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.\" $NetBSD: security.8,v 1.17.10.1 2009/02/01 23:45:27 snj Exp $
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.\" Copyright (c) 2006 Elad Efrat <elad@NetBSD.org>
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.Dd January 26, 2009
.Dt SECURITY 8
.Os
.Sh NAME
.Nm security
.Nd
.Nx
security features
.Sh DESCRIPTION
.Nx
supports a variety of security features.
Below is a brief description of them with some quick usage examples
that will help you get started.
.Pp
Contents:
.Bl -hyphen -compact
.It
Veriexec (file integrity)
.It
Exploit mitigation
.It
Per-user
.Pa /tmp
directory
.It
Information filtering
.El
.Sh VERIEXEC
.Em Veriexec
is a file integrity subsystem.
.Pp
For more information about it, and a quick guide on how to use it, please see
.Xr veriexec 8 .
.Pp
In a nutshell, once enabled,
.Em Veriexec
can be started as follows:
.Bd -literal -offset indent
# veriexecgen && veriexecctl load
.Ed
.Sh EXPLOIT MITIGATION
.Nx
incorporates some exploit mitigation features.
The purpose of exploit mitigation features is to interfere with the way exploits
work, in order to prevent them from succeeding.
Due to that, some features may have other impact on the system, so be sure to
fully understand the implications of each feature.
.Pp
.Nx
provides the following exploit mitigation features:
.Bl -hyphen -compact
.It
PaX ASLR (Address Space Layout Randomization)
.It
PaX MPROTECT
.Xr ( mprotect 2
restrictions)
.It
PaX SegvGuard
.It
.Xr gcc 1
stack-smashing protection (SSP)
.El
.Ss PaX ASLR
.Em PaX ASLR
implements Address Space Layout Randomization, meant to complement
non-executable mappings.
Its purpose is to harden prediction of the address space layout, namely
location of library and application functions that can be used by an attacker
to circumvent non-executable mappings by using a technique called
.Dq return to library
to bypass the need to write new code to (potentially executable) regions of
memory.
.Pp
When
.Em PaX ASLR
is used, it is more likely the attacker will fail to predict the addresses of
such functions, causing the application to segfault.
To detect cases where an attacker might try and brute-force the return address
of respawning services,
.Em PaX Segvguard
can be used (see below).
.Pp
For non-PIE (Position Independent Executable) executables,
the
.Nx
.Em PaX ASLR
implementation introduces randomization to the following memory regions:
.Bl -enum -compact
.It
The data segment
.It
The stack
.El
.Pp
For PIE executables:
.Bl -enum -compact
.It
The program itself (exec base)
.It
All shared libraries
.It
The data segment
.It
The stack
.El
.Pp
While it can be enabled globally,
.Nx
provides a tool,
.Xr paxctl 8 ,
to enable
.Em PaX ASLR
on a per-program basis.
.Pp
Example usage:
.Bd -literal -offset indent
# paxctl +A /usr/sbin/sshd
.Ed
.Pp
Enabling
.Em PaX ASLR
globally:
.Bd -literal -offset indent
# sysctl -w security.pax.aslr.global=1
.Ed
.Ss PaX MPROTECT
.Em PaX MPROTECT
implements memory protection restrictions, meant to complement non-executable
mappings.
Their purpose is to prevent situations where malicious code attempts to mark
writable memory regions as executable, often by trashing arguments to an
.Xr mprotect 2
call.
.Pp
While it can be enabled globally,
.Nx
provides a tool,
.Xr paxctl 8 ,
to enable
.Em PaX MPROTECT
on a per-program basis.
.Pp
Example usage:
.Bd -literal -offset indent
# paxctl +M /usr/sbin/sshd
.Ed
.Pp
Enabling
.Em PaX MPROTECT
globally:
.Bd -literal -offset indent
# sysctl -w security.pax.mprotect.global=1
.Ed
.Ss PaX Segvguard
.Em PaX Segvguard
monitors the number of segmentation faults in a program on a per-user basis,
in an attempt to detect on-going exploitation attempts and possibly prevent
them.
For instance,
.Em PaX Segvguard
can help detect when an attacker tries to brute-force a function
return address, when attempting to perform a return-to-lib attack.
.Pp
.Em PaX Segvguard
consumes kernel memory, so use it wisely.
