2000-10-04 09:41:25 +04:00
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.rn '' }`
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'''
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'''
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.de Sh
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.br
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.if t .Sp
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.ne 5
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.PP
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\fB\\$1\fR
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..
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.de Sp
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'''
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'''
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''' Set up \*(-- to give an unbreakable dash;
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''' string Tr holds user defined translation string.
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''' Bell System Logo is used as a dummy character.
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'''
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.tr \(*W-|\(bv\*(Tr
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.ie n \{\
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.ds -- \(*W-
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.ds PI pi
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.if (\n(.H=4u)&(1m=24u) .ds -- \(*W\h'-12u'\(*W\h'-12u'-\" diablo 10 pitch
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.if (\n(.H=4u)&(1m=20u) .ds -- \(*W\h'-12u'\(*W\h'-8u'-\" diablo 12 pitch
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.ds L" ""
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.ds R" ""
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''' \*(M", \*(S", \*(N" and \*(T" are the equivalent of
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''' \*(L" and \*(R", except that they are used on ".xx" lines,
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''' such as .IP and .SH, which do another additional levels of
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''' double-quote interpretation
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.ds M" """
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.ds S" """
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.ds N" """""
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'br\}
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.el\{\
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.ds -- \(em\|
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.ds PI \(*p
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'br\}
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.\" If the F register is turned on, we'll generate
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.\" index entries out stderr for the following things:
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.\" TH Title
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.\" SH Header
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.\" Sh Subsection
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.\" Ip Item
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.\" X<> Xref (embedded
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.\" Of course, you have to process the output yourself
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.\" in some meaninful fashion.
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.if \nF \{
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.de IX
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.tm Index:\\$1\t\\n%\t"\\$2"
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..
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.nr % 0
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.rr F
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.\}
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2001-01-09 15:11:27 +03:00
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.TH des_modes 7 "0.9.5a" "22/Jul/2000" "OpenSSL"
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2000-10-04 09:41:25 +04:00
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.UC
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.if n .hy 0
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.if n .na
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.ds C+ C\v'-.1v'\h'-1p'\s-2+\h'-1p'+\s0\v'.1v'\h'-1p'
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.de CQ \" put $1 in typewriter font
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.ft CW
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'if n "\c
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'if t \\&\\$1\c
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'if n \\&\\$1\c
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'if n \&"
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\\&\\$2 \\$3 \\$4 \\$5 \\$6 \\$7
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'.ft R
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..
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.\" @(#)ms.acc 1.5 88/02/08 SMI; from UCB 4.2
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. \" AM - accent mark definitions
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.bd B 3
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. \" fudge factors for nroff and troff
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.if n \{\
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. ds #H 0
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. ds #V .8m
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. ds #F .3m
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. ds #[ \f1
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. ds #] \fP
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.\}
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.if t \{\
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. ds #H ((1u-(\\\\n(.fu%2u))*.13m)
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. ds #V .6m
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. ds #F 0
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. ds #[ \&
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. ds #] \&
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.\}
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. \" simple accents for nroff and troff
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.if n \{\
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. ds ' \&
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. ds ` \&
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. ds ^ \&
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. ds , \&
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. ds ~ ~
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. ds ? ?
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. ds ! !
