require 'msf/core' module Msf ### # # 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 # Modules can subscribe to a user-interface, and as such they include the # UI subscriber module. This provides methods like print, print_line, etc. # User interfaces are designed to be medium independent, and as such the # user interface subscribes are designed to provide a flexible way of # interacting with the user, n stuff. include Rex::Ui::Subscriber # Make include public so we can runtime extend public_class_method :include class << self include Framework::Offspring # # Class method to figure out what type of module this is # def type raise NotImplementedError end def fullname return type + '/' + refname end def shortname return refname.split('/')[-1] end # # Returns this module's ranking. # def rank (const_defined?('Rank')) ? const_get('Rank') : NormalRanking end # # Returns this module's ranking as a string representation. # def rank_to_s RankingName[rank] end # # Returns this module's ranking as a string for display. # def rank_to_h rank_to_s.gsub('Rank', '').downcase end # # The module's name that is assigned it it by the framework # or derived from the path that the module is loaded from. # attr_accessor :refname # # 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 return 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 require 'msf/core/module/author' require 'msf/core/module/platform_list' require 'msf/core/module/reference' require 'msf/core/module/target' require 'msf/core/module/auxiliary_action' # # Creates an instance of an abstract module using the supplied information # hash. # def initialize(info = {}) self.module_info = info 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 = 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 = 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 end # # Creates a fresh copy of an instantiated module # def replicant obj = self.class.new obj.datastore = self.datastore.dup obj.user_input = self.user_input obj.user_output = self.user_output obj end # # Overwrite the Subscriber print_line to do time stamps # def print_prefix if( datastore['TimestampOutput'] =~ /^(t|y|1)/i or framework.datastore['TimestampOutput'] =~ /^(t|y|1)/i ) return "[#{Time.now.strftime("%Y.%m.%d-%H:%M:%S")}] " end "" end def print_status(msg='') super(print_prefix + msg) end def print_error(msg='') super(print_prefix + msg) end # # Returns the module's framework full reference name. This is the # short name that end-users work with (refname) plus the type # of module prepended. Ex: # # payloads/windows/shell/reverse_tcp # def fullname return self.class.fullname end # # Returns the module's framework reference name. This is the # short name that end-users work with. Ex: # # windows/shell/reverse_tcp # def refname return self.class.refname end # # Returns the module's rank. # def rank return self.class.rank end # # Returns the module's rank in string format. # def rank_to_s return self.class.rank_to_s end # # Returns the module's rank in display format. # def rank_to_h return self.class.rank_to_h end # # Returns the module's framework short name. This is a # possibly conflicting name used for things like console # prompts. # # reverse_tcp # def shortname return self.class.shortname end # # Returns the unduplicated class associated with this module. # def orig_cls return 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 # # Return the module's name from the module information hash. # def name module_info['Name'] end # # Returns the module's alias, if it has one. Otherwise, the module's # name is returned. # def alias module_info['Alias'] end # # Return the module's description. # def description module_info['Description'] end # # Return the module's version information. # def version module_info['Version'].split(/,/).map { |ver| ver.gsub(/\$Rev.s.on:\s+|\s+\$$/, '') }.join(',') end # # Returns the hash that describes this module's compatibilities. # def compat module_info['Compat'] || {} end # # Returns whether or not this module is compatible with the supplied # module. # def compatible?(mod) ch = nil # Invalid module? Shoot, we can't compare that. return true if (mod == nil) # Determine which hash to used based on the supplied module type if (mod.type == MODULE_ENCODER) ch = self.compat['Encoder'] elsif (mod.type == MODULE_NOP) ch = self.compat['Nop'] elsif (mod.type == MODULE_PAYLOAD) ch = self.compat['Payload'] else return true end # Enumerate each compatibility item in our hash to find out # if we're compatible with this sucker. ch.each_pair do |k,v| # Get the value of the current key from the module, such as # the ConnectionType for a stager (ws2ord, for instance). mval = mod.module_info[k] # Reject a filled compat item on one side, but not the other return false if (v and not mval) # Track how many of our values matched the module mcnt = 0 # Values are whitespace separated sv = v.split(/\s+/) mv = mval.split(/\s+/) sv.each do |x| dlog("Checking compat [#{mod.refname} with #{self.refname}]: #{x} to #{mv.join(", ")}", 'core', LEV_3) # Verify that any negate values are not matched if (x[0,1] == '-' and mv.include?(x[1, x.length-1])) dlog("Module #{mod.refname} is incompatible with #{self.refname} for #{k}: limiter was #{x}, value was #{mval}", 'core', LEV_1) return false end mcnt += 1 if mv.include?(x) end # No values matched, reject this module if (mcnt == 0) dlog("Module #{mod.refname} is incompatible with #{self.refname} for #{k}: limiter was #{v}, value was #{mval}", 'core', LEV_1) return false end end # If we get here, we're compatible. return true 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.