<!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.DisplayConfig:
      @short_description: display configuration interface

      This interface is used by mutter and gnome-settings-daemon
      to apply multiple monitor configuration.
  -->

  <interface name="org.gnome.Mutter.DisplayConfig">

    <!--
        GetResources:
        @serial: configuration serial
        @crtcs: available CRTCs
        @outputs: available outputs
        @modes: available modes
        @max_screen_width:
        @max_screen_height:

        Retrieves the current layout of the hardware.

        @serial is an unique identifier representing the current state
        of the screen. It must be passed back to ApplyConfiguration()
        and will be increased for every configuration change (so that
        mutter can detect that the new configuration is based on old
        state).

        A CRTC (CRT controller) is a logical monitor, ie a portion
        of the compositor coordinate space. It might correspond
        to multiple monitors, when in clone mode, but not that
        it is possible to implement clone mode also by setting different
        CRTCs to the same coordinates.

        The number of CRTCs represent the maximum number of monitors
        that can be set to expand and it is a HW constraint; if more
        monitors are connected, then necessarily some will clone. This
        is complementary to the concept of the encoder (not exposed in
        the API), which groups outputs that necessarily will show the
        same image (again a HW constraint).

        A CRTC is represented by a DBus structure with the following
        layout:
        * u ID: the ID in the API of this CRTC
        * x winsys_id: the low-level ID of this CRTC (which might
                       be a XID, a KMS handle or something entirely
                       different)
        * i x, y, width, height: the geometry of this CRTC
                                 (might be invalid if the CRTC is not in
                                 use)
        * i current_mode: the current mode of the CRTC, or -1 if this
                          CRTC is not used
                          Note: the size of the mode will always correspond
                          to the width and height of the CRTC
        * u current_transform: the current transform (espressed according
                               to the wayland protocol)
        * au transforms: all possible transforms
        * a{sv} properties: other high-level properties that affect this
                            CRTC; they are not necessarily reflected in
                            the hardware.
                            No property is specified in this version of the API.

        Note: all geometry information refers to the untransformed
        display.

        An output represents a physical screen, connected somewhere to
        the computer. Floating connectors are not exposed in the API.
        An output is a DBus struct with the following fields:
        * u ID: the ID in the API
        * x winsys_id: the low-level ID of this output (XID or KMS handle)
        * i current_crtc: the CRTC that is currently driving this output,
                          or -1 if the output is disabled
        * au possible_crtcs: all CRTCs that can control this output
        * s name: the name of the connector to which the output is attached
                  (like VGA1 or HDMI)
        * au modes: valid modes for this output
        * au clones: valid clones for this output, ie other outputs that
                     can be assigned the same CRTC as this one; if you
                     want to mirror two outputs that don't have each other
                     in the clone list, you must configure two different
                     CRTCs for the same geometry
        * a{sv} properties: other high-level properties that affect this
                            output; they are not necessarily reflected in
                            the hardware.
                            Known properties:
                            - "vendor" (s): (readonly) the human readable name
                                            of the manufacturer
                            - "product" (s): (readonly) the human readable name
                                             of the display model
                            - "serial" (s): (readonly) the serial number of this
                                            particular hardware part
                            - "display-name" (s): (readonly) a human readable name
                                                  of this output, to be shown in the UI
                            - "backlight" (i): (readonly, use the specific interface)
                                               the backlight value as a percentage
                                               (-1 if not supported)
                            - "primary" (b): whether this output is primary
                                             or not
                            - "presentation" (b): whether this output is
                                                  for presentation only
                            Note: properties might be ignored if not consistenly
                            applied to all outputs in the same clone group. In
                            general, it's expected that presentation or primary
                            outputs will not be cloned.

        A mode represents a set of parameters that are applied to
        each output, such as resolution and refresh rate. It is a separate
        object so that it can be referenced by CRTCs and outputs.
        Multiple outputs in the same CRTCs must all have the same mode.
        A mode is exposed as:
        * u ID: the ID in the API
        * x winsys_id: the low-level ID of this mode
        * u width, height: the resolution
        * d frequency: refresh rate
        * u flags: mode flags as defined in xf86drmMode.h and randr.h

        Output and modes are read-only objects (except for output properties),
        they can change only in accordance to HW changes (such as hotplugging
        a monitor), while CRTCs can be changed with ApplyConfiguration().

        XXX: actually, if you insist enough, you can add new modes
        through xrandr command line or the KMS API, overriding what the
        kernel driver and the EDID say.
        Usually, it only matters with old cards with broken drivers, or
        old monitors with broken EDIDs, but it happens more often with
        projectors (if for example the kernel driver doesn't add the
        640x480 - 800x600 - 1024x768 default modes). Probably something
        that we need to handle in mutter anyway.
    -->
    <method name="GetResources">
      <arg name="serial" direction="out" type="u" />
      <arg name="crtcs" direction="out" type="a(uxiiiiiuaua{sv})" />
      <arg name="outputs" direction="out" type="a(uxiausauaua{sv})" />
      <arg name="modes" direction="out" type="a(uxuudu)" />
      <arg name="max_screen_width" direction="out" type="i" />
      <arg name="max_screen_height" direction="out" type="i" />
    </method>

    <!--
        ChangeBacklight:
        @serial: configuration serial
        @output: the API id of the output
        @value: the new backlight value

        Changes the backlight of @output to @value, which is
        expressed as a percentage and rounded to the HW limits.

