public/recovery.te - LeafOS-Project/android_system_sepolicy - Gitiles

 # recovery console (used in recovery init.rc for /sbin/recovery)

 # Declare the domain unconditionally so we can always reference it
 # in neverallow rules.
 type recovery, domain;

 # But the allow rules are only included in the recovery policy.
 # Otherwise recovery is only allowed the domain rules.
 recovery_only(`
   # Allow recovery to perform an update as update_engine would do.
   typeattribute recovery update_engine_common;
   # Recovery can use HIDL HALs in passthrough mode
   passthrough_hal_client_domain(recovery, hal_bootctl)

   # Recovery can use AIDL HALs in binder mode
   binder_use(recovery)
   hal_client_domain(recovery, hal_health)

   allow recovery self:global_capability_class_set {
     chown
     dac_override
     dac_read_search
     fowner
     setuid
     setgid
     sys_admin
     sys_tty_config
   };

   # Run helpers from / or /system without changing domain.
   r_dir_file(recovery, rootfs)
   allow recovery rootfs:file execute_no_trans;
   allow recovery system_file:file execute_no_trans;
   allow recovery toolbox_exec:file rx_file_perms;

   # Mount filesystems.
   allow recovery rootfs:dir mounton;
   allow recovery tmpfs:dir mounton;
   allow recovery { fs_type enforce_debugfs_restriction(`-debugfs_type') }:filesystem ~relabelto;
   allow recovery unlabeled:filesystem ~relabelto;
   allow recovery contextmount_type:filesystem relabelto;

   # We may be asked to set an SELinux label for a type not known to the
   # currently loaded policy. Allow it.
   allow recovery unlabeled:{ file lnk_file } { create_file_perms relabelfrom relabelto };
   allow recovery unlabeled:dir { create_dir_perms relabelfrom relabelto };

   # Get file contexts
   allow recovery file_contexts_file:file r_file_perms;

   # Write to /proc/sys/vm/drop_caches
   allow recovery proc_drop_caches:file w_file_perms;

   # Read /proc/swaps
   allow recovery proc_swaps:file r_file_perms;

   # Read kernel config through libvintf for OTA matching
   allow recovery config_gz:file { open read getattr };

   # Write to /sys/class/android_usb/android0/enable.
   r_dir_file(recovery, sysfs_android_usb)
   allow recovery sysfs_android_usb:file w_file_perms;

   # Write to /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq.
   allow recovery sysfs_devices_system_cpu:file w_file_perms;

   allow recovery sysfs_batteryinfo:file r_file_perms;

   # Read /sysfs/fs/ext4/features
   r_dir_file(recovery, sysfs_fs_ext4_features)

   # Read from /sys/class/leds/lcd-backlight/max_brightness and write to /s/c/l/l/brightness to
   # control backlight brightness.
   allow recovery sysfs_leds:dir r_dir_perms;
   allow recovery sysfs_leds:file rw_file_perms;
   allow recovery sysfs_leds:lnk_file read;

   allow recovery kernel:system syslog_read;

   # Access /dev/usb-ffs/adb/ep0
   allow recovery functionfs:dir search;
   allow recovery functionfs:file rw_file_perms;
   allowxperm recovery functionfs:file ioctl FUNCTIONFS_ENDPOINT_DESC;

   # Access to /sys/fs/selinux/policyvers for compatibility check
   allow recovery selinuxfs:file r_file_perms;

   # Required to e.g. wipe userdata/cache.
   allow recovery device:dir r_dir_perms;
   allow recovery block_device:dir r_dir_perms;
   allow recovery dev_type:blk_file rw_file_perms;
   allowxperm recovery { userdata_block_device metadata_block_device cache_block_device }:blk_file ioctl BLKPBSZGET;

   # GUI
   allow recovery graphics_device:chr_file rw_file_perms;
   allow recovery graphics_device:dir r_dir_perms;
   allow recovery input_device:dir r_dir_perms;
   allow recovery input_device:chr_file r_file_perms;
   allow recovery tty_device:chr_file rw_file_perms;

   # Create /tmp/recovery.log and execute /tmp/update_binary.
   allow recovery tmpfs:file { create_file_perms x_file_perms };
   allow recovery tmpfs:dir create_dir_perms;

   # Manage files on /cache and /cache/recovery
   allow recovery { cache_file cache_recovery_file }:dir create_dir_perms;
   allow recovery { cache_file cache_recovery_file }:file create_file_perms;

