Add most of the structure! plus several Base Layer docs

This commit is contained in:
Lance Edgar 2021-01-07 16:48:14 -06:00
parent 3704b59b8d
commit 98d6961370
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docs/_build/

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Borg
====
TODO

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Backup Layer
============
.. toctree::
:maxdepth: 2
:caption: Contents:
overview
borg

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Overview
========
TODO

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.. highlight:: sh
App Folder
==========
Here we describe the "app folder" (aka. "app dir"), for instance at
``/srv/envs/poser/app``, which contains all config and data for the app.
Rationale
---------
We'll use a typical Linux example here. Let's say we have a "poser" virtual
environment in the default location. By default the folder structure within
the virtual environment may look something like this:
.. code-block:: none
/srv/envs/poser
├── bin
├── include
├── lib
│   └── python3.8
├── man
└── share
Once the Python package(s) for our app have been installed to the virtual
environment, we will create an "app" folder in the environment root. This app
folder will contain all config, data and log files for the app.
The idea here is that a proper (minimal) backup for the app, should only
*require* this "app dir" but the other virtual environment folders need not be
included in the backup (although they still can be, of course).
Making the App Dir
------------------
This may be done with or without activating your virtual environment.
If your env is activated::
rattail make-appdir
If your env is *not* activated::
cd /srv/envs/poser
bin/rattail make-appdir
Structure
---------
Keep in mind that the following is just an example. Each app is unique and
many of the folders described below can live elsewhere as long as the app is
configured appropriately. But this example is "typical" so its conventions
should be used unless there is a good reason not to.
For the sake of completeness here we will assume a fairly robust app, which
uses several possible features and has been running a while. Here is what the
final virtual environment may look like:
.. code-block:: none
/srv/envs/poser
├── app
│   ├── data
│   │   ├── batches
│   │   │   ├── inventory
│   │   │   ├── vendor_catalog
│   │   │   └── vendor_invoice
│   │   ├── exports
│   │   │   ├── instacart_product_export
│   │   │   └── report_output
│   │   ├── templates
│   │   ├── upgrades
│   │   └── uploads
│   ├── log
│   ├── luigi
│   │   ├── 2020
│   │   ├── 2021
│   │   └── log
│   ├── luigitasks
│   ├── sessions
│   │   ├── data
│   │   └── lock
│   └── work
│   ├── csv
│   ├── generated-projects
│   └── user-files
├── bin
├── include
├── lib
│   └── python3.8
├── man
└── share
First you may note that the above does not include a "config" folder. All
config files, and most scripts, will generally live directly within the "app"
folder itself.
And now for a rundown of the "important" folders you do see above:
``app/data`` ideally contains all "true" data for the app. What we mean by
that is, any data which the app requires to be 100% fully functional. Much of
this data is generated by the app itself, but should remain available for later
display within the app.
``app/data/batches`` contains all data files used as input, or generated as
output, for various "batches" within the app.
``app/data/exports`` contains all "export" files generated by the app,
e.g. when certain reports are ran etc.
``app/data/templates`` may contain certain template files needed by the app
when it is generating various kinds of output.
``app/data/upgrades`` contains the before and after package snapshots, and
command output etc. when an app upgrade is executed.
``app/data/uploads`` is more of a temp folder, used to store files uploaded by
a user within the web app, until they are further processed.
``app/log`` is where all log files go for the app proper.
``app/luigi`` is where Luigi (if used) will keep track of which individual
tasks have already been ran for a given date.
``app/luigi/log`` will contain log files for both the Luigi server and client.
``app/luigitasks`` contains the task logic to be ran by Luigi.
``app/sessions`` contains the "user session" data for the web app(s).
``app/work`` is more of a temp folder; its contents may vary over time and are
not considered essential to the app.