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 whether or not the module requires or grants high privileges. # def privileged? return (privileged == true) end # # The default communication subsystem for this module. We may need to move # this somewhere else. # def comm return Rex::Socket::Comm::Local end # # Overrides the class' own datastore with the one supplied. This is used # to allow modules to share datastores, such as a payload sharing an # exploit module's datastore. # def share_datastore(ds) self.datastore = ds self.datastore.import_options(self.options) end # # Imports default options into the module's datastore, optionally clearing # all of the values currently set in the datastore. # def import_defaults(clear_datastore = true) # Clear the datastore if the caller asked us to self.datastore.clear if clear_datastore self.datastore.import_options(self.options, 'self', true) # If there are default options, import their values into the datastore if (module_info['DefaultOptions']) self.datastore.import_options_from_hash(module_info['DefaultOptions'], true, 'self') end end # # This method ensures that the options associated with this module all # have valid values according to each required option in the option # container. # def validate self.options.validate(self.datastore) end # # Returns true if this module is being debugged. The debug flag is set # by setting datastore['DEBUG'] to 1|true|yes # def debugging? (datastore['DEBUG'] || '') =~ /^(1|t|y)/i end ## # # Just some handy quick checks # ## # # Returns true if this module is an exploit module. # def exploit? return (type == MODULE_EXPLOIT) end # # Returns true if this module is a payload module. # def payload? return (type == MODULE_PAYLOAD) end # # Returns true if this module is an encoder module. # def encoder? return (type == MODULE_ENCODER) end # # Returns true if this module is a nop module. # def nop? return (type == MODULE_NOP) end # # Returns true if this module is an auxiliary module. # def auxiliary? return (type == MODULE_AUX) end # # Returns false since this is the real module # def self.cached? false end # # The array of zero or more authors. # attr_reader :author # # The array of zero or more architectures. # attr_reader :arch # # The array of zero or more platforms. # attr_reader :platform # # The reference count for the module. # attr_reader :references # # The module-specific datastore instance. # attr_reader :datastore # # The module-specific options. # attr_reader :options # # Whether or not this module requires privileged access. # attr_reader :privileged # # 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 protected # # The list of options that support merging in an information hash. # UpdateableOptions = [ "Name", "Description", "Alias" ] # # 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) end # # This method initializes the module's compatibility hashes by normalizing # them into one single hash. As it stands, modules can define # compatibility in their supplied info hash through: # # Compat - direct compat definitions # PayloadCompat - payload compatibilities # EncoderCompat - encoder compatibilities # NopCompat - nop compatibilities # # In the end, the module specific compatibilities are merged as sub-hashes # of the primary Compat hash key to make checks more uniform. # def init_compat c = module_info['Compat'] if (c == nil) c = module_info['Compat'] = Hash.new end # Initialize the module sub compatibilities c['Payload'] = Hash.new if (c['Payload'] == nil) c['Encoder'] = Hash.new if (c['Encoder'] == nil) c['Nop'] = Hash.new if (c['Nop'] == nil) # Update the compat-derived module specific compatibilities from # the specific ones to make a uniform view of compatibilities c['Payload'].update(module_info['PayloadCompat'] || {}) c['Encoder'].update(module_info['EncoderCompat'] || {}) c['Nop'].update(module_info['NopCompat'] || {}) end # # Register options with a specific owning class. # def info_fixups # Each reference should be an array consisting of two elements refs = module_info['References'] if(refs and not refs.empty?) refs.each_index do |i| if !(refs[i].respond_to?('[]') and refs[i].length == 2) refs[i] = nil end end # Purge invalid references refs.delete(nil) end end # # Register options with a specific owning class. # def register_options(options, owner = self.class) self.options.add_options(options, owner) self.datastore.import_options(self.options, 'self', true) import_defaults(false) end # # Register advanced options with a specific owning class. # def register_advanced_options(options, owner = self.class) self.options.add_advanced_options(options, owner) self.datastore.import_options(self.options, 'self', true) import_defaults(false) end # # Register evasion options with a specific owning class. # def register_evasion_options(options, owner = self.class) self.options.add_evasion_options(options, owner) self.datastore.import_options(self.options, 'self', true) import_defaults(false) end # # Removes the supplied options from the module's option container # and data store. # def deregister_options(*names) names.each { |name| self.options.remove_option(name) self.datastore.delete(name) } 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 # # 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| merge_check_key(info, name, val) } return info end # # Updates information in the supplied info hash and merges other # information. This method is used to override things like Name, Version, # and Description without losing the ability to merge architectures, # platforms, and options. # def update_info(info, opts) opts.each_pair { |name, val| # If the supplied option name is one of the ones that we should # override by default if (UpdateableOptions.include?(name) == true) # Only if the entry is currently nil do we use our value if (info[name] == nil) info[name] = val end # Otherwise, perform the merge operation like normal else merge_check_key(info, name, val) end } return info end # # Checks and merges the supplied key/value pair in the supplied hash. # def merge_check_key(info, 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 ] end # If the value being merged is an array, add each one if (val.kind_of?(Array) == true) val.each { |v| if (info[name].include?(v) == false) info[name] << v end } # Otherwise just add the value elsif (info[name].include?(val) == false) info[name] << val end # Otherwise, just set the value equal if no current value # exists else info[name] = val end end 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, ', ', true) end # # Merges the module description. # def merge_info_description(info, val) merge_info_string(info, 'Description', val) end # # Merge the module version. # def merge_info_version(info, val) merge_info_string(info, 'Version', val) end # # Merges a given key in the info hash with a delimiter. # def merge_info_string(info, key, val, delim = ', ', inverse = false) if (info[key]) if (inverse == true) info[key] = info[key] + delim + val else info[key] = val + delim + info[key] end else info[key] = val end end # # Merges options. # def merge_info_options(info, val, advanced = false, evasion = false) key_name = ((advanced) ? 'Advanced' : (evasion) ? 'