Instrumentation#
NOTE: The instrumentation
module (available in llama-index v0.10.20 and later) is
meant to replace the legacy callbacks
module. During the deprecation period,
the llama-index library supports both modules as a means to instrument your
LLM application. However, at some point after all of the existing integrations
have moved over to the new instrumentation
module, we will no longer support
callbacks
module.
The new instrumentation
module allows for the instrumentation of llama-index
applications. In particular, one can handle events and track spans using both
custom logic as well as those offered in the module. Users can also define their
own events and specify where and when in the code logic that they should be emitted.
Listed below are the core classes as well as their brief description of the
instrumentation
module:
Event
— represents a single moment in time that a certain occurrence took place within the execution of the application’s code.EventHandler
— listen to the occurrences ofEvent
’s and execute code logic at these moments in time.Span
— represents the execution flow of a particular part in the application’s code and thus containsEvent
’s.SpanHandler
— is responsible for the entering, exiting, and dropping (i.e., early exiting due to error) ofSpan
’s.Dispatcher
— emitsEvent
’s as well as signals to enter/exit/drop aSpan
to the appropriate handlers.
Usage#
Using the new instrumentation
module involves 3 high-level steps.
Define a
dispatcher
Define and attach your
EventHandler
’s todispatcher
Define and attach your
SpanHandler
todispatcher
Doing so, would result in the ability to handle events and obtain spans that have
been transmitted throughout the llama-index
library and extension packages.
Defining a custom EventHandler
#
Users can create their own custom handlers by subclassing BaseEventHandler
and providing logic to the abstract method handle()
.
from llama_index.core.instrumentation.event_handlers.base import (
BaseEventHandler,
)
class MyEventHandler(BaseEventHandler):
"""My custom EventHandler."""
@classmethod
def class_name(cls) -> str:
"""Class name."""
return "MyEventHandler"
def handle(self, event: BaseEvent, **kwargs) -> Any:
"""Logic for handling event."""
print(event.class_name())
my_event_handler = MyEventHandler()
After defining your handler, you can attach it to the desired dispatcher:
import llama_index.core.instrumentation as instrument
dispatcher = instrument.get_dispatcher(__name__)
dispatcher.add_event_handler(my_event_handler)
Defining a custom Event
#
User can create their own custom events by subclassing BaseEvent
. The
BaseEvent
class comes with a timestamp
as well as an id_
field. To add more
items to this event payload, simply add them in as new Fields
(since they are
subclasses of pydantic.BaseModel
).
from llama_index.core.instrumentation.event.base import BaseEvent
class MyEvent(BaseEvent):
"""My custom Event."""
new_field_1 = Field(...)
new_field_2 = Field(...)
Once you have your custom event defined, you use a dispatcher to fire the event at desired instances throughout your application’s code.
import llama_index.core.instrumentation as instrument
dispatcher = instrument.get_dispatcher(__name__)
dispatcher.event(MyEvent(new_field_1=..., new_field_2=...))
Defining a custom Span
#
Span
’s are like Event
’s in that they are both structured data classes.
Unlike Event
’s though, Span
’s as their name implies, span a duration of time
within the programs execution flow. You can define a custom Span
to store any
information you would like.
from typing import Any
from llama_index.core.bridge.pydantic import Field
class MyCustomSpan(BaseSpan):
custom_field_1: Any = Field(...)
custom_field_2: Any = Field(...)
To handle your new Span type, you need to also define your custom SpanHandler
by subclassing the BaseSpanHandler
class. Three abstract methods need to be
defined when subclass this base class, namely: new_span()
, prepare_to_exit_span()
,
and prepare_to_drop_span()
.
from typing import Any, Optional
from llama_index.core.instrumentation.span.base import BaseSpan
from llama_index.core.instrumentation.span_handlers import BaseSpanHandler
class MyCustomSpanHandler(BaseSpanHandler[MyCustomSpan]):
@classmethod
def class_name(cls) -> str:
"""Class name."""
return "MyCustomSpanHandler"
def new_span(
self, id: str, parent_span_id: Optional[str], **kwargs
) -> Optional[MyCustomSpan]:
"""Create a span."""
# logic for creating a new MyCustomSpan
pass
def prepare_to_exit_span(
self, id: str, result: Optional[Any] = None, **kwargs
) -> Any:
"""Logic for preparing to exit a span."""
pass
def prepare_to_drop_span(
self, id: str, err: Optional[Exception], **kwargs
) -> Any:
"""Logic for preparing to drop a span."""
pass
To make use of your new SpanHandler (and associated Span type), you simply need to add it to your desired dispatcher.
import llama_index.core.instrumentation as instrument
from llama_index.core.instrumentation.span_handler import SimpleSpanHandler
dispatcher = (
instrument.get_dispatcher()
) # with no name argument, defaults to root
my_span_handler = MyCustomSpanHandler()
dispatcher.add_span_handler(my_span_handler)
Entering/Exiting a Span
#
To send a signal to SpanHandler
’s to enter/exit a Span
, we use the span_enter()
,
span_exit()
methods, respectively. There is also span_drop()
method that could
be used to handle cases where Span
’s are cut shorter than usual due to errors
within the covered code’s execution.
import llama_index.core.instrumentation as instrument
dispatcher = instrument.get_dispatcher(__name__)
def func():
dispatcher.span_enter(...)
try:
val = ...
except:
...
dispatcher.span_drop(...)
else:
dispatcher.span_exit(...)
return val
# or, syntactic sugar via decorators
@dispatcher.span
def func():
...
Making use of dispatcher
hierarchy#
A similar hierarchy to that seen with the standard Python logging
library and
its Logger
class exists for dispatcher
. Specifically, all dispatcher
’s
except for the root dispatcher
has a parent, and when handling events or span’s
can propagate them to its parent as well (this is the default behaviour). This
hierarchical method of handling events and spans allows for defining “global”
event handlers as well as “local” ones.
Consider the project structure defined below. There are 3 dispatcher
’s: one at
the top-level of the project
and then two others at the individual sub-modules
llama1
and llama2
. With this setup, any EventHandler
’s attached to the
project root’s dispatcher
will be be subscribed to all Event
’s that occur in
the execution of code in llama1
and llama2
. On the other hand, EventHandler
’s
defined in the respective llama<x>
sub modules will only be subscribed to the
Event
’s that occur within their respective sub-module execution.
project
├── __init__.py # has a dispatcher=instrument.get_dispatcher(__name__)
├── llama1
│ ├── __init__.py # has a dispatcher=instrument.get_dispatcher(__name__)
│ └── app_query_engine.py
└── llama2
├── __init__.py # has a dispatcher=instrument.get_dispatcher(__name__)
└── app_query_engine.py
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