platform_system_sepolicy/public/domain.te
Max Bires 626f90c541 Adding a neverallow rule to prevent renaming of device and char files
This neverallow addition addresses the renaming of files in exploits in
order to bypass denied permissions. An example of a similar use case of
using mv to bypass permission denials appeared in a recent project zero
ChromeOS exploit as one of the steps in the exploit chain.
https://googleprojectzero.blogspot.com/2016/12/chrome-os-exploit-one-byte-overflow-and.html

Additionally, vold and init both had permission sets that allowed them
to rename, but neither of them seem to need it. Therefore the rename
permission has also been removed from these two .te files.

Test: The device boots successfully
Change-Id: I07bbb58f058bf050f269b083e836c2c9a5bbad80
2017-01-23 15:48:53 -08:00

704 lines
23 KiB
Text

# Rules for all domains.
# Allow reaping by init.
allow domain init:process sigchld;
# Intra-domain accesses.
allow domain self:process {
fork
sigchld
sigkill
sigstop
signull
signal
getsched
setsched
getsession
getpgid
setpgid
getcap
setcap
getattr
setrlimit
};
allow domain self:fd use;
allow domain proc:dir r_dir_perms;
allow domain proc_net:dir search;
r_dir_file(domain, self)
allow domain self:{ fifo_file file } rw_file_perms;
allow domain self:unix_dgram_socket { create_socket_perms sendto };
allow domain self:unix_stream_socket { create_stream_socket_perms connectto };
# Inherit or receive open files from others.
allow domain init:fd use;
userdebug_or_eng(`
# Same as adbd rules above, except allow su to do the same thing
allow domain su:unix_stream_socket connectto;
allow domain su:fd use;
allow domain su:unix_stream_socket { getattr getopt read write shutdown };
allow { domain -init } su:binder { call transfer };
allow { domain -init } su:fd use;
# Running something like "pm dump com.android.bluetooth" requires
# fifo writes
allow domain su:fifo_file { write getattr };
# allow "gdbserver --attach" to work for su.
allow domain su:process sigchld;
# Allow writing coredumps to /cores/*
allow domain coredump_file:file create_file_perms;
allow domain coredump_file:dir ra_dir_perms;
')
# Root fs.
allow domain rootfs:dir search;
allow domain rootfs:lnk_file read;
# Device accesses.
allow domain device:dir search;
allow domain dev_type:lnk_file r_file_perms;
allow domain devpts:dir search;
allow domain socket_device:dir r_dir_perms;
allow domain owntty_device:chr_file rw_file_perms;
allow domain null_device:chr_file rw_file_perms;
allow domain zero_device:chr_file rw_file_perms;
allow domain ashmem_device:chr_file rw_file_perms;
allow { domain -hwservicemanager } binder_device:chr_file rw_file_perms;
allow { domain -servicemanager } hwbinder_device:chr_file rw_file_perms;
allow domain ptmx_device:chr_file rw_file_perms;
allow domain alarm_device:chr_file r_file_perms;
allow domain random_device:chr_file rw_file_perms;
allow domain properties_device:dir { search getattr };
allow domain properties_serial:file r_file_perms;
# For now, everyone can access core property files
# Device specific properties are not granted by default
get_prop(domain, core_property_type)
# Let everyone read log properties, so that liblog can avoid sending unloggable
# messages to logd.
get_prop(domain, log_property_type)
dontaudit domain property_type:file audit_access;
allow domain property_contexts:file r_file_perms;
allow domain init:key search;
allow domain vold:key search;
# logd access
write_logd(domain)
# System file accesses.
allow domain system_file:dir { search getattr };
allow domain system_file:file { execute read open getattr };
allow domain system_file:lnk_file read;
