################################################# # 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 dominate object unless the subject is trusted. mlsconstrain dir { open search getattr setattr rename add_name remove_name reparent rmdir } ( (t2 != app_data_file and t2 != privapp_data_file ) or l1 dom l2 or t1 == mlstrustedsubject); mlsconstrain { file sock_file } { open setattr unlink link rename } ( (t2 != app_data_file and t2 != privapp_data_file and t2 != appdomain_tmpfs) or l1 dom l2 or t1 == mlstrustedsubject); # For symlinks in app_data_file, require equivalence in order to manipulate or follow (read). mlsconstrain { lnk_file } { open setattr unlink link rename read } ( (t2 != app_data_file) or l1 eq l2 or t1 == mlstrustedsubject); # For priv_app_data_file, continue to use dominance for symlinks because dynamite relies on this. # TODO: Migrate to equivalence when it's no longer needed. mlsconstrain { lnk_file } { open setattr unlink link rename read } ( (t2 != privapp_data_file and t2 != appdomain_tmpfs) or l1 dom 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 t2 == privapp_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 t2 == privapp_data_file or t2 == appdomain_tmpfs 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 t2 == privapp_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 t2 == privapp_data_file or t2 == appdomain_tmpfs 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);