1164 lines
30 KiB
Ruby
1164 lines
30 KiB
Ruby
require 'digest/md5'
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require 'stringio'
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begin
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require 'iconv'
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require 'zlib'
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rescue LoadError
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end
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module Rex
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###
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#
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# This class formats text in various fashions and also provides
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# a mechanism for wrapping text at a given column.
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#
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###
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module Text
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@@codepage_map_cache = nil
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##
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#
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# Constants
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#
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##
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States = ["AK", "AL", "AR", "AZ", "CA", "CO", "CT", "DE", "FL", "GA", "HI",
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"IA", "ID", "IL", "IN", "KS", "KY", "LA", "MA", "MD", "ME", "MI", "MN",
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"MO", "MS", "MT", "NC", "ND", "NE", "NH", "NJ", "NM", "NV", "NY", "OH",
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"OK", "OR", "PA", "RI", "SC", "SD", "TN", "TX", "UT", "VA", "VT", "WA",
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"WI", "WV", "WY"]
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UpperAlpha = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
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LowerAlpha = "abcdefghijklmnopqrstuvwxyz"
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Numerals = "0123456789"
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Alpha = UpperAlpha + LowerAlpha
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AlphaNumeric = Alpha + Numerals
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HighAscii = [*(0x80 .. 0xff)].pack("C*")
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DefaultWrap = 60
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AllChars = [*(0x00 .. 0xff)].pack("C*")
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DefaultPatternSets = [ Rex::Text::UpperAlpha, Rex::Text::LowerAlpha, Rex::Text::Numerals ]
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# In case Iconv isn't loaded
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Iconv_EBCDIC = ["\x00", "\x01", "\x02", "\x03", "7", "-", ".", "/", "\x16", "\x05", "%", "\v", "\f", "\r", "\x0E", "\x0F", "\x10", "\x11", "\x12", "\x13", "<", "=", "2", "&", "\x18", "\x19", "?", "'", "\x1C", "\x1D", "\x1E", "\x1F", "@", "Z", "\x7F", "{", "[", "l", "P", "}", "M", "]", "\\", "N", "k", "`", "K", "a", "\xF0", "\xF1", "\xF2", "\xF3", "\xF4", "\xF5", "\xF6", "\xF7", "\xF8", "\xF9", "z", "^", "L", "~", "n", "o", "|", "\xC1", "\xC2", "\xC3", "\xC4", "\xC5", "\xC6", "\xC7", "\xC8", "\xC9", "\xD1", "\xD2", "\xD3", "\xD4", "\xD5", "\xD6", "\xD7", "\xD8", "\xD9", "\xE2", "\xE3", "\xE4", "\xE5", "\xE6", "\xE7", "\xE8", "\xE9", nil, "\xE0", nil, nil, "m", "y", "\x81", "\x82", "\x83", "\x84", "\x85", "\x86", "\x87", "\x88", "\x89", "\x91", "\x92", "\x93", "\x94", "\x95", "\x96", "\x97", "\x98", "\x99", "\xA2", "\xA3", "\xA4", "\xA5", "\xA6", "\xA7", "\xA8", "\xA9", "\xC0", "O", "\xD0", "\xA1", "\a", nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil]
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Iconv_ASCII = ["\x00", "\x01", "\x02", "\x03", "\x04", "\x05", "\x06", "\a", "\b", "\t", "\n", "\v", "\f", "\r", "\x0E", "\x0F", "\x10", "\x11", "\x12", "\x13", "\x14", "\x15", "\x16", "\x17", "\x18", "\x19", "\x1A", "\e", "\x1C", "\x1D", "\x1E", "\x1F", " ", "!", "\"", "#", "$", "%", "&", "'", "(", ")", "*", "+", ",", "-", ".", "/", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", ":", ";", "<", "=", ">", "?", "@", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", nil, "\\", nil, nil, "_", "`", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z", "{", "|", "}", "~", "\x7F", nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil, nil]
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##
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#
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# Serialization
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#
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##
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#
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# Converts a raw string into a ruby buffer
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#
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def self.to_ruby(str, wrap = DefaultWrap, name = "buf")
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return hexify(str, wrap, '"', '" +', "#{name} = \n", '"')
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end
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#
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# Creates a ruby-style comment
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#
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def self.to_ruby_comment(str, wrap = DefaultWrap)
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return wordwrap(str, 0, wrap, '', '# ')
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end
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#
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# Converts a raw string into a C buffer
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#
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def self.to_c(str, wrap = DefaultWrap, name = "buf")
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return hexify(str, wrap, '"', '"', "unsigned char #{name}[] = \n", '";')
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end
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#
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# Creates a c-style comment
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#
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def self.to_c_comment(str, wrap = DefaultWrap)
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return "/*\n" + wordwrap(str, 0, wrap, '', ' * ') + " */\n"
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end
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#
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# Creates a javascript-style comment
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#
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def self.to_js_comment(str, wrap = DefaultWrap)
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return wordwrap(str, 0, wrap, '', '// ')
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end
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#
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# Converts a raw string into a perl buffer
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#
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def self.to_perl(str, wrap = DefaultWrap, name = "buf")
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return hexify(str, wrap, '"', '" .', "my $#{name} = \n", '";')
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end
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#
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# Converts a raw string into a java byte array
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#
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def self.to_java(str, name = "shell")
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buff = "byte #{name}[] = new byte[]\n{\n"
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cnt = 0
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max = 0
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str.unpack('C*').each do |c|
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buff << ", " if max > 0
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buff << "\t" if max == 0
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buff << sprintf('(byte) 0x%.2x', c)
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max +=1
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cnt +=1
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if (max > 7)
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buff << ",\n" if cnt != str.length
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max = 0
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end
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end
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buff << "\n};\n"
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return buff
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end
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#
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# Creates a perl-style comment
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#
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def self.to_perl_comment(str, wrap = DefaultWrap)
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return wordwrap(str, 0, wrap, '', '# ')
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end
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#
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# Returns the raw string
