platform_system_sepolicy/private/app_neverallows.te

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###
### neverallow rules for untrusted app domains
###
define(`all_untrusted_apps',`{
ephemeral_app
isolated_app
isolated_app_all
isolated_compute_app
mediaprovider
mediaprovider_app
untrusted_app
untrusted_app_25
untrusted_app_27
untrusted_app_29
untrusted_app_30
untrusted_app_all
}')
# Receive or send uevent messages.
neverallow all_untrusted_apps domain:netlink_kobject_uevent_socket *;
# Receive or send generic netlink messages
neverallow all_untrusted_apps domain:netlink_socket *;
# Read or write kernel printk buffer
neverallow all_untrusted_apps kmsg_device:chr_file no_rw_file_perms;
# Too much leaky information in debugfs. It's a security
# best practice to ensure these files aren't readable.
neverallow all_untrusted_apps { debugfs_type -debugfs_kcov }:file read;
neverallow {all_untrusted_apps userdebug_or_eng(`-domain')} debugfs_type:{ file lnk_file } read;
# Do not allow untrusted apps to register services.
# Only trusted components of Android should be registering
# services.
neverallow all_untrusted_apps service_manager_type:service_manager add;
# Do not allow untrusted apps to use VendorBinder
neverallow all_untrusted_apps vndbinder_device:chr_file *;
neverallow all_untrusted_apps vndservice_manager_type:service_manager *;
# Do not allow untrusted apps to connect to the property service
# or set properties. b/10243159
neverallow { all_untrusted_apps -mediaprovider } property_socket:sock_file write;
neverallow { all_untrusted_apps -mediaprovider } init:unix_stream_socket connectto;
neverallow { all_untrusted_apps -mediaprovider } property_type:property_service set;
# net.dns properties are not a public API. Disallow untrusted apps from reading this property.
neverallow { all_untrusted_apps } net_dns_prop:file read;
# radio_cdma_ecm_prop properties are not a public API. Disallow untrusted apps from reading this property.
neverallow { all_untrusted_apps } radio_cdma_ecm_prop:file read;
# Shared libraries created by trusted components within an app home
# directory can be dlopen()ed. To maintain the W^X property, these files
# must never be writable to the app.
neverallow all_untrusted_apps app_exec_data_file:file
{ append create link relabelfrom relabelto rename setattr write };
# Block calling execve() on files in an apps home directory.
# This is a W^X violation (loading executable code from a writable
# home directory). For compatibility, allow for targetApi <= 28.
# b/112357170
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
-runas_app
} { app_data_file privapp_data_file }:file execute_no_trans;
# Do not allow untrusted apps to invoke dex2oat. This was historically required
# by ART for compiling secondary dex files but has been removed in Q.
# Exempt legacy apps (targetApi<=28) for compatibility.
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
} dex2oat_exec:file no_x_file_perms;
# Do not allow untrusted apps to be assigned mlstrustedsubject.
# This would undermine the per-user isolation model being
# enforced via levelFrom=user in seapp_contexts and the mls
# constraints. As there is no direct way to specify a neverallow
# on attribute assignment, this relies on the fact that fork
# permission only makes sense within a domain (hence should
# never be granted to any other domain within mlstrustedsubject)
# and an untrusted app is allowed fork permission to itself.
neverallow all_untrusted_apps mlstrustedsubject:process fork;
# Do not allow untrusted apps to hard link to any files.
# In particular, if an untrusted app links to other app data
# files, installd will not be able to guarantee the deletion
# of the linked to file. Hard links also contribute to security
# bugs, so we want to ensure untrusted apps never have this
# capability.
neverallow all_untrusted_apps file_type:file link;
# Do not allow untrusted apps to access network MAC address file
neverallow all_untrusted_apps sysfs_net:file no_rw_file_perms;
# Do not allow any write access to files in /sys
neverallow all_untrusted_apps sysfs_type:file { no_w_file_perms no_x_file_perms };
# Apps may never access the default sysfs label.
neverallow all_untrusted_apps sysfs:file no_rw_file_perms;
