511 lines
16 KiB
Ruby
511 lines
16 KiB
Ruby
# -*- coding: binary -*-
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require 'msf/core'
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module Msf
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###
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#
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# This class wrappers an encoded payload buffer and the means used to create
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# one.
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#
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###
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class EncodedPayload
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include Framework::Offspring
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#
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# This method creates an encoded payload instance and returns it to the
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# caller.
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#
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def self.create(pinst, reqs = {})
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# Create the encoded payload instance
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p = EncodedPayload.new(pinst.framework, pinst, reqs)
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p.generate(reqs['Raw'])
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return p
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end
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#
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# Creates an instance of an EncodedPayload.
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#
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def initialize(framework, pinst, reqs)
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self.framework = framework
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self.pinst = pinst
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self.reqs = reqs
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self.space = reqs['Space']
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end
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#
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# This method generates the full encoded payload and returns the encoded
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# payload buffer.
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#
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# @return [String] The encoded payload.
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def generate(raw = nil)
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self.raw = raw
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self.encoded = nil
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self.nop_sled_size = 0
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self.nop_sled = nil
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self.encoder = nil
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self.nop = nil
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# Increase thread priority as necessary. This is done
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# to ensure that the encoding and sled generation get
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# enough time slices from the ruby thread scheduler.
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priority = Thread.current.priority
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if (priority == 0)
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Thread.current.priority = 1
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end
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begin
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# First, validate
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pinst.validate()
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# Tell the payload how much space is available
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pinst.available_space = self.space
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# Generate the raw version of the payload first
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generate_raw() if self.raw.nil?
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# If encoder is set, it could be an encoders list
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# The form is "<encoder>:<iteration>, <encoder2>:<iteration>"...
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if reqs['Encoder']
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encoder_str = reqs['Encoder']
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encoder_str.scan(/([^:, ]+):?([^,]+)?/).map do |encoder_opt|
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reqs['Encoder'] = encoder_opt[0]
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self.iterations = (encoder_opt[1] || reqs['Iterations']).to_i
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self.iterations = 1 if self.iterations < 1
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# Encode the payload with every encoders in the list
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encode()
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# Encoded payload is now the raw payload to be encoded by the next encoder
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self.raw = self.encoded
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end
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else
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self.iterations = reqs['Iterations'].to_i
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self.iterations = 1 if self.iterations < 1
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# No specified encoder, let BadChars or ForceEncode do their job
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encode()
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end
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# Build the NOP sled
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generate_sled()
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# Finally, set the complete payload definition
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self.encoded = (self.nop_sled || '') + self.encoded
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ensure
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# Restore the thread priority
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Thread.current.priority = priority
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end
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# Return the complete payload
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return encoded
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end
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#
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# Generates the raw payload from the payload instance. This populates the
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# {#raw} attribute.
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#
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# @return [String] The raw, unencoded payload.
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def generate_raw
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self.raw = (reqs['Prepend'] || '') + pinst.generate_complete + (reqs['Append'] || '')
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# If an encapsulation routine was supplied, then we should call it so
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# that we can get the real raw payload.
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if reqs['EncapsulationRoutine']
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self.raw = reqs['EncapsulationRoutine'].call(reqs, raw)
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end
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end
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#
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# Scans for a compatible encoder using ranked precedence and populates the
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# encoded attribute.
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#
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def encode
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# If the exploit has bad characters, we need to run the list of encoders
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# in ranked precedence and try to encode without them.
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if reqs['BadChars'].to_s.length > 0 or reqs['Encoder'] or reqs['ForceEncode']
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encoders = pinst.compatible_encoders
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# Make sure the encoder name from the user has the same String#encoding
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# as the framework's list of encoder names so we can compare them later.
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# This is important for when we get input from RPC.