   # Read /sys/class/thermal/*/temp for thermal info.
   r_dir_file(recovery, sysfs_thermal)

   # Read files on /oem.
   r_dir_file(recovery, oemfs);

   # Use setfscreatecon() to label files for OTA updates.
   allow recovery self:process setfscreate;

   # Allow recovery to create a fuse filesystem, and read files from it.
   allow recovery fuse_device:chr_file rw_file_perms;
   allow recovery fuse:dir r_dir_perms;
   allow recovery fuse:file r_file_perms;

   wakelock_use(recovery)

   # This line seems suspect, as it should not really need to
   # set scheduling parameters for a kernel domain task.
   allow recovery kernel:process setsched;

   # These are needed to update dynamic partitions in recovery.
   r_dir_file(recovery, sysfs_dm)
   allowxperm recovery super_block_device_type:blk_file ioctl { BLKIOMIN BLKALIGNOFF };

   # Allow using libfiemap/gsid directly (no binder in recovery).
   allow recovery gsi_metadata_file_type:dir search;
   allow recovery ota_metadata_file:dir rw_dir_perms;
   allow recovery ota_metadata_file:file create_file_perms;

   # Allow mounting /metadata for writing update states
   allow recovery metadata_file:dir { getattr mounton };

   # Recovery uses liblogwrap to write fsck logs to kmsg, liblogwrap requires devpts.
   allow recovery devpts:chr_file rw_file_perms;
   allow recovery kmsg_device:chr_file { getattr w_file_perms };
 ')

 ###
 ### neverallow rules
 ###

 # Recovery should never touch /data.
 #
 # In particular, if /data is encrypted, it is not accessible
 # to recovery anyway.
 #
 # For now, we only enforce write/execute restrictions, as domain.te
 # contains a number of read-only rules that apply to all
 # domains, including recovery.
 #
 # TODO: tighten this up further.
 neverallow recovery {
    data_file_type
    -cache_file
    -cache_recovery_file
   with_native_coverage(`-method_trace_data_file')
 }:file { no_w_file_perms no_x_file_perms };
 neverallow recovery {
    data_file_type
    -cache_file
    -cache_recovery_file
   with_native_coverage(`-method_trace_data_file')
 }:dir no_w_dir_perms;
	# recovery console (used in recovery init.rc for /sbin/recovery)

	# Declare the domain unconditionally so we can always reference it
	# in neverallow rules.
	type recovery, domain;

	# But the allow rules are only included in the recovery policy.
	# Otherwise recovery is only allowed the domain rules.
	recovery_only(`
	# Allow recovery to perform an update as update_engine would do.
	typeattribute recovery update_engine_common;
	# Recovery can use HIDL HALs in passthrough mode
	passthrough_hal_client_domain(recovery, hal_bootctl)

	# Recovery can use AIDL HALs in binder mode
	binder_use(recovery)
	hal_client_domain(recovery, hal_health)

	allow recovery self:global_capability_class_set {
	chown
	dac_override
	dac_read_search
	fowner
	setuid
	setgid
	sys_admin
	sys_tty_config
	};

	# Run helpers from / or /system without changing domain.
	r_dir_file(recovery, rootfs)
	allow recovery rootfs:file execute_no_trans;
	allow recovery system_file:file execute_no_trans;
	allow recovery toolbox_exec:file rx_file_perms;

	# Mount filesystems.
	allow recovery rootfs:dir mounton;
	allow recovery tmpfs:dir mounton;
	allow recovery { fs_type enforce_debugfs_restriction(`-debugfs_type') }:filesystem ~relabelto;
	allow recovery unlabeled:filesystem ~relabelto;
	allow recovery contextmount_type:filesystem relabelto;

	# We may be asked to set an SELinux label for a type not known to the
	# currently loaded policy. Allow it.
	allow recovery unlabeled:{ file lnk_file } { create_file_perms relabelfrom relabelto };
	allow recovery unlabeled:dir { create_dir_perms relabelfrom relabelto };

	# Get file contexts
	allow recovery file_contexts_file:file r_file_perms;

	# Write to /proc/sys/vm/drop_caches
	allow recovery proc_drop_caches:file w_file_perms;

	# Read /proc/swaps
	allow recovery proc_swaps:file r_file_perms;

	# Read kernel config through libvintf for OTA matching
	allow recovery config_gz:file { open read getattr };

	# Write to /sys/class/android_usb/android0/enable.
	r_dir_file(recovery, sysfs_android_usb)
	allow recovery sysfs_android_usb:file w_file_perms;

