command-line PostgreSQL connection options for shell commands." # The db_name parameter is optional options = '' if db_name: options += '-d %s ' % db_name if settings.DATABASE_USER: options += '-U %s ' % settings.DATABASE_USER if settings.DATABASE_HOST: options += '-h %s ' % settings.DATABASE_HOST if settings.DATABASE_PORT: options += '-p %s ' % settings.DATABASE_PORT return options def get_spatial_db(test=False): """ Returns the name of the spatial database. The 'test' keyword may be set to return the test spatial database name. """ if test: if settings.TEST_DATABASE_NAME: test_db_name = settings.TEST_DATABASE_NAME else: test_db_name = TEST_DATABASE_PREFIX + settings.DATABASE_NAME return test_db_name else: if not settings.DATABASE_NAME: raise Exception('must configure DATABASE_NAME in settings.py') return settings.DATABASE_NAME def load_postgis_sql(db_name, verbosity=1): """ This routine loads up the PostGIS SQL files lwpostgis.sql and spatial_ref_sys.sql. """ # Getting the path to the PostGIS SQL try: # POSTGIS_SQL_PATH may be placed in settings to tell GeoDjango where the # PostGIS SQL files are located. This is especially useful on Win32 # platforms since the output of pg_config looks like "C:/PROGRA~1/..". sql_path = settings.POSTGIS_SQL_PATH except AttributeError: status, sql_path = getstatusoutput('pg_config --sharedir') if status: sql_path = '/usr/local/share' # The PostGIS SQL post-creation files. lwpostgis_file = os.path.join(sql_path, 'lwpostgis.sql') srefsys_file = os.path.join(sql_path, 'spatial_ref_sys.sql') if not os.path.isfile(lwpostgis_file): raise Exception('Could not find PostGIS function definitions in %s' % lwpostgis_file) if not os.path.isfile(srefsys_file): raise Exception('Could not find PostGIS spatial reference system definitions in %s' % srefsys_file) # Getting the psql command-line options, and command format. options = get_cmd_options(db_name) cmd_fmt = 'psql %s-f "%%s"' % options # Now trying to load up the PostGIS functions cmd = cmd_fmt % lwpostgis_file if verbosity >= 1: print cmd status, output = getstatusoutput(cmd) if status: raise Exception('Error in loading PostGIS lwgeometry routines.') # Now trying to load up the Spatial Reference System table cmd = cmd_fmt % srefsys_file if verbosity >= 1: print cmd status, output = getstatusoutput(cmd) if status: raise Exception('Error in loading PostGIS spatial_ref_sys table.') # Setting the permissions because on Windows platforms the owner # of the spatial_ref_sys and geometry_columns tables is always # the postgres user, regardless of how the db is created. if os.name == 'nt': set_permissions(db_name) def set_permissions(db_name): """ Sets the permissions on the given database to that of the user specified in the settings. Needed specifically for PostGIS on Win32 platforms. """ cursor = connection.cursor() user = settings.DATABASE_USER cursor.execute('ALTER TABLE geometry_columns OWNER TO %s' % user) cursor.execute('ALTER TABLE spatial_ref_sys OWNER TO %s' % user)