# Initially grant all domains access to libart.
# TODO move to a whitelist. b/29795519
allow domain libart_file:file { execute read open getattr };
auditallow {
domain
-appdomain
-crash_dump
-dex2oat
-dumpstate
-profman
-recovery
-webview_zygote
-zygote
} libart_file:file { execute read open getattr };
# read any sysfs symlinks
allow domain sysfs:lnk_file read;
# libc references /data/misc/zoneinfo for timezone related information
r_dir_file(domain, zoneinfo_data_file)
# Lots of processes access current CPU information
r_dir_file(domain, sysfs_devices_system_cpu)
r_dir_file(domain, sysfs_usb);
# files under /data.
allow domain system_data_file:dir { search getattr };
allow domain system_data_file:lnk_file read;
# required by the dynamic linker
allow domain proc:lnk_file { getattr read };
# /proc/cpuinfo
allow domain proc_cpuinfo:file r_file_perms;
# jemalloc needs to read /proc/sys/vm/overcommit_memory
allow domain proc_overcommit_memory:file r_file_perms;
# toybox loads libselinux which stats /sys/fs/selinux/
allow domain selinuxfs:dir search;
allow domain selinuxfs:file getattr;
allow domain sysfs:dir search;
allow domain selinuxfs:filesystem getattr;
# For /acct/uid/*/tasks.
allow domain cgroup:dir { search write };
allow domain cgroup:file w_file_perms;
# Almost all processes log tracing information to
# /sys/kernel/debug/tracing/trace_marker
# The reason behind this is documented in b/6513400
allow domain debugfs:dir search;
allow domain debugfs_tracing:dir search;
allow domain debugfs_trace_marker:file w_file_perms;
# Filesystem access.
allow domain fs_type:filesystem getattr;
allow domain fs_type:dir getattr;
# Restrict all domains to a whitelist for common socket types. Additional
# ioctl commands may be added to individual domains, but this sets safe
# defaults for all processes. Note that granting this whitelist to domain does
# not grant the ioctl permission on these socket types. That must be granted
# separately.
allowxperm domain domain:{ rawip_socket tcp_socket udp_socket }
ioctl { unpriv_sock_ioctls unpriv_tty_ioctls };
# default whitelist for unix sockets.
allowxperm domain domain:{ unix_dgram_socket unix_stream_socket }
ioctl unpriv_unix_sock_ioctls;
# Restrict PTYs to only whitelisted ioctls.
# Note that granting this whitelist to domain does
# not grant the wider ioctl permission. That must be granted
# separately.
allowxperm domain devpts:chr_file ioctl unpriv_tty_ioctls;
###
### neverallow rules
###
# All socket ioctls must be restricted to a whitelist.
neverallowxperm domain domain:socket_class_set ioctl { 0 };
# TIOCSTI is only ever used for exploits. Block it.
# b/33073072, b/7530569
# http://www.openwall.com/lists/oss-security/2016/09/26/14
neverallowxperm * devpts:chr_file ioctl TIOCSTI;
# Do not allow any domain other than init or recovery to create unlabeled files.
neverallow { domain -init -recovery } unlabeled:dir_file_class_set create;
# Limit device node creation to these whitelisted domains.
neverallow {
domain
-kernel
-init
-ueventd
-vold
} self:capability mknod;
# Limit raw I/O to these whitelisted domains. Do not apply to debug builds.
neverallow {
domain
userdebug_or_eng(`-domain')
-kernel
-init
-recovery
-ueventd
-healthd
-uncrypt
-tee
} self:capability sys_rawio;
# No process can map low memory (< CONFIG_LSM_MMAP_MIN_ADDR).
neverallow * self:memprotect mmap_zero;
# No domain needs mac_override as it is unused by SELinux.
neverallow * self:capability2 mac_override;
# Only recovery needs mac_admin to set contexts not defined in current policy.
neverallow { domain -recovery } self:capability2 mac_admin;
# Once the policy has been loaded there shall be none to modify the policy.
# It is sealed.
neverallow * kernel:security load_policy;