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#
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def self.to_raw(str)
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return str
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end
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#
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# Converts ISO-8859-1 to UTF-8
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#
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def self.to_utf8(str)
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begin
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Iconv.iconv("utf-8","iso-8859-1", str).join(" ")
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rescue
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raise ::RuntimeError, "Your installation does not support iconv (needed for utf8 conversion)"
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end
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end
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#
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# Converts ASCII to EBCDIC
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#
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class IllegalSequence < ArgumentError; end
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# A native implementation of the ASCII->EBCDIC table, used to fall back from using
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# Iconv
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def self.to_ebcdic_rex(str)
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new_str = []
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str.each_byte do |x|
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if Iconv_ASCII.index(x.chr)
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new_str << Iconv_EBCDIC[Iconv_ASCII.index(x.chr)]
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else
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raise Rex::Text::IllegalSequence, ("\\x%x" % x)
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end
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end
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new_str.join
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end
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# A native implementation of the EBCDIC->ASCII table, used to fall back from using
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# Iconv
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def self.from_ebcdic_rex(str)
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new_str = []
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str.each_byte do |x|
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if Iconv_EBCDIC.index(x.chr)
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new_str << Iconv_ASCII[Iconv_EBCDIC.index(x.chr)]
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else
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raise Rex::Text::IllegalSequence, ("\\x%x" % x)
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end
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end
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new_str.join
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end
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def self.to_ebcdic(str)
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begin
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Iconv.iconv("EBCDIC-US", "ASCII", str).first
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rescue ::Iconv::IllegalSequence => e
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raise e
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rescue
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self.to_ebcdic_rex(str)
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end
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end
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#
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# Converts EBCIDC to ASCII
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#
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def self.from_ebcdic(str)
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begin
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Iconv.iconv("ASCII", "EBCDIC-US", str).first
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rescue ::Iconv::IllegalSequence => e
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raise e
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rescue
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self.from_ebcdic_rex(str)
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end
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end
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#
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# Returns a unicode escaped string for Javascript
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#
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def self.to_unescape(data, endian=ENDIAN_LITTLE)
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data << "\x41" if (data.length % 2 != 0)
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dptr = 0
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buff = ''
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while (dptr < data.length)
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c1 = data[dptr,1].unpack("C*")[0]
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dptr += 1
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c2 = data[dptr,1].unpack("C*")[0]
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dptr += 1
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if (endian == ENDIAN_LITTLE)
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buff << sprintf('%%u%.2x%.2x', c2, c1)
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else
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buff << sprintf('%%u%.2x%.2x', c1, c2)
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end
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end
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return buff
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end
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#
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# Returns the hex version of the supplied string
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#
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def self.to_hex(str, prefix = "\\x", count = 1)
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raise ::RuntimeError, "unable to chunk into #{count} byte chunks" if ((str.length % count) > 0)
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# XXX: Regexp.new is used here since using /.{#{count}}/o would compile
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# the regex the first time it is used and never check again. Since we
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# want to know how many to capture on every instance, we do it this
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# way.
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return str.unpack('H*')[0].gsub(Regexp.new(".{#{count * 2}}", nil, 'n')) { |s| prefix + s }
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end
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#
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# Returns the string with nonprintable hex characters sanitized to ascii. Similiar to to_hex,
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# but regular ASCII is not translated if count is 1.
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#
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def self.to_hex_ascii(str, prefix = "\\x", count = 1, suffix=nil)
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raise ::RuntimeError, "unable to chunk into #{count} byte chunks" if ((str.length % count) > 0)
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return str.unpack('H*')[0].gsub(Regexp.new(".{#{count * 2}}", nil, 'n')) { |s|
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(0x20..0x7e) === s.to_i(16) ? s.to_i(16).chr : prefix + s + suffix.to_s
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}
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end
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#
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# Converts standard ASCII text to a unicode string.
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#
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# Supported unicode types include: utf-16le, utf16-be, utf32-le, utf32-be, utf-7, and utf-8
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#
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# Providing 'mode' provides hints to the actual encoder as to how it should encode the string. Only UTF-7 and UTF-8 use "mode".
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#
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# utf-7 by default does not encode alphanumeric and a few other characters. By specifying the mode of "all", then all of the characters are encoded, not just the non-alphanumeric set.
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# to_unicode(str, 'utf-7', 'all')
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#
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# utf-8 specifies that alphanumeric characters are used directly, eg "a" is just "a". However, there exist 6 different overlong encodings of "a" that are technically not valid, but parse just fine in most utf-8 parsers. (0xC1A1, 0xE081A1, 0xF08081A1, 0xF8808081A1, 0xFC80808081A1, 0xFE8080808081A1). How many bytes to use for the overlong enocding is specified providing 'size'.