# Restrict socket ioctls. Either 1. disallow privileged ioctls, 2. disallow the
# ioctl permission, or 3. disallow the socket class.
neverallowxperm all_untrusted_apps domain:{ icmp_socket rawip_socket tcp_socket udp_socket } ioctl priv_sock_ioctls;
neverallow all_untrusted_apps *:{ netlink_route_socket netlink_selinux_socket } ioctl;
neverallow all_untrusted_apps *:{
socket netlink_socket packet_socket key_socket appletalk_socket
netlink_tcpdiag_socket netlink_nflog_socket
netlink_xfrm_socket netlink_audit_socket
netlink_dnrt_socket netlink_kobject_uevent_socket tun_socket
netlink_iscsi_socket netlink_fib_lookup_socket netlink_connector_socket
netlink_netfilter_socket netlink_generic_socket netlink_scsitransport_socket
netlink_rdma_socket netlink_crypto_socket sctp_socket
ax25_socket ipx_socket netrom_socket atmpvc_socket x25_socket rose_socket decnet_socket
atmsvc_socket rds_socket irda_socket pppox_socket llc_socket can_socket tipc_socket
bluetooth_socket iucv_socket rxrpc_socket isdn_socket phonet_socket ieee802154_socket caif_socket
alg_socket nfc_socket kcm_socket qipcrtr_socket smc_socket xdp_socket
} *;
# Apps can read/write an already open vsock (e.g. created by
# virtualizationservice) but nothing more than that (e.g. creating a
# new vsock, etc.)
neverallow all_untrusted_apps *:vsock_socket ~{ getattr getopt read write };
# Disallow sending RTM_GETLINK messages on netlink sockets.
neverallow all_untrusted_apps domain:netlink_route_socket { bind nlmsg_readpriv };
neverallow priv_app domain:netlink_route_socket { bind nlmsg_readpriv };
# Disallow sending RTM_GETNEIGH{TBL} messages on netlink sockets.
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
-untrusted_app_29
-untrusted_app_30
} domain:netlink_route_socket nlmsg_getneigh;
# Do not allow untrusted apps access to /cache
neverallow { all_untrusted_apps -mediaprovider } { cache_file cache_recovery_file }:dir ~{ r_dir_perms };
neverallow { all_untrusted_apps -mediaprovider } { cache_file cache_recovery_file }:file ~{ read getattr };
# Do not allow untrusted apps to create/unlink files outside of its sandbox,
# internal storage or sdcard.
# World accessible data locations allow application to fill the device
# with unaccounted for data. This data will not get removed during
# application un-installation.
neverallow { all_untrusted_apps -mediaprovider } {
fs_type
-sdcard_type
-fuse
file_type
-app_data_file # The apps sandbox itself
-privapp_data_file
-app_exec_data_file # stored within the app sandbox directory
-media_rw_data_file # Internal storage. Known that apps can
# leave artfacts here after uninstall.
-user_profile_data_file # Access to profile files
userdebug_or_eng(`
-method_trace_data_file # only on ro.debuggable=1
-coredump_file # userdebug/eng only
')
}:dir_file_class_set { create unlink };
# No untrusted component except mediaprovider_app should be touching /dev/fuse
neverallow { all_untrusted_apps -mediaprovider_app } fuse_device:chr_file *;
# Do not allow untrusted apps to directly open the tun_device
neverallow all_untrusted_apps tun_device:chr_file open;
# The tun_device ioctls below are not allowed, to prove equivalence
# to the kernel patch at
# https://android.googlesource.com/kernel/common/+/11cee2be0c2062ba88f04eb51196506f870a3b5d%5E%21
neverallowxperm all_untrusted_apps tun_device:chr_file ioctl ~{ FIOCLEX FIONCLEX TUNGETIFF };
# Only allow appending to /data/anr/traces.txt (b/27853304, b/18340553)
neverallow all_untrusted_apps anr_data_file:file ~{ open append };
neverallow all_untrusted_apps anr_data_file:dir ~search;
# Avoid reads from generically labeled /proc files
# Create a more specific label if needed
neverallow all_untrusted_apps {
proc
proc_asound
proc_kmsg
proc_loadavg
proc_mounts
proc_pagetypeinfo
proc_slabinfo
proc_stat
proc_swaps
proc_uptime
proc_version
proc_vmallocinfo
proc_vmstat
}:file { no_rw_file_perms no_x_file_perms };
# /proc/filesystems is accessible to mediaprovider_app only since it handles
# external storage
neverallow { all_untrusted_apps - mediaprovider_app } proc_filesystems:file { no_rw_file_perms no_x_file_perms };
# Avoid all access to kernel configuration
neverallow all_untrusted_apps config_gz:file { no_rw_file_perms no_x_file_perms };
# Do not allow untrusted apps access to preloads data files
neverallow all_untrusted_apps preloads_data_file:file no_rw_file_perms;
# Locking of files on /system could lead to denial of service attacks
# against privileged system components
neverallow all_untrusted_apps system_file:file lock;