# Only init prior to switching context should be able to set enforcing mode.
# init starts in kernel domain and switches to init domain via setcon in
# the init.rc, so the setenforce occurs while still in kernel. After
# switching domains, there is never any need to setenforce again by init.
neverallow * kernel:security setenforce;
neverallow { domain -kernel } kernel:security setcheckreqprot;
# No booleans in AOSP policy, so no need to ever set them.
neverallow * kernel:security setbool;
# Adjusting the AVC cache threshold.
# Not presently allowed to anything in policy, but possibly something
# that could be set from init.rc.
neverallow { domain -init } kernel:security setsecparam;
# Only init, ueventd, shell and system_server should be able to access HW RNG
neverallow {
domain
-init
-shell # For CTS and is restricted to getattr in shell.te
-system_server
-ueventd
} hw_random_device:chr_file *;
# Ensure that all entrypoint executables are in exec_type or postinstall_file.
neverallow * { file_type -exec_type -postinstall_file }:file entrypoint;
# Ensure that nothing in userspace can access /dev/mem or /dev/kmem
neverallow {
domain
-shell # For CTS and is restricted to getattr in shell.te
-ueventd # Further restricted in ueventd.te
} kmem_device:chr_file *;
neverallow * kmem_device:chr_file ~{ create relabelto unlink setattr getattr };
#Ensure that nothing in userspace can access /dev/port
neverallow {
domain
-shell # Shell user should not have any abilities outside of getattr
-ueventd
} port_device:chr_file *;
neverallow * port_device:chr_file ~{ create relabelto unlink setattr getattr };
# Only init should be able to configure kernel usermodehelpers or
# security-sensitive proc settings.
neverallow { domain -init } usermodehelper:file { append write };
neverallow { domain -init } proc_security:file { append write };
# No domain should be allowed to ptrace init.
neverallow * init:process ptrace;
# Init can't do anything with binder calls. If this neverallow rule is being
# triggered, it's probably due to a service with no SELinux domain.
neverallow * init:binder *;
# Don't allow raw read/write/open access to block_device
# Rather force a relabel to a more specific type
neverallow { domain -kernel -init -recovery } block_device:blk_file { open read write };
# Do not allow renaming of block files or character files
# Ability to do so can lead to possible use in an exploit chain
# e.g. https://googleprojectzero.blogspot.com/2016/12/chrome-os-exploit-one-byte-overflow-and.html
neverallow * *:{ blk_file chr_file } rename;
# Don't allow raw read/write/open access to generic devices.
# Rather force a relabel to a more specific type.
# init is exempt from this as there are character devices that only it uses.
# ueventd is exempt from this, as it is managing these devices.
neverallow { domain -init -ueventd } device:chr_file { open read write };
# Limit what domains can mount filesystems or change their mount flags.
# sdcard_type / vfat is exempt as a larger set of domains need
# this capability, including device-specific domains.
neverallow { domain -kernel -init -recovery -vold -zygote -update_engine -otapreopt_chroot } { fs_type -sdcard_type }:filesystem { mount remount relabelfrom relabelto };
#
# Assert that, to the extent possible, we're not loading executable content from
# outside the rootfs or /system partition except for a few whitelisted domains.
#
neverallow {
domain
-appdomain
-dumpstate
-shell
userdebug_or_eng(`-su')
-system_server
-webview_zygote
-zygote
} { file_type -libart_file -system_file -exec_type -postinstall_file }:file execute;
neverallow {
domain
-appdomain # for oemfs
-recovery # for /tmp/update_binary in tmpfs
} { fs_type -rootfs }:file execute;
# Files from cache should never be executed
neverallow domain { cache_file cache_backup_file cache_private_backup_file cache_recovery_file }:file execute;