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. ds /
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. ds q
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.\}
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.if t \{\
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. ds ' \\k:\h'-(\\n(.wu*8/10-\*(#H)'\'\h"|\\n:u"
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. ds ` \\k:\h'-(\\n(.wu*8/10-\*(#H)'\`\h'|\\n:u'
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. ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'^\h'|\\n:u'
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. ds , \\k:\h'-(\\n(.wu*8/10)',\h'|\\n:u'
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. ds ~ \\k:\h'-(\\n(.wu-\*(#H-.1m)'~\h'|\\n:u'
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. ds ? \s-2c\h'-\w'c'u*7/10'\u\h'\*(#H'\zi\d\s+2\h'\w'c'u*8/10'
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. ds ! \s-2\(or\s+2\h'-\w'\(or'u'\v'-.8m'.\v'.8m'
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. ds / \\k:\h'-(\\n(.wu*8/10-\*(#H)'\z\(sl\h'|\\n:u'
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. ds q o\h'-\w'o'u*8/10'\s-4\v'.4m'\z\(*i\v'-.4m'\s+4\h'\w'o'u*8/10'
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.\}
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. \" troff and (daisy-wheel) nroff accents
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.ds : \\k:\h'-(\\n(.wu*8/10-\*(#H+.1m+\*(#F)'\v'-\*(#V'\z.\h'.2m+\*(#F'.\h'|\\n:u'\v'\*(#V'
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.ds 8 \h'\*(#H'\(*b\h'-\*(#H'
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.ds v \\k:\h'-(\\n(.wu*9/10-\*(#H)'\v'-\*(#V'\*(#[\s-4v\s0\v'\*(#V'\h'|\\n:u'\*(#]
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.ds _ \\k:\h'-(\\n(.wu*9/10-\*(#H+(\*(#F*2/3))'\v'-.4m'\z\(hy\v'.4m'\h'|\\n:u'
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.ds . \\k:\h'-(\\n(.wu*8/10)'\v'\*(#V*4/10'\z.\v'-\*(#V*4/10'\h'|\\n:u'
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.ds 3 \*(#[\v'.2m'\s-2\&3\s0\v'-.2m'\*(#]
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.ds o \\k:\h'-(\\n(.wu+\w'\(de'u-\*(#H)/2u'\v'-.3n'\*(#[\z\(de\v'.3n'\h'|\\n:u'\*(#]
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.ds d- \h'\*(#H'\(pd\h'-\w'~'u'\v'-.25m'\f2\(hy\fP\v'.25m'\h'-\*(#H'
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.ds D- D\\k:\h'-\w'D'u'\v'-.11m'\z\(hy\v'.11m'\h'|\\n:u'
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.ds th \*(#[\v'.3m'\s+1I\s-1\v'-.3m'\h'-(\w'I'u*2/3)'\s-1o\s+1\*(#]
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.ds Th \*(#[\s+2I\s-2\h'-\w'I'u*3/5'\v'-.3m'o\v'.3m'\*(#]
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.ds ae a\h'-(\w'a'u*4/10)'e
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.ds Ae A\h'-(\w'A'u*4/10)'E
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.ds oe o\h'-(\w'o'u*4/10)'e
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.ds Oe O\h'-(\w'O'u*4/10)'E
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. \" corrections for vroff
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.if v .ds ~ \\k:\h'-(\\n(.wu*9/10-\*(#H)'\s-2\u~\d\s+2\h'|\\n:u'
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.if v .ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'\v'-.4m'^\v'.4m'\h'|\\n:u'
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. \" for low resolution devices (crt and lpr)
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.if \n(.H>23 .if \n(.V>19 \
|
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\{\
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. ds : e
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. ds 8 ss
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. ds v \h'-1'\o'\(aa\(ga'
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. ds _ \h'-1'^
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. ds . \h'-1'.
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. ds 3 3
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. ds o a
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. ds d- d\h'-1'\(ga
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. ds D- D\h'-1'\(hy
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. ds th \o'bp'
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. ds Th \o'LP'
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. ds ae ae
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. ds Ae AE
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. ds oe oe
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. ds Oe OE
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.\}
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.rm #[ #] #H #V #F C
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.SH "NAME"
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|
Modes of DES \- the variants of DES and other crypto algorithms of OpenSSL
|
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.SH "DESCRIPTION"
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Several crypto algorithms fo OpenSSL can be used in a number of modes. Those
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are used for using block ciphers in a way similar to stream ciphers, among
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other things.
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.SH "OVERVIEW"
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.Sh "Electronic Codebook Mode (\s-1ECB\s0)"
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Normally, this is found as the function \fIalgorithm\fR\fI_ecb_encrypt()\fR.
