all_untrusted_apps apart from untrusted_app_{25, 27} and mediaprovider
are now expected to go to ashmemd for /dev/ashmem fds.
Give coredomain access to ashmemd, because ashmemd is the default way
for coredomain to get a /dev/ashmem fd.
Bug: 113362644
Test: device boots, ashmemd running
Test: Chrome app works
Test: "lsof /system/lib64/libashmemd_client.so" shows
libashmemd_client.so being loaded into apps.
Change-Id: I279448c3104c5d08a1fefe31730488924ce1b37a
init now creates two mount namespaces one for pre-apexd processes and
the other for post-apexd processes. This is to mount different files to
the same mount point at /bionic. For pre-apexd processes, the bootstrap
Bionic is mounted. For post-apexd processes, the default Bionic (from
the runtime APEX) is mounted.
Using unshare and setns, init first starts with the mount namespace for
the pre-apexd and then switches to the other mount namespace when APEXes
are ready. It then occasionally switches to pre-apexd mount namespace
when it has to re-launch a pre-apexd process (e.g. the process has
crashed, etc.)
In doing so, read access to /proc/self/ns/mnt is granted to init as
well.
Bug: 120266448
Bug: 122717176
Test: m device boots
Change-Id: Idbf15cbf5cc36b9993d718d4d887cd8f23a94666
The application zygote is a new sort of zygote process that is a
child of the regular zygote. Each application zygote is tied to the
application for which it's launched. Once it's started, it will
pre-load some of the code for that specific application, much like
the regular zygote does for framework code.
Once the application zygote is up and running, it can spawn
isolated service processes that run in the isolated_app domain. These
services can then benefit from already having the relevant
application code and data pre-loaded.
The policy is largely the same as the webview_zygote domain,
however there are a few crucial points where the policy is different.
1) The app_zygote runs under the UID of the application that spawned
it.
2) During app_zygote launch, it will call a callback that is
controlled by the application, that allows the application to
pre-load code and data that it thinks is relevant.
Especially point 2 is imporant: it means that untrusted code can run
in the app_zygote context. This context is severely limited, and the
main concern is around the setgid/setuid capabilities. Those conerns
are mitigated by installing a seccomp filter that only allows
setgid/setuid to be called in a safe range.
Bug: 111434506
Test: app_zygote can start and fork children without denials.
Change-Id: I1cc49ee0042d41e5ac6eb81d8f8a10ba448d4832
The way we build and run CTS expects full_treble_only and
compatible_property_only macros to be applied to whole rules and not be
nested inside other rules.
Fixes: 122601363
Test: corresponding neverallow rule in auto-generated
SELinuxNeverallowRulesTest.java is parsed correctly.
Change-Id: Ibf5187cedca72510fe74c6dc55a75a54a86c02ff
When an app uses renderscript to compile a Script instance,
renderscript compiles and links the script using /system/bin/bcc and
/system/bin/ld.mc, then places the resulting shared library into the
application's code_cache directory. The application then dlopen()s the
resulting shared library.
Currently, this executable code is writable to the application. This
violates the W^X property (https://en.wikipedia.org/wiki/W%5EX), which
requires any executable code be immutable.
This change introduces a new label "rs_data_file". Files created by
/system/bin/bcc and /system/bin/ld.mc in the application's home
directory assume this label. This allows us to differentiate in
security policy between app created files, and files created by
renderscript on behalf of the application.
Apps are allowed to delete these files, but cannot create or write these
files. This is enforced through a neverallow compile time assertion.
Several exceptions are added to Treble neverallow assertions to support
this functionality. However, because renderscript was previously invoked
from an application context, this is not a Treble separation regression.
This change is needed to support blocking dlopen() for non-renderscript
/data/data files, which will be submitted in a followup change.
Bug: 112357170
Test: cts-tradefed run cts -m CtsRenderscriptTestCases
Change-Id: Ie38bbd94d26db8a418c2a049c24500a5463698a3
"iio_device", "radio_device" must not be accessed by coredomain on all
devices. And "tee_device" must not be accessed by coredomain on Treble
devices.
Bug: 110962171
Test: m selinux_policy
Test: mmma system/sepolicy
Change-Id: I27029b6579b41109c01c35c6ab5a992413f2de5c
According to go/sedenials (internal dogfooding), coredomain access to
following types is not exercised and can be removed:
iio_device
radio_device
tee_device
Access to audio_device is still needed since some ALSA interfaces
(/dev/snd/*) are directly used by system_server.
Bug: 110962171
Test: m selinux_policy
Change-Id: I740b99813e1f93136bfcaec087b74f0e03b259ad
Move rules / neverallow assertions from public to private policy. This
change, by itself, is a no-op, but will make future patches easier to
read. The only downside of this change is that it will make git blame
less effective.
Motivation: When rules are placed into the public directory, they cannot
reference a private type. A future change will modify these rules to
reference a private type.
Test: compiles
Bug: 112357170
Change-Id: I56003409b3a23370ddab31ec01d69ff45c80d7e5
We lose git history with this, but imo the rules being moved don't have
much reference material. Also, as we write more neverallow rules for
CKI, I'd like to consolidate them in private/coredomain.te
Test: m selinux_policy
Change-Id: I6d0c3d2af0c4dfe7dd3cb1d8836b4b5e00db37a4
vendor_init exists on the system partition, but it is meant to be an
extention of init that runs with vendor permissions for executing
vendor scripts, therefore it is not meant to be in coredomain.
Bug: 62875318
Test: boot walleye
Merged-In: I01af5c9f8b198674b15b90620d02725a6e7c1da6
Change-Id: I01af5c9f8b198674b15b90620d02725a6e7c1da6
This CL lists all the exported platform properties in
private/exported_property_contexts.
Additionally accessing core_property_type from vendor components is
restricted.
Instead public_readable_property_type is used to allow vendor components
to read exported platform properties, and accessibility from
vendor_init is also specified explicitly.
Note that whitelisting would be applied only if
PRODUCT_COMPATIBLE_PROPERTY is set on.
Bug: 38146102
Test: tested on walleye with PRODUCT_COMPATIBLE_PROPERTY=true
Change-Id: I304ba428cc4ca82668fec2ddeb17c971e7ec065e