# Protect most domains from executing arbitrary content from /data.
neverallow {
domain
-appdomain
} {
data_file_type
-dalvikcache_data_file
-system_data_file # shared libs in apks
-apk_data_file
-ephemeral_apk_data_file
}:file no_x_file_perms;
neverallow { domain userdebug_or_eng(`-shell') } nativetest_data_file:file no_x_file_perms;
# Only the init property service should write to /data/property and /dev/__properties__
neverallow { domain -init } property_data_file:dir no_w_dir_perms;
neverallow { domain -init } property_data_file:file { no_w_file_perms no_x_file_perms };
neverallow { domain -init } property_type:file { no_w_file_perms no_x_file_perms };
neverallow { domain -init } properties_device:file { no_w_file_perms no_x_file_perms };
neverallow { domain -init } properties_serial:file { no_w_file_perms no_x_file_perms };
# Only recovery should be doing writes to /system
neverallow { domain -recovery } { system_file exec_type }:dir_file_class_set
{ create write setattr relabelfrom append unlink link rename };
neverallow { domain -recovery -kernel } { system_file exec_type }:dir_file_class_set relabelto;
# Don't allow mounting on top of /system files or directories
neverallow * exec_type:dir_file_class_set mounton;
neverallow { domain -init } system_file:dir_file_class_set mounton;
# Nothing should be writing to files in the rootfs.
neverallow * rootfs:file { create write setattr relabelto append unlink link rename };
# Restrict context mounts to specific types marked with
# the contextmount_type attribute.
neverallow * {fs_type -contextmount_type}:filesystem relabelto;
# Ensure that context mount types are not writable, to ensure that
# the write to /system restriction above is not bypassed via context=
# mount to another type.
neverallow { domain -recovery } contextmount_type:dir_file_class_set
{ create write setattr relabelfrom relabelto append unlink link rename };
# Do not allow service_manager add for default_android_service.
# Instead domains should use a more specific type such as
# system_app_service rather than the generic type.
# New service_types are defined in service.te and new mappings
# from service name to service_type are defined in service_contexts.
neverallow * default_android_service:service_manager add;
# Require that domains explicitly label unknown properties, and do not allow
# anyone but init to modify unknown properties.
neverallow { domain -init } default_prop:property_service set;
neverallow { domain -init } mmc_prop:property_service set;
# Do not allow reading device's serial number from system properties except form
# a few whitelisted domains.
neverallow {
domain
-adbd
-dumpstate
-init
-mediadrmserver
-recovery
-shell
-system_server
} serialno_prop:file r_file_perms;
# Do not allow reading the last boot timestamp from system properties
neverallow { domain -init -system_server } firstboot_prop:file r_file_perms;
neverallow {
domain
-init
-recovery
-system_server
-shell # Shell is further restricted in shell.te
-ueventd # Further restricted in ueventd.te
} frp_block_device:blk_file rw_file_perms;
# The metadata block device is set aside for device encryption and
# verified boot metadata. It may be reset at will and should not
# be used by other domains.
neverallow { domain -init -recovery -vold } metadata_block_device:blk_file
{ append link rename write open read ioctl lock };
# No domain other than recovery and update_engine can write to system partition(s).
neverallow { domain -recovery -update_engine } system_block_device:blk_file write;
# No domains other than install_recovery or recovery can write to recovery.
neverallow { domain -install_recovery -recovery } recovery_block_device:blk_file write;
