# Copyright 2019-present MongoDB, Inc. # # Licensed 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. """Support for explicit client-side field level encryption.""" import contextlib import os import subprocess import uuid import weakref try: from pymongocrypt.auto_encrypter import AutoEncrypter from pymongocrypt.errors import MongoCryptError from pymongocrypt.explicit_encrypter import ExplicitEncrypter from pymongocrypt.mongocrypt import MongoCryptOptions from pymongocrypt.state_machine import MongoCryptCallback _HAVE_PYMONGOCRYPT = True except ImportError: _HAVE_PYMONGOCRYPT = False MongoCryptCallback = object from bson import _dict_to_bson, decode, encode from bson.codec_options import CodecOptions from bson.binary import (Binary, STANDARD, UUID_SUBTYPE) from bson.errors import BSONError from bson.raw_bson import (DEFAULT_RAW_BSON_OPTIONS, RawBSONDocument, _inflate_bson) from bson.son import SON from pymongo.errors import (ConfigurationError, EncryptionError, InvalidOperation, ServerSelectionTimeoutError) from pymongo.mongo_client import MongoClient from pymongo.pool import _configured_socket, PoolOptions from pymongo.read_concern import ReadConcern from pymongo.ssl_support import get_ssl_context from pymongo.uri_parser import parse_host from pymongo.write_concern import WriteConcern from pymongo.daemon import _spawn_daemon _HTTPS_PORT = 443 _KMS_CONNECT_TIMEOUT = 10 # TODO: CDRIVER-3262 will define this value. _MONGOCRYPTD_TIMEOUT_MS = 1000 _DATA_KEY_OPTS = CodecOptions(document_class=SON, uuid_representation=STANDARD) # Use RawBSONDocument codec options to avoid needlessly decoding # documents from the key vault. _KEY_VAULT_OPTS = CodecOptions(document_class=RawBSONDocument, uuid_representation=STANDARD) @contextlib.contextmanager def _wrap_encryption_errors(): """Context manager to wrap encryption related errors.""" try: yield except BSONError: # BSON encoding/decoding errors are unrelated to encryption so # we should propagate them unchanged. raise except Exception as exc: raise EncryptionError(exc) class _EncryptionIO(MongoCryptCallback): def __init__(self, client, key_vault_coll, mongocryptd_client, opts): """Internal class to perform I/O on behalf of pymongocrypt.""" # Use a weak ref to break reference cycle. if client is not None: self.client_ref = weakref.ref(client) else: self.client_ref = None self.key_vault_coll = key_vault_coll.with_options( codec_options=_KEY_VAULT_OPTS, read_concern=ReadConcern(level='majority'), write_concern=WriteConcern(w='majority')) self.mongocryptd_client = mongocryptd_client self.opts = opts self._spawned = False def kms_request(self, kms_context): """Complete a KMS request. :Parameters: - `kms_context`: A :class:`MongoCryptKmsContext`. :Returns: None """ endpoint = kms_context.endpoint message = kms_context.message host, port = parse_host(endpoint, _HTTPS_PORT) ctx = get_ssl_context(None, None, None, None, None, None, True) opts = PoolOptions(connect_timeout=_KMS_CONNECT_TIMEOUT, socket_timeout=_KMS_CONNECT_TIMEOUT, ssl_context=ctx) conn = _configured_socket((host, port), opts) try: conn.sendall(message) while kms_context.bytes_needed > 0: data = conn.recv(kms_context.bytes_needed) kms_context.feed(data) finally: conn.close() def collection_info(self, database, filter): """Get the collection info for a namespace. The returned collection info is passed to libmongocrypt which reads the JSON schema. :Parameters: - `database`: The database on which to run listCollections. - `filter`: The filter to pass to listCollections. :Returns: The first document from the listCollections command response as BSON. """ with self.client_ref()[database].list_collections( filter=RawBSONDocument(filter)) as cursor: for doc in cursor: return _dict_to_bson(doc, False, _DATA_KEY_OPTS) def spawn(self): """Spawn mongocryptd. Note this method is thread safe; at most one mongocryptd will start