Provided by: haveged_1.9.14-1ubuntu2_amd64 
NAME
haveged - Generate random numbers and feed Linux's random device.
SYNOPSIS
haveged [options]
DESCRIPTION
haveged generates an unpredictable stream of random numbers harvested from the indirect effects of
hardware events on hidden processor state (caches, branch predictors, memory translation tables, etc)
using the HAVEGE (HArdware Volatile Entropy Gathering and Expansion) algorithm. The algorithm operates in
user space, no special privilege is required for file system access to the output stream.
Linux pools randomness for distribution by the /dev/random and /dev/urandom device interfaces. The
standard mechanisms of filling the /dev/random pool may not be sufficient to meet demand on systems with
high needs or limited user interaction. In those circumstances, haveged may be run as a privileged daemon
to fill the /dev/random pool whenever the supply of random bits in /dev/random falls below the low water
mark of the device.
haveged tunes itself to its environment and provides the same built-in test suite for the output stream
as used on certified hardware security devices. See NOTES below for further information.
OPTIONS
-b nnn, --buffer=nnn
Set collection buffer size to nnn KW. Default is 128KW (or 512KB).
-c cmd, --command=cmd
Switch to command mode and send a command to an already running haveged process or daemon.
Currently the only known commands are close to close the current communication socket of the
running haveged process as well as root=<new_root> where <new_root> is a place holder for the path
of the real new root directory which should provide a haveged installation. The haveged process or
daemon will perform a chroot(2) system call followed by a execv(3) to become rebased within the
new root directory.
-d nnn, --data=nnn
Set data cache size to nnn KB. Default is 16 or as determined dynamically.
-f file, --file=file
Set output file path for non-daemon use. Default is "sample", use "-" for stdout.
-F , --Foreground
Run daemon in foreground. Do not fork and detach.
-i nnn, --inst=nnn
Set instruction cache size to nnn KB. Default is 16 or as determined dynamically.
-n nnn, --number=nnn
Set number of bytes written to the output file. The value may be specified using one of the
suffixes k, m, g, or t. The upper bound of this value is "16t" (2^44 Bytes = 16TB). A value of 0
indicates unbounded output and forces output to stdout. This argument is required if the daemon
interface is not present. If the daemon interface is present, this setting takes precedence over
any --run value.
-o <spec>, --onlinetest=<spec>
Specify online tests to run. The <spec> consists of optional "t"ot and "c"ontinuous groups, each
group indicates the procedures to be run, using "a<n>" to indicate a AIS-31 procedure A variant,
and "b" to indicate AIS procedure B. The specifications are order independent (procedure B always
runs first in each group) and case insensitive. The a<n> variations exist to mitigate the a slow
autocorrelation test (test5). Normally all procedure A tests, except the first are iterated 257
times. An a<n> option indicates test5 should only be executed every modulo <n> times during the
procedure's 257 repetitions. The effect is so noticeable that A8 is the usual choice.
The "tot" tests run only at initialization - there are no negative performance consequences except
for a slight increase in the time required to initialize. The "tot" tests guarantee haveged has
initialized properly. The use of both test procedures in the "tot" test is highly recommended
because the two test emphasize different aspects of RNG quality.
In continuous testing, the test sequence is cycled repeatedly. For example, the string "tbca8b"
(suitable for an AIS NTG.1 device) would run procedure B for the "tot" test, then cycle between
procedure A8 and procedure B continuously for all further output. Continuous testing does not come
for free, impacting both throughput and resource consumption. Continual testing also opens up the
possibility of a test failure. A strict retry procedure recovers from spurious failure in all but
the most extreme circumstances. When the retry fails, operation will terminate unless a "w" has
been appended to the test token to make the test advisory only. In our example above, the string
"tbca8wbw" would make all continuous tests advisory. For more detailed information on AIS retries
see NOTES below.
Complete control over the test configuration is provided for flexibility. The defaults (ta8bcb" if
run as a daemon and "ta8b" otherwise) are suitable for most circumstances.
-p file, --pidfile=file
Set file path for the daemon pid file. Default is "/var/run/haveged.pid",
-r n, --run=n
Set run level for daemon interface:
n = 0 Run as daemon - must be root. Fills /dev/random when the supply of random bits
falls below the low water mark of the device.
n = 1 Display configuration info and terminate.
n > 1 Write <n> kb of output. Deprecated (use --number instead), only provided for backward
compatibility.
If --number is specified, values other than 0,1 are ignored. Default is 0.
-v n, --verbose=n
Set diagnostic bitmap as sum of following options:
1=Show build/tuning summary on termination, summary for online test retries.
2=Show online test retry details
4=Show timing for collections
8=Show collection loop layout
16=Show collection loop code offsets
32=Show all online test completion detail
Default is 0. Use -1 for all diagnostics.
-w nnn, --write=nnn
Set write_wakeup_threshold of daemon interface to nnn bits. Applies only to run level 0.
-?, --help
This summary of program options.
NOTES
haveged tunes the HAVEGE algorithm for maximum effectiveness using a hierarchy of defaults, command line
options, virtual file system information, and cpuid information where available. Under most
circumstances, user input is not required for excellent results.
Run-time testing provides assurance of correct haveged operation. The run-time test suite is modeled upon
the AIS-31 specification of the German Common Criteria body, BIS. This specification is typically applied
to hardware devices, requiring formal certification and mandated start-up and continuous operational
testing. Because haveged runs on many different hardware platforms, certification cannot be a goal, but
the AIS-31 test suite provides the means to assess haveged output with the same operational tests applied
to certified hardware devices.