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# to_unicode(str, 'utf-8', 'overlong', 2)
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#
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# Many utf-8 parsers also allow invalid overlong encodings, where bits that are unused when encoding a single byte are modified. Many parsers will ignore these bits, rendering simple string matching to be ineffective for dealing with UTF-8 strings. There are many more invalid overlong encodings possible for "a". For example, three encodings are available for an invalid 2 byte encoding of "a". (0xC1E1 0xC161 0xC121). By specifying "invalid", a random invalid encoding is chosen for the given byte size.
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# to_unicode(str, 'utf-8', 'invalid', 2)
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#
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# utf-7 defaults to 'normal' utf-7 encoding
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# utf-8 defaults to 2 byte 'normal' encoding
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#
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def self.to_unicode(str='', type = 'utf-16le', mode = '', size = '')
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return '' if not str
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case type
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when 'utf-16le'
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return str.unpack('C*').pack('v*')
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when 'utf-16be'
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return str.unpack('C*').pack('n*')
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when 'utf-32le'
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return str.unpack('C*').pack('V*')
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when 'utf-32be'
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return str.unpack('C*').pack('N*')
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when 'utf-7'
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case mode
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when 'all'
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return str.gsub(/./){ |a|
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out = ''
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if 'a' != '+'
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out = encode_base64(to_unicode(a, 'utf-16be')).gsub(/[=\r\n]/, '')
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end
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'+' + out + '-'
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}
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else
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return str.gsub(/[^\n\r\t\ A-Za-z0-9\'\(\),-.\/\:\?]/){ |a|
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out = ''
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if a != '+'
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out = encode_base64(to_unicode(a, 'utf-16be')).gsub(/[=\r\n]/, '')
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end
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'+' + out + '-'
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}
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end
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when 'utf-8'
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if size == ''
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size = 2
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end
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if size >= 2 and size <= 7
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string = ''
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str.each_byte { |a|
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if (a < 21 || a > 0x7f) || mode != ''
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# ugh. turn a single byte into the binary representation of it, in array form
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bin = [a].pack('C').unpack('B8')[0].split(//)
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# even more ugh.
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bin.collect!{|a_| a_.to_i}
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out = Array.new(8 * size, 0)
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0.upto(size - 1) { |i|
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out[i] = 1
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out[i * 8] = 1
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}
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i = 0
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byte = 0
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bin.reverse.each { |bit|
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if i < 6
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mod = (((size * 8) - 1) - byte * 8) - i
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out[mod] = bit
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else
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byte = byte + 1
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i = 0
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redo
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end
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i = i + 1
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}
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if mode != ''
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case mode
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when 'overlong'
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# do nothing, since we already handle this as above...
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when 'invalid'
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done = 0
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while done == 0
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# the ghetto...
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bits = [7, 8, 15, 16, 23, 24, 31, 32, 41]
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bits.each { |bit|
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bit = (size * 8) - bit
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if bit > 1
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set = rand(2)
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if out[bit] != set
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out[bit] = set
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done = 1
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end
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end
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}
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end
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else
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raise TypeError, 'Invalid mode. Only "overlong" and "invalid" are acceptable modes for utf-8'
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end
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end
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string << [out.join('')].pack('B*')
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else
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string << [a].pack('C')
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end
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}
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return string
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else
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raise TypeError, 'invalid utf-8 size'
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end
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when 'uhwtfms' # suggested name from HD :P
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load_codepage()
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string = ''
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# overloading mode as codepage
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if mode == ''
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mode = 1252 # ANSI - Latan 1, default for US installs of MS products
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else
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mode = mode.to_i
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end
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if @@codepage_map_cache[mode].nil?
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raise TypeError, "Invalid codepage #{mode}"
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end
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str.each_byte {|byte|
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char = [byte].pack('C*')
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possible = @@codepage_map_cache[mode]['data'][char]
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if possible.nil?
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raise TypeError, "codepage #{mode} does not provide an encoding for 0x#{char.unpack('H*')[0]}"
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end
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string << possible[ rand(possible.length) ]
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}
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return string
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when 'uhwtfms-half' # suggested name from HD :P
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|
load_codepage()
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string = ''
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|
# overloading mode as codepage
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|
if mode == ''
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mode = 1252 # ANSI - Latan 1, default for US installs of MS products
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else
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mode = mode.to_i
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end
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if mode != 1252
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raise TypeError, "Invalid codepage #{mode}, only 1252 supported for uhwtfms_half"
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end
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str.each_byte {|byte|
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if ((byte >= 33 && byte <= 63) || (byte >= 96 && byte <= 126))
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string << "\xFF" + [byte ^ 32].pack('C')
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elsif (byte >= 64 && byte <= 95)
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string << "\xFF" + [byte ^ 96].pack('C')
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else
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char = [byte].pack('C')
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possible = @@codepage_map_cache[mode]['data'][char]
|
|
if possible.nil?
