faust.types.settings.settings
¶
- class faust.types.settings.settings.Settings(*args: Any, **kwargs: Any)[source]¶
-
- env: Mapping[str, str]¶
Environment. Defaults to
os.environ
.
- relative_to_appdir(path: Path) Path [source]¶
Prepare app directory path.
If path is absolute the path is returned as-is, but if path is relative it will be assumed to belong under the app directory.
- Return type:
- data_directory_for_version(version: int) Path [source]¶
Return the directory path for data belonging to specific version.
- Return type:
- property MY_SETTING¶
My custom setting.
To contribute new settings you only have to define a new setting decorated attribute here.
Look at the other settings for examples.
Remember that once you’ve added the setting you must also render the configuration reference:
$ make configref
- property autodiscover¶
Automatic discovery of agents, tasks, timers, views and commands.
Faust has an API to add different
asyncio
services and other user extensions, such as “Agents”, HTTP web views, command-line commands, and timers to your Faust workers. These can be defined in any module, so to discover them at startup, the worker needs to traverse packages looking for them.Warning
The autodiscovery functionality uses the https://pypi.org/project/Venusian/ library to scan wanted packages for
@app.agent
,@app.page
,@app.command
,@app.task
and@app.timer
decorators, but to do so, it’s required to traverse the package path and import every module in it.Importing random modules like this can be dangerous so make sure you follow Python programming best practices. Do not start threads; perform network I/O; do test monkey-patching for mocks or similar, as a side effect of importing a module. If you encounter a case such as this then please find a way to perform your action in a lazy manner.
Warning
If the above warning is something you cannot fix, or if it’s out of your control, then please set
autodiscover=False
and make sure the worker imports all modules where your decorators are defined.The value for this argument can be:
bool
If
App(autodiscover=True)
is set, the autodiscovery will scan the package name described in theorigin
attribute.The
origin
attribute is automatically set when you start a worker using the faust command line program, for example:faust -A example.simple worker
The
-A
, option specifies the app, but you can also create a shortcut entry point by callingapp.main()
:if __name__ == '__main__': app.main()
Then you can start the faust program by executing for example
python myscript.py worker --loglevel=INFO
, and it will use the correct application.Sequence[str]
The argument can also be a list of packages to scan:
app = App(..., autodiscover=['proj_orders', 'proj_accounts'])
Callable[[], Sequence[str]]
The argument can also be a function returning a list of packages to scan:
def get_all_packages_to_scan(): return ['proj_orders', 'proj_accounts'] app = App(..., autodiscover=get_all_packages_to_scan)
False
If everything you need is in a self-contained module, or you import the stuff you need manually, just set
autodiscover
to False and don’t worry about it :-)
Django
When using https://pypi.org/project/Django/ and the
DJANGO_SETTINGS_MODULE
environment variable is set, the Faust app will scan all packages found in theINSTALLED_APPS
setting.If you’re using Django you can use this to scan for agents/pages/commands in all packages defined in
INSTALLED_APPS
.Faust will automatically detect that you’re using Django and do the right thing if you do:
app = App(..., autodiscover=True)
It will find agents and other decorators in all of the reusable Django applications. If you want to manually control what packages are traversed, then provide a list:
app = App(..., autodiscover=['package1', 'package2'])
or if you want exactly
None
packages to be traversed, then provide a False:app = App(.., autodiscover=False)
which is the default, so you can simply omit the argument.
Tip
For manual control over autodiscovery, you can also call the
app.discover()
method manually.
- property datadir¶
Application data directory.
The directory in which this instance stores the data used by local tables, etc.
See also
The data directory can also be set using the
faust --datadir
option, from the command-line, so there is usually no reason to provide a default value when creating the app.
- property tabledir¶
Application table data directory.
The directory in which this instance stores local table data. Usually you will want to configure the
datadir
setting, but if you want to store tables separately you can configure this one.If the path provided is relative (it has no leading slash), then the path will be considered to be relative to the
datadir
setting.
- property debug¶
Use in development to expose sensor information endpoint.
Tip
If you want to enable the sensor statistics endpoint in production, without enabling the
debug
setting, you can do so by adding the following code:app.web.blueprints.add( '/stats/', 'faust.web.apps.stats:blueprint')
- property env_prefix¶
Environment variable prefix.
When configuring Faust by environent variables, this adds a common prefix to all Faust environment value names.
- property id_format¶
Application ID format template.
The format string used to generate the final
id
value by combining it with theversion
parameter.
- property origin¶
The reverse path used to find the app.
For example if the app is located in:
from myproj.app import app
Then the
origin
should be"myproj.app"
.The faust worker program will try to automatically set the origin, but if you are having problems with auto generated names then you can set origin manually.
- property timezone¶
Project timezone.
The timezone used for date-related functionality such as cronjobs.
- property version¶
App version.
Version of the app, that when changed will create a new isolated instance of the application. The first version is 1, the second version is 2, and so on.
Source topics will not be affected by a version change.
Faust applications will use two kinds of topics: source topics, and internally managed topics. The source topics are declared by the producer, and we do not have the opportunity to modify any configuration settings, like number of partitions for a source topic; we may only consume from them. To mark a topic as internal, use:
app.topic(..., internal=True)
.
- property agent_supervisor¶
Default agent supervisor type.
