[![Build Status](https://github.com/atroxaper/p6-LogP6/workflows/Ubuntu/badge.svg)](https://github.com/atroxaper/p6-LogP6/actions/workflows/ubuntu.yml) [![Build Status](https://github.com/atroxaper/p6-LogP6/workflows/Windows/badge.svg)](https://github.com/atroxaper/p6-LogP6/actions/workflows/windows.yml) # NAME `LogP6` is a fully customizable and fast logging library inspired by the idea of separating logging and its configuration. You can use it not only in apps but even in your libraries. # TABLE OF CONTENTS - [NAME](#name) - [SYNOPSIS](#synopsis) - [DESCRIPTION](#description) - [Features](#features) - [Concepts](#concepts) - [Example](#example) - [Context](#context) - [Writer](#writer) - [Filter](#filter) - [Nested Diagnostic Context (NDC) and Mapped Diagnostic Context (MDC)](#nested-diagnostic-context-ndc-and-mapped-diagnostic-context-mdc) - [Logger](#logger) - [Logger Wrapper](#logger-wrapper) - [Synchronisation of configuration and Logger instance](#synchronisation-of-configuration-and-logger-instance) - [CONFIGURATION](#configuration) - [Logger retrieve](#logger-retrieve) - [Factory subroutines](#factory-subroutines) - [Configuration file](#configuration-file) - [Writer configuration](#writer-configuration) - [WriterConf](#writerconf) - [Standard WriterConf](#standard-writerconf) - [Pattern](#pattern) - [Async writing](#async-writing) - [Writer factory subroutines](#writer-factory-subroutines) - [Writer configuration file](#writer-configuration-file) - [Filter configuration](#filter-configuration) - [FilterConf](#filterconf) - [Standard FilterConf](#standard-filterconf) - [Filter factory subroutines](#filter-factory-subroutines) - [Filter configuration file](#filter-configuration-file) - [Defaults](#defaults) - [Defaults factory subroutines](#defaults-factory-subroutines) - [Defaults configuration file](#defaults-configuration-file) - [Cliche](#cliche) - [Cliche factory subroutines](#cliche-factory-subroutines) - [Cliche configuration file](#cliche-configuration-file) - [Default logger](#default-logger) - [Change configuration](#change-configuration) - [EXAMPLES](#examples) - [Use an external library that uses LogP6](#use-an-external-library-that-uses-logp6) - [Change console application verbosity level](#change-console-application-verbosity-level) - [Conditional log calls](#conditional-log-calls) - [Associate logs with concrete user](#associate-logs-with-concrete-user) - [Filter log by its content](#filter-log-by-its-content) - [Write one log in several outputs](#write-one-log-in-several-outputs) - [Write custom writer handle for your need](#write-custom-writer-handle-for-your-need) - [BEST PRACTICE](#best-practice) - [SEE OLSO](#seeolso) - [ROADMAP](#roadmap) - [AUTHOR](#author) - [COPYRIGHT AND LICENSE](#copyright-and-license) # SYNOPSIS A logger system has to be as transparent as possible. At the same time, it has to be fully customizable. It has to provide a possibility to change logging logic without changing any line of code. It is amazing if you can use logger system during developing a library and its user do not feel discomfort of it. `LogP6` logger library is all about that. # DESCRIPTION ## Features 1. Possibility to change logger configuration and its behavior without touching the code; 2. Configuring from the code and/or configuration files; 3. Possibility to use any IO::Handler, even for async or database work; 4. Possibility to use multiple loggers in one app; 5. Possibility to use multiply IO::Handler's in one logger; 6. Flexible filter system; 7. Stack and Map entities associated with each thread and possibility to use values from it in the logger; 8. Pretty fast work. Using pre-calculation as much as possible - logger layout pattern is parsed only once, reuse current DateTime objects and so on; 9. Possibility to use logger while development (dynamically change logger settings in runtime), and during production work (maximum fast, without any lock, excepts possible IO::Handle implementation's). ## Concepts - `writer` - an object which knows how and where logs must be written. In a simple case - which file and string format pattern will be used; - `filter` - an object which knows which logs must be written. In simple case - logs with which levels are allowed to pass to the `writer`; - `cliche` - template for creating `Logger`. Contains writers, filters, and other configurations for future Loggers; - `logger` - instance created using configuration from the `cliche`. Just Logger with standard functionality like `info()` method; - `logger trait` - string value describes the semantic purpose of concrete Logger. For example, the name of the class where the logger is used or the type of logged information (for example, 'internal-audit-subsystem'). `LogP6` uses `trait` to create the new or get already created logger; - `cliche's matcher` - unique field of the cliche. The field may be a literal string or regex. If the logger `trait` satisfies the `matcher` then the cliche will be used for creating the logger with the trait; - `context` - associated with each Thread object, which contains information for logging like your final log message, the exception you specified, log level, current date, thread name, and so on. Context can be used for storing some specific information you and `LogP6` library need while logging. ## Example Using logger: ```perl6 use LogP6; # use library in general mode my \log = get-logger('audit'); # create or get logger with 'audit' trait log.info('property ', 'foo', ' setted as ', 5); # log string with concatenation log.infof('property %s setted as %d', 'foo', 5); # log sprintf like style ``` Configure the logger in code: ```perl6 use LogP6 :configure; # use library in configure mode cliche( # create a cliche :name, # obligatory unique cliche name :matcher, # obligatory matcher grooves => ( # optional list of writer-filter pairs (or their names) writer(:pattern('%level| %msg'), :handle($*ERR)), # create