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System Administration Guide: Security Services Oracle Solaris 10 1/13 Information Library |
1. Security Services (Overview)
Part II System, File, and Device Security
2. Managing Machine Security (Overview)
3. Controlling Access to Systems (Tasks)
4. Controlling Access to Devices (Tasks)
5. Using the Basic Audit Reporting Tool (Tasks)
6. Controlling Access to Files (Tasks)
7. Using the Automated Security Enhancement Tool (Tasks)
Part III Roles, Rights Profiles, and Privileges
8. Using Roles and Privileges (Overview)
Role-Based Access Control (Overview)
RBAC: An Alternative to the Superuser Model
Oracle Solaris RBAC Elements and Basic Concepts
Privileged Applications and RBAC
Applications That Check UIDs and GIDs
Applications That Check for Privileges
Applications That Check Authorizations
Security Considerations When Directly Assigning Security Attributes
Privileges Protect Kernel Processes
Administrative Differences on a System With Privileges
Privileges and System Resources
How Privileges Are Implemented
Expanding a User or Role's Privileges
Restricting a User or Role's Privileges
Assigning Privileges to a Script
9. Using Role-Based Access Control (Tasks)
10. Role-Based Access Control (Reference)
Part IV Cryptographic Services
13. Oracle Solaris Cryptographic Framework (Overview)
14. Oracle Solaris Cryptographic Framework (Tasks)
15. Oracle Solaris Key Management Framework
Part V Authentication Services and Secure Communication
16. Using Authentication Services (Tasks)
19. Using Secure Shell (Tasks)
21. Introduction to the Kerberos Service
22. Planning for the Kerberos Service
23. Configuring the Kerberos Service (Tasks)
24. Kerberos Error Messages and Troubleshooting
25. Administering Kerberos Principals and Policies (Tasks)
26. Using Kerberos Applications (Tasks)
27. The Kerberos Service (Reference)
Part VII Auditing in Oracle Solaris
28. Oracle Solaris Auditing (Overview)
29. Planning for Oracle Solaris Auditing
30. Managing Oracle Solaris Auditing (Tasks)
Role-based access control (RBAC) is a security feature for controlling user access to tasks that would normally be restricted to superuser. By applying security attributes to processes and to users, RBAC can divide up superuser capabilities among several administrators. Process rights management is implemented through privileges. User rights management is implemented through RBAC.
For a discussion of process rights management, see Privileges (Overview).
For information on RBAC tasks, see Chapter 9, Using Role-Based Access Control (Tasks).
For reference information, see Chapter 10, Role-Based Access Control (Reference).
In conventional UNIX systems, the root user, also referred to as superuser, is all-powerful. Programs that run as root, or setuid programs, are all-powerful. The root user has the ability to read and write to any file, run all programs, and send kill signals to any process. Effectively, anyone who can become superuser can modify a site's firewall, alter the audit trail, read confidential records, and shut down the entire network. A setuid program that is hijacked can do anything on the system.
Role-based access control (RBAC) provides a more secure alternative to the all-or-nothing superuser model. With RBAC, you can enforce security policy at a more fine-grained level. RBAC uses the security principle of least privilege. Least privilege means that a user has precisely the amount of privilege that is necessary to perform a job. Ordinary users have enough privilege to use their applications, check the status of their jobs, print files, create new files, and so on. Capabilities beyond ordinary user capabilities are grouped into rights profiles. Users who are expected to do jobs that require some of the capabilities of superuser assume a role that includes the appropriate rights profile.
RBAC collects superuser capabilities into rights profiles. These rights profiles are assigned to special user accounts that are called roles. A user can then assume a role to do a job that requires some of superuser's capabilities. Predefined rights profiles are supplied with Oracle Solaris software. You create the roles and assign the profiles.
Rights profiles can provide broad capabilities. For example, the Primary Administrator rights profile is equivalent to superuser. Rights profiles can also be narrowly defined. For example, the Cron Management rights profile manages at and cron jobs. When you create roles,you can decide to create roles with broad capabilities, or roles with narrow capabilities, or both.
In the RBAC model, superuser creates one or more roles. The roles are based on rights profiles. Superuser then assigns the roles to users who are trusted to perform the tasks of the role. Users log in with their user name. After login, users assume roles that can run restricted administrative commands and graphical user interface (GUI) tools.