	# Write to /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq.
	allow recovery sysfs_devices_system_cpu:file w_file_perms;

	allow recovery sysfs_batteryinfo:file r_file_perms;

	# Read /sysfs/fs/ext4/features
	r_dir_file(recovery, sysfs_fs_ext4_features)

	# Read from /sys/class/leds/lcd-backlight/max_brightness and write to /s/c/l/l/brightness to
	# control backlight brightness.
	allow recovery sysfs_leds:dir r_dir_perms;
	allow recovery sysfs_leds:file rw_file_perms;
	allow recovery sysfs_leds:lnk_file read;

	allow recovery kernel:system syslog_read;

	# Access /dev/usb-ffs/adb/ep0
	allow recovery functionfs:dir search;
	allow recovery functionfs:file rw_file_perms;
	allowxperm recovery functionfs:file ioctl FUNCTIONFS_ENDPOINT_DESC;

	# Access to /sys/fs/selinux/policyvers for compatibility check
	allow recovery selinuxfs:file r_file_perms;

	# Required to e.g. wipe userdata/cache.
	allow recovery device:dir r_dir_perms;
	allow recovery block_device:dir r_dir_perms;
	allow recovery dev_type:blk_file rw_file_perms;
	allowxperm recovery { userdata_block_device metadata_block_device cache_block_device }:blk_file ioctl BLKPBSZGET;

	# GUI
	allow recovery graphics_device:chr_file rw_file_perms;
	allow recovery graphics_device:dir r_dir_perms;
	allow recovery input_device:dir r_dir_perms;
	allow recovery input_device:chr_file r_file_perms;
	allow recovery tty_device:chr_file rw_file_perms;

	# Create /tmp/recovery.log and execute /tmp/update_binary.
	allow recovery tmpfs:file { create_file_perms x_file_perms };
	allow recovery tmpfs:dir create_dir_perms;

	# Manage files on /cache and /cache/recovery
	allow recovery { cache_file cache_recovery_file }:dir create_dir_perms;
	allow recovery { cache_file cache_recovery_file }:file create_file_perms;

	# Read /sys/class/thermal/*/temp for thermal info.
	r_dir_file(recovery, sysfs_thermal)

	# Read files on /oem.
	r_dir_file(recovery, oemfs);

	# Use setfscreatecon() to label files for OTA updates.
	allow recovery self:process setfscreate;

	# Allow recovery to create a fuse filesystem, and read files from it.
	allow recovery fuse_device:chr_file rw_file_perms;
	allow recovery fuse:dir r_dir_perms;
	allow recovery fuse:file r_file_perms;

	wakelock_use(recovery)

	# This line seems suspect, as it should not really need to
	# set scheduling parameters for a kernel domain task.
	allow recovery kernel:process setsched;

	# These are needed to update dynamic partitions in recovery.
	r_dir_file(recovery, sysfs_dm)
	allowxperm recovery super_block_device_type:blk_file ioctl { BLKIOMIN BLKALIGNOFF };

	# Allow using libfiemap/gsid directly (no binder in recovery).
	allow recovery gsi_metadata_file_type:dir search;
	allow recovery ota_metadata_file:dir rw_dir_perms;
	allow recovery ota_metadata_file:file create_file_perms;

	# Allow mounting /metadata for writing update states
	allow recovery metadata_file:dir { getattr mounton };

	# Recovery uses liblogwrap to write fsck logs to kmsg, liblogwrap requires devpts.
	allow recovery devpts:chr_file rw_file_perms;
	allow recovery kmsg_device:chr_file { getattr w_file_perms };
	')

	###
	### neverallow rules
	###

	# Recovery should never touch /data.
	#
	# In particular, if /data is encrypted, it is not accessible
	# to recovery anyway.
	#
	# For now, we only enforce write/execute restrictions, as domain.te
	# contains a number of read-only rules that apply to all
	# domains, including recovery.
	#
	# TODO: tighten this up further.
	neverallow recovery {
	data_file_type
	-cache_file
	-cache_recovery_file
	with_native_coverage(`-method_trace_data_file')
	}:file { no_w_file_perms no_x_file_perms };
	neverallow recovery {
	data_file_type
	-cache_file
	-cache_recovery_file
	with_native_coverage(`-method_trace_data_file')
	}:dir no_w_dir_perms;