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Running Commands
================
TODO
Typical Usage
-------------
TODO
Running as System User
----------------------
TODO
Usage with ``sudo``
-------------------
TODO

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.. highlight:: ini
Storing Config in DB
====================
We're getting ahead of ourselves a little here, if you're reading this manual
straight through. But for reference sake this probably belongs here.
Settings Table
--------------
If you already have a Rattail DB, then it has a table named ``setting`` which
is designed to store config values. It's just a regular table so you can write
settings via SQL if you like:
.. code-block:: sql
insert into setting (name, value) values ('rattail.app_title', 'Poser');
update setting set value = 'Something Else' where name = 'rattail.app_title';
Although the main reason for putting settings in the DB is usually so you can
edit them via the web app.
Telling App to Read Config from DB
----------------------------------
Well first of all we must assume that the DB connection itself is configured.
More on that later but let's say you have this in place::
[rattail.db]
default.url = postgresql://user:password@localhost/poser
Then you also must tell the Rattail config engine that a) it should read config
values from the DB at all, but probably also b) it should *prefer* values from
the DB over what was read from file. Do this within your config file::
[rattail.config]
usedb = true
preferdb = true
With this in place, when the app requests a config value, it will come from the
DB if present, falling back to the file value if that exists.
File vs. DB Setting Names
-------------------------
You may have noticed that the SQL examples above, and the examples used in
:doc:`syntax` are really for the same 'app_title' setting, but there is a key
difference in naming.
So in a config file you might have this snippet to define a setting::
[rattail]
app_title = Poser
But then that same setting is written in SQL as:
.. code-block:: sql
insert into setting (name, value) values ('rattail.app_title', 'Poser');
In other words the "section" and "option" names from the config file, are
joined together with a dot, for the DB setting name.
When the app requests a config value, it must specify both a section and
option. The config engine then will auto-join them as needed when doing DB
lookups.
.. code-block:: python
config.get('rattail', 'app_title')
Avoiding the DB
---------------
The app can request config from "file only" if it needs to. It just has to
specify a flag when reading the value, for example:
.. code-block:: python
config.get('rattail', 'app_title', usedb=False)

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Defined Settings
================
There are a number of config settings which a given Poser/Rattail app may
leverage. Most if not all are optional. We'll try to describe them here.
Note that we will present each in terms of a "section" and "option" pair,
i.e. using the naming convention found in a config file vs. that of DB.
TODO!

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Generating Config Files
=======================
Rattail is able to generate "starting point" config files for you, for any of
the types described in :doc:`paths`. Usually you will need to edit them
further, but the basic structure can be provided automatically.
Run any of these commands from your env root (e.g. ``/srv/envs/poser``)
depending on which types of files you need:
.. code-block:: sh
bin/rattail make-config -O app/ -T rattail
bin/rattail make-config -O app/ -T quiet
bin/rattail make-config -O app/ -T web
bin/rattail make-config -O app/ -T datasync
bin/rattail make-config -O app/ -T filemon
Each generated file should contain "TODO" comments directing your attention to
settings which may require adjustment.

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Configuration
=============
.. toctree::
:maxdepth: 2
:caption: Contents:
overview
syntax
paths
inheritance
generate
logging
db
defined