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if reqs['Encoder']
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reqs['Encoder'] = reqs['Encoder'].encode(framework.encoders.keys[0].encoding)
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end
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# If the caller had a preferred encoder, use this encoder only
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if ((reqs['Encoder']) and (preferred = framework.encoders[reqs['Encoder']]))
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encoders = [ [reqs['Encoder'], preferred] ]
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elsif (reqs['Encoder'])
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wlog("#{pinst.refname}: Failed to find preferred encoder #{reqs['Encoder']}")
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raise NoEncodersSucceededError, "Failed to find preferred encoder #{reqs['Encoder']}"
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end
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encoders.each { |encname, encmod|
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self.encoder = encmod.new
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self.encoded = nil
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# If the encoding is requested by an exploit check compatibility
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# options first of all. For the 'generic/none' encoder compatibility
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# options don't apply.
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if (reqs['Exploit'] &&
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!reqs['Exploit'].compatible?(self.encoder) &&
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encname !~ /generic\/none/)
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wlog("#{pinst.refname}: Encoder #{encoder.refname} doesn't match the exploit Compat options",
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'core', LEV_1)
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next
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end
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# If there is an encoder type restriction, check to see if this
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# encoder matches with what we're searching for.
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if ((reqs['EncoderType']) and
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(self.encoder.encoder_type.split(/\s+/).include?(reqs['EncoderType']) == false))
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wlog("#{pinst.refname}: Encoder #{encoder.refname} is not a compatible encoder type: #{reqs['EncoderType']} != #{self.encoder.encoder_type}",
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'core', LEV_1)
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next
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end
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# If the exploit did not explicitly request a kind of encoder and
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# the current encoder has a manual ranking, then it should not be
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# considered as a valid encoder. A manual ranking tells the
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# framework that an encoder must be explicitly defined as the
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# encoder of choice for an exploit.
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if ((reqs['EncoderType'].nil?) and
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(reqs['Encoder'].nil?) and
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(self.encoder.rank == ManualRanking))
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wlog("#{pinst.refname}: Encoder #{encoder.refname} is manual ranked and was not defined as a preferred encoder.",
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'core', LEV_1)
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next
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end
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# If the caller explicitly requires register preservation, make sure
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# that the module in question can handle it. This is mostly used by
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# the stage encoder path.
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if (reqs['ForceSaveRegisters'] and
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reqs['EncoderOptions'] and
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(reqs['EncoderOptions']['SaveRegisters'].to_s.length > 0) and
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(! self.encoder.can_preserve_registers?))
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wlog("#{pinst.refname}: Encoder #{encoder.refname} does not preserve registers and the caller needs #{reqs['EncoderOptions']['SaveRegisters']} preserved.",
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'core', LEV_1)
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next
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end
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# Import the datastore from payload (and likely exploit by proxy)
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self.encoder.share_datastore(pinst.datastore)
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# If we have any encoder options, import them into the datastore
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# of the encoder.
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if (reqs['EncoderOptions'])
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self.encoder.datastore.import_options_from_hash(reqs['EncoderOptions'])
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end
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# Validate the encoder to make sure it's properly initialized.
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begin
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self.encoder.validate
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rescue ::Exception
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wlog("#{pinst.refname}: Failed to validate encoder #{encoder.refname}: #{$!}",
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'core', LEV_1)
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next
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end
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# Tell the encoder how much space is available
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self.encoder.available_space = self.space
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eout = self.raw.dup
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next_encoder = false
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# Try encoding with the current encoder
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#
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# NOTE: Using more than one iteration may cause successive iterations to switch
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# to using a different encoder.