AIS test procedure A performs 6 tests to check for statistically inconspicuous behavior. AIS test
procedure B performs more theoretical tests such as checking multi-step transition probabilities and
making an empirical entropy estimate. Procedure A is the much more resource and compute intensive of the
two but is still recommended for the haveged start-up tests. Procedure B is well suited to use of haveged
as a daemon because the test entropy estimate confirms the entropy estimate haveged uses when adding
entropy to the /dev/random device.
No test is perfect. There is a 10e-4 probability that a perfect generator will fail either of the test
procedures. AIS-31 mandates a strict retry policy to filter out false alarms and haveged always logs test
procedure failures. Retries are expected but rarely observed except when large data sets are generated
with continuous testing. See the libhavege(3) notes for more detailed information.
FILES
If running as a daemon, access to the following files is required
/dev/random
/proc/sys/kernel/osrelease
/proc/sys/kernel/random/poolsize
/proc/sys/kernel/random/write_wakeup_threshold
DIAGNOSTICS
Haveged returns 0 for success and non-zero for failure. The failure return code is 1 "general failure"
unless execution is terminated by signal <n>, in which case the return code will be 128 + <n>. The
following diagnostics are issued to stderr upon non-zero termination:
Cannot fork into the background
Call to daemon(3) failed.
Cannot open file <s> for writing.
Could not open sample file <s> for writing.
Cannot write data in file:
Could not write data to the sample file.
Couldn't get pool size.
Unable to read /proc/sys/kernel/random/poolsize
Couldn't initialize HAVEGE rng
Invalid data or instruction cache size.
Couldn't open PID file <s> for writing
Unable to write daemon PID
Couldn't open random device
Could not open /dev/random for read-write.
Couldn't query entropy-level from kernel: error
Call to ioctl(2) failed.
Couldn't open PID file <path> for writing
Error writing /var/run/haveged.pid
Fail:set_watermark()
Unable to write to /proc/sys/kernel/random/write_wakeup_threshold
RNDADDENTROPY failed!
Call to ioctl(2) to add entropy failed
RNG failed
The random number generator failed self-test or encountered a fatal error.
Select error
Call to select(2) failed.
Stopping due to signal <n>
Signal <n> caught.
Unable to setup online tests
Memory unavailable for online test resources.
EXAMPLES
Write 1.5MB of random data to the file /tmp/random
haveged -n 1.5M -f /tmp/random
Generate a /tmp/keyfile for disk encryption with LUKS
haveged -n 2048 -f /tmp/keyfile
Overwrite partition /dev/sda1 with random data. Be careful, all data on the partition will be lost!
haveged -n 0 | dd of=/dev/sda1
Generate random ASCII passwords of the length 16 characters
(haveged -n 1000 -f - 2>/dev/null | tr -cd '[:graph:]' | fold -w 16 && echo ) | head
Write endless stream of random bytes to the pipe. Utility pv measures the speed by which data are written
to the pipe.
haveged -n 0 | pv > /dev/null
Evaluate speed of haveged to generate 1GB of random data
haveged -n 1g -f - | dd of=/dev/null
Create a random key file containing 65 random keys for the encryption program aespipe.
haveged -n 3705 -f - 2>/dev/null | uuencode -m - | head -n 66 | tail -n 65
Test the randomness of the generated data with dieharder test suite
haveged -n 0 | dieharder -g 200 -a
Generate 16k of data, testing with procedure A and B with detailed test results. No c result seen because
a single buffer fill did not contain enough data to complete the test.
haveged -n 16k -o tba8ca8 -v 33
Generate 16k of data as above with larger buffer. The c test now completes - enough data now generated to
complete the test.
haveged -n 16k -o tba8ca8 -v 33 -b 512
Generate 16m of data as above, observe many c test completions with default buffer size.
haveged -n 16m -o tba8ca8 -v 33
Generate large amounts of data - in this case 16TB. Enable initialization test but made continuous tests
advisory only to avoid a possible situation that program will terminate because of procedureB failing two
times in a row. The probability of procedureB to fail two times in a row can be estimated as <TB to
generate>/3000 which yields 0.5% for 16TB.
haveged -n 16T -o tba8cbw -f - | pv > /dev/null
Generate large amounts of data (16TB). Disable continuous tests for the maximum throughput but run the
online tests at the startup to make sure that generator for properly initialized:
haveged -n 16T -o tba8c -f - | pv > /dev/null
SEE ALSO
libhavege(3),
cryptsetup(8), aespipe(1), pv(1), openssl(1), uuencode(1)
REFERENCES
HArdware Volatile Entropy Gathering and Expansion: generating unpredictable random numbers at user level
by A. Seznec, N. Sendrier, INRIA Research Report, RR-4592, October 2002
A proposal for: Functionality classes for random number generators by W. Killmann and W. Schindler,
version 2.0, Bundesamt fur Sicherheit in der Informationstechnik (BSI), September, 2011
A Statistical Test Suite for the Validation of Random NUmber Generators and Pseudorandom Number
Generators for Cryptographic Applications, special publication SP800-22, National Institute of Standards
and Technology, revised April, 2010
Additional information can also be found at http://www.issihosts.com/haveged/
AUTHORS
Gary Wuertz <gary@issiweb.com> and Jirka Hladky <hladky jiri AT gmail DOT com>