943 lines
19 KiB
Ruby
Executable File
943 lines
19 KiB
Ruby
Executable File
#!/usr/bin/env ruby
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# Copyright (C) 2007 Sylvain SARMEJEANNE
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; version 2.
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# This program is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# General Public License for more details.
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module Scruby
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require "rex/socket"
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# Trackin fields
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@@fields = {}
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def Scruby.fields
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@@fields
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end
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def Scruby.get_field(d)
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@@fields[d]
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end
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class Field
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attr_accessor :name
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attr_accessor :default_value
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attr_accessor :format
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# Constructor
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def initialize(name, default_value)
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@name = name
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@default_value = default_value
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@format = ''
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self.init()
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end
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# Field initialization. This function have to be redefined by subclasses.
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def init
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end
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# Retrieves the field value from a string. This may be redefined by subclasses.
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def dissect(layer, string)
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# Preparing the packet for building
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self.pre_build()
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part = string.unpack(self.format + 'a*')
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# Returning if nothing could be unpacked
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return '' if part[-2].nil? or part[-2] == ''
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# Updating the field value
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layer.instance_variable_set("@#{self.name}", self.from_net(part))
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# 'remain' is the last element of the array (unpacking 'a*'),
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# with this command, part doesn't contain 'remain' anymore.
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remain = part.pop
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return remain
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end
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# Converts from network to internal encoding
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# e.g for IP.dst: number 2130706433 -> string "127.0.0.1" (2130706433 = 127*2^24 + 1*2^0)
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def from_net(value)
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return value[0]
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end
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# Converts from internal encoding to network
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# e.g. for IP.dst: string "127.0.0.1"-> number 2130706433
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def to_net(value)
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return [value].pack(@format)
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end
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# Converts from human to internal encoding
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# e.g. allows TCP(:proto=>'ICMP')
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def from_human(value)
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return value
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end
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# Converts from internal encoding to human display
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# e.g. displays "0xDEADBEEF" for checksums
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def to_human(value)
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return value.to_s
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end
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# Same as to_human() but displays more information
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# e.g. "6 (TCP)" instead of "6" for IP protocol
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def to_human_complete(value)
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return value.to_s
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end
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# Returns yes if the field is to be added to the dissectors, e.g. depending
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# on the value of another field of the layer (see Dot11*)
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def is_applicable?(layer)
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return true
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end
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# Prepares the packet for building
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# e.g. for StrLenField, retrieves the right format size from the associated FieldLenField
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def pre_build
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end
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end
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# Shortcut mixins for reducing code size
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module FieldHumanHex
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def to_human(value)
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return sprintf('0x%x', value)
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end
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def to_human_complete(value)
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return sprintf('0x%x', value)
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end
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end
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# Shortcut mixins for reducing code size
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module FieldHumanHexEnum
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def to_human(value)
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return sprintf('0x%x', value)
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end
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def to_human_complete(value)
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# Checking if the value is in the enumeration keys
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if @enum.keys.include?(value)
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return sprintf('0x%x', value) + ' (' + @enum[value].to_s + ')'
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# Otherwise, just returning the value
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else
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return sprintf('0x%x', value)
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end
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end
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end
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# Shortcut mixins for signed conversion
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module SignedValue
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def utosc(val)
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(val > 0x7f) ? ((0x100 - val) * -1) : val
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end
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def utoss(val)
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(val > 0x7fff) ? ((0x10000 - val) * -1) : val
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end
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def utosl(val)
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(val > 0x7fffffff) ? ((0x100000000 - val) * -1) : val
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end
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def from_net(value)
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val = value[0]
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case @format
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when 'V','N'
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utosl(val)
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when 'v','n'
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utoss(val)
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when 'C'
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utosc(val)
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else
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raise "Unsupport format! #{@format}"
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end
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end
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end
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# Field for an enumeration. Don't use this one in your dissectors,
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# use the *EnumFields below instead.
