### ### Domain for all zygote spawned apps ### ### This file is the base policy for all zygote spawned apps. ### Other policy files, such as isolated_app.te, untrusted_app.te, etc ### extend from this policy. Only policies which should apply to ALL ### zygote spawned apps should be added here. ### type appdomain_tmpfs, file_type; # WebView and other application-specific JIT compilers allow appdomain self:process execmem; allow appdomain { ashmem_device ashmem_libcutils_device }:chr_file execute; # Receive and use open file descriptors inherited from zygote. allow appdomain zygote:fd use; # gdbserver for ndk-gdb reads the zygote. # valgrind needs mmap exec for zygote allow appdomain zygote_exec:file rx_file_perms; # Notify zygote of death; allow appdomain zygote:process sigchld; # Read /data/dalvik-cache. allow appdomain dalvikcache_data_file:dir { search getattr }; allow appdomain dalvikcache_data_file:file r_file_perms; # Read the /sdcard and /mnt/sdcard symlinks allow { appdomain -isolated_app } rootfs:lnk_file r_file_perms; allow { appdomain -isolated_app } tmpfs:lnk_file r_file_perms; # Search /storage/emulated tmpfs mount. allow appdomain tmpfs:dir r_dir_perms; # Notify zygote of the wrapped process PID when using --invoke-with. allow appdomain zygote:fifo_file write; userdebug_or_eng(` # Allow apps to create and write method traces in /data/misc/trace. allow appdomain method_trace_data_file:dir w_dir_perms; allow appdomain method_trace_data_file:file { create w_file_perms }; ') # Notify shell and adbd of death when spawned via runas for ndk-gdb. allow appdomain shell:process sigchld; allow appdomain adbd:process sigchld; # child shell or gdbserver pty access for runas. allow appdomain devpts:chr_file { getattr read write ioctl }; # Use pipes and sockets provided by system_server via binder or local socket. allow appdomain system_server:fd use; allow appdomain system_server:fifo_file rw_file_perms; allow appdomain system_server:unix_stream_socket { read write setopt getattr getopt shutdown }; allow appdomain system_server:tcp_socket { read write getattr getopt shutdown }; # For AppFuse. allow appdomain vold:fd use; # Communication with other apps via fifos allow appdomain appdomain:fifo_file rw_file_perms; # Communicate with surfaceflinger. allow appdomain surfaceflinger:unix_stream_socket { read write setopt getattr getopt shutdown }; # App sandbox file accesses. allow { appdomain -isolated_app -mlstrustedsubject } { app_data_file privapp_data_file }:dir create_dir_perms; allow { appdomain -isolated_app -mlstrustedsubject } { app_data_file privapp_data_file }:file create_file_perms; # Access via already open fds is ok even for mlstrustedsubject. allow { appdomain -isolated_app } { app_data_file privapp_data_file }:file { getattr map read write }; # Traverse into expanded storage allow appdomain mnt_expand_file:dir r_dir_perms; # Keychain and user-trusted credentials r_dir_file(appdomain, keychain_data_file) allow appdomain misc_user_data_file:dir r_dir_perms; allow appdomain misc_user_data_file:file r_file_perms; # TextClassifier r_dir_file({ appdomain -isolated_app }, textclassifier_data_file) # Access to OEM provided data and apps allow appdomain oemfs:dir r_dir_perms; allow appdomain oemfs:file rx_file_perms; # Execute the shell or other system executables. allow { appdomain -ephemeral_app } shell_exec:file rx_file_perms; allow { appdomain -ephemeral_app } toolbox_exec:file rx_file_perms; allow appdomain system_file:file x_file_perms; not_full_treble(`allow { appdomain -ephemeral_app } vendor_file:file x_file_perms;') # Renderscript needs the ability to read directories on /system allow appdomain system_file:dir r_dir_perms; allow appdomain system_file:lnk_file { getattr open read }; # Renderscript specific permissions to open /system/vendor/lib64. not_full_treble(` allow appdomain vendor_file_type:dir r_dir_perms; allow appdomain vendor_file_type:lnk_file { getattr open read }; ') full_treble_only(` # For looking up Renderscript vendor drivers allow { appdomain -isolated_app } vendor_file:dir { open read }; ') # Allow apps access to /vendor/app except for privileged # apps which cannot be in /vendor. r_dir_file({ appdomain -ephemeral_app }, vendor_app_file) allow { appdomain -ephemeral_app } vendor_app_file:file execute; # Allow apps access to /vendor/overlay r_dir_file(appdomain, vendor_overlay_file) # Allow apps access to /vendor/framework # for vendor provided libraries. r_dir_file(appdomain, vendor_framework_file) # Allow apps read / execute access to vendor public libraries. allow appdomain {vendor_public_framework_file vendor_public_lib_file}:dir r_dir_perms; allow appdomain {vendor_public_framework_file vendor_public_lib_file}:file { execute read open getattr map }; # Read/write wallpaper file (opened by system). allow appdomain wallpaper_file:file { getattr read write map }; # Read/write cached ringtones (opened by system). allow appdomain ringtone_file:file { getattr read write map }; # Read ShortcutManager icon files (opened by system). allow appdomain shortcut_manager_icons:file { getattr read map }; # Read icon file (opened by system). allow appdomain icon_file:file { getattr read map }; # Old stack dumping scheme : append to a global trace file (/data/anr/traces.txt). # # TODO: All of these permissions except for anr_data_file:file append can be # withdrawn once we've switched to the new stack dumping mechanism, see b/32064548 # and the rules below. allow appdomain anr_data_file:dir search; allow appdomain anr_data_file:file { open append }; # New stack dumping scheme : request an output FD from tombstoned via a unix # domain socket. # # Allow apps to connect and write to the tombstoned java trace socket in # order to dump their traces. Also allow them to append traces to pipes # created by dumptrace. (Also see the rules below where they are given # additional permissions to dumpstate pipes for other aspects of bug report # creation). unix_socket_connect(appdomain, tombstoned_java_trace, tombstoned) allow appdomain tombstoned:fd use; allow appdomain dumpstate:fifo_file append; allow appdomain incidentd:fifo_file append; # Allow apps to send dump information to dumpstate allow appdomain dumpstate:fd use; allow appdomain dumpstate:unix_stream_socket { read write getopt getattr shutdown }; allow appdomain dumpstate:fifo_file { write getattr }; allow appdomain shell_data_file:file { write getattr }; # Allow apps to send dump information to incidentd allow appdomain incidentd:fd use; allow appdomain incidentd:fifo_file { write getattr }; # Allow apps to send information to statsd socket. unix_socket_send(appdomain, statsdw, statsd) # Write profiles /data/misc/profiles allow appdomain user_profile_root_file:dir search; allow appdomain user_profile_data_file:dir { search write add_name }; allow appdomain user_profile_data_file:file create_file_perms; # Send heap dumps to system_server via an already open file descriptor # % adb shell am set-watch-heap com.android.systemui 1048576 # % adb shell dumpsys procstats --start-testing # debuggable builds only. userdebug_or_eng(` allow appdomain heapdump_data_file:file append; ') # /proc/net access. # TODO(b/9496886) Audit access for removal. # proc_net access for the negated domains below is granted (or not) in their # individual .te files. r_dir_file({ appdomain -ephemeral_app -isolated_app -platform_app -priv_app -shell -system_app -untrusted_app_all }, proc_net_type) # audit access for all these non-core app domains. userdebug_or_eng(` auditallow { appdomain -ephemeral_app -isolated_app -platform_app -priv_app -shell -su -system_app -untrusted_app_all } proc_net_type:{ dir file lnk_file } { getattr open read }; ') # Grant GPU access to all processes started by Zygote. # They need that to render the standard UI. allow { appdomain -isolated_app } gpu_device:chr_file rw_file_perms; # Use the Binder. binder_use(appdomain) # Perform binder IPC to binder services. binder_call(appdomain, binderservicedomain) # Perform binder IPC to other apps. binder_call(appdomain, appdomain) # Perform binder IPC to ephemeral apps. binder_call(appdomain, ephemeral_app) # Perform binder IPC to gpuservice. binder_call({ appdomain -isolated_app }, gpuservice) # Talk with graphics composer fences allow appdomain hal_graphics_composer:fd use; # Already connected, unnamed sockets being passed over some other IPC # hence no sock_file or connectto permission. This appears to be how # Chrome works, may need to be updated as more apps using isolated services # are examined. allow appdomain appdomain:unix_stream_socket { getopt getattr read write shutdown }; # Backup ability for every app. BMS opens and passes the fd # to any app that has backup ability. Hence, no open permissions here. allow appdomain backup_data_file:file { read write getattr map }; allow appdomain cache_backup_file:file { read write getattr map }; allow appdomain cache_backup_file:dir getattr; # Backup ability using 'adb backup' allow appdomain system_data_file:lnk_file r_file_perms; allow appdomain system_data_file:file { getattr read map }; # Allow read/stat of /data/media files passed by Binder or local socket IPC. allow { appdomain -isolated_app } media_rw_data_file:file { read getattr }; # Read and write /data/data/com.android.providers.telephony files passed over Binder. allow { appdomain -isolated_app } radio_data_file:file { read write getattr }; # Allow access to external storage; we have several visible mount points under /storage # and symlinks to primary storage at places like /storage/sdcard0 and /mnt/user/0/primary allow { appdomain -isolated_app -ephemeral_app } storage_file:dir r_dir_perms; allow { appdomain -isolated_app -ephemeral_app } storage_file:lnk_file r_file_perms; allow { appdomain -isolated_app -ephemeral_app } mnt_user_file:dir r_dir_perms; allow { appdomain -isolated_app -ephemeral_app } mnt_user_file:lnk_file r_file_perms; # Read/write visible storage allow { appdomain -isolated_app -ephemeral_app } sdcard_type:dir create_dir_perms; allow { appdomain -isolated_app -ephemeral_app } sdcard_type:file create_file_perms; # This should be removed if sdcardfs is modified to alter the secontext for its # accesses to the underlying FS. allow { appdomain -isolated_app -ephemeral_app } media_rw_data_file:dir create_dir_perms; allow { appdomain -isolated_app -ephemeral_app } media_rw_data_file:file create_file_perms; # Allow apps to use the USB Accessory interface. # http://developer.android.com/guide/topics/connectivity/usb/accessory.html # # USB devices are first opened by the system server (USBDeviceManagerService) # and the file descriptor is passed to the right Activity via binder. allow { appdomain -isolated_app -ephemeral_app } usb_device:chr_file { read write getattr ioctl }; allow { appdomain -isolated_app -ephemeral_app } usbaccessory_device:chr_file { read write getattr }; # For art. allow appdomain dalvikcache_data_file:file execute; allow appdomain dalvikcache_data_file:lnk_file r_file_perms; # Allow any app to read shared RELRO files. allow appdomain shared_relro_file:dir search; allow appdomain shared_relro_file:file r_file_perms; # Allow apps to read/execute installed binaries allow appdomain apk_data_file:dir r_dir_perms; allow appdomain apk_data_file:file rx_file_perms; # /data/resource-cache allow appdomain resourcecache_data_file:file r_file_perms; allow appdomain resourcecache_data_file:dir r_dir_perms; # logd access read_logd(appdomain) control_logd({ appdomain -ephemeral_app }) # application inherit logd write socket (urge is to deprecate this long term) allow appdomain zygote:unix_dgram_socket write; allow { appdomain -isolated_app -ephemeral_app } keystore:keystore_key { get_state get insert delete exist list sign verify }; allow { appdomain -isolated_app -ephemeral_app } keystore:keystore2_key { delete use get_info rebind update }; use_keystore({ appdomain -isolated_app -ephemeral_app }) use_credstore({ appdomain -isolated_app -ephemeral_app }) allow appdomain console_device:chr_file { read write }; # only allow unprivileged socket ioctl commands allowxperm { appdomain -bluetooth } self:{ rawip_socket tcp_socket udp_socket } ioctl { unpriv_sock_ioctls unpriv_tty_ioctls }; allow { appdomain -isolated_app } ion_device:chr_file r_file_perms; allow { appdomain -isolated_app } dmabuf_system_heap_device:chr_file r_file_perms; allow { appdomain -isolated_app } dmabuf_system_secure_heap_device:chr_file r_file_perms; # Allow AAudio apps to use shared memory file descriptors from the HAL allow { appdomain -isolated_app } hal_audio:fd use; # Allow app to access shared memory created by camera HAL1 allow { appdomain -isolated_app } hal_camera:fd use; # RenderScript always-passthrough HAL allow { appdomain -isolated_app } hal_renderscript_hwservice:hwservice_manager find; allow appdomain same_process_hal_file:file { execute read open getattr map }; # TODO: switch to meminfo service allow appdomain proc_meminfo:file r_file_perms; # For app fuse. allow appdomain app_fuse_file:file { getattr read append write map }; pdx_client({ appdomain -isolated_app -ephemeral_app }, display_client) pdx_client({ appdomain -isolated_app -ephemeral_app }, display_manager) pdx_client({ appdomain -isolated_app -ephemeral_app }, display_vsync) pdx_client({ appdomain -isolated_app -ephemeral_app }, performance_client) # Apps do not directly open the IPC socket for bufferhubd. pdx_use({ appdomain -isolated_app -ephemeral_app }, bufferhub_client) ### ### CTS-specific rules ### # For cts/tests/tests/permission/src/android/permission/cts/FileSystemPermissionTest.java. # testRunAsHasCorrectCapabilities allow appdomain runas_exec:file getattr; # Others are either allowed elsewhere or not desired. # Apps receive an open tun fd from the framework for # device traffic. Do not allow untrusted app to directly open tun_device allow { appdomain -isolated_app -ephemeral_app } tun_device:chr_file { read write getattr append ioctl }; allowxperm { appdomain -isolated_app -ephemeral_app } tun_device:chr_file ioctl TUNGETIFF; # Connect to adbd and use a socket transferred from it. # This is used for e.g. adb backup/restore. allow appdomain adbd:unix_stream_socket connectto; allow appdomain adbd:fd use; allow appdomain adbd:unix_stream_socket { getattr getopt ioctl read write shutdown }; allow appdomain cache_file:dir getattr; # Allow apps to run with asanwrapper. with_asan(`allow appdomain asanwrapper_exec:file rx_file_perms;') # Read access to FDs from the DropboxManagerService. allow appdomain dropbox_data_file:file { getattr read }; # Read tmpfs types from these processes. allow appdomain audioserver_tmpfs:file { getattr map read write }; allow appdomain system_server_tmpfs:file { getattr map read write }; allow appdomain zygote_tmpfs:file { map read }; ### ### Neverallow rules ### ### These are things that Android apps should NEVER be able to do ### # Superuser capabilities. # bluetooth requires net_admin and wake_alarm. network stack app requires net_admin. neverallow { appdomain -bluetooth -network_stack } self:capability_class_set *; # Block device access. neverallow appdomain dev_type:blk_file { read write }; # Access to any of the following character devices. neverallow appdomain { audio_device camera_device dm_device radio_device rpmsg_device video_device }:chr_file { read write }; # Note: Try expanding list of app domains in the future. neverallow { untrusted_app isolated_app shell } graphics_device:chr_file { read write }; neverallow { appdomain -nfc } nfc_device:chr_file { read write }; neverallow { appdomain -bluetooth } hci_attach_dev:chr_file { read write }; neverallow appdomain tee_device:chr_file { read write }; # Privileged netlink socket interfaces. neverallow { appdomain -network_stack } domain:{ netlink_tcpdiag_socket netlink_nflog_socket netlink_xfrm_socket netlink_audit_socket netlink_dnrt_socket } *; # These messages are broadcast messages from the kernel to userspace. # Do not allow the writing of netlink messages, which has been a source # of rooting vulns in the past. neverallow appdomain domain:netlink_kobject_uevent_socket { write append }; # Sockets under /dev/socket that are not specifically typed. neverallow appdomain socket_device:sock_file write; # Unix domain sockets. neverallow appdomain adbd_socket:sock_file write; neverallow { appdomain -radio } rild_socket:sock_file write; # ptrace access to non-app domains. neverallow appdomain { domain -appdomain }:process ptrace; # The Android security model guarantees the confidentiality and integrity # of application data and execution state. Ptrace bypasses those # confidentiality guarantees. Disallow ptrace access from system components # to apps. Crash_dump is excluded, as it needs ptrace access to # produce stack traces. llkd is excluded, as it needs ptrace access to # inspect stack traces for live lock conditions. neverallow { domain -appdomain -crash_dump userdebug_or_eng(`-llkd') } appdomain:process ptrace; # Read or write access to /proc/pid entries for any non-app domain. # A different form of hidepid=2 like protections neverallow appdomain { domain -appdomain }:file no_w_file_perms; neverallow { appdomain -shell } { domain -appdomain }:file no_rw_file_perms; # signal access to non-app domains. # sigchld allowed for parent death notification. # signull allowed for kill(pid, 0) existence test. # All others prohibited. # -perfetto is to allow shell (which is an appdomain) to kill perfetto # (see private/shell.te). neverallow appdomain { domain -appdomain -perfetto }:process { sigkill sigstop signal }; # Write to rootfs. neverallow appdomain rootfs:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; # Write to /system. neverallow appdomain system_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; # Write to entrypoint executables. neverallow