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raise TypeError, "codepage #{mode} does not provide an encoding for 0x#{char.unpack('H*')[0]}"
|
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end
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string << possible[ rand(possible.length) ]
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end
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}
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return string
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else
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raise TypeError, 'invalid utf type'
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end
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end
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|
|
#
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# Converts a unicode string to standard ASCII text.
|
|
#
|
|
def self.to_ascii(str='', type = 'utf-16le', mode = '', size = '')
|
|
return '' if not str
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case type
|
|
when 'utf-16le'
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return str.unpack('v*').pack('C*')
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when 'utf-16be'
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return str.unpack('n*').pack('C*')
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when 'utf-32le'
|
|
return str.unpack('V*').pack('C*')
|
|
when 'utf-32be'
|
|
return str.unpack('N*').pack('C*')
|
|
when 'utf-7'
|
|
raise TypeError, 'invalid utf type, not yet implemented'
|
|
when 'utf-8'
|
|
raise TypeError, 'invalid utf type, not yet implemented'
|
|
when 'uhwtfms' # suggested name from HD :P
|
|
raise TypeError, 'invalid utf type, not yet implemented'
|
|
when 'uhwtfms-half' # suggested name from HD :P
|
|
raise TypeError, 'invalid utf type, not yet implemented'
|
|
else
|
|
raise TypeError, 'invalid utf type'
|
|
end
|
|
end
|
|
|
|
#
|
|
# Encode a string in a manor useful for HTTP URIs and URI Parameters.
|
|
#
|
|
def self.uri_encode(str, mode = 'hex-normal')
|
|
return "" if str == nil
|
|
|
|
return str if mode == 'none' # fast track no encoding
|
|
|
|
all = /[^\/\\]+/
|
|
normal = /[^a-zA-Z0-9\/\\\.\-]+/
|
|
normal_na = /[a-zA-Z0-9\/\\\.\-]/
|
|
|
|
case mode
|
|
when 'hex-normal'
|
|
return str.gsub(normal) { |s| Rex::Text.to_hex(s, '%') }
|
|
when 'hex-all'
|
|
return str.gsub(all) { |s| Rex::Text.to_hex(s, '%') }
|
|
when 'hex-random'
|
|
res = ''
|
|
str.each_byte do |c|
|
|
b = c.chr
|
|
res << ((rand(2) == 0) ?
|
|
b.gsub(all) { |s| Rex::Text.to_hex(s, '%') } :
|
|
b.gsub(normal){ |s| Rex::Text.to_hex(s, '%') } )
|
|
end
|
|
return res
|
|
when 'u-normal'
|
|
return str.gsub(normal) { |s| Rex::Text.to_hex(Rex::Text.to_unicode(s, 'uhwtfms'), '%u', 2) }
|
|
when 'u-all'
|
|
return str.gsub(all) { |s| Rex::Text.to_hex(Rex::Text.to_unicode(s, 'uhwtfms'), '%u', 2) }
|
|
when 'u-random'
|
|
res = ''
|
|
str.each_byte do |c|
|
|
b = c.chr
|
|
res << ((rand(2) == 0) ?
|
|
b.gsub(all) { |s| Rex::Text.to_hex(Rex::Text.to_unicode(s, 'uhwtfms'), '%u', 2) } :
|
|
b.gsub(normal){ |s| Rex::Text.to_hex(Rex::Text.to_unicode(s, 'uhwtfms'), '%u', 2) } )
|
|
end
|
|
return res
|
|
when 'u-half'
|
|
return str.gsub(all) { |s| Rex::Text.to_hex(Rex::Text.to_unicode(s, 'uhwtfms-half'), '%u', 2) }
|
|
else
|
|
raise TypeError, 'invalid mode'
|
|
end
|
|
end
|
|
|
|
#
|
|
# Encode a string in a manner useful for HTTP URIs and URI Parameters.
|
|
#
|
|
def self.html_encode(str, mode = 'hex')
|
|
case mode
|
|
when 'hex'
|
|
return str.unpack('C*').collect{ |i| "&#x" + ("%.2x" % i) + ";"}.join
|
|
when 'int'
|
|
return str.unpack('C*').collect{ |i| "&#" + i.to_s + ";"}.join
|
|
when 'int-wide'
|
|
return str.unpack('C*').collect{ |i| "&#" + ("0" * (7 - i.to_s.length)) + i.to_s + ";" }.join
|
|
else
|
|
raise TypeError, 'invalid mode'
|
|
end
|
|
end
|
|
|
|
#
|
|
# Encode an ASCII string so it's safe for XML. It's a wrapper for to_hex_ascii.
|
|
#
|
|
def self.xml_char_encode(str)
|
|
self.to_hex_ascii(str, "&#x", 1, ";")
|
|
end
|
|
|
|
#
|
|
# Decode a URI encoded string
|
|
#
|
|
def self.uri_decode(str)
|
|
str.gsub(/(%[a-z0-9]{2})/i){ |c| [c[1,2]].pack("H*") }
|
|
end
|
|
|
|
#
|
|
# Converts a string to random case
|
|
#
|
|
def self.to_rand_case(str)