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class EnumField<Field
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def initialize(name, default_value, enum)
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@name = name
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@default_value = default_value
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@enum = enum
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@format = ''
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self.init()
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end
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def to_human_complete(value)
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puts "ok"
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# Checking if the value is in the enumeration keys
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if @enum.keys.include?(value)
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return value.to_s + ' (' + @enum[value].to_s + ')'
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# Otherwise, just returning the value
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else
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return value.to_s
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end
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end
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def from_human(value)
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# Checking if the value is in the enumeration values
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if @enum.values.include?(value.to_s)
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return @enum.invert[value]
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# Otherwise, just returning the value
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else
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return value
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end
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end
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end
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# Field for a string
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class StrField<Field
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def init
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@format = 'A*'
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end
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def to_net(value)
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return value.to_s
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end
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def to_human(value)
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return value.to_s.inspect
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end
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def to_human_complete(value)
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return value.to_s.inspect
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end
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end
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# Field for a fixed length string
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class StrFixedLenField<StrField
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def initialize(name, default_value, size)
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@name = name
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@default_value = default_value
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@format = 'A' + size.to_s
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end
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end
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# Field for a set of bits
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class BitField<Field
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def initialize(name, default_value, size)
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@name = name
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@default_value = default_value
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@format = 'B'
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# Number of bits in the field
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@size = size
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# Number of bits processed so far within the current byte (class/static variable)
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@@bitsdone = 0
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# Byte being processed (class/static variable)
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@@byte = 0
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end
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def dissect(layer, string)
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@@bitsdone ||= 0
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# Cannot dissect if the wanted size is greater than the length of the string
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# e.g. "IP('A'*7)" should not set frag=65
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return '' if (@@bitsdone + @size)/8 > string.length
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format = self.format + (@@bitsdone + @size).to_s + 'a*'
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part = string.unpack(format)
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# Returning if nothing could be unpacked
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return '' if part[-2].nil? or part[-2] == ''
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# Updating the field value
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layer.instance_variable_set("@#{self.name}", self.from_net(part))
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# Adding the size of the field to the number of bits processed so far
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@@bitsdone += @size
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# If we have just built a byte or more, moving on to the next part of the string
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if @@bitsdone >= 8
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nb_to_be_trimmed = @@bitsdone/8
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# NB : @@bitsdone will not be always 0 after this (e.g. if bitsdone was not 0 mod 8)
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@@bitsdone -= nb_to_be_trimmed*8
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# Getting rid of the nb_to_be_trimmed bytes that have just been processed
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return string[nb_to_be_trimmed..-1]
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# Otherwise, returning the whole string
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else
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return string
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end
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end
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def from_net(value)
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# Removing high-order bits
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bits = value[0]
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bits = bits.to_i(2)
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bits &= (1 << @size) - 1
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return bits
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end
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def to_net(value)
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@@bitsdone ||= 0
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# OR'ing this value the value the previous ones
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@@byte <<= @size
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@@byte |= value
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# Adding the size of the field to the number of bits processed so far
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@@bitsdone += @size
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to_be_returned = ''
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# If one or more bytes could have been processed
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if @@bitsdone >= 8
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# Getting high-order bytes one by one in a begin...until loop
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begin
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@@bitsdone -= 8
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new_byte = @@byte >> @@bitsdone
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to_be_returned += [new_byte].pack('C')
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# Removing high-order bits
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@@byte &= (1 << @@bitsdone) - 1
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end until @@bitsdone < 8
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end
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return to_be_returned
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end
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end
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# Field for one byte
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class ByteField<Field
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def init
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@format = 'C'
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end
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end
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# Same as ByteField, displayed in hexadecimal form
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class XByteField<ByteField
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include FieldHumanHex
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end
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# Field for one byte with enumeration
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class ByteEnumField<EnumField
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def init
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@format = 'C'
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end
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end
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# Same as ByteEnumField, displayed in hexadecimal form
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class XByteEnumField<ByteEnumField
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include FieldHumanHexEnum
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end
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# Field for one short (big endian/network order)
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class ShortField<Field
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def init
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@format = 'n'
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end
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end
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# Same as ShortField, displayed in hexadecimal form
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class XShortField<ShortField
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include FieldHumanHex
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end
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# Field for one short (big endian/network order) with enumeration
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class ShortEnumField<EnumField
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def init
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@format = 'n'
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end
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end
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# Same as ShortEnumField, displayed in hexadecimal form
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class XShortEnumField<ShortEnumField
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include FieldHumanHexEnum
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end
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# Field for a short (little endian order)
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class LEShortField<Field
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def init
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@format = 'v'
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end
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end
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# Same as LEShortField, displayed in hexadecimal form
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class XLEShortField<LEShortField
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include FieldHumanHex
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end
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# Field for one short (little endian order) with enumeration
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class LEShortEnumField<EnumField
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def init
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@format = 'v'
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end
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end
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# Same as LEShortField, displayed in hexadecimal form
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class XLEShortEnumField<LEShortEnumField
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include FieldHumanHexEnum
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end
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# Field for one integer
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class IntField<Field
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def init
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@format = 'N'
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end
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end
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# Same as IntField, displayed in hexadecimal form
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class XIntField<IntField
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include FieldHumanHex
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end
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# Field for an signed integer
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class SignedIntField<Field
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include SignedValue
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def init
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@format = 'N'
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end
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end
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# Field for one integer with enumeration
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class IntEnumField<EnumField
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def init
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@format = 'N'
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end
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end
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# Same as LEIntField, displayed in hexadecimal form
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class XIntEnumField<IntEnumField
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include FieldHumanHexEnum
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end
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# Field for one integer with enumeration
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class SignedIntEnumField<EnumField
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include SignedValue
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def init
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@format = 'N'
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end
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end
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# Field for an unsigned integer (little endian order)
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class LEIntField<Field
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def init
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@format = 'V'
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end
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end
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# Same as LEIntField, displayed in hexadecimal form
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class XLEIntField<LEIntField
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include FieldHumanHex
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end
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# Field for an signed integer (little endian order)
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class LESignedIntField<Field
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include SignedValue
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def init
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@format = 'V'
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end
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end
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# Field for one integer with enumeration
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class LEIntEnumField<EnumField
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def init
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@format = 'V'
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end
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end
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# Same as LEIntField, displayed in hexadecimal form
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class XLEIntEnumField<LEIntEnumField
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include FieldHumanHexEnum
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end
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# Field for one integer (host order)
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class HostOrderIntField<IntField
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def init
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@format = 'L'
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end
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end
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# Same as HostOrderIntField, displayed in hexadecimal form
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class XHostOrderIntField<HostOrderIntField
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include FieldHumanHex
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end
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# Field for one integer (host order) with enumeration
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class HostOrderIntEnumField<EnumField
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def init
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@format = 'L'
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end
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end
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# Same as HostOrderIntEnumField, displayed in hexadecimal form
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class XHostOrderIntEnumField<HostOrderIntEnumField
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include FieldHumanHexEnum
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end
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# Field for a float (big endian/network order)
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class FloatField<Field
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def init
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@format = 'g'
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end
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end
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# Field for a float (big endian/network order) with enumeration
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class FloatEnumField<EnumField
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def init
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@format = 'g'
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end
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end
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# Field for a float (little endian order)
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class LEFloatField<Field
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def init
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@format = 'e'
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end
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end
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# Field for a float (little endian order) with enumeration
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class LEFloatEnumField<EnumField
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def init
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@format = 'e'
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end
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end
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# Field for a float (host order)
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class HostOrderFloatField<Field
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def init
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@format = 'f'
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end
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end
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# Field for a float (host order) with enumeration
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class HostOrderFloatEnumField<EnumField
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def init
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@format = 'f'
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end
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end
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# Field for a double float (big endian/network order)
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class DoubleField<Field
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def init
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@format = 'G'
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end
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end
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# Field for a double float (big endian/network order) with enumeration
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class DoubleEnumField<EnumField
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def init
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@format = 'G'
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end
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end
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# Field for a double float (little endian order)
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class LEDoubleField<Field
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def init
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@format = 'E'
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end
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end
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# Field for a double float (little endian order) with enumeration
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class LEDoubleEnumField<EnumField
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def init
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@format = 'E'
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end
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end
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# Field for an IP address
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class IPField<Field
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def init
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@format = 'N'
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@ip_addr = nil
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end
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# Ruby equivalent to inet_aton. It takes a hostname or an IP as an argument.
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def inet_aton(name)
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ip = Rex::Socket.resolv_nbo(name)
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end
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def to_net(value)
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# Getting the IP address from the server name if needed
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if @ip_addr.nil?
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@ip_addr = inet_aton(value)
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end
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return @ip_addr
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end
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def from_net(value_array)
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return IPAddr.new(value_array[0], Socket::AF_INET).to_s
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end
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def to_human(value)
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return '"' + value.to_s + '"'
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end
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end
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# Field for an MAC address
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class MACField<Field
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def init
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@format = 'H2H2H2H2H2H2'
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end
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def to_net(value)
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# value can be empty (e.g. loopback device)
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if value.nil?
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value = '00:00:00:00:00:00'
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end
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# Get the bytes in an string array
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bytes = value.split(':')
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return bytes.pack(@format)
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end
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def from_net(value_array)
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# value_array is an array containing 7 bytes, only the first 6 are relevant here.