An agent may start multiple instances (actors) when the concurrency setting is higher than one (e.g.
@app.agent(concurrency=2)
).Multiple instances of the same agent are considered to be in the same supervisor group.
The default supervisor is the
mode.OneForOneSupervisor
: if an instance in the group crashes, we restart that instance only.These are the supervisors supported:
-
If an instance in the group crashes we restart only that instance.
-
If an instance in the group crashes we restart the whole group.
-
If an instance in the group crashes we stop the whole application, and exit so that the Operating System supervisor can restart us.
mode.ForfeitOneForOneSupervisor
If an instance in the group crashes we give up on that instance and never restart it again (until the program is restarted).
mode.ForfeitOneForAllSupervisor
If an instance in the group crashes we stop all instances in the group and never restarted them again (until the program is restarted).
-
- property blocking_timeout¶
Blocking timeout (in seconds).
When specified the worker will start a periodic signal based timer that only triggers when the loop has been blocked for a time exceeding this timeout.
This is the most safe way to detect blocking, but could have adverse effects on libraries that do not automatically retry interrupted system calls.
Python itself does retry all interrupted system calls since version 3.5 (see PEP 475), but this might not be the case with C extensions added to the worker by the user.
The blocking detector is a background thread that periodically wakes up to either arm a timer, or cancel an already armed timer. In pseudocode:
while True: # cancel previous alarm and arm new alarm signal.signal(signal.SIGALRM, on_alarm) signal.setitimer(signal.ITIMER_REAL, blocking_timeout) # sleep to wakeup just before the timeout await asyncio.sleep(blocking_timeout * 0.96) def on_alarm(signum, frame): logger.warning('Blocking detected: ...')
If the sleep does not wake up in time the alarm signal will be sent to the process and a traceback will be logged.
- property broker¶
Broker URL, or a list of alternative broker URLs.
Faust needs the URL of a “transport” to send and receive messages.
Currently, the only supported production transport is
kafka://
. This uses the https://pypi.org/project/aiokafka/ client under the hood, for consuming and producing messages.You can specify multiple hosts at the same time by separating them using the semi-comma:
kafka://kafka1.example.com:9092;kafka2.example.com:9092
Which in actual code looks like this:
BROKERS = 'kafka://kafka1.example.com:9092;kafka2.example.com:9092' app = faust.App( 'id', broker=BROKERS, )
You can also pass a list of URLs:
app = faust.App( 'id', broker=['kafka://kafka1.example.com:9092', 'kafka://kafka2.example.com:9092'], )
See also
You can configure the transport used for consuming and producing separately, by setting the
broker_consumer
andbroker_producer
settings.This setting is used as the default.
Available Transports
kafka://
Alias to
aiokafka://
aiokafka://
The recommended transport using the https://pypi.org/project/aiokafka/ client.
Limitations: None
- property broker_consumer¶
Consumer broker URL.
You can use this setting to configure the transport used for producing and consuming separately.
If not set the value found in
broker
will be used.
- property broker_producer¶
Producer broker URL.
You can use this setting to configure the transport used for producing and consuming separately.
If not set the value found in
broker
will be used.
- property broker_api_version¶
Broker API version,.
This setting is also the default for
consumer_api_version
, andproducer_api_version
.Negotiate producer protocol version.
The default value - “auto” means use the latest version supported by both client and server.
Any other version set means you are requesting a specific version of the protocol.
Example Kafka uses:
Disable sending headers for all messages produced
Kafka headers support was added in Kafka 0.11, so you can specify
broker_api_version="0.10"
to remove the headers from messages.
- property broker_check_crcs¶
Broker CRC check.
Automatically check the CRC32 of the records consumed.
- property broker_client_id¶
Broker client ID.
There is rarely any reason to configure this setting.
The client id is used to identify the software used, and is not usually configured by the user.
- property broker_commit_every¶
Broker commit message frequency.
Commit offset every n messages.
See also
broker_commit_interval
, which is how frequently we commit on a timer when there are few messages being received.
- property broker_commit_interval¶
Broker commit time frequency.
How often we commit messages that have been fully processed (acked).
- property broker_commit_livelock_soft_timeout¶
Commit livelock timeout.
How long time it takes before we warn that the Kafka commit offset has not advanced (only when processing messages).
- property broker_credentials¶
Broker authentication mechanism.
Specify the authentication mechanism to use when connecting to the broker.
The default is to not use any authentication.
- SASL Authentication
You can enable SASL authentication via plain text:
app = faust.App( broker_credentials=faust.SASLCredentials( username='x', password='y', ))
Warning
Do not use literal strings when specifying passwords in production, as they can remain visible in stack traces.
Instead the best practice is to get the password from a configuration file, or from the environment:
BROKER_USERNAME = os.environ.get('BROKER_USERNAME') BROKER_PASSWORD = os.environ.get('BROKER_PASSWORD') app = faust.App( broker_credentials=faust.SASLCredentials( username=BROKER_USERNAME, password=BROKER_PASSWORD, ))
- GSSAPI Authentication
GSSAPI authentication over plain text:
app = faust.App( broker_credentials=faust.GSSAPICredentials( kerberos_service_name='faust', kerberos_domain_name='example.com', ), )
GSSAPI authentication over SSL:
import ssl ssl_context = ssl.create_default_context( purpose=ssl.Purpose.SERVER_AUTH, cafile='ca.pem') ssl_context.load_cert_chain( 'client.cert', keyfile='client.key') app = faust.App( broker_credentials=faust.GSSAPICredentials( kerberos_service_name='faust', kerberos_domain_name='example.com', ssl_context=ssl_context, ), )
- SSL Authentication
Provide an SSL context for the Kafka broker connections.