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.Ip "\(bu" 2
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64 bits are enciphered at a time.
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.Ip "\(bu" 2
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The order of the blocks can be rearranged without detection.
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.Ip "\(bu" 2
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The same plaintext block always produces the same ciphertext block
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(for the same key) making it vulnerable to a \*(L'dictionary attack\*(R'.
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.Ip "\(bu" 2
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An error will only affect one ciphertext block.
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.Sh "Cipher Block Chaining Mode (\s-1CBC\s0)"
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Normally, this is found as the function \fIalgorithm\fR\fI_cbc_encrypt()\fR.
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Be aware that \fIdes_cbc_encrypt()\fR is not really \s-1DES\s0 \s-1CBC\s0 (it does
|
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|
not update the \s-1IV\s0); use \fIdes_ncbc_encrypt()\fR instead.
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.Ip "\(bu" 2
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a multiple of 64 bits are enciphered at a time.
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.Ip "\(bu" 2
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The \s-1CBC\s0 mode produces the same ciphertext whenever the same
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|
plaintext is encrypted using the same key and starting variable.
|
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|
.Ip "\(bu" 2
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The chaining operation makes the ciphertext blocks dependent on the
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current and all preceding plaintext blocks and therefore blocks can not
|
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|
be rearranged.
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.Ip "\(bu" 2
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The use of different starting variables prevents the same plaintext
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enciphering to the same ciphertext.
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.Ip "\(bu" 2
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An error will affect the current and the following ciphertext blocks.
|
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|
.Sh "Cipher Feedback Mode (\s-1CFB\s0)"
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Normally, this is found as the function \fIalgorithm\fR\fI_cfb_encrypt()\fR.
|
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.Ip "\(bu" 2
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|
a number of bits (j) <= 64 are enciphered at a time.
|
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.Ip "\(bu" 2
|
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|
The \s-1CFB\s0 mode produces the same ciphertext whenever the same
|
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|
plaintext is encrypted using the same key and starting variable.
|
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|
.Ip "\(bu" 2
|
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|
The chaining operation makes the ciphertext variables dependent on the
|
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|
current and all preceding variables and therefore j-bit variables are
|
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|
chained together and can not be rearranged.
|
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.Ip "\(bu" 2
|
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|
The use of different starting variables prevents the same plaintext
|
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|
enciphering to the same ciphertext.
|
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.Ip "\(bu" 2
|
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|
The strength of the \s-1CFB\s0 mode depends on the size of k (maximal if
|
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|
j == k). In my implementation this is always the case.
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.Ip "\(bu" 2
|
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|
Selection of a small value for j will require more cycles through
|
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|
the encipherment algorithm per unit of plaintext and thus cause
|
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|
|
greater processing overheads.
|
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|
.Ip "\(bu" 2
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|
Only multiples of j bits can be enciphered.
|
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.Ip "\(bu" 2
|
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|
An error will affect the current and the following ciphertext variables.
|
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|
|
.Sh "Output Feedback Mode (\s-1OFB\s0)"
|
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|
|
Normally, this is found as the function \fIalgorithm\fR\fI_ofb_encrypt()\fR.
|
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|
|
.Ip "\(bu" 2
|
|
|
|
a number of bits (j) <= 64 are enciphered at a time.