appdomain exec_type:file { create write setattr relabelfrom relabelto append unlink link rename }; # Write to system-owned parts of /data. # This is the default type for anything under /data not otherwise # specified in file_contexts. Define a different type for portions # that should be writable by apps. neverallow appdomain system_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; # Write to various other parts of /data. neverallow appdomain drm_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -platform_app } apk_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -platform_app } apk_tmp_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -platform_app } apk_private_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -platform_app } apk_private_tmp_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -shell } shell_data_file:dir_file_class_set { create setattr relabelfrom relabelto append unlink link rename }; neverallow { appdomain -bluetooth } bluetooth_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow { domain -credstore -init } credstore_data_file:dir_file_class_set *; neverallow appdomain keystore_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow appdomain systemkeys_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow appdomain wifi_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; neverallow appdomain dhcp_data_file:dir_file_class_set { create write setattr relabelfrom relabelto append unlink link rename }; # access tmp apk files neverallow { appdomain -untrusted_app_all -platform_app -priv_app } { apk_tmp_file apk_private_tmp_file }:dir_file_class_set *; neverallow untrusted_app_all { apk_tmp_file apk_private_tmp_file }:{ devfile_class_set dir fifo_file lnk_file sock_file } *; neverallow untrusted_app_all { apk_tmp_file apk_private_tmp_file }:file ~{ getattr read }; # Access to factory files. neverallow appdomain efs_file:dir_file_class_set write; neverallow { appdomain -shell } efs_file:dir_file_class_set read; # Write to various pseudo file systems. neverallow { appdomain -bluetooth -nfc } sysfs:dir_file_class_set write; neverallow appdomain proc:dir_file_class_set write; # Access to syslog(2) or /proc/kmsg. neverallow appdomain kernel:system { syslog_read syslog_mod syslog_console }; # SELinux is not an API for apps to use neverallow { appdomain -shell } *:security { compute_av check_context }; neverallow { appdomain -shell } *:netlink_selinux_socket *; # Ability to perform any filesystem operation other than statfs(2). # i.e. no mount(2), unmount(2), etc. neverallow appdomain fs_type:filesystem ~getattr; # prevent creation/manipulation of globally readable symlinks neverallow appdomain { apk_data_file cache_file cache_recovery_file dev_type rootfs system_file tmpfs }:lnk_file no_w_file_perms; # Applications should use the activity model for receiving events neverallow { appdomain -shell # bugreport } input_device:chr_file ~getattr; # Do not allow access to Bluetooth-related system properties except for a few allowed domains. # neverallow rules for access to Bluetooth-related data files are above. neverallow { appdomain -bluetooth -system_app } { bluetooth_audio_hal_prop bluetooth_a2dp_offload_prop bluetooth_prop exported_bluetooth_prop }:file create_file_perms; # Apps cannot access proc_uid_time_in_state neverallow appdomain proc_uid_time_in_state:file *; # Apps cannot access proc_uid_concurrent_active_time neverallow appdomain proc_uid_concurrent_active_time:file *; # Apps cannot access proc_uid_concurrent_policy_time neverallow appdomain proc_uid_concurrent_policy_time:file *; # Apps cannot access proc_uid_cpupower neverallow appdomain proc_uid_cpupower:file *; # Apps may not read /proc/net/{tcp,tcp6,udp,udp6}. These files leak information across the # application boundary. VPN apps may use the ConnectivityManager.getConnectionOwnerUid() API to # perform UID lookups. neverallow { appdomain -shell } proc_net_tcp_udp:file *; # Apps cannot access bootstrap files. The bootstrap files are only for # extremely early processes (like init, etc.) which are started before # the runtime APEX is activated and Bionic libs are provided from there. # If app process accesses (or even load/execute) the bootstrap files, # it might cause problems such as ODR violation, etc. neverallow appdomain system_bootstrap_lib_file:file { open read write append execute execute_no_trans map }; neverallow appdomain system_bootstrap_lib_file:dir { open read getattr search };