This allows Faust to use a secure SSL/TLS connection for the Kafka connections and enabling certificate-based authentication.
import ssl ssl_context = ssl.create_default_context( purpose=ssl.Purpose.SERVER_AUTH, cafile='ca.pem') ssl_context.load_cert_chain( 'client.cert', keyfile='client.key') app = faust.App(..., broker_credentials=ssl_context)
- property broker_heartbeat_interval¶
Broker heartbeat interval.
How often we send heartbeats to the broker, and also how often we expect to receive heartbeats from the broker.
If any of these time out, you should increase this setting.
- property broker_max_poll_interval¶
Broker max poll interval.
The maximum allowed time (in seconds) between calls to consume messages If this interval is exceeded the consumer is considered failed and the group will rebalance in order to reassign the partitions to another consumer group member. If API methods block waiting for messages, that time does not count against this timeout.
See KIP-62 for technical details.
- property broker_max_poll_records¶
Broker max poll records.
The maximum number of records returned in a single call to
poll()
. If you find that your application needs more time to process messages you may want to adjustbroker_max_poll_records
to tune the number of records that must be handled on every loop iteration.
- property broker_rebalance_timeout¶
Broker rebalance timeout.
How long to wait for a node to finish rebalancing before the broker will consider it dysfunctional and remove it from the cluster.
Increase this if you experience the cluster being in a state of constantly rebalancing, but make sure you also increase the
broker_heartbeat_interval
at the same time.Note
The session timeout must not be greater than the
broker_request_timeout
.
- property broker_request_timeout¶
Kafka client request timeout.
Note
The request timeout must not be less than the
broker_session_timeout
.
- property broker_session_timeout¶
Broker session timeout.
How long to wait for a node to finish rebalancing before the broker will consider it dysfunctional and remove it from the cluster.
Increase this if you experience the cluster being in a state of constantly rebalancing, but make sure you also increase the
broker_heartbeat_interval
at the same time.Note
The session timeout must not be greater than the
broker_request_timeout
.
- property ssl_context¶
SSL configuration.
See
credentials
.
- property consumer_api_version¶
Consumer API version.
Configures the broker API version to use for consumers. See
broker_api_version
for more information.
- property consumer_max_fetch_size¶
Consumer max fetch size.
The maximum amount of data per-partition the server will return. This size must be at least as large as the maximum message size.
Note: This is PER PARTITION, so a limit of 1Mb when your workers consume from 10 topics having 100 partitions each, means a fetch request can be up to a gigabyte (10 * 100 * 1Mb), This limit being too generous may cause rebalancing issues: if the amount of time required to flush pending data stuck in socket buffers exceed the rebalancing timeout.
You must keep this limit low enough to account for many partitions being assigned to a single node.
- property consumer_auto_offset_reset¶
Consumer auto offset reset.
Where the consumer should start reading messages from when there is no initial offset, or the stored offset no longer exists, e.g. when starting a new consumer for the first time.
Options include ‘earliest’, ‘latest’, ‘none’.
- property consumer_group_instance_id¶
Consumer group instance id.
The group_instance_id for static partition assignment.
If not set, default assignment strategy is used. Otherwise, each consumer instance has to have a unique id.
- property consumer_metadata_max_age_ms¶
Consumer metadata max age milliseconds
The period of time in milliseconds after which we force a refresh of metadata even if we haven’t seen any partition leadership changes to proactively discover any new brokers or partitions.
Default: 300000
- property consumer_connections_max_idle_ms¶
Consumer connections max idle milliseconds.
Close idle connections after the number of milliseconds specified by this config.
Default: 540000 (9 minutes).
- property key_serializer¶
Default key serializer.
Serializer used for keys by default when no serializer is specified, or a model is not being used.
This can be the name of a serializer/codec, or an actual
faust.serializers.codecs.Codec
instance.See also
The Codecs section in the model guide – for more information about codecs.
- property value_serializer¶
Default value serializer.
Serializer used for values by default when no serializer is specified, or a model is not being used.
This can be string, the name of a serializer/codec, or an actual
faust.serializers.codecs.Codec
instance.See also
The Codecs section in the model guide – for more information about codecs.
- property logging_config¶
Logging dictionary configuration.
Optional dictionary for logging configuration, as supported by
logging.config.dictConfig()
.
- property loghandlers¶
List of custom logging handlers.
Specify a list of custom log handlers to use in worker instances.
- property producer_acks¶
Producer Acks.
The number of acknowledgments the producer requires the leader to have received before considering a request complete. This controls the durability of records that are sent. The following settings are common:
0
: Producer will not wait for any acknowledgment fromthe server at all. The message will immediately be considered sent (Not recommended).
1
: The broker leader will write the record to its locallog but will respond without awaiting full acknowledgment from all followers. In this case should the leader fail immediately after acknowledging the record but before the followers have replicated it then the record will be lost.
-1
: The broker leader will wait for the full set of in-syncreplicas to acknowledge the record. This guarantees that the record will not be lost as long as at least one in-sync replica remains alive. This is the strongest available guarantee.