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return value_array[0, 6].join(':')
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end
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end
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|
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# Field for a set of bits with enumeration
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|
class BitEnumField<BitField
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def initialize(name, default_value, size, enum)
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@name = name
|
|
@default_value = default_value
|
|
@format = 'B'
|
|
@enum = enum
|
|
|
|
# Number of bits in the field
|
|
@size = size
|
|
|
|
# Number of bits processed so far within the current byte (class/static variable)
|
|
@@bitsdone = 0
|
|
|
|
# Byte being processed (class/static variable)
|
|
@@byte = 0
|
|
end
|
|
|
|
def to_human_complete(value)
|
|
|
|
# Checking if the value is in the enumeration keys
|
|
if @enum.keys.include?(value)
|
|
return value.to_s + ' (' + @enum[value].to_s + ')'
|
|
# Otherwise, just returning the value
|
|
else
|
|
return value.to_s
|
|
end
|
|
end
|
|
|
|
def from_human(value)
|
|
|
|
# Checking if the value is in the enumeration values
|
|
if @enum.values.include?(value.to_s)
|
|
return @enum.invert[value]
|
|
# Otherwise, just returning the value
|
|
else
|
|
return value
|
|
end
|
|
end
|
|
|
|
end
|
|
|
|
# Field for a set of flags (e.g. each bit has a label)
|
|
class FlagsField<BitField
|
|
|
|
def initialize(name, default_value, size, flags)
|
|
@name = name
|
|
@default_value = default_value
|
|
@format = 'B'
|
|
@flags = flags
|
|
|
|
# Number of bits in the field
|
|
@size = size
|
|
|
|
# Number of bits processed so far within the current byte (class/static variable)
|
|
@@bitsdone = 0
|
|
|
|
# Byte being processed (class/static variable)
|
|
@@byte = 0
|
|
end
|
|
|
|
def from_human(value)
|
|
|
|
return value if not value.is_a?(String)
|
|
|
|
# Run through the flags and set the corresponding bit if it matches
|
|
out = 0
|
|
@flags.length.times do |index|
|
|
out |= 2**index if value.include?(@flags[index])
|
|
end
|
|
|
|
return out
|
|
end
|
|
|
|
def to_human_complete(value)
|
|
|
|
loops = 0
|
|
out = ''
|
|
|
|
begin
|
|
bit = value & (2**loops)
|
|
out = @flags[loops] + ' ' + out if bit != 0
|
|
loops += 1
|
|
end until loops == @size
|
|
|
|
# Removing the last space
|
|
out = out[0, out.length - 1] if out.length > 0
|
|
|
|
return value.to_s + ' (' + out + ')'
|
|
end
|
|
|
|
end
|
|
|
|
# Field for one long (big endian/network order)
|
|
class LongField<Field
|
|
def init
|
|
@format = 'Q'
|
|
end
|
|
end
|
|
|
|
# Same as LongField, displayed in hexadecimal form
|
|
class XLongField<LongField
|
|
include FieldHumanHex
|
|
end
|
|
|
|
# Field for one long (big endian/network order) with enumeration
|
|
class LongEnumField<EnumField
|
|
def init
|
|
@format = 'n'
|
|
end
|
|
end
|
|
|
|
# Same as LongEnumField, displayed in hexadecimal form
|
|
class XLongEnumField<LongEnumField
|
|
include FieldHumanHexEnum
|
|
end
|
|
|
|
# Field that holds the length of a subsequent field
|
|
class FieldLenField<IntField
|
|
|
|
def initialize(name, default_value, length_of, format, opts={})
|
|
@name = name
|
|
@default_value = default_value
|
|
@format = format
|
|
@length_of = length_of
|
|
@opts = opts
|
|
|
|
# Length of the other field (class/static variable)
|
|
@@length = {}
|
|
|
|
# Saving the size of the associated field
|
|
@@length[@length_of] = @default_value
|
|
end
|
|
|
|
def from_net(value)
|
|
@opts ||= {}
|
|
value[0] = (value[0].to_i + @opts[:adjust].to_i)
|
|
|
|
# Saving the size of the associated field
|
|
@@length[@length_of] = value[0]
|
|
end
|
|
|
|
def to_net(value)
|
|
@opts ||= {}
|
|
# value -= @opts[:adjust].to_i
|
|
|
|
[ value ].pack(@format)
