# 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.
import collections.abc as collections_abc
from fnmatch import fnmatch
from typing import Any, Optional, Tuple, Type
from opensearchpy._async.client import AsyncOpenSearch
from opensearchpy._async.helpers.index import AsyncIndex
from opensearchpy._async.helpers.search import AsyncSearch
from opensearchpy.connection.async_connections import get_connection
from opensearchpy.exceptions import (
IllegalOperation,
NotFoundError,
RequestError,
ValidationException,
)
from opensearchpy.helpers.document import DocumentMeta
from opensearchpy.helpers.utils import DOC_META_FIELDS, META_FIELDS, ObjectBase, merge
class AsyncIndexMeta(DocumentMeta):
# global flag to guard us from associating an Index with the base Document
# class, only user defined subclasses should have an _index attr
_document_initialized = False
def __new__(
cls,
name: str,
bases: Tuple[Type[ObjectBase]],
attrs: Any,
) -> Any:
new_cls = super().__new__(cls, name, bases, attrs)
if cls._document_initialized:
index_opts = attrs.pop("Index", None)
index = cls.construct_index(index_opts, bases)
new_cls._index = index
index.document(new_cls)
cls._document_initialized = True
return new_cls
@classmethod
def construct_index(cls, opts: Any, bases: Any) -> Any:
if opts is None:
for b in bases:
if hasattr(b, "_index"):
return b._index
# Set None as Index name so it will set _all while making the query
return AsyncIndex(name=None)
i = AsyncIndex(
getattr(opts, "name", "*"), using=getattr(opts, "using", "default")
)
i.settings(**getattr(opts, "settings", {}))
i.aliases(**getattr(opts, "aliases", {}))
for a in getattr(opts, "analyzers", ()):
i.analyzer(a)
return i
class AsyncDocument(ObjectBase, metaclass=AsyncIndexMeta):
"""
Model-like class for persisting documents in opensearch.
"""
@classmethod
def _matches(cls: Any, hit: Any) -> bool:
if cls._index._name is None:
return True
return fnmatch(hit.get("_index", ""), cls._index._name)
@classmethod
def _get_using(cls: Any, using: Any = None) -> Any:
return using or cls._index._using
@classmethod
async def _get_connection(cls, using: Optional[AsyncOpenSearch] = None) -> Any:
return await get_connection(cls._get_using(using))
@classmethod
def _default_index(cls: Any, index: Any = None) -> Any:
return index or cls._index._name
@classmethod
async def init(
cls: Any, index: Optional[str] = None, using: Optional[AsyncOpenSearch] = None
) -> None:
"""
Create the index and populate the mappings in opensearch.
"""
i = cls._index
if index:
i = i.clone(name=index)
await i.save(using=using)
def _get_index(
self, index: Optional[str] = None, required: Optional[bool] = True
) -> Any:
if index is None:
index = getattr(self.meta, "index", None)
if index is None:
index = getattr(self._index, "_name", None)
if index is None and required:
raise ValidationException("No index")
if index and "*" in index:
raise ValidationException("You cannot write to a wildcard index.")
return index
def __repr__(self) -> str:
return "{}({})".format(
self.__class__.__name__,
", ".join(
f"{key}={getattr(self.meta, key)!r}"
for key in ("index", "id")
if key in self.meta
),
)
@classmethod
def search(cls, using: Any = None, index: Any = None) -> AsyncSearch:
"""
Create an :class:`~opensearchpy.AsyncSearch` instance that will search
over this ``Document``.
"""
return AsyncSearch(
using=cls._get_using(using), index=cls._default_index(index), doc_type=[cls]
)
@classmethod
async def get( # type: ignore
cls,
id: Any,
using: Any = None,
index: Any = None,
**kwargs: Any,
) -> Any:
"""
Retrieve a single document from opensearch using its ``id``.
:arg id: ``id`` of the document to be retrieved
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
Any additional keyword arguments will be passed to
``AsyncOpenSearch.get`` unchanged.
"""
opensearch = await cls._get_connection(using)
doc = await opensearch.get(index=cls._default_index(index), id=id, **kwargs)
if not doc.get("found", False):
return None
return cls.from_opensearch(doc)
@classmethod
async def exists(
cls,
id: str,
using: Optional[AsyncOpenSearch] = None,
index: Optional[str] = None,
**kwargs: Any,
) -> Any:
"""
check if exists a single document from opensearch using its ``id``.
