services/surfaceflinger/sysprop/SurfaceFlingerProperties.sysprop - third_party/android/platform/frameworks/native - Git at Google

 # Copyright (C) 2019 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the License);
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an AS IS BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 module: "android.sysprop.SurfaceFlingerProperties"
 owner: Platform

 # The following two propertiess define (respectively):
 #
 # - The phase offset between hardware vsync and when apps are woken up by the
 #   Choreographer callback
 # - The phase offset between hardware vsync and when SurfaceFlinger wakes up
 #   to consume input
 # Their values may be tuned to trade off between display pipeline latency (both
 # overall latency and the lengths of the app --> SF and SF --> display phases)
 # and frame delivery jitter (which typically manifests as "jank" or "jerkiness"
 # while interacting with the device). The default values must produce a
 # relatively low amount of jitter at the expense of roughly two frames of
 # app --> display latency, and unless significant testing is performed to avoid
 # increased display jitter (both manual investigation using systrace [1] and
 # automated testing using dumpsys gfxinfo [2] are recommended), they should not
 # be modified.
 #
 # [1] https://developer.android.com/studio/profile/systrace.html
 # [2] https://developer.android.com/training/testing/performance.html
 prop {
     api_name: "vsync_event_phase_offset_ns"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.vsync_event_phase_offset_ns"
 }

 prop {
     api_name: "vsync_sf_event_phase_offset_ns"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.vsync_sf_event_phase_offset_ns"
 }

 # Instruct the Render Engine to use EGL_IMG_context_priority hint if available.
 prop {
     api_name: "use_context_priority"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.use_context_priority"
 }

 # Controls the number of buffers SurfaceFlinger will allocate for use in FramebufferSurface.
 prop {
     api_name: "max_frame_buffer_acquired_buffers"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.max_frame_buffer_acquired_buffers"
 }

 # hasWideColorDisplay indicates that the device has
 # or can support a wide-color display, e.g. color space
 # greater than sRGB. Typical display may have same
 # color primaries as DCI-P3.
 # Indicate support for this feature by setting
 # TARGET_HAS_WIDE_COLOR_DISPLAY to true in BoardConfig.mk
 # This also means that the device is color managed.
 # A color managed device will use the appropriate
 # display mode depending on the content on the screen.
 # Default is sRGB.
 prop {
     api_name: "has_wide_color_display"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.has_wide_color_display"
 }

 # Indicates if Sync framework is available. Sync framework provides fence
 # mechanism which significantly reduces buffer processing latency.
 prop {
     api_name: "running_without_sync_framework"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.running_without_sync_framework"
 }

 # hwHDRDisplay indicates that the device has an High Dynamic Range display.
 # A display is considered High Dynamic Range if it
 #
 #     1. is a wide color gamut display, typically DCI-P3 or lager
 #     2. has high luminance capability, typically 540 nits or higher at 10% OPR
 #
 # Indicate support for this feature by setting
 # ro.surface_flinger.has_HDR_display to true in device.mk
 # ro.surface_flinger.has_wide_color_display must be set to true when
 # ro.surface_flinger.has_HDR_display is true.
 prop {
     api_name: "has_HDR_display"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.has_HDR_display"
 }

 # Specify the offset in nanoseconds to add to vsync time when timestamping present fences.
 prop {
     api_name: "present_time_offset_from_vsync_ns"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.present_time_offset_from_vsync_ns"
 }

 # Some hardware can do RGB->YUV conversion more efficiently in hardware
 # controlled by HWC than in hardware controlled by the video encoder.
 # This instruct VirtualDisplaySurface to use HWC for such conversion on
 # GL composition.
 prop {
     api_name: "force_hwc_copy_for_virtual_displays"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.force_hwc_copy_for_virtual_displays"
 }

 # Maximum dimension supported by HWC for virtual display.
 # Must be equals to min(max_width, max_height).
 prop {
     api_name: "max_virtual_display_dimension"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.max_virtual_display_dimension"
 }

