Source code for couchbase_core.client

import json

from couchbase_core._libcouchbase import Bucket as _Base

import couchbase.exceptions as E
from couchbase.exceptions import NotImplementedInV3
from couchbase_core.n1ql import _N1QLQuery, N1QLRequest
from couchbase_core.views.iterator import View
from .views.params import make_options_string, make_dvpath
import couchbase_core._libcouchbase as _LCB
from couchbase_core._libcouchbase import FMT_JSON, FMT_BYTES

from couchbase_core import priv_constants as _P, _depr
from typing import *
from .durability import Durability
from .result import Result
from couchbase_core.analytics import AnalyticsQuery
from datetime import timedelta

ViewInstance = TypeVar('ViewInstance', bound=View)
ViewSubType = TypeVar('ViewSubType', bound=Type[ViewInstance])


[docs]class Client(_Base): _MEMCACHED_NOMULTI = ('stats', 'lookup_in', 'mutate_in', 'get_and_lock', 'get_and_touch') _MEMCACHED_OPERATIONS = ('upsert', 'get', 'insert', 'replace', 'remove', 'touch', 'unlock', 'get_and_lock', 'get_and_touch', 'lookup_in', 'mutate_in') def __init__(self, *args, **kwargs): """Connect to a bucket. :param string connection_string: The connection string to use for connecting to the bucket. This is a URI-like string allowing specifying multiple hosts and a bucket name. The format of the connection string is the *scheme* (``couchbase`` for normal connections, ``couchbases`` for SSL enabled connections); a list of one or more *hostnames* delimited by commas; a *bucket* and a set of options. like so:: couchbase://host1,host2,host3/bucketname?option1=value1&option2=value2 If using the SSL scheme (``couchbases``), ensure to specify the ``certpath`` option to point to the location of the certificate on the client's filesystem; otherwise connection may fail with an error code indicating the server's certificate could not be trusted. See :ref:`connopts` for additional connection options. :param string username: username to connect to bucket with :param string password: the password of the bucket :param boolean quiet: the flag controlling whether to raise an exception when the client executes operations on non-existent keys. If it is `False` it will raise :exc:`.DocumentNotFoundException` exceptions. When set to `True` the operations will return `None` silently. :param boolean unlock_gil: If set (which is the default), the bucket object will release the python GIL when possible, allowing other (Python) threads to function in the background. This should be set to true if you are using threads in your application (and is the default), as otherwise all threads will be blocked while couchbase functions execute. You may turn this off for some performance boost and you are certain your application is not using threads :param transcoder: Set the transcoder object to use. This should conform to the interface in the documentation (it need not actually be a subclass). This can be either a class type to instantiate, or an initialized instance. :type transcoder: :class:`.Transcoder` :param lockmode: The *lockmode* for threaded access. See :ref:`multiple_threads` for more information. :param tracer: An OpenTracing tracer into which to propagate any tracing information. Requires tracing to be enabled. :raise: :exc:`.BucketNotFoundException` or :exc:`.AuthenticationException` if there is no such bucket to connect to, or if invalid credentials were supplied. :raise: :exc:`.CouchbaseNetworkException` if the socket wasn't accessible (doesn't accept connections or doesn't respond in :raise: :exc:`.InvalidException` if the connection string was malformed. :return: instance of :class:`~couchbase_core.client.Client` Initialize bucket using default options:: from couchbase_core.client import Client cb = Client('couchbase:///mybucket') Connect to protected bucket:: cb = Client('couchbase:///protected', password='secret') Connect using a list of servers:: cb = Client('couchbase://host1,host2,host3/mybucket') Connect using SSL:: cb = Client('couchbases://securehost/bucketname?certpath=/var/cb-cert.pem') """ _no_connect_exceptions = kwargs.pop('_no_connect_exceptions', False) _cntlopts = kwargs.pop('_cntl', {}) # The following two blocks adapt some options from 1.x to proper # connection string (or lcb_cntl_string()) settings. strcntls = {} if 'timeout' in kwargs: _depr('timeout keyword argument', 'operation_timeout (with float value) in connection string') strcntls['operation_timeout'] = str(float(kwargs.pop('timeout'))) if 'config_cache' in kwargs: _depr('config_cache keyword argument', 'config_cache in connection string') strcntls['config_cache'] = kwargs.pop('config_cache') tc = kwargs.get('transcoder') if isinstance(tc, type): kwargs['transcoder'] = tc() super(Client, self).