# SPDX-License-Identifier: Apache-2.0 # # The OpenSearch Contributors require contributions made to # this file be licensed under the Apache-2.0 license or a # compatible open source license. # # Modifications Copyright OpenSearch Contributors. See # GitHub history for details. # # Licensed to Elasticsearch B.V. under one or more contributor # license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright # ownership. Elasticsearch B.V. licenses this file to you under # the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. import copy try: import collections.abc as collections_abc # only works on python 3.3+ except ImportError: import collections as collections_abc from opensearchpy.exceptions import TransportError from opensearchpy.helpers import scan from six import iteritems, string_types from .aggs import A, AggBase from .connections import get_connection from .exceptions import IllegalOperation from .query import Bool, Q from .response import Hit, Response from .utils import AttrDict, DslBase, recursive_to_dict class QueryProxy(object): """ Simple proxy around DSL objects (queries) that can be called (to add query/post_filter) and also allows attribute access which is proxied to the wrapped query. """ def __init__(self, search, attr_name): self._search = search self._proxied = None self._attr_name = attr_name def __nonzero__(self): return self._proxied is not None __bool__ = __nonzero__ def __call__(self, *args, **kwargs): s = self._search._clone() # we cannot use self._proxied since we just cloned self._search and # need to access the new self on the clone proxied = getattr(s, self._attr_name) if proxied._proxied is None: proxied._proxied = Q(*args, **kwargs) else: proxied._proxied &= Q(*args, **kwargs) # always return search to be chainable return s def __getattr__(self, attr_name): return getattr(self._proxied, attr_name) def __setattr__(self, attr_name, value): if not attr_name.startswith("_"): self._proxied = Q(self._proxied.to_dict()) setattr(self._proxied, attr_name, value) super(QueryProxy, self).__setattr__(attr_name, value) def __getstate__(self): return self._search, self._proxied, self._attr_name def __setstate__(self, state): self._search, self._proxied, self._attr_name = state class ProxyDescriptor(object): """ Simple descriptor to enable setting of queries and filters as: s = Search() s.query = Q(...) """ def __init__(self, name): self._attr_name = "_%s_proxy" % name def __get__(self, instance, owner): return getattr(instance, self._attr_name) def __set__(self, instance, value): proxy = getattr(instance, self._attr_name) proxy._proxied = Q(value) class AggsProxy(AggBase, DslBase): name = "aggs" def __init__(self, search): self._base = self self._search = search self._params = {"aggs": {}} def to_dict(self): return super(AggsProxy, self).to_dict().get("aggs", {}) class Request(object): def __init__(self, using="default", index=None, doc_type=None, extra=None): self._using = using self._index = None if isinstance(index, (tuple, list)): self._index = list(index) elif index: self._index = [index] self._doc_type = [] self._doc_type_map = {} if isinstance(doc_type, (tuple, list)): self._doc_type.extend(doc_type) elif isinstance(doc_type, collections_abc.Mapping): self._doc_type.extend(doc_type.keys()) self._doc_type_map.update(doc_type) elif doc_type: self._doc_type.append(doc_type) self._params = {} self._extra = extra or {} def __eq__(self, other): return ( isinstance(other, Request) and other._params == self._params and other._index == self._index and other._doc_type == self._doc_type and other.to_dict() == self.to_dict() ) def __copy__(self): return self._clone() def params(self, **kwargs): """ Specify query params to be used when executing the search. All the keyword arguments will override the current values. Example:: s = Search() s = s.params(routing='user-1', preference='local') """ s = self._clone() s._params.update(kwargs) return s def index(self, *index): """ Set the index for the search. If called empty it will remove all information. Example: s = Search() s = s.index('twitter-2015.01.01', 'twitter-2015.01.02') s = s.index(['twitter-2015.01.01', 'twitter-2015.01.02']) """ # .index() resets s = self._clone() if not index: s._index = None else: indexes = [] for i in index: if isinstance(i, string_types): indexes.append(i) elif isinstance(i, list): indexes += i elif isinstance(i, tuple): indexes += list(i) s._index = (self._index or []) + indexes return s def _resolve_field(self, path): for dt in self._doc_type: if not hasattr(dt, "_index"): continue field = dt._index.resolve_field(path) if field is not None: return field def _resolve_nested(self, hit, parent_class=None): doc_class = Hit nested_path = [] nesting = hit["_nested"] while nesting and "field" in nesting: nested_path.append(nesting["field"]) nesting = nesting.get("_nested") nested_path = ".".join(nested_path) if hasattr(parent_class, "_index"): nested_field = parent_class._index.resolve_field(nested_path) else: nested_field = self._resolve_field(nested_path) if nested_field is not None: return nested_field._doc_class return doc_class def _get_result(self, hit, parent_class=None): doc_class = Hit dt = hit.get("_type") if "_nested" in hit: doc_class = self._resolve_nested(hit, parent_class) elif dt in self._doc_type_map: doc_class = self._doc_type_map[dt] else: for doc_type in self._doc_type: if hasattr(doc_type, "_matches") and doc_type._matches(hit): doc_class = doc_type break for t in hit.get("inner_hits", ()): hit["inner_hits"][t] = Response( self, hit["inner_hits"][t], doc_class=doc_class ) callback = getattr(doc_class, "from_opensearch", doc_class) return callback(hit) def doc_type(self, *doc_type, **kwargs): """ Set the type to search through. You can supply a single value or multiple. Values can be strings or subclasses of ``Document``. You can also pass in any keyword arguments, mapping a doc_type to a callback that should be used instead of the Hit class. If no doc_type is supplied any information stored on the instance will be erased. Example: s = Search().doc_type('product', 'store', User, custom=my_callback) """ # .doc_type() resets s = self._clone() if not doc_type and not kwargs: s._doc_type = [] s._doc_type_map = {} else: s._doc_type.extend(doc_type) s._doc_type.extend(kwargs.keys()) s._doc_type_map.update(kwargs) return s def using(self, client): """ Associate the search request with an opensearch client. A fresh copy will be returned with current instance remaining unchanged. :arg client: an instance of ``opensearchpy.OpenSearch`` to use or an alias to look up in ``opensearch_dsl.connections`` """ s = self._clone() s._using = client return s def extra(self, **kwargs): """ Add extra keys to the request body. Mostly here for backwards compatibility. """ s = self._clone() if "from_" in kwargs: kwargs["from"] = kwargs.pop("from_") s._extra.update(kwargs) return s def _clone(self): s = self.__class__( using=self._using, index=self._index, doc_type=self._doc_type ) s._doc_type_map = self._doc_type_map.copy() s._extra = self._extra.copy() s._params = self._params.copy() return s class Search(Request): query = ProxyDescriptor("query") post_filter = ProxyDescriptor("post_filter") def __init__(self, **kwargs): """ Search request to opensearch. :arg using: `OpenSearch` instance to use :arg index: limit the search to index :arg doc_type: only query this type. All the parameters supplied (or omitted) at creation type can be later overridden by methods (`using`, `index` and `doc_type` respectively). """ super(Search, self).__init__(**kwargs) self.aggs = AggsProxy(self) self._sort = [] self._source = None self._highlight = {} self._highlight_opts = {} self._suggest = {} self._script_fields = {} self._response_class = Response self._query_proxy = QueryProxy(self, "query") self._post_filter_proxy = QueryProxy(self, "post_filter") def filter(self, *args, **kwargs): return self.query(Bool(filter=[Q(*args, **kwargs)])) def exclude(self, *args, **kwargs): return self.query(Bool(filter=[~Q(*args, **kwargs)])) def __iter__(self): """ Iterate over the hits. """ return iter(self.execute()) def __getitem__(self, n): """ Support slicing the `Search` instance for pagination. Slicing equates to the from/size parameters. E.g.:: s = Search().query(...)[0:25] is equivalent to:: s = Search().query(...).extra(from_=0, size=25) """ s = self._clone() if isinstance(n, slice): # If negative slicing, abort. if n.start and n.start < 0 or n.stop and n.stop < 0: raise ValueError("Search does not support negative slicing.") # OpenSearch won't get all results so we default to size: 10 if # stop not given. s._extra["from"] = n.start or 0 s._extra["size"] = max( 0, n.stop - (n.start or 0) if n.stop is not None else 10 ) return s else: # This is an index lookup, equivalent to slicing by [n:n+1]. # If negative index, abort. if n < 0: raise ValueError("Search does not support negative indexing.") s._extra["from"] = n s._extra["size"] = 1 return s @classmethod def from_dict(cls, d): """ Construct a new `Search` instance from a raw dict containing the search body. Useful when migrating from raw dictionaries. Example:: s = Search.from_dict({ "query": { "bool": { "must": [...] } }, "aggs": {...