Creating User Roles for ACEs

Note: It is recommended to use Unix Groups over Roles whenever possible, for centralized maintainence. Use Roles only when you are unable to modify LDAP or AD groups easily.

A role is a label attached to a set of users, which defines a common task, or set of behaviors for those users. Roles enable you to use functionality similar to Unix groups for your users, without requiring you to alter the existing group hierarchy of your system. Role names can be up to 64 characters long, and cannot use the :, &, |, or ! characters.

Standard Reference Implementation

User Information

The standard reference implementation is a library called This library is located at /opt/mapr/server/permissions. This library opens a configuration file named m7_permissions_roles_refimpl.conf, which should contain a list of all the roles, and the users associated with those given roles. This configuration file is located at /opt/mapr/conf, and should be identical across all clusters.

The structure of the configuration file is as follows. Roles end with :, while user names are written on each subsequent line. For example:


This example file states that there are two roles to choose from when assigning permissions - Role_1 and Role_2. The users located under Role_1 are user_aand user_b. Role_2 contains user_b, user_c, and user_d. Blank lines, and lines beginning with # are ignored.

Assume a table has permissions r:Role_2. user_b has access to this table, while user_a does not have access.

After adding a new role to the m7_permissions_roles_refimpl.conf file, you must issue the following command to enable the MapR Filesystem layer to pick up the new role: $ /opt/mapr/server/mrconfig dbrolescache invalidate

Run this command on all the nodes, whenever there is a change in the roles configuration file.

Developer Information

The functions that the exposes, are found in the extensibility implementation. When the library is called initially through GetSecurityMembership, it parses the m7_permissions_roles_refimpl.conf file, and loads it into memory. All user names are read, and parsed into user IDs (uid_t). If a user ID is not found, the ID is skipped.

The library uses a HashTable. The roles are the keys. The values are a Binary tree of user IDs.

Each call checks the given user ID and role. The HashTable keys off the role, and then searches the Binary Tree for the user ID. If the HashTable finds a user ID, it sets that role boolean value to true. If the HashTable does not find a userI D, or if any errors occur, such as Role not found, it sets the boolean value to false.

There is also a cleanup method which frees the memory allocated to the HashTable, along with all of its children. If the GetSecurityMembership method is called again, the library reloads the configuration file, and loads all the values into memory.

Extensible Implementation

If users decide not to use the reference implementation, they can replace the shared library with their own. In the mfs.conf file, add a parameter that specifies the name of the file. If the name of the file is changed, then MFS searches /opt/mapr/server/permissions for the new file. If the file is found, it is loaded into memory. If not, then all roles evaluate to false.

The user's shared library should contain two functions specified under the mapr::fs namespace:

extern "C"
            void GetSecurityMembership(uid_t uid, const char *roles[], int numRoles, bool truthValue[]) {
extern "C"
            void cleanup() {

GetSecurityMembership takes the given user ID along with a list of all the roles, the amount of roles in the array, and an array of all the results, as booleans.

Users must code their own implementation of populating the truthValue array with either true or false. The truthValue array has the same length as numRoles, and is initialized. Do not modify any other variables.

Use the cleanup method to reset the shared library to an initialized state. This method resets all values, and frees memory, since the shared library is not closed, till the class calling it, gets destructed.

Invoke Shared Library from MFS

The TablePermissions class handles opening, and closing the shared library. During class initialization, the name of the shared library, which is read from the mfs.conf, file is passed to the constructor. The constructor loads the shared library into memory, using the LoadSO method from The constructor also loads the GetSecurityMembership method, along with the cleanup method, as variables that can be called.

TablePermissions contains two methods that can be called, to access the shared library:
  • The GetSecurityMembership method takes 3 arguments - the user ID, the array of roles, and the amount of roles in the array. This method returns a RolePermission structure, which contains all the same data, as well as the boolean of the successful roles for that given user ID. To evaluate the user roles, pass this RolePermission structure to the TablePermission::checkTablePermissions method.
  • The cleanup method calls the cleanup method in the shared library. This method takes no arguments.

The entity that allocates the RolePermission structure into memory, also needs to deallocate this structure.

Deallocating the TablePermissions class, calls the cleanup method, and closes the shared library.

Shared Library Security

The /opt/mapr/server/permissions folder is initialized with 755 permissions. This implies that only the user who installed mapr has access to writing to that folder. These permissions prevent a user from replacing a shared library with a malicious file.

The m7_permissions_roles_refimpl.conf file has 755 permission, which means that only an administrator can make changes to this file.

The Roles Library Shared Object and Access Control Expressions

When an object secured by ACE is accessed, the MapR Filesystem layer calls the roles library shared object, and checks the permissions of the entity requesting access, against the contents of the roles file. The roles library shared object reads the roles file every 600 seconds. You can specify your own roles library shared object, and specify the location of that object, using the parameter mfs.dbroles.sopath in the /opt/mapr/conf/mfs.conf file.