__init__(*args, **kwargs) # Enable detailed error codes for network errors: self._cntlstr("detailed_errcodes", "1") # Enable self-identification in logs try: from couchbase_core._version import __version__ as cb_version self._cntlstr('client_string', 'PYCBC/' + cb_version) except E.NotSupportedException: pass for ctl, val in strcntls.items(): self._cntlstr(ctl, val) for ctl, val in _cntlopts.items(): self._cntl(ctl, val) try: self._do_ctor_connect() except E.CouchbaseException as e: if not _no_connect_exceptions: raise def _do_ctor_connect(self, *args, **kwargs): """This should be overidden by subclasses which want to use a different sort of connection behavior """ self._connect() def __repr__(self): return ('<{modname}.{cls} bucket={bucket}, nodes={nodes} at 0x{oid:x}>' ).format(modname=__name__, cls=self.__class__.__name__, nodes=self.server_nodes, bucket=super( Client, self).bucket, oid=id(self)) def _get_timeout_common(self, op): return self._cntl(op, value_type='timeout') def _set_timeout_common(self, op, # type: Any timeout # type: timedelta ): if not isinstance(timeout, timedelta): raise E.InvalidArgumentException( "Expected timedelta for timeout but got {}".format(timeout)) timeout_as_float = float(timeout.total_seconds()) if timeout_as_float <= 0: raise ValueError('Timeout must be non-negative') self._cntl(op, value_type='timeout', value=timeout_as_float) def mkmeth(oldname, newname, _dst): def _tmpmeth(self, *args, **kwargs): _depr(oldname, newname) return _dst(self, *args, **kwargs) return _tmpmeth def _view(self, ddoc, view, use_devmode=False, params=None, unrecognized_ok=False, passthrough=False): """Internal method to Execute a view (MapReduce) query :param string ddoc: Name of the design document :param string view: Name of the view function to execute :param params: Extra options to pass to the view engine :type params: string or dict :return: a :class:`~couchbase_core.result.HttpResult` object. """ if params: if not isinstance(params, str): params = make_options_string( params, unrecognized_ok=unrecognized_ok, passthrough=passthrough) else: params = "" ddoc = self._mk_devmode(ddoc, use_devmode) url = make_dvpath(ddoc, view) + params ret = self._http_request(type=_LCB.LCB_HTTP_TYPE_VIEW, path=url, method=_LCB.LCB_HTTP_METHOD_GET, response_format=FMT_JSON) return ret
[docs] def _cntl(self, *args, **kwargs): """Low-level interface to the underlying C library's settings. via ``lcb_cntl()``. This method accepts an opcode and an optional value. Constants are intentionally not defined for the various opcodes to allow saner error handling when an unknown opcode is not used. .. warning:: If you pass the wrong parameters to this API call, your application may crash. For this reason, this is not a public API call. Nevertheless it may be used sparingly as a workaround for settings which may have not yet been exposed directly via a supported API :param int op: Type of cntl to access. These are defined in libcouchbase's ``cntl.h`` header file :param value: An optional value to supply for the operation. If a value is not passed then the operation will return the current value of the cntl without doing anything else. otherwise, it will interpret the cntl in a manner that makes sense. If the value is a float, it will be treated as a timeout value and will be multiplied by 1000000 to yield the microsecond equivalent for the library. If the value is a boolean, it is treated as a C ``int`` :param value_type: String indicating the type of C-level value to be passed to ``lcb_cntl()``. The possible values are: * ``"string"`` - NUL-terminated `const char`. Pass a Python string * ``"int"`` - C ``int`` type. Pass a Python int * ``"uint32_t"`` - C ``lcb_uint32_t`` type. Pass a Python int * ``"unsigned"`` - C ``unsigned int`` type. Pass a Python int * ``"float"`` - C ``float`` type. Pass a Python float * ``"timeout"`` - The number of seconds as a float. This is converted into microseconds within the extension library. :return: If no `value` argument is provided, retrieves the current setting (per the ``value_type`` specification). Otherwise this function returns ``None``. """ return _Base._cntl(self, *args, **kwargs)
