tremors 0.3.2

Tremors is a library for logging while collecting metrics.

Tremors is a library for logging while collecting metrics. Tremors loggers are drop-in replacements for standard loggers. But Tremors loggers have metrics collectors that run when messages are logged. The loggers are also context managers. The library maintains a hierarchy of nested contexts, where all logs and metrics are grouped together. You can create a new hierarchy at anytime to group related logs.

Installation

pip install tremors

Usage

A function can be wrapped in a logger context with the logged decorator. If you call the function without a logger argument, one will automatically be injected into it.

import logging

import tremors
from tremors import collector


@tremors.logged
def fn(*, logger: tremors.Logger = tremors.from_logged) -> None:
    logger.info("hello")


logging.basicConfig(
    format="Tremors > %(levelname)s:%(name)s:%(message)s",
    level=logging.INFO,
)
fn()

The context automatically logs entered, and exited messages before, and after each function call. The logger uses the configured standard root logger by default to log the messages.

Tremors > INFO:root:entered: fn
Tremors > INFO:root:hello
Tremors > INFO:root:exited: fn

You may specify a standard logger by name for the Tremors logger to use as its underlying logger.

@tremors.logged(logger_name=__name__)
def fn(*, logger: tremors.Logger = tremors.from_logged) -> None:
    logger.info("hello")


fn()

The messages are logged by the specified underlying logger. Based on our standard logging configuration, the messages propagate from the underlying logger to the standard root logger, which emits them.

Tremors > INFO:__main__:entered: fn
Tremors > INFO:__main__:hello
Tremors > INFO:__main__:exited: fn

Next let’s use a collector to measure the elapsed time since the function started each time a message is logged. When a message is logged, the logger runs the collector, and adds its updated state to the message’s LogRecord. We use a standard logging filter to inspect and modify the record before it is emitted. We format the collector state, then add the formatted state to the elapsed custom attribute of the record. Finally, we configure the root logger’s formatter to incorporate the elapsed attribute.

Note

The elapsed collector bundle included with Tremors has a factory for creating a collector. It also has a formatter that we use in flt to extract the state from the record, and format it. In flt we make a copy of the record, then modify and return the copy, instead of modifying the original record, so as not to have side effects on other loggers that may process the messasge. We also make sure to attach flt to the root logger’s handler, and not to the logger itself; messages that originate from descendant loggers will not go through logger filters when they are propagated, but they will go through handler filters before they are emitted.

import copy
import time


def flt(record: logging.LogRecord) -> logging.LogRecord:
    record = copy.copy(record)
    elapsed = collector.elapsed.formatter(record)
    record.elapsed = f"{elapsed} " if elapsed else ""
    return record


@tremors.logged(collector.elapsed.factory())
def fn(*, logger: tremors.Logger = tremors.from_logged) -> None:
    logger.info("sleeping for 1s...")
    time.sleep(1)


logging.basicConfig(
    format="%(elapsed)s%(levelname)s:%(name)s:%(message)s",
    level=logging.INFO,
    force=True,
)
logging.root.handlers[0].addFilter(flt)
fn()

The messages contain elapsed information, according to the formatter configuration, that is sourced from the record’s elapsed custom attribute.

0.000 INFO:root:entered: fn
0.000 INFO:root:sleeping for 1s...
1.000 INFO:root:exited: fn

A Logger can have any number of collectors. Here, in addition to the elapsed collector from the previous example, we add a counter collector. A collector has a level, and will only run if the message is being logged at that level or higher. Our counter level is ERROR. We can also control which custom record attribute has the formatted collector state via the collector’s name. This is useful if you have multiple of the same collector on a single logger. Here, we name the counter errors, so record.errors will contain a formatted string with the running total number of errors that have been logged by a single function call. Finally, we an control the format of the counter state via the fmt argument of the counter’s formatter.

def flt(record: logging.LogRecord) -> logging.LogRecord:
    record = copy.copy(record)
    errors = collector.counter.formatter(
        record, name="errors", fmt="errors={counter}"
    )
    record.errors = f"{errors} " if errors else ""
    elapsed = collector.elapsed.formatter(record)
    record.elapsed = f"{elapsed} " if elapsed else ""
    return record


@tremors.logged(
    collector.counter.factory(name="errors", level=logging.ERROR),
    collector.elapsed.factory(),
)
def fn(*, logger: tremors.Logger = tremors.from_logged) -> None:
    logger.info("hello")
    time.sleep(1)
    logger.error("uh-ho!")


logging.basicConfig(
    format="%(elapsed)s%(errors)s%(levelname)s:%(name)s:%(message)s",
    level=logging.INFO,
    force=True,
)
logging.root.handlers[0].addFilter(flt)
fn()

The messages contain information from both collectors.

0.000 errors=0 INFO:root:entered: fn
0.000 errors=0 INFO:root:hello
1.001 errors=1 ERROR:root:uh-ho!
1.001 errors=1 INFO:root:exited: fn

In the previous example, a new counter collector was used each time the function is called. Let’s reuse the same collector to keep a tally of errors across all calls to the function.

fn_errors = collector.counter.factory(name="errors", level=logging.ERROR)


@tremors.logged(fn_errors)
def fn(*, logger: tremors.Logger = tremors.from_logged) -> None:
    logger.error("uh-ho!")


fn()
fn()

The error count doesn’t reset in the second function call.

errors=0 INFO:root:entered: fn
errors=1 ERROR:root:uh-ho!
errors=1 INFO:root:exited: fn
errors=1 INFO:root:entered: fn
errors=2 ERROR:root:uh-ho!
errors=2 INFO:root:exited: fn

Another way we can tally the count across all function calls is to pass the same logger with each call.

def fn(*, logger: tremors.Logger) -> None:
    logger.error("uh-ho!")


with tremors.Logger(
    collector.counter.factory(name="errors", level=logging.ERROR),
    name="context",
) as logger:
    fn(logger=logger)
    fn(logger=logger)

We only get entering and exiting messages for the context block. But the single logger used in both function calls maintains its state between calls.

errors=0 INFO:root:entered: context
errors=1 ERROR:root:uh-ho!
errors=2 ERROR:root:uh-ho!
errors=2 INFO:root:exited: context

See the tremors.collector module for how you can define your own collectors, and bundles.