metasploit-framework/lib/msf/core/module.rb

283 lines
6.1 KiB
Ruby
Raw Normal View History

require 'msf/core'
module Msf
###
#
# Module
# ------
#
# The module base class is responsible for providing the common interface
# that is used to interact with modules at the most basic levels, such as
# by inspecting a given module's attributes (name, dsecription, version,
# authors, etc) and by managing the module's data store.
#
###
class Module
require 'msf/core/module/author'
require 'msf/core/module/platform_list'
require 'msf/core/module/reference'
require 'msf/core/module/target'
def initialize(info = {})
self.module_info = info
set_defaults
# Transform some of the fields to arrays as necessary
self.author = Author.transform(module_info['Author'])
self.arch = Rex::Transformer.transform(module_info['Arch'], Array,
[ String ], 'Arch')
self.platform = PlatformList.transform(module_info['Platform'])
self.refs = Rex::Transformer.transform(module_info['Ref'], Array,
[ SiteReference, Reference ], 'Ref')
# Create and initialize the option container for this module
self.options = OptionContainer.new
self.options.add_options(info['Options'], self.class)
self.options.add_advanced_options(info['AdvancedOptions'], self.class)
# Create and initialize the data store for this module
self.datastore = DataStore.new
self.datastore.import_options(self.options)
self.privileged = module_info['Privileged'] || false
end
#
# Return the module's name
#
def name
return module_info['Name']
end
#
# Returns the module's alias, if it has one. Otherwise, the module's
# name is returned.
#
def alias
return module_info['Alias'] || name
end
#
# Return the module's description
#
def description
return module_info['Description']
end
#
# Return the module's version information
#
def version
return module_info['Version']
end
#
# Return the module's abstract type
#
def type
raise NotImplementedError
end
#
# Return a comma separated list of author for this module
#
def author_to_s
return author.collect { |author| author.to_s }.join(", ")
end
#
# Enumerate each author
#
def each_author(&block)
author.each(&block)
end
#
# Return a comma separated list of supported architectures, if any
#
def arch_to_s
return arch.join(", ")
end
#
# Enumerate each architecture
#
def each_arch(&block)
arch.each(&block)
end
#
# Return whether or not the module supports the supplied architecture
#
def arch?(what)
return true if (what == ARCH_ANY)
return arch.index(what) != nil
end
#
# Return a comma separated list of supported platforms, if any
#
def platform_to_s
return platform.join(", ")
end
#
# Returns whether or not the module requires or grants high privileges
#
def privileged?
return (privileged == true)
end
attr_reader :author, :arch, :platform, :refs, :datastore, :options
attr_reader :privileged
protected
# Sets the modules unsupplied info fields to their default values
def set_defaults
self.module_info = {
'Name' => 'No module name',
'Description' => 'No module description',
'Version' => '0',
'Author' => nil,
'Arch' => nil,
'Platform' => nil,
'Ref' => nil,
'Privileged' => false,
}.update(self.module_info)
end
#
# Register options with a specific owning class
#
def register_options(options, owner = self.class)
self.options.add_options(options, owner)
end
#
# Register advanced options with a specific owning class
#
def register_advanced_options(options, owner = self.class)
self.options.add_advanced_options(options, owner)
end
#
# Checks to see if a derived instance of a given module implements a method
# beyond the one that is provided by a base class. This is a pretty lame
# way of doing it, but I couldn't find a better one, so meh.
#
def derived_implementor?(parent, method_name)
(self.method(method_name).to_s.match(/#{parent.to_s}[^:]/)) ? false : true
end
#
# Merges options in the info hash in a sane fashion, as some options
# require special attention.
#
def merge_info(info, opts)
opts.each_pair { |name, val|
if (self.respond_to?("merge_info_#{name.downcase}"))
eval("merge_info_#{name.downcase}(info, val)")
else
# If the info hash already has an entry for this name
if (info[name])
# If it's not an array, convert it to an array and merge the
# two
if (info[name].kind_of?(Array) == false)
curr = info[name]
info[name] = [ curr, val ]
# Otherwise, just append this item to the array entry
else
info[name] << val
end
# Otherwise, just set the value equal if no current value
# exists
else
info[name] = val
end
end
}
return info
end
#
# Merge aliases with an underscore delimiter
#
def merge_info_alias(info, val)
merge_info_string(info, 'Alias', val, '_')
end
#
# Merges the module name
#
def merge_info_name(info, val)
merge_info_string(info, 'Name', val)
end
#
# Merges the module description
#
def merge_info_description(info, val)
merge_info_string(info, 'Description', val)
end
#
# Merges a given key in the info hash with a delimiter
#
def merge_info_string(info, key, val, delim = ', ')
if (info[key])
info[key] = val + delim + info[key]
else
info[key] = val
end
end
#
# Merges options
#
def merge_info_options(info, val, advanced = false)
key_name = ((advanced) ? 'Advanced' : '') + 'Options'
new_cont = OptionContainer.new
new_cont.add_options(val, advanced)
cur_cont = OptionContainer.new
cur_cont.add_options(info[key_name] || [], advanced)
new_cont.each_option { |name, option|
next if (cur_cont.get(name))
info[key_name] = [] if (!info[key_name])
info[key_name] << option
}
end
#
# Merges advanced options
#
def merge_info_advancedoptions(info, val)
merge_info_options(info, val, true)
end
attr_accessor :module_info
attr_writer :author, :arch, :platform, :refs, :datastore, :options
attr_writer :privileged
end
#
# Alias the data types so people can reference them just by Msf:: and not
# Msf::Module::
#
Author = Msf::Module::Author
Reference = Msf::Module::Reference
SiteReference = Msf::Module::SiteReference
Platform = Msf::Module::Platform
Target = Msf::Module::Target
end