While it provides rate-limiting protections, records are tracked for all
users on a per-program basis, meaning that irresponsible use may result in
tracking all segmentation faults in the system, possibly consuming all kernel
memory.
.Pp
For this reason, it is highly recommended to have
.Em PaX Segvguard
enabled explicitly only for network services, etc.
Enabling
.Em PaX Segvguard
explicitly works like this:
.Bd -literal -offset indent
# paxctl +G /usr/sbin/sshd
.Ed
.Pp
However, a global knob is still provided, for use in strict environments
with no local users (some network appliances, embedded devices, firewalls,
etc.):
.Bd -literal -offset indent
# sysctl -w security.pax.segvguard.global=1
.Ed
.Pp
Explicitly disabling
.Em PaX Segvguard
is also possible:
.Bd -literal -offset indent
# paxctl +g /bin/ls
.Ed
.Pp
In addition,
.Em PaX Segvguard
provides several tunable options.
For example, to limit a program to 5 segmentation faults from the same user in
a 60 second timeframe:
.Bd -literal -offset indent
# sysctl -w security.pax.segvguard.max_crashes=5
# sysctl -w security.pax.segvguard.expiry_timeout=60
.Ed
.Pp
The number of seconds a user will be suspended from running the culprit
program is also configurable.
For example, 10 minutes seem like a sane setting:
.Bd -literal -offset indent
# sysctl -w security.pax.segvguard.suspend_timeout=600
.Ed
.Ss GCC Stack Smashing Protection ( SSP )
As of
.Nx 4.0 ,
.Xr gcc 1
includes
.Em SSP ,
a set of compiler extensions to raise the bar on exploitation attempts by
detecting corruption of variables and buffer overruns, which may be used to
affect program control flow.
.Pp
Upon detection of a buffer overrun,
.Em SSP
will immediately abort execution of the program and send a log message
to
.Xr syslog 3 .
.Pp
The system (userland and kernel) can be built with
.Em SSP
by using the
.Dq USE_SSP
flag in
.Pa /etc/mk.conf :
.Bd -literal -offset indent
USE_SSP=yes
.Ed
.Pp
You are encouraged to use
.Em SSP
for software you build, by providing one of the
.Fl fstack-protector
or
.Fl fstack-protector-all
flags to
.Xr gcc 1 .
Keep in mind, however, that
.Em SSP
will not work for functions that make use of
.Xr alloca 3 ,
as the latter modifies the stack size during run-time, while
.Em SSP
relies on it being a compile-time static.
.Pp
Use of
.Em SSP
is especially encouraged on platforms without per-page execute bit granularity
such as
.Em i386 .
.Sh PER-USER TEMPORARY STORAGE
It is possible to configure per-user temporary storage to avoid potential
security issues (race conditions, etc.) in programs that do not make secure
usage of
.Pa /tmp .
.Pp
To enable per-user temporary storage, add the following line to
.Xr rc.conf 5 :
.Bd -literal -offset indent
per_user_tmp=YES
.Ed
.Pp
If
.Pa /tmp
is a mount point, you will also need to update its
.Xr fstab 5
entry to use
.Dq /private/tmp
(or whatever directory you want, if you override the default using the
.Dq per_user_tmp_dir
.Xr rc.conf 5
keyword) instead of
.Dq /tmp .
.Pp
Following that, run:
.Bd -literal -offset indent
# /etc/rc.d/perusertmp start
.Ed
.Sh INFORMATION FILTERING
.Nx
provides administrators the ability to restrict information passed from
the kernel to userland so that users can only view information they
.Dq own .
.Pp
The hooks that manage this restriction are located in various parts of the
system and affect programs such as
.Xr ps 1 ,
.Xr fstat 1 ,
and
.Xr netstat 1 .
Information filtering is enabled as follows:
.Bd -literal -offset indent
# sysctl -w security.curtain=1
.Ed
.Sh SEE ALSO
.Xr sysctl 3 ,
.Xr options 4 ,
.Xr paxctl 8 ,
.Xr sysctl 8 ,
.Xr veriexec 8 ,
.Xr veriexecctl 8 ,
.Xr veriexecgen 8
.Sh AUTHORS
.An Elad Efrat Aq elad@NetBSD.org