|
|
buf = str.dup
|
|
0.upto(str.length) do |i|
|
|
buf[i,1] = rand(2) == 0 ? str[i,1].upcase : str[i,1].downcase
|
|
end
|
|
return buf
|
|
end
|
|
|
|
#
|
|
# Takes a string, and returns an array of all mixed case versions.
|
|
#
|
|
# Example:
|
|
#
|
|
# >> Rex::Text.to_mixed_case_array "abc1"
|
|
# => ["abc1", "abC1", "aBc1", "aBC1", "Abc1", "AbC1", "ABc1", "ABC1"]
|
|
#
|
|
def self.to_mixed_case_array(str)
|
|
letters = []
|
|
str.scan(/./).each { |l| letters << [l.downcase, l.upcase] }
|
|
coords = []
|
|
(1 << str.size).times { |i| coords << ("%0#{str.size}b" % i) }
|
|
mixed = []
|
|
coords.each do |coord|
|
|
c = coord.scan(/./).map {|x| x.to_i}
|
|
this_str = ""
|
|
c.each_with_index { |d,i| this_str << letters[i][d] }
|
|
mixed << this_str
|
|
end
|
|
return mixed.uniq
|
|
end
|
|
|
|
#
|
|
# Converts a string a nicely formatted hex dump
|
|
#
|
|
def self.to_hex_dump(str, width=16)
|
|
buf = ''
|
|
idx = 0
|
|
cnt = 0
|
|
snl = false
|
|
lst = 0
|
|
|
|
while (idx < str.length)
|
|
|
|
chunk = str[idx, width]
|
|
line = chunk.unpack("H*")[0].scan(/../).join(" ")
|
|
buf << line
|
|
|
|
if (lst == 0)
|
|
lst = line.length
|
|
buf << " " * 4
|
|
else
|
|
buf << " " * ((lst - line.length) + 4).abs
|
|
end
|
|
|
|
chunk.unpack("C*").each do |c|
|
|
if (c > 0x1f and c < 0x7f)
|
|
buf << c.chr
|
|
else
|
|
buf << "."
|
|
end
|
|
end
|
|
|
|
buf << "\n"
|
|
|
|
idx += width
|
|
end
|
|
|
|
buf << "\n"
|
|
end
|
|
|
|
#
|
|
# Converts a hex string to a raw string
|
|
#
|
|
def self.hex_to_raw(str)
|
|
[ str.downcase.gsub(/'/,'').gsub(/\\?x([a-f0-9][a-f0-9])/, '\1') ].pack("H*")
|
|
end
|
|
|
|
#
|
|
# Turn non-printable chars into hex representations, leaving others alone
|
|
#
|
|
# If +whitespace+ is true, converts whitespace (0x20, 0x09, etc) to hex as
|
|
# well.
|
|
#
|
|
def self.ascii_safe_hex(str, whitespace=false)
|
|
if whitespace
|
|
str.gsub(/([\x00-\x20\x80-\xFF])/){ |x| "\\x%.2x" % x.unpack("C*")[0] }
|
|
else
|
|
str.gsub(/([\x00-\x08\x0b\x0c\x0e-\x1f\x80-\xFF])/n){ |x| "\\x%.2x" % x.unpack("C*")[0]}
|
|
end
|
|
end
|
|
|
|
#
|
|
# Wraps text at a given column using a supplied indention
|
|
#
|
|
def self.wordwrap(str, indent = 0, col = DefaultWrap, append = '', prepend = '')
|
|
return str.gsub(/.{1,#{col - indent}}(?:\s|\Z)/){
|
|
( (" " * indent) + prepend + $& + append + 5.chr).gsub(/\n\005/,"\n").gsub(/\005/,"\n")}
|
|
end
|
|
|
|
#
|
|
# Converts a string to a hex version with wrapping support
|
|
#
|
|
def self.hexify(str, col = DefaultWrap, line_start = '', line_end = '', buf_start = '', buf_end = '')
|
|
output = buf_start
|
|
cur = 0
|
|
count = 0
|
|
new_line = true
|
|
|
|
# Go through each byte in the string
|
|
str.each_byte { |byte|
|
|
count += 1
|
|
append = ''
|
|
|
|
# If this is a new line, prepend with the
|
|
# line start text
|
|
if (new_line == true)
|
|
append << line_start
|
|
new_line = false
|
|
end
|
|
|
|
# Append the hexified version of the byte
|
|
append << sprintf("\\x%.2x", byte)
|
|
cur += append.length
|
|
|
|
# If we're about to hit the column or have gone past it,
|
|
# time to finish up this line
|
|
if ((cur + line_end.length >= col) or (cur + buf_end.length >= col))
|
|
new_line = true
|
|
cur = 0
|
|
|
|
# If this is the last byte, use the buf_end instead of
|
|
# line_end
|
|
if (count == str.length)
|
|
append << buf_end + "\n"
|
|
else
|
|
append << line_end + "\n"
|
|
end
|
|
end
|
|
|
|
output << append
|
|
}
|
|
|
|
# If we were in the middle of a line, finish the buffer at this point
|
|
if (new_line == false)
|
|
output << buf_end + "\n"
|
|
end
|
|
|
|
return output
|
|
end
|
|
|
|
##
|
|
#
|
|
# Transforms
|
|
#
|
|
##
|
|
|
|
#
|
|
# Base64 encoder
|
|
#
|
|
def self.encode_base64(str, delim='')
|
|
[str].pack("m").gsub(/\s+/, delim)
|
|
end
|
|
|
|
#
|
|
# Base64 decoder
|
|
#
|
|
def self.decode_base64(str)
|
|
str.unpack("m")[0]
|
|
end
|
|
|
|
#
|
|
# Raw MD5 digest of the supplied string
|
|
#
|
|
def self.md5_raw(str)
|
|
Digest::MD5.digest(str)
|
|
end
|
|
|
|
#
|
|
# Hexidecimal MD5 digest of the supplied string
|
|
#
|
|
def self.md5(str)
|
|
Digest::MD5.hexdigest(str)