:arg id: ``id`` of the document to check if exists
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
Any additional keyword arguments will be passed to
``AsyncOpenSearch.exists`` unchanged.
"""
opensearch = await cls._get_connection(using)
return await opensearch.exists(index=cls._default_index(index), id=id, **kwargs)
@classmethod
async def mget(
cls,
docs: Any,
using: Optional[AsyncOpenSearch] = None,
index: Optional[str] = None,
raise_on_error: Optional[bool] = True,
missing: Optional[str] = "none",
**kwargs: Any,
) -> Any:
"""
Retrieve multiple document by their ``id``'s. Returns a list of instances
in the same order as requested.
:arg docs: list of ``id``'s of the documents to be retrieved or a list
of document specifications as per
https://opensearch.org/docs/latest/opensearch/rest-api/document-apis/multi-get/
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
:arg missing: what to do when one of the documents requested is not
found. Valid options are ``'none'`` (use ``None``), ``'raise'`` (raise
``NotFoundError``) or ``'skip'`` (ignore the missing document).
Any additional keyword arguments will be passed to
``AsyncOpenSearch.mget`` unchanged.
"""
if missing not in ("raise", "skip", "none"):
raise ValueError("'missing' must be 'raise', 'skip', or 'none'.")
opensearch = await cls._get_connection(using)
body = {
"docs": [
doc if isinstance(doc, collections_abc.Mapping) else {"_id": doc}
for doc in docs
]
}
results = await opensearch.mget(body, index=cls._default_index(index), **kwargs)
objs: Any = []
error_docs: Any = []
missing_docs: Any = []
for doc in results["docs"]:
if doc.get("found"):
if error_docs or missing_docs:
# We're going to raise an exception anyway, so avoid an
# expensive call to cls.from_opensearch().
continue
objs.append(cls.from_opensearch(doc))
elif doc.get("error"):
if raise_on_error:
error_docs.append(doc)
if missing == "none":
objs.append(None)
# The doc didn't cause an error, but the doc also wasn't found.
elif missing == "raise":
missing_docs.append(doc)
elif missing == "none":
objs.append(None)
if error_docs:
error_ids = [doc["_id"] for doc in error_docs]
message = "Required routing not provided for documents %s."
message %= ", ".join(error_ids)
raise RequestError(400, message, error_docs)
if missing_docs:
missing_ids = [doc["_id"] for doc in missing_docs]
message = f"Documents {', '.join(missing_ids)} not found."
raise NotFoundError(404, message, {"docs": missing_docs})
return objs
async def delete(
self,
using: Optional[AsyncOpenSearch] = None,
index: Optional[str] = None,
**kwargs: Any,
) -> Any:
"""
Delete the instance in opensearch.
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
Any additional keyword arguments will be passed to
``AsyncOpenSearch.delete`` unchanged.
"""
opensearch = await self._get_connection(using)
# extract routing etc from meta
doc_meta = {k: self.meta[k] for k in DOC_META_FIELDS if k in self.meta}
# Optimistic concurrency control
if "seq_no" in self.meta and "primary_term" in self.meta:
doc_meta["if_seq_no"] = self.meta["seq_no"]
doc_meta["if_primary_term"] = self.meta["primary_term"]
doc_meta.update(kwargs)
await opensearch.delete(index=self._get_index(index), **doc_meta)
def to_dict( # type: ignore
self, include_meta: Optional[bool] = False, skip_empty: Optional[bool] = True
) -> Any:
"""
Serialize the instance into a dictionary so that it can be saved in opensearch.
:arg include_meta: if set to ``True`` will include all the metadata
(``_index``, ``_id`` etc). Otherwise just the document's
data is serialized.
:arg skip_empty: if set to ``False`` will cause empty values (``None``,
``[]``, ``{}``) to be left on the document. Those values will be
stripped out otherwise as they make no difference in opensearch.
"""
d = super().to_dict(skip_empty)
if not include_meta:
return d
meta = {"_" + k: self.meta[k] for k in DOC_META_FIELDS if k in self.meta}
# in case of to_dict include the index unlike save/update/delete
index = self._get_index(required=False)
if index is not None:
meta["_index"] = index
meta["_source"] = d
return meta
async def update(
self,
using: Optional[AsyncOpenSearch] = None,
index: Optional[str] = None,
detect_noop: Optional[bool] = True,
doc_as_upsert: Optional[bool] = False,
refresh: Optional[bool] = False,
retry_on_conflict: Optional[int] = None,
script: Any = None,
script_id: Optional[str] = None,
scripted_upsert: Optional[bool] = False,
upsert: Optional[bool] = None,
return_doc_meta: Optional[bool] = False,
**fields: Any,
) -> Any:
"""
Partial update of the document, specify fields you wish to update and
both the instance and the document in opensearch will be updated::
doc = MyDocument(title='Document Title!')
doc.save()
doc.update(title='New Document Title!')
