SECURELEVEL(7) OpenBSD Reference Manual SECURELEVEL(7) NAME securelevel - securelevel and its effects SYNOPSIS The OpenBSD kernel provides four levels of system security: -1 Permanently insecure mode - init(8) will not attempt to raise the securelevel - may only be set with sysctl(8) while the system is insecure - otherwise identical to securelevel 0 0 Insecure mode - used during bootstrapping and while the system is single-user - all devices may be read or written subject to their permissions - system file flags may be cleared 1 Secure mode - default mode when system is multi-user - securelevel may no longer be lowered except by init - /dev/mem and /dev/kmem may not be written to - raw disk devices of mounted file systems are read-only - system immutable and append-only file flags may not be removed - kernel modules may not be loaded or unloaded 2 Highly secure mode - all effects of securelevel 1 - raw disk devices are always read-only whether mounted or not - settimeofday(2) may not set the time backwards - ipf(8) and ipnat(8) rules may not be altered - the ddb.console and ddb.panic sysctl(8) variables may not be raised DESCRIPTION Securelevel provides convenient means of ``locking down'' a system to a degree suited to its environment. It is normally set at boot via the rc.securelevel(8) script, or the superuser may raise securelevel at any time by modifying the kern.securelevel sysctl(8) variable. However, only init(8) may lower it once the system has entered secure mode. A kernel built with option INSECURE in the config file will default to permanently insecure mode. Highly secure mode may seem Draconian, but is intended as a last line of defence should the superuser account be compromised. Its effects pre- clude circumvention of file flags by direct modification of a raw disk device, or erasure of a file system by means of newfs(8). Further, it can limit the potential damage of a compromised ``firewall'' by prohibiting the modification of packet filter rules. Preventing the system clock from being set backwards aids in post-mortem analysis and helps ensure the integrity of logs. Precision timekeeping is not affected because the clock may still be slowed. Because securelevel can be modified with the in-kernel debugger ddb(4), a convenient means of locking it off (if present) is provided on highly se- cure systems. This is accomplished by setting ddb.console and ddb.panic to 0 with the sysctl(8) utility. FILES /etc/rc.securelevel SEE ALSO chflags(2), settimeofday(2), options(4), mem(4), init(8), rc(8), sysctl(8) HISTORY The securelevel manual page first appeared in OpenBSD 2.6. BUGS The list of securelevel's effects may not be comprehensive. OpenBSD 2.7 January 4, 2000 2