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.. highlight:: ini
Config File Inheritance
=======================
It may already be obvious, if you read :doc:`paths`, but it's possible for
config files to "inherit" from one another. The general idea is that all
config is collected from various files, when assembling the "final" config to
be used by the app.
For a simple example let's assume you have just 2 typical config files in your
app dir:
* ``/srv/envs/poser/app/rattail.conf``
* ``/srv/envs/poser/app/quiet.conf``
Let's say that ``rattail.conf`` is a "complete" config file and may be used
directly, as-is. And that ``quiet.conf`` is not complete but "inherits" from
``rattail.conf`` (as is typical) so that it also may be used directly.
In other words either of these commands should work when ran from
``/srv/envs/poser``:
.. code-block:: sh
bin/rattail -c app/rattail.conf make-uuid
bin/rattail -c app/quiet.conf make-uuid
The contents of ``quiet.conf`` are usually quite minimal::
[rattail.config]
include = %(here)s/rattail.conf
[handler_console]
level = INFO
The "include" option within "rattail.config" section above, tells the Rattail
config parser to bring in the contents of ``rattail.conf`` whenever it is
reading ``quiet.conf`` - although any settings defined in ``quiet.conf`` will
override whatever was brought in from ``rattail.conf``. (In this example,
``quiet.conf`` only needs to set ``level = INFO`` to cut down on some logging
output on the console.)
Caveats
-------
There is a gotcha which can break the inheritance logic, but it can be avoided
if you follow one simple rule:
The primary config file you reference when invoking the app
(e.g. ``bin/rattail -c qpp/quiet.conf ...``) must *not* contain a 'loggers'
section, i.e. it should *not* have a snippet like this::
[loggers]
keys = root, exc_logger, ...
To be clear the gotcha only exists when:
* config file which app is told to read, contains snippet like above
* config file has an ``include`` setting, meaning inheritance should happen
* config file also says to configure logging
The reason it breaks is that we let Python standard ``logging`` module take
care of the logging configuration, but it will try to do so using the specified
config file (e.g. ``quiet.conf``) *only* instead of doing so with the combined
result.
So again, just make sure there is no 'loggers' section in the config file you
present to your app. Or alternatively, you can make sure that same config file
*does* have all logging config within it, so e.g. inheritance would not affect
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.. highlight:: ini
Configuring Logging
===================
Rattail relies on Python standard ``logging`` module to configure logging.
However if :doc:`inheritance` is involved then Rattail will first combine all
applicable config files into a single file before handing that off to
`logging.config.fileConfig()`_.
.. _logging.config.fileConfig(): https://docs.python.org/3/library/logging.config.html#logging.config.fileConfig
Rattail does not do any of this though, unless config says to. So if you want
it to configure logging in this way, specify this in your config file::
[rattail.config]
configure_logging = true
Beyond that you must ensure your config file(s) contains appropriate settings
for logging. Rattail `has a sample`_ ``rattail.conf`` which includes a typical
logging section. (This is the source used to generate a new file when you run
``rattail make-config -T rattail`` command.)
.. _has a sample: https://kallithea.rattailproject.org/rattail-project/rattail/files/master/rattail/data/config/rattail.conf
See the Python docs for more info, in particular these sections:
* `Configuration file format <https://docs.python.org/3/library/logging.config.html#logging-config-fileformat>`_
* `Logging Levels <https://docs.python.org/3/howto/logging.html#logging-levels>`_
* `Useful Handlers <https://docs.python.org/3/howto/logging.html#useful-handlers>`_
* `Formatters <https://docs.python.org/3/howto/logging.html#formatters>`_

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Overview
========
The basic idea of course is that the app needs to be configurable, so the
question is how to go about that.
The short answer is, "We always use config files but can also store config in
the database where applicable."
The advantage to config files is that they are easier to get started with, but
also we can restrict access at the file system level, which means we can (more
safely) store sensitive information in them.
The advantage to storing config in DB, is that one can change config on-the-fly
using e.g. the web app. (Whereas changing a config file requires the app to be
restarted, so it will read the new file contents.)
Generally speaking, certain config which is needed during app startup (e.g. DB
access credentials and logging config), or which is deemed "sensitive"
(passwords, API keys etc.), is kept in config files, and the remainder is kept
in the DB (if there is one).
This behavior is itself configurable, but most typically, the app will not care
where a given setting is defined (file vs. DB) but if one is defined in both
places the DB value would win. But the app can request a config value from
"file only" and ignore the DB, where that is desirable (e.g. when reading
settings required for startup).
We are still in the Base Layer docs at this point, so we'll focus on the config
files first, and come back to the DB near the end.