|
|
end
|
|
|
|
|
|
##
|
|
#
|
|
# Generators
|
|
#
|
|
##
|
|
|
|
|
|
# Generates a random character.
|
|
def self.rand_char(bad, chars = AllChars)
|
|
rand_text(1, bad, chars)
|
|
end
|
|
|
|
# Base text generator method
|
|
def self.rand_base(len, bad, *foo)
|
|
cset = (foo.join.unpack("C*") - bad.to_s.unpack("C*")).uniq
|
|
return "" if cset.length == 0
|
|
outp = []
|
|
len.times { outp << cset[rand(cset.length)] }
|
|
outp.pack("C*")
|
|
end
|
|
|
|
# Generate random bytes of data
|
|
def self.rand_text(len, bad='', chars = AllChars)
|
|
foo = chars.split('')
|
|
rand_base(len, bad, *foo)
|
|
end
|
|
|
|
# Generate random bytes of alpha data
|
|
def self.rand_text_alpha(len, bad='')
|
|
foo = []
|
|
foo += ('A' .. 'Z').to_a
|
|
foo += ('a' .. 'z').to_a
|
|
rand_base(len, bad, *foo )
|
|
end
|
|
|
|
# Generate random bytes of lowercase alpha data
|
|
def self.rand_text_alpha_lower(len, bad='')
|
|
rand_base(len, bad, *('a' .. 'z').to_a)
|
|
end
|
|
|
|
# Generate random bytes of uppercase alpha data
|
|
def self.rand_text_alpha_upper(len, bad='')
|
|
rand_base(len, bad, *('A' .. 'Z').to_a)
|
|
end
|
|
|
|
# Generate random bytes of alphanumeric data
|
|
def self.rand_text_alphanumeric(len, bad='')
|
|
foo = []
|
|
foo += ('A' .. 'Z').to_a
|
|
foo += ('a' .. 'z').to_a
|
|
foo += ('0' .. '9').to_a
|
|
rand_base(len, bad, *foo )
|
|
end
|
|
|
|
# Generate random bytes of alphanumeric hex.
|
|
def self.rand_text_hex(len, bad='')
|
|
foo = []
|
|
foo += ('0' .. '9').to_a
|
|
foo += ('a' .. 'f').to_a
|
|
rand_base(len, bad, *foo)
|
|
end
|
|
|
|
# Generate random bytes of numeric data
|
|
def self.rand_text_numeric(len, bad='')
|
|
foo = ('0' .. '9').to_a
|
|
rand_base(len, bad, *foo )
|
|
end
|
|
|
|
# Generate random bytes of english-like data
|
|
def self.rand_text_english(len, bad='')
|
|
foo = []
|
|
foo += (0x21 .. 0x7e).map{ |c| c.chr }
|
|
rand_base(len, bad, *foo )
|
|
end
|
|
|
|
# Generate random bytes of high ascii data
|
|
def self.rand_text_highascii(len, bad='')
|
|
foo = []
|
|
foo += (0x80 .. 0xff).map{ |c| c.chr }
|
|
rand_base(len, bad, *foo )
|
|
end
|
|
|
|
#
|
|
# Creates a pattern that can be used for offset calculation purposes. This
|
|
# routine is capable of generating patterns using a supplied set and a
|
|
# supplied number of identifiable characters (slots). The supplied sets
|
|
# should not contain any duplicate characters or the logic will fail.
|
|
#
|
|
def self.pattern_create(length, sets = nil)
|
|
buf = ''
|
|
idx = 0
|
|
offsets = []
|
|
|
|
# Make sure there's something in sets even if we were given an explicit nil
|
|
sets ||= [ UpperAlpha, LowerAlpha, Numerals ]
|
|
|
|
# Return stupid uses
|
|
return "" if length.to_i < 1
|
|
return sets[0][0] * length if sets.size == 1 and sets[0].size == 1
|
|
|
|
sets.length.times { offsets << 0 }
|
|
|
|
until buf.length >= length
|
|
begin
|
|
buf << converge_sets(sets, 0, offsets, length)
|
|
end
|
|
end
|
|
|
|
# Maximum permutations reached, but we need more data
|
|
if (buf.length < length)
|
|
buf = buf * (length / buf.length.to_f).ceil
|
|
end
|
|
|
|
buf[0,length]
|
|
end
|
|
|
|
# Step through an arbitrary number of sets of bytes to build up a findable pattern.
|
|
# This is mostly useful for experimentially determining offset lengths into memory
|
|
# structures. Note that the supplied sets should never contain duplicate bytes, or
|
|
# else it can become impossible to measure the offset accurately.
|
|
def self.patt2(len, sets = nil)
|
|
buf = ""
|
|
counter = []
|
|
sets ||= [ UpperAlpha, LowerAlpha, Numerals ]
|
|
len ||= len.to_i
|
|
return "" if len.zero?
