SELinux/Constraints

Introduction
Constraints are a set of rules that further define the allowed actions within an SELinux system. Even if a regular allow rule says that something is, well, allowed, a constraint might impose further restrictions on it.

The most well-known constraint we have in place is the User Based Access Control system, enabled if USE=ubac is set.

The following is the list of constraints enabled on a system.

When describing constraints, we talk about actors (processes, users, ... that initiate an action) and objects (files, directories, processes, ...). The actor invokes an action against an object, and the constraint validates if this action is to be allowed or not.

Please be aware that constraints are only checked if the regular SELinux rules allow the action. It is not because a constraint says that an action is allowed that it is always allowed - first the regular SELinux enforcement rules need to apply.

UBAC - User Based Access Control
The user based access control generally tries to protect access to files, directories and other resources owned by a particular SELinux user (not regular Linux user, but the assigned SELinux user, like user_u ) from access by other SELinux users.

The basic conditions to allow access are as follows:


 * The actor SELinux user and target object SELinux user are the same, or
 * The actor SELinux user or target object SELinux user is system_u, or
 * The actor SELinux type or target object SELinux type do not have ubac_constrained_type attribute set, or
 * The actor SELinux type has one of ubacfile, ubacproc , ubackey , ... attributes set

When at least one of the above rules is true, then the action is allowed. Note that the use of the ubac_constrained_type attribute is important here - whenever either the source domain or target type does not have this attribute set, then the action is not governed by this constraint. As an example, take the user_home_t type (regular user files):

Next to the ubac_constrained_type, other attributes play an important role within this constraint too. These attributes are the ubacfile, ubacproc , ubackey , ... attributes. When this attribute is set for the actor type, then the action isn't governed by the constraint. This allows a type to take part of the constraint when it is the target object (because it has the ubac_constrained_type set) but not when it is the actor object.

Identity change constraints
Any activity that would create an object identity (be it the create permission, or relabelto / relabelfrom ) is only allowed if the actor SELinux user and target object SELinux user are the same, or when the actor type has the can_change_object_identity attribute set.

This constraint is for the various file classes (directory, file, sockets, ...), socket classes (tcp, udp, netlink, ...).

Domain transitions
Domain transitions are allowed if at least one of the following rules is true:


 * The actor SELinux user and target object SELinux user are the same
 * The actor SELinux type has the can_change_process_identity attribute set, and the target object SELinux type has the process_user_target attribute set
 * The actor SELinux type has the cron_source_domain attribute set, and either the target object SELinux user is system_u or its type has the cron_job_domain attribute set
 * The actor SELinux type has the can_system_change attribute set and the target object SELinux user is system_u
 * The actor SELinux type has the process_uncond_exempt attribute set

Next to these rules, at least one of the following rules need to be valid too:


 * The actor SELinux role and target object SELinux role are the same, or
 * The actor SELinux type has the can_change_process_role attribute set and the target object SELinux type has the process_user_target attribute set, or
 * The actor SELinux type has the cron_source_domain attribute set, and the target object SELinux type has the cron_job_domain attribute set, or
 * The actor SELinux type has the can_system_change attribute set and the target object SELinux role is system_r, or
 * The actor SELinux type has the process_uncond_exempt attribute set