Functions for setting up and importing a new Nominatim database.
"""
import logging
+import os
+import selectors
import subprocess
import shutil
+from pathlib import Path
-from ..db.connection import connect, get_pg_env
-from ..db import utils as db_utils
-from ..errors import UsageError
-from ..version import POSTGRESQL_REQUIRED_VERSION, POSTGIS_REQUIRED_VERSION
+import psutil
+import psycopg2
+
+from nominatim.db.connection import connect, get_pg_env
+from nominatim.db import utils as db_utils
+from nominatim.db.async_connection import DBConnection
+from nominatim.db.sql_preprocessor import SQLPreprocessor
+from nominatim.tools.exec_utils import run_osm2pgsql
+from nominatim.errors import UsageError
+from nominatim.version import POSTGRESQL_REQUIRED_VERSION, POSTGIS_REQUIRED_VERSION
LOG = logging.getLogger()
+def setup_database_skeleton(dsn, data_dir, no_partitions, rouser=None):
+ """ Create a new database for Nominatim and populate it with the
+ essential extensions and data.
+ """
+ LOG.warning('Creating database')
+ create_db(dsn, rouser)
+
+ LOG.warning('Setting up database')
+ with connect(dsn) as conn:
+ setup_extensions(conn)
+
+ LOG.warning('Loading basic data')
+ import_base_data(dsn, data_dir, no_partitions)
+
+
def create_db(dsn, rouser=None):
""" Create a new database for the given DSN. Fails when the database
already exists or the PostgreSQL version is too old.
raise UsageError('Creating new database failed.')
with connect(dsn) as conn:
- postgres_version = conn.server_version_tuple() # pylint: disable=E1101
+ postgres_version = conn.server_version_tuple()
if postgres_version < POSTGRESQL_REQUIRED_VERSION:
LOG.fatal('Minimum supported version of Postgresql is %d.%d. '
'Found version %d.%d.',
raise UsageError('PostgreSQL server is too old.')
if rouser is not None:
- with conn.cursor() as cur: # pylint: disable=E1101
+ with conn.cursor() as cur:
cnt = cur.scalar('SELECT count(*) FROM pg_user where usename = %s',
(rouser, ))
if cnt == 0:
raise UsageError('PostGIS version is too old.')
-def install_module(src_dir, project_dir, module_dir):
+def install_module(src_dir, project_dir, module_dir, conn=None):
""" Copy the normalization module from src_dir into the project
directory under the '/module' directory. If 'module_dir' is set, then
use the module from there instead and check that it is accessible
The function detects when the installation is run from the
build directory. It doesn't touch the module in that case.
+
+ If 'conn' is given, then the function also tests if the module
+ can be access via the given database.
"""
if not module_dir:
module_dir = project_dir / 'module'
else:
LOG.info("Using custom path for database module at '%s'", module_dir)
- return module_dir
-
-
-def check_module_dir_path(conn, path):
- """ Check that the normalisation module can be found and executed
- from the given path.
- """
- with conn.cursor() as cur:
- cur.execute("""CREATE FUNCTION nominatim_test_import_func(text)
- RETURNS text AS '{}/nominatim.so', 'transliteration'
- LANGUAGE c IMMUTABLE STRICT;
- DROP FUNCTION nominatim_test_import_func(text)
- """.format(path))
+ if conn is not None:
+ with conn.cursor() as cur:
+ try:
+ cur.execute("""CREATE FUNCTION nominatim_test_import_func(text)
+ RETURNS text AS '{}/nominatim.so', 'transliteration'
+ LANGUAGE c IMMUTABLE STRICT;
+ DROP FUNCTION nominatim_test_import_func(text)
+ """.format(module_dir))
+ except psycopg2.DatabaseError as err:
+ LOG.fatal("Error accessing database module: %s", err)
+ raise UsageError("Database module cannot be accessed.") from err
def import_base_data(dsn, sql_dir, ignore_partitions=False):
""" Create and populate the tables with basic static data that provides
- the background for geocoding.
+ the background for geocoding. Data is assumed to not yet exist.
