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329 строки
12 KiB
ReStructuredText
====
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mach
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====
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Mach (German for *do*) is a generic command dispatcher for the command
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line.
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To use mach, you install the mach core (a Python package), create an
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executable *driver* script (named whatever you want), and write mach
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commands. When the *driver* is executed, mach dispatches to the
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requested command handler automatically.
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Features
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========
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On a high level, mach is similar to using argparse with subparsers (for
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command handling). When you dig deeper, mach offers a number of
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additional features:
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Distributed command definitions
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With optparse/argparse, you have to define your commands on a central
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parser instance. With mach, you annotate your command methods with
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decorators and mach finds and dispatches to them automatically.
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Command categories
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Mach commands can be grouped into categories when displayed in help.
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This is currently not possible with argparse.
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Logging management
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Mach provides a facility for logging (both classical text and
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structured) that is available to any command handler.
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Settings files
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Mach provides a facility for reading settings from an ini-like file
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format.
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Components
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==========
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Mach is conceptually composed of the following components:
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core
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The mach core is the core code powering mach. This is a Python package
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that contains all the business logic that makes mach work. The mach
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core is common to all mach deployments.
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commands
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These are what mach dispatches to. Commands are simply Python methods
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registered as command names. The set of commands is unique to the
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environment mach is deployed in.
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driver
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The *driver* is the entry-point to mach. It is simply an executable
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script that loads the mach core, tells it where commands can be found,
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then asks the mach core to handle the current request. The driver is
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unique to the deployed environment. But, it's usually based on an
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example from this source tree.
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Project State
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=============
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mach was originally written as a command dispatching framework to aid
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Firefox development. While the code is mostly generic, there are still
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some pieces that closely tie it to Mozilla/Firefox. The goal is for
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these to eventually be removed and replaced with generic features so
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mach is suitable for anybody to use. Until then, mach may not be the
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best fit for you.
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Implementing Commands
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---------------------
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Mach commands are defined via Python decorators.
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All the relevant decorators are defined in the *mach.decorators* module.
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The important decorators are as follows:
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CommandProvider
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A class decorator that denotes that a class contains mach
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commands. The decorator takes no arguments.
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Command
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A method decorator that denotes that the method should be called when
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the specified command is requested. The decorator takes a command name
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as its first argument and a number of additional arguments to
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configure the behavior of the command.
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CommandArgument
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A method decorator that defines an argument to the command. Its
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arguments are essentially proxied to ArgumentParser.add_argument()
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Classes with the *@CommandProvider* decorator *must* have an *__init__*
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method that accepts 1 or 2 arguments. If it accepts 2 arguments, the
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2nd argument will be a *MachCommandContext* instance. This is just a named
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tuple containing references to objects provided by the mach driver.
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Here is a complete example::
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from mach.decorators import (
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CommandArgument,
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CommandProvider,
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Command,
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)
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@CommandProvider
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class MyClass(object):
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@Command('doit', help='Do ALL OF THE THINGS.')
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@CommandArgument('--force', '-f', action='store_true',
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help='Force doing it.')
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def doit(self, force=False):
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# Do stuff here.
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When the module is loaded, the decorators tell mach about all handlers.
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When mach runs, it takes the assembled metadata from these handlers and
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hooks it up to the command line driver. Under the hood, arguments passed
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to the decorators are being used to help mach parse command arguments,
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formulate arguments to the methods, etc. See the documentation in the
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*mach.base* module for more.
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The Python modules defining mach commands do not need to live inside the
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main mach source tree.
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Conditionally Filtering Commands
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--------------------------------
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Sometimes it might only make sense to run a command given a certain
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context. For example, running tests only makes sense if the product
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they are testing has been built, and said build is available. To make
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sure a command is only runnable from within a correct context, you can
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define a series of conditions on the *Command* decorator.
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A condition is simply a function that takes an instance of the
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*CommandProvider* class as an argument, and returns True or False. If
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any of the conditions defined on a command return False, the command
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will not be runnable. The doc string of a condition function is used in
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error messages, to explain why the command cannot currently be run.
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Here is an example:
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from mach.decorators import (
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CommandProvider,
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Command,
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)
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def build_available(cls):
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"""The build needs to be available."""
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return cls.build_path is not None
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@CommandProvider
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class MyClass(MachCommandBase):
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def __init__(self, build_path=None):
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self.build_path = build_path
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@Command('run_tests', conditions=[build_available])
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def run_tests(self):
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# Do stuff here.
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It is important to make sure that any state needed by the condition is
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available to instances of the command provider.
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By default all commands without any conditions applied will be runnable,
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but it is possible to change this behaviour by setting *require_conditions*
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to True:
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m = mach.main.Mach()
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m.require_conditions = True
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Minimizing Code in Commands
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---------------------------
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Mach command modules, classes, and methods work best when they are
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minimal dispatchers. The reason is import bloat. Currently, the mach
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core needs to import every Python file potentially containing mach
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commands for every command invocation. If you have dozens of commands or
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commands in modules that import a lot of Python code, these imports
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could slow mach down and waste memory.
