mutter/src/org.gnome.Mutter.RemoteDesktop.xml

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Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
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<!DOCTYPE node PUBLIC
'-//freedesktop//DTD D-BUS Object Introspection 1.0//EN'
'http://www.freedesktop.org/standards/dbus/1.0/introspect.dtd'>
<node>
<!--
org.gnome.Mutter.RemoteDesktop:
@short_description: Remote desktop interface
This API is private and not intended to be used outside of the integrated
system that uses libmutter. No compatibility between versions are
promised.
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
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-->
<interface name="org.gnome.Mutter.RemoteDesktop">
<!--
CreateSession:
@session_path: Path to the new session object
-->
<method name="CreateSession">
<arg name="session_path" type="o" direction="out" />
</method>
<!--
SupportedDeviceTypes:
@short_description: Bit mask of supported device types
Device types:
1: keyboard
2: pointer
4: touchscreen
-->
<property name="SupportedDeviceTypes" type="u" access="read" />
<!--
Version:
@short_description: API version
-->
<property name="Version" type="i" access="read" />
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
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</interface>
<!--
org.gnome.Mutter.RemoteDesktop.Session:
@short_description: Remote desktop session
-->
<interface name="org.gnome.Mutter.RemoteDesktop.Session">
<!--
SessionId:
An identification string used for identifying a remote desktop session.
It can be used to associate screen cast sessions with a remote desktop session.
-->
<property name="SessionId" type="s" access="read" />
<!--
Start:
Start the remote desktop session
-->
<method name="Start" />
<!--
Stop:
Stop the remote desktop session
-->
<method name="Stop" />
<!--
Closed:
The session has closed.
A session doesn't have to have been started before it may be closed.
After it being closed, it can no longer be used.
-->
<signal name="Closed" />
<!--
NotifyKeyboardKeycode:
A key identified by an evdev keycode was pressed or released
-->
<method name="NotifyKeyboardKeycode">
<arg name="keycode" type="u" direction="in" />
<arg name="state" type="b" direction="in" />
</method>
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
2017-06-21 02:23:44 -04:00
<!--
NotifyKeyboardKeysym:
A key identified by a keysym was pressed or released
-->
<method name="NotifyKeyboardKeysym">
<arg name="keysym" type="u" direction="in" />
<arg name="state" type="b" direction="in" />
</method>
<!--
NotifyPointerButton:
A pointer button was pressed or released
-->
<method name="NotifyPointerButton">
<arg name="button" type="i" direction="in" />
<arg name="state" type="b" direction="in" />
</method>
<!--
NotifyPointerAxis:
A smooth pointer axis event notification. Relative motion deltas are to be
interpreted as pixel movement of a standardized mouse.
Additionally to the smooth pointer axis event notification, an emulated
discrete pointer axis event notification is emitted based on the submitted
accumulated smooth scrolling steps.
The base for these emulated discrete pointer axis event is the discrete step
with the value 10.0.
This means that for a delta dx (or dy) with the value 10.0 one emulated
discrete scrolling event is emitted.
For a high resolution smooth pointer axis event, a smaller value is submitted
for each scrolling step.
This means: For a double resolution mouse wheel one emulated discrete event
is emitted for 2 smooth pointer axis events with each having the value 5.0.
Possible @flags:
1: finish - scroll motion was finished (e.g. fingers lifted)
2: source_wheel - The scroll event is originated by a mouse wheel.
4: source_finger - The scroll event is originated by one or more fingers on
the device (eg. touchpads).
8: source_continuous - The scroll event is originated by the motion of some
device (eg. a scroll button is set).
Maximum one of the @flags 'source_wheel', 'source_finger',
'source_continuous' may be specified.
If no source flag is specified, `source_finger` is assumed.
-->
<method name="NotifyPointerAxis">
<arg name="dx" type="d" direction="in" />
<arg name="dy" type="d" direction="in" />
<arg name="flags" type="u" direction="in" />
</method>
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
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<!--
NotifyPointerAxisDiscrete:
A discrete pointer axis event notification
-->
<method name="NotifyPointerAxisDiscrete">
<arg name="axis" type="u" direction="in" />
<arg name="steps" type="i" direction="in" />
</method>
<!--
NotifyPointerMotionRelative:
A relative pointer motion event notification
-->
<method name="NotifyPointerMotionRelative">
<arg name="dx" type="d" direction="in" />
<arg name="dy" type="d" direction="in" />
</method>
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
2017-06-21 02:23:44 -04:00
<!--
NotifyPointerMotionAbsolute:
A absolute pointer motion event notification
-->
<method name="NotifyPointerMotionAbsolute">
<arg name="stream" type="s" direction="in" />
<arg name="x" type="d" direction="in" />
<arg name="y" type="d" direction="in" />
</method>
<!--
NotifyTouchDown:
A absolute pointer motion event notification
-->
<method name="NotifyTouchDown">
<arg name="stream" type="s" direction="in" />
<arg name="slot" type="u" direction="in" />
<arg name="x" type="d" direction="in" />
<arg name="y" type="d" direction="in" />
</method>
<!--
NotifyTouchMotion:
A absolute pointer motion event notification
-->
<method name="NotifyTouchMotion">
<arg name="stream" type="s" direction="in" />
<arg name="slot" type="u" direction="in" />
<arg name="x" type="d" direction="in" />
<arg name="y" type="d" direction="in" />
</method>
<!--
NotifyTouchUp:
A absolute pointer motion event notification
-->
<method name="NotifyTouchUp">
<arg name="slot" type="u" direction="in" />
</method>
<!--
EnableClipboard:
@options: Options for the clipboard
Available @options include:
* "mime-types" (as): List of mime types, for which the clipboard of the
remote desktop client has content.
