406 lines
10 KiB
Ruby
406 lines
10 KiB
Ruby
require 'msf/core'
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require 'msf/core/module_manager'
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module Msf
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###
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#
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# This class is a special case of the generic module set class because
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# payloads are generated in terms of combinations between various
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# components, such as a stager and a stage. As such, the payload set
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# needs to be built on the fly and cannot be simply matched one-to-one
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# with a payload module. Yeah, the term module is kind of overloaded
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# here, but eat it!
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#
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###
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class PayloadSet < ModuleSet
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#
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# Creates an instance of a payload set which is just a specialized module
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# set class that has custom handling for payloads.
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#
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def initialize(manager)
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super(MODULE_PAYLOAD)
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# A reference to the ModuleManager instance
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self.manager = manager
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# A hash of each of the payload types that holds an array
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# for all of the associated modules
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self.payload_type_modules = {}
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# Initialize the hash entry for each type to an empty list
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[
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Payload::Type::Single,
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Payload::Type::Stager,
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Payload::Type::Stage
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].each { |type|
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self.payload_type_modules[type] = {}
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}
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# Initialize hashes for each of the stages and singles. Stagers
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# never exist independent. The stages hash will have entries that
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# point to another hash that point to the per-stager implementation
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# payload class. For instance:
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#
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# ['windows/shell']['reverse_tcp']
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#
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# Singles will simply point to the single payload class.
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self.stages = {}
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self.singles = {}
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# Hash that caches the sizes of payloads
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self.sizes = {}
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# Single instance cache of modules for use with doing quick referencing
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# of attributes that would require an instance.
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self._instances = {}
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# Initializes an empty blob cache
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@blob_cache = {}
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end
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#
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# Performs custom filtering during each_module enumeration. This allows us
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# to filter out certain stagers as necessary.
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#
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def each_module_filter(opts, name, mod)
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return false
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end
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#
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# This method builds the hash of alias names based on all the permutations
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# of singles, stagers, and stages.
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#
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def recalculate
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# Reset the current hash associations for all non-symbolic modules
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self.each_pair { |key, v|
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manager.delete(key) if (v != SymbolicModule)
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}
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self.delete_if { |k, v|
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v != SymbolicModule
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}
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# Recalculate single payloads
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_singles.each_pair { |name, op|
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mod, handler = op
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# Build the payload dupe using the determined handler
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# and module
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p = build_payload(handler, mod)
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# Sets the modules derived name
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p.refname = name
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# Add it to the set
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add_single(p, name, op[5])
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# Cache the payload's size
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begin
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sizes[name] = p.new.size
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# Don't cache generic payload sizes.
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rescue NoCompatiblePayloadError
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end
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}
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# Recalculate stagers and stages
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_stagers.each_pair { |stager_name, op|
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stager_mod, handler, stager_platform, stager_arch, stager_inst = op
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# Walk the array of stages
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_stages.each_pair { |stage_name, ip|
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stage_mod, junk, stage_platform, stage_arch, stage_inst = ip
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# No intersection between platforms on the payloads?
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if ((stager_platform) and
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(stage_platform) and
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(stager_platform & stage_platform).empty?)
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dlog("Stager #{stager_name} and stage #{stage_name} have incompatible platforms: #{stager_platform.names} - #{stage_platform.names}", 'core', LEV_2)
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next
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end
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# No intersection between architectures on the payloads?
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if ((stager_arch) and
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(stage_arch) and
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((stager_arch & stage_arch).empty?))
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dlog("Stager #{stager_name} and stage #{stage_name} have incompatible architectures: #{stager_arch.join} - #{stage_arch.join}", 'core', LEV_2)
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next
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end
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# If the stage has a convention, make sure it's compatible with
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# the stager's
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if ((stage_inst) and (stage_inst.compatible?(stager_inst) == false))
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dlog("Stager #{stager_name} and stage #{stage_name} are incompatible.", 'core', LEV_2)
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next
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end
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# Build the payload dupe using the handler, stager,
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# and stage
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p = build_payload(handler, stager_mod, stage_mod)
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# If the stager has an alias for the handler type (such as is the
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# case for ordinal based stagers), use it in preference of the
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# handler's actual type.
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if (stager_mod.respond_to?('handler_type_alias') == true)
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handler_type = stager_mod.handler_type_alias
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else
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handler_type = handler.handler_type
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end
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# Associate the name as a combination of the stager and stage
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combined = stage_name
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# If a valid handler exists for this stager, then combine it
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combined += '/' + handler_type
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# Sets the modules derived name
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p.refname = combined
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# Add the stage
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add_stage(p, combined, stage_name, handler_type, {
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'files' => op[5]['files'] + ip[5]['files'],
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'paths' => op[5]['paths'] + ip[5]['paths'],
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'type' => op[5]['type']})
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# Cache the payload's size
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sizes[combined] = p.new.size
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}
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}
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flush_blob_cache
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end
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#
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# This method is called when a new payload module class is loaded up. For
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# the payload set we simply create an instance of the class and do some
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# magic to figure out if it's a single, stager, or stage. Depending on
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# which it is, we add it to the appropriate list.