        Returns the new value after rounding.
    -->
    <method name="ChangeBacklight">
      <annotation name="org.freedesktop.DBus.Deprecated" value="true" />
      <arg name="serial" direction="in" type="u" />
      <arg name="output" direction="in" type="u" />
      <arg name="value" direction="in" type="i" />
      <arg name="new_value" direction="out" type="i" />
    </method>

    <!--
        SetBacklight:
        @serial: configuration serial
        @connector: the connector name
        @value: the new backlight value

        Changes the backlight of @output to @value.
    -->
    <method name="SetBacklight">
      <arg name="serial" direction="in" type="u" />
      <arg name="connector" direction="in" type="s" />
      <arg name="value" direction="in" type="i" />
    </method>

   <!--
        Backlight:

        A set of backlights. Each backlight is a dictionary with the following
        entries. If an entry is only a connector, it means there is no way to
        control it via this D-Bus interface.

          * 'connector' (s) - An associated monitor connector
          * 'active' (s) - True if the monitor is active
          * 'value' (i) - Current value (optional)

        The initial 'u' is a serial number used when setting the backlight.
    -->
    <property name="Backlight" type="(uaa{sv})" access="read" />

    <!--
        GetCrtcGamma:
        @serial: configuration serial
        @crtc: API id of the crtc
        @red: red gamma ramp
        @green: green gamma ramp
        @blue: blue gamma ramp

        Requests the current gamma ramps of @crtc.
    -->
    <method name="GetCrtcGamma">
      <arg name="serial" direction="in" type="u" />
      <arg name="crtc" direction="in" type="u" />
      <arg name="red" direction="out" type="aq" />
      <arg name="green" direction="out" type="aq" />
      <arg name="blue" direction="out" type="aq" />
    </method>

    <!--
        SetCrtcGamma:
        @serial: configuration serial
        @crtc: API id of the crtc
        @red: red gamma ramp
        @green: green gamma ramp
        @blue: blue gamma ramp

        Changes the gamma ramps of @crtc.
    -->
    <method name="SetCrtcGamma">
      <arg name="serial" direction="in" type="u" />
      <arg name="crtc" direction="in" type="u" />
      <arg name="red" direction="in" type="aq" />
      <arg name="green" direction="in" type="aq" />
      <arg name="blue" direction="in" type="aq" />
    </method>

    <!--
        PowerSaveMode:

        Contains the current power saving mode for the screen, and
        allows changing it.

        Possible values:
        - 0: on
        - 1: standby
        - 2: suspend
        - 3: off
        - -1: unknown (unsupported)

        A client should not attempt to change the powersave mode
        from -1 (unknown) to any other value, and viceversa.
        Note that the actual effects of the different values
        depend on the hardware and the kernel driver in use, and
        it's perfectly possible that all values different than on
        have the same effect.
        Also, setting the PowerSaveMode to 3 (off) may or may
        not have the same effect as disabling all outputs by
        setting no CRTC on them with ApplyConfiguration(), and
        may or may not cause a configuration change.

        Also note that this property might become out of date
        if changed through different means (for example using the
        XRandR interface directly).
    -->
    <property name="PowerSaveMode" type="i" access="readwrite" />

    <!--
        PanelOrientationManaged:

        Whether the built-in panel orientation is automatically managed
        by mutter.
    -->
    <property name="PanelOrientationManaged" type="b" access="read" />

    <!--
        ApplyMonitorsConfigAllowed:

        Whether calling the ApplyMonitorsConfig method is allowed.
    -->
    <property name="ApplyMonitorsConfigAllowed" type="b" access="read" />

    <!--
        NightLightSupported:

        Whether night light is supported by this system.
    -->
    <property name="NightLightSupported" type="b" access="read" />

    <!--
        MonitorsChanged:

        The signal is emitted every time the screen configuration
        changes.
        The client should then call GetResources() to read the new layout.
    -->
    <signal name="MonitorsChanged" />

    <!--
        GetCurrentState:
        @serial: configuration serial
        @monitors: available monitors
        @logical_monitors: current logical monitor configuration
        @properties: display configuration properties