# No domains other than a select few can access the misc_block_device. This
# block device is reserved for OTA use.
# Do not assert this rule on userdebug/eng builds, due to some devices using
# this partition for testing purposes.
neverallow {
domain
userdebug_or_eng(`-domain') # exclude debuggable builds
-init
-uncrypt
-update_engine
-vold
-recovery
-ueventd
} misc_block_device:blk_file { append link relabelfrom rename write open read ioctl lock };
# Only servicemanager/hwservicemanager should be able to register with binder as the context manager
neverallow { domain -servicemanager -hwservicemanager} *:binder set_context_mgr;
# The service managers are only allowed to access their own device node
neverallow servicemanager hwbinder_device:chr_file no_rw_file_perms;
neverallow hwservicemanager binder_device:chr_file no_rw_file_perms;
# Only authorized processes should be writing to files in /data/dalvik-cache
neverallow {
domain
-init # TODO: limit init to relabelfrom for files
-zygote
-installd
-postinstall_dexopt
-cppreopts
-dex2oat
-otapreopt_slot
} dalvikcache_data_file:file no_w_file_perms;
neverallow {
domain
-init
-installd
-postinstall_dexopt
-cppreopts
-dex2oat
-zygote
-otapreopt_slot
} dalvikcache_data_file:dir no_w_dir_perms;
# Only system_server should be able to send commands via the zygote socket
neverallow { domain -zygote -system_server } zygote:unix_stream_socket connectto;
neverallow { domain -system_server } zygote_socket:sock_file write;
neverallow { domain -system_server -webview_zygote } webview_zygote:unix_stream_socket connectto;
neverallow { domain -system_server } webview_zygote_socket:sock_file write;
neverallow {
domain
-tombstoned
-crash_dump
-dumpstate
-system_server
} tombstoned:unix_stream_socket connectto;
neverallow { domain -crash_dump } tombstoned_crash_socket:sock_file write;
neverallow { domain -dumpstate -system_server } tombstoned_intercept_socket:sock_file write;
# Android does not support System V IPCs.
#
# The reason for this is due to the fact that, by design, they lead to global
# kernel resource leakage.
#
# For example, there is no way to automatically release a SysV semaphore
# allocated in the kernel when:
#
# - a buggy or malicious process exits
# - a non-buggy and non-malicious process crashes or is explicitly killed.
#
# Killing processes automatically to make room for new ones is an
# important part of Android's application lifecycle implementation. This means
# that, even assuming only non-buggy and non-malicious code, it is very likely
# that over time, the kernel global tables used to implement SysV IPCs will fill
# up.
neverallow * *:{ shm sem msg msgq } *;
# Do not mount on top of symlinks, fifos, or sockets.
# Feature parity with Chromium LSM.
neverallow * { file_type fs_type dev_type }:{ lnk_file fifo_file sock_file } mounton;
# Nobody should be able to execute su on user builds.
# On userdebug/eng builds, only dumpstate, shell, and
# su itself execute su.
neverallow { domain userdebug_or_eng(`-dumpstate -shell -su') } su_exec:file no_x_file_perms;
# Do not allow the introduction of new execmod rules. Text relocations
# and modification of executable pages are unsafe.
# The only exceptions are for NDK text relocations associated with
# https://code.google.com/p/android/issues/detail?id=23203
# which, long term, need to go away.
neverallow * {
file_type
-apk_data_file
-app_data_file
-asec_public_file
}:file execmod;
# Do not allow making the stack or heap executable.
# We would also like to minimize execmem but it seems to be
# required by some device-specific service domains.
neverallow * self:process { execstack execheap };
# prohibit non-zygote spawned processes from using shared libraries
# with text relocations. b/20013628 .
neverallow { domain -untrusted_app } file_type:file execmod;
neverallow { domain -init } proc:{ file dir } mounton;
# Ensure that all types assigned to processes are included
# in the domain attribute, so that all allow and neverallow rules
# written on domain are applied to all processes.
# This is achieved by ensuring that it is impossible to transition
# from a domain to a non-domain type and vice versa.
# TODO - rework this: neverallow domain ~domain:process { transition dyntransition };
neverallow ~domain domain:process { transition dyntransition };
#
# Only system_app and system_server should be creating or writing
# their files. The proper way to share files is to setup
# type transitions to a more specific type or assigning a type
# to its parent directory via a file_contexts entry.
# Example type transition:
# mydomain.te:file_type_auto_trans(mydomain, system_data_file, new_file_type)
#
neverallow {
domain
-system_server
-system_app
-init
-installd # for relabelfrom and unlink, check for this in explicit neverallow
} system_data_file:file no_w_file_perms;
# do not grant anything greater than r_file_perms and relabelfrom unlink
# to installd
neverallow installd system_data_file:file ~{ r_file_perms relabelfrom unlink };
# respect system_app sandboxes
neverallow {
domain
-system_app # its own sandbox
-system_server #populate com.android.providers.settings/databases/settings.db.