The flexibility in setting up roles enables a variety of security policies. Although few roles are shipped with Oracle Solaris, four recommended roles can easily be configured. The roles are based on rights profiles of the same name:
Primary Administrator – A powerful role that is equivalent to the root user, or superuser.
root – A powerful role that is equivalent to the root user. However, this root cannot log in. A regular user must log in, then assume the assigned root role.
System Administrator – A less powerful role for administration that is not related to security. This role can manage file systems, mail, and software installation. However, this role cannot set passwords.
Operator – A junior administrator role for operations such as backups and printer management.
These three roles do not have to be implemented. Roles are a function of an organization's security needs. Roles can be set up for special-purpose administrators in areas such as security, networking, or firewall administration. Another strategy is to create a single powerful administrator role along with an advanced user role. The advanced user role would be for users who are permitted to fix portions of their own systems.
The superuser model and the RBAC model can co-exist. The following table summarizes the gradations from superuser to restricted ordinary user that are possible in the RBAC model. The table includes the administrative actions that can be tracked in both models. For a summary of the effect of privileges alone on a system, see Table 8-2.
Table 8-1 Superuser Model Versus RBAC With Privileges Model
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The RBAC model in Oracle Solaris introduces the following elements:
Authorization – A permission that enables a user or role to perform a class of actions that require additional rights. For example, security policy at installation gives ordinary users the solaris.device.cdrw authorization. This authorization enables users to read and write to a CD-ROM device. For a list of authorizations, see the /etc/security/auth_attr file.
Privilege – A discrete right that can be granted to a command, a user, a role, or a system. Privileges enable a process to succeed. For example, the proc_exec privilege allows a process to call execve(). Ordinary users have basic privileges. To see your basic privileges, run the ppriv -vl basic command.
Security attributes – An attribute that enables a process to perform an operation. In a typical UNIX environment, a security attribute enables a process to perform an operation that is otherwise forbidden to ordinary users. For example, setuid and setgid programs have security attributes. In the RBAC model, operations that regular users perform might require security attributes. In addition to setuid and setgid programs, authorizations and privileges are also security attributes in the RBAC model. For example, a user with the solaris.device.allocate authorization can allocate a device for exclusive use. A process with the sys_time privilege can manipulate system time.
Privileged application – An application or command that can override system controls by checking for security attributes. In a typical UNIX environment and in the RBAC model, programs that use setuid and setgid are privileged applications. In the RBAC model, programs that require privileges or authorizations to succeed are also privileged applications. For more information, see Privileged Applications and RBAC.
Rights profile – A collection of administrative capabilities that can be assigned to a role or to a user. A rights profile can consist of authorizations, of commands with security attributes, and of other rights profiles. Rights profiles offer a convenient way to group security attributes.
Role – A special identity for running privileged applications. The special identity can be assumed by assigned users only. In a system that is run by roles, superuser is unnecessary. Superuser capabilities are distributed to different roles. For example, in a two-role system, security tasks would be handled by a security role. The second role would handle system administration tasks that are not security-related. Roles can be more fine-grained. For example, a system could include separate administrative roles for handling the cryptographic framework, printers, system time, file systems, and auditing.
The following figure shows how the RBAC elements work together.
Figure 8-1 Oracle Solaris RBAC Element Relationships
In RBAC, roles are assigned to users. When a user assumes a role, the capabilities of the role are available. Roles get their capabilities from rights profiles. Rights profiles can contain authorizations, directly assigned privileges, privileged commands, and other supplementary rights profiles. Privileged commands are commands that execute with security attributes.
The following figure uses the Network Security role and the Network Security rights profile to demonstrate RBAC relationships.
Figure 8-2 Example of Oracle Solaris RBAC Element Relationships
The Network Security role is used to manage IPsec, wifi, and network links. The role is assigned to the user jdoe. jdoe can assume the role by switching to the role, and then supplying the role password.
The Network Security rights profile has been assigned to the Network Security role. The Network Security rights profile contains supplementary profiles that are evaluated in order, Network Wifi Security, Network Link Security, and Network IPsec Management. These supplementary profiles fill out the role's primary tasks.