- property producer_api_version¶
Producer API version.
Configures the broker API version to use for producers. See
broker_api_version
for more information.
- property producer_compression_type¶
Producer compression type.
The compression type for all data generated by the producer. Valid values are gzip, snappy, lz4, or
None
.
- property producer_linger¶
Producer batch linger configuration.
Minimum time to batch before sending out messages from the producer.
Should rarely have to change this.
- property producer_max_batch_size¶
Producer max batch size.
Max size of each producer batch, in bytes.
- property producer_max_request_size¶
Producer maximum request size.
Maximum size of a request in bytes in the producer.
Should rarely have to change this.
- property producer_partitioner¶
Producer partitioning strategy.
The Kafka producer can be configured with a custom partitioner to change how keys are partitioned when producing to topics.
The default partitioner for Kafka is implemented as follows, and can be used as a template for your own partitioner:
import random from typing import List from kafka.partitioner.hashed import murmur2 def partition(key: bytes, all_partitions: List[int], available: List[int]) -> int: '''Default partitioner. Hashes key to partition using murmur2 hashing (from java client) If key is None, selects partition randomly from available, or from all partitions if none are currently available Arguments: key: partitioning key all_partitions: list of all partitions sorted by partition ID. available: list of available partitions in no particular order Returns: int: one of the values from ``all_partitions`` or ``available``. ''' if key is None: source = available if available else all_paritions return random.choice(source) index: int = murmur2(key) index &= 0x7fffffff index %= len(all_partitions) return all_partitions[index]
- property producer_request_timeout¶
Producer request timeout.
Timeout for producer operations. This is set high by default, as this is also the time when producer batches expire and will no longer be retried.
- property producer_threaded¶
Thread separate producer for send_soon.
If True, spin up a different producer in a different thread to be used for messages buffered up for producing via send_soon function.
- property producer_metadata_max_age_ms¶
Producer metadata max age milliseconds
The period of time in milliseconds after which we force a refresh of metadata even if we haven’t seen any partition leadership changes to proactively discover any new brokers or partitions.
Default: 300000
- property producer_connections_max_idle_ms¶
Producer connections max idle milliseconds.
Close idle connections after the number of milliseconds specified by this config.
Default: 540000 (9 minutes).
- property recovery_consistency_check¶
Check Kafka and local offsets for consistency.
If True, assert that Kafka highwater offsets >= local offset in the rocksdb state storee
- property store_check_exists¶
Execute exists on the underlying store.
If True, executes exists on the underlying store. If False client has to catch KeyError
- property crash_app_on_aerospike_exception¶
Crashes the app on an aerospike Exceptions.
If True, crashes the app and prevents the commit offset on progressing. If False client has to catch the Error and implement a dead letter queue
- property aerospike_retries_on_exception¶
Number of retries to aerospike on a runtime error from the aerospike client.
Set this to the number of retries using the aerospike client on a runtime Exception thrown by the client
- property aerospike_sleep_seconds_between_retries_on_exception¶
Seconds to sleep between retries to aerospike on a runtime error from the aerospike client.
Set this to the sleep in seconds between retries using the aerospike client on a runtime Exception thrown by the client
- property reply_create_topic¶
Automatically create reply topics.
Set this to
True
if you plan on using the RPC with agents.This will create the internal topic used for RPC replies on that instance at startup.
- property reply_expires¶
RPC reply expiry time in seconds.
The expiry time (in seconds
float
, ortimedelta
), for how long replies will stay in the instances local reply topic before being removed.
- property reply_to¶
Reply to address.
The name of the reply topic used by this instance. If not set one will be automatically generated when the app is created.
- property reply_to_prefix¶
Reply address topic name prefix.
The prefix used when generating reply topic names.
- property processing_guarantee¶
The processing guarantee that should be used.
Possible values are “at_least_once” (default) and “exactly_once”.
Note that if exactly-once processing is enabled consumers are configured with
isolation.level="read_committed"
and producers are configured withretries=Integer.MAX_VALUE
andenable.idempotence=true
per default.Note that by default exactly-once processing requires a cluster of at least three brokers what is the recommended setting for production. For development you can change this, by adjusting broker setting
transaction.state.log.replication.factor
to the number of brokers you want to use.
- property stream_buffer_maxsize¶
Stream buffer maximum size.
This setting control back pressure to streams and agents reading from streams.
If set to 4096 (default) this means that an agent can only keep at most 4096 unprocessed items in the stream buffer.
Essentially this will limit the number of messages a stream can “prefetch”.
Higher numbers gives better throughput, but do note that if your agent sends messages or update tables (which sends changelog messages).
This means that if the buffer size is large, the
broker_commit_interval
orbroker_commit_every
settings must be set to commit frequently, avoiding back pressure from building up.A buffer size of 131_072 may let you process over 30,000 events a second as a baseline, but be careful with a buffer size that large when you also send messages or update tables.
- property stream_processing_timeout¶
Stream processing timeout.
Timeout (in seconds) for processing events in the stream. If processing of a single event exceeds this time we log an error, but do not stop processing.
If you are seeing a warning like this you should either
- increase this timeout to allow agents to spend more time
on a single event, or
- add a timeout to the operation in the agent, so stream processing
always completes before the timeout.
