Generic part of the server implementation of the v1 API.
Combine with the scaffolding provided for the various Python ASGI frameworks.
"""
-from typing import Optional, Any, Type, Callable
+from typing import Optional, Any, Type, Callable, NoReturn, Dict, cast
+from functools import reduce
import abc
+import dataclasses
+import math
+from urllib.parse import urlencode
+import sqlalchemy as sa
+
+from nominatim.errors import UsageError
+from nominatim.config import Configuration
import nominatim.api as napi
+import nominatim.api.logging as loglib
from nominatim.api.v1.format import dispatch as formatting
+from nominatim.api.v1.format import RawDataList
+from nominatim.api.v1 import helpers
-CONTENT_TYPE = {
- 'text': 'text/plain; charset=utf-8',
- 'xml': 'text/xml; charset=utf-8',
- 'jsonp': 'application/javascript'
-}
+CONTENT_TEXT = 'text/plain; charset=utf-8'
+CONTENT_XML = 'text/xml; charset=utf-8'
+CONTENT_HTML = 'text/html; charset=utf-8'
+CONTENT_JSON = 'application/json; charset=utf-8'
+CONTENT_TYPE = {'text': CONTENT_TEXT, 'xml': CONTENT_XML, 'debug': CONTENT_HTML}
class ASGIAdaptor(abc.ABC):
""" Adapter class for the different ASGI frameworks.
Wraps functionality over concrete requests and responses.
"""
+ content_type: str = CONTENT_TEXT
@abc.abstractmethod
def get(self, name: str, default: Optional[str] = None) -> Optional[str]:
@abc.abstractmethod
- def error(self, msg: str) -> Exception:
+ def error(self, msg: str, status: int = 400) -> Exception:
""" Construct an appropriate exception from the given error message.
- The exception must result in a HTTP 400 error.
+ The exception must result in a HTTP error with the given status.
"""
@abc.abstractmethod
- def create_response(self, status: int, output: str, content_type: str) -> Any:
+ def create_response(self, status: int, output: str, num_results: int) -> Any:
""" Create a response from the given parameters. The result will
be returned by the endpoint functions. The adaptor may also
return None when the response is created internally with some
body of the response to 'output'.
"""
+ @abc.abstractmethod
+ def base_uri(self) -> str:
+ """ Return the URI of the original request.
+ """
+
+
+ @abc.abstractmethod
+ def config(self) -> Configuration:
+ """ Return the current configuration object.
+ """
+
- def build_response(self, output: str, media_type: str, status: int = 200) -> Any:
+ def build_response(self, output: str, status: int = 200, num_results: int = 0) -> Any:
""" Create a response from the given output. Wraps a JSONP function
around the response, if necessary.
"""
- if media_type == 'json' and status == 200:
+ if self.content_type == CONTENT_JSON and status == 200:
jsonp = self.get('json_callback')
if jsonp is not None:
if any(not part.isidentifier() for part in jsonp.split('.')):
- raise self.error('Invalid json_callback value')
+ self.raise_error('Invalid json_callback value')
output = f"{jsonp}({output})"
- media_type = 'jsonp'
+ self.content_type = 'application/javascript; charset=utf-8'
+
+ return self.create_response(status, output, num_results)
- return self.create_response(status, output,
- CONTENT_TYPE.get(media_type, 'application/json'))
+
+ def raise_error(self, msg: str, status: int = 400) -> NoReturn:
+ """ Raise an exception resulting in the given HTTP status and
+ message. The message will be formatted according to the
+ output format chosen by the request.
+ """
+ if self.content_type == CONTENT_XML:
+ msg = f"""<?xml version="1.0" encoding="UTF-8" ?>
+ <error>
+ <code>{status}</code>
+ <message>{msg}</message>
+ </error>
+ """
+ elif self.content_type == CONTENT_JSON:
+ msg = f"""{{"error":{{"code":{status},"message":"{msg}"}}}}"""
+ elif self.content_type == CONTENT_HTML:
+ loglib.log().section('Execution error')
+ loglib.log().var_dump('Status', status)
+ loglib.log().var_dump('Message', msg)
+ msg = loglib.get_and_disable()
+
+ raise self.error(msg, status)
def get_int(self, name: str, default: Optional[int] = None) -> int:
if default is not None:
return default
- raise self.error(f"Parameter '{name}' missing.")