"""
db_utils.execute_file(dsn, sql_dir / 'country_name.sql')
db_utils.execute_file(dsn, sql_dir / 'country_osm_grid.sql.gz')
if ignore_partitions:
with connect(dsn) as conn:
- with conn.cursor() as cur: # pylint: disable=E1101
+ with conn.cursor() as cur:
cur.execute('UPDATE country_name SET partition = 0')
- conn.commit() # pylint: disable=E1101
+ conn.commit()
+
+
+def import_osm_data(osm_file, options, drop=False, ignore_errors=False):
+ """ Import the given OSM file. 'options' contains the list of
+ default settings for osm2pgsql.
+ """
+ options['import_file'] = osm_file
+ options['append'] = False
+ options['threads'] = 1
+
+ if not options['flatnode_file'] and options['osm2pgsql_cache'] == 0:
+ # Make some educated guesses about cache size based on the size
+ # of the import file and the available memory.
+ mem = psutil.virtual_memory()
+ fsize = os.stat(str(osm_file)).st_size
+ options['osm2pgsql_cache'] = int(min((mem.available + mem.cached) * 0.75,
+ fsize * 2) / 1024 / 1024) + 1
+
+ run_osm2pgsql(options)
+
+ with connect(options['dsn']) as conn:
+ if not ignore_errors:
+ with conn.cursor() as cur:
+ cur.execute('SELECT * FROM place LIMIT 1')
+ if cur.rowcount == 0:
+ raise UsageError('No data imported by osm2pgsql.')
+
+ if drop:
+ conn.drop_table('planet_osm_nodes')
+
+ if drop:
+ if options['flatnode_file']:
+ Path(options['flatnode_file']).unlink()
+
+
+def create_tables(conn, config, reverse_only=False):
+ """ Create the set of basic tables.
+ When `reverse_only` is True, then the main table for searching will
+ be skipped and only reverse search is possible.
+ """
+ sql = SQLPreprocessor(conn, config)
+ sql.env.globals['db']['reverse_only'] = reverse_only
+
+ sql.run_sql_file(conn, 'tables.sql')
+
+
+def create_table_triggers(conn, config):
+ """ Create the triggers for the tables. The trigger functions must already
+ have been imported with refresh.create_functions().
+ """
+ sql = SQLPreprocessor(conn, config)
+ sql.run_sql_file(conn, 'table-triggers.sql')
+
+
+def create_partition_tables(conn, config):
+ """ Create tables that have explicit partitioning.
+ """
+ sql = SQLPreprocessor(conn, config)
+ sql.run_sql_file(conn, 'partition-tables.src.sql')
+
+
+def truncate_data_tables(conn, max_word_frequency=None):
+ """ Truncate all data tables to prepare for a fresh load.
+ """
+ with conn.cursor() as cur:
+ cur.execute('TRUNCATE word')
+ cur.execute('TRUNCATE placex')
+ cur.execute('TRUNCATE place_addressline')
+ cur.execute('TRUNCATE location_area')
+ cur.execute('TRUNCATE location_area_country')
+ cur.execute('TRUNCATE location_property')
+ cur.execute('TRUNCATE location_property_tiger')
+ cur.execute('TRUNCATE location_property_osmline')
+ cur.execute('TRUNCATE location_postcode')
+ if conn.table_exists('search_name'):
+ cur.execute('TRUNCATE search_name')
+ cur.execute('DROP SEQUENCE IF EXISTS seq_place')
+ cur.execute('CREATE SEQUENCE seq_place start 100000')
+
+ cur.execute("""SELECT tablename FROM pg_tables
+ WHERE tablename LIKE 'location_road_%'""")
+
+ for table in [r[0] for r in list(cur)]:
+ cur.execute('TRUNCATE ' + table)
+
+ if max_word_frequency is not None:
+ # Used by getorcreate_word_id to ignore frequent partial words.
+ cur.execute("""CREATE OR REPLACE FUNCTION get_maxwordfreq()
+ RETURNS integer AS $$
+ SELECT {} as maxwordfreq;
+ $$ LANGUAGE SQL IMMUTABLE
+ """.format(max_word_frequency))
+ conn.commit()
+
+_COPY_COLUMNS = 'osm_type, osm_id, class, type, name, admin_level, address, extratags, geometry'
+
+def load_data(dsn, data_dir, threads):
+ """ Copy data into the word and placex table.