-installd # creation of app sandbox
} system_app_data_file:dir_file_class_set { create unlink open };
# Services should respect app sandboxes
neverallow {
domain
-appdomain
-installd # creation of sandbox
} app_data_file:dir_file_class_set { create unlink };
#
# Only these domains should transition to shell domain. This domain is
# permissible for the "shell user". If you need a process to exec a shell
# script with differing privilege, define a domain and set up a transition.
#
neverallow {
domain
-adbd
-init
-runas
-zygote
} shell:process { transition dyntransition };
# Only domains spawned from zygote and runas may have the appdomain attribute.
neverallow { domain -runas -webview_zygote -zygote } {
appdomain -shell userdebug_or_eng(`-su') -bluetooth
}:process { transition dyntransition };
# Minimize read access to shell- or app-writable symlinks.
# This is to prevent malicious symlink attacks.
neverallow {
domain
-appdomain
-installd
-uncrypt # TODO: see if we can remove
} app_data_file:lnk_file read;
neverallow {
domain
-shell
userdebug_or_eng(`-uncrypt')
-installd
} shell_data_file:lnk_file read;
# In addition to the symlink reading restrictions above, restrict
# write access to shell owned directories. The /data/local/tmp
# directory is untrustworthy, and non-whitelisted domains should
# not be trusting any content in those directories.
neverallow {
domain
-adbd
-dumpstate
-installd
-init
-shell
-vold
} shell_data_file:dir no_w_dir_perms;
neverallow {
domain
-adbd
-appdomain
-dumpstate
-init
-installd
-system_server # why?
userdebug_or_eng(`-uncrypt')
} shell_data_file:dir { open search };
# Same as above for /data/local/tmp files. We allow shell files
# to be passed around by file descriptor, but not directly opened.
neverallow {
domain
-adbd
-appdomain
-dumpstate
-installd
userdebug_or_eng(`-uncrypt')
} shell_data_file:file open;
# servicemanager is the only process which handles list request
neverallow * ~servicemanager:service_manager list;
# only service_manager_types can be added to service_manager
# TODO - rework this: neverallow * ~service_manager_type:service_manager { add find };
# Prevent assigning non property types to properties
# TODO - rework this: neverallow * ~property_type:property_service set;
# Domain types should never be assigned to any files other
# than the /proc/pid files associated with a process. The
# executable file used to enter a domain should be labeled
# with its own _exec type, not with the domain type.
# Conventionally, this looks something like:
# $ cat mydaemon.te
# type mydaemon, domain;
# type mydaemon_exec, exec_type, file_type;
# init_daemon_domain(mydaemon)
# $ grep mydaemon file_contexts
# /system/bin/mydaemon -- u:object_r:mydaemon_exec:s0
neverallow * domain:file { execute execute_no_trans entrypoint };
# Do not allow access to the generic debugfs label. This is too broad.
# Instead, if access to part of debugfs is desired, it should have a
# more specific label.
# TODO: fix system_server and dumpstate
neverallow { domain -init -system_server -dumpstate } debugfs:file no_rw_file_perms;
neverallow {
domain
-init
-recovery
-sdcardd
-vold
} fuse_device:chr_file open;
neverallow {
domain
-dumpstate
-init
-priv_app
-recovery
-sdcardd
-shell # Restricted by shell.te to only getattr
-system_server
-ueventd
-vold
} fuse_device:chr_file *;
# Profiles contain untrusted data and profman parses that. We should only run
# in from installd forked processes.
neverallow {
domain
-installd
-profman
} profman_exec:file no_x_file_perms;
# Enforce restrictions on kernel module origin.
# Do not allow kernel module loading except from system,
# vendor, and boot partitions.
neverallow * ~{ system_file rootfs }:system module_load;
# Only allow filesystem caps to be set at build time or
# during upgrade by recovery.
neverallow {
domain
-recovery
} self:capability setfcap;
# Enforce AT_SECURE for executing crash_dump.
neverallow domain crash_dump:process noatsecure;