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It is thus recommended that mach modules, classes, and methods do as
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little work as possible. Ideally the module should only import from
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the *mach* package. If you need external modules, you should import them
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from within the command method.
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To keep code size small, the body of a command method should be limited
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to:
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1. Obtaining user input (parsing arguments, prompting, etc)
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2. Calling into some other Python package
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3. Formatting output
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Of course, these recommendations can be ignored if you want to risk
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slower performance.
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In the future, the mach driver may cache the dispatching information or
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have it intelligently loaded to facilitate lazy loading.
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Logging
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=======
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Mach configures a built-in logging facility so commands can easily log
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data.
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What sets the logging facility apart from most loggers you've seen is
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that it encourages structured logging. Instead of conventional logging
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where simple strings are logged, the internal logging mechanism logs all
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events with the following pieces of information:
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* A string *action*
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* A dict of log message fields
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* A formatting string
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Essentially, instead of assembling a human-readable string at
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logging-time, you create an object holding all the pieces of data that
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will constitute your logged event. For each unique type of logged event,
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you assign an *action* name.
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Depending on how logging is configured, your logged event could get
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written a couple of different ways.
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JSON Logging
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------------
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Where machines are the intended target of the logging data, a JSON
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logger is configured. The JSON logger assembles an array consisting of
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the following elements:
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* Decimal wall clock time in seconds since UNIX epoch
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* String *action* of message
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* Object with structured message data
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The JSON-serialized array is written to a configured file handle.
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Consumers of this logging stream can just perform a readline() then feed
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that into a JSON deserializer to reconstruct the original logged
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message. They can key off the *action* element to determine how to
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process individual events. There is no need to invent a parser.
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Convenient, isn't it?
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Logging for Humans
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------------------
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Where humans are the intended consumer of a log message, the structured
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log message are converted to more human-friendly form. This is done by
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utilizing the *formatting* string provided at log time. The logger
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simply calls the *format* method of the formatting string, passing the
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dict containing the message's fields.
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When *mach* is used in a terminal that supports it, the logging facility
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also supports terminal features such as colorization. This is done
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automatically in the logging layer - there is no need to control this at
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logging time.
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In addition, messages intended for humans typically prepends every line
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with the time passed since the application started.
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Logging HOWTO
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-------------
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Structured logging piggybacks on top of Python's built-in logging
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infrastructure provided by the *logging* package. We accomplish this by
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taking advantage of *logging.Logger.log()*'s *extra* argument. To this
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argument, we pass a dict with the fields *action* and *params*. These
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are the string *action* and dict of message fields, respectively. The
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formatting string is passed as the *msg* argument, like normal.
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If you were logging to a logger directly, you would do something like:
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logger.log(logging.INFO, 'My name is {name}',
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extra={'action': 'my_name', 'params': {'name': 'Gregory'}})
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The JSON logging would produce something like:
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[1339985554.306338, "my_name", {"name": "Gregory"}]
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Human logging would produce something like:
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0.52 My name is Gregory
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Since there is a lot of complexity using logger.log directly, it is
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recommended to go through a wrapping layer that hides part of the
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complexity for you. The easiest way to do this is by utilizing the
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LoggingMixin:
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import logging
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from mach.mixin.logging import LoggingMixin
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class MyClass(LoggingMixin):
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def foo(self):
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self.log(logging.INFO, 'foo_start', {'bar': True},
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'Foo performed. Bar: {bar}')
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Entry Points
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============
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It is possible to use setuptools' entry points to load commands
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directly from python packages. A mach entry point is a function which
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returns a list of files or directories containing mach command
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providers. e.g.::
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def list_providers():
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providers = []
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here = os.path.abspath(os.path.dirname(__file__))
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for p in os.listdir(here):
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if p.endswith('.py'):
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providers.append(os.path.join(here, p))
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return providers
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See http://pythonhosted.org/setuptools/setuptools.html#dynamic-discovery-of-services-and-plugins
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for more information on creating an entry point. To search for entry
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point plugins, you can call *load_commands_from_entry_point*. This
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takes a single parameter called *group*. This is the name of the entry
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point group to load and defaults to ``mach.providers``. e.g.::
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mach.load_commands_from_entry_point("mach.external.providers")
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Adding Global Arguments
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=======================
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Arguments to mach commands are usually command-specific. However,
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mach ships with a handful of global arguments that apply to all
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commands.
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It is possible to extend the list of global arguments. In your
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*mach driver*, simply call ``add_global_argument()`` on your
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``mach.main.Mach`` instance. e.g.::
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mach = mach.main.Mach(os.getcwd())
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# Will allow --example to be specified on every mach command.
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mach.add_global_argument('--example', action='store_true',
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help='Demonstrate an example global argument.')
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