The latter is preferred for network operations such as web requests. If a network service you depend on is temporarily offline you should consider doing retries (send to separate topic):
main_topic = app.topic('main') deadletter_topic = app.topic('main_deadletter') async def send_request(value, timeout: Optional[float] = None) -> None: await app.http_client.get('http://foo.com', timeout=timeout) @app.agent(main_topic) async def main(stream): async for value in stream: try: await send_request(value, timeout=5) except asyncio.TimeoutError: await deadletter_topic.send(value) @app.agent(deadletter_topic) async def main_deadletter(stream): async for value in stream: # wait for 30 seconds before retrying. await stream.sleep(30) await send_request(value)
- property stream_publish_on_commit¶
Stream delay producing until commit time.
If enabled we buffer up sending messages until the source topic offset related to that processing is committed. This means when we do commit, we may have buffered up a LOT of messages so commit needs to happen frequently (make sure to decrease
broker_commit_every
).
- property stream_recovery_delay¶
Stream recovery delayl
Number of seconds to sleep before continuing after rebalance. We wait for a bit to allow for more nodes to join/leave before starting recovery tables and then processing streams. This to minimize the chance of errors rebalancing loops.
- property stream_wait_empty¶
Stream wait empty.
This setting controls whether the worker should wait for the currently processing task in an agent to complete before rebalancing or shutting down.
On rebalance/shut down we clear the stream buffers. Those events will be reprocessed after the rebalance anyway, but we may have already started processing one event in every agent, and if we rebalance we will process that event again.
By default we will wait for the currently active tasks, but if your streams are idempotent you can disable it using this setting.
- property store¶
Table storage backend URL.
The backend used for table storage.
Tables are stored in-memory by default, but you should not use the
memory://
store in production.In production, a persistent table store, such as
rocksdb://
is preferred.
- property table_cleanup_interval¶
Table cleanup interval.
How often we cleanup tables to remove expired entries.
- property table_key_index_size¶
Table key index size.
Tables keep a cache of key to partition number to speed up table lookups.
This setting configures the maximum size of that cache.
- property table_standby_replicas¶
Table standby replicas.
The number of standby replicas for each table.
- property topic_allow_declare¶
Allow creating new topics.
This setting disables the creation of internal topics.
Faust will only create topics that it considers to be fully owned and managed, such as intermediate repartition topics, table changelog topics etc.
Some Kafka managers does not allow services to create topics, in that case you should set this to
False
.
- property topic_disable_leader¶
Disable leader election topic.
This setting disables the creation of the leader election topic.
If you’re not using the
on_leader=True
argument to task/timer/etc., decorators then use this setting to disable creation of the topic.
- property topic_partitions¶
Topic partitions.
Default number of partitions for new topics.
Note
This defines the maximum number of workers we could distribute the workload of the application (also sometimes referred as the sharding factor of the application).
- property topic_replication_factor¶
Topic replication factor.
The default replication factor for topics created by the application.
Note
Generally this should be the same as the configured replication factor for your Kafka cluster.
- property cache¶
Cache backend URL.
Optional backend used for Memcached-style caching. URL can be:
redis://host
rediscluster://host
, ormemory://
.
- property web¶
Web server driver to use.
- property web_bind¶
Web network interface binding mask.
The IP network address mask that decides what interfaces the web server will bind to.
By default this will bind to all interfaces.
This option is usually set by
faust worker --web-bind
, not by passing it as a keyword argument toapp
.
- property web_cors_options¶
Cross Origin Resource Sharing options.
Enable Cross-Origin Resource Sharing options for all web views in the internal web server.
This should be specified as a dictionary of URLs to
ResourceOptions
:app = App(..., web_cors_options={ 'http://foo.example.com': ResourceOptions( allow_credentials=True, allow_methods='*'k, ) })
Individual views may override the CORS options used as arguments to to
@app.page
andblueprint.route
.
- property web_enabled¶
Enable/disable internal web server.
Enable web server and other web components.
This option can also be set using
faust worker --without-web
.
- property web_host¶
Web server host name.
Hostname used to access this web server, used for generating the
canonical_url
setting.This option is usually set by
faust worker --web-host
, not by passing it as a keyword argument toapp
.
- property web_in_thread¶
Run the web server in a separate thread.
Use this if you have a large value for
stream_buffer_maxsize
and want the web server to be responsive when the worker is otherwise busy processing streams.Note
Running the web server in a separate thread means web views and agents will not share the same event loop.
- property web_port¶
Web server port.
A port number between 1024 and 65535 to use for the web server.
This option is usually set by
faust worker --web-port
, not by passing it as a keyword argument toapp
.
- property web_ssl_context¶
Web server SSL configuration.
See
credentials
.
- property web_transport¶
Network transport used for the web server.
Default is to use TCP, but this setting also enables you to use Unix domainN sockets. To use domain sockets specify an URL including the path to the file you want to create like this:
unix:///tmp/server.sock
This will create a new domain socket available in
/tmp/server.sock
.
- property canonical_url¶
Node specific canonical URL.
You shouldn’t have to set this manually.
The canonical URL defines how to reach the web server on a running worker node, and is usually set by combining the
web_host
andweb_port
settings.
- property worker_redirect_stdouts¶
Redirecting standard outputs.
Enable to have the worker redirect output to
sys.stdout
andsys.stderr
to the Python logging system.Enabled by default.