|
|
|
|
sets = sets.map {|a| a.split(//)}
|
|
sets.size.times { counter << 0}
|
|
0.upto(len-1) do |i|
|
|
setnum = i % sets.size
|
|
|
|
puts counter.inspect
|
|
end
|
|
|
|
return buf
|
|
end
|
|
|
|
#
|
|
# Calculate the offset to a pattern
|
|
#
|
|
def self.pattern_offset(pattern, value, start=0)
|
|
if (value.kind_of?(String))
|
|
pattern.index(value, start)
|
|
elsif (value.kind_of?(Fixnum) or value.kind_of?(Bignum))
|
|
pattern.index([ value ].pack('V'), start)
|
|
else
|
|
raise ::ArgumentError, "Invalid class for value: #{value.class}"
|
|
end
|
|
end
|
|
|
|
#
|
|
# Compresses a string, eliminating all superfluous whitespace before and
|
|
# after lines and eliminating all lines.
|
|
#
|
|
def self.compress(str)
|
|
str.gsub(/\n/m, ' ').gsub(/\s+/, ' ').gsub(/^\s+/, '').gsub(/\s+$/, '')
|
|
end
|
|
|
|
#
|
|
# Randomize the whitespace in a string
|
|
#
|
|
def self.randomize_space(str)
|
|
str.gsub(/\s+/) { |s|
|
|
len = rand(50)+2
|
|
set = "\x09\x20\x0d\x0a"
|
|
buf = ''
|
|
while (buf.length < len)
|
|
buf << set[rand(set.length),1]
|
|
end
|
|
|
|
buf
|
|
}
|
|
end
|
|
|
|
# Returns true if zlib can be used.
|
|
def self.zlib_present?
|
|
begin
|
|
temp = Zlib
|
|
return true
|
|
rescue
|
|
return false
|
|
end
|
|
end
|
|
|
|
# backwards compat for just a bit...
|
|
def self.gzip_present?
|
|
self.zlib_present?
|
|
end
|
|
|
|
#
|
|
# Compresses a string using zlib
|
|
#
|
|
def self.zlib_deflate(str, level = Zlib::BEST_COMPRESSION)
|
|
if self.zlib_present?
|
|
z = Zlib::Deflate.new(level)
|
|
dst = z.deflate(str, Zlib::FINISH)
|
|
z.close
|
|
return dst
|
|
else
|
|
raise RuntimeError, "Gzip support is not present."
|
|
end
|
|
end
|
|
|
|
#
|
|
# Uncompresses a string using zlib
|
|
#
|
|
def self.zlib_inflate(str)
|
|
if(self.zlib_present?)
|
|
zstream = Zlib::Inflate.new
|
|
buf = zstream.inflate(str)
|
|
zstream.finish
|
|
zstream.close
|
|
return buf
|
|
else
|
|
raise RuntimeError, "Gzip support is not present."
|
|
end
|
|
end
|
|
|
|
#
|
|
# Compresses a string using gzip
|
|
#
|
|
def self.gzip(str, level = 9)
|
|
raise RuntimeError, "Gzip support is not present." if (!zlib_present?)
|
|
raise RuntimeError, "Invalid gzip compression level" if (level < 1 or level > 9)
|
|
|
|
s = ""
|
|
s.force_encoding('ASCII-8BIT') if s.respond_to?(:encoding)
|
|
gz = Zlib::GzipWriter.new(StringIO.new(s, 'wb'), level)
|
|
gz << str
|
|
gz.close
|
|
return s
|
|
end
|
|
|
|
#
|
|
# Uncompresses a string using gzip
|
|
#
|
|
def self.ungzip(str)
|
|
raise RuntimeError, "Gzip support is not present." if (!zlib_present?)
|
|
|
|
s = ""
|
|
s.force_encoding('ASCII-8BIT') if s.respond_to?(:encoding)
|
|
gz = Zlib::GzipReader.new(StringIO.new(str, 'rb'))
|
|
s << gz.read
|
|
gz.close
|
|
return s
|
|
end
|
|
|
|
#
|
|
# Return the index of the first badchar in data, otherwise return
|
|
# nil if there wasn't any badchar occurences.
|
|
#
|
|
def self.badchar_index(data, badchars = '')
|
|
badchars.unpack("C*").each { |badchar|
|
|
pos = data.index(badchar.chr)