 # Return true if surface flinger should use vr flinger for compatible vr
 # apps, false otherwise. Devices that will never be running vr apps should
 # return false to avoid extra resource usage. Daydream ready devices must
 # return true for full vr support.
 prop {
     api_name: "use_vr_flinger"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.use_vr_flinger"
 }

 # Returns true if surface flinger should start
 # hardware.graphics.allocator@2.0::IAllocator service.
 prop {
     api_name: "start_graphics_allocator_service"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.start_graphics_allocator_service"
 }

 # Returns the orientation of the primary display device.
 prop {
     api_name: "primary_display_orientation"
     type: Enum
     enum_values: "ORIENTATION_0|ORIENTATION_90|ORIENTATION_180|ORIENTATION_270"
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.primary_display_orientation"
 }

 # useColorManagement indicates whether SurfaceFlinger should manage color
 # by switching to appropriate color mode automatically depending on the
 # Dataspace of the surfaces on screen.
 prop {
     api_name: "use_color_management"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.use_color_management"
 }

 # The following four propertiess define:
 # Returns the default data space and pixel format that SurfaceFlinger
 # expects to receive and output as well as the wide color gamut data space
 # and pixel format for wide color gamut surfaces.
 # To determine the data space and pixel format, there are a few things
 # we recommend to consider:
 #
 #   1. Hardware composer's capability to composite contents with the chosen
 #      data space and pixel format efficiently;
 #   2. Hardware composer's ability to composite contents when sRGB contents
 #      and the chosen wide color gamut data space contents coexist;
 #   3. For better blending, consider using pixel format where the alpha
 #      channel has as many bits as the RGB color channel.
 #   4. Memory consumption and efficient buffer compression when considering
 #      more bits in pixel format.

 # dataspace is the default data space that SurfaceFlinger expects.
 # The data space must not be Dataspace::UNKNOWN, if unspecified,
 # the default data space is Dataspace::V0_SRGB;
 prop {
     api_name: "default_composition_dataspace"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.default_composition_dataspace"
 }

 # pixelFormat is the default pixel format that SurfaceFlinger
 # expects. If unspecified, the default pixel format is
 # PixelFormat::RGBA_8888.
 prop {
     api_name: "default_composition_pixel_format"
     type: Integer
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.default_composition_pixel_format"
 }

 # wcgDataspace is the data space that SurfaceFlinger expects for
 # wide color gamut surfaces.
 # When hasWideColorDisplay returns true, this API must return a
 # valid wide color gamut data space.
 # The data space must not be UNKNOWN, if unspecified, the data space
 # is V0_SRGB by default, which essentially indicates there's no wide
 # color gamut, meaning hasWideColorDisplay returns false.
 prop {
     api_name: "wcg_composition_dataspace"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.wcg_composition_dataspace"
 }

 # wcgPixelFormat is the pixel format that SurfaceFlinger expects for
 # wide color gamut surfaces. If unspecified, the pixel format is
 # PixelFormat::RGBA_8888 by default.
 prop {
     api_name: "wcg_composition_pixel_format"
     type: Integer
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.wcg_composition_pixel_format"
 }

 # colorSpaceAgnosticDataspace specifies the data space that
 # SurfaceFlinger expects for surfaces which are color space agnostic.
 # The variable works only when useColorManagement is specified. If
 # unspecified, the data space follows what SurfaceFlinger expects for
 # surfaces when useColorManagement is specified.

 prop {
     api_name: "color_space_agnostic_dataspace"
     type: Long
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.color_space_agnostic_dataspace"
 }

 # Return the native panel primary data. The data includes red, green,
 # blue and white. The primary format is CIE 1931 XYZ color space.
 # If unspecified, the primaries is sRGB gamut by default.