|
|
end
|
|
end
|
|
|
|
# Field holding a string whose size is given by a previous FieldLenField
|
|
# NB : in Scapy, the third field is a lambda-function indicating how to compute the value.
|
|
# This is not implemented in Scruby yet.
|
|
class StrLenField<FieldLenField
|
|
|
|
def initialize(name, default_value, length_from)
|
|
@name = name
|
|
@default_value = default_value
|
|
@length_from = length_from
|
|
@size = @@length[name]
|
|
@format = 'a' + @size.to_s
|
|
end
|
|
|
|
def pre_build
|
|
@size = @@length[@name]
|
|
@format = 'a' + @size.to_s
|
|
end
|
|
|
|
def to_net(value)
|
|
|
|
@size = @@length[@name]
|
|
@format = 'a' + @size.to_s
|
|
|
|
# By default, value is ''
|
|
if value
|
|
return value[0, @size].to_s
|
|
else
|
|
return ''
|
|
end
|
|
end
|
|
|
|
def from_net(value)
|
|
value[0]
|
|
end
|
|
|
|
def to_human(value)
|
|
return value.inspect
|
|
end
|
|
|
|
def to_human_complete(value)
|
|
return value.inspect
|
|
end
|
|
|
|
end
|
|
|
|
# NB for Dot11* fields:
|
|
# These functions have different 'is_applicable?' methods, to build different
|
|
# kinds of packets with the same dissector, depending on its type.
|
|
# http://trac.secdev.org/scapy/ticket/4 (second point)
|
|
# http://sss-mag.com/pdf/802_11tut.pdf
|
|
|
|
# Field for a 802.11 address field
|
|
class Dot11AddrMACField<MACField
|
|
end
|
|
|
|
# Field for a 802.11 address field #2
|
|
class Dot11Addr2MACField<MACField
|
|
def is_applicable?(layer)
|
|
if layer.type == DOT11TYPE_CONTROL
|
|
should = [DOT11SUBTYPE_PS_POLL, DOT11SUBTYPE_RTS, DOT11SUBTYPE_CF_END, DOT11SUBTYPE_CF_END_CF_ACK]
|
|
return should.include?(layer.subtype)
|
|
else
|
|
return true
|
|
end
|
|
end
|
|
end
|
|
|
|
# Field for a 802.11 address field #3
|
|
class Dot11Addr3MACField<MACField
|
|
def is_applicable?(layer)
|
|
return true if layer.type == DOT11TYPE_MANAGEMENT or layer.type == DOT11TYPE_DATA
|
|
return false
|
|
end
|
|
end
|
|
|
|
# Field for a 802.11 address field #4
|
|
class Dot11Addr4MACField<MACField
|
|
def is_applicable?(layer)
|
|
return true if layer.type == DOT11TYPE_DATA and layer.FCfield & 0x3 == 0x3
|
|
return false
|
|
end
|
|
end
|
|
|
|
# Field for a 802.11 SC field
|
|
class Dot11SCField<LEShortField
|
|
def is_applicable?(layer)
|
|
return layer.type != DOT11TYPE_CONTROL
|
|
end
|
|
end
|
|
|
|
# Grep out our field list here
|
|
self.constants.grep(/^([a-zA-Z0-9]+)Field$/).each do |f|
|
|
@@fields[f] = eval(f)
|
|
end
|
|
end
|
|
|
|
|
|
=begin
|
|
|
|
Scruby fields that Scapy is missing:
|
|
====================================
|
|
DoubleEnumField
|
|
DoubleField
|
|
FloatEnumField
|
|
HostOrderFloatEnumField
|
|
HostOrderFloatField
|
|
HostOrderIntEnumField
|
|
HostOrderIntField
|
|
LEDoubleEnumField
|
|
LEDoubleField
|
|
LEFloatEnumField
|
|
LEFloatField
|
|
XByteEnumField
|
|
XHostOrderIntEnumField
|
|
XHostOrderIntField
|
|
XIntEnumField
|
|
XLEIntEnumField
|
|
XLEIntField
|
|
XLEShortEnumField
|
|
XLEShortField
|
|
|
|
Scapy (1.2.0.1) fields that Scruby is missing:
|
|
==============================================
|
|
ARPSourceMACField
|
|
BCDFloatField
|
|
BitFieldLenField
|
|
CharEnumField
|
|
DHCPOptionsField
|
|
DNSQRField
|
|
DNSRRCountField
|
|
DNSRRField
|
|
DNSStrField
|
|
DestMACField
|
|
FieldListField
|
|
IPoptionsField
|
|
ISAKMPTransformSetField
|
|
LEFieldLenField
|
|
LELongField
|
|
LESignedIntField
|
|
LenField
|
|
NetBIOSNameField
|
|
PacketField
|
|
PacketLenField
|
|
PacketListField
|
|
RDLenField
|
|
RDataField
|
|
RandField
|
|
SignedIntEnumField
|
|
SignedIntField
|
|
SourceIPField
|
|
SourceMACField
|
|
StrNullField
|
|
StrStopField
|
|
TCPOptionsField
|
|
TimeStampField
|
|
X3BytesField
|
|
XBitField
|
|
XLongField
|
|
|
|
=end |