anonymous (w/o name) writer configuration filter(:level($debug)))); # create anonymous (w/o name) filter configuration ``` Configure in the configuration file style (same as above): ```json { "writers": [{ "type": "std", "name": "w", "pattern": "%level | %msg", "handle": { "type": "std", "path": "err" } }], "filters": [{ "type": "std", "name": "f", "level": "debug" }], "cliches": [{ "name": "cl", "matcher": "audit", "grooves": [ "w", "f" ] }] } ``` ## Context LogP6 library adds an object associated with each Thread - `Logger Context` or just `context`. You can work with the context directly in the `filter` subsystem or in custom `writer` implementations. Also, `logger` has methods for working with `NDC` and `MDC` (see below in [Logger](#logger)). For more information, please look at the methods' declarators in `LogP6::Context`. ## Writer `Writer` is responsible for writing all corresponding data to corresponding output in some format. It has only one method: - `write($context){...}` - this method has to take all necessary data from the specified `context` and use it for writing. Note: the specified context will change its data after the method call. Do not cache the context itself (for example, for asynchronous writing) but only its data. ## Filter `Filter` is responsible for deciding to allow the corresponding `writer` to write a log or not. It has three methods: - `do-before($context){...}` - some code which decides allow the log to be pass to the writer or not. If it returns True then the log will be pass to the writer. Otherwise, the log will be discarded. - `reactive-level(){}` - in most cases filtering can be done only by log level. This method returns a log level, which allows logger to call `do-before` method. If the filtering log's level importance is less then returned reactive level, then the log will be discarded without calling `do-before` method. - `do-after($context){}` - any code which has to be executed after the writer work in case when `do-before` method returns True. ## Nested Diagnostic Context (NDC) and Mapped Diagnostic Context (MDC) There are cases when we want to trace some information through a group of log messages, but not only in one message, for example, user id, http session number, or so. In such cases, we have to store the information somewhere, pass it through logic subs and methods, and pass to log methods over and over again. Since the log system has to be separated from the main program logic, then we need a special place to store the information. That place is a `Nested Diagnostic Context` (`NDC`) - a stack structure and a `Mapped Diagnostic Context` (`MDC`) - a map structure. You can push/pop values in `NDC` and put/remove values in `MDC`. The standard writer has special placeholders for message pattern (see below in [Pattern](#pattern)) for put all values from `NDC` or some kay associated value from `MDC` to the final log message string. ## Logger A logger is an immutable object containing zero to several pairs of `writer` and `filter` (`grooves`). For each time you want to log some message (with or without arguments), the logger compiles message+arguments in one message string, updates the `context`, and goes through `grooves` - call filter's methods and, if it passes, then ask a writer to write the message. The writer takes all necessary information such as message, log level, NDC/MDC values, current date-time, and so from the context. Logger has the following methods: - `trait()` - returns logger trait; - `ndc-push($obj)`, `ndc-pop()`, `ndc-clean()` - work with `NDC`; - `mdc-put($key, $obj)`, `mdc-remove($key)`, `mdc-clean()` - work with `MDC`; - `dc-copy()`, `dc-restore($dc-copy)` - make copy of `NDC` and `MDC` and restore them from copy. The methods are useful when you want to share NDC and MDC values across multiple threads. - `trace(*@args, :$x)`, `debug(*@args, :$x)`, `info(*@args, :$x)`, `warn(*@args, :$x)`, `error(*@args, :$x)`, `level($level, *@args, :$x)` - logging the arguments with specified importance log level. `:$x` is an optional exception argument. `@args` - data for logging. Elements of the array will be concatenated with empty string; - `tracef(*@args, :$x)`, `debugf(*@args, :$x)`, `infof(*@args, :$x)`, `warnf(*@args, :$x)`, `errorf(*@args, :$x)`, `levelf($level, *@args, :$x)` - logging the arguments with specified importance log level. `:$x` is an optional exception argument. `@args` - data for logging. The first element is used as `sprintf` format and the rest element as `sprintf` args; - `trace-on()`, `debug-on()`, `info-on()`, `warn-on()`, `error-on()`, `level-on($level)` - help methods to use as condition. The method will return `Any` in case the specified log level if forbidden now and will return special object with `log(*@args, :$x)` and `logf(*@args, :$x)` methods which can be used for log with asked log level (see [example](#conditional-log-calls)). ## Logger Wrapper It is a system to wrap (or decorate) logger object into another and add additional logic. You can describe `logger wrapper factory`, which will wrap any created `logger`. ### Synchronisation of configuration and Logger instance An example of logger wrapper usage is synchronization a logger configuration and logger instance. It may be useful in the case of development or debug session to change logger configuration dynamically. Since a logger object is immutable and cannot know about configuration changes it produced, we need a logic that checks if the user updated the corresponding configuration and updates the logger instance. You can specify any wrapper for logger synchronization. There is a helper class `LogP6::Wrapper::SyncAbstract` to create your synchronization wrapper. For now, there are only two synchronization wrappers: - `LogP6::Wrapper::SyncTime::Wrapper` - checks the new configuration change each `X` seconds; - `LogP6::Wrapper::SyncEach::Wrapper` - checks the new configuration