- property worker_redirect_stdouts_level¶
Level used when redirecting standard outputs.
The logging level to use when redirect STDOUT/STDERR to logging.
- property Agent¶
Agent class type.
The
Agent
class to use for agents, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyAgent(faust.Agent): ... app = App(..., Agent=MyAgent)
Example using the string path to a class:
app = App(..., Agent='myproj.agents.Agent')
- property ConsumerScheduler¶
Consumer scheduler class.
A strategy which dictates the priority of topics and partitions for incoming records. The default strategy does first round-robin over topics and then round-robin over partitions.
Example using a class:
class MySchedulingStrategy(DefaultSchedulingStrategy): ... app = App(..., ConsumerScheduler=MySchedulingStrategy)
Example using the string path to a class:
app = App(..., ConsumerScheduler='myproj.MySchedulingStrategy')
- property Event¶
Event class type.
The
Event
class to use for creating new event objects, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseEvent(faust.Event): ... app = App(..., Event=MyBaseEvent)
Example using the string path to a class:
app = App(..., Event='myproj.events.Event')
- property Schema¶
Schema class type.
The
Schema
class to use as the default schema type when no schema specified. or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseSchema(faust.Schema): ... app = App(..., Schema=MyBaseSchema)
Example using the string path to a class:
app = App(..., Schema='myproj.schemas.Schema')
- property Stream¶
Stream class type.
The
Stream
class to use for streams, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseStream(faust.Stream): ... app = App(..., Stream=MyBaseStream)
Example using the string path to a class:
app = App(..., Stream='myproj.streams.Stream')
- property Table¶
Table class type.
The
Table
class to use for tables, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseTable(faust.Table): ... app = App(..., Table=MyBaseTable)
Example using the string path to a class:
app = App(..., Table='myproj.tables.Table')
- property SetTable¶
SetTable extension table.
The
SetTable
class to use for table-of-set tables, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MySetTable(faust.SetTable): ... app = App(..., Table=MySetTable)
Example using the string path to a class:
app = App(..., Table='myproj.tables.MySetTable')
- property GlobalTable¶
GlobalTable class type.
The
GlobalTable
class to use for tables, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseGlobalTable(faust.GlobalTable): ... app = App(..., GlobalTable=MyBaseGlobalTable)
Example using the string path to a class:
app = App(..., GlobalTable='myproj.tables.GlobalTable')
- property SetGlobalTable¶
SetGlobalTable class type.
The
SetGlobalTable
class to use for tables, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
class MyBaseSetGlobalTable(faust.SetGlobalTable): ... app = App(..., SetGlobalTable=MyBaseGlobalSetTable)
Example using the string path to a class:
app = App(..., SetGlobalTable='myproj.tables.SetGlobalTable')
- property TableManager¶
Table manager class type.
The
TableManager
used for managing tables, or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
from faust.tables import TableManager class MyTableManager(TableManager): ... app = App(..., TableManager=MyTableManager)
Example using the string path to a class:
app = App(..., TableManager='myproj.tables.TableManager')
- property Serializers¶
Serializer registry class type.
The
Registry
class used for serializing/deserializing messages; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
from faust.serialiers import Registry class MyRegistry(Registry): ... app = App(..., Serializers=MyRegistry)
Example using the string path to a class:
app = App(..., Serializers='myproj.serializers.Registry')
- property Worker¶
Worker class type.
The
Worker
class used for starting a worker for this app; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
import faust class MyWorker(faust.Worker): ... app = faust.App(..., Worker=Worker)
Example using the string path to a class:
app = faust.App(..., Worker='myproj.workers.Worker')
- property PartitionAssignor¶
Partition assignor class type.
The
PartitionAssignor
class used for assigning topic partitions to worker instances; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
from faust.assignor import PartitionAssignor class MyPartitionAssignor(PartitionAssignor): ... app = App(..., PartitionAssignor=PartitionAssignor)
Example using the string path to a class:
app = App(..., Worker='myproj.assignor.PartitionAssignor')
- property LeaderAssignor¶
Leader assignor class type.
The
LeaderAssignor
class used for assigning a master Faust instance for the app; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
from faust.assignor import LeaderAssignor class MyLeaderAssignor(LeaderAssignor): ... app = App(..., LeaderAssignor=LeaderAssignor)
Example using the string path to a class:
app = App(..., Worker='myproj.assignor.LeaderAssignor')
- property Router¶
Router class type.
The
Router
class used for routing requests to a worker instance having the partition for a specific key (e.g. table key); or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
from faust.router import Router class MyRouter(Router): ... app = App(..., Router=Router)
Example using the string path to a class:
app = App(..., Router='myproj.routers.Router')
- property Topic¶
Topic class type.
The
Topic
class used for defining new topics; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
import faust class MyTopic(faust.Topic): ... app = faust.App(..., Topic=MyTopic)
Example using the string path to a class:
app = faust.App(..., Topic='myproj.topics.Topic')
- property HttpClient¶
Http client class type
The
aiohttp.client.ClientSession
class used as a HTTP client; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
import faust from aiohttp.client import ClientSession class HttpClient(ClientSession): ... app = faust.App(..., HttpClient=HttpClient)
Example using the string path to a class:
app = faust.App(..., HttpClient='myproj.http.HttpClient')
- property Monitor¶
Monitor sensor class type.
