AA_CHANGE_HAT(2) AppArmor AA_CHANGE_HAT(2) NAME aa_change_hat - change to or from a "hat" within a AppArmor profile SYNOPSIS #include int aa_change_hat (char *subprofile, unsigned long magic_token); int aa_change_hatv (char *subprofiles[], unsigned long magic_token); int aa_change_hat_vargs (unsigned long magic_token, ...); Link with -lapparmor when compiling. DESCRIPTION An AppArmor profile applies to an executable program; if a portion of the program needs different access permissions than other portions, the program can "change hats" to a different role, also known as a subprofile. To change into a new hat, it calls one of the family of change_hat functions to do so. It passes in a pointer to the subprofile which it wants to change into, and a 64bit magic_token. The magic_token is used to return out of the subprofile at a later time. The aa_change_hat() function allows specifying the name of a single subprofile that the application wants to change into. A pointer to the name of the subprofile is passed along with the magic_token. If the profile is not present the call will fail with the appropriate error. The aa_change_hatv() function allows passing a NULL terminated vector of pointers to subprofile names which will be tried in order. The first subprofile in the vector that exists will be transitioned to and if none of the subprofiles exist the call will fail with the appropriate error. The aa_change_hat_vargs() function is a convenience wrapper for the aa_change_hatv() function. After the magic_token it takes an arbitrary number of pointers to subprofile names. Similar to execl(3), aa_change_hat_vargs() assembles the list of subprofile names into a vector and calls aa_change_hatv(). If a program wants to return out of the current subprofile to the original profile, it calls aa_change_hat() with a pointer to NULL as the subprofile, and the original magic_token value. If the magic_token does not match the original magic_token passed into the kernel when the program entered the subprofile, the change back to the original profile will not happen, and the current task will be killed. If the magic_token matches the original token, then the process will change back to the original profile. As both read(2) and write(2) are mediated, a file must be listed in a subprofile definition if the file is to be accessed while the process is in a "hat". RETURN VALUE On success zero is returned. On error, -1 is returned, and errno(3) is set appropriately. ERRORS EINVAL The apparmor kernel module is not loaded or the communication via the /proc/*/attr/current file did not conform to protocol. ENOMEM Insufficient kernel memory was available. EPERM The calling application is not confined by apparmor, the specified subprofile is not a hat profile, the task is being ptraced and the tracing task does not have permission to trace the specified subprofile or the no_new_privs execution bit is enabled. ECHILD The application's profile has no hats defined for it. ENOENT The specified subprofile does not exist in this profile but other hats are defined. EACCES The specified magic token did not match, and permissions to change to the specified subprofile has been denied. This will in most situations also result in the task being killed, to prevent brute force attacks. EXAMPLE The following code examples shows simple, if contrived, uses of aa_change_hat(); a typical use of aa_change_hat() will separate privileged portions of a process from unprivileged portions of a process, such as keeping unauthenticated network traffic handling separate from authenticated network traffic handling in OpenSSH or executing user-supplied CGI scripts in apache. The use of random(3) is simply illustrative. Use of /dev/urandom is recommended. First, a simple high-level overview of aa_change_hat() use: void foo (void) { unsigned long magic_token; /* get a random magic token value from our huge entropy pool */ magic_token = random_function(); /* change into the subprofile while * we do stuff we don't trust */ aa_change_hat("stuff_we_dont_trust", magic_token); /* Go do stuff we don't trust -- this is all * done in *this* process space, no separate * fork()/exec()'s are done. */ interpret_perl_stuff(stuff_from_user); /* now change back to our original profile */ aa_change_hat(NULL, magic_token); } Second, an example to show that files not listed in a subprofile ("hat") aren't accessible after an aa_change_hat() call: #include #include #include #include #include #include #include #include int main(int argc, char *argv[]) { int fd; unsigned long tok; char buf[10]; /* random() is a poor choice */ tok = random(); /* open /etc/passwd outside of any hat */ if ((fd=open("/etc/passwd", O_RDONLY)) < 0) perror("Failure opening /etc/passwd"); /* confirm for ourselves that we can really read /etc/passwd */ memset(&buf, 0, 10); if (read(fd, &buf, 10) == -1) { perror("Failure reading /etc/passwd pre-hat"); _exit(1); } buf[9] = '\0'; printf("/etc/passwd: %s\n", buf); /* change hat to the "hat" subprofile, which should not have * read access to /etc/passwd -- even though we have a valid * file descriptor at the time of the aa_change_hat() call. */ if (aa_change_hat("hat", tok)) { perror("Failure changing hat -- aborting"); _exit(1); } /* confirm that we cannot read /etc/passwd */ lseek(fd,0,SEEK_SET); memset(&buf, 0, 10); if (read(fd, &buf, 10) == -1) perror("Failure reading /etc/passwd post-hat"); buf[9] = '\0'; printf("/etc/passwd: %s\n", buf); return 0; } This code example requires the following profile to be loaded with apparmor_parser(8): /tmp/ch { /etc/ld.so.cache mr, /etc/locale/** r, /etc/localtime r, /usr/share/locale/** r, /usr/share/zoneinfo/** r, /usr/lib/locale/** mr, /usr/lib/gconv/*.so mr, /usr/lib/gconv/gconv-modules* mr, /lib/ld-*.so* mrix, /lib/libc*.so* mr, /lib/libapparmor*.so* mr, /dev/pts/* rw, /tmp/ch mr, /etc/passwd r, ^hat { /dev/pts/* rw, } } The output when run: $ /tmp/ch /etc/passwd: root:x:0: Failure reading /etc/passwd post-hat: Permission denied /etc/passwd: $ BUGS None known. If you find any, please report them at . Note that aa_change_hat(2) provides no memory barriers between different areas of a program; if address space separation is required, then separate processes should be used. SEE ALSO apparmor(7), apparmor.d(5), apparmor_parser(8), aa_change_profile(2), aa_getcon(2) and . AppArmor 4.0.3 2024-10-14 AA_CHANGE_HAT(2)