private/gsid.te - platform/system/sepolicy - Git at Google

 # gsid - Manager for GSI Installation

 type gsid, domain;
 type gsid_exec, exec_type, file_type, system_file_type;
 typeattribute gsid coredomain;

 init_daemon_domain(gsid)

 binder_use(gsid)
 binder_service(gsid)
 add_service(gsid, gsi_service)

 # Manage DSU metadata encryption key through vold.
 allow gsid vold_service:service_manager find;
 binder_call(gsid, vold)

 set_prop(gsid, gsid_prop)

 # Needed to create/delete device-mapper nodes, and read/write to them.
 allow gsid dm_device:chr_file rw_file_perms;
 allow gsid dm_device:blk_file rw_file_perms;
 allow gsid self:global_capability_class_set sys_admin;
 dontaudit gsid self:global_capability_class_set dac_override;

 # On FBE devices (not using dm-default-key), gsid will use loop devices to map
 # images rather than device-mapper.
 allow gsid loop_control_device:chr_file rw_file_perms;
 allow gsid loop_device:blk_file rw_file_perms;
 allowxperm gsid loop_device:blk_file ioctl {
   LOOP_GET_STATUS64
   LOOP_SET_STATUS64
   LOOP_SET_FD
   LOOP_SET_BLOCK_SIZE
   LOOP_SET_DIRECT_IO
   LOOP_CLR_FD
   BLKFLSBUF
 };

 # libfiemap_writer uses sysfs to derive the bottom of a device-mapper stacking.
 # This requires traversing /sys/block/dm-N/slaves/* and reading the list of
 # file names.
 r_dir_file(gsid, sysfs_dm)

 # libfiemap_writer needs to read /sys/fs/f2fs/<dev>/features to determine
 # whether pin_file support is enabled.
 r_dir_file(gsid, sysfs_fs_f2fs)

 # Needed to read fstab, which is used to validate that system verity does not
 # use check_once_at_most for sdcard installs. (Note: proc_cmdline is needed
 # to get the A/B slot suffix).
 allow gsid proc_cmdline:file r_file_perms;
 allow gsid sysfs_dt_firmware_android:dir r_dir_perms;
 allow gsid sysfs_dt_firmware_android:file r_file_perms;

 # Needed to stat /data/gsi/* and realpath on /dev/block/by-name/*
 allow gsid block_device:dir r_dir_perms;

 # liblp queries these block alignment properties.
 allowxperm gsid { userdata_block_device sdcard_block_device }:blk_file ioctl {
   BLKIOMIN
   BLKALIGNOFF
 };

 # When installing images to an sdcard, gsid needs to be able to stat() the
 # block device. gsid also calls realpath() to remove symlinks.
 allow gsid mnt_media_rw_file:dir r_dir_perms;
 allow gsid mnt_media_rw_stub_file:dir r_dir_perms;

 # When installing images to an sdcard, gsid must bypass sdcardfs and install
 # directly to vfat, which supports the FIBMAP ioctl.
 allow gsid vfat:dir create_dir_perms;
 allow gsid vfat:file create_file_perms;
 allow gsid sdcard_block_device:blk_file r_file_perms;
 # This is needed for FIBMAP unfortunately. Oddly FIEMAP does not carry this
 # requirement, but the kernel does not implement FIEMAP support for VFAT.
 allow gsid self:global_capability_class_set sys_rawio;

 # Allow rules for gsi_tool.
 userdebug_or_eng(`
   # gsi_tool passes the system image over the adb connection, via stdin.
   allow gsid adbd:fd use;
   # Needed when running gsi_tool through "su root" rather than adb root.
   allow gsid adbd:unix_stream_socket rw_socket_perms;
   # gsi_tool passes a FIFO to gsid if invoked with pipe redirection.
   allow gsid { shell su }:fifo_file r_file_perms;
   # Allow installing images from /storage/emulated/...
   allow gsid sdcard_type:file r_file_perms;
 ')

 neverallow {
   domain
   -gsid
   -init
   -update_engine_common
   -recovery
   -fastbootd
 } gsid_prop:property_service set;

 # gsid needs to store images on /data, but cannot use file I/O. If it did, the
 # underlying blocks would be encrypted, and we couldn't mount the GSI image in
 # first-stage init. So instead of directly writing to /data, we:
 #
 #   1. fallocate a file large enough to hold the signed GSI
 #   2. extract its block layout with FIEMAP
 #   3. create a dm-linear device using the FIEMAP, targeting /dev/block/by-name/userdata
 #   4. write system_gsi into that dm device
 #
 # To make this process work, we need to unwrap the device-mapper stacking for
 # userdata to reach the underlying block device. To verify the result we use
 # stat(), which requires read access.
 allow gsid userdata_block_device:blk_file r_file_perms;