 prop {
     api_name: "display_primary_red"
     type: DoubleList
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.display_primary_red"
 }

 prop {
     api_name: "display_primary_green"
     type: DoubleList
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.display_primary_green"
 }

 prop {
     api_name: "display_primary_blue"
     type: DoubleList
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.display_primary_blue"
 }

 prop {
     api_name: "display_primary_white"
     type: DoubleList
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.display_primary_white"
 }

 # setIdleTimerMs indicates what is considered a timeout in milliseconds for Scheduler. This value is
 # used by the Scheduler to trigger inactivity callbacks that will switch the display to a lower
 # refresh rate. Setting this property to 0 means there is no timer.
 prop {
     api_name: "set_idle_timer_ms"
     type: Integer
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.set_idle_timer_ms"
 }

 # setTouchTimerMs indicates what is considered a timeout in milliseconds for Scheduler.
 # This value is used by the Scheduler to trigger touch inactivity callbacks that will switch the
 # display to a lower refresh rate. Setting this property to 0 means there is no timer.
 prop {
     api_name: "set_touch_timer_ms"
     type: Integer
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.set_touch_timer_ms"
 }

 # setDisplayPowerTimerMs indicates what is considered a timeout in milliseconds for Scheduler.
 # This value is used by the Scheduler to trigger display power inactivity callbacks that will
 # keep the display in peak refresh rate as long as display power is not in normal mode.
 # Setting this property to 0 means there is no timer.
 prop {
     api_name: "set_display_power_timer_ms"
     type: Integer
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.set_display_power_timer_ms"
 }

 # useSmart90ForVideo indicates whether Scheduler should detect content FPS, and try to adjust the
 # screen refresh rate based on that.
 prop {
     api_name: "use_smart_90_for_video"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.use_smart_90_for_video"
 }

 prop {
     api_name: "enable_protected_contents"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.protected_contents"
 }

 # Indicates whether Scheduler's idle timer should support a display driver timeout in the kernel.
 # The value of set_idle_timer_ms should be shorter in time than the timeout duration in the kernel.
 prop {
     api_name: "support_kernel_idle_timer"
     type: Boolean
     scope: System
     access: Readonly
     prop_name: "ro.surface_flinger.support_kernel_idle_timer"
 }
	# Copyright (C) 2019 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the License);
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an AS IS BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	module: "android.sysprop.SurfaceFlingerProperties"
	owner: Platform

	# The following two propertiess define (respectively):
	#
	# - The phase offset between hardware vsync and when apps are woken up by the
	# Choreographer callback
	# - The phase offset between hardware vsync and when SurfaceFlinger wakes up
	# to consume input
	# Their values may be tuned to trade off between display pipeline latency (both
	# overall latency and the lengths of the app --> SF and SF --> display phases)
	# and frame delivery jitter (which typically manifests as "jank" or "jerkiness"
	# while interacting with the device). The default values must produce a
	# relatively low amount of jitter at the expense of roughly two frames of
	# app --> display latency, and unless significant testing is performed to avoid
	# increased display jitter (both manual investigation using systrace [1] and
	# automated testing using dumpsys gfxinfo [2] are recommended), they should not
	# be modified.
	#
	# [1] https://developer.android.com/studio/profile/systrace.html
	# [2] https://developer.android.com/training/testing/performance.html
	prop {
	api_name: "vsync_event_phase_offset_ns"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.vsync_event_phase_offset_ns"
	}

	prop {
	api_name: "vsync_sf_event_phase_offset_ns"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.vsync_sf_event_phase_offset_ns"
	}

	# Instruct the Render Engine to use EGL_IMG_context_priority hint if available.
	prop {
	api_name: "use_context_priority"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.use_context_priority"
	}

	# Controls the number of buffers SurfaceFlinger will allocate for use in FramebufferSurface.
	prop {
	api_name: "max_frame_buffer_acquired_buffers"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.max_frame_buffer_acquired_buffers"
	}