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#
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1.upto(self.iterations) do |iter|
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err_start = "#{pinst.refname}: iteration #{iter}"
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begin
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eout = self.encoder.encode(eout, reqs['BadChars'], nil, pinst.platform)
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rescue EncodingError
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wlog("#{err_start}: Encoder #{encoder.refname} failed: #{$!}", 'core', LEV_1)
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dlog("#{err_start}: Call stack\n#{$@.join("\n")}", 'core', LEV_3)
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next_encoder = true
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break
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rescue ::Exception
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elog("#{err_start}: Broken encoder #{encoder.refname}: #{$!}", 'core', LEV_0)
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dlog("#{err_start}: Call stack\n#{$@.join("\n")}", 'core', LEV_1)
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next_encoder = true
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break
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end
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# Get the minimum number of nops to use
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min = (reqs['MinNops'] || 0).to_i
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min = 0 if reqs['DisableNops']
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# Check to see if we have enough room for the minimum requirements
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if ((reqs['Space']) and (reqs['Space'] < eout.length + min))
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wlog("#{err_start}: Encoded payload version is too large (#{eout.length} bytes) with encoder #{encoder.refname}",
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'core', LEV_1)
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next_encoder = true
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break
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end
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ilog("#{err_start}: Successfully encoded with encoder #{encoder.refname} (size is #{eout.length})",
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'core', LEV_0)
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end
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next if next_encoder
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self.encoded = eout
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break
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}
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# If the encoded payload is nil, raise an exception saying that we
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# suck at life.
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if (self.encoded == nil)
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self.encoder = nil
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raise NoEncodersSucceededError,
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"#{pinst.refname}: All encoders failed to encode.",
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caller
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end
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# If there are no bad characters, then the raw is the same as the
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# encoded
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else
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self.encoded = raw
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end
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# Prefix the prepend encoder value
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self.encoded = (reqs['PrependEncoder'] || '') + self.encoded
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self.encoded << (reqs['AppendEncoder'] || '')
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end
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#
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# Construct a NOP sled if necessary
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#
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def generate_sled
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min = reqs['MinNops'] || 0
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space = reqs['Space']
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self.nop_sled_size = min
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# Calculate the number of NOPs to pad out the buffer with based on the
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# requirements. If there was a space requirement, check to see if
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# there's any room at all left for a sled.
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if ((space) and
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(space > encoded.length))
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self.nop_sled_size = reqs['Space'] - self.encoded.length
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end
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# If the maximum number of NOPs has been exceeded, wrap it back down.
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if ((reqs['MaxNops']) and
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(reqs['MaxNops'] < self.nop_sled_size))
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self.nop_sled_size = reqs['MaxNops']
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end
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# Check for the DisableNops setting
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self.nop_sled_size = 0 if reqs['DisableNops']
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# Now construct the actual sled
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if (self.nop_sled_size > 0)
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nops = pinst.compatible_nops
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# If the caller had a preferred nop, try to find it and prefix it
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if ((reqs['Nop']) and
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(preferred = framework.nops[reqs['Nop']]))
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nops.unshift([reqs['Nop'], preferred ])
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elsif (reqs['Nop'])
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wlog("#{pinst.refname}: Failed to find preferred nop #{reqs['Nop']}")
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end
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nops.each { |nopname, nopmod|
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# Create an instance of the nop module
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self.nop = nopmod.new
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# Propagate options from the payload and possibly exploit
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self.nop.share_datastore(pinst.datastore)
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# The list of save registers
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save_regs = (reqs['SaveRegisters'] || []) + (pinst.save_registers || [])
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if (save_regs.empty? == true)
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save_regs = nil
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end
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begin
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nop.copy_ui(pinst)
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self.nop_sled = nop.generate_sled(self.nop_sled_size,
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'BadChars' => reqs['BadChars'],
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'SaveRegisters' => save_regs)
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rescue
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dlog("#{pinst.refname}: Nop generator #{nop.refname} failed to generate sled for payload: #{$!}",
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'core', LEV_1)
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self.nop = nil
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end
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break
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}
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if (self.nop_sled == nil)
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raise NoNopsSucceededError,
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"#{pinst.refname}: All NOP generators failed to construct sled for.",
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caller
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end
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else
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self.nop_sled = ''
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end
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return self.nop_sled
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end
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#
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# Convert the payload to an executable appropriate for its arch and
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# platform.