 # gsid uses /metadata/gsi to communicate GSI boot information to first-stage
 # init. It cannot use userdata since data cannot be decrypted during this
 # stage.
 #
 # gsid uses /metadata/gsi to store three files:
 #   install_status - A short string indicating whether a GSI image is bootable.
 #   lp_metadata    - LpMetadata blob describing the block ranges on userdata
 #                    where system_gsi resides.
 #   booted         - An empty file that, if exists, indicates that a GSI is
 #                    currently running.
 #
 allow gsid metadata_file:dir { search getattr };
 allow gsid {
     gsi_metadata_file_type
 }:dir create_dir_perms;

 allow gsid {
     ota_metadata_file
 }:dir rw_dir_perms;

 allow gsid {
     gsi_metadata_file_type
     ota_metadata_file
 }:file create_file_perms;

 # Allow restorecon to fix context of gsi_public_metadata_file.
 allow gsid file_contexts_file:file r_file_perms;
 allow gsid gsi_metadata_file:file relabelfrom;
 allow gsid gsi_public_metadata_file:file relabelto;

 allow gsid {
       gsi_data_file
       ota_image_data_file
 }:dir rw_dir_perms;
 allow gsid {
       gsi_data_file
       ota_image_data_file
 }:file create_file_perms;
 allowxperm gsid {
       gsi_data_file
       ota_image_data_file
 }:file ioctl {
       FS_IOC_FIEMAP
       FS_IOC_GETFLAGS
 };

 allow gsid system_server:binder call;

 # Prevent most processes from writing to gsi_metadata_file_type, but allow
 # adding rules for path resolution of gsi_public_metadata_file and reading
 # gsi_public_metadata_file.
 neverallow {
     domain
     -init
     -gsid
     -fastbootd
 } gsi_metadata_file_type:dir no_w_dir_perms;

 neverallow {
     domain
     -init
     -gsid
     -fastbootd
 } { gsi_metadata_file_type -gsi_public_metadata_file }:file_class_set *;

 neverallow {
     domain
     -init
     -gsid
     -fastbootd
 } gsi_public_metadata_file:file_class_set ~{ r_file_perms };

 # Prevent apps from accessing gsi_metadata_file_type.
 neverallow {
     appdomain
     -shell
 } gsi_metadata_file_type:dir_file_class_set *;

 neverallow {
     domain
     -init
     -gsid
 } gsi_data_file:dir_file_class_set *;

 neverallow {
     domain
     -gsid
 } gsi_data_file:file_class_set ~{ relabelto getattr };
	# gsid - Manager for GSI Installation

	type gsid, domain;
	type gsid_exec, exec_type, file_type, system_file_type;
	typeattribute gsid coredomain;

	init_daemon_domain(gsid)

	binder_use(gsid)
	binder_service(gsid)
	add_service(gsid, gsi_service)

	# Manage DSU metadata encryption key through vold.
	allow gsid vold_service:service_manager find;
	binder_call(gsid, vold)

	set_prop(gsid, gsid_prop)

	# Needed to create/delete device-mapper nodes, and read/write to them.
	allow gsid dm_device:chr_file rw_file_perms;
	allow gsid dm_device:blk_file rw_file_perms;
	allow gsid self:global_capability_class_set sys_admin;
	dontaudit gsid self:global_capability_class_set dac_override;

	# On FBE devices (not using dm-default-key), gsid will use loop devices to map
	# images rather than device-mapper.
	allow gsid loop_control_device:chr_file rw_file_perms;
	allow gsid loop_device:blk_file rw_file_perms;
	allowxperm gsid loop_device:blk_file ioctl {
	LOOP_GET_STATUS64
	LOOP_SET_STATUS64
	LOOP_SET_FD
	LOOP_SET_BLOCK_SIZE
	LOOP_SET_DIRECT_IO
	LOOP_CLR_FD
	BLKFLSBUF
	};

	# libfiemap_writer uses sysfs to derive the bottom of a device-mapper stacking.
	# This requires traversing /sys/block/dm-N/slaves/* and reading the list of
	# file names.
	r_dir_file(gsid, sysfs_dm)

	# libfiemap_writer needs to read /sys/fs/f2fs/<dev>/features to determine
	# whether pin_file support is enabled.
	r_dir_file(gsid, sysfs_fs_f2fs)

	# Needed to read fstab, which is used to validate that system verity does not
	# use check_once_at_most for sdcard installs. (Note: proc_cmdline is needed
	# to get the A/B slot suffix).
	allow gsid proc_cmdline:file r_file_perms;
	allow gsid sysfs_dt_firmware_android:dir r_dir_perms;
	allow gsid sysfs_dt_firmware_android:file r_file_perms;

	# Needed to stat /data/gsi/* and realpath on /dev/block/by-name/*
	allow gsid block_device:dir r_dir_perms;

	# liblp queries these block alignment properties.
	allowxperm gsid { userdata_block_device sdcard_block_device }:blk_file ioctl {
	BLKIOMIN
	BLKALIGNOFF
	};