+ self.raise_error(f"Parameter '{name}' missing.")
+
+ try:
+ intval = int(value)
+ except ValueError:
+ self.raise_error(f"Parameter '{name}' must be a number.")
+
+ return intval
+
+
+ def get_float(self, name: str, default: Optional[float] = None) -> float:
+ """ Return an input parameter as a flaoting-point number. Raises an
+ exception if the parameter is given but not in an float format.
+
+ If 'default' is given, then it will be returned when the parameter
+ is missing completely. When 'default' is None, an error will be
+ raised on a missing parameter.
+ """
+ value = self.get(name)
+
+ if value is None:
+ if default is not None:
+ return default
+
+ self.raise_error(f"Parameter '{name}' missing.")
try:
- return int(value)
- except ValueError as exc:
- raise self.error(f"Parameter '{name}' must be a number.") from exc
+ fval = float(value)
+ except ValueError:
+ self.raise_error(f"Parameter '{name}' must be a number.")
+
+ if math.isnan(fval) or math.isinf(fval):
+ self.raise_error(f"Parameter '{name}' must be a number.")
+
+ return fval
def get_bool(self, name: str, default: Optional[bool] = None) -> bool:
if default is not None:
return default
- raise self.error(f"Parameter '{name}' missing.")
+ self.raise_error(f"Parameter '{name}' missing.")
return value != '0'
-def parse_format(params: ASGIAdaptor, result_type: Type[Any], default: str) -> str:
- """ Get and check the 'format' parameter and prepare the formatter.
- `fmtter` is a formatter and `default` the
- format value to assume when no parameter is present.
- """
- fmt = params.get('format', default=default)
- assert fmt is not None
+ def get_accepted_languages(self) -> str:
+ """ Return the accepted languages.
+ """
+ return self.get('accept-language')\
+ or self.get_header('accept-language')\
+ or self.config().DEFAULT_LANGUAGE
+
+
+ def setup_debugging(self) -> bool:
+ """ Set up collection of debug information if requested.
+
+ Return True when debugging was requested.
+ """
+ if self.get_bool('debug', False):
+ loglib.set_log_output('html')
+ self.content_type = CONTENT_HTML
+ return True
- if not formatting.supports_format(result_type, fmt):
- raise params.error("Parameter 'format' must be one of: " +
- ', '.join(formatting.list_formats(result_type)))
+ return False
+
+
+ def get_layers(self) -> Optional[napi.DataLayer]:
+ """ Return a parsed version of the layer parameter.
+ """
+ param = self.get('layer', None)
+ if param is None:
+ return None
+
+ return cast(napi.DataLayer,
+ reduce(napi.DataLayer.__or__,
+ (getattr(napi.DataLayer, s.upper()) for s in param.split(','))))
+
+
+ def parse_format(self, result_type: Type[Any], default: str) -> str:
+ """ Get and check the 'format' parameter and prepare the formatter.
+ `result_type` is the type of result to be returned by the function
+ and `default` the format value to assume when no parameter is present.
+ """
+ fmt = self.get('format', default=default)
+ assert fmt is not None
- return fmt
+ if not formatting.supports_format(result_type, fmt):
+ self.raise_error("Parameter 'format' must be one of: " +
+ ', '.join(formatting.list_formats(result_type)))
+
+ self.content_type = CONTENT_TYPE.get(fmt, CONTENT_JSON)
+ return fmt
+
+
+ def parse_geometry_details(self, fmt: str) -> Dict[str, Any]:
+ """ Create details strucutre from the supplied geometry parameters.