[docs] def _cntlstr(self, key, value): """ Low-level interface to the underlying C library's settings. via ``lcb_cntl_string()``. This method accepts a key and a value. It can modify the same sort of settings as the :meth:`~._cntl` method, but may be a bit more convenient to follow in code. .. warning:: See :meth:`~._cntl` for warnings. :param string key: The setting key :param string value: The setting value See the API documentation for libcouchbase for a list of acceptable setting keys. """ return _Base._cntlstr(self, key, value)
[docs] @staticmethod def lcb_version(): return _LCB.lcb_version()
def flush(self): """ Clears the bucket's contents. .. note:: This functionality requires that the flush option be enabled for the bucket by the cluster administrator. You can enable flush on the bucket using the administrative console (See http://docs.couchbase.com/admin/admin/UI/ui-data-buckets.html) .. note:: This is a destructive operation, as it will clear all the data from the bucket. .. note:: A successful execution of this method means that the bucket will have started the flush process. This does not necessarily mean that the bucket is actually empty. """ path = '/pools/default/buckets/{0}/controller/doFlush' path = path.format(self.bucket) return self._http_request(type=_LCB.LCB_HTTP_TYPE_MANAGEMENT, path=path, method=_LCB.LCB_HTTP_METHOD_POST) @property def closed(self): """Returns True if the object has been closed with :meth:`_close`""" return self._privflags & _LCB.PYCBC_CONN_F_CLOSED def mutate_in(self, key, specs, **kwargs): """Perform multiple atomic modifications within a document. :param key: The key of the document to modify :param specs: A list of specs (See :mod:`.couchbase_core.subdocument`) :param bool create_doc: Whether the document should be create if it doesn't exist :param bool insert_doc: If the document should be created anew, and the operations performed *only* if it does not exist. :param bool upsert_doc: If the document should be created anew if it does not exist. If it does exist the commands are still executed. :param kwargs: CAS, etc. :return: A :class:`~.couchbase_core.result.SubdocResult` object. Here's an example of adding a new tag to a "user" document and incrementing a modification counter:: import couchbase_core.subdocument as SD # .... cb.mutate_in('user', SD.array_addunique('tags', 'dog'), SD.counter('updates', 1)) .. note:: The `insert_doc` and `upsert_doc` options are mutually exclusive. Use `insert_doc` when you wish to create a new document with extended attributes (xattrs). .. seealso:: :mod:`.couchbase_core.subdocument` """ # Note we don't verify the validity of the options. lcb does that for # us. sdflags = kwargs.pop('_sd_doc_flags', 0) if kwargs.pop('insert_doc', False): sdflags |= _P.CMDSUBDOC_F_INSERT_DOC if kwargs.pop('upsert_doc', False): sdflags |= _P.CMDSUBDOC_F_UPSERT_DOC # TODO: find a way of supporting this with LCB V4 API - PYCBC-584 kwargs['_sd_doc_flags'] = sdflags return super(Client, self).mutate_in(key, tuple(specs), **kwargs) def lookup_in(self, key, specs, **kwargs): """Atomically retrieve one or more paths from a document. :param key: The key of the document to lookup :param spec: A list of specs (see :mod:`.couchbase_core.subdocument`) :return: A :class:`.couchbase_core.result.SubdocResult` object. This object contains the results and any errors of the operation. Example:: import couchbase_core.subdocument as SD rv = cb.lookup_in('user', SD.get('email'), SD.get('name'), SD.exists('friends.therock')) email = rv[0] name = rv[1] friend_exists = rv.exists(2) .. seealso:: :meth:`retrieve_in` which acts as a convenience wrapper """ return super(Client, self).lookup_in({key: tuple(specs)}, **kwargs) def get(self, *args, **kwargs): return super(Client, self).get(*args, **kwargs) def rget(self, key, replica_index=None, quiet=None, **kwargs): """Get an item from a replica node :param string key: The key to fetch :param int replica_index: The replica index to fetch. If this is ``None`` then this method will return once any replica responds. Use :attr:`configured_replica_count` to figure out the upper bound for this parameter. The value for this parameter must be a number between 0 and the value of :attr:`configured_replica_count`-1. :param boolean quiet: Whether to suppress errors