# -*- coding: binary -*- require 'msf/core' module Msf autoload :OptionContainer, 'msf/core/option_container' ### # # 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, description, version, # authors, etc) and by managing the module's data store. # ### class Module autoload :Arch, 'msf/core/module/arch' autoload :Author, 'msf/core/module/author' autoload :AuxiliaryAction, 'msf/core/module/auxiliary_action' autoload :Compatibility, 'msf/core/module/compatibility' autoload :DataStore, 'msf/core/module/data_store' autoload :Deprecated, 'msf/core/module/deprecated' autoload :Failure, 'msf/core/module/failure' autoload :FullName, 'msf/core/module/full_name' autoload :HasActions, 'msf/core/module/has_actions' autoload :ModuleInfo, 'msf/core/module/module_info' autoload :ModuleStore, 'msf/core/module/module_store' autoload :Network, 'msf/core/module/network' autoload :Options, 'msf/core/module/options' autoload :Platform, 'msf/core/module/platform' autoload :PlatformList, 'msf/core/module/platform_list' autoload :Privileged, 'msf/core/module/privileged' autoload :Ranking, 'msf/core/module/ranking' autoload :Reference, 'msf/core/module/reference' autoload :Search, 'msf/core/module/search' autoload :SiteReference, 'msf/core/module/reference' autoload :Target, 'msf/core/module/target' autoload :Type, 'msf/core/module/type' autoload :UI, 'msf/core/module/ui' autoload :UUID, 'msf/core/module/uuid' include Msf::Module::Arch include Msf::Module::Author include Msf::Module::Compatibility include Msf::Module::DataStore include Msf::Module::FullName include Msf::Module::ModuleInfo include Msf::Module::ModuleStore include Msf::Module::Network include Msf::Module::Options include Msf::Module::Privileged include Msf::Module::Ranking include Msf::Module::Search include Msf::Module::Type include Msf::Module::UI include Msf::Module::UUID # The key where a comma-separated list of Ruby module names will live in the # datastore, consumed by #replicant to allow clean override of MSF module methods. REPLICANT_EXTENSION_DS_KEY = 'ReplicantExtensions' # Make include public so we can runtime extend public_class_method :include class << self include Framework::Offspring # # This attribute holds the non-duplicated copy of the module # implementation. This attribute is used for reloading purposes so that # it can be re-duplicated. # attr_accessor :orig_cls # # The path from which the module was loaded. # attr_accessor :file_path end # # Returns the class reference to the framework # def framework self.class.framework end # # This method allows modules to tell the framework if they are usable # on the system that they are being loaded on in a generic fashion. # By default, all modules are indicated as being usable. An example of # where this is useful is if the module depends on something external to # ruby, such as a binary. # def self.is_usable true end # # Creates an instance of an abstract module using the supplied information # hash. # def initialize(info = {}) @module_info_copy = info.dup self.module_info = info generate_uuid set_defaults # Initialize module compatibility hashes init_compat # Fixup module fields as needed info_fixups # Transform some of the fields to arrays as necessary self.author = Msf::Author.transform(module_info['Author']) self.arch = Rex::Transformer.transform(module_info['Arch'], Array, [ String ], 'Arch') self.platform = PlatformList.transform(module_info['Platform']) self.references = Rex::Transformer.transform(module_info['References'], Array, [ SiteReference, Reference ], 'Ref') # Create and initialize the option container for this module self.options = Msf::OptionContainer.new self.options.add_options(info['Options'], self.class) self.options.add_advanced_options(info['AdvancedOptions'], self.class) self.options.add_evasion_options(info['EvasionOptions'], self.class) # Create and initialize the data store for this module self.datastore = ModuleDataStore.new(self) # Import default options into the datastore import_defaults self.privileged = module_info['Privileged'] || false self.license = module_info['License'] || MSF_LICENSE # Allow all modules to track their current workspace register_advanced_options( [ OptString.new('WORKSPACE', [ false, "Specify the workspace for this module" ]), OptBool.new('VERBOSE', [ false, 'Enable detailed status messages', false ]) ], Msf::Module) end # # Creates a fresh copy of an instantiated module # def replicant obj = self.class.new self.instance_variables.each { |k| v = instance_variable_get(k) v = v.dup rescue v obj.instance_variable_set(k, v) } obj.datastore = self.datastore.copy obj.user_input = self.user_input obj.user_output = self.user_output obj.module_store = self.module_store.clone obj.perform_extensions obj end # Extends self with the constant list in the datastore # @return [void] def perform_extensions if datastore[REPLICANT_EXTENSION_DS_KEY].present? if datastore[REPLICANT_EXTENSION_DS_KEY].respond_to?