change each time you use the logger. # CONFIGURATION For working with the `LogP6` library, you need to `use LogP6;` module. Without any tags, it provides only the `get-logger($trait)` sub for retrieving a logger. `:configure` tag provides factory subroutines for configuring loggers from the code. Another option to configure logger is by using a configuration file. ## Logger retrieve To retrieve a logger, you need to use `LogP6` module and call the `get-logger($trait)` sub with the logger trait you need. Example: ```perl6 use LogP6; my $log = get-logger('main'); # using $log ... ``` If you did not configure a `Cliche` for a specified logger trait ('main' in the example), the default logger would be returned (see [Default logger](#default-logger)). In other cases, the logger created by the cliche with matcher the trait satisfy will be returned. ## Factory subroutines `LogP6` provides subroutines for configure loggers from the code dynamically. To get access to them, you need to `use LogP6` with `:configure` tag. There are subroutines for configuring `filters`, `writers`, `cliches`, and any default values like `writer pattern`, `logger wrapper`, or so. Concrete subroutines will be described in the corresponding sections below. There is a `get-logger-pure($trait)` sub to retrieve pure logger without any wrappers. Also, five variables for five `LogP6::Level` enum values are exported as `$trace`, `$debug`, `$info`, `$warn` and `$error`. Example: ```perl6 use LogP6 :configure; set-default-wrapper(LogP6::Wrapper::SyncTime::Wrapper.new(:60seconds)); # set default wrapper set-default-level($debug); # set default logger level as debug my $log = get-logger('main'); # get wrapped logger $log.debug('msg'); my $pure-log = get-logger-pure('main'); # this logger will not synchronize its configuration ``` ## Configuration file A better alternative (especially for production using) of configuration by factory subroutines is a configuration file. You can specify a path to it through `LOG_P6_JSON` system environment variable. In case the variable is empty, then standard path `./log-p6.json` will be used (if it exists). Or you can initialize `LogP6` library using `init-from-file($config-path)` factory subroutine. The configuration file is a `json` formatted file. Example: ```json { "default-pattern": "%msg", "default-level": "trace", "default-handle": { "type": "std", "path": "err" }, "writers": [{ "type": "std", "name": "w" }], "filters": [{ "type": "std", "name": "f" }], "cliches": [{ "name": "c2", "matcher": "main" }] } ``` The concrete format for concrete objects will be described in the corresponding sections below. Some objects like `writers`, `wrappers` or so have a `type` filed. Each object has its own list of available types. There is a type that can be used in any object - `custom`. It uses to describe the factory method or class which will be used to produce the object. It requires additional fields: - `require` - the name of the module with factory method or class; - `fqn-method` or `fqn-class` - the fully qualified name of method or class in `require` module; - `args` - list of named arguments which will be passed to `fqn-method()` or `fqn-class.new()`; - `positional` - list of positional arguments which will be passed to `fqn-method()` or `fqn-class.new()`. For example, creating IO::Handle by `create-handle` subroutine in `MyModule` with arguments `:path, :trait`: ```json { "default-handle": { "type": "custom", "require": "MyModule", "fqn-method": "MyModule::EXPORT::DEFAULT::&create-handle", "args": { "path": "out.txt", "trait": "rw" } } } ``` ## Writer configuration ### WriterConf `WriterConf` is a configuration object which contains all necessary information and algorithm for creating a concrete `writer` instance. For more information, please look at the methods' declarators in `LogP6::WriterConf`. ### Standard WriterConf Standard `WriterConf` (`LogP6::WriterConf::Std`) makes a writer that writes log message to abstract `IO::Handle`. It has a `pattern` - string with special placeholders for values like `ndc`, current `Thread` name, log message, etc. `Writer` will put all necessary values into `pattern` and write it to handle. Also, standard `WriterConf` has boolean `auto-exceptions` property - if it is `True`, then the placeholder for exception will be concatenated to the `pattern` automatically. Form of the exception placeholder can be configured separately (see [Defaults](#defaults) and [Cliche](#cliche)). ### Pattern Pattern placeholders start with `%` symbol following the placeholder name. If placeholder has arguments, they can be passed in curly brackets following placeholder name. The pattern can have the following placeholders: - `%trait`, `%trait{short=[package-delimeter]number}`, `%trait{sprintf=pattern}` - for the name of the logger trait. Additionally, you can specify one of two options of trait representation. `sprintf` option is useful for traits like `database`, `audit`, or so when you want to represent all traits with the same length. For example, `[%trait{sprintf=%s7}]` can be converted into `[ audit]`. `short` option is useful for traits like `Module::Packge1::Package2::Class`. You can specify package delimiter (instead of `::`) and how many packages will be displayed. For example, `%trait{short=[.]1` can be converted into `Class`, `%trait{short=[.]-1` - into `Packge1.Package2.Class` and `%trait{short=[.]2.4` - into `Modu.Pack.Package2.Class`. If `number` is a positive integer, then only `number` right elements will be displayed. If `number` is a negative integer, then `|number|` left elements will be deleted. If `number` is real, then left elements will be cut to fractional symbols; - `%tid` - for current `Thread` id; - `%tname` - for current `Thread` name; - `%msg` - for log message; - `%ndc` - for full NDC array joined by space symbol; - `%mdc{obj_key}` - for MDC value with `obj_key` key; - `%x{$msg $name $trace}` - for exception. String in curly brackets is used as subpattern. `$msg` - optional exception message, `$name` - optional exception name, `$trace` - optional exception stacktrace. For example, `'%x{($name "$msg") Trace: $trace}'` can be converted into `'(X::AdHoc "test exception") Trace: ...'