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+# agl-compositor
+
+## Design and overall architecture
+
+The compositor is built on top of libweston and on libweston-desktop. The
+latter, among other things, is required as it provides the server side
+implementation of the XDG shell protocol which underlying toolkits
+(like qtwayland/chromium) make use to deliver desktop like functionality.
+The former is used to provide back-ends and rendering support, besides
+implementing the wayland protocol.
+
+xdg-shell is currently de facto protocol for handling all window management
+related functionality. In order to avoid polluting the wayland protocol
+namespace, the XDG extension, together with some other useful protocols, like
+the linux-dmabuf one, are all developed under the wayland-protocols umbrella.
+
+The whole purpose of wayland-protocols is to enhance the Wayland protocol with
+new functionality and bring new extensions entirely. Compositors are free to
+implement, modify, enhance, and add new extensions to wayland-protocols but
+they need to do so in consensus.
+
+Besides the core wayland protocol and extended functionality from
+wayland-protocols, a compositor can provide additional protocol extension
+specifications (obviously specific to that compositor). agl-compositor uses
+private extensions to deliver specific functionality or improve the current
+functionality to align with AGL demands. See [protocol extension](#protocol-extensions)
+about them.
+
+Traditionally, clients were entirely separated from the window manager, the
+desktop environment and the server. In wayland all these are conceptually under
+the same entity though they are implemented as different UNIX processes, or a
+different namespace with front and back-end APIs, exposed by different
+libraries. As such, the compositor and the shell driving the UI should be seen
+as one and the same, and in practice, this happens on traditional desktop
+environments.
+
+agl-compositor has logic in place to spawn/run the shell, but in case of AGL,
+the shell can be represented under different forms, as well as the fact that
+the process management has another layer baked in to handle MAC (Mandatory
+Access Control) labels and use a custom application framework
+management. These are all tightly integrated and therefore, the agl-compositor
+will not automatically start the shell client, although there's code to handle
+that.
+
+## Customizing and tailoring the compositor
+
+The compositor only adds basic functionality, and depending on use-cases, one
+might want to further enhance or tailor the compositor to fit their need. The
+compositor only contains the bare minimum, necessary bits to bring up the
+screen and make use of private extensions to integrate better with the existing
+AGL infrastructure. It is encouraged and desirable to modify the compositor if
+more customization is required.
+
+## Protocol extensions
+
+Compositors can define and implement custom extensions to further control
+application behaviour. For AGL, respectively, for agl-compositor, we have two
+private extensions defined. One targeted at defining surface roles commonly
+found desktop environments (like panels, and backgrounds), which acts as the
+shell client, and one targeted at regular application(s) that might require
+additional functionality.
+
+This document describes the overall functionality and some implementation
+details and potential corner-cases. Refer to the protocol XML specification for
+further and up-to-date documentation.
+
+### Surface roles
+
+Internally, agl-compositor assigns to regular XDG applications, a default,
+desktop role. Further roles like a background or a panel, are available to
+further customize layer and orientation of surfaces.
+
+These have **no** particular meaning, except that it hints the compositor where
+they should be stacked or where to position them. The background one occupies
+the most lower layer, the desktop ones on top and the panel surfaces the upper
+most layer.
+
+Additional roles have been added, in a different extension, to add further
+functionality with the control/security functions being transferred over to a
+policy framework in case that is necessary. See [policy api][#policy] for
+further details.
+
+### agl-shell
+
+Clients can make use of this protocol to define different kind of roles for
+different kind of surfaces. This defines panels and a background surface. It
+includes to ability to activate other applications, assuming that those are
+already running. Activation happens by using using the app_id, respectively
+using set_app_id request as defined by the XDG shell protocol. Established
+client-side implementation of the XDG shell protocol will have a function used
+to set it up, or it should provide or expose an API to do so.
+
+Clients will be **required** to set their application ids accordingly in order
+for the client shell to activate them.
+
+### agl-shell-desktop
+
+This extension is targeted at keeping some of the functionally already
+established in AGL a) to allow applications display/activate other
+surfaces/application window, and b) to set further roles, specially dialog
+pop-ups and split-type of surfaces.
+
+Clients can make use of this protocol to set further roles, like independently
+positioned pop-up dialog windows, split type of surfaces or fullscreen ones.
