platform_system_sepolicy/private/mls
dcashman cc39f63773 Split general policy into public and private components.
Divide policy into public and private components.  This is the first
step in splitting the policy creation for platform and non-platform
policies.  The policy in the public directory will be exported for use
in non-platform policy creation.  Backwards compatibility with it will
be achieved by converting the exported policy into attribute-based
policy when included as part of the non-platform policy and a mapping
file will be maintained to be included with the platform policy that
maps exported attributes of previous versions to the current platform
version.

Eventually we would like to create a clear interface between the
platform and non-platform device components so that the exported policy,
and the need for attributes is minimal.  For now, almost all types and
avrules are left in public.

Test: Tested by building policy and running on device.

Change-Id: Idef796c9ec169259787c3f9d8f423edf4ce27f8c
2016-10-06 13:09:06 -07:00

112 lines
4.3 KiB
Text

#########################################
# MLS declarations
#
# Generate the desired number of sensitivities and categories.
gen_sens(mls_num_sens)
gen_cats(mls_num_cats)
# Generate level definitions for each sensitivity and category.
gen_levels(mls_num_sens,mls_num_cats)
#################################################
# MLS policy constraints
#
#
# Process constraints
#
# Process transition: Require equivalence unless the subject is trusted.
mlsconstrain process { transition dyntransition }
((h1 eq h2 and l1 eq l2) or t1 == mlstrustedsubject);
# Process read operations: No read up unless trusted.
mlsconstrain process { getsched getsession getpgid getcap getattr ptrace share }
(l1 dom l2 or t1 == mlstrustedsubject);
# Process write operations: Require equivalence unless trusted.
mlsconstrain process { sigkill sigstop signal setsched setpgid setcap setrlimit ptrace share }
(l1 eq l2 or t1 == mlstrustedsubject);
#
# Socket constraints
#
# Create/relabel operations: Subject must be equivalent to object unless
# the subject is trusted. Sockets inherit the range of their creator.
mlsconstrain socket_class_set { create relabelfrom relabelto }
((h1 eq h2 and l1 eq l2) or t1 == mlstrustedsubject);
# Datagram send: Sender must be equivalent to the receiver unless one of them
# is trusted.
mlsconstrain unix_dgram_socket { sendto }
(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);
# Stream connect: Client must be equivalent to server unless one of them
# is trusted.
mlsconstrain unix_stream_socket { connectto }
(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);
#
# Directory/file constraints
#
# Create/relabel operations: Subject must be equivalent to object unless
# the subject is trusted. Also, files should always be single-level.
# Do NOT exempt mlstrustedobject types from this constraint.
mlsconstrain dir_file_class_set { create relabelfrom relabelto }
(l2 eq h2 and (l1 eq l2 or t1 == mlstrustedsubject));
#
# Constraints for app data files only.
#
# Only constrain open, not read/write.
# Also constrain other forms of manipulation, e.g. chmod/chown, unlink, rename, etc.
# Subject must be equivalent to object unless the subject is trusted.
mlsconstrain dir { open search setattr rename add_name remove_name reparent rmdir }
(t2 != app_data_file or l1 eq l2 or t1 == mlstrustedsubject);
mlsconstrain { file lnk_file sock_file } { open setattr unlink link rename }
(t2 != app_data_file or l1 eq l2 or t1 == mlstrustedsubject);
#
# Constraints for file types other than app data files.
#
# Read operations: Subject must dominate object unless the subject
# or the object is trusted.
mlsconstrain dir { read getattr search }
(t2 == app_data_file or l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
mlsconstrain { file lnk_file sock_file chr_file blk_file } { read getattr execute }
(t2 == app_data_file or l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
# Write operations: Subject must be equivalent to the object unless the
# subject or the object is trusted.
mlsconstrain dir { write setattr rename add_name remove_name reparent rmdir }
(t2 == app_data_file or l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
mlsconstrain { file lnk_file sock_file chr_file blk_file } { write setattr append unlink link rename }
(t2 == app_data_file or l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
# Special case for FIFOs.
# These can be unnamed pipes, in which case they will be labeled with the
# creating process' label. Thus we also have an exemption when the "object"
# is a domain type, so that processes can communicate via unnamed pipes
# passed by binder or local socket IPC.
mlsconstrain fifo_file { read getattr }
(l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject or t2 == domain);
mlsconstrain fifo_file { write setattr append unlink link rename }
(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject or t2 == domain);
#
# Binder IPC constraints
#
# Presently commented out, as apps are expected to call one another.
# This would only make sense if apps were assigned categories
# based on allowable communications rather than per-app categories.
#mlsconstrain binder call
# (l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);