public/hal_omx.te - platform/system/sepolicy - Git at Google

 # applies all permissions to hal_omx NOT hal_omx_server
 # since OMX must always be in its own process.

 binder_call(hal_omx_server, binderservicedomain)
 binder_call(hal_omx_server, { appdomain -isolated_app })

 # Allow hal_omx_server access to composer sync fences
 allow hal_omx_server hal_graphics_composer:fd use;

 allow hal_omx_server ion_device:chr_file rw_file_perms;
 allow hal_omx_server hal_camera:fd use;

 crash_dump_fallback(hal_omx_server)

 # Recieve gralloc buffer FDs from bufferhubd. Note that hal_omx_server never
 # directly connects to bufferhubd via PDX. Instead, a VR app acts as a bridge
 # between those two: it talks to hal_omx_server via Binder and talks to bufferhubd
 # via PDX. Thus, there is no need to use pdx_client macro.
 allow hal_omx_server bufferhubd:fd use;

 hal_attribute_hwservice(hal_omx, hal_omx_hwservice)

 allow hal_omx_client hidl_token_hwservice:hwservice_manager find;

 binder_call(hal_omx_client, hal_omx_server)
 binder_call(hal_omx_server, hal_omx_client)

 ###
 ### neverallow rules
 ###

 # hal_omx_server should never execute any executable without a
 # domain transition
 neverallow hal_omx_server { file_type fs_type }:file execute_no_trans;

 # The goal of the mediaserver split is to place media processing code into
 # restrictive sandboxes with limited responsibilities and thus limited
 # permissions. Example: Audioserver is only responsible for controlling audio
 # hardware and processing audio content. Cameraserver does the same for camera
 # hardware/content. Etc.
 #
 # Media processing code is inherently risky and thus should have limited
 # permissions and be isolated from the rest of the system and network.
 # Lengthier explanation here:
 # https://android-developers.googleblog.com/2016/05/hardening-media-stack.html
 neverallow hal_omx_server domain:{ tcp_socket udp_socket rawip_socket } *;
	# applies all permissions to hal_omx NOT hal_omx_server
	# since OMX must always be in its own process.

	binder_call(hal_omx_server, binderservicedomain)
	binder_call(hal_omx_server, { appdomain -isolated_app })

	# Allow hal_omx_server access to composer sync fences
	allow hal_omx_server hal_graphics_composer:fd use;

	allow hal_omx_server ion_device:chr_file rw_file_perms;
	allow hal_omx_server hal_camera:fd use;

	crash_dump_fallback(hal_omx_server)

	# Recieve gralloc buffer FDs from bufferhubd. Note that hal_omx_server never
	# directly connects to bufferhubd via PDX. Instead, a VR app acts as a bridge
	# between those two: it talks to hal_omx_server via Binder and talks to bufferhubd
	# via PDX. Thus, there is no need to use pdx_client macro.
	allow hal_omx_server bufferhubd:fd use;

	hal_attribute_hwservice(hal_omx, hal_omx_hwservice)

	allow hal_omx_client hidl_token_hwservice:hwservice_manager find;

	binder_call(hal_omx_client, hal_omx_server)
	binder_call(hal_omx_server, hal_omx_client)

	###
	### neverallow rules
	###

	# hal_omx_server should never execute any executable without a
	# domain transition
	neverallow hal_omx_server { file_type fs_type }:file execute_no_trans;

	# The goal of the mediaserver split is to place media processing code into
	# restrictive sandboxes with limited responsibilities and thus limited
	# permissions. Example: Audioserver is only responsible for controlling audio
	# hardware and processing audio content. Cameraserver does the same for camera
	# hardware/content. Etc.
	#
	# Media processing code is inherently risky and thus should have limited
	# permissions and be isolated from the rest of the system and network.
	# Lengthier explanation here:
	# https://android-developers.googleblog.com/2016/05/hardening-media-stack.html
	neverallow hal_omx_server domain:{ tcp_socket udp_socket rawip_socket } *;