Using UNIX Permissions to Protect Files
Files can be secured through UNIX file permissions and through ACLs. Files with sticky bits, and files that are executable, require special security measures.
Commands for Viewing and Securing Files
Table 7-1 Commands for Securing Files and Directories
File and Directory Ownership
Traditional UNIX file permissions can assign ownership to three classes of users:
The owner of the file can usually assign or modify file permissions. Additionally, users or roles with administrative capabilities, such as superuser or the Primary Administrator role, can change a file's ownership. To override system policy, see Example 7-2.
UNIX File Permissions
The following table lists and describes the permissions that you can give to each class of user for a file or directory.
Table 7-2 File and Directory Permissions
These file permissions apply to regular files, and to special files such as devices, sockets, and named pipes (FIFOs).
You can protect the files in a directory and its subdirectories by setting restrictive file permissions on that directory. Note, however, that superuser has access to all files and directories on the system.
Special File Permissions (setuid, setgid and Sticky Bit)
Three special types of permissions are available for executable files and public directories: setuid, setgid, and sticky bit. When these permissions are set, any user who runs that executable file assumes the ID of the owner (or group) of the executable file.
You must be extremely careful when you set special permissions, because special permissions constitute a security risk. For example, a user can gain superuser capabilities by executing a program that sets the user ID (UID) to 0, which is the UID of root. Also, all users can set special permissions for files that they own, which constitutes another security concern.
You should monitor your system for any unauthorized use of the setuid permission and the setgid permission to gain superuser capabilities. A suspicious permission grants ownership of an administrative program to a user rather than to root or bin. To search for and list all files that use this special permission, see How to Find Files With Special File Permissions.
When setuid permission is set on an executable file, a process that runs this file is granted access on the basis of the owner of the file. The access is not based on the user who is running the executable file. This special permission allows a user to access files and directories that are normally available only to the owner.
For example, the setuid permission on the passwd command makes it possible for users to change passwords. A passwd command with setuid permission would resemble the following:
-r-sr-sr-x 3 root sys 28144 Jun 17 12:02 /usr/bin/passwd
This special permission presents a security risk. Some determined users can find a way to maintain the permissions that are granted to them by the setuid process even after the process has finished executing.
Note - The use of setuid permissions with the reserved UIDs (0–100) from a program might not set the effective UID correctly. Use a shell script, or avoid using the reserved UIDs with setuid permissions.
The setgid permission is similar to the setuid permission. The process's effective group ID (GID) is changed to the group that owns the file, and a user is granted access based on the permissions that are granted to that group. The /usr/bin/mail command has setgid permissions:
-r-x--s--x 1 root mail 67504 Jun 17 12:01 /usr/bin/mail
When the setgid permission is applied to a directory, files that were created in this directory belong to the group to which the directory belongs. The files do not belong to the group to which the creating process belongs. Any user who has write and execute permissions in the directory can create a file there. However, the file belongs to the group that owns the directory, not to the group that the user belongs to.
You should monitor your system for any unauthorized use of the setgid permission to gain superuser capabilities. A suspicious permission grants group access to such a program to an unusual group rather than to root or bin. To search for and list all files that use this permission, see How to Find Files With Special File Permissions.
The sticky bit is a permission bit that protects the files within a directory. If the directory has the sticky bit set, a file can be deleted only by the file owner, the directory owner, or by a privileged user. The root user and the Primary Administrator role are examples of privileged users. The sticky bit prevents a user from deleting other users' files from public directories such as /tmp:
drwxrwxrwt 7 root sys 400 Sep 3 13:37 tmp
Be sure to set the sticky bit manually when you set up a public directory on a TMPFS file system. For instructions, see Example 7-5.
Default umask Value
When you create a file or directory, you create it with a default set of permissions. The system defaults are open. A text file has 666 permissions, which grants read and write permission to everyone. A directory and an executable file have 777 permissions, which grants read, write, and execute permission to everyone. Typically, users override the system defaults in their /etc/profile file, .cshrc file, or .login file.
The value assigned by the umask command is subtracted from the default. This process has the effect of denying permissions in the same way that the chmod command grants them. For example, the chmod 022 command grants write permission to group and others. The umask 022 command denies write permission to group and others.
Table 7-3 umask Settings for Different Security Levels
For more information on setting the umask value, see the umask(1) man page.
File Permission Modes
The chmod command enables you to change the permissions on a file. You must be superuser or the owner of a file or directory to change its permissions.
You can use the chmod command to set permissions in either of two modes:
The following table lists the octal values for setting file permissions in absolute mode. You use these numbers in sets of three to set permissions for owner, group, and other, in that order. For example, the value 644 sets read and write permissions for owner, and read-only permissions for group and other.
Table 7-4 Setting File Permissions in Absolute Mode
The following table lists the symbols for setting file permissions in symbolic mode. Symbols can specify whose permissions are to be set or changed, the operation to be performed, and the permissions that are being assigned or changed.
Table 7-5 Setting File Permissions in Symbolic Mode
The who operator permissions designations in the function column specify the symbols that change the permissions on the file or directory.
You can set special permissions on a file in absolute mode or symbolic mode. However, you must use symbolic mode to set or remove setuid permissions on a directory. In absolute mode, you set special permissions by adding a new octal value to the left of the permission triplet. The following table lists the octal values for setting special permissions on a file.
Table 7-6 Setting Special File Permissions in Absolute Mode