Assert apps can access only approved HwBinder services App domains which host arbitrary code must not have access to arbitrary HwBinder services. Such access unnecessarily increases the attack surface. The reason is twofold: 1. HwBinder servers do not perform client authentication because HIDL currently does not expose caller UID information and, even if it did, many HwBinder services either operate at a layer below that of apps (e.g., HALs) or must not rely on app identity for authorization. Thus, to be safe, the default assumption is that a HwBinder service treats all its clients as equally authorized to perform operations offered by the service. 2. HAL servers (a subset of HwBinder services) contain code with higher incidence rate of security issues than system/core components and have access to lower layes of the stack (all the way down to hardware) thus increasing opportunities for bypassing the Android security model. HwBinder services offered by core components (as opposed to vendor components) are considered safer because of point #2 above. Always same-process aka always-passthrough HwBinder services are considered safe for access by these apps. This is because these HALs by definition do not offer any additional access beyond what its client already as, because these services run in the process of the client. This commit thus introduces these two categories of HwBinder services in neverallow rules. Test: mmm system/sepolicy -- this does not change on-device policy Bug: 34454312 Change-Id: I4f5f4dd10b3fc3bb9d262dda532d4a23dcdf061d
2017-04-22 02:06:43 +02:00
# Do not permit untrusted apps to perform actions on HwBinder service_manager
# other than find actions for services listed below
neverallow all_untrusted_apps *:hwservice_manager ~find;
# Do not permit access from apps which host arbitrary code to the protected services
Assert apps can access only approved HwBinder services App domains which host arbitrary code must not have access to arbitrary HwBinder services. Such access unnecessarily increases the attack surface. The reason is twofold: 1. HwBinder servers do not perform client authentication because HIDL currently does not expose caller UID information and, even if it did, many HwBinder services either operate at a layer below that of apps (e.g., HALs) or must not rely on app identity for authorization. Thus, to be safe, the default assumption is that a HwBinder service treats all its clients as equally authorized to perform operations offered by the service. 2. HAL servers (a subset of HwBinder services) contain code with higher incidence rate of security issues than system/core components and have access to lower layes of the stack (all the way down to hardware) thus increasing opportunities for bypassing the Android security model. HwBinder services offered by core components (as opposed to vendor components) are considered safer because of point #2 above. Always same-process aka always-passthrough HwBinder services are considered safe for access by these apps. This is because these HALs by definition do not offer any additional access beyond what its client already as, because these services run in the process of the client. This commit thus introduces these two categories of HwBinder services in neverallow rules. Test: mmm system/sepolicy -- this does not change on-device policy Bug: 34454312 Change-Id: I4f5f4dd10b3fc3bb9d262dda532d4a23dcdf061d
2017-04-22 02:06:43 +02:00
# The two main reasons for this are:
# 1. Protected HwBinder servers do not perform client authentication because
# vendor code does not have a way to understand apps or their relation to
# caller UID information and, even if it did, those services either operate
# at a level below that of apps (e.g., HALs) or must not rely on app identity
# for authorization. Thus, to be safe, the default assumption for all added
# vendor services is that they treat all their clients as equally authorized
# to perform operations offered by the service.
# 2. HAL servers contain code with higher incidence rate of security issues
# than system/core components and have access to lower layes of the stack
# (all the way down to hardware) thus increasing opportunities for bypassing
# the Android security model.
neverallow all_untrusted_apps protected_hwservice:hwservice_manager find;
neverallow all_untrusted_apps protected_service:service_manager find;
# SELinux is not an API for untrusted apps to use
neverallow all_untrusted_apps selinuxfs:file no_rw_file_perms;