(:each) datastore[REPLICANT_EXTENSION_DS_KEY].each do |const| self.extend(const) end else fail "Invalid settings in datastore at key #{REPLICANT_EXTENSION_DS_KEY}" end end end # @param[Constant] One or more Ruby constants # @return [void] def register_extensions(*rb_modules) datastore[REPLICANT_EXTENSION_DS_KEY] = [] unless datastore[REPLICANT_EXTENSION_DS_KEY].present? rb_modules.each do |rb_mod| datastore[REPLICANT_EXTENSION_DS_KEY] << rb_mod unless datastore[REPLICANT_EXTENSION_DS_KEY].include? rb_mod end end # # Returns the unduplicated class associated with this module. # def orig_cls self.class.orig_cls end # # The path to the file in which the module can be loaded from. # def file_path self.class.file_path end # # Checks to see if the target is vulnerable, returning unsupported if it's # not supported. # # This method is designed to be overriden by exploit modules. # def check Msf::Exploit::CheckCode::Unsupported end # # Returns the current workspace # def workspace self.datastore['WORKSPACE'] || (framework.db and framework.db.active and framework.db.workspace and framework.db.workspace.name) end # # Returns the username that instantiated this module, this tries a handful of methods # to determine what actual user ran this module. # def owner # Generic method to configure a module owner username = self.datastore['MODULE_OWNER'].to_s.strip # Specific method used by the commercial products if username.empty? username = self.datastore['PROUSER'].to_s.strip end # Fallback when neither prior method is available, common for msfconsole if username.empty? username = (ENV['LOGNAME'] || ENV['USERNAME'] || ENV['USER'] || "unknown").to_s.strip end username end # # Scans the parent module reference to populate additional information. This # is used to inherit common settings (owner, workspace, parent uuid, etc). # def register_parent(ref) self.datastore['WORKSPACE'] = (ref.datastore['WORKSPACE'] ? ref.datastore['WORKSPACE'].dup : nil) self.datastore['PROUSER'] = (ref.datastore['PROUSER'] ? ref.datastore['PROUSER'].dup : nil) self.datastore['MODULE_OWNER'] = ref.owner.dup self.datastore['ParentUUID'] = ref.uuid.dup end # # Return a comma separated list of supported platforms, if any. # def platform_to_s platform.all? ? "All" : platform.names.join(", ") end # # Checks to see if this module is compatible with the supplied platform # def platform?(what) (platform & what).empty? == false end # # Returns true if this module is being debugged. # def debugging? datastore['DEBUG'] end # # Raises a RuntimeError failure message. This is meant to be used for all non-exploits, # and allows specific classes to override. # # @param reason [String] A reason about the failure. # @param msg [String] (Optional) A message about the failure. # @raise [RuntimeError] # @return [void] # @note If you are writing an exploit, you don't use this API. Instead, please refer to the # API documentation from lib/msf/core/exploit.rb. # @see Msf::Exploit#fail_with # @example # fail_with('No Access', 'Unable to login') # def fail_with(reason, msg=nil) raise RuntimeError, "#{reason.to_s}: #{msg}" end ## # # Just some handy quick checks # ## # # Returns false since this is the real module # def self.cached? false end # # The array of zero or more platforms. # attr_reader :platform # # The reference count for the module. # attr_reader :references # # The license under which this module is provided. # attr_reader :license # # The job identifier that this module is running as, if any. # attr_accessor :job_id # # The last exception to occur using this module # attr_accessor :error # An opaque bag of data to attach to a module. This is useful for attaching # some piece of identifying info on to a module before calling # {Msf::Simple::Exploit#exploit_simple} or # {Msf::Simple::Auxiliary#run_simple} for correlating where modules came # from. # attr_accessor :user_data 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, # No architectures by default. 'Platform' => [], # No platforms by default. 'Ref' => nil, 'Privileged' => false, 'License' => MSF_LICENSE, }.update(self.module_info) self.module_store = {} 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}[^:]/)) ? false : true end attr_writer :platform, :references # :nodoc: attr_writer :privileged # :nodoc: attr_writer :license # :nodoc: end end