# Life begins with the kernel. type kernel, domain, mlstrustedsubject; allow kernel self:global_capability_class_set sys_nice; # Root fs. r_dir_file(kernel, rootfs) allow kernel proc_cmdline:file r_file_perms; # Get SELinux enforcing status. allow kernel selinuxfs:dir r_dir_perms; allow kernel selinuxfs:file r_file_perms; # Get file contexts during first stage allow kernel file_contexts_file:file r_file_perms; # Allow init relabel itself. allow kernel rootfs:file relabelfrom; allow kernel init_exec:file relabelto; # TODO: investigate why we need this. allow kernel init:process share; # cgroup filesystem initialization prior to setting the cgroup root directory label. allow kernel unlabeled:dir search; # Mount usbfs. allow kernel usbfs:filesystem mount; allow kernel usbfs:dir search; # Initial setenforce by init prior to switching to init domain. # We use dontaudit instead of allow to prevent a kernel spawned userspace # process from turning off SELinux once enabled. dontaudit kernel self:security setenforce; # Write to /proc/1/oom_adj prior to switching to init domain. allow kernel self:global_capability_class_set sys_resource; # Init reboot before switching selinux domains under certain error # conditions. Allow it. # As part of rebooting, init writes "u" to /proc/sysrq-trigger to # remount filesystems read-only. /data is not mounted at this point, # so we could ignore this. For now, we allow it. allow kernel self:global_capability_class_set sys_boot; allow kernel proc_sysrq:file w_file_perms; # Allow writing to /dev/kmsg which was created prior to loading policy. allow kernel tmpfs:chr_file write; # Set checkreqprot by init.rc prior to switching to init domain. allow kernel selinuxfs:file write; allow kernel self:security setcheckreqprot; # kernel thread "loop0", used by the loop block device, for ASECs (b/17158723) allow kernel sdcard_type:file { read write }; # f_mtp driver accesses files from kernel context. allow kernel mediaprovider:fd use; # Allow the kernel to read OBB files from app directories. (b/17428116) # Kernel thread "loop0" reads a vold supplied file descriptor. # Fixes CTS tests: # * android.os.storage.cts.StorageManagerTest#testMountAndUnmountObbNormal # * android.os.storage.cts.StorageManagerTest#testMountAndUnmountTwoObbs allow kernel vold:fd use; allow kernel { app_data_file privapp_data_file }:file read; allow kernel asec_image_file:file read; # Allow reading loop device in update_engine_unittests. (b/28319454) # and for LTP kernel tests (b/73220071) userdebug_or_eng(` allow kernel update_engine_data_file:file read; allow kernel nativetest_data_file:file { read write }; ') # Access to /data/media. # This should be removed if sdcardfs is modified to alter the secontext for its # accesses to the underlying FS. allow kernel media_rw_data_file:dir create_dir_perms; allow kernel media_rw_data_file:file create_file_perms; # Access to /data/misc/vold/virtual_disk. allow kernel vold_data_file:file { read write }; # Allow the kernel to read APEX file descriptors and (staged) data files; # Needed because APEX uses the loopback driver, which issues requests from # a kernel thread in earlier kernel version. allow kernel apexd:fd use; allow kernel apex_data_file:file read; allow kernel staging_data_file:file read; # Allow the first-stage init (which is running in the kernel domain) to execute the # dynamic linker when it re-executes /init to switch into the second stage. # Until Linux 4.8, the program interpreter (dynamic linker in this case) is executed # before the domain is switched to the target domain. So, we need to allow the kernel # domain (the source domain) to execute the dynamic linker (system_file type). # TODO(b/110147943) remove these allow rules when we no longer need to support Linux # kernel older than 4.8. allow kernel system_file:file execute; # The label for the dynamic linker is rootfs in the recovery partition. This is because # the recovery partition which is rootfs does not support xattr and thus labeling can't be # done at build-time. All files are by default labeled as rootfs upon booting. recovery_only(` allow kernel rootfs:file execute; ') ### ### neverallow rules ### # The initial task starts in the kernel domain (assigned via # initial_sid_contexts), but nothing ever transitions to it. neverallow * kernel:process { transition dyntransition }; # The kernel domain is never entered via an exec, nor should it # ever execute a program outside the rootfs without changing to another domain. # If you encounter an execute_no_trans denial on the kernel domain, then # possible causes include: # - The program is a kernel usermodehelper. In this case, define a domain # for the program and domain_auto_trans() to it. # - You are running an exploit which switched to the init task credentials # and is then trying to exec a shell or other program. You lose! neverallow kernel *:file { entrypoint execute_no_trans }; # the kernel should not be accessing files owned by other users. # Instead of adding dac_{read_search,override}, fix the unix permissions # on files being accessed. neverallow kernel self:global_capability_class_set { dac_override dac_read_search }; # Nobody should be ptracing kernel threads neverallow * kernel:process ptrace;