Implementation of a custom Monolog Handler

Monolog Handler Separate exception reporter logger

Solution

Implementation of a custom Monolog channel, which will write all logs in a SQL table, except Laravel exceptions (which should be stored in a .log file)

Migration

First, we need to migrate the table where, in the future, we’ll store all our custom logs. This is a basic migration, with some sort of custom fields, which matches the project needs:

Schema::create('logs', function (Blueprint $t) { $t->increments('id'); $t->text('description')->nullable(); $t->string('origin', 200)->nullable(); $t->enum('type', ['log', 'store', 'change', 'delete']); $t->enum('result', ['success', 'neutral', 'failure']); $t->enum('level', ['emergency', 'alert', 'critical', 'error', 'warning', 'notice', 'info', 'debug']); $t->string('token', 100)->nullable(); $t->ipAddress('ip'); $t->string('user_agent', 200)->nullable(); $t->string('session', 100)->nullable(); $t->timestamps(); });

Channel config

By default Laravel uses the stack channel for the logging. To change that, we should add a new channel to the configuration file config/logging.php :

'channels' => [ 'custom' => [ 'driver' => 'custom', 'via' => \App\Services\Logs\LogMonolog::class, ], ],

Next step is to change the default logging channel to our custom one, this can be done in the .env file, by adding the config cons:

LOG_CHANNEL=custom

It is important to understand that after we’ll have this custom channel we have control over Monolog’s instantiation and configuration, and all logs triggered via the facade Illuminate\Support\Facades\Log will go through your LogMonolog class that will create your Monolog instance.

Monolog instance

The class which was declared in the channel custom — via property only needs a single method: __invoke , which should return the Monolog instance:

namespace App\Services\Logs;

use Monolog\Logger;

class LogMonolog { /** * Create a custom Monolog instance. * * @param array $config * @return \Monolog\Logger */ public function __invoke(array $config) { $logger = new Logger('custom'); $logger->pushHandler(new LogHandler()); $logger->pushProcessor(new LogProcessor()); return $logger; } }

In the magic __invoke function, we return a Monolog instance with with channel name custom (passed as a string param to the Logger constructor). As we can notice, on the class instance, we call two functions, to attach a LogHandler and a LogProcessor .

LogHandler

Monolog provides many built-in handlers. Handler is basically a class, which is pushed in a stack , and whenever you add a new log (a new record to the logger eg: '\Log::info('Hey') ), it traverses the handler stack.

namespace App\Services\Logs;

use App\Events\Logs\LogMonologEvent; use Monolog\Logger; use Monolog\Handler\AbstractProcessingHandler; class LogHandler extends AbstractProcessingHandler { public function __construct($level = Logger::DEBUG) { parent::__construct($level); } protected function write(array $record) { // Simple store implementation $log = new Log(); $log->fill($record['formatted']); $log->save(); // Queue implementation // event(new LogMonologEvent($record)); } /** * {@inheritDoc} */ protected function getDefaultFormatter() { return new LogFormatter(); } }

Since to create a custom Handler, we have to implement the Monolog\Handler\HandlerInterface , we’re extending the abstract class provided by the Monolog, AbstractProcessingHandler to keep things DRY.

As you can see, we have two implemented function in this class:

getDefaultFormatter is used by the Monolog\Handler\AbstractHandler to retrieve the formatter for the current custom Handler, we will come back to the formatter in few lines

is used by the to retrieve the formatter for the current custom Handler, we will come back to the in few lines write is called from the AbstractProcessingHandler@handler in order to process somehow the log, usually write it in a file, but we’ll write it in the DB. Basically write function will receive all information about the log. We can right here trigger the insert operation in the DB, but we will use more complex architecture, in order to maintain this operation async in a laravel queue.

