IPSEC_RSASIGKEY(8) [FIXME: manual] IPSEC_RSASIGKEY(8)NAMEipsec_rsasigkey - generate RSA signature key
SYNOPSIS
ipsec rsasigkey [--verbose] [--random filename] [--rounds nr]
[--configdir nssdbdir] [--password nsspassword]
[--hostname hostname] [--noopt] nbits
ipsec rsasigkey [--verbose] [--configdir nssdbdir]
[--password nsspassword] [--hostname hostname] [--noopt]
[--oldkey filename]
DESCRIPTION
Rsasigkey generates an RSA public/private key pair, suitable for
digital signatures, of (exactly) nbits bits (that is, two primes each
of exactly nbits/2 bits, and related numbers) and emits it on standard
output as ASCII (mostly hex) data. nbits must be a multiple of 16.
The public exponent is forced to the value 3, which has important speed
advantages for signature checking. Beware that the resulting keys have
known weaknesses as encryption keys and should not be used for that
purpose.
The --verbose option makesrsasigkey give a running commentary on
standard error. By default, it works in silence until it is ready to
generate output.
The --random option specifies a source for random bits. The default is
/dev/random (see random(4)). Normally, rsasigkey reads exactly nbits
random bits from the source; in extremely-rare circumstances it may
need more. Under Linux with hardware random support, the special device
/dev/hw_random is created. However, the driver does not guarantee FIPS
compliant random, and some hardware is so broken that it return
extremely non-random data. Therefor /dev/hw_random should never be used
with the --random option. Instead, one should run the rngd(8) daemon to
funnel randomness from /dev/hw_random into /dev/random.
The --rounds option specifies the number of rounds to be done by the
pz_probab_prime_p probabilistic primality checker. The default, 30, is
fairly rigorous and should not normally have to be overridden.
The --configdir option specifies the nss configuration directory to
use. This is the directory where the NSS certificate, key and security
modules databases reside.
The --password option specifies the nss cryptographic module
authentication password if the NSS module has been configured to
require it. A password is required by hardware tokens and also by the
internal softotken module when configured to run in FIPS mode.
The --hostname option specifies what host name to use in the first line
of the output (see below); the default is what gethostname(2) returns.
The --noopt option suppresses an optimization of the private key (to be
precise, setting of the decryption exponent to lcm(p-1,q-1) rather than
(p-1)*(q-1)) which speeds up operations on it slightly but can cause it
to flunk a validity check in old RSA implementations (notably, obsolete
versions of ipsec_pluto(8)--oldkey option specifies that rather than generate a new key,
rsasigkey should read an old key from the file (the name ´-´ means
´standard input´) and use that to generate its output. Input lines
which do not look like rsasigkey output are silently ignored. This
permits updating old keys to the current format.
The output format looks like this (with long numbers trimmed down for
clarity):
# RSA 2048 bits xy.example.com Sat Apr 15 13:53:22 2000
# for signatures only, UNSAFE FOR ENCRYPTION
#pubkey=0sAQOF8tZ2NZt...Y1P+buFuFn/
Modulus: 0xcc2a86fcf440...cf1011abb82d1
PublicExponent: 0x03
# everything after this point is secret
PrivateExponent: 0x881c59fdf8...ab05c8c77d23
Prime1: 0xf49fd1f779...46504c7bf3
Prime2: 0xd5a9108453...321d43cb2b
Exponent1: 0xa31536a4fb...536d98adda7f7
Exponent2: 0x8e70b5ad8d...9142168d7dcc7
Coefficient: 0xafb761d001...0c13e98d98
The first (comment) line, indicating the nature and date of the key,
and giving a host name, is used by ipsec_showhostkey(8) when generating
some forms of key output.
The commented-out pubkey= line contains the public key, the public
exponent and the modulus combined in approximately RFC 2537 format (the
one deviation is that the combined value is given with a 0s prefix,
rather than in unadorned base-64), suitable for use in the ipsec.conf
file.
The Modulus, PublicExponent and PrivateExponent lines give the basic
signing and verification data.
The Prime1 and Prime2 lines give the primes themselves (aka p and q),
largest first. The Exponent1 and Exponent2 lines give the private
exponent mod p-1 and q-1 respectively. The Coefficient line gives the
Chinese Remainder Theorem coefficient, which is the inverse of q, mod
p. These additional numbers (which must all be kept as secret as the
private exponent) are precomputed aids to rapid signature generation.
No attempt is made to break long lines.
The US patent on the RSA algorithm expired 20 Sept 2000.
EXAMPLES
ipsec rsasigkey --verbose 2192 >mykey.txt
generates a 2192-bit signature key and puts it in the file
mykey.txt, with running commentary on standard error. The file
contents can be inserted verbatim into a suitable entry in the
ipsec.secrets file (see ipsec_secrets(5)), and the public key can
then be extracted and edited into the ipsec.conf (see
ipsec_showhostkey(8)).
ipsec rsasigkey --verbose --oldkey oldie >latest.txt
takes the old signature key from file oldie and puts a version in
the current format into the file latest, with running commentary on
standard error.
FILES
/dev/random, /dev/urandom
SEE ALSOrandom(4), rngd(8), ipsec_showhostkey(8), Applied Cryptography, 2nd.
ed., by Bruce Schneier, Wiley 1996, RFCs 2537, 2313, GNU MP, the GNU
multiple precision arithmetic library, edition 2.0.2, by Torbj Granlund
HISTORY
Written for the Linux FreeS/WAN project <http://www.freeswan.org> by
Henry Spencer.
BUGS
There is an internal limit on nbits, currently 20000.
rsasigkey´s run time is difficult to predict, since /dev/random output
can be arbitrarily delayed if the system´s entropy pool is low on
randomness, and the time taken by the search for primes is also
somewhat unpredictable. A reasonably typical time for a 1024-bit key on
a quiet 100MHz Pentium MMX with plenty of randomness available is 20
seconds, almost all of it in the prime searches. Generating a 2192-bit
key on the same system usually takes several minutes. A 4096-bit key
took an hour and a half of CPU time.
The --oldkey option does not check its input format as rigorously as it
might. Corrupted rsasigkey output may confuse it.
[FIXME: source] 01/06/2011 IPSEC_RSASIGKEY(8)
