There may be cases where the desired privilege drops are unsuccessful. For example, the range of Linux Kernel versions (2.2.0-2.2.15) is vulnerable to an insufficient privilege attack wherein setuid(getuid())
did not drop privileges as expected when the capability bits were set to zero. As a precautionary measure, subtle behavior and error conditions for the targeted implementation must be carefully noted.
Non-Compliant Code Example
The following non-compliant code example compiles cleanly on most POSIX based systems, however no explicit checks have been made to vouchsafe that privilege relinquishment is carried out successfully. This may be dangerous depending on the sequence of the preceding privilege changes.
/* Code intended to run with elevated privileges */ setuid(getuid()); /* Code intended to run with lower privileges */
Compliant Solution
This compliant solution was implemented in sendmail, a popular mail transfer agent [[Wheeler 03]]. It checks whether superuser privileges were dropped successfully. Note that if the setuid()
call succeeds after the setuid(getuid())
operation, privileges were not dropped as was originally intended.
/* Code intended to run with elevated privileges */ setuid(getuid()); if (setuid(0) == -1) { /* setuid returns -1 on error */ /* Setuid failed, handle error */ } /* Code intended to run with lower privileges */
Non-Compliant Code Example
The function in this non-compliant code example correctly follows the principle of least privilege, however, due to inconsistencies and implementation defined behavior of certain functions (such as setuid()
) across various Operating Systems, the final result may be unexpected. Here, when privileges are given up temporarily for the final time, the effective User ID of the process is set to the real user ID. Unexpectedly, the call to setuid(realuid)
that follows, does not affect the saved set-user-ID since effective UID is no longer 0 (Except on FreeBSD and NetBSD). If a seteuid(0)
gets executed maliciously after this statement, root privileges would be recovered from the saved set-user-ID.
void doSomething(void) { uid_t realuid = getuid(); seteuid(realuid); /* Give up privileges temporarily */ seteuid(0); /* Regain superuser privileges */ /* Carry out the privileged task */ seteuid(realuid); /* Give up privileges temporarily */ setuid(realuid); /* Failed attempt at giving up privileges permanently */ }
Compliant Solution
The following code shows how the effective UID should be obtained and compared against 0 (superuser's EUID) to make sure privileges can be successfully dropped permanently. This constitutes a more portable and safe solution.
void doSomething(void) { uid_t realuid = getuid(); seteuid(realuid); /* Give up privileges temporarily */ seteuid(0); /* Regain superuser privileges */ /* Carry out privileged task */ seteuid(realuid); /* Give up privileges temporarily */ if (!geteuid()) { /* Check if the effective uid is still that of the superuser */ setuid(realuid); /* Go ahead and give up privileges permanently */ } else { /* Handle the possible implementation defined behavior */ } }
Risk Assessment
If privilege relinquishment conditions are left unchecked, any flaw in the program may lead to unintended system compromise corresponding to the more privileged user or group account.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
POS37-C |
high |
probable |
low |
P18 |
L1 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
[[CWE - 273]] Failure to Check Whether Privileges Were Dropped Successfully
[[Dowd 06]] Chapter 9, "Unix I: Privileges and Files"
[[Wheeler 03]] Section 7.4, "Minimize Privileges"