The Network Security rights profile has three directly assigned authorizations, no directly assigned privileges, and two commands with security attributes. The supplementary rights profiles have directly assigned authorizations, and two of them have commands with security attributes. In the Network Security role, jdoe has all assigned authorizations in these profiles, and can run all the commands with security attributes in these profiles. jdoe can administer network security
Oracle Solaris provides administrators with a great deal of flexibility when configuring security. As installed, the software does not allow for privilege escalation. Privilege escalation occurs when a user or process gains more administrative rights than were intended to be granted. In this sense, privilege means any security attribute, not just privileges.
Oracle Solaris software includes security attributes that are assigned to the root user only. With other security protections in place, an administrator might assign attributes that are designed for the root user to other accounts, but such assignment must be made with care.
For example, the Media Restore rights profile exists, but is not part of any other rights profile. Because Media Restore provides access to the entire root file system, its use is a possible escalation of privilege. Deliberately altered files or substitute media could be restored. By default, only the root user has this rights profile.
For escalations that affect the privilege security attribute, see Prevention of Privilege Escalation.
An authorization is a discrete right that can be granted to a role or to a user. Authorizations enforce policy at the user application level.
While authorizations can be assigned directly to a role or to a user, best practice is to include authorizations in a rights profile. The rights profile is then added to a role, and the role is assigned to a user. For an example, see Figure 8-2.
RBAC-compliant applications can check a user's authorizations prior to granting access to the application or specific operations within the application. This check replaces the check in conventional UNIX applications for UID=0. For more information on authorizations, see the following sections:
Privileges enforce security policy in the kernel. The difference between authorizations and privileges concerns the level at which the security policy is enforced. Without the proper privilege, a process can be prevented from performing privileged operations by the kernel. Without the proper authorizations, a user might be prevented from using a privileged application or from performing security-sensitive operations within a privileged application. For a fuller discussion of privileges, see Privileges (Overview).
Applications and commands that can override system controls are considered privileged applications. Security attributes such as UID=0, privileges, and authorizations make an application privileged.
Privileged applications that check for root (UID=0) or some other special UID or GID have long existed in the UNIX environment. The rights profile mechanism enables you to isolate commands that require a specific ID. Instead of changing the ID on a command that anyone can access, you can place the command with execution security attributes in a rights profile. A user or role with that rights profile can then run the program without having to become superuser.
IDs can be specified as real or effective. Assigning effective IDs is preferred over assigning real IDs. Effective IDs are equivalent to the setuid feature in the file permission bits. Effective IDs also identify the UID for auditing. However, because some shell scripts and programs require a real UID of root, real UIDs can be set as well. For example, the pkgadd command requires a real rather than an effective UID. If an effective ID is not sufficient to run a command, you need to change the ID to a real ID. For the procedure, see How to Create or Change a Rights Profile.
Privileged applications can check for the use of privileges. The RBAC rights profile mechanism enables you to specify the privileges for specific commands. Instead of requiring superuser capabilities to use an application or command, you can isolate the command with execution security attributes in a rights profile. A user or role with that rights profile can then run the command with just the privileges that the command requires to succeed.
Commands that check for privileges include the following:
Kerberos commands, such as kadmin, kprop, and kdb5_util
Network commands, such as ifconfig, routeadm, and snoop
File and file system commands, such as chmod, chgrp, and mount
Commands that control processes, such as kill, pcred, and rcapadm
To add commands with privileges to a rights profile, see How to Create or Change a Rights Profile. To determine which commands check for privileges in a particular profile, see Determining Your Assigned Privileges.
Oracle Solaris additionally provides commands that check authorizations. By definition, the root user has all authorizations. Therefore, the root user can run any application. Applications that check for authorizations include the following:
The entire Solaris Management Console suite of tools
Audit administration commands, such as auditconfig and auditreduce
Printer administration commands, such as lpadmin and lpfilter
The batch job-related commands, such as at, atq, batch, and crontab
Device-oriented commands, such as allocate, deallocate, list_devices, and cdrw.
To test a script or program for authorizations, see Example 9-24. To write a program that requires authorizations, see About Authorizations in Developer’s Guide to Oracle Solaris 10 Security.