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#
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# +opts+ are passed directly to +Msf::Util::EXE.to_executable+
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#
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# see +Msf::Exploit::EXE+
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#
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def encoded_exe(opts={})
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# Ensure arch and platform are in the format that to_executable expects
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if opts[:arch] and not opts[:arch].kind_of? Array
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opts[:arch] = [ opts[:arch] ]
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end
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if (opts[:platform].kind_of? Msf::Module::PlatformList)
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opts[:platform] = opts[:platform].platforms
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end
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emod = pinst.assoc_exploit if pinst.respond_to? :assoc_exploit
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if emod
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if (emod.datastore["EXE::Custom"] and emod.respond_to? :get_custom_exe)
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return emod.get_custom_exe
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end
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# This is a little ghetto, grabbing datastore options from the
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# associated exploit, but it doesn't really make sense for the
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# payload to have exe options if the exploit doesn't need an exe.
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# Msf::Util::EXE chooses reasonable defaults if these aren't given,
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# so it's not that big of an issue.
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opts.merge!({
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:template_path => emod.datastore['EXE::Path'],
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:template => emod.datastore['EXE::Template'],
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:inject => emod.datastore['EXE::Inject'],
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:fallback => emod.datastore['EXE::FallBack'],
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:sub_method => emod.datastore['EXE::OldMethod']
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})
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# Prefer the target's platform/architecture information, but use
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# the exploit module's if no target specific information exists.
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opts[:platform] ||= emod.target_platform if emod.respond_to? :target_platform
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opts[:platform] ||= emod.platform if emod.respond_to? :platform
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opts[:arch] ||= emod.target_arch if emod.respond_to? :target_arch
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opts[:arch] ||= emod.arch if emod.respond_to? :arch
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end
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# Lastly, try the payload's. This always happens if we don't have an
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# associated exploit module.
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opts[:platform] ||= pinst.platform if pinst.respond_to? :platform
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opts[:arch] ||= pinst.arch if pinst.respond_to? :arch
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Msf::Util::EXE.to_executable(framework, opts[:arch], opts[:platform], encoded, opts)
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end
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#
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# Generate a jar file containing the encoded payload.
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#
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# Uses the payload's +generate_jar+ method if it is implemented (Java
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# payloads should all have it). Otherwise, converts the payload to an
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# executable and uses Msf::Util::EXE.to_jar to create a jar file that dumps
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# the exe out to a random file name in the system's temporary directory and
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# executes it.
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#
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def encoded_jar(opts={})
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return pinst.generate_jar(opts) if pinst.respond_to? :generate_jar
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opts[:spawn] ||= pinst.datastore["Spawn"]
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Msf::Util::EXE.to_jar(encoded_exe(opts), opts)
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end
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#
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# Similar to +encoded_jar+ but builds a web archive for use in servlet
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# containers such as Tomcat.
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#
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def encoded_war(opts={})
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return pinst.generate_war(opts) if pinst.respond_to? :generate_war
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Msf::Util::EXE.to_jsp_war(encoded_exe(opts), opts)
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end
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#
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# An array containing the architecture(s) that this payload was made to run on
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#
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def arch
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if pinst
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pinst.arch
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end
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end
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#
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# The raw version of the payload
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#
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attr_reader :raw
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#
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# The encoded version of the raw payload plus the NOP sled
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# if one was generated.
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#
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attr_reader :encoded
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#
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# The size of the NOP sled
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#
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attr_reader :nop_sled_size
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#
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# The NOP sled itself
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#
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attr_reader :nop_sled
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#
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# The encoder that was used
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#
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attr_reader :encoder
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#
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# The NOP generator that was used
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#
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attr_reader :nop
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#
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# The number of encoding iterations used
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#
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attr_reader :iterations
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#
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# The maximum number of bytes acceptable for the encoded payload
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#
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attr_reader :space
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protected
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attr_writer :raw # :nodoc:
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attr_writer :encoded # :nodoc:
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attr_writer :nop_sled_size # :nodoc:
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attr_writer :nop_sled # :nodoc:
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attr_writer :payload # :nodoc:
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attr_writer :encoder # :nodoc:
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attr_writer :nop # :nodoc:
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attr_writer :iterations # :nodoc:
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attr_writer :space # :nodoc
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#
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# The payload instance used to generate the payload
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#
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attr_accessor :pinst
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#
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# The requirements used for generation
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#
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attr_accessor :reqs
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end
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end
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