# Access to /proc/tty/drivers, to allow apps to determine if they
# are running in an emulated environment.
# b/33214085 b/33814662 b/33791054 b/33211769
# https://github.com/strazzere/anti-emulator/blob/master/AntiEmulator/src/diff/strazzere/anti/emulator/FindEmulator.java
# This will go away in a future Android release
neverallow { all_untrusted_apps -untrusted_app_25 } proc_tty_drivers:file r_file_perms;
neverallow all_untrusted_apps proc_tty_drivers:file ~r_file_perms;
# Untrusted apps are not allowed to use cgroups.
neverallow all_untrusted_apps cgroup:file *;
neverallow all_untrusted_apps cgroup_v2:file *;
# /mnt/sdcard symlink was supposed to have been removed in Gingerbread. Apps
# must not use it.
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
} mnt_sdcard_file:lnk_file *;
# Only privileged apps may find the incident service
neverallow all_untrusted_apps incident_service:service_manager find;
# Only privileged apps may find stats service
neverallow all_untrusted_apps stats_service:service_manager find;
# Do not allow untrusted app to read hidden system proprerties.
# We do not include in the exclusions other normally untrusted applications such as mediaprovider
# due to the specific logging use cases.
# Context: b/193912100
neverallow {
all_untrusted_apps
-mediaprovider
-mediaprovider_app
} { userdebug_or_eng_prop }:file read;
# Do not allow untrusted app to access /dev/socket/mdnsd since U. The socket is
# used to communicate to the mdnsd responder. The mdnsd responder will be
# replaced by a java implementation which is integrated into the system server.
# For untrusted apps running with API level 33-, they still have access to
# /dev/socket/mdnsd for backward compatibility.
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
-untrusted_app_29
-untrusted_app_30
-untrusted_app_32
} mdnsd_socket:sock_file write;
neverallow {
all_untrusted_apps
-untrusted_app_25
-untrusted_app_27
-untrusted_app_29
-untrusted_app_30
-untrusted_app_32
} mdnsd:unix_stream_socket connectto;
Add SELinux Policy For io_uring Brings in the io_uring class and associated restrictions and adds a new macro, `io_uring_use`, to sepolicy. In more detail, this change: * Adds a new macro expands to ensure the domain it is passed can undergo a type transition to a new type, `<domain>_iouring`, when the anon_inode being accessed is labeled `[io_uring]`. It also allows the domain to create, read, write, and map the io_uring anon_inode. * Adds the ability for a domain to use the `IORING_SETUP_SQPOLL` flag during `io_uring_setup` so that a syscall to `io_uring_enter` is not required by the caller each time it wishes to submit IO. This can be enabled securely as long as we don't enable sharing of io_uring file descriptors across domains. The kernel polling thread created by `SQPOLL` will inherit the credentials of the thread that created the io_uring [1]. * Removes the selinux policy that restricted all domains that make use of the `userfault_fd` macro from any `anon_inode` created by another domain. This is overly restrictive, as it prohibits the use of two different `anon_inode` use cases in a single domain e.g. userfaultfd and io_uring. This change also replaces existing sepolicy in fastbootd and snapuserd that enabled the use of io_uring. [1] https://patchwork.kernel.org/project/linux-security-module/patch/163159041500.470089.11310853524829799938.stgit@olly/ Bug: 253385258 Test: m selinux_policy Test: cd external/liburing; mm; atest liburing_test; # requires WIP CL ag/20291423 Test: Manually deliver OTAs (built with m dist) to a recent Pixel device and ensure snapuserd functions correctly (no io_uring failures) Change-Id: I96f38760b3df64a1d33dcd6e5905445ccb125d3f
2022-11-14 23:06:36 +01:00
# Do not allow untrusted apps to use anonymous inodes. At the moment,
# type transitions are the only way to distinguish between different
# anon_inode usages like userfaultfd and io_uring. This prevents us from
# creating a more fine-grained neverallow policy for each anon_inode usage.
neverallow all_untrusted_apps domain:anon_inode *;
# Do not allow untrusted app access to hidraw devices.
neverallow all_untrusted_apps hidraw_device:chr_file *;