+ """
+ numgeoms = 0
+ output = napi.GeometryFormat.NONE
+ if self.get_bool('polygon_geojson', False):
+ output |= napi.GeometryFormat.GEOJSON
+ numgeoms += 1
+ if fmt not in ('geojson', 'geocodejson'):
+ if self.get_bool('polygon_text', False):
+ output |= napi.GeometryFormat.TEXT
+ numgeoms += 1
+ if self.get_bool('polygon_kml', False):
+ output |= napi.GeometryFormat.KML
+ numgeoms += 1
+ if self.get_bool('polygon_svg', False):
+ output |= napi.GeometryFormat.SVG
+ numgeoms += 1
+
+ if numgeoms > self.config().get_int('POLYGON_OUTPUT_MAX_TYPES'):
+ self.raise_error('Too many polygon output options selected.')
+
+ return {'address_details': True,
+ 'geometry_simplification': self.get_float('polygon_threshold', 0.0),
+ 'geometry_output': output
+ }
async def status_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
"""
result = await api.status()
- fmt = parse_format(params, napi.StatusResult, 'text')
+ fmt = params.parse_format(napi.StatusResult, 'text')
if fmt == 'text' and result.status:
status_code = 500
else:
status_code = 200
- return params.build_response(formatting.format_result(result, fmt), fmt,
+ return params.build_response(formatting.format_result(result, fmt, {}),
status=status_code)
+
+async def details_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /details endpoint. See API docs for details.
+ """
+ fmt = params.parse_format(napi.DetailedResult, 'json')
+ place_id = params.get_int('place_id', 0)
+ place: napi.PlaceRef
+ if place_id:
+ place = napi.PlaceID(place_id)
+ else:
+ osmtype = params.get('osmtype')
+ if osmtype is None:
+ params.raise_error("Missing ID parameter 'place_id' or 'osmtype'.")
+ place = napi.OsmID(osmtype, params.get_int('osmid'), params.get('class'))
+
+ debug = params.setup_debugging()
+
+ locales = napi.Locales.from_accept_languages(params.get_accepted_languages())
+
+ result = await api.details(place,
+ address_details=params.get_bool('addressdetails', False),
+ linked_places=params.get_bool('linkedplaces', True),
+ parented_places=params.get_bool('hierarchy', False),
+ keywords=params.get_bool('keywords', False),
+ geometry_output = napi.GeometryFormat.GEOJSON
+ if params.get_bool('polygon_geojson', False)
+ else napi.GeometryFormat.NONE
+ )
+
+ if debug:
+ return params.build_response(loglib.get_and_disable())
+
+ if result is None:
+ params.raise_error('No place with that OSM ID found.', status=404)
+
+ result.localize(locales)
+
+ output = formatting.format_result(result, fmt,
+ {'locales': locales,
+ 'group_hierarchy': params.get_bool('group_hierarchy', False),
+ 'icon_base_url': params.config().MAPICON_URL})
+
+ return params.build_response(output, num_results=1)
+
+
+async def reverse_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /reverse endpoint. See API docs for details.
+ """
+ fmt = params.parse_format(napi.ReverseResults, 'xml')
+ debug = params.setup_debugging()
+ coord = napi.Point(params.get_float('lon'), params.get_float('lat'))
+
+ details = params.parse_geometry_details(fmt)
+ details['max_rank'] = helpers.zoom_to_rank(params.get_int('zoom', 18))
+ details['layers'] = params.get_layers()
+
+ result = await api.reverse(coord, **details)
+
+ if debug:
+ return params.build_response(loglib.get_and_disable(), num_results=1 if result else 0)
+
+ if fmt == 'xml':
+ queryparts = {'lat': str(coord.lat), 'lon': str(coord.lon), 'format': 'xml'}
+ zoom = params.get('zoom', None)
+ if zoom:
+ queryparts['zoom'] = zoom
+ query = urlencode(queryparts)
+ else:
+ query = ''
+
+ fmt_options = {'query': query,
+ 'extratags': params.get_bool('extratags', False),
+ 'namedetails': params.get_bool('namedetails', False),
+ 'addressdetails': params.get_bool('addressdetails', True)}
+
+ if result:
+ result.localize(napi.Locales.from_accept_languages(params.get_accepted_languages()))
+
+ output = formatting.format_result(napi.ReverseResults([result] if result else []),
+ fmt, fmt_options)
+
+ return params.build_response(output, num_results=1 if result else 0)
+
+
+async def lookup_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /lookup endpoint. See API docs for details.
