cc39f63773
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
113 lines
4.3 KiB
Plaintext
113 lines
4.3 KiB
Plaintext
#########################################
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# MLS declarations
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#
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# Generate the desired number of sensitivities and categories.
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gen_sens(mls_num_sens)
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gen_cats(mls_num_cats)
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# Generate level definitions for each sensitivity and category.
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gen_levels(mls_num_sens,mls_num_cats)
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#################################################
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# MLS policy constraints
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#
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#
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# Process constraints
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#
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# Process transition: Require equivalence unless the subject is trusted.
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mlsconstrain process { transition dyntransition }
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((h1 eq h2 and l1 eq l2) or t1 == mlstrustedsubject);
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# Process read operations: No read up unless trusted.
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mlsconstrain process { getsched getsession getpgid getcap getattr ptrace share }
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(l1 dom l2 or t1 == mlstrustedsubject);
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# Process write operations: Require equivalence unless trusted.
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mlsconstrain process { sigkill sigstop signal setsched setpgid setcap setrlimit ptrace share }
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(l1 eq l2 or t1 == mlstrustedsubject);
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#
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# Socket constraints
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#
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# Create/relabel operations: Subject must be equivalent to object unless
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# the subject is trusted. Sockets inherit the range of their creator.
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mlsconstrain socket_class_set { create relabelfrom relabelto }
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((h1 eq h2 and l1 eq l2) or t1 == mlstrustedsubject);
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# Datagram send: Sender must be equivalent to the receiver unless one of them
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# is trusted.
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mlsconstrain unix_dgram_socket { sendto }
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(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);
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# Stream connect: Client must be equivalent to server unless one of them
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# is trusted.
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mlsconstrain unix_stream_socket { connectto }
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(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);
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#
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# Directory/file constraints
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#
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# Create/relabel operations: Subject must be equivalent to object unless
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# the subject is trusted. Also, files should always be single-level.
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# Do NOT exempt mlstrustedobject types from this constraint.
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mlsconstrain dir_file_class_set { create relabelfrom relabelto }
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(l2 eq h2 and (l1 eq l2 or t1 == mlstrustedsubject));
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#
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# Constraints for app data files only.
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#
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# Only constrain open, not read/write.
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# Also constrain other forms of manipulation, e.g. chmod/chown, unlink, rename, etc.
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# Subject must be equivalent to object unless the subject is trusted.
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mlsconstrain dir { open search setattr rename add_name remove_name reparent rmdir }
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(t2 != app_data_file or l1 eq l2 or t1 == mlstrustedsubject);
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mlsconstrain { file lnk_file sock_file } { open setattr unlink link rename }
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(t2 != app_data_file or l1 eq l2 or t1 == mlstrustedsubject);
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#
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# Constraints for file types other than app data files.
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#
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# Read operations: Subject must dominate object unless the subject
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# or the object is trusted.
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mlsconstrain dir { read getattr search }
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(t2 == app_data_file or l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
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mlsconstrain { file lnk_file sock_file chr_file blk_file } { read getattr execute }
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(t2 == app_data_file or l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
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# Write operations: Subject must be equivalent to the object unless the
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# subject or the object is trusted.
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mlsconstrain dir { write setattr rename add_name remove_name reparent rmdir }
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(t2 == app_data_file or l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
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mlsconstrain { file lnk_file sock_file chr_file blk_file } { write setattr append unlink link rename }
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(t2 == app_data_file or l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject);
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# Special case for FIFOs.
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# These can be unnamed pipes, in which case they will be labeled with the
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# creating process' label. Thus we also have an exemption when the "object"
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# is a domain type, so that processes can communicate via unnamed pipes
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# passed by binder or local socket IPC.
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mlsconstrain fifo_file { read getattr }
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(l1 dom l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject or t2 == domain);
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mlsconstrain fifo_file { write setattr append unlink link rename }
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(l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedobject or t2 == domain);
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#
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# Binder IPC constraints
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#
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# Presently commented out, as apps are expected to call one another.
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# This would only make sense if apps were assigned categories
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# based on allowable communications rather than per-app categories.
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#mlsconstrain binder call
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# (l1 eq l2 or t1 == mlstrustedsubject or t2 == mlstrustedsubject);
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