Refactor rate limit handling (#280)

* - Refactored retry for rate limits into the base class - ConsumerProducer is derived from Consumer to simplify code - Added rate_limit_count metrics for rate limit events * Add rate limit events to VertexAI and Google AI Studio * Added Grafana rate limit dashboard * Add rate limit handling to all LLMs
2026-04-26 17:06:22 +02:00 · 2025-01-27 17:04:49 +00:00 · 2025-01-27 17:04:49 +00:00 · 0e03bc05a4
commit 0e03bc05a4
parent 26a586034c
14 changed files with 174 additions and 298 deletions
--- a/trustgraph-base/trustgraph/base/consumer.py
+++ b/trustgraph-base/trustgraph/base/consumer.py
@ -7,6 +7,9 @@ import time
 from . base_processor import BaseProcessor
 from .. exceptions import TooManyRequests

+default_rate_limit_retry = 10
+default_rate_limit_timeout = 7200
+
 class Consumer(BaseProcessor):

    def __init__(self, **params):
@ -22,11 +25,18 @@ class Consumer(BaseProcessor):

        super(Consumer, self).__init__(**params)

-        input_queue = params.get("input_queue")
-        subscriber = params.get("subscriber")
-        input_schema = params.get("input_schema")
+        self.input_queue = params.get("input_queue")
+        self.subscriber = params.get("subscriber")
+        self.input_schema = params.get("input_schema")

-        if input_schema == None:
+        self.rate_limit_retry = params.get(
+            "rate_limit_retry", default_rate_limit_retry
+        )
+        self.rate_limit_timeout = params.get(
+            "rate_limit_timeout", default_rate_limit_timeout
+        )
+
+        if self.input_schema == None:
            raise RuntimeError("input_schema must be specified")

        if not hasattr(__class__, "request_metric"):
@ -44,18 +54,27 @@ class Consumer(BaseProcessor):
                'processing_count', 'Processing count', ["status"]
            )

+        if not hasattr(__class__, "rate_limit_metric"):
+            __class__.rate_limit_metric = Counter(
+                'rate_limit_count', 'Rate limit event count',
+            )
+
        __class__.pubsub_metric.info({
-            "input_queue": input_queue,
-            "subscriber": subscriber,
-            "input_schema": input_schema.__name__,
+            "input_queue": self.input_queue,
+            "subscriber": self.subscriber,
+            "input_schema": self.input_schema.__name__,
+            "rate_limit_retry": str(self.rate_limit_retry),
+            "rate_limit_timeout": str(self.rate_limit_timeout),
        })

        self.consumer = self.client.subscribe(
-            input_queue, subscriber,
+            self.input_queue, self.subscriber,
            consumer_type=pulsar.ConsumerType.Shared,
-            schema=JsonSchema(input_schema),
+            schema=JsonSchema(self.input_schema),
        )

+        print("Initialised consumer.", flush=True)
+
    def run(self):

        __class__.state_metric.state('running')
@ -64,31 +83,61 @@ class Consumer(BaseProcessor):

            msg = self.consumer.receive()

-            try:
+            expiry = time.time() + self.rate_limit_timeout

-                with __class__.request_metric.time():
-                    self.handle(msg)
+            # This loop is for retry on rate-limit / resource limits
+            while True:

-                # Acknowledge successful processing of the message
-                self.consumer.acknowledge(msg)
+                if time.time() > expiry:

-                __class__.processing_metric.labels(status="success").inc()
+                    print("Gave up waiting for rate-limit retry", flush=True)

-            except TooManyRequests:
-                self.consumer.negative_acknowledge(msg)
-                print("TooManyRequests: will retry")
-                __class__.processing_metric.labels(status="rate-limit").inc()
-                time.sleep(5)
-                continue
+                    # Message failed to be processed, this causes it to
+                    # be retried
+                    self.consumer.negative_acknowledge(msg)
+
+                    __class__.processing_metric.labels(status="error").inc()
+
+                    # Break out of retry loop, processes next message
+                    break
+
+                try:
+
+                    with __class__.request_metric.time():
+                        self.handle(msg)
+
+                    # Acknowledge successful processing of the message
+                    self.consumer.acknowledge(msg)
+
+                    __class__.processing_metric.labels(status="success").inc()
+
+                    # Break out of retry loop
+                    break
+
+                except TooManyRequests:
+
+                    print("TooManyRequests: will retry...", flush=True)
+
+                    __class__.rate_limit_metric.inc()
+
+                    # Sleep
+                    time.sleep(self.rate_limit_retry)
+
+                    # Contine from retry loop, just causes a reprocessing
+                    continue
                
-            except Exception as e:
+                except Exception as e:

-                print("Exception:", e, flush=True)
+                    print("Exception:", e, flush=True)

-                # Message failed to be processed
-                self.consumer.negative_acknowledge(msg)
+                    # Message failed to be processed, this causes it to
+                    # be retried
+                    self.consumer.negative_acknowledge(msg)

-                __class__.processing_metric.labels(status="error").inc()
+                    __class__.processing_metric.labels(status="error").inc()
+
+                    # Break out of retry loop, processes next message
+                    break

    @staticmethod
    def add_args(parser, default_input_queue, default_subscriber):
@ -107,3 +156,17 @@ class Consumer(BaseProcessor):
            help=f'Queue subscriber name (default: {default_subscriber})'
        )

