gearbox is a paster command replacement for TurboGears2. It has been created during the process of providing Python3 support to the TurboGears2 web framework, while still being backward compatible with the existing TurboGears projects.
gearbox can be installed from pypi:
easy_install gearbox
or:
pip install gearbox
should just work for most of the users
Just by installing gearbox itself your TurboGears project will be able to use gearbox system wide
commands like gearbox serve
, gearbox setup-app
and gearbox makepackage
commands.
These commands provide a replacement for the paster serve, paster setup-app and paster create commands.
The main difference with the paster command is usually only that gearbox commands explicitly set the
configuration file using the --config
option instead of accepting it positionally. By default gearbox
will always load a configuration file named development.ini, this mean you can simply run gearbox serve
in place of paster serve development.ini
To have a list of the available commands simply run gearbox --help
:
$ gearbox --help usage: gearbox [--version] [-v] [--log-file LOG_FILE] [-q] [-h] [--debug] TurboGears2 Gearbox toolset optional arguments: --version show program's version number and exit -v, --verbose Increase verbosity of output. Can be repeated. --log-file LOG_FILE Specify a file to log output. Disabled by default. -q, --quiet suppress output except warnings and errors -h, --help show this help message and exit --debug show tracebacks on errors Commands: help print detailed help for another command makepackage Creates a basic python package migrate Handles TurboGears2 Database Migrations quickstart Creates a new TurboGears2 project serve Serves a web application that uses a PasteDeploy configuration file setup-app Setup an application, given a config file tgshell Opens an interactive shell with a TurboGears2 app loaded scaffold Creates a new file from a scaffold template
Then it is possible to ask for help for a given command by using gearbox help command
:
$ gearbox help serve usage: gearbox serve [-h] [-n NAME] [-s SERVER_TYPE] [--server-name SECTION_NAME] [--daemon] [--pid-file FILENAME] [--reload] [--reload-interval RELOAD_INTERVAL] [--monitor-restart] [--status] [--user USERNAME] [--group GROUP] [--stop-daemon] [-c CONFIG_FILE] [args [args ...]] Serves a web application that uses a PasteDeploy configuration file positional arguments: args optional arguments: -h, --help show this help message and exit -n NAME, --app-name NAME Load the named application (default main) -s SERVER_TYPE, --server SERVER_TYPE Use the named server. --server-name SECTION_NAME Use the named server as defined in the configuration file (default: main) --daemon Run in daemon (background) mode --pid-file FILENAME Save PID to file (default to gearbox.pid if running in daemon mode) --reload Use auto-restart file monitor --reload-interval RELOAD_INTERVAL Seconds between checking files (low number can cause significant CPU usage) --monitor-restart Auto-restart server if it dies --status Show the status of the (presumably daemonized) server --user USERNAME Set the user (usually only possible when run as root) --group GROUP Set the group (usually only possible when run as root) --stop-daemon Stop a daemonized server (given a PID file, or default gearbox.pid file) -c CONFIG_FILE, --config CONFIG_FILE application config file to read (default: development.ini)
Installing the TurboGears 2.3 development tools you will get access some some gearbox commands specific
to TurboGears2 projects management, those are the gearbox quickstart
, gearbox tgshell
and
gearbox migrate
commands.
While the quickstart command will be automatically available, you will have to enable project scope plugins for gearbox before the other two became available. This will let gearbox know that you are running it inside a TurboGears2 project and so that the commands that only make sense for TurboGears2 projects will became available.
To enable gearbox migrate
and gearbox tgshell
commands make sure that your setup.py entry_points
look like:
entry_points={ 'paste.app_factory': [ 'main = makonoauth.config.middleware:make_app' ], 'gearbox.plugins': [ 'turbogears-devtools = tg.devtools' ] }
The paste.app_factory section will let gearbox serve
know how to create the application that
has to be served. Gearbox relies on PasteDeploy for application setup, so it required a paste.app_factory
section to be able to correctly load the application.
While the gearbox.plugins section will let gearbox itself know that inside that directory the tg.devtools
commands have to be enabled making gearbox tgshell
and gearbox migrate
available when we run gearbox
from inside our project directory.
By default launching gearbox without any subcommand will start the interactive mode.
This provides an interactive prompt where gearbox commands, system shell commands and python statements
can be executed. If you have any doubt about what you can do simply run the help
command to get
a list of the commands available (running help somecommand
will provide help for the given sub command).
If you are moving your TurboGears2 project from paster you will probably end serving your
application with Paste HTTP server even if you are using the gearbox serve
command.
The reason for this behavior is that gearbox is going to use what is specified inside the server:main section of your .ini file to serve your application. TurboGears2 projects quickstarted before 2.3 used Paste and so the projects is probably configured to use Paste#http as the server. This is not an issue by itself, it will just require you to have Paste installed to be able to serve the application, to totally remove the Paste dependency simply replace Paste#http with gearbox#wsgiref.
The gearbox#wsgiref also supports an experimental multithreaded version that
can be enabled by setting the wsgiref.threaded = true
option in your server
configuration section.
Gearbox cames with builtin support for gevent, so serving an application under Gevent is just a matter of using gearbox#gevent as your server inside the server:main section of the configuration file.
The gearbox gevent server will automatically monkeypatch all the python modules apart from the DNS related functions before loading your application. Not much more apart making sure that your code is gevent compatible is required.
Scaffolding is the process of creating a new component of your web application through a template or preset.
The gearbox scaffold
command permits to create new files from scaffolds (file templates)
which you can place inside your project itself. Scaffold files should be named with
.template
extension and can be used by running:
$ gearbox scaffold templatename target
This will create a target
file (do not provide the extension, that is specified inside
the templatename itself) starting from the templatename
scaffold.
A tipical scaffold filename will be named like model.py.template
and will look like:
class {{target.capitalize()}}(DeclarativeBase): __tablename__ = '{{target.lower()}}s' uid = Column(Integer, primary_key=True) data = Column(Unicode(255), nullable=False)
patch
is one of the few builtin commands of Gearbox and is commonly used to
update code. You can think of it as an easier to used sed command mixed with python.
Here are a few examples, this will replace all xi:include occurrences with py:extends in all the template files recursively:
$ gearbox patch -R '*.html' xi:include -r py:extends
It is also possible to rely on regex and python for more complex replacements, like updating the Copyright year in your documentation:
$ gearbox patch -R '*.rst' -x 'Copyright(\s*)(\d+)' -e -r '"Copyright\\g<1>"+__import__("datetime").datetime.utcnow().strftime("%Y")'
Please refer to gearbox help patch
for available options.
gearbox relies on the Cliff command framework for commands crations. Most of what the Cliff documentation states is perfectly valid for gearbox commands, some differences only apply in the case of Template based commands.
Writing new gearbox template commands is as simple as creating a gearbox.command.TemplateCommand subclass and place it inside a command.py file in a python package.
Inherit from the class and implement the get_description, get_parser and take_action methods as described by the documentation.
The only difference is that your take_action method has to end by calling self.run_template(output_dir, opts)
where output_dir is the directory where the template output has to be written and opts are the command options
as your take_action method received them.
When the run_template command is called Gearbox will automatically run the template directory in the same package where the command was available.
Each file ending with the _tmpl syntax will be processed with the Tempita template engine and whenever the name of a file or directory contains +optname+ it will be substituted with the value of the option having the same name (e.g., +package+ will be substituted with the value of the --package options which will probably end being the name of the package).