+Additional roles can be added by extending the protocol. These roles serve as
+hints for the compositor and should be used before the actual surface creation
+takes place such that the compositor can take the necessary steps to ensure
+those requirements.
+
+#### Additional surface roles
+
+Like mentioned earlier, the compositor is already making use of some (internal)
+roles, and with this extension we add some further roles. These are: split
+(there's vertical and a horizontal one), fullscreen, and pop-up one. Internally
+these are encoded with different values such that there's a translation needed,
+between the protocol values and the internal values.
+
+Besides the roles, additional data can to be passed, but only relevant
+depending on the role.
+
+#### Receiving application state events from (other) applications
+
+agl-shell-desktop exposes two events which client can install handlers for, one
+that signals when regular XDG application have been created, and one that
+signals state changes (active/hidden) as well as destroyed/no longer present
+surfaces. These events can be useful to add additional functionality if
+needed.
+
+### Activating (other) applications
+
+Both agl-shell and agl-shell-desktop have requests to activate other
+application based on their XDG shell app_id. In case the application is
+present/running it it will attempt to make the surface backing that application
+the current activate one, with each output having independently active
+surfaces.
+
+### Explicit output
+
+The activation and setting surface roles requires passing an output
+(wl_output). The output is the wayland interface representation of an output
+and is **mandatory**. Clients can retrieve it (the output) if they wish to
+place the surface on other outputs by using the toolkits exposing wayland
+objects. A human-like representation is provided by binding directly, by using
+other extension implemented by the client (i.e., xdg_output is the one
+recommended) or by using abstraction implementation written on top.
+
+### Protocol design, future work and potential improvements
+
+Both protocols assume immediate, synchronous behaviour and to some extent lack
+some error handling functionality.
+
+Role assignment to surfaces could probably be improved with an additional
+interface with can add further data, if that roles assumes that to be true.
+
+There seems to be some overlapping functionality with respect to activating
+applications, so a potential improvement would be that the agl-shell protocol
+only contains the ability to set shell related surface roles, and
+agl-shell-desktop to be used when needing to activate applications.
+For the client shell this means that it will need to bind to both of the
+extensions, one that set-ups the background and panel roles, with the other
+needed to activate applications.
+
+## Policy
+
+The compositor contains an API useful for defining policy rules. It contains
+the bare minimum and installs, by default, an allow-all kind of engine.
+
+Users wanting to create their own policy engine should create a specialized
+version and use `struct ivi_policy_api` where they can install their own
+callbacks.
+
+The default policy found in src/policy-default.c should more than sufficient to
+get started. Users can either re-puporse the default policy or create a new one
+entirely different, based on their needs.
+
+### Hooks
+
+These are hooks for allowing the creation, committing and activation of surfaces
+(`ivi_policy_api::surface_create()`, `ivi_policy_api::surface_commited()`,
+ `ivi_policy_api::surface_activate()`).
+
+Another hook, `ivi_policy_api::policy_rule_allow_to_add()` can be used to
+control if policy rules (the next type) can be added or not. Finally, we have
+`ivi_policy_api::policy_rule_try_event()` which is executed for each policy
+rules currently added, by using the policy API `ivi_policy_add()`.
+
+Users can customize the hooks by using some sort of database to retrieve
+the application name to compare against, or incorporate some kind of policy
+rule engine.
+
+### Policy rules
+
+Policy (injection) rules can be added using the policy API framework. The
+protocol allows to define policy rules that should be executed by using the
+`ivi_policy_api::policy_rule_try_event()` callback. These are particularly useful
+when handling state changes. The framework API allows adding new states and
+events and the default implementation has code for handling events like showing
+or hiding the application specified in the policy rule.
+
+#### Default events and states
+
+By default the when creating the policy framework it will add the 'show', and
+'hide' events and the 'start', 'stop' and 'reverse' states. An special type,
+assigned by default is 'invalid'.
+
+#### State changes
+
+A state change has to be propaged from to the compositor, by using
+`ivi_policy_state_change()`, to signal the compositor the (state) change itself,
+in order to apply the policy rules, and implicitly to call the event
+handler `ivi_policy_api::policy_rule_try_event()`.