	# hasWideColorDisplay indicates that the device has
	# or can support a wide-color display, e.g. color space
	# greater than sRGB. Typical display may have same
	# color primaries as DCI-P3.
	# Indicate support for this feature by setting
	# TARGET_HAS_WIDE_COLOR_DISPLAY to true in BoardConfig.mk
	# This also means that the device is color managed.
	# A color managed device will use the appropriate
	# display mode depending on the content on the screen.
	# Default is sRGB.
	prop {
	api_name: "has_wide_color_display"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.has_wide_color_display"
	}

	# Indicates if Sync framework is available. Sync framework provides fence
	# mechanism which significantly reduces buffer processing latency.
	prop {
	api_name: "running_without_sync_framework"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.running_without_sync_framework"
	}

	# hwHDRDisplay indicates that the device has an High Dynamic Range display.
	# A display is considered High Dynamic Range if it
	#
	# 1. is a wide color gamut display, typically DCI-P3 or lager
	# 2. has high luminance capability, typically 540 nits or higher at 10% OPR
	#
	# Indicate support for this feature by setting
	# ro.surface_flinger.has_HDR_display to true in device.mk
	# ro.surface_flinger.has_wide_color_display must be set to true when
	# ro.surface_flinger.has_HDR_display is true.
	prop {
	api_name: "has_HDR_display"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.has_HDR_display"
	}

	# Specify the offset in nanoseconds to add to vsync time when timestamping present fences.
	prop {
	api_name: "present_time_offset_from_vsync_ns"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.present_time_offset_from_vsync_ns"
	}

	# Some hardware can do RGB->YUV conversion more efficiently in hardware
	# controlled by HWC than in hardware controlled by the video encoder.
	# This instruct VirtualDisplaySurface to use HWC for such conversion on
	# GL composition.
	prop {
	api_name: "force_hwc_copy_for_virtual_displays"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.force_hwc_copy_for_virtual_displays"
	}

	# Maximum dimension supported by HWC for virtual display.
	# Must be equals to min(max_width, max_height).
	prop {
	api_name: "max_virtual_display_dimension"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.max_virtual_display_dimension"
	}

	# Return true if surface flinger should use vr flinger for compatible vr
	# apps, false otherwise. Devices that will never be running vr apps should
	# return false to avoid extra resource usage. Daydream ready devices must
	# return true for full vr support.
	prop {
	api_name: "use_vr_flinger"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.use_vr_flinger"
	}

	# Returns true if surface flinger should start
	# hardware.graphics.allocator@2.0::IAllocator service.
	prop {
	api_name: "start_graphics_allocator_service"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.start_graphics_allocator_service"
	}

	# Returns the orientation of the primary display device.
	prop {
	api_name: "primary_display_orientation"
	type: Enum
	enum_values: "ORIENTATION_0\|ORIENTATION_90\|ORIENTATION_180\|ORIENTATION_270"
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.primary_display_orientation"
	}

	# useColorManagement indicates whether SurfaceFlinger should manage color
	# by switching to appropriate color mode automatically depending on the
	# Dataspace of the surfaces on screen.
	prop {
	api_name: "use_color_management"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.use_color_management"
	}

	# The following four propertiess define:
	# Returns the default data space and pixel format that SurfaceFlinger
	# expects to receive and output as well as the wide color gamut data space
	# and pixel format for wide color gamut surfaces.
	# To determine the data space and pixel format, there are a few things
	# we recommend to consider:
	#
	# 1. Hardware composer's capability to composite contents with the chosen
	# data space and pixel format efficiently;
	# 2. Hardware composer's ability to composite contents when sRGB contents
	# and the chosen wide color gamut data space contents coexist;
	# 3. For better blending, consider using pixel format where the alpha
	# channel has as many bits as the RGB color channel.
	# 4. Memory consumption and efficient buffer compression when considering
	# more bits in pixel format.