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Typical File Paths
==================
Here we'll describe some typical locations and filenames for config.
App-Wide
--------
Every app will need at least one config file. The convention is to name this
file ``rattail.conf`` and place it directly in your app dir, e.g.
``/srv/envs/poser/app/rattail.conf``
Many apps will benefit from having multiple config files, primarily for the
sake of organization and "separation of concerns". A robust app with several
features then might have the following, all in its app dir:
``rattail.conf`` is considered the "core" config file for the app, which means
that no matter how you run the app, this file should be (in)directly referenced
somehow, so that it affects the runtime behavior.
``quiet.conf`` is meant to be used for ad-hoc app commands which you run from
the console. It is a thin wrapper around ``rattail.conf`` and merely tries to
cut down on some of the output (logging) "noise" from commands.
``cron.conf`` is also a thin wrapper, which cuts down on command output "noise"
and uses a custom logging file.
``web.conf`` is meant to be used by the standard web app only; it defines the
config needed to run the web app and uses a custom logging file.
``webapi.conf`` is meant to be used by the web API only; it defines the config
needed to run the web API and uses a custom logging file.
``datasync.conf`` is meant to be used only by the ``datasync`` commands; it
defines the config needed to run datasync and uses a custom logging file.
``filemon.conf`` is meant to be used only by the ``filemon`` commands; it
defines the config needed to run filemon and uses a custom logging file.
``bouncer.conf`` is meant to be used only by the ``bouncer`` commands; it
defines the config needed to run bouncer and uses a custom logging file.
Machine-Wide
------------
If you have several apps running on a given machine, you may wish to share some
"common" config among all the apps. If so you can make a "machine-wide" config
file to store that common config.
The convention here is to place the file at ``/etc/rattail/rattail.conf``
although you could do whatever you like.
Site-Wide
---------
This is similar to the machine-wide scenario, but if you have multiple
*machines* which run apps, you may wish to share the common config in such a
way that all machines could access it. We call this a "site-wide" config file.
How exactly you go about making this file available is beyond our scope here,
but a hint is to use Samba/CIFS. True location of the file would be anywhere
you like, on whichever machine you elected to be the provider of this common
config.

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.. highlight:: ini
Config File Syntax
==================
Rattail config files follow the traditional `INI file`_ syntax, e.g. here is a
snippet::
[rattail]
app_title = Poser
.. _INI file: https://en.wikipedia.org/wiki/INI_file
That example can be broken down into 3 parts:
* section (the name in square brackets, "rattail")
* option (the name of the setting being defined, "app_title")
* value (the value for the setting, "Poser")
When logic within the app needs to retrieve a value from config, it does so by
requesting both the section and option by name, for example:
.. code-block:: python
config.get('rattail', 'app_title') # returns "Poser"
Under the hood we use Python's `configparser`_ module to parse config files.
.. _configparser: https://docs.python.org/3/library/configparser.html
If you think it would be handy for your app to have a new setting for some
reason, just create one and use it like so::
[poser]
foo = bar
.. code-block:: python
config.get('poser', 'foo') # returns "bar"
So far our examples have been for simple string values. There is no way within
the standard INI file syntax, to define any data types other than string.
However the Rattail config parser/object can "coerce" values to a given type if
so requested, for example::
[poser]
foo_flag = true
foo_number = 42
foo_entries =
first
second
third
.. code-block:: python
config.getbool('poser', 'foo_flag') # returns True
config.getint('poser', 'foo_number') # returns 42
config.getlist('poser', 'foo_entries') # returns ["first", "second", "third"]

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Sending Email
=============
TODO
Postfix Setup
-------------
TODO
Types of Emails
---------------
TODO
Configuring SMTP
----------------
TODO
Configuring Recipients etc.
---------------------------
TODO
Customizing Templates
---------------------
TODO
How to programmatically send email
----------------------------------
TODO
Nod to email via error logging
------------------------------
TODO
Handling Email Bounces
----------------------
TODO

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File Monitoring
===============
TODO

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App Handlers
============
TODO

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Base Layer
==========
.. toctree::
:maxdepth: 2
:caption: Contents:
reqs
venv
install
appdir
config/index
commands
scripts
email
supervisor
filemon
handlers

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.. highlight:: sh
Installation
============
How exactly you install an app to your virtual environment can vary.
However they all involve using ``pip install`` in some way or another. And
therefore your virtual environment should be "activated" when running the
commands shown below.
Installing from PyPI
--------------------
If the app is published to the `Python Package Index`_ (PyPI) then you can just
``pip install`` it. For instance that is the case for `Theo`_, so if that's
what you're after then::
pip install tailbone-theo
.. _Python Package Index: https://pypi.org/
.. _Theo: https://pypi.org/project/tailbone-theo/
Installing from Source
----------------------
If you need (or want) to install from source, then of course the first step is
to obtain the source code for the app. Here we'll again use Theo as our example::
git clone https://kallithea.rattailproject.org/rattail-project/theo
Then you would install that to your virtual environment like so::
pip install -e ./theo
Sanity Check
------------
Before we do anything else let's confirm that you have the 'rattail' package
installed, at the very least. With your env still activated try this::
rattail --version
That of course should spit out a version number; if you see anything else then
you may need to troubleshoot that first.