+ """
+ # Pre-calculate the most important terms in the word list.
+ db_utils.execute_file(dsn, data_dir / 'words.sql')
+
+ sel = selectors.DefaultSelector()
+ # Then copy data from place to placex in <threads - 1> chunks.
+ place_threads = max(1, threads - 1)
+ for imod in range(place_threads):
+ conn = DBConnection(dsn)
+ conn.connect()
+ conn.perform("""INSERT INTO placex ({0})
+ SELECT {0} FROM place
+ WHERE osm_id % {1} = {2}
+ AND NOT (class='place' and type='houses')
+ AND ST_IsValid(geometry)
+ """.format(_COPY_COLUMNS, place_threads, imod))
+ sel.register(conn, selectors.EVENT_READ, conn)
+
+ # Address interpolations go into another table.
+ conn = DBConnection(dsn)
+ conn.connect()
+ conn.perform("""INSERT INTO location_property_osmline (osm_id, address, linegeo)
+ SELECT osm_id, address, geometry FROM place
+ WHERE class='place' and type='houses' and osm_type='W'
+ and ST_GeometryType(geometry) = 'ST_LineString'
+ """)
+ sel.register(conn, selectors.EVENT_READ, conn)
+
+ # Now wait for all of them to finish.
+ todo = place_threads + 1
+ while todo > 0:
+ for key, _ in sel.select(1):
+ conn = key.data
+ sel.unregister(conn)
+ conn.wait()
+ conn.close()
+ todo -= 1
+ print('.', end='', flush=True)
+ print('\n')
+
+ with connect(dsn) as conn:
+ with conn.cursor() as cur:
+ cur.execute('ANALYSE')
+
+
+def create_search_indices(conn, config, drop=False):
+ """ Create tables that have explicit partitioning.
+ """
+
+ # If index creation failed and left an index invalid, they need to be
+ # cleaned out first, so that the script recreates them.
+ with conn.cursor() as cur:
+ cur.execute("""SELECT relname FROM pg_class, pg_index
+ WHERE pg_index.indisvalid = false
+ AND pg_index.indexrelid = pg_class.oid""")
+ bad_indices = [row[0] for row in list(cur)]
+ for idx in bad_indices:
+ LOG.info("Drop invalid index %s.", idx)
+ cur.execute('DROP INDEX "{}"'.format(idx))
+ conn.commit()
+
+ sql = SQLPreprocessor(conn, config)
+
+ sql.run_sql_file(conn, 'indices.sql', drop=drop)
+
+def create_country_names(conn, config):
+ """ Create search index for default country names.
+ """
+
+ with conn.cursor() as cur:
+ cur.execute("""SELECT getorcreate_country(make_standard_name('uk'), 'gb')""")
+ cur.execute("""SELECT getorcreate_country(make_standard_name('united states'), 'us')""")
+ cur.execute("""SELECT COUNT(*) FROM
+ (SELECT getorcreate_country(make_standard_name(country_code),
+ country_code) FROM country_name WHERE country_code is not null) AS x""")
+ cur.execute("""SELECT COUNT(*) FROM
+ (SELECT getorcreate_country(make_standard_name(name->'name'), country_code)
+ FROM country_name WHERE name ? 'name') AS x""")
+ sql_statement = """SELECT COUNT(*) FROM (SELECT getorcreate_country(make_standard_name(v),
+ country_code) FROM (SELECT country_code, skeys(name)
+ AS k, svals(name) AS v FROM country_name) x WHERE k"""
+
+ languages = config.LANGUAGES
+
+ if languages:
+ sql_statement = "{} IN (".format(sql_statement)
+ delim = ''
+ for language in languages.split(','):
+ sql_statement = "{}{}'name:{}'".format(sql_statement, delim, language)
+ delim = ', '
+ sql_statement = '{})'.format(sql_statement)
+ else:
+ sql_statement = "{} LIKE 'name:%'".format(sql_statement)
+ sql_statement = "{}) v".format(sql_statement)
+ cur.execute(sql_statement)
+ conn.commit()