LogProcessor

This is the class where we can extend the default fields for the log entry with some extra information. The single requirement for this class, is to have the __invoke function:

namespace App\Services\Logs; class LogProcessor { public function __invoke(array $record) { $record['extra'] = [ 'user_id' => auth()->user() ? auth()->user()->id : NULL, 'origin' => request()->headers->get('origin'), 'ip' => request()->server('REMOTE_ADDR'), 'user_agent' => request()->server('HTTP_USER_AGENT') ]; return $record; } }

Let’s dive a bit deeper in what we have until this point in the the $record argument:

Dump of the output from the LogProcessor __invoke method

As you can see, we can send some custom fields right in the Log::info and will receive those in a context field from the $records object

LogFormatter

After we added some extra fields to our log, the log goes through other transformations, if you remember we had a function App\Services\Logs\LogHandler@getDefaultFormatter which returns an instance of LogFormatter , this is the third important operator of the Monolog. It has few formatters built-in which can be extend or used as a reference for our:

namespace App\Services\Logs; use Monolog\Formatter\NormalizerFormatter; class LogFormatter extends NormalizerFormatter { /** * type */ const LOG = 'log'; const STORE = 'store'; const CHANGE = 'change'; const DELETE = 'delete'; /** * result */ const SUCCESS = 'success'; const NEUTRAL = 'neutral'; const FAILURE = 'failure'; public function __construct() { parent::__construct(); } /** * {@inheritdoc} */ public function format(array $record) { $record = parent::format($record); return $this->getDocument($record); } /** * Convert a log message into an MariaDB Log entity * @param array $record * @return array */ protected function getDocument(array $record) { $fills = $record['extra']; $fills['level'] = str()->lower($record['level_name']); $fills['description'] = $record['message']; $fills['token'] = str_random(30); $context = $record['context']; if (!empty($context)) { $fills['type'] = array_has($context, 'type') ? $context['type'] : self::LOG; $fills['result'] = array_has($context, 'result') ? $context['result'] : self::NEUTRAL; $fills = array_merge($record['context'], $fills); } return $fills; } }

format if the function which mutate all log records. This function receives as argument $record , inclusively includes extra data from the LogProcessor.

The getDocument method will adapt our records and context according with table structure, and basically will return the object with a new formatted array which can fill the table entry:

Store in DB

At this step we are done with everything related to Monolog custom channel. We can simply store the formatted object like this:

//App\Services\Logs\LogHandler protected function write(array $record) { $log = new Log(); // Log is the model over table (see bellow) $log->fill($record['formatted']); $log->save(); }

We should to be aware about which custom fields we’re sending through the context object, because, if those are not in the table, the SQL will throw an error like this:

SQL throw an error when trying to save field which is not in the DB

This exception is easy to avoid if we will parse every field from the $formatted array (before we call fill ), and exclude those from the $record['formatted'].

Or we can go further and implement the Event-Listener.

//App\Services\Logs\LogHandler protected function write(array $record) { event(new LogMonologEvent($record)); }

LogMonologEvent

In order to perform an action in queue, we can emit an event. The event we emit looks like bellow, it basically will contain all log records:

namespace App\Events\Logs; use Illuminate\Queue\SerializesModels; class LogMonologEvent { use SerializesModels; /** * @var */ public $records; /** * @param $model */ public function __construct(array $records) { $this->records = $records; } }

Register listener

To listen for an event, it is necessary to register listener in the EventServiceProvider:

protected $subscribe = [ \Project\Listeners\LogMonologEventListener::class, ];

LogMonologEventListener

Listener has the responsibility to store the log in the database. To have an event in a laravel queue it is enough to implement the ShouldQueue interface:

namespace App\Listeners; use App\Events\Logs\LogMonologEvent; use App\Models\Log; use Illuminate\Contracts\Queue\ShouldQueue; class LogMonologEventListener implements ShouldQueue { public $queue = 'logs'; protected $log; public function __construct(Log $log) { $this->log = $log; } /** * @param $event */ public function onLog($event) { $log = new $this->log; $log->fill($event->records['formatted']); $log->save(); } /** * Register the listeners for the subscriber. * * @param \Illuminate\Events\Dispatcher $events */ public function subscribe($events) { $events->listen( LogMonologEvent::class, 'Project\Listeners\LogMonologEventListener@onLog' ); } }

And model implementation:

namespace App\Models; class Log extends \Illuminate\Database\Eloquent\Model { /** * @var string $table */ protected $table = 'logs'; /** * @var array $guarded */ protected $guarded = ['id']; }

Separate reporter logs

Laravel has a report function in App\Exceptions\Handler used to log exceptions or send them to an external service like Bugsnag or Sentry. It will be enough to manually choose the channel where we want to redirect exception logs (because by default those will be stored in the DB):

public function report(Exception $exception) { if ($this->shouldntReport($exception)) { return; } Log::channel('daily')->error( $exception->getMessage(), array_merge($this->context(), ['exception' => $exception]) ); }

Conclusions

Let’s resume what we basically have, going step by step: