platform_system_sepolicy/public/app.te
Alan Stokes 7aa40413ae Split user_profile_data_file label.
user_profile_data_file is mlstrustedobject. And it needs to be,
because we want untrusted apps to be able to write to their profile
files, but they do not have levels.

But now we want to apply levels in the parent directories that have
the same label, and we want them to work so they need to not be
MLS-exempt. To resolve that we introduce a new label,
user_profile_root_file, which is applied to those directories (but no
files). We grant mostly the same access to the new label as
directories with the existing label.

Apart from appdomain, almost every domain which accesses
user_profile_data_file, and now user_profile_root_file, is already
mlstrustedsubject and so can't be affected by this change. The
exception is postinstall_dexopt which we now make mlstrustedobject.

Bug: 141677108
Bug: 175311045
Test: Manual: flash with wipe
Test: Manual: flash on top of older version
Test: Manual: install & uninstall apps
Test: Manual: create & remove user
Test: Presubmits.
Change-Id: I4e0def3d513b129d6c292f7edb076db341b4a2b3
2020-12-11 17:35:06 +00:00

604 lines
23 KiB
Text

###
### 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_lib_file:dir r_dir_perms;
allow appdomain 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 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;
# Sensitive app domains are not allowed to execute from /data
# to prevent persistence attacks and ensure all code is executed
# from read-only locations.
neverallow {
bluetooth
isolated_app
nfc
radio
shared_relro
system_app
} {
data_file_type
-dalvikcache_data_file
-system_data_file # shared libs in apks
-apk_data_file
}:file no_x_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 };