+        parser.add_argument(
+            '--rate-limit-retry',
+            type=int,
+            default=default_rate_limit_retry,
+            help=f'Rate limit retry (default: {default_rate_limit_retry})'
+        )
+
+        parser.add_argument(
+            '--rate-limit-timeout',
+            type=int,
+            default=default_rate_limit_timeout,
+            help=f'Rate limit timeout (default: {default_rate_limit_timeout})'
+        )
+
--- a/trustgraph-base/trustgraph/base/consumer_producer.py
+++ b/trustgraph-base/trustgraph/base/consumer_producer.py
@ -4,111 +4,43 @@ import pulsar
 from prometheus_client import Histogram, Info, Counter, Enum
 import time

-from . base_processor import BaseProcessor
+from . consumer import Consumer
 from .. exceptions import TooManyRequests

-# FIXME: Derive from consumer?  And producer?
-
-class ConsumerProducer(BaseProcessor):
+class ConsumerProducer(Consumer):

    def __init__(self, **params):

-        if not hasattr(__class__, "state_metric"):
-            __class__.state_metric = Enum(
-                'processor_state', 'Processor state',
-                states=['starting', 'running', 'stopped']
-            )
-            __class__.state_metric.state('starting')
+        super(ConsumerProducer, self).__init__(**params)

-        __class__.state_metric.state('starting')
-
-        input_queue = params.get("input_queue")
-        output_queue = params.get("output_queue")
-        subscriber = params.get("subscriber")
-        input_schema = params.get("input_schema")
-        output_schema = params.get("output_schema")
-
-        if not hasattr(__class__, "request_metric"):
-            __class__.request_metric = Histogram(
-                'request_latency', 'Request latency (seconds)'
-            )
+        self.output_queue = params.get("output_queue")
+        self.output_schema = params.get("output_schema")

        if not hasattr(__class__, "output_metric"):
            __class__.output_metric = Counter(
                'output_count', 'Output items created'
            )

-        if not hasattr(__class__, "pubsub_metric"):
-            __class__.pubsub_metric = Info(
-                'pubsub', 'Pub/sub configuration'
-            )
-
-        if not hasattr(__class__, "processing_metric"):
-            __class__.processing_metric = Counter(
-                'processing_count', 'Processing count', ["status"]
-            )
-
        __class__.pubsub_metric.info({
-            "input_queue": input_queue,
-            "output_queue": output_queue,
-            "subscriber": subscriber,
-            "input_schema": input_schema.__name__,
-            "output_schema": output_schema.__name__,
+            "input_queue": self.input_queue,
+            "output_queue": self.output_queue,
+            "subscriber": self.subscriber,
+            "input_schema": self.input_schema.__name__,
+            "output_schema": self.output_schema.__name__,
+            "rate_limit_retry": str(self.rate_limit_retry),
+            "rate_limit_timeout": str(self.rate_limit_timeout),
        })

-        super(ConsumerProducer, self).__init__(**params)
-
-        if input_schema == None:
-            raise RuntimeError("input_schema must be specified")
-
-        if output_schema == None:
+        if self.output_schema == None:
            raise RuntimeError("output_schema must be specified")

        self.producer = self.client.create_producer(
-            topic=output_queue,
-            schema=JsonSchema(output_schema),
+            topic=self.output_queue,
+            schema=JsonSchema(self.output_schema),
            chunking_enabled=True,
        )

-        self.consumer = self.client.subscribe(
-            input_queue, subscriber,
-            consumer_type=pulsar.ConsumerType.Shared,
-            schema=JsonSchema(input_schema),
-        )
-
-    def run(self):
-
-        __class__.state_metric.state('running')
-
-        while True:
-
-            msg = self.consumer.receive()
-
-            try:
-
-                with __class__.request_metric.time():
-                    resp = self.handle(msg)
-
-                # Acknowledge successful processing of the message
-                self.consumer.acknowledge(msg)
-
-                __class__.processing_metric.labels(status="success").inc()
-
-            except TooManyRequests:
-                self.consumer.negative_acknowledge(msg)
-                print("TooManyRequests: will retry")
-                __class__.processing_metric.labels(status="rate-limit").inc()
-                time.sleep(5)
-                continue
-
-            except Exception as e:
-
-                print("Exception:", e, flush=True)
-
-                # Message failed to be processed
-                self.consumer.negative_acknowledge(msg)
-
-                __class__.processing_metric.labels(status="error").inc()
+        print("Initialised consumer/producer.")

    def send(self, msg, properties={}):
        self.producer.send(msg, properties)
@ -120,19 +52,7 @@ class ConsumerProducer(BaseProcessor):
            default_output_queue,
    ):

-        BaseProcessor.add_args(parser)
-
-        parser.add_argument(
-            '-i', '--input-queue',
-            default=default_input_queue,
-            help=f'Input queue (default: {default_input_queue})'
-        )
-
-        parser.add_argument(
-            '-s', '--subscriber',
-            default=default_subscriber,
-            help=f'Queue subscriber name (default: {default_subscriber})'
-        )
+        Consumer.add_args(parser, default_input_queue, default_subscriber)

        parser.add_argument(
            '-o', '--output-queue',