|
|
return pos if pos
|
|
}
|
|
return nil
|
|
end
|
|
|
|
#
|
|
# This method removes bad characters from a string.
|
|
#
|
|
def self.remove_badchars(data, badchars = '')
|
|
data.delete(badchars)
|
|
end
|
|
|
|
#
|
|
# This method returns all chars but the supplied set
|
|
#
|
|
def self.charset_exclude(keepers)
|
|
[*(0..255)].pack('C*').delete(keepers)
|
|
end
|
|
|
|
#
|
|
# Shuffles a byte stream
|
|
#
|
|
def self.shuffle_s(str)
|
|
shuffle_a(str.unpack("C*")).pack("C*")
|
|
end
|
|
|
|
#
|
|
# Performs a Fisher-Yates shuffle on an array
|
|
#
|
|
def self.shuffle_a(arr)
|
|
len = arr.length
|
|
max = len - 1
|
|
cyc = [* (0..max) ]
|
|
for d in cyc
|
|
e = rand(d+1)
|
|
next if e == d
|
|
f = arr[d];
|
|
g = arr[e];
|
|
arr[d] = g;
|
|
arr[e] = f;
|
|
end
|
|
return arr
|
|
end
|
|
|
|
# Permute the case of a word
|
|
def self.permute_case(word, idx=0)
|
|
res = []
|
|
|
|
if( (UpperAlpha+LowerAlpha).index(word[idx,1]))
|
|
|
|
word_ucase = word.dup
|
|
word_ucase[idx, 1] = word[idx, 1].upcase
|
|
|
|
word_lcase = word.dup
|
|
word_lcase[idx, 1] = word[idx, 1].downcase
|
|
|
|
if (idx == word.length)
|
|
return [word]
|
|
else
|
|
res << permute_case(word_ucase, idx+1)
|
|
res << permute_case(word_lcase, idx+1)
|
|
end
|
|
else
|
|
res << permute_case(word, idx+1)
|
|
end
|
|
|
|
res.flatten
|
|
end
|
|
|
|
# Generate a random hostname
|
|
def self.rand_hostname
|
|
host = []
|
|
(rand(5) + 1).times {
|
|
host.push(Rex::Text.rand_text_alphanumeric(rand(10) + 1))
|
|
}
|
|
d = ['com', 'net', 'org', 'gov']
|
|
host.push(d[rand(d.size)])
|
|
host.join('.').downcase
|
|
end
|
|
|
|
# Generate a state
|
|
def self.rand_state()
|
|
States[rand(States.size)]
|
|
end
|
|
|
|
|
|
#
|
|
# Calculate the ROR13 hash of a given string
|
|
#
|
|
def self.ror13_hash(name)
|
|
hash = 0
|
|
name.unpack("C*").each {|c| hash = ror(hash, 13); hash += c }
|
|
hash
|
|
end
|
|
|
|
#
|
|
# Rotate a 32-bit value to the right by cnt bits
|
|
#
|
|
def self.ror(val, cnt)
|
|
bits = [val].pack("N").unpack("B32")[0].split(//)
|
|
1.upto(cnt) do |c|
|
|
bits.unshift( bits.pop )
|
|
end
|
|
[bits.join].pack("B32").unpack("N")[0]
|
|
end
|
|
|
|
#
|
|
# Rotate a 32-bit value to the left by cnt bits
|
|
#
|
|
def self.rol(val, cnt)
|
|
bits = [val].pack("N").unpack("B32")[0].split(//)
|
|
1.upto(cnt) do |c|
|
|
bits.push( bits.shift )
|
|
end
|
|
[bits.join].pack("B32").unpack("N")[0]
|
|
end
|
|
|
|
#
|
|
# Split a string by n charachter into an array
|
|
#
|
|
def self.split_to_a(str, n)
|
|
if n > 0
|
|
s = str.dup
|
|
until s.empty?
|
|
(ret ||= []).push s.slice!(0, n)
|
|
end
|
|
else
|
|
ret = str
|
|
end
|
|
ret
|
|
end
|
|
|
|
#
|
|
#Pack a value as 64 bit litle endian; does not exist for Array.pack
|
|
#
|
|
def self.pack_int64le(val)
|
|
[val & 0x00000000ffffffff, val >> 32].pack("V2")
|
|
end
|
|
|
|
|
|
protected
|
|
|
|
def self.converge_sets(sets, idx, offsets, length) # :nodoc:
|
|
buf = sets[idx][offsets[idx]].chr
|
|
|
|
# If there are more sets after use, converage with them.
|
|
if (sets[idx + 1])
|
|
buf << converge_sets(sets, idx + 1, offsets, length)
|
|
else
|
|
# Increment the current set offset as well as previous ones if we
|
|
# wrap back to zero.
|
|
while (idx >= 0 and ((offsets[idx] = (offsets[idx] + 1) % sets[idx].length)) == 0)
|
|
idx -= 1
|
|
end
|
|
|
|
# If we reached the point where the idx fell below zero, then that
|
|
# means we've reached the maximum threshold for permutations.
|
|
if (idx < 0)
|
|
return buf
|
|
end
|
|
|
|
end
|
|
|
|
buf
|
|
end
|
|
|
|
def self.load_codepage()
|
|
return if (!@@codepage_map_cache.nil?)
|
|
file = File.join(File.dirname(__FILE__),'codepage.map')
|
|
page = ''
|
|
name = ''
|
|
map = {}
|
|
File.open(file).each { |line|
|
|
next if line =~ /^#/
|
|
next if line =~ /^\s*$/
|
|
data = line.split
|
|
if data[1] =~ /^\(/
|
|
page = data.shift.to_i
|
|
name = data.join(' ').sub(/^\(/,'').sub(/\)$/,'')
|
|
map[page] = {}
|
|
map[page]['name'] = name
|
|
map[page]['data'] = {}
|
|
else
|
|
data.each { |entry|
|
|
wide, char = entry.split(':')
|
|
char = [char].pack('H*')
|
|
wide = [wide].pack('H*')
|
|
if map[page]['data'][char].nil?
|
|
map[page]['data'][char] = [wide]
|
|
else
|
|
map[page]['data'][char].push(wide)
|
|
end
|
|
}
|
|
end
|
|
}
|
|
@@codepage_map_cache = map
|
|
end
|
|
|
|
end
|
|
end
|
|
|