The
Monitor
class as the main sensor gathering statistics for the application; or the fully-qualified path to one (supported bysymbol_by_name()
).Example using a class:
import faust from faust.sensors import Monitor class MyMonitor(Monitor): ... app = faust.App(..., Monitor=MyMonitor)
Example using the string path to a class:
app = faust.App(..., Monitor='myproj.monitors.Monitor')
- property stream_ack_cancelled_tasks¶
Deprecated setting has no effect.
- property stream_ack_exceptions¶
Deprecated setting has no effect.
- SETTINGS: ClassVar[SettingIndexMapping] = {'Agent': <faust.types.settings.params._Symbol object>, 'ConsumerScheduler': <faust.types.settings.params._Symbol object>, 'Event': <faust.types.settings.params._Symbol object>, 'GlobalTable': <faust.types.settings.params._Symbol object>, 'HttpClient': <faust.types.settings.params._Symbol object>, 'LeaderAssignor': <faust.types.settings.params._Symbol object>, 'Monitor': <faust.types.settings.params._Symbol object>, 'PartitionAssignor': <faust.types.settings.params._Symbol object>, 'Router': <faust.types.settings.params._Symbol object>, 'Schema': <faust.types.settings.params._Symbol object>, 'Serializers': <faust.types.settings.params._Symbol object>, 'SetGlobalTable': <faust.types.settings.params._Symbol object>, 'SetTable': <faust.types.settings.params._Symbol object>, 'Stream': <faust.types.settings.params._Symbol object>, 'Table': <faust.types.settings.params._Symbol object>, 'TableManager': <faust.types.settings.params._Symbol object>, 'Topic': <faust.types.settings.params._Symbol object>, 'Worker': <faust.types.settings.params._Symbol object>, 'aerospike_retries_on_exception': <faust.types.settings.params.Int object>, 'aerospike_sleep_seconds_between_retries_on_exception': <faust.types.settings.params.Int object>, 'agent_supervisor': <faust.types.settings.params._Symbol object>, 'autodiscover': <faust.types.settings.params.Param object>, 'blocking_timeout': <faust.types.settings.params.Seconds object>, 'broker': <faust.types.settings.params.BrokerList object>, 'broker_api_version': <faust.types.settings.params.Str object>, 'broker_check_crcs': <faust.types.settings.params.Bool object>, 'broker_client_id': <faust.types.settings.params.Str object>, 'broker_commit_every': <faust.types.settings.params.UnsignedInt object>, 'broker_commit_interval': <faust.types.settings.params.Seconds object>, 'broker_commit_livelock_soft_timeout': <faust.types.settings.params.Seconds object>, 'broker_consumer': <faust.types.settings.params.BrokerList object>, 'broker_credentials': <faust.types.settings.params.Credentials object>, 'broker_heartbeat_interval': <faust.types.settings.params.Seconds object>, 'broker_max_poll_interval': <faust.types.settings.params.Seconds object>, 'broker_max_poll_records': <faust.types.settings.params.UnsignedInt object>, 'broker_producer': <faust.types.settings.params.BrokerList object>, 'broker_rebalance_timeout': <faust.types.settings.params.Seconds object>, 'broker_request_timeout': <faust.types.settings.params.Seconds object>, 'broker_session_timeout': <faust.types.settings.params.Seconds object>, 'cache': <faust.types.settings.params.URL object>, 'canonical_url': <faust.types.settings.params.URL object>, 'consumer_api_version': <faust.types.settings.params.Str object>, 'consumer_auto_offset_reset': <faust.types.settings.params.Str object>, 'consumer_connections_max_idle_ms': <faust.types.settings.params.Int object>, 'consumer_group_instance_id': <faust.types.settings.params.Str object>, 'consumer_max_fetch_size': <faust.types.settings.params.UnsignedInt object>, 'consumer_metadata_max_age_ms': <faust.types.settings.params.Int object>, 'crash_app_on_aerospike_exception': <faust.types.settings.params.Bool object>, 'datadir': <faust.types.settings.params.Path object>, 'debug': <faust.types.settings.params.Bool object>, 'env_prefix': <faust.types.settings.params.Str object>, 'id_format': <faust.types.settings.params.Str object>, 'key_serializer': <faust.types.settings.params.Codec object>, 'logging_config': <faust.types.settings.params.Dict object>, 'loghandlers': <faust.types.settings.params.LogHandlers object>, 'origin': <faust.types.settings.params.Str object>, 'processing_guarantee': <faust.types.settings.params.Enum.<locals>.EnumParam object>, 'producer_acks': <faust.types.settings.params.Int object>, 'producer_api_version': <faust.types.settings.params.Str object>, 'producer_compression_type': <faust.types.settings.params.Str object>, 'producer_connections_max_idle_ms': <faust.types.settings.params.Int object>, 'producer_linger': <faust.types.settings.params.Seconds object>, 'producer_linger_ms': <faust.types.settings.params.UnsignedInt object>, 'producer_max_batch_size': <faust.types.settings.params.UnsignedInt object>, 'producer_max_request_size': <faust.types.settings.params.UnsignedInt object>, 'producer_metadata_max_age_ms': <faust.types.settings.params.Int object>, 'producer_partitioner': <faust.types.settings.params._Symbol object>, 'producer_request_timeout': <faust.types.settings.params.Seconds object>, 'producer_threaded': <faust.types.settings.params.Bool object>, 'recovery_consistency_check': <faust.types.settings.params.Bool object>, 'reply_create_topic': <faust.types.settings.params.Bool object>, 'reply_expires': <faust.types.settings.params.Seconds object>, 'reply_to': <faust.types.settings.params.Str