`; - `%level{WARN=W DEBUG=D ERROR=E TRACE=T INFO=I length=2}` - log importance level. By default, the logger will use the level name in upper case, but you can specify synonyms for all or part of them in curly brackets in format `=`. You can specify a fixed length of the log level name. Default length is 0 - write level as is. For example `'[%level{WARN=hmm ERROR=alarm length=5}]'` can be converted into `'[hmm ]'`, `'[alarm]'`, `'[INFO ]'`, `'[DEBUG]'`; - `%color{TRACE=yellow DEBUG=green INFO=blue WARN=magenta ERROR=red}` - colorize log string after that placeholder. You can specify a color for any log level. The level you not specified color will use its default color (as in the example above). For example, `%color{ERROR=green}` means `%color{TRACE=yellow DEBUG=green INFO=blue WARN=magenta ERROR=green}`. You can use `yellow`, `green`, `blue`, `magenta`, `green` color names or color code (more [information](https://misc.flogisoft.com/bash/tip_colors_and_formatting). For example `%color{TRACE=35 DEBUG=30;48;5;82 INFO=green}`. You can use `%color` placeholder several times; - `%color{reset}` or `%creset` - reset log string colorizing after that placeholder; - `%date{$yyyy-$yy-$MM-$MMM-$dd $hh:$mm:$ss:$mss $z}` - current date and time. String in curly brackets is used as subpattern. - `$yyyy`, `$yy` - year in 4 and 2 digits format; - `$MM`, `$MMM` - month in 2 digits and short name format; - `$dd` - day in 2 digits format; - `$hh`, `$mm`, `$ss`, `$mss` - hours, minutes, seconds and milliseconds - `$z` - timezone - `%framefile` - for log caller frame file name. The same as `callframe().file` in log call block; - `%frameline` - for log caller frame file line. The same as `callframe().line` at the same log call line; - `%framename` - for log caller frame code name. The same as `callframe().code.name` in log call block; Note that using `%framefile`, `%frameline` or `%framename` in the pattern will slow your logging because it requires several `callframe()` calls on each resultative log call; ### Async writing `LogP6` provides writer and handle implementation for asynchronous writing. You can use `LogP6::Handle::Async.new(IO::Handle :$delegate!, Scheduler :$scheduler = $*SCHEDULER)` as a handle which will schedule `WRITE` method call of `delegate` handle. If it is not enough to wrap a handle, then you can wrap the whole writer. Use `LogP6::WriterConf::Async.new(LogP6::WriterConf :$delegate!, Scheduler :$scheduler = $*SCHEDULER), :$name, Bool :$need-callframe)` as writer configuration of another configuration. The final writer will schedule the `write` method call of `delegate` created writer with a copy of the current `logger context`. If you miss a `:name` parameter, then `delegate`'s name will be used. Pass boolean parameter `need-callframe` if you plan to use callframe information in the wrapped writer. Note that using callframe will slow your logging because it requires several `callframe()` calls on each resultative log call. ### Writer factory subroutines `LogP6` module has the following subs for manage writers configurations: - `get-writer(Str:D $name --> LogP6::WriterConf)` - gets writer with specified name; - `writer(:$name, :$pattern, :$handle, :$auto-exceptions, :create, :update, :replace --> LogP6::WriterConf)` - create, update, or replace standard `WriterConf` with a specified name. If you want to `:update` only concrete fields in an already created configuration, then the rest fields will not be changed. In the case of `:replace`, the new configuration will be created and replaced the old one. You can create configuration without a name - then the configuration will not be stored but only returned to you. The method returns the old writer configuration (`:update`, `:replace`) and the new one (`:create`); - `writer(LogP6::WriterConf:D $writer-conf, :create, :replace --> LogP6::WriterConf)` - save or replace any implementation of `WriterConf`. The configuration name will be retrieved from the `$writer-conf`. The method returns the old writer configuration (`:replace`) and the new one (`:create`); - `writer(:$name, :$remove --> LogP6::WriterConf)` - remove and return a configuration with specified name. ### Writer configuration file In the configuration file, writer configurations have to be listed in `writers` array. Only `std` (for standard configuration) and `custom` types are supported. In the case of standard configuration, all fields are optional excepts `name`. The handle can be: - `file` type for output into a file. You can specify `path`,`append` (`True` by default), and `out-buffer` arguments; - `std` type for output into `$*OUT` or `$*ERR`. You can specify `path` as `out` or `err`. - `custom` type. In the case of the `custom` writer type, the result writer configuration has to returns not empty name. Example: ```json { "writers": [ {"type": "std", "name": "w1", "pattern": "%msg", "handle": {"type": "std", "path": "out"}}, {"type": "std", "name": "w2", "handle": {"type": "file", "path": "log.txt", "append": false}}, {"type": "custom", "require": "Module", "fqn-method": "Module::EXPORT::DEFAULT::&writer", "args": { "name": "w3" }} ] } ``` ## Filter configuration ### FilterConf `Filter` creates by `FilterConf` - a configuration object which contains all necessary information and algorithm for creating a concrete `filter` instance. For more information, please look at the methods' declarators in `LogP6::FilterConf`. ### Standard FilterConf Standard `FilterConf` (`LogP6::FilterConf::Std`) has array for `do-before` subs and array for `do-after` subs. `Filter` made by standard `FilterConf` calls each `do-before` sub and stop at the first `False` returned value. If all `do-before` subs returned `True`, then the filter's `do-before` method returns `True`. The `do-after` works in the same way. Also, there is a `first-level-check` property. If it is set to `True`, then the sub for checking log level will be added automatically as the first element in `do-before` array; if the property set to `False` then the sub will be added automatically as the last element in `do-before` array. ### Filter factory subroutines `LogP6` module has the following subs for manage filters configurations: - `get-filter(Str:D $name --> LogP6::FilterConf)` - gets filter with specified name - `filter(:$name, :$level, :$first-level-check, List :$before-check, List :$after-check, :create, :update, :replace --> LogP6::FilterConf)` - create, update, or replace standard `FilterConf` with a specified name. If you want to `:update` only concrete fields in already created configuration then the rest fields will not be changed. In the case of `:replace`, the new configuration will be created and replaced the old one. You can create a configuration without a name - then the configuration will not be stored but only returned to you. The method returns the old filter configuration (`:update`, `:replace`) and the new one (`:create`); - `level($level --> LogP6::FilterConf:D)` - the short form for `filter(:level($level), :create)`; - `filter(LogP6::FilterConf:D $filter-conf, :create, :replace)` - save or replace any implementation of `FilterConf`. The configuration name will be retrieved from the `$filter-conf`. The method returns the old filter configuration (`:replace`) and the new one (`:create`); - `filter(:$name, :$remove)` - remove and return a configuration with specified name. ### Filter configuration file In the configuration file, filter configurations have to be listed in the `filters` array. Only `std` (for standard configuration) and `custom` types are supported. In the case of standard configuration, all fields are optional excepts `name`. `before-check` and `after-check` are arrays with `custom` typed elements. In the case of the `custom` filter type, the result filter configuration has to returns not empty name. Example: ```json { "filters": [ {"type": "std", "name": "f1", "level": "error", "first-level-check": false}, {"type": "std", "name": "f2", "level": "info", "before-check": [{ "require": "MyModule", "fqn-method": "MyModule::EXPORT::DEFAULT::&before-check" }]}, {"type": "custom", "require": "MyModule", "fqn-class": "MyModule::MyFilter", "args": { "name": "f3" }} ] } ``` ## Defaults Standard filters and writers have fields and options which affect their work. Some of them you can specify in factory subroutines or configuration file fields. If such arguments are omitted, then the default values of it will be used. Other fields and options cannot be setter this way. For example, the pattern for an exception that will be concatenated to the main pattern in the standard writer when `auto-exceptions` sets to `True` (see [Standard WriterConf](#standard-writerconf)). Such properties have default values too. All the defaults can be set through factory subroutines or fields in the configuration file. Configuring default values is useful in case you what to avoid many boilerplate configurations. ### Defaults factory subroutines There are the following factory subs for set defaults values: - `set-default-pattern(Str:D $pattern)` - set default pattern for the standard `WriterConf`. Default value is `'[%date{$hh:$mm:$ss}][%level] %msg'`; - `set-default-auto-exceptions(Bool:D $auto-exceptions)` - set default `auto-exceptions` property value for the standard `WriterConf`. Default value is `True`; - `set-default-handle(IO::Handle:D $handle)` - set default handle for the standard `WriterConf`. Default value is `$*OUT`; - `set-default-x-pattern(Str:D $x-pattern)` - set pattern for exception that will be concatenated to the main pattern in standard `WriterConf` in case `auto-exceptions` sets to `True` (see [Standard WriterConf](#standard-writerconf)). Default value is `'%x{ Exception $name: $msg' ~ "\n" ~ '$trace}'` - `set-default-level(LogP6::Level:D $level)` - set default level for the standard `WriterConf`. Default value is `LogP6::Level::error`; - `set-default-first-level-check(Bool:D $first-level-check)` - set default value of `first-level-check` property of the standard `FilterConf` (see [Standard FilterConf](#standard-filterconf)). Default value is `True`; - `set-default-wrapper(LogP6::Wrapper $wrapper)` - set wrapper for loggers (see [Logger Wrapper](#logger-wrapper)). Default value is `LogP6::Wrapper::Transparent::Wrapper.new`. ### Defaults configuration file You can configure default values in the configuration file through the following json fields of a root object: - `"default-pattern": ` - for default pattern for writers with `std` type; - `"default-auto-exceptions": ` - for default `auto-exceptions` field value for writers with `std` type; - `"default-handle": ` - for default handle for writers with `std` type; - `"default-x-pattern": ` - for default exceptions pattern for writers with `std` type; - `"default-level": ` - for default level for filters with `std` type; - `"default-first-level-check": ` - for `first-level-check` value for filters with `std` type; - `"default-wrapper": ` - for wrapper for loggers. `Wrapper` can be: - `time` type for `LogP6::Wrapper::SyncTime::Wrapper`. It takes obligatory `"seconds": ` and optional `"config-path": ` addition fields; - `each` type for `LogP6::Wrapper::EachTime::Wrapper`. It takes optional `"config-path": ` addition field; - `transparent` type for `LogP6::Wrapper::Transparent::Wrapper`; - `custom` type. ## Cliche `Cliche` is a template for creating Logger. Each `cliche` has `cliche's matcher` - literal or regex field. When you what to get logger for some `logger trait`, then the logger system tries to find a `cliche` with `matcher` the `trait` satisfies (by smartmatch). If there is more than one such cliche, then the most recent created will be picked. The picked `cliche`'s content will be used for making the new logger. Cliche contains writers and filters configurations pairs called `grooves` and own `defaults` values which overrides global `defaults` values (see [Defaults](#defaults)). You can use the same writer and/or filter in several `grooves`. If the `grooves` list is empty or missed, the created logger will drop all logs you pass to it; ### Cliche factory subroutines `LogP6` module has the following subs for manage cliches configurations: - `cliche(:$name!, :$matcher!, Positional :$grooves, :$wrapper, :$default-pattern, :$default-auto-exceptions, :$default-handle, :$default-x-pattern, :$default-level, :$default-first-level-check, :create, :$replace)` - create or replace cliche with specified name and matcher. All passed `defaults` overrides globals `defaults` in within the cliche. `$grooves` is a `Positional` variable with alternating listed `writers` and `filters`. `$grooves` will be flatted before analysis - you can pass into it a list of two elements lists or any structure you want. Elements of `$grooves` can be either name of already stored writers and filters, already stored writers and filters with names, or writers and filters without names. In the last case, the writer or filter will be stored with a generated UUID name automatically. The method returns the old cliche (`:replace`) and the new one (`:create`); - `cliche(LogP6::Cliche:D $cliche, :create, :replace)` - save or replace cliche; - `cliche(:$name!, :remove)` - remove and return a cliche with specified name. ### Cliche configuration file In the configuration file, cliches have to be listed in the `cliches` array. It has the following fields: - `"name": ` - obligatory name of cliche; - `"matcher": ` - cliche matcher. If the matcher value starts and ends with `/` symbol, then the matcher is interpreted as regex; in another case, it is a literal; - `"grooves": [, , , , ... ]` - grooves, list of writers' and filters' names; - defaults - the same fields with the same possible values as described in [Defaults configuration file](#defaults-configuration-file) excepts `default-wrapper` - you need to use the `wrapper` field name. Example: ```json { "cliches": [{ "name": "c1", "matcher": "/bo .+ om/", "grooves": [ "w1", "f1", "w2", "f1" ], "wrapper": { "type": "transparent" }, "default-pattern": "%level %msg" }] } ``` ## Default logger In any way you configured your cliches by the factory routines or configuration file or did not use non of them, the `default cliche` will be in the logger library. Default cliche corresponds to the following configuration: `cliche(:name(''), :matcher(/.*/), grooves => (writer(:name('')), filter(:name(''))))`. In other words, default cliche has an empty string name, matches any trait, has only one groove with empty (uses all defaults) writer with an empty string name and with empty (uses all defaults) filter with an empty string name. It means, by default, you do not need to configure anything at all. But you can change the default cliche or default writer and filter by factory subroutines or in the configuration file. Note that if the `LogP6` library does not find cliche with matcher logger trait satisfies, then an exception will be thrown. ## Change configuration Sometimes you may need to change logger configuration in runtime execution. It can be simply done by factory subroutines. After calling any factory subroutine, all loggers for already used `logger traits` will be recreated, and you can get it by `get-logger($trait)` sub. If you already got logger, use synchronization wrapper, then the wrapper will sync the logger himself correspond to its algorithm. Another way of change configuration is by using configuration file modification. Changes in the configuration file will be detected only if you are already using any of the synchronization wrappers (in `defaults` or one of `cliches`). After any change detection, all already configured configuration will be dropped and created new from the file. # EXAMPLES Lets explore a few general use cases: ## Use an external library that uses LogP6 `LogP6` can be used during library development, and a user of the library wants entirely turn off any logs from the library. Let's imagine that all library loggers' traits start with `LIBNAME` letters. In this case, we can create a `cliche` with corresponding `matcher` and empty `grooves` - all library logs will be dropped. In `Raku`: ```perl6 use LogP6 :configure; cliche(:name('turn off LIBNAME'), :matcher(/^LIBNAME .*/), :wrapper(LogP6::Wrapper::Transparent::Wrapper.new)); ``` Or in the configuration file: ```json { "cliches": [{"name": "turn off LIBNAME", "matcher": "/^LIBNAME .*/", "wrapper": {"type": "transparent"}}] } ``` We use wrapper without synchronization (transparent) because we do not plan to change the library loggers' configuration. ## Change console application verbosity level Let's imagine we are writing a console application, and we want to add the flag `--verbose` for getting a more detailed output. Lets using a particular logger for application console output instead of using simple `say` and change filter level according to the user's choice: In `Raku`: ```perl6 use LogP6 :configure; cliche(:name, :matcher, grooves => ( writer(:pattern('%msg'), :handle($*OUT)), filter(:name, :level($info)) )); sub MAIN(Bool :$verbose) { filter(:name, :level($debug), :update) if $verbose; my $say = get-logger('say'); $say.info('Greetings'); $say.debugf('You set verbose flag to %s value', $verbose); } ``` In that case, we do not need to use the configuration file. But if you want, then you can remove the line with `cliche` creation and add the following configuration file: ```json { "writers": [{ "type": "std", "name": "say", "pattern": "%msg", "handle": { "type": "std", "path": "out" }}], "filters": [{ "type": "std", "name": "verbosity", "level": "info"}], "cliches": [{ "name": "output", "matcher": "say", "grooves": [ "say", "verbosity" ]}] } ``` ## Conditional log calls Sometimes you may need to log information that required additional calculation. It is useful to know whether the log will be written or not before the calculation. Logger's `-on` methods were created especially for that. It will return a particular object (or Any) with `log` and `logf` methods you can use to log with the corresponding log level. Please look at the example below: ```perl6 use LogP6 :configure; # set logger allowed level as INFO filter(:name(''), :level($info), :update); my $log = get-logger('condition'); my %map; my $str; # ... # to-json will not be called here, because .debug-on returned Any for now .log(to-json(%map, :pretty, :sorted-keys)) with $log.debug-on; # from-json will be called here, because .warn-on returned a little logger # log will be with WARN level .log(from-json($str)) with $log.warn-on; with $log.trace-on { # this block will not be executed for now my $user-id = retrive-the-first-user-id-from-db(); # use logf method to use sprintf-style logs .logf('the first user id in the database is %d', $user-id); } # Be careful with '.?' operator. Sins it is not an operator but syntax-sugar # to-json will be called in any case, but log will not be written for now. $log.debug-on.?log(to-json(%map, :pretty, :sorted-keys)); ``` ## Associate logs with concrete user Let's imagine we write a server application. Many users can connect to the server simultaneously and do some action, which produces log messages in a log file. If some exception will be caught and log, we want to reconstruct the user's execution flow to understand what went wrong. But needful records in the log file will be alongside logs from other users' actions. In such cases, we need to associate each log entry with some user id. Then we can grep the log file for the user id. For that, use `MDC`. In `Raku`: ```perl6 use LogP6 :configure; cliche(:name, :matcher, grooves => ( writer( :pattern('[%date{$hh:$mm:$ss:$mss}][user:%mdc{user-id}]: %msg'), :handle('logfile.log'.IO.open)), level($info) )); my $server-log = get-logger('server-log'); sub database-read() { # note we do not pass $user in the sub $server-log.info('read from database'); # [23:35:43:1295][user:717]: read from database # read CATCH { default { $server-log.error('database fail', :x($_)); # [23:35:44:5432][user:717]: database fail Exception X::AdHoc "database not found" }} } sub enter(User $user) { $server-log.mdc-put('user-id', $user.id); $server-log.info('connected'); # [23:35:43:1245][user:717]: connected database-read(); $server-log.info('disconnected'); # [23:35:44:9850][user:717]: disconnected $server-log.mdc-remove('user-id'); # it is not necessary to remove 'user-id' value from MDC } ``` The same configuration you can write in the configuration file: ```json { "writers": [{ "type": "std", "name": "logfile", "pattern": "[%date{$hh:$mm:$ss:$mss}][user:%mdc{user-id}]: %msg", "handle": { "type": "file", "path": "logfile.log" }}], "filters": [{ "type": "std", "name": "logfile", "level": "info"}], "cliches": [{ "name": "logfile", "matcher": "server-log", "grooves": [ "logfile", "logfile" ]}] } ``` ## Filter log by its content Imagine we have an application that may write sensible content to log files, for example, user passwords. And we want to drop such sensible logs. We can use a particular sub in `do-before` action of log's `filter`. In `Raku`: ```perl6 unit module Main; use LogP6 :configure; sub drop-passwords($context) is export {...} cliche(:name, :matcher, grooves => ( writer(:pattern('%msg'), :handle('logfile.log'.IO.open)), filter(:level($info), before-check => (&drop-passwords)) )); sub drop-passwords($context) { return False if $context.msg ~~ / password /; # If you want to remove a password from the log entry instead of dropping it, # you can remove the password from the message and store it in the context like: # # $context.msg-set(remove-password($context.msg)); True; } sub connect(User $user) { get-logger('log').infof('user with name %s and password %s connected', $user.id, $user.passwd); } ``` The same configuration you can write in the configuration file: ```json { "writers": [{ "type": "std", "name": "writer", "pattern": "%msg", "handle": { "type": "file", "path": "logfile.log" }}], "filters": [{ "type": "std", "name": "pass-filter", "level": "info", "before-check": [{ "require": "Main", "fqn-method": "Main::EXPORT::DEFAULT::&drop-passwords" }]}], "cliches": [{ "name": "logfile", "matcher": "server-log", "grooves": [ "writer", "pass-filter" ]}] } ``` ## Write one log in several outputs Let's imagine we have an application that works with several types of a database -- for example, Oracle and SQLite. We want to log work with the databases. But we want to store Oracle related logs in `oracle.log` and `database.log` files, and SQLite related records only in `database.log`. In this case, we need a straightforward logger for SQLite related logs and another one (with two grooves) for Oracle associated logs. In `Raku`: ```perl6 use LogP6 :configure; set-default-pattern('%msg'); writer(:name, :handle('database.log'.IO.open)); writer(:name, :handle( 'oracle.log'.IO.open)); filter(:name, :level($info)); cliche(:name, :matcher, grooves => ('database', 'filter', 'oracle', 'filter')); cliche(:name, :matcher, grooves => ('database', 'filter')); sub oracle-db-fetch() { get-logger('oracle').info('fetch data'); # fetch } sub sqlite-db-fetch() { get-logger('sqlite').info('fetch data'); # fetch } ``` The same configuration you can write in the configuration file: ```json { "default-pattern": "%msg", "writers": [ { "name": "database", "type": "std", "handle": { "type": "file", "path": "database.log"}}, { "name": "oracle", "type": "std", "handle": { "type": "file", "path": "oracle.log" }} ], "filters": [{ "name": "filter", "type": "std", "level": "info" }], "cliches": [ { "name": "oracle", "matcher": "oracle", "grooves": [ "database", "filter", "oracle", "filter" ]}, { "name": "sqlite", "matcher": "sqlite", "grooves": [ "database", "filter" ]} ] } ``` ## Write logs in journald Let's imagine you want to store logs in journald service. You can use `LogP6::Writer::Journald` module for that. For more information, please look at the writer module README. Example of configuration: In `Raku`: ```perl6 use LogP6 :configure; writer(LogP6::WriterConf::Journald.new( # name, pattern and auto-exceptions as in standard writer :name, :pattern('%msg'), :auto-exeptions # which additional information must be written :use-priority, # write 'PRIORITY=' field to journald automatically :use-mdc # write all MDC contend as field to journald in 'key=value' format )); ``` The same configuration you can write in the configuration file: ```json {"writers": [{ "type": "custom", "require": "LogP6::WriterConf::Journald", "fqn-class": "LogP6::WriterConf::Journald", "args": { "name": "to-journald", "pattern": "%msg", "auto-exceptions": true, "use-priority": true, "use-mdc": true } }]} ``` ## Write custom writer handle for your need Sometimes you may need to write log to some exotic place. In this case you will need to implement your own `Writer` and its `WriterConf`. In simple cases, it would be enough to implement your own `IO::Handle` for the standard writer. For example, there is no de-facto must-use library for working with databases yet. That is why there is no particular writer for it in `LogP6`. But let's try to write it now: Imagine we decided to use `SQLite` database and `DB::SQLite` library. We can ask the standard writer to prepare SQL insert expression for us. Therefore we can only write custom `IO::Handle`. Fortunately, it is easy in `6.d` version: ```perl6 unit module MyDBHandle; use DB; use DB::SQLite; class DBHandle is IO::Handle { has Str $.filename is required; has DB $!db; submethod TWEAK() { self.encoding: 'utf8'; # open database file and create table for logging $!db = DB::SQLite.new(:$!filename); $!db.execute('create table if not exists logs (date text, level text, log text)'); } method WRITE(IO::Handle:D: Blob:D \data --> Bool:D) { # decode Blob data and execute. we expect the valid sql dml expression in data. $!db.execute(data.decode()); True; } method close() { $!db.finish } # close database method READ(|) { #`[do nothing] } method EOF { #`[do nothing] } } ``` It is all we need. Now we can write the `LogP6` configuration. In `Raku`: ```perl6 use MyDBModule; use LogP6 :configure; writer( :name, # pattern provides us a valid sql dml expression :pattern('insert into logs (date, level, log) values (\'%date\', \'%level\', \'%msg%x{ - $name $msg $trace}\')'), # handle with corresponding database filename handle => DBHandle.new(:filename), # turn off auto-exceptions because it will corrupt our sql dml expression :!auto-exceptions ); cliche(:name, :matcher, grooves => ('db', level($trace))); my $log-db = get-logger('db'); $log-db.info('database logging works well'); ``` The same configuration you can write in the configuration file: ```json { "writers": [{ "type": "std", "name": "db", "pattern": "insert into logs (date, level, log) values ('%date', '%level', '%msg%x{ - $name $msg $trace}'", "handle": { "type": "custom", "require": "MyDBModule", "fqn-class": "MyDBModule::DBHandle", "args": { "filename": "database-log.sqlite" } }, "auto-exceptions": false }], "filters": [{ "name": "filter", "type": "std", "level": "trace" }], "cliches": [{ "name": "db", "matcher": "db", "grooves": [ "db", "filter" ] }] } ``` ## Rollover log files Log files tend to grow in size. There is `IO::Handle::Rollover` module to prevent such uncontrolled growth. For example, you decided to store only 30MB of logs separated into three files for convenience. For that, you only need to create a custom handle with an `open` routine like that: In `Raku`: ```perl6 use IO::Handle::Rollover; my $handle = open("log.txt", :w, :rollover, :file-size<10M>, :3history-size); ``` The same initialization you can write in the configuration file: ```json { ... "handle": { "type": "custom", "require": "IO::Handle::Rollover", "fqn-method": "IO::Handle::Rollover::EXPORT::DEFAULT::&open", "positional": [ "log.txt" ], "args": { "w": true, "rollover": true, "file-size": "10M", "history-size": 3 } } ... } ``` You can use the handle as any other output handles, for example, in LogP6 writers. For more information, see the documentation for the `IO::Handle::Rollover` module. # BEST PRACTICE Try to use good traits for your loggers. If you use loggers in your library, then probably using one prefix in all your traits is the best option. It allows users of your library to manage your loggers easily. Try to choose a logger trait according to logger semantic or location. For example, you can use `$?CLASS.^name` as a logger trait in any of your classes or traits like `database`, `user management`, or so. If you use logger within a class then make the logger be a class field like `has $!log = get-logger('$?CLASS.^name');` If you use logger withing a subroutines logic then make a special sub for retrieve logger like `sub log() { state $log = get-logger('trait'); }`. Then use it like `log.info('msg');` It prevents any side effects caused by precompilation. # SEE OLSO - [LogP6::Writer::Journald](https://modules.raku.org/dist/LogP6-Writer-Journald:cpan:ATROXAPER) - [IO::Handle::Rollover](https://modules.raku.org/dist/IO-Handle-Rollover:cpan:ATROXAPER) # ROADMAP - Add a `Cro::Transform` for using `LogP6` in `cro` applications. # AUTHOR Mikhail Khorkov Source can be located at: [github](https://github.com/atroxaper/p6-LogP6). Comments and Pull Requests are welcome. # COPYRIGHT AND LICENSE Copyright 2020 Mikhail Khorkov This library is free software; you can redistribute it and/or modify it under the Artistic License 2.0.