---
title: Introduction
---

# Foreword

The AGL Application Framework is nothing new. However, the implementation used
up until the `lamprey` release has been retired starting with the `marlin`
release and replaced by a redesigned Application Framework one. However, this
new implementation isn't a 1:1 replacement, and as such it doesn't provide all
of the features of the previous Application Framework. Some of those will be
added back over time, others have been discarded in favor of more modern and/or
widely-used alternatives.

With the `needlefish` release, further changes have been added, including a
[gRPC IPC](https://grpc.io/about), alongside a deprecated D-Bus one, as well as
using as using systemd units as opposed on using
[Desktop Entry specification](https://www.freedesktop.org/wiki/Specifications/desktop-entry-spec/)
to list applications, and relies entirely on systemd to start application,
rather than spawning them directly.

Once all platforms transitioned to gRPC, the D-Bus functionality will be
removed entirely, mentioning it in only in documentation for history purposes.

# Introduction

As a provider of an integrated solution to build up on, AGL needs to define a
reliable and well-specified method for managing the deployment and integration
of applications and services, as well as the way they can interact with the
rest of the system.

This is achieved by providing a common set of rules and components, known as
the Application Framework. By ensuring conformity to those rules, application
developers can have a good understanding of the requirements for creating and
packaging applications targeting AGL-based systems. Likewise, system developers
and integrators have a clear path for including such applications in AGL-based
products.

The Application Framework's scope extends to the following areas:
- system services integration and lifecycle management
- user session management, including user-level applications and services
  lifecycle management
- inter-process communication

In order to be as simple as possible and avoid any unneeded custom
implementation, the Application Framework relies mainly on third-party
technologies and/or software components, most of those being maintained under
the [freedesktop.org](https://www.freedesktop.org) umbrella. Those include:


- [systemd](https://www.freedesktop.org/wiki/Software/systemd/): system
  services and user session services management


- [D-Bus](https://www.freedesktop.org/wiki/Software/dbus/): inter-process
  communication, with `needlefish' release deprecated phase.

- [gRPC](https://grpc.io/about): inter-process communication, new recommmended
  system-wide IPC, which should be used instead of D-Bus.


- [Desktop Entry specification](https://www.freedesktop.org/wiki/Specifications/desktop-entry-spec/):
  application enumeration and startup, now in deprecated phase, systemd being
  the one would list out applications and handling start-up.

AGL also provides reference implementations whenever possible and relevant,
located in the [meta-agl](../../04_Developer_Guides/02_AGL_Layers/02_meta_agl.md)
layer under `meta-app-framework`. At the moment, the Application Framework
contains 2 such components:

- `agl-session`: `systemd` unit files for user sessions management

- `applaunchd`: application launcher service

# Services management

Both system and user services are managed by `systemd`, which provides a number
of important features, such as dependency management or service monitoring:
when starting a service, `systemd` will ensure any other units this service
depends on are available, and otherwise start those dependencies. Similarly,
`systemd` can automatically restart a crashed service, ensuring minimal
downtime.

`systemd` also provides an efficient first layer of security through its
[sandboxing](https://www.freedesktop.org/software/systemd/man/systemd.exec.html#Sandboxing)
and other security-related options.

It is also well integrated with D-Bus and can be used for a more fine-grained
control over D-Bus activated services: by delegating the actual service startup
to `systemd`, developers can take advantage of some of its advanced features,
allowing for improved reliability and security.

Each service should be represented by a `systemd` unit file installed to the
appropriate location. More details can be obtained from the [Creating a New
Service](03_Creating_a_New_Service.md) document.

# User session management

Similarly, user sessions and the services they rely on are also managed by
`systemd`.

AGL provides 2 `systemd` units:


1\. `agl-session@.service` is a template system service for managing user
sessions; it takes a username or UID as a parameter, creating a session for the
desired user.  Instanciating this service can be achieved by enabling
`agl-session@USER.service`, for example by executing the following command on a
running system:

```
$ systemctl enable agl-session@USER.service
```

By default, AGL enables this service as `agl-session@agl-driver.service`,
running as user `agl-driver`.

*Note: while you can create sessions for as many users as needed, only one
instance of `agl-session@.service` is allowed per user.*


2\. `agl-session.target` is a user target for managing user services and their
dependencies. It is started by `agl-session@.service`.

By default, `agl-compositor` is part of this target. It is therefore
automatically started for user `agl-driver`.

Any other service needed as part of the user session should similarly depend on
this target by appending the following lines to their unit file:

```
[Install]
WantedBy=agl-session.target
```

# Inter-process communication

In order to provide a "standard", language-independent IPC mechanism and avoid
the need for maintaining custom bindings for each programming language to be
used on top of AGL, the Application Framework used to promote the use of
[D-Bus](https://www.freedesktop.org/wiki/Software/dbus/) as the preferred way
for applications to interact with services. Starting with `needlefish` release,
we instead switched to using [gRPC](https://grpc.io) for our system-wide IPC,
with D-Bus being kept to provide functionality to services and application
which haven't transitioned yet to using gRPC.

Most services already included in AGL provide one or several D-Bus interfaces,
and can therefore interact with D-Bus capable applications and services
without requiring any additional component. Those services include, among
others:

- [ConnMan](https://git.kernel.org/pub/scm/network/connman/connman.git/):
  network connectivity

- [BlueZ](http://www.bluez.org/): Bluetooth connectivity

- [oFono](https://git.kernel.org/pub/scm/network/ofono/ofono.git): telephony
  and modem management

- [GeoClue](https://gitlab.freedesktop.org/geoclue/geoclue/-/wikis/home):
  geolocation

Similarly, we're in the phase of expanding various services to expose a
gRPC interface.

# Application launcher service

The Application Framework used to follow the guidelines of the [Desktop Entry
specification](https://www.freedesktop.org/wiki/Specifications/desktop-entry-spec/)
for application enumeration and startup, but with the `needlefish` release
instead it relies on systemd to provide that functionality, indirectly, by
using the `applaunchd` application.

As no simple reference implementation exists for this part of the
specification, AGL provides an application launcher service named `applaunchd`.
This service is part of the default user session, and as such is automatically
started on session startup. It can therefore be considered always available.

`applaunchd` enumerates applications installed on the system and provides a
D-bus (deprecated)/gRPC interface for services and applications to:
- query the list of available applications
- request the startup and/or activation of a specific application
- be notified when applications are started or terminated

`applaunchd` with the D-Bus interface is described with more details in
[the following document](02_Application_Startup_Dbus.md).