when the key is not found This method (if `replica_index` is not supplied) functions like the :meth:`get` method that has been passed the `replica` parameter:: c.get(key, replica=True) .. seealso:: :meth:`get` :meth:`rget_multi` """ if replica_index is not None: return _Base._rgetix(self, key, replica=replica_index, **kwargs) else: return _Base._rget(self, key, **kwargs) def rgetall(self, key, **kwargs): return _Base._rgetall(self, key, **kwargs) def rget_multi(self, keys, replica_index=None, quiet=None): if replica_index is not None: return _Base._rgetix_multi(self, keys, replica=replica_index, quiet=quiet) else: return _Base._rget_multi(self, keys, quiet=quiet) def query(self, query, *args, **kwargs): """ Execute a N1QL query. This method is mainly a wrapper around the :class:`~._N1QLQuery` and :class:`~.N1QLRequest` objects, which contain the inputs and outputs of the query. Using an explicit :class:`~._N1QLQuery`:: query = _N1QLQuery( 'SELECT airportname FROM `travel-sample` WHERE city=$1', "Reno") # Use this option for often-repeated queries query.adhoc = False for row in cb.n1ql_query(query): print 'Name: {0}'.format(row['airportname']) Using an implicit :class:`~._N1QLQuery`:: for row in cb.n1ql_query( 'SELECT airportname, FROM `travel-sample` WHERE city="Reno"'): print 'Name: {0}'.format(row['airportname']) With the latter form, *args and **kwargs are forwarded to the N1QL Request constructor, optionally selected in kwargs['iterclass'], otherwise defaulting to :class:`~.N1QLRequest`. :param query: The query to execute. This may either be a :class:`._N1QLQuery` object, or a string (which will be implicitly converted to one). :param kwargs: Arguments for :class:`.N1QLRequest`. :return: An iterator which yields rows. Each row is a dictionary representing a single result """ if not isinstance(query, _N1QLQuery): query = _N1QLQuery(query) return query.gen_iter(self, **kwargs) @staticmethod def _mk_devmode(n, use_devmode): if n.startswith('dev_') or not use_devmode: return n return 'dev_' + n def view_query(self, design, # type: str view, # type: str use_devmode=False, # type: bool itercls=View, # type: ViewSubType **kwargs # type: Any ): # type: (...)->ViewInstance """ Query a pre-defined MapReduce view, passing parameters. This method executes a view on the cluster. It accepts various parameters for the view and returns an iterable object (specifically, a :class:`~.View`). :param string design: The design document :param string view: The view function contained within the design document :param boolean use_devmode: Whether the view name should be transformed into a development-mode view. See documentation on :meth:`~.BucketManager.design_create` for more explanation. :param kwargs: Extra arguments passed to the :class:`~.View` object constructor. :param kwargs: Additional parameters passed to the :class:`~.View` constructor. See that class' documentation for accepted parameters. .. seealso:: :class:`~.View` contains more extensive documentation and examples :class:`couchbase_core.views.params.Query` contains documentation on the available query options :class:`~.SpatialQuery` contains documentation on the available query options for Geospatial views. .. note:: To query a spatial view, you must explicitly use the :class:`.SpatialQuery`. Passing key-value view parameters in ``kwargs`` is not supported for spatial views. """ design = self._mk_devmode(design, use_devmode) return itercls(self, design, view, **kwargs) def ping(self, *options, **kwargs): """Ping cluster for latency/status information per-service Pings each node in the cluster, and returns a `dict` with 'type' keys (e.g 'n1ql', 'kv') and node service summary lists as a value. :raise: :exc:`.CouchbaseNetworkException` :return: `dict` where keys are stat keys and values are host-value pairs Ping cluster (works on couchbase buckets):: cb.ping() # {'services': {...}, ...} """ resultdict = self._ping(*options, **kwargs) if type(resultdict).