+ """
+ fmt = params.parse_format(napi.SearchResults, 'xml')
+ debug = params.setup_debugging()
+ details = params.parse_geometry_details(fmt)
+
+ places = []
+ for oid in (params.get('osm_ids') or '').split(','):
+ oid = oid.strip()
+ if len(oid) > 1 and oid[0] in 'RNWrnw' and oid[1:].isdigit():
+ places.append(napi.OsmID(oid[0], int(oid[1:])))
+
+ if len(places) > params.config().get_int('LOOKUP_MAX_COUNT'):
+ params.raise_error('Too many object IDs.')
+
+ if places:
+ results = await api.lookup(places, **details)
+ else:
+ results = napi.SearchResults()
+
+ if debug:
+ return params.build_response(loglib.get_and_disable(), num_results=len(results))
+
+ fmt_options = {'extratags': params.get_bool('extratags', False),
+ 'namedetails': params.get_bool('namedetails', False),
+ 'addressdetails': params.get_bool('addressdetails', True)}
+
+ results.localize(napi.Locales.from_accept_languages(params.get_accepted_languages()))
+
+ output = formatting.format_result(results, fmt, fmt_options)
+
+ return params.build_response(output, num_results=len(results))
+
+
+async def _unstructured_search(query: str, api: napi.NominatimAPIAsync,
+ details: Dict[str, Any]) -> napi.SearchResults:
+ if not query:
+ return napi.SearchResults()
+
+ # Extract special format for coordinates from query.
+ query, x, y = helpers.extract_coords_from_query(query)
+ if x is not None:
+ assert y is not None
+ details['near'] = napi.Point(x, y)
+ details['near_radius'] = 0.1
+
+ # If no query is left, revert to reverse search.
+ if x is not None and not query:
+ result = await api.reverse(details['near'], **details)
+ if not result:
+ return napi.SearchResults()
+
+ return napi.SearchResults(
+ [napi.SearchResult(**{f.name: getattr(result, f.name)
+ for f in dataclasses.fields(napi.SearchResult)
+ if hasattr(result, f.name)})])
+
+ query, cls, typ = helpers.extract_category_from_query(query)
+ if cls is not None:
+ assert typ is not None
+ return await api.search_category([(cls, typ)], near_query=query, **details)
+
+ return await api.search(query, **details)
+
+
+async def search_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /search endpoint. See API docs for details.
+ """
+ fmt = params.parse_format(napi.SearchResults, 'jsonv2')
+ debug = params.setup_debugging()
+ details = params.parse_geometry_details(fmt)
+
+ details['countries'] = params.get('countrycodes', None)
+ details['excluded'] = params.get('exclude_place_ids', None)
+ details['viewbox'] = params.get('viewbox', None) or params.get('viewboxlbrt', None)
+ details['bounded_viewbox'] = params.get_bool('bounded', False)
+ details['dedupe'] = params.get_bool('dedupe', True)
+
+ max_results = max(1, min(50, params.get_int('limit', 10)))
+ details['max_results'] = max_results + min(10, max_results) \
+ if details['dedupe'] else max_results
+
+ details['min_rank'], details['max_rank'] = \
+ helpers.feature_type_to_rank(params.get('featureType', ''))
+ if params.get('featureType', None) is not None:
+ details['layers'] = napi.DataLayer.ADDRESS
+ else:
+ details['layers'] = params.get_layers()
+
+ # unstructured query parameters
+ query = params.get('q', None)
+ # structured query parameters
+ queryparts = {}
+ for key in ('amenity', 'street', 'city', 'county', 'state', 'postalcode', 'country'):
+ details[key] = params.get(key, None)
+ if details[key]:
+ queryparts[key] = details[key]
+
+ try:
+ if query is not None:
+ if queryparts:
+ params.raise_error("Structured query parameters"
+ "(amenity, street, city, county, state, postalcode, country)"
+ " cannot be used together with 'q' parameter.")