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
:arg detect_noop: Set to ``False`` to disable noop detection.
:arg refresh: Control when the changes made by this request are visible
to search. Set to ``True`` for immediate effect.
:arg retry_on_conflict: In between the get and indexing phases of the
update, it is possible that another process might have already
updated the same document. By default, the update will fail with a
version conflict exception. The retry_on_conflict parameter
controls how many times to retry the update before finally throwing
an exception.
:arg doc_as_upsert: Instead of sending a partial doc plus an upsert
doc, setting doc_as_upsert to true will use the contents of doc as
the upsert value
:arg return_doc_meta: set to ``True`` to return all metadata from the
index API call instead of only the operation result
:return operation result noop/updated
"""
body: Any = {
"doc_as_upsert": doc_as_upsert,
"detect_noop": detect_noop,
}
# scripted update
if script or script_id:
if upsert is not None:
body["upsert"] = upsert
if script:
script = {"source": script}
else:
script = {"id": script_id}
script["params"] = fields
body["script"] = script
body["scripted_upsert"] = scripted_upsert
# partial document update
else:
if not fields:
raise IllegalOperation(
"You cannot call update() without updating individual fields or a script. "
"If you wish to update the entire object use save()."
)
# update given fields locally
merge(self, fields)
# prepare data for OpenSearch
values = self.to_dict()
# if fields were given: partial update
body["doc"] = {k: values.get(k) for k in fields.keys()}
# extract routing etc from meta
doc_meta = {k: self.meta[k] for k in DOC_META_FIELDS if k in self.meta}
if retry_on_conflict is not None:
doc_meta["retry_on_conflict"] = retry_on_conflict
# Optimistic concurrency control
if (
retry_on_conflict in (None, 0)
and "seq_no" in self.meta
and "primary_term" in self.meta
):
doc_meta["if_seq_no"] = self.meta["seq_no"]
doc_meta["if_primary_term"] = self.meta["primary_term"]
meta = await (await self._get_connection(using)).update(
index=self._get_index(index), body=body, refresh=refresh, **doc_meta
)
# update meta information from OpenSearch
for k in META_FIELDS:
if "_" + k in meta:
setattr(self.meta, k, meta["_" + k])
return meta if return_doc_meta else meta["result"]
async def save(
self,
using: Optional[AsyncOpenSearch] = None,
index: Optional[str] = None,
validate: Optional[bool] = True,
skip_empty: Optional[bool] = True,
return_doc_meta: Optional[bool] = False,
**kwargs: Any,
) -> Any:
"""
Save the document into opensearch. If the document doesn't exist it
is created, it is overwritten otherwise. Returns ``True`` if this
operations resulted in new document being created.
:arg index: opensearch index to use, if the ``Document`` is
associated with an index this can be omitted.
:arg using: connection alias to use, defaults to ``'default'``
:arg validate: set to ``False`` to skip validating the document
:arg skip_empty: if set to ``False`` will cause empty values (``None``,
``[]``, ``{}``) to be left on the document. Those values will be
stripped out otherwise as they make no difference in opensearch.
:arg return_doc_meta: set to ``True`` to return all metadata from the
update API call instead of only the operation result
Any additional keyword arguments will be passed to
``AsyncOpenSearch.index`` unchanged.
:return operation result created/updated
"""
if validate:
self.full_clean()
opensearch = await self._get_connection(using)
# extract routing etc from meta
doc_meta = {k: self.meta[k] for k in DOC_META_FIELDS if k in self.meta}
# Optimistic concurrency control
if "seq_no" in self.meta and "primary_term" in self.meta:
doc_meta["if_seq_no"] = self.meta["seq_no"]
doc_meta["if_primary_term"] = self.meta["primary_term"]
doc_meta.update(kwargs)
meta = await opensearch.index(
index=self._get_index(index),
body=self.to_dict(skip_empty=skip_empty),
**doc_meta,
)
# update meta information from OpenSearch
for k in META_FIELDS:
if "_" + k in meta:
setattr(self.meta, k, meta["_" + k])
return meta if return_doc_meta else meta["result"]