} }) s = s.filter('term', published=True) """ s = cls() s.update_from_dict(d) return s def _clone(self): """ Return a clone of the current search request. Performs a shallow copy of all the underlying objects. Used internally by most state modifying APIs. """ s = super(Search, self)._clone() s._response_class = self._response_class s._sort = self._sort[:] s._source = copy.copy(self._source) if self._source is not None else None s._highlight = self._highlight.copy() s._highlight_opts = self._highlight_opts.copy() s._suggest = self._suggest.copy() s._script_fields = self._script_fields.copy() for x in ("query", "post_filter"): getattr(s, x)._proxied = getattr(self, x)._proxied # copy top-level bucket definitions if self.aggs._params.get("aggs"): s.aggs._params = {"aggs": self.aggs._params["aggs"].copy()} return s def response_class(self, cls): """ Override the default wrapper used for the response. """ s = self._clone() s._response_class = cls return s def update_from_dict(self, d): """ Apply options from a serialized body to the current instance. Modifies the object in-place. Used mostly by ``from_dict``. """ d = d.copy() if "query" in d: self.query._proxied = Q(d.pop("query")) if "post_filter" in d: self.post_filter._proxied = Q(d.pop("post_filter")) aggs = d.pop("aggs", d.pop("aggregations", {})) if aggs: self.aggs._params = { "aggs": {name: A(value) for (name, value) in iteritems(aggs)} } if "sort" in d: self._sort = d.pop("sort") if "_source" in d: self._source = d.pop("_source") if "highlight" in d: high = d.pop("highlight").copy() self._highlight = high.pop("fields") self._highlight_opts = high if "suggest" in d: self._suggest = d.pop("suggest") if "text" in self._suggest: text = self._suggest.pop("text") for s in self._suggest.values(): s.setdefault("text", text) if "script_fields" in d: self._script_fields = d.pop("script_fields") self._extra.update(d) return self def script_fields(self, **kwargs): """ Define script fields to be calculated on hits. Example:: s = Search() s = s.script_fields(times_two="doc['field'].value * 2") s = s.script_fields( times_three={ 'script': { 'lang': 'painless', 'source': "doc['field'].value * params.n", 'params': {'n': 3} } } ) """ s = self._clone() for name in kwargs: if isinstance(kwargs[name], string_types): kwargs[name] = {"script": kwargs[name]} s._script_fields.update(kwargs) return s def source(self, fields=None, **kwargs): """ Selectively control how the _source field is returned. :arg fields: wildcard string, array of wildcards, or dictionary of includes and excludes If ``fields`` is None, the entire document will be returned for each hit. If fields is a dictionary with keys of 'includes' and/or 'excludes' the fields will be either included or excluded appropriately. Calling this multiple times with the same named parameter will override the previous values with the new ones. Example:: s = Search() s = s.source(includes=['obj1.*'], excludes=["*.description"]) s = Search() s = s.source(includes=['obj1.*']).source(excludes=["*.description"]) """ s = self._clone() if fields and kwargs: raise ValueError("You cannot specify fields and kwargs at the same time.") if fields is not None: s._source = fields return s if kwargs and not isinstance(s._source, dict): s._source = {} for key, value in kwargs.items(): if value is None: try: del s._source[key] except KeyError: pass else: s._source[key] = value return s def sort(self, *keys): """ Add sorting information to the search request. If called without arguments it will remove all sort requirements. Otherwise it will replace them. Acceptable arguments are:: 'some.field' '-some.other.field' {'different.field': {'any': 'dict'}} so for example:: s = Search().sort( 'category', '-title', {"price" : {"order" : "asc", "mode" : "avg"}} ) will sort by ``category``, ``title`` (in descending order) and ``price`` in ascending order using the ``avg`` mode. The API returns a copy of the Search object and can thus be chained. """ s = self._clone() s._sort = [] for k in keys: if isinstance(k, string_types) and k.startswith("-"): if k[1:] == "_score": raise IllegalOperation("Sorting by `-_score` is not allowed.") k = {k[1:]: {"order": "desc"}} s._sort.append(k) return s def highlight_options(self, **kwargs): """ Update the global highlighting options used for this request. For example:: s = Search() s = s.highlight_options(order='score') """ s = self._clone() s._highlight_opts.update(kwargs) return s def highlight(self, *fields, **kwargs): """ Request highlighting of some fields. All keyword arguments passed in will be used as parameters for all the fields in the ``fields`` parameter. Example:: Search().highlight('title', 'body', fragment_size=50) will produce the equivalent of:: { "highlight": { "fields": { "body": {"fragment_size": 50}, "title": {"fragment_size": 50} } } } If you want to have different options for different fields you can call ``highlight`` twice:: Search().highlight('title', fragment_size=50).highlight('body', fragment_size=100) which will produce:: { "highlight": { "fields": { "body": {"fragment_size": 100}, "title": {"fragment_size": 50} } } } """ s = self._clone() for f in fields: s._highlight[f] = kwargs return s def suggest(self, name, text, **kwargs): """ Add a suggestions request to the search. :arg name: name of the suggestion :arg text: text to suggest on All keyword arguments will be added to the suggestions body. For example:: s = Search() s = s.suggest('suggestion-1', 'OpenSearch', term={'field': 'body'}) """ s = self._clone() s._suggest[name] = {"text": text} s._suggest[name].update(kwargs) return s def to_dict(self, count=False, **kwargs): """ Serialize the search into the dictionary that will be sent over as the request's body. :arg count: a flag to specify if we are interested in a body for count - no aggregations, no pagination bounds etc. All additional keyword arguments will be included into the dictionary. """ d = {} if self.query: d["query"] = self.query.to_dict() # count request doesn't care for sorting and other things if not count: if self.post_filter: d["post_filter"] = self.post_filter.to_dict() if self.aggs.aggs: d.update(self.aggs.to_dict()) if self._sort: d["sort"] = self._sort d.update(recursive_to_dict(self._extra)) if self._source not in (None, {}): d["_source"] = self._source if self._highlight: d["highlight"] = {"fields": self._highlight} d["highlight"].update(self._highlight_opts) if self._suggest: d["suggest"] = self._suggest if self._script_fields: d["script_fields"] = self._script_fields d.update(recursive_to_dict(kwargs)) return d def count(self): """ Return the number of hits matching the query and filters. Note that only the actual number is returned. """ if hasattr(self, "_response") and self._response.hits.total.relation == "eq": return self._response.hits.total.value opensearch = get_connection(self._using) d = self.to_dict(count=True) # TODO: failed shards detection return opensearch.count(index=self._index, body=d, **self._params)["count"] def execute(self, ignore_cache=False): """ Execute the search and return an instance of ``Response`` wrapping all the data. :arg ignore_cache: if set to ``True``, consecutive calls will hit OpenSearch, while cached result will be ignored. Defaults to `False` """ if ignore_cache or not hasattr(self, "_response"): opensearch = get_connection(self._using) self._response = self._response_class( self, opensearch.search( index=self._index, body=self.to_dict(), **self._params ), ) return self._response def scan(self): """ Turn the search into a scan search and return a generator that will iterate over all the documents matching the query. Use ``params`` method to specify any additional arguments you with to pass to the underlying ``scan`` helper from ``opensearchpy`` """ opensearch = get_connection(self._using) for hit in scan( opensearch, query=self.to_dict(), index=self._index, **self._params ): yield self._get_result(hit) def delete(self): """ delete() executes the query by delegating to delete_by_query() """ opensearch = get_connection(self._using) return AttrDict( opensearch.delete_by_query( index=self._index, body=self.to_dict(), **self._params ) ) class MultiSearch(Request): """ Combine multiple :class:`~opensearch_dsl.Search` objects into a single request. """ def __init__(self, **kwargs): super(MultiSearch, self).__init__(**kwargs) self._searches = [] def __getitem__(self, key): return self._searches[key] def __iter__(self): return iter(self._searches) def _clone(self): ms = super(MultiSearch, self)._clone() ms._searches = self._searches[:] return ms def add(self, search): """ Adds a new :class:`~opensearch_dsl.Search` object to the request:: ms = MultiSearch(index='my-index') ms = ms.add(Search(doc_type=Category).filter('term', category='python')) ms = ms.add(Search(doc_type=Blog)) """ ms = self._clone() ms._searches.append(search) return ms def to_dict(self): out = [] for s in self._searches: meta = {} if s._index: meta["index"] = s._index meta.update(s._params) out.append(meta) out.append(s.to_dict()) return out def execute(self, ignore_cache=False, raise_on_error=True): """ Execute the multi search request and return a list of search results. """ if ignore_cache or not hasattr(self, "_response"): opensearch = get_connection(self._using) responses = opensearch.msearch( index=self._index, body=self.to_dict(), **self._params ) out = [] for s, r in zip(self._searches, responses["responses"]): if r.get("error", False): if raise_on_error: raise TransportError("N/A", r["error"]["type"], r["error"]) r = None else: r = Response(s, r) out.append(r) self._response = out return self._response