successfully. """ self._spawned = True args = [self.opts._mongocryptd_spawn_path or 'mongocryptd'] args.extend(self.opts._mongocryptd_spawn_args) _spawn_daemon(args) def mark_command(self, database, cmd): """Mark a command for encryption. :Parameters: - `database`: The database on which to run this command. - `cmd`: The BSON command to run. :Returns: The marked command response from mongocryptd. """ if not self._spawned and not self.opts._mongocryptd_bypass_spawn: self.spawn() # Database.command only supports mutable mappings so we need to decode # the raw BSON command first. inflated_cmd = _inflate_bson(cmd, DEFAULT_RAW_BSON_OPTIONS) try: res = self.mongocryptd_client[database].command( inflated_cmd, codec_options=DEFAULT_RAW_BSON_OPTIONS) except ServerSelectionTimeoutError: if self.opts._mongocryptd_bypass_spawn: raise self.spawn() res = self.mongocryptd_client[database].command( inflated_cmd, codec_options=DEFAULT_RAW_BSON_OPTIONS) return res.raw def fetch_keys(self, filter): """Yields one or more keys from the key vault. :Parameters: - `filter`: The filter to pass to find. :Returns: A generator which yields the requested keys from the key vault. """ with self.key_vault_coll.find(RawBSONDocument(filter)) as cursor: for key in cursor: yield key.raw def insert_data_key(self, data_key): """Insert a data key into the key vault. :Parameters: - `data_key`: The data key document to insert. :Returns: The _id of the inserted data key document. """ raw_doc = RawBSONDocument(data_key) data_key_id = raw_doc.get('_id') if not isinstance(data_key_id, uuid.UUID): raise TypeError('data_key _id must be a UUID') self.key_vault_coll.insert_one(raw_doc) return Binary(data_key_id.bytes, subtype=UUID_SUBTYPE) def bson_encode(self, doc): """Encode a document to BSON. A document can be any mapping type (like :class:`dict`). :Parameters: - `doc`: mapping type representing a document :Returns: The encoded BSON bytes. """ return encode(doc) def close(self): """Release resources. Note it is not safe to call this method from __del__ or any GC hooks. """ self.client_ref = None self.key_vault_coll = None if self.mongocryptd_client: self.mongocryptd_client.close() self.mongocryptd_client = None class _Encrypter(object): def __init__(self, io_callbacks, opts): """Encrypts and decrypts MongoDB commands. This class is used to support automatic encryption and decryption of MongoDB commands. :Parameters: - `io_callbacks`: A :class:`MongoCryptCallback`. - `opts`: The encrypted client's :class:`AutoEncryptionOpts`. """ if opts._schema_map is None: schema_map = None else: schema_map = _dict_to_bson(opts._schema_map, False, _DATA_KEY_OPTS) self._auto_encrypter = AutoEncrypter(io_callbacks, MongoCryptOptions( opts._kms_providers, schema_map)) self._bypass_auto_encryption = opts._bypass_auto_encryption self._closed = False def encrypt(self, database, cmd, check_keys, codec_options): """Encrypt a MongoDB command. :Parameters: - `database`: The database for this command. - `cmd`: A command document. - `check_keys`: If True, check `cmd` for invalid keys. - `codec_options`: The CodecOptions to use while encoding `cmd`. :Returns: The encrypted command to execute. """ self._check_closed() # Workaround for $clusterTime which is incompatible with # check_keys. cluster_time = check_keys and cmd.pop('$clusterTime', None) encoded_cmd = _dict_to_bson(cmd, check_keys, codec_options) with _wrap_encryption_errors(): encrypted_cmd = self._auto_encrypter.encrypt(database, encoded_cmd) # TODO: PYTHON-1922 avoid decoding the encrypted_cmd. encrypt_cmd = _inflate_bson( encrypted_cmd, DEFAULT_RAW_BSON_OPTIONS) if cluster_time: encrypt_cmd['$clusterTime'] = cluster_time return encrypt_cmd def decrypt(self, response): """Decrypt a MongoDB command response. :Parameters: - `response`: A MongoDB command response as BSON. :Returns: The decrypted command response. """ self._check_closed() with _wrap_encryption_errors(): return self._auto_encrypter.decrypt(response) def _check_closed(self): if self._closed: raise InvalidOperation("Cannot use MongoClient after close") def close(self): """Cleanup resources.""" self._closed = True self._auto_encrypter.close() @staticmethod def create(client, opts): """Create a _CommandEncyptor for a client. :Parameters: - `client`: The encrypted MongoClient. - `opts`: The encrypted client's :class:`AutoEncryptionOpts`. :Returns: A :class:`_CommandEncrypter` for this client. """ key_vault_client = opts._key_vault_client or client db, coll = opts._key_vault_namespace.split('.', 1) key_vault_coll = key_vault_client[db][coll] mongocryptd_client = MongoClient( opts._mongocryptd_uri, connect=False, serverSelectionTimeoutMS=_MONGOCRYPTD_TIMEOUT_MS) io_callbacks = _EncryptionIO( client, key_vault_coll, mongocryptd_client, opts) return _Encrypter(io_callbacks, opts) class Algorithm(object): """An enum that defines the supported encryption algorithms.""" AEAD_AES_256_CBC_HMAC_SHA_512_Deterministic = ( "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic") AEAD_AES_256_CBC_HMAC_SHA_512_Random = ( "AEAD_AES_256_CBC_HMAC_SHA_512-Random") class ClientEncryption(object): """Explicit client-side field level encryption.""" def __init__(self, kms_providers, key_vault_namespace, key_vault_client, codec_options): """Explicit client-side field level encryption. The ClientEncryption class encapsulates explicit operations on a key vault collection that cannot be done directly on a MongoClient. Similar to configuring auto encryption on a MongoClient, it is constructed with a MongoClient (to a MongoDB cluster containing the key vault collection), KMS provider configuration, and keyVaultNamespace. It provides an API for explicitly encrypting and decrypting values, and creating data keys. It does not provide an API to query keys from the key vault collection, as this can be done directly on the MongoClient. See :ref:`explicit-client-side-encryption` for an example. :Parameters: - `kms_providers`: Map of KMS provider options. Two KMS providers are supported: "aws" and "local". The kmsProviders map values differ by provider: - `aws`: Map with "accessKeyId" and "secretAccessKey" as strings. These are the AWS access key ID and AWS secret access key used to generate KMS messages. - `local`: Map with "key" as a 96-byte array or string. "key" is the master key used to encrypt/decrypt data keys. This key should be generated and stored as securely as possible. - `key_vault_namespace`: The namespace for the key vault collection. The key vault collection contains all data keys used for encryption and decryption. Data keys are stored as documents in this MongoDB collection. Data keys are protected with encryption by a KMS provider. - `key_vault_client`: A MongoClient connected to a MongoDB cluster containing the `key_vault_namespace` collection. - `codec_options`: An instance of :class:`~bson.codec_options.CodecOptions` to use when encoding a value for encryption and decoding the decrypted BSON value. This should be the same CodecOptions instance configured on the MongoClient, Database, or Collection used to access application data. .. versionadded:: 3.9 """ if not _HAVE_PYMONGOCRYPT: raise ConfigurationError( "client-side field level encryption requires the pymongocrypt " "library: install a compatible version with: " "python -m pip install 'pymongo[encryption]'") if not isinstance(codec_options, CodecOptions): raise TypeError("codec_options must be an instance of " "bson.codec_options.CodecOptions") self._kms_providers = kms_providers self._key_vault_namespace = key_vault_namespace self._key_vault_client = key_vault_client self._codec_options = codec_options db, coll = key_vault_namespace.split('.', 1) key_vault_coll = key_vault_client[db][coll] self._io_callbacks = _EncryptionIO(None, key_vault_coll, None, None) self._encryption = ExplicitEncrypter( self._io_callbacks, MongoCryptOptions(kms_providers, None)) def create_data_key(self, kms_provider, master_key=None, key_alt_names=None): """Create and insert a new data key into the key vault collection. :Parameters: - `kms_provider`: The KMS provider to use. Supported values are "aws" and "local". - `master_key`: Identifies a KMS-specific key used to encrypt the new data key. If the kmsProvider is "local" the `master_key` is not applicable and may be omitted. If the `kms_provider` is "aws" it is required and has the following fields:: - `region` (string): Required. The AWS region, e.g. "us-east-1". - `key` (string): Required. The Amazon Resource Name (ARN) to the AWS customer. - `endpoint` (string): Optional. An alternate host to send KMS requests to. May include port number, e.g. "kms.us-east-1.amazonaws.com:443". - `key_alt_names` (optional): An optional list of string alternate names used to reference a key. If a key is created with alternate names, then encryption may refer to the key by the unique alternate name instead of by ``key_id``. The following example shows creating and referring to a data key by alternate name:: client_encryption.create_data_key("local", keyAltNames=["name1"]) # reference the key with the alternate name client_encryption.encrypt("457-55-5462", keyAltName="name1", algorithm=Algorithm.Random) :Returns: The ``_id`` of the created data key document as a :class:`~bson.binary.Binary` with subtype :data:`~bson.binary.UUID_SUBTYPE`. """ self._check_closed() with _wrap_encryption_errors(): return self._encryption.create_data_key( kms_provider, master_key=master_key, key_alt_names=key_alt_names) def encrypt(self, value, algorithm, key_id=None, key_alt_name=None): """Encrypt a BSON value with a given key and algorithm. Note that exactly one of ``key_id`` or ``key_alt_name`` must be provided. :Parameters: - `value`: The BSON value to encrypt. - `algorithm` (string): The encryption algorithm to use. See :class:`Algorithm` for some valid options. - `key_id`: Identifies a data key by ``_id`` which must be a :class:`~bson.binary.Binary` with subtype 4 ( :attr:`~bson.binary.UUID_SUBTYPE`). - `key_alt_name`: Identifies a key vault document by 'keyAltName'. :Returns: The encrypted value, a :class:`~bson.binary.Binary` with subtype 6. """ self._check_closed() if (key_id is not None and not ( isinstance(key_id, Binary) and key_id.subtype == UUID_SUBTYPE)): raise TypeError( 'key_id must be a bson.binary.Binary with subtype 4') doc = encode({'v': value}, codec_options=self._codec_options) with _wrap_encryption_errors(): encrypted_doc = self._encryption.encrypt( doc, algorithm, key_id=key_id, key_alt_name=key_alt_name) return decode(encrypted_doc)['v'] def decrypt(self, value): """Decrypt an encrypted value. :Parameters: - `value` (Binary): The encrypted value, a :class:`~bson.binary.Binary` with subtype 6. :Returns: The decrypted BSON value. """ self._check_closed() if not (isinstance(value, Binary) and value.subtype == 6): raise TypeError( 'value to decrypt must be a bson.binary.Binary with subtype 6') with _wrap_encryption_errors(): doc = encode({'v': value}) decrypted_doc = self._encryption.decrypt(doc) return decode(decrypted_doc, codec_options=self._codec_options)['v'] def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): self.close() def _check_closed(self): if self._encryption is None: raise InvalidOperation("Cannot use closed ClientEncryption") def close(self): """Release resources. Note that using this class in a with-statement will automatically call :meth:`close`:: with ClientEncryption(...) as client_encryption: encrypted = client_encryption.encrypt(value, ...) decrypted = client_encryption.decrypt(encrypted) """ if self._io_callbacks: self._io_callbacks.close() self._encryption.close() self._io_callbacks = None self._encryption = None