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Requirements
============
The only "hard" requirement is a relatively modern Python 3.
For best results, as of this writing that should be 3.6+ although generally
speaking, the newer the better.
You should also know that more attention by far has been given to Linux over
the years. We'll try to ensure this manual works for Windows too but FYI that
it's possible we miss something. Thus far all production installs are done on
Debian or Ubuntu Linux so if you can use those then your experience may be
better.

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Writing Scripts
===============
TODO
Python Scripts
--------------
TODO
Shell Scripts
-------------
TODO

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Supervisord
===========
TODO
Linux Only...
-------------
TODO

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.. highlight:: sh
Virtual Environment
===================
Regardless of platform, you are strongly encouraged to use a `virtual
environment`_ for your app. This allows you to experiment with installation
without affecting the rest of your system.
.. _virtual environment: https://packaging.python.org/glossary/#term-Virtual-Environment
Choosing a Location
-------------------
It can be helpful to standardize the location of all virtual environments
regardless of their purpose. The tool you use to create a virtual environment
may (or may not) have opinions on that, but so do we:
This manual will assume one of the following based on platform:
* Linux - ``/srv/envs``
* Windows - ``C:\envs``
So for instance if you run Linux and make a new virtual environment named
"poser" then it would live in ``/srv/envs/poser`` according to the above.
Note that you may need to consider file permissions etc. when choosing your
actual location, but if possible you're encouraged to use the examples shown
here.
Choosing a User
---------------
To be thorough you may need to consider which user should "own" the virtual
environment and installed app. If you're just getting started then you can
skip this section for now and run all commands as yourself, then revisit the
issue later as needed.
Why the User Matters
^^^^^^^^^^^^^^^^^^^^
The virtual environment and installed app, its config and data files etc. must
be owned by someone after all. So at the most basic level the user matters
simply because it can't be "nobody" - a choice must be made.
Some config, data and/or log files may contain sensitive information (passwords
etc.) and should be "locked down" in some way to prevent unauthorized access.
So then the "owner" would have access to such files but perhaps no other users
would.
When app commands are ran, by yourself in the console or e.g. via cron job, the
user which the command "runs as" will matter, in the sense that this user will
need access to any "restricted" (e.g. config) files. So typically all commands
would be ran as the same user who "owns" the app.
User Options
^^^^^^^^^^^^
**"yourself"** - For instance my own username is 'lance' and so for convenience
in development, I might just run all commands as myself, and let all files be
owned by myself. This is the simplest option and most commands in this manual
will work as-is for this option.
**"root"** - When deploying the app to a server, maybe I am connecting to it
via SSH as the 'lance' user, but let's say I am just one of several users who
needs to connect, and so it doesn't make for 'lance' to be the file owner, or
to run app commands as 'lance'. You can, if you really want to, use 'root' as
the app owner/user, although you are encouraged to use one of the other options
below instead.
**"admin"** - In some organizations there is a dedicated "admin" user defined
within LDAP etc. If such a user is already present in the system then there
may be no reason not to use this for the app owner/user.
**"rattail"** - This option is my personal preference. Here we create a
dedicated system user whose sole purpose is to be the app owner/user. I always
name this user 'rattail' and you can think of it like the 'www-data' or
'postgres' user accounts. Basically this is a "true" system user meaning it
doesn't correspond to any person. But it can be defined on many machines for
automation's sake, e.g. if SSH keys are shared too then 'rattail' user on one
machine can effectively run 'rattail' commands on any other machine.
Creating a Virtual Environment
------------------------------
Please also see `Creating a virtual environment`_ in the Python Packaging User
Guide.
.. _Creating a virtual environment: https://packaging.python.org/guides/installing-using-pip-and-virtual-environments/#creating-a-virtual-environment
For our purposes, on Linux you can do this::
python3 -m venv /srv/envs/poser
Using a Virtual Environment
---------------------------
If you're new to virtual environments then you're encouraged to read over the
following, from the Python Packaging User Guide:
* `Activating a virtual environment <https://packaging.python.org/guides/installing-using-pip-and-virtual-environments/#activating-a-virtual-environment>`_
* `Leaving the virtual environment <https://packaging.python.org/guides/installing-using-pip-and-virtual-environments/#leaving-the-virtual-environment>`_
So for our Linux example you might activate with::
source /srv/envs/poser/bin/activate
*All* commands in this manual will assume you have a virtual environment, but
*most* of them will not require it to be "activated" to run the command. The
main exception to that is ``pip`` commands, which *do* assume the virtual
environment is activated.
It may be helpful to ensure your new virtual environment has the lastest pip
and friends. Note that your env should be activated when running this::
pip install -U pip setuptools wheel