__name__ == "AsyncResult": return resultdict return json.loads(resultdict['services_json']) def diagnostics(self, *options, **kwargs): """Request diagnostics report about network connections Generates diagnostics for each node in the cluster. It returns a `dict` with details :raise: :exc:`.CouchbaseNetworkException` :return: `dict` where keys are stat keys and values are host-value pairs Get health info (works on couchbase buckets):: cb.diagnostics() # { 'config': { 'id': node ID, 'last_activity_us': time since last activity in nanoseconds 'local': local server and port, 'remote': remote server and port, 'status': connection status } 'id': client ID, 'sdk': sdk version, 'version': diagnostics API version } """ return json.loads(self._diagnostics(*options, **kwargs)['health_json']) def analytics_query(self, query, *args, itercls=None, **kwargs): """ Execute an Analytics query. This method is mainly a wrapper around the :class:`~.AnalyticsQuery` and :class:`~.AnalyticsRequest` objects, which contain the inputs and outputs of the query. Using an explicit :class:`~.AnalyticsQuery`:: query = AnalyticsQuery( "SELECT VALUE bw FROM breweries bw WHERE bw.name = ?", "Kona Brewing") for row in cb.analytics_query(query, "127.0.0.1"): print('Entry: {0}'.format(row)) Using an implicit :class:`~.AnalyticsQuery`:: for row in cb.analytics_query( "SELECT VALUE bw FROM breweries bw WHERE bw.name = ?", "127.0.0.1", "Kona Brewing"): print('Entry: {0}'.format(row)) :param query: The query to execute. This may either be a :class:`.AnalyticsQuery` object, or a string (which will be implicitly converted to one). :param host: The host to send the request to. :param args: Positional arguments for :class:`.AnalyticsQuery`. :param kwargs: Named arguments for :class:`.AnalyticsQuery`. :return: An iterator which yields rows. Each row is a dictionary representing a single result """ if not isinstance(query, AnalyticsQuery): query = AnalyticsQuery(query, *args, **kwargs) else: query.update(*args, **kwargs) return query.gen_iter(self, itercls) @overload def upsert_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int persist_to=0, # type: int replicate_to=0, # type: int durability_level=None # type: Durability ): pass def upsert_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int **kwargs ): # type: (...) -> Result """ Write multiple items to the cluster. Multi version of :meth:`upsert` :param dict keys: A dictionary of keys to set. The keys are the keys as they should be on the server, and the values are the values for the keys to be stored. `keys` may also be a :class:`~.ItemCollection`. If using a dictionary variant for item collections, an additional `ignore_cas` parameter may be supplied with a boolean value. If not specified, the operation will fail if the CAS value on the server does not match the one specified in the `Item`'s `cas` field. :param int ttl: If specified, sets the expiry value for all keys :param int format: If specified, this is the conversion format which will be used for _all_ the keys. :param int persist_to: Durability constraint for persistence. Note that it is more efficient to use :meth:`endure_multi` on the returned :class:`~couchbase_core.result.MultiResult` than using these parameters for a high volume of keys. Using these parameters however does save on latency as the constraint checking for each item is performed as soon as it is successfully stored. :param int replicate_to: Durability constraints for replication. See notes on the `persist_to` parameter for usage. :param Durability durability_level: Sync replication durability level. You should either use this or the old-style durability params above, but not both. :return: A :class:`~.MultiResult` object, which is a `dict`-like object The multi methods are more than just a convenience, they also save on network performance by batch-scheduling operations, reducing latencies. This is especially noticeable on smaller value sizes. .. seealso:: :meth:`upsert` """ return _Base.upsert_multi(self, keys, ttl=ttl, format=format, **kwargs) def insert_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int persist_to=0, # type: int replicate_to=0, # type: int durability_level=Durability.NONE # type: Durability ): # type: (...) -> Result """Add multiple keys. Multi variant of :meth:`insert` .. seealso:: :meth:`insert`, :meth:`upsert_multi`, :meth:`upsert` """ return _Base.insert_multi(self, keys, ttl=ttl, format=format, persist_to=persist_to, replicate_to=replicate_to, durability_level=durability_level.value) def replace_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int persist_to=0, # type: int replicate_to=0, # type: int durability_level=Durability.NONE # type: Durability ): # type: (...) -> Result """ Replace multiple keys. Multi variant of :meth:`replace` :param dict keys: replacement entries :param int ttl: If specified, sets the expiry value for all keys :param int format: If specified, this is the conversion format which will be used for _all_ the keys. :param int persist_to: Durability constraint for persistence. Note that it is more efficient to use :meth:`endure_multi` on the returned :class:`~couchbase_core.result.MultiResult` than using these parameters for a high volume of keys. Using these parameters however does save on latency as the constraint checking for each item is performed as soon as it is successfully stored. :param int replicate_to: Durability constraints for replication. See notes on the `persist_to` parameter for usage. :param Durability durability_level: Sync replication durability level. You should either use this or the old-style durability params above, but not both. :return: .. seealso:: :meth:`replace`, :meth:`upsert_multi`, :meth:`upsert` """ return _Base.replace_multi(self, keys, ttl=ttl, format=format, persist_to=persist_to, replicate_to=replicate_to, durability_level=durability_level.value) def append_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int persist_to=0, # type: int replicate_to=0 # type: int ): # type: (...) -> Result """Append to multiple keys. Multi variant of :meth:`append`. .. warning:: If using the `Item` interface, use the :meth:`append_items` and :meth:`prepend_items` instead, as those will automatically update the :attr:`.Item.value` property upon successful completion. .. seealso:: :meth:`append`, :meth:`upsert_multi`, :meth:`upsert` """ return _Base.append_multi(self, keys, format=format, persist_to=persist_to, replicate_to=replicate_to) def prepend_multi(self, # type: Client keys, # type: Mapping[str,Any] ttl=0, # type: int format=None, # type: int persist_to=0, # type: int replicate_to=0 # type: int ): # type: (...) -> Result """Prepend to multiple keys. Multi variant of :meth:`prepend` .. seealso:: :meth:`prepend`, :meth:`upsert_multi`, :meth:`upsert` """ return _Base.prepend_multi(self, keys, format=format, persist_to=persist_to, replicate_to=replicate_to) def get_multi(self, # type: Client keys, # type: Iterable[str] ttl=0, # type: int quiet=None, # type: bool replica=False, # type: bool no_format=False # type: bool ): # type: (...) -> Result """Get multiple keys. Multi variant of :meth:`get` :param keys: keys the keys to fetch :type keys: :ref:`iterable<argtypes>` :param int ttl: Set the expiry for all keys when retrieving :param boolean replica: Whether the results should be obtained from a replica instead of the master. See :meth:`get` for more information about this parameter. :param Durability durability_level: Sync replication durability level. :return: A :class:`~.MultiResult` object. This is a dict-like object and contains the keys (passed as) `keys` as the dictionary keys, and :class:`~.Result` objects as values """ return _Base.get_multi(self, keys, ttl=ttl, quiet=quiet, replica=replica, no_format=no_format) def touch_multi(self, # type: Client keys, # type: Iterable[str] ttl=0, # type: int durability_level=Durability.NONE # type: Durability ): # type: (...) -> Result """Touch multiple keys. Multi variant of :meth:`touch` :param keys: the keys to touch :type keys: :ref:`iterable<argtypes>`. ``keys`` can also be a dictionary with values being integers, in which case the value for each key will be used as the TTL instead of the global one (i.e. the one passed to this function) :param int ttl: The new expiry time :param Durability durability_level: Sync replication durability level. :return: A :class:`~.MultiResult` object Update three keys to expire in 10 seconds :: cb.touch_multi(("key1", "key2", "key3"), ttl=10) Update three keys with different expiry times :: cb.touch_multi({"foo" : 1, "bar" : 5, "baz" : 10}) .. seealso:: :meth:`touch` """ return _Base.touch_multi( self, keys, ttl=ttl, durability_level=durability_level.value) def lock_multi(self, # type: Client keys, # type: Iterable[str] ttl=0 # type: int ): # type: (...) -> Result """Lock multiple keys. Multi variant of :meth:`lock` :param keys: the keys to lock :type keys: :ref:`iterable<argtypes>` :param int ttl: The lock timeout for all keys :return: a :class:`~.MultiResult` object .. seealso:: :meth:`lock` """ return _Base.lock_multi(self, keys, ttl=ttl) def unlock_multi(self, # type: Client keys # type: Iterable[str] ): # type: (...) -> Result """Unlock multiple keys. Multi variant of :meth:`unlock` :param dict keys: the keys to unlock :return: a :class:`~couchbase_core.result.MultiResult` object The value of the ``keys`` argument should be either the CAS, or a previously returned :class:`Result` object from a :meth:`lock` call. Effectively, this means you may pass a :class:`~.MultiResult` as the ``keys`` argument. Thus, you can do something like :: keys = (....) rvs = cb.lock_multi(keys, ttl=5) # do something with rvs cb.unlock_multi(rvs) .. seealso:: :meth:`unlock` """ return _Base.unlock_multi(self, keys)
[docs] def observe_multi(self, keys, master_only=False): """Multi-variant of :meth:`observe`""" return _Base.observe_multi(self, keys, master_only=master_only)
def endure_multi(self, keys, persist_to=-1, replicate_to=-1, timeout=5.0, interval=0.010, check_removed=False): """Check durability requirements for multiple keys :param keys: The keys to check The type of keys may be one of the following: * Sequence of keys * A :class:`~couchbase_core.result.MultiResult` object * A ``dict`` with CAS values as the dictionary value * A sequence of :class:`~couchbase_core.result.Result` objects :return: A :class:`~.MultiResult` object of :class:`~.OperationResult` items. .. seealso:: :meth:`endure` """ if not _LCB.PYCBC_ENDURE: raise NotImplementedInV3("Standalone endure") return _Base.endure_multi(self, keys, persist_to=persist_to, replicate_to=replicate_to, timeout=timeout, interval=interval, check_removed=check_removed) def remove_multi(self, kvs, quiet=None, durability_level=Durability.NONE, **kwargs): """Remove multiple items from the cluster :param kvs: Iterable of keys to delete from the cluster. If you wish to specify a CAS for each item, then you may pass a dictionary of keys mapping to cas, like `remove_multi({k1:cas1, k2:cas2}`) :param quiet: Whether an exception should be raised if one or more items were not found :return: A :class:`~.MultiResult` containing :class:`~.OperationResult` values. :param Durability durability_level: Sync replication durability level. """ return _Base.remove_multi( self, kvs, quiet=quiet, durability_level=durability_level.value, **kwargs) def counter_multi(self, kvs, initial=None, delta=1, ttl=0, durability_level=Durability.NONE): """Perform counter operations on multiple items :param kvs: Keys to operate on. See below for more options :param initial: Initial value to use for all keys. :param delta: Delta value for all keys. :param ttl: Expiration value to use for all keys :param Durability durability_level: Sync replication durability level. :return: A :class:`~.MultiResult` containing :class:`~.ValueResult` values The `kvs` can be a: - Iterable of keys .. code-block:: python cb.counter_multi((k1, k2)) - A dictionary mapping a key to its delta .. code-block:: python cb.counter_multi({ k1: 42, k2: 99 }) - A dictionary mapping a key to its additional options .. code-block:: python cb.counter_multi({ k1: {'delta': 42, 'initial': 9, 'ttl': 300}, k2: {'delta': 99, 'initial': 4, 'ttl': 700} }) When using a dictionary, you can override settings for each key on a per-key basis (for example, the initial value). Global settings (global here means something passed as a parameter to the method) will take effect for those values which do not have a given option specified. """ return _Base.counter_multi(self, kvs, initial=initial, delta=delta, ttl=ttl, durability_level=durability_level.value) @classmethod def _gen_memd_wrappers(cls, factory): return Client._gen_memd_wrappers_retarget(cls, factory) @staticmethod def _gen_memd_wrappers_retarget(cls, factory): """Generates wrappers for all the memcached operations. :param factory: A function to be called to return the wrapped method. It will be called with two arguments; the first is the unbound method being wrapped, and the second is the name of such a method. The factory shall return a new unbound method :return: A dictionary of names mapping the API calls to the wrapped functions """ d = {} for n in cls._MEMCACHED_OPERATIONS: if n in ['get_and_lock', 'get_and_touch'] and 'AsyncCBCollection' != cls.__name__: continue for variant in (n, n + "_multi"): try: d[variant] = factory(getattr(cls, variant), variant) except AttributeError: if n in cls._MEMCACHED_NOMULTI: continue raise return d def add_bucket_creds(self, bucket, password): if not bucket or not password: raise ValueError('Bucket and password must be nonempty') return _Base._add_creds(self, bucket, password)