A rights profile is a collection of system overrides that can be assigned to a role or user. A rights profile can include authorizations, commands with assigned security attributes, and other rights profiles. Rights profile information is split between the prof_attr and exec_attr databases. The rights profile name and authorizations are in the prof_attr database. The rights profile name and the commands with assigned security attributes are in the exec_attr database.
For more information on rights profiles, see the following sections:
A role is a special type of user account from which you can run privileged applications. Roles are created in the same general manner as user accounts. Roles have a home directory, a group assignment, a password, and so on. Rights profiles and authorizations give the role administrative capabilities. Roles cannot inherit capabilities from other roles or other users. Discrete roles parcel out superuser capabilities, and thus enable more secure administrative practices.
When a user assumes a role, the role's attributes replace all user attributes. Role information is stored in the passwd, shadow, and user_attr databases. Role information can be added to the audit_user database. For detailed information about setting up roles, see the following sections:
A role can be assigned to more than one user. All users who can assume the same role have the same role home directory, operate in the same environment, and have access to the same files. Users can assume roles from the command line by running the su command and supplying the role name and password. Users can also assume a role in the Solaris Management Console tool.
A role cannot log in directly. A user logs in, and then assumes a role. Having assumed a role, the user cannot assume another role without first exiting their current role. Having exited the role, the user can then assume another role.
You can prevent anonymous root login by changing the root user into a role, as shown in How to Make root User Into a Role. If the profile shell command, pfexec, is being audited, the audit trail contains the login user's real UID, the roles that the user has assumed, and the actions that the role performed. To audit the system or a particular user for role operations, see How to Audit Roles.
No predefined roles are shipped with Oracle Solaris software. However, the rights profiles that ship with the software are designed to map to roles. For example, the Primary Administrator rights profile can be used to create the Primary Administrator role.
To configure the Primary Administrator role, see Using the Solaris Management Tools With RBAC (Task Map) in Oracle Solaris Administration: Basic Administration.
To configure other roles, see How to Create and Assign a Role by Using the GUI.
To create roles on the command line, see Managing RBAC (Task Map).
Roles can run privileged applications from the Solaris Management Console launcher or from a profile shell. A profile shell is a special shell that recognizes the security attributes that are included in a rights profile. Profile shells are launched when that user runs the su command to assume a role. The profile shells are pfsh, pfcsh, and pfksh. The shells correspond to Bourne shell (sh), C shell (csh), and Korn shell (ksh), respectively.
Users who have been directly assigned a rights profile must invoke a profile shell to run the commands with security attributes. For usability and security considerations, see Security Considerations When Directly Assigning Security Attributes.
All commands that are executed in a profile shell can be audited. For more information, see How to Audit Roles.
Name service scope is an important concept for understanding RBAC. The scope of a role might be limited to an individual host. Alternatively, the scope might include all hosts that are served by a naming service such as NIS, NIS+, or LDAP. The name service scope for a system is specified in the file /etc/nsswitch.conf. A lookup stops at the first match. For example, if a rights profile exists in two name service scopes, only the entries in the first name service scope are used. If files is the first match, then the scope of the role is limited to the local host.
Typically, a user obtains administrative capabilities through a role. Authorizations and privileged commands are grouped into a rights profile. The rights profile is included in a role, and the role is assigned to a user.
Direct assignment of rights profiles and security attributes is also possible:
Rights profiles, privileges, and authorizations can be assigned directly to users.
Privileges and authorizations can be assigned directly to users and roles.
However, direct assignment of privileges is not a secure practice. Users and roles with a directly assigned privilege could override security policy wherever this privilege is required by the kernel. A more secure practice is to assign the privilege as a security attribute of a command in a rights profile. Then, that privilege is available only for that command by someone who has that rights profile.
Since authorizations act at the user level, direct assignment of authorizations can be less dangerous than direct assignment of privileges. However, authorizations can enable a user to perform highly secure tasks, such as assign audit flags.
A rights profile that is assigned directly to a user presents usability problems more than security problems. The commands with security attributes in the rights profile can only succeed in a profile shell. The user must remember to open a profile shell, then type the commands in that shell. A role that is assigned a rights profile gets a profile shell automatically. Therefore, the commands succeed in the role's shell.