Each mime-type is in string form, e.g. "image/jpeg",
"text/plain", etc..
If this list is included in @options, then this call
is equivalent to calling 'EnableClipboard' and
'SetSelection' atomically.
Enables the clipboard for the remote desktop client which will allow it
to call the methods 'SetSelection', 'DisableClipboard', 'SelectionWrite',
'SelectionWriteDone', 'SelectionRead'.
The 'SelectionOwnerChanged' signal will also be emitted when the
selection owner changes to inform the API user of new clipboard mime
types, and the 'SelectionTransfer' signal will be emitted to request the
advertised clipboard content of a mime type.
-->
<method name="EnableClipboard">
<arg name="options" type="a{sv}" direction="in" />
</method>
<!--
DisableClipboard:
Unregisters all clipboard types that were advertised by the
remote desktop client.
The 'SelectionOwnerChanged' or 'SelectionTransfer' signals will not be
emitted any more.
Any 'SelectionTransfer' signals that weren't answered yet with a
'SelectionWriteDone' call, will be answered with a 'SelectionWriteDone'
call where 'success' is 'false'.
-->
<method name="DisableClipboard" />
<!--
SetSelection:
@options: Options for the clipboard selection
Available @options include:
* "mime-types" (as): List of mime types, for which the clipboard of the
remote desktop client has content.
Each mime-type is in string form, e.g. "image/jpeg",
"text/plain", etc..
Sets the owner of the clipboard formats in 'mime-types' in @options to
the remote desktop client, i.e. the remote desktop client has data for
these advertised clipboard formats.
-->
<method name="SetSelection">
<arg name="options" type="a{sv}" direction="in" />
</method>
<!--
SelectionWrite:
@serial: The serial of the request where this answer is directed to
@fd: The file descriptor where the data will be written to
Answer to 'SelectionTransfer' signal. Contains the fd where the clipboard
content will be written to.
-->
<method name="SelectionWrite">
<arg name="serial" type="u" direction="in" />
<annotation name="org.gtk.GDBus.C.UnixFD" value="true"/>
<arg name="fd" type="h" direction="out" />
</method>
<!--
SelectionWriteDone:
@serial: The serial of the request where this answer is directed to
@success: A boolean which indicates whether the transfer of the clipboard
data was successful ('true') or not ('false').
Notifies that the transfer of the clipboard data has either completed
successfully, or failed.
-->
<method name="SelectionWriteDone">
<arg name="serial" type="u" direction="in" />
<arg name="success" type="b" direction="in" />
</method>
<!--
SelectionRead:
@mime_type: The mime-type string of the requested format
@fd: The file descriptor where the data will be written to
Transfer the clipboard content given the specified mime type to the
method caller via a file descriptor.
It is the callee that creates the file descriptor.
-->
<method name="SelectionRead">
<arg name="mime_type" type="s" direction="in" />
<annotation name="org.gtk.GDBus.C.UnixFD" value="true"/>
<arg name="fd" type="h" direction="out" />
</method>
<!--
SelectionOwnerChanged:
@options: Options for the clipboard selection
Available @options include:
* "mime-types" (as): List of mime types, for which the clipboard of the
remote desktop client has content.
Each mime-type is in string form, e.g. "image/jpeg",
"text/plain", etc..
* "session-is-owner" (b): 'true', if the remote desktop clients clipboard
is already owner of these types, else 'false'.
Informs the remote desktop client of new clipboard formats that are
available.
-->
<signal name="SelectionOwnerChanged">
<arg name="options" type="a{sv}" direction="in" />
</signal>
<!--
SelectionTransfer:
@mime_type: The mime-type string of the requested format
@serial: The serial, that the answer of this particular request, MUST use
Requests the data for a clipboard format from the remote desktop client.
MUST NOT be called when the remote desktop clients clipboard is (already)
disabled.
-->
<signal name="SelectionTransfer">
<arg name="mime_type" type="s" direction="in" />
<arg name="serial" type="u" direction="in" />
</signal>
Add remote desktop and screen cast functionality This commit adds basic screen casting and remote desktoping functionalty. This works by exposing two D-Bus API services: org.gnome.Mutter.ScreenCast and org.gnome.Mutter.RemoteDesktop. The remote desktop API is used to create remote desktop sessions. For each session, a D-Bus object is created, and an application can manage the session by sending messages to the session object. A remote desktop session the user to emit input events using the D-Bus methods on the session object. To get framebuffer content, the application should create an associated screen cast session. The screen cast API is used to create screen cast sessions. One can so far either create stand-alone screen cast sessions, or a screen cast session associated with a remote desktop session. A remote desktop associated screen cast session is managed by the remote desktop session. So far only remote desktop managed screen cast sessions are implemented. Each screen cast session may have one or more streams. A screen cast stream is a stream of buffers of some part of the compositor content. So far API exists for creating streams of monitors and windows, but only monitor streams are implemented. When a screen cast session is started, the one PipeWire stream is created for each screen cast stream created for the session. When this has happened, a PipeWireStreamAdded signal is emitted on the stream object, passing a unique identifier. The application may use this identifier to find the associated stream being advertised by the PipeWire daemon. The remote desktop and screen cast functionality must be explicitly be enabled at ./configure time by passing --enable-remote-desktop to ./configure. Doing this will build both screen cast and remote desktop support. To actually enable the screen casting and remote desktop, the user must enable the experimental feature. See org.gnome.mutter.experimental-features. https://bugzilla.gnome.org/show_bug.cgi?id=784199
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</interface>
</node>