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# -- Project information -----------------------------------------------------
project = 'rattail-guide'
project = 'rattail-manual'
copyright = '2021, Lance Edgar'
author = 'Lance Edgar'

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Data Batch Processing
=====================
TODO

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Data Synchronization
====================
TODO

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Rattail Database
================
TODO

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Data Import / Export
====================
TODO

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Data Layer
==========
.. toctree::
:maxdepth: 2
:caption: Contents:
db
trainwreck
other
importing
datasync
batches
multinode
tempmon
tasks
patterns

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Multiple App Nodes
==================
TODO

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POS and Other Data Stores
=========================
TODO

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Common Patterns
===============
TODO

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Common Tasks
============
TODO

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Temperature Monitoring
======================
TODO

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Trainwreck Database
===================
TODO

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Fabric
======
TODO

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Deployment Layer
================
.. toctree::
:maxdepth: 2
:caption: Contents:
overview
fabric

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Overview
========
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.. rattail-guide documentation master file, created by
sphinx-quickstart on Wed Jan 6 15:33:34 2021.
You can adapt this file completely to your liking, but it should at least
contain the root `toctree` directive.
Welcome to rattail-guide's documentation!
=========================================
Rattail Manual
==============
This is "the reference manual" for Rattail, intended primarily for developers.
It assumes the reader is involved with the creation, customization and/or
maintenance of a Poser/Rattail app. It tries to explain the concepts involved
and hopefully tie them all together.
If you prefer step-by-step instructions for creating your own app then see also
the `Rattail Tutorial`_.
.. _Rattail Tutorial: https://rattailproject.org/docs/rattail-tutorial/
This manual is primarily organized according to the possible "layers" of a
Poser/Rattail app:
* :doc:`base/index` - general app install, command line, plus filemon etc.
* :doc:`data/index` - when a DB or data import/export come into it
* :doc:`web/index` - all things web
* :doc:`luigi/index` - using Luigi for better overnight automation
* :doc:`deploy/index` - deals with production deployment
* :doc:`backup/index` - backing up the production system
.. toctree::
:maxdepth: 2
:caption: Contents:
readfirst
base/index
data/index
web/index
luigi/index
deploy/index
backup/index
Indices and tables

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Luigi Layer
===========
.. toctree::
:maxdepth: 2
:caption: Contents:
overview

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Overview
========
TODO

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Read This First
===============
Here we just want to touch on some conventions used by this manual.
We use the name "Poser" (or "poser") to refer to *any* app based on Rattail.
For example this can refer to:
* `Theo <https://rattailproject.org/moin/Theo>`_
* `Rattail Demo <https://rattailproject.org/moin/RattailDemo>`_
* *your* custom app
Poser is not a real thing in other words; that name is made up and you should
replace it (mentally and literally) when reading these docs and running
commands etc.

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Web Layer
=========
.. toctree::
:maxdepth: 2
:caption: Contents:
overview
webmain
webapi
spa

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Overview
========
TODO

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Single-Page Apps
================
TODO

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Web API
=======
TODO
Common Tasks
------------
TODO
Common Patterns
---------------
TODO

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Default Web App
===============
TODO
Common Tasks
------------
TODO
Common Patterns
---------------
TODO