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#
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def add_module(pmodule, name, modinfo = nil)
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if (md = name.match(/^(singles|stagers|stages)#{File::SEPARATOR}(.*)$/))
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name = md[2]
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end
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# Duplicate the Payload base class and extend it with the module
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# class that is passed in. This allows us to inspect the actual
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# module to see what type it is, and to grab other information for
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# our own evil purposes.
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instance = build_payload(pmodule).new
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# Create an array of information about this payload module
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pinfo =
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[
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pmodule,
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instance.handler_klass,
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instance.platform,
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instance.arch,
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instance,
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modinfo
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]
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# Use the module's preferred alias if it has one
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name = instance.alias if (instance.alias)
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# Store the module and alias name for this payload. We
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# also convey other information about the module, such as
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# the platforms and architectures it supports
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payload_type_modules[instance.payload_type][name] = pinfo
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# If the payload happens to be a single, but has no defined
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# connection, then it can also be staged. Insert it into
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# the staged list.
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if ((instance.payload_type == Payload::Type::Single) and
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((instance.handler_klass == Msf::Handler::None) or
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(instance.handler_klass == nil)))
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payload_type_modules[Payload::Type::Stage][name] = pinfo
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end
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end
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#
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# Looks for a payload that matches the specified requirements and
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# returns an instance of that payload.
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#
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def find_payload(platform, arch, handler, session, payload_type)
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# Pre-filter based on platform and architecture.
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each_module(
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'Platform' => platform,
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'Arch' => arch) { |name, mod|
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p = mod.new
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# We can't substitute one generic with another one.
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next if (p.kind_of?(Msf::Payload::Generic))
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# Check to see if the handler classes match.
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next if (handler and p.handler_klass != handler)
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# Check to see if the session classes match.
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next if (session and p.session != session)
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# Check for matching payload types
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next if (payload_type and p.payload_type != payload_type)
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return p
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}
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return nil
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end
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#
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# This method adds a single payload to the set and adds it to the singles
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# hash.
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#
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def add_single(p, name, modinfo)
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p.framework = framework
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# Associate this class with the single payload's name
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self[name] = p
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# Add the singles hash
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singles[name] = p
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# Add it to the global module set
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manager.add_module(p, name, modinfo)
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dlog("Built single payload #{name}.", 'core', LEV_2)
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end
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#
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# This method adds a stage payload to the set and adds it to the stages
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# hash using the supplied handler type.
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#
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def add_stage(p, full_name, stage_name, handler_type, modinfo)
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p.framework = framework
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# Associate this stage's full name with the payload class in the set
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self[full_name] = p
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# Add the full name association in the global module set
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manager.add_module(p, full_name, modinfo)
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# Create the hash entry for this stage and then create
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# the associated entry for the handler type
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stages[stage_name] = {} if (!stages[stage_name])
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# Add it to this stage's stager hash
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stages[stage_name][handler_type] = p
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dlog("Built staged payload #{full_name}.", 'core', LEV_2)
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end
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#
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# Returns a single read-only instance of the supplied payload name such
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# that specific attributes, like compatibility, can be evaluated. The
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# payload instance returned should NOT be used for anything other than
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# reading.
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#
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def instance(name)
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if (self._instances[name] == nil)
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self._instances[name] = create(name)
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end
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self._instances[name]
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end
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#
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# Returns the hash of payload stagers that have been loaded.
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#
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def stagers
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_stagers
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end
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#
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# When a payload module is reloaded, the blob cache entry associated with
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# it must be removed (if one exists)
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#
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def on_module_reload(mod)
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@blob_cache.delete(mod.refname + "-stg0")
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@blob_cache.delete(mod.refname + "-stg1")
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end
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#
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# Adds a blob to the blob cache so that the payload does not have to be
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# recompiled in the future
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#
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def add_blob_cache(key, blob, offsets)
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@blob_cache[key] = [ blob, offsets ]
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end
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#
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# Checks to see if a payload has a blob cache entry. If it does, the blob
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# is returned to the caller.
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#
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def check_blob_cache(key)
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@blob_cache[key]
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end
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#
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# Flushes all entries from the blob cache
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#
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def flush_blob_cache
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@blob_cache.clear
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end
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#
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# The list of stages that have been loaded.
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#
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attr_reader :stages
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#
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# The list of singles that have been loaded.
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#
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attr_reader :singles
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#
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# The sizes of all the built payloads thus far.
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#
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attr_reader :sizes
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protected
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#
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# Return the hash of single payloads
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#
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def _singles
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return payload_type_modules[Payload::Type::Single] || {}
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end
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#
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# Return the hash of stager payloads
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#
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def _stagers
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return payload_type_modules[Payload::Type::Stager] || {}
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end
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#
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# Return the hash of stage payloads
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#
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def _stages
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return payload_type_modules[Payload::Type::Stage] || {}
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end
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#
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# Builds a duplicate, extended version of the Payload base
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# class using the supplied modules.
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#
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def build_payload(*modules)
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klass = Class.new(Payload)
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# Remove nil modules
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modules.compact!
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# Include the modules supplied to us with the mad skillz
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# spoonfu style
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klass.include(*modules.reverse)
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return klass
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end
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attr_accessor :manager, :payload_type_modules # :nodoc:
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attr_writer :stages, :singles, :sizes # :nodoc:
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attr_accessor :_instances # :nodoc:
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end
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end
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