+ queryparts['q'] = query
+ results = await _unstructured_search(query, api, details)
+ else:
+ query = ', '.join(queryparts.values())
+
+ results = await api.search_address(**details)
+ except UsageError as err:
+ params.raise_error(str(err))
+
+ results.localize(napi.Locales.from_accept_languages(params.get_accepted_languages()))
+
+ if details['dedupe'] and len(results) > 1:
+ results = helpers.deduplicate_results(results, max_results)
+
+ if debug:
+ return params.build_response(loglib.get_and_disable(), num_results=len(results))
+
+ if fmt == 'xml':
+ helpers.extend_query_parts(queryparts, details,
+ params.get('featureType', ''),
+ params.get_bool('namedetails', False),
+ params.get_bool('extratags', False),
+ (str(r.place_id) for r in results if r.place_id))
+ queryparts['format'] = fmt
+
+ moreurl = params.base_uri() + '/search?' + urlencode(queryparts)
+ else:
+ moreurl = ''
+
+ fmt_options = {'query': query, 'more_url': moreurl,
+ 'exclude_place_ids': queryparts.get('exclude_place_ids'),
+ 'viewbox': queryparts.get('viewbox'),
+ 'extratags': params.get_bool('extratags', False),
+ 'namedetails': params.get_bool('namedetails', False),
+ 'addressdetails': params.get_bool('addressdetails', False)}
+
+ output = formatting.format_result(results, fmt, fmt_options)
+
+ return params.build_response(output, num_results=len(results))
+
+
+async def deletable_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /deletable endpoint.
+ This is a special endpoint that shows polygons that have been
+ deleted or are broken in the OSM data but are kept in the
+ Nominatim database to minimize disruption.
+ """
+ fmt = params.parse_format(RawDataList, 'json')
+
+ async with api.begin() as conn:
+ sql = sa.text(""" SELECT p.place_id, country_code,
+ name->'name' as name, i.*
+ FROM placex p, import_polygon_delete i
+ WHERE p.osm_id = i.osm_id AND p.osm_type = i.osm_type
+ AND p.class = i.class AND p.type = i.type
+ """)
+ results = RawDataList(r._asdict() for r in await conn.execute(sql))
+
+ return params.build_response(formatting.format_result(results, fmt, {}))
+
+
+async def polygons_endpoint(api: napi.NominatimAPIAsync, params: ASGIAdaptor) -> Any:
+ """ Server glue for /polygons endpoint.
+ This is a special endpoint that shows polygons that have changed
+ thier size but are kept in the Nominatim database with their
+ old area to minimize disruption.
+ """
+ fmt = params.parse_format(RawDataList, 'json')
+ sql_params: Dict[str, Any] = {
+ 'days': params.get_int('days', -1),
+ 'cls': params.get('class')
+ }
+ reduced = params.get_bool('reduced', False)
+
+ async with api.begin() as conn:
+ sql = sa.select(sa.text("""osm_type, osm_id, class, type,
+ name->'name' as name,
+ country_code, errormessage, updated"""))\
+ .select_from(sa.text('import_polygon_error'))
+ if sql_params['days'] > 0:
+ sql = sql.where(sa.text("updated > 'now'::timestamp - make_interval(days => :days)"))
+ if reduced:
+ sql = sql.where(sa.text("errormessage like 'Area reduced%'"))
+ if sql_params['cls'] is not None:
+ sql = sql.where(sa.text("class = :cls"))
+
+ sql = sql.order_by(sa.literal_column('updated').desc()).limit(1000)
+
+ results = RawDataList(r._asdict() for r in await conn.execute(sql, sql_params))
+
+ return params.build_response(formatting.format_result(results, fmt, {}))
+
+
EndpointFunc = Callable[[napi.NominatimAPIAsync, ASGIAdaptor], Any]
ROUTES = [
- ('status', status_endpoint)
+ ('status', status_endpoint),
+ ('details', details_endpoint),
+ ('reverse', reverse_endpoint),
+ ('lookup', lookup_endpoint),
+ ('search', search_endpoint),
+ ('deletable', deletable_endpoint),
+ ('polygons', polygons_endpoint),
]