	# dataspace is the default data space that SurfaceFlinger expects.
	# The data space must not be Dataspace::UNKNOWN, if unspecified,
	# the default data space is Dataspace::V0_SRGB;
	prop {
	api_name: "default_composition_dataspace"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.default_composition_dataspace"
	}

	# pixelFormat is the default pixel format that SurfaceFlinger
	# expects. If unspecified, the default pixel format is
	# PixelFormat::RGBA_8888.
	prop {
	api_name: "default_composition_pixel_format"
	type: Integer
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.default_composition_pixel_format"
	}

	# wcgDataspace is the data space that SurfaceFlinger expects for
	# wide color gamut surfaces.
	# When hasWideColorDisplay returns true, this API must return a
	# valid wide color gamut data space.
	# The data space must not be UNKNOWN, if unspecified, the data space
	# is V0_SRGB by default, which essentially indicates there's no wide
	# color gamut, meaning hasWideColorDisplay returns false.
	prop {
	api_name: "wcg_composition_dataspace"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.wcg_composition_dataspace"
	}

	# wcgPixelFormat is the pixel format that SurfaceFlinger expects for
	# wide color gamut surfaces. If unspecified, the pixel format is
	# PixelFormat::RGBA_8888 by default.
	prop {
	api_name: "wcg_composition_pixel_format"
	type: Integer
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.wcg_composition_pixel_format"
	}

	# colorSpaceAgnosticDataspace specifies the data space that
	# SurfaceFlinger expects for surfaces which are color space agnostic.
	# The variable works only when useColorManagement is specified. If
	# unspecified, the data space follows what SurfaceFlinger expects for
	# surfaces when useColorManagement is specified.

	prop {
	api_name: "color_space_agnostic_dataspace"
	type: Long
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.color_space_agnostic_dataspace"
	}

	# Return the native panel primary data. The data includes red, green,
	# blue and white. The primary format is CIE 1931 XYZ color space.
	# If unspecified, the primaries is sRGB gamut by default.

	prop {
	api_name: "display_primary_red"
	type: DoubleList
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.display_primary_red"
	}

	prop {
	api_name: "display_primary_green"
	type: DoubleList
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.display_primary_green"
	}

	prop {
	api_name: "display_primary_blue"
	type: DoubleList
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.display_primary_blue"
	}

	prop {
	api_name: "display_primary_white"
	type: DoubleList
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.display_primary_white"
	}

	# setIdleTimerMs indicates what is considered a timeout in milliseconds for Scheduler. This value is
	# used by the Scheduler to trigger inactivity callbacks that will switch the display to a lower
	# refresh rate. Setting this property to 0 means there is no timer.
	prop {
	api_name: "set_idle_timer_ms"
	type: Integer
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.set_idle_timer_ms"
	}

	# setTouchTimerMs indicates what is considered a timeout in milliseconds for Scheduler.
	# This value is used by the Scheduler to trigger touch inactivity callbacks that will switch the
	# display to a lower refresh rate. Setting this property to 0 means there is no timer.
	prop {
	api_name: "set_touch_timer_ms"
	type: Integer
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.set_touch_timer_ms"
	}

	# setDisplayPowerTimerMs indicates what is considered a timeout in milliseconds for Scheduler.
	# This value is used by the Scheduler to trigger display power inactivity callbacks that will
	# keep the display in peak refresh rate as long as display power is not in normal mode.
	# Setting this property to 0 means there is no timer.
	prop {
	api_name: "set_display_power_timer_ms"
	type: Integer
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.set_display_power_timer_ms"
	}

	# useSmart90ForVideo indicates whether Scheduler should detect content FPS, and try to adjust the
	# screen refresh rate based on that.
	prop {
	api_name: "use_smart_90_for_video"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.use_smart_90_for_video"
	}

	prop {
	api_name: "enable_protected_contents"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.protected_contents"
	}

	# Indicates whether Scheduler's idle timer should support a display driver timeout in the kernel.
	# The value of set_idle_timer_ms should be shorter in time than the timeout duration in the kernel.
	prop {
	api_name: "support_kernel_idle_timer"
	type: Boolean
	scope: System
	access: Readonly
	prop_name: "ro.surface_flinger.support_kernel_idle_timer"
	}