|
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|
.Ip "\(bu" 2
|
|
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|
The \s-1OFB\s0 mode produces the same ciphertext whenever the same
|
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|
|
plaintext enciphered using the same key and starting variable. More
|
|
|
|
over, in the \s-1OFB\s0 mode the same key stream is produced when the same
|
|
|
|
key and start variable are used. Consequently, for security reasons
|
|
|
|
a specific start variable should be used only once for a given key.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
The absence of chaining makes the \s-1OFB\s0 more vulnerable to specific attacks.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
The use of different start variables values prevents the same
|
|
|
|
plaintext enciphering to the same ciphertext, by producing different
|
|
|
|
key streams.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
Selection of a small value for j will require more cycles through
|
|
|
|
the encipherment algorithm per unit of plaintext and thus cause
|
|
|
|
greater processing overheads.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
Only multiples of j bits can be enciphered.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
\s-1OFB\s0 mode of operation does not extend ciphertext errors in the
|
|
|
|
resultant plaintext output. Every bit error in the ciphertext causes
|
|
|
|
only one bit to be in error in the deciphered plaintext.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
\s-1OFB\s0 mode is not self-synchronising. If the two operation of
|
|
|
|
encipherment and decipherment get out of synchronism, the system needs
|
|
|
|
to be re-initialised.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
Each re-initialisation should use a value of the start variable
|
|
|
|
different from the start variable values used before with the same
|
|
|
|
key. The reason for this is that an identical bit stream would be
|
|
|
|
produced each time from the same parameters. This would be
|
|
|
|
susceptible to a \*(L'known plaintext\*(R' attack.
|
|
|
|
.Sh "Triple \s-1ECB\s0 Mode"
|
|
|
|
Normally, this is found as the function \fIalgorithm\fR\fI_ecb3_encrypt()\fR.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
Encrypt with key1, decrypt with key2 and encrypt with key3 again.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
As for \s-1ECB\s0 encryption but increases the key length to 168 bits.
|
|
|
|
There are theoretic attacks that can be used that make the effective
|
|
|
|
key length 112 bits, but this attack also requires 2^56 blocks of
|
|
|
|
memory, not very likely, even for the \s-1NSA\s0.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
If both keys are the same it is equivalent to encrypting once with
|
|
|
|
just one key.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
If the first and last key are the same, the key length is 112 bits.
|
|
|
|
There are attacks that could reduce the key space to 55 bit's but it
|
|
|
|
requires 2^56 blocks of memory.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
If all 3 keys are the same, this is effectively the same as normal
|
|
|
|
ecb mode.
|
|
|
|
.Sh "Triple \s-1CBC\s0 Mode"
|
|
|
|
Normally, this is found as the function \fIalgorithm\fR\fI_ede3_cbc_encrypt()\fR.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
Encrypt with key1, decrypt with key2 and then encrypt with key3.
|
|
|
|
.Ip "\(bu" 2
|
|
|
|
As for \s-1CBC\s0 encryption but increases the key length to 168 bits with
|
|
|
|
the same restrictions as for triple ecb mode.
|
|
|
|
.SH "NOTES"
|
|
|
|
This text was been written in large parts by Eric Young in his original
|
|
|
|
documentation for SSLeay, the predecessor of OpenSSL. In turn, he attributed
|
|
|
|
it to:
|
|
|
|
.PP
|
|
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.Vb 5
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\& AS 2805.5.2
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\& Australian Standard
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\& Electronic funds transfer - Requirements for interfaces,
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\& Part 5.2: Modes of operation for an n-bit block cipher algorithm
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\& Appendix A
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.Ve
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.SH "SEE ALSO"
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the \fIblowfish(3)|blowfish(3)\fR manpage, the \fIdes(3)|des(3)\fR manpage, the \fIidea(3)|idea(3)\fR manpage,
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the \fIrc2(3)|rc2(3)\fR manpage
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.rn }` ''
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.IX Title "des_modes 7"
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.IX Name "Modes of DES - the variants of DES and other crypto algorithms of OpenSSL"
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.IX Header "NAME"
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.IX Header "DESCRIPTION"
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.IX Header "OVERVIEW"
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.IX Subsection "Electronic Codebook Mode (\s-1ECB\s0)"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Subsection "Cipher Block Chaining Mode (\s-1CBC\s0)"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Subsection "Cipher Feedback Mode (\s-1CFB\s0)"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Subsection "Output Feedback Mode (\s-1OFB\s0)"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Subsection "Triple \s-1ECB\s0 Mode"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Subsection "Triple \s-1CBC\s0 Mode"
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.IX Item "\(bu"
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.IX Item "\(bu"
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.IX Header "NOTES"
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.IX Header "SEE ALSO"
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