        @monitors represent connected physical monitors

        * s connector: connector name (e.g. HDMI-1, DP-1, etc)
        * s vendor: vendor name
        * s product: product name
        * s serial: product serial
        * a(siiddada{sv}) modes: available modes
            * s id: mode ID
            * i width: width in physical pixels
            * i height: height in physical pixels
            * d refresh rate: refresh rate
            * d preferred scale: scale preferred as per calculations
            * ad supported scales: scales supported by this mode
            * a{sv} properties: optional properties, including:
               - "is-current" (b): the mode is currently active mode
               - "is-preferred" (b): the mode is the preferred mode
               - "is-interlaced" (b): the mode is an interlaced mode
        * a{sv} properties: optional properties, including:
            - "width-mm" (i): physical width of monitor in millimeters
            - "height-mm" (i): physical height of monitor in millimeters
            - "is-underscanning" (b): whether underscanning is enabled
                                      (absence of this means underscanning
                                      not being supported)
            - "max-screen-size" (ii): the maximum size a screen may have
                                      (absence of this means unlimited screen
                                      size)
            - "is-builtin" (b): whether the monitor is built in, e.g. a
                                laptop panel (absence of this means it is
                                not built in)
            - "display-name" (s): a human readable display name of the monitor

        Possible mode flags:
          1 : preferred mode
          2 : current mode


        @logical_monitors represent current logical monitor configuration

        * i x: x position
        * i y: y position
        * d scale: scale
        * u transform: transform (see below)
        * b primary: true if this is the primary logical monitor
        * a(sss) monitors: monitors displaying this logical monitor
            * connector: name of the connector (e.g. DP-1, eDP-1 etc)
            * vendor: vendor name
            * product: product name
            * serial: product serial
        * a{sv} properties: possibly other properties

        Posisble transform values:
          0: normal
          1: 90°
          2: 180°
          3: 270°
          4: flipped
          5: 90° flipped
          6: 180° flipped
          7: 270° flipped


        @layout_mode current layout mode represents the way logical monitors
        are layed out on the screen. Possible modes include:

          1 : physical
          2 : logical

        With physical layout mode, each logical monitor has the same dimensions
        an the monitor modes of the associated monitors assigned to it, no
        matter what scale is in use.

        With logical mode, the dimension of a logical monitor is the dimension
        of the monitor mode, divided by the logical monitor scale.


        Possible @properties are:

        * "layout-mode" (u): Represents in what way logical monitors are laid
                             out on the screen. The layout mode can be either
                             of the ones listed below. Absence of this property
                             means the layout mode cannot be changed, and that
                             "logical" mode is assumed to be used.
            * 1 : logical  - the dimension of a logical monitor is derived from
                             the monitor modes associated with it, then scaled
                             using the logical monitor scale.
            * 2 : physical - the dimension of a logical monitor is derived from
                             the monitor modes associated with it.
        * "supports-changing-layout-mode" (b): True if the layout mode can be
                                               changed. Absence of this means the
                                               layout mode cannot be changed.
        * "global-scale-required" (b): True if all the logical monitors must
                                       always use the same scale. Absence of
                                       this means logical monitor scales can
                                       differ.
    -->
    <method name="GetCurrentState">
      <arg name="serial" direction="out" type="u" />
      <arg name="monitors" direction="out" type="a((ssss)a(siiddada{sv})a{sv})" />
      <arg name="logical_monitors" direction="out" type="a(iiduba(ssss)a{sv})" />
      <arg name="properties" direction="out" type="a{sv}" />
    </method>

    <!--
        ApplyMonitorsConfig:
        @serial: configuration serial
        @method: configuration method
        @logical_monitors: monitors configuration
        @properties: properties

        @method represents the way the configuration should be handled.

        Possible methods:
          0: verify
          1: temporary
          2: persistent

        @logical_monitors consists of a list of logical monitor configurations.
        Each logical monitor configuration consists of:

        * i: layout x position
        * i: layout y position
        * d: scale
        * u: transform (see GetCurrentState)
        * b primary: true if this is the primary logical monitor
        * a(ssa{sv}): a list of monitors, each consisting of:
            * s: connector
            * s: monitor mode ID
            * a{sv}: monitor properties, including:
                - "underscanning" (b): enable monitor underscanning;
                                       may only be set when underscanning
                                       is supported (see GetCurrentState).

        @properties may effect the global monitor configuration state. Possible
        properties are:

        * "layout-mode" (u): layout mode the passed configuration is in; may
                             only be set when changing the layout mode is
                             supported (see GetCurrentState).
    -->
    <method name="ApplyMonitorsConfig">
      <arg name="serial" direction="in" type="u" />
      <arg name="method" direction="in" type="u" />
      <arg name="logical_monitors" direction="in" type="a(iiduba(ssa{sv}))" />
      <arg name="properties" direction="in" type="a{sv}" />
    </method>

    <!--
        SetOutputCTM:
        @serial: configuration serial
        @output: API id of the output
        @ctm: 3x3 matrix in fixed-point sign-magnitude S31.32

        Changes the color transform matrix of @output
    -->
    <method name="SetOutputCTM">
      <arg name="serial" direction="in" type="u" />
      <arg name="output" direction="in" type="u" />
      <arg name="ctm" direction="in" type="(ttttttttt)" />
    </method>

    <!--
        HasExternalmonitor:

        True if there is an external monitor connected and activated.
    -->
    <property name="HasExternalMonitor" type="b" access="read" />
  </interface>
</node>