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The JSON parser is the simplest option: if the original log source is a JSON map string, it will take its structure and convert it directly to the internal binary representation.
A simple configuration that can be found in the default parsers configuration file, is the entry to parse Docker log files (when the tail input plugin is used):
The following log entry is a valid content for the parser defined above:
After processing, its internal representation will be:
The time has been converted to Unix timestamp (UTC) and the map reduced to each component of the original message.
The ltsv parser allows to parse LTSV formatted texts.
Labeled Tab-separated Values (LTSV format is a variant of Tab-separated Values (TSV). Each record in a LTSV file is represented as a single line. Each field is separated by TAB and has a label and a value. The label and the value have been separated by ':'.
Here is an example how to use this format in the apache access log.
Config this in httpd.conf:
The parser.conf:
The following log entry is a valid content for the parser defined above:
After processing, it internal representation will be:
The time has been converted to Unix timestamp (UTC).
The regex parser allows to define a custom Ruby Regular Expression that will use a named capture feature to define which content belongs to which key name.
Fluent Bit uses Onigmo regular expression library on Ruby mode, for testing purposes you can use the following web editor to test your expressions:
Important: do not attempt to add multiline support in your regular expressions if you are using Tail input plugin since each line is handled as a separated entity. Instead use Tail Multiline support configuration feature.
Security Warning: Onigmo is a backtracking regex engine. You need to be careful not to use expensive regex patterns, or Onigmo can take very long time to perform pattern matching. For details, please read the article "ReDoS" on OWASP.
Note: understanding how regular expressions works is out of the scope of this content.
From a configuration perspective, when the format is set to regex, is mandatory and expected that a Regex configuration key exists.
The following parser configuration example aims to provide rules that can be applied to an Apache HTTP Server log entry:
As an example, takes the following Apache HTTP Server log entry:
The above content do not provide a defined structure for Fluent Bit, but enabling the proper parser we can help to make a structured representation of it:
A common pitfall is that you cannot use characters other than alphabets, numbers and underscore in group names. For example, a group name like (?<user-name>.*)
will cause an error due to containing an invalid character (-
).
In order to understand, learn and test regular expressions like the example above, we suggest you try the following Ruby Regular Expression Editor: http://rubular.com/r/X7BH0M4Ivm
There are certain cases where the log messages being parsed contains encoded data, a typical use case can be found in containerized environments with Docker: application logs it data in JSON format but becomes an escaped string, Consider the following example
Original message generated by the application:
Then the Docker log message become encapsulated as follows:
as you can see the original message is handled as an escaped string. Ideally in Fluent Bit we would like to keep having the original structured message and not a string.
Decoders are a built-in feature available through the Parsers file, each Parser definition can optionally set one or multiple decoders. There are two type of decoders type:
Decode_Field: if the content can be decoded in a structured message, append that structure message (keys and values) to the original log message.
Decode_Field_As: any content decoded (unstructured or structured) will be replaced in the same key/value, no extra keys are added.
Our pre-defined Docker Parser have the following definition:
Each line in the parser with a key Decode_Field instruct the parser to apply a specific decoder on a given field, optionally it offer the option to take an extra action if the decoder cannot succeed.
By default if a decoder fails to decode the field or want to try a next decoder, is possible to define an optional action. Available actions are:
Note that actions are affected by some restrictions:
on Decode_Field_As, if succeeded, another decoder of the same type in the same field can be applied only if the data continues being an unstructured message (raw text).
on Decode_Field, if succeeded, can only be applied once for the same field. By nature Decode_Field aims to decode a structured message.
Example input (from /path/to/log.log
in configuration below)
Example output
Configuration file
The fluent-bit-parsers.conf
file,
Parsers are an important component of Fluent Bit, with them you can take any unstructured log entry and give them a structure that makes easier it processing and further filtering.
The parser engine is fully configurable and can process log entries based in two types of format:
Regular Expressions (named capture)
By default, Fluent Bit provides a set of pre-configured parsers that can be used for different use cases such as logs from:
Apache
Nginx
Docker
Syslog rfc5424
Syslog rfc3164
Parsers are defined in one or multiple configuration files that are loaded at start time, either from the command line or through the main Fluent Bit configuration file.
Note: If you are using Regular Expressions note that Fluent Bit uses Ruby based regular expressions and we encourage to use Rubular web site as an online editor to test them.
Multiple parsers can be defined and each section has it own properties. The following table describes the available options for each parser definition:
Key | Description |
---|---|
All parsers must be defined in a parsers.conf file, not in the Fluent Bit global configuration file. The parsers file expose all parsers available that can be used by the Input plugins that are aware of this feature. A parsers file can have multiple entries like this:
For more information about the parsers available, please refer to the default parsers file distributed with Fluent Bit source code:
https://github.com/fluent/fluent-bit/blob/master/conf/parsers.conf
Time resolution and it format supported are handled by using the strftime(3) libc system function.
In addition, we extended our time resolution to support fractional seconds like 2017-05-17T15:44:31**.187512963**Z. Since Fluent Bit v0.12 we have full support for nanoseconds resolution, the %L format option for Time_Format is provided as a way to indicate that content must be interpreted as fractional seconds.
Note: The option %L is only valid when used after seconds (
%S
) or seconds since the Epoch (%s
), e.g:%S.%L
or%s.%L
The logfmt parser allows to parse the logfmt format described in . A more formal description is in .
Here is an example configuration:
The following log entry is a valid content for the parser defined above:
After processing, it internal representation will be:
Name | Description |
---|---|
Name | Description |
---|---|
Name
Set an unique name for the parser in question.
Format
Regex
If format is regex, this option must be set specifying the Ruby Regular Expression that will be used to parse and compose the structured message.
Time_Key
If the log entry provides a field with a timestamp, this option specifies the name of that field.
Time_Format
Specify the format of the time field so it can be recognized and analyzed properly. Fluent-bit uses strptime(3)
to parse time so you can refer to strptime documentation for available modifiers.
Time_Offset
Specify a fixed UTC time offset (e.g. -0600, +0200, etc.) for local dates.
Time_Keep
By default when a time key is recognized and parsed, the parser will drop the original time field. Enabling this option will make the parser to keep the original time field and it value in the log entry.
Types
Specify the data type of parsed field. The syntax is types <field_name_1>:<type_name_1> <field_name_2>:<type_name_2> ...
. The supported types are string
(default), integer
, bool
, float
, hex
. The option is supported by ltsv
, logfmt
and regex
.
Decode_Field
Decode a field value, the only decoder available is json
. The syntax is: Decode_Field json <field_name>
.
json
handle the field content as a JSON map. If it find a JSON map it will replace the content with a structured map.
escaped
decode an escaped string.
escaped_utf8
decode a UTF8 escaped string.
try_next
if the decoder failed, apply the next Decoder in the list for the same field.
do_next
if the decoder succeeded or failed, apply the next Decoder in the list for the same field.