object>, 'reply_to_prefix': <faust.types.settings.params.Str object>, 'ssl_context': <faust.types.settings.params.SSLContext object>, 'store': <faust.types.settings.params.URL object>, 'store_check_exists': <faust.types.settings.params.Bool object>, 'stream_ack_cancelled_tasks': <faust.types.settings.params.Bool object>, 'stream_ack_exceptions': <faust.types.settings.params.Bool object>, 'stream_buffer_maxsize': <faust.types.settings.params.UnsignedInt object>, 'stream_processing_timeout': <faust.types.settings.params.Seconds object>, 'stream_publish_on_commit': <faust.types.settings.params.Bool object>, 'stream_recovery_delay': <faust.types.settings.params.Seconds object>, 'stream_wait_empty': <faust.types.settings.params.Bool object>, 'table_cleanup_interval': <faust.types.settings.params.Seconds object>, 'table_key_index_size': <faust.types.settings.params.UnsignedInt object>, 'table_standby_replicas': <faust.types.settings.params.UnsignedInt object>, 'tabledir': <faust.types.settings.params.Path object>, 'timezone': <faust.types.settings.params.Timezone object>, 'topic_allow_declare': <faust.types.settings.params.Bool object>, 'topic_disable_leader': <faust.types.settings.params.Bool object>, 'topic_partitions': <faust.types.settings.params.UnsignedInt object>, 'topic_replication_factor': <faust.types.settings.params.UnsignedInt object>, 'url': <faust.types.settings.params.URL object>, 'value_serializer': <faust.types.settings.params.Codec object>, 'version': <faust.types.settings.params.Int object>, 'web': <faust.types.settings.params.URL object>, 'web_bind': <faust.types.settings.params.Str object>, 'web_cors_options': <faust.types.settings.params.Dict object>, 'web_enabled': <faust.types.settings.params.Bool object>, 'web_host': <faust.types.settings.params.Str object>, 'web_in_thread': <faust.types.settings.params.Bool object>, 'web_port': <faust.types.settings.params.Port object>, 'web_ssl_context': <faust.types.settings.params.SSLContext object>, 'web_transport': <faust.types.settings.params.URL object>, 'worker_redirect_stdouts': <faust.types.settings.params.Bool object>, 'worker_redirect_stdouts_level': <faust.types.settings.params.Severity object>}¶
Index of all settings by name.
- SETTINGS_BY_SECTION: ClassVar[SettingSectionIndexMapping] = defaultdict(<class 'list'>, {<Section: SectionType.COMMON>: [<faust.types.settings.params.Param object>, <faust.types.settings.params.Path object>, <faust.types.settings.params.Path object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Timezone object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.BrokerList object>, <faust.types.settings.params.Credentials object>, <faust.types.settings.params.SSLContext object>, <faust.types.settings.params.Dict object>, <faust.types.settings.params.LogHandlers object>, <faust.types.settings.params.Enum.<locals>.EnumParam object>, <faust.types.settings.params.URL object>, <faust.types.settings.params.URL object>, <faust.types.settings.params.URL object>], <Section: SectionType.AGENT>: [<faust.types.settings.params._Symbol object>], <Section: SectionType.BROKER>: [<faust.types.settings.params.BrokerList object>, <faust.types.settings.params.BrokerList object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Seconds object>], <Section: SectionType.CONSUMER>: [<faust.types.settings.params.Str object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.Int object>, <faust.types.settings.params._Symbol object>], <Section: SectionType.SERIALIZATION>: [<faust.types.settings.params.Codec object>, <faust.types.settings.params.Codec object>], <Section: SectionType.PRODUCER>: [<faust.types.settings.params.Int object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.UnsignedInt object>], <Section: SectionType.STREAM>: [<faust.types.settings.params.Bool object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.Int object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Bool object>], <Section: SectionType.RPC>: [<faust.types.settings.params.Bool object>, <faust.types.settings.params.Seconds object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Str object>], <Section: SectionType.TABLE>: [<faust.types.settings.params.Seconds object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.UnsignedInt object>], <Section: SectionType.TOPIC>: [<faust.types.settings.params.Bool object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.UnsignedInt object>, <faust.types.settings.params.UnsignedInt object>], <Section: SectionType.WEB_SERVER>: [<faust.types.settings.params.URL object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Dict object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Str object>, <faust.types.settings.params.Bool object>, <faust.types.settings.params.Port object>, <faust.types.settings.params.SSLContext object>, <faust.types.settings.params.URL object>, <faust.types.settings.params.URL object>], <Section: SectionType.WORKER>: [<faust.types.settings.params.Bool object>, <faust.types.settings.params.Severity object>], <Section: SectionType.EXTENSION>: [<faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>, <faust.types.settings.params._Symbol object>]})¶
Index of all sections and the settings in a section.
- property producer_linger_ms¶
Deprecated setting, please use
producer_linger
instead.This used to be provided as milliseconds, the new setting uses seconds.