	# When installing images to an sdcard, gsid needs to be able to stat() the
	# block device. gsid also calls realpath() to remove symlinks.
	allow gsid mnt_media_rw_file:dir r_dir_perms;
	allow gsid mnt_media_rw_stub_file:dir r_dir_perms;

	# When installing images to an sdcard, gsid must bypass sdcardfs and install
	# directly to vfat, which supports the FIBMAP ioctl.
	allow gsid vfat:dir create_dir_perms;
	allow gsid vfat:file create_file_perms;
	allow gsid sdcard_block_device:blk_file r_file_perms;
	# This is needed for FIBMAP unfortunately. Oddly FIEMAP does not carry this
	# requirement, but the kernel does not implement FIEMAP support for VFAT.
	allow gsid self:global_capability_class_set sys_rawio;

	# Allow rules for gsi_tool.
	userdebug_or_eng(`
	# gsi_tool passes the system image over the adb connection, via stdin.
	allow gsid adbd:fd use;
	# Needed when running gsi_tool through "su root" rather than adb root.
	allow gsid adbd:unix_stream_socket rw_socket_perms;
	# gsi_tool passes a FIFO to gsid if invoked with pipe redirection.
	allow gsid { shell su }:fifo_file r_file_perms;
	# Allow installing images from /storage/emulated/...
	allow gsid sdcard_type:file r_file_perms;
	')

	neverallow {
	domain
	-gsid
	-init
	-update_engine_common
	-recovery
	-fastbootd
	} gsid_prop:property_service set;

	# gsid needs to store images on /data, but cannot use file I/O. If it did, the
	# underlying blocks would be encrypted, and we couldn't mount the GSI image in
	# first-stage init. So instead of directly writing to /data, we:
	#
	# 1. fallocate a file large enough to hold the signed GSI
	# 2. extract its block layout with FIEMAP
	# 3. create a dm-linear device using the FIEMAP, targeting /dev/block/by-name/userdata
	# 4. write system_gsi into that dm device
	#
	# To make this process work, we need to unwrap the device-mapper stacking for
	# userdata to reach the underlying block device. To verify the result we use
	# stat(), which requires read access.
	allow gsid userdata_block_device:blk_file r_file_perms;

	# gsid uses /metadata/gsi to communicate GSI boot information to first-stage
	# init. It cannot use userdata since data cannot be decrypted during this
	# stage.
	#
	# gsid uses /metadata/gsi to store three files:
	# install_status - A short string indicating whether a GSI image is bootable.
	# lp_metadata - LpMetadata blob describing the block ranges on userdata
	# where system_gsi resides.
	# booted - An empty file that, if exists, indicates that a GSI is
	# currently running.
	#
	allow gsid metadata_file:dir { search getattr };
	allow gsid {
	gsi_metadata_file_type
	}:dir create_dir_perms;

	allow gsid {
	ota_metadata_file
	}:dir rw_dir_perms;

	allow gsid {
	gsi_metadata_file_type
	ota_metadata_file
	}:file create_file_perms;

	# Allow restorecon to fix context of gsi_public_metadata_file.
	allow gsid file_contexts_file:file r_file_perms;
	allow gsid gsi_metadata_file:file relabelfrom;
	allow gsid gsi_public_metadata_file:file relabelto;

	allow gsid {
	gsi_data_file
	ota_image_data_file
	}:dir rw_dir_perms;
	allow gsid {
	gsi_data_file
	ota_image_data_file
	}:file create_file_perms;
	allowxperm gsid {
	gsi_data_file
	ota_image_data_file
	}:file ioctl {
	FS_IOC_FIEMAP
	FS_IOC_GETFLAGS
	};

	allow gsid system_server:binder call;

	# Prevent most processes from writing to gsi_metadata_file_type, but allow
	# adding rules for path resolution of gsi_public_metadata_file and reading
	# gsi_public_metadata_file.
	neverallow {
	domain
	-init
	-gsid
	-fastbootd
	} gsi_metadata_file_type:dir no_w_dir_perms;

	neverallow {
	domain
	-init
	-gsid
	-fastbootd
	} { gsi_metadata_file_type -gsi_public_metadata_file }:file_class_set *;

	neverallow {
	domain
	-init
	-gsid
	-fastbootd
	} gsi_public_metadata_file:file_class_set ~{ r_file_perms };

	# Prevent apps from accessing gsi_metadata_file_type.
	neverallow {
	appdomain
	-shell
	} gsi_metadata_file_type:dir_file_class_set *;

	neverallow {
	domain
	-init
	-gsid
	} gsi_data_file:dir_file_class_set *;

	neverallow {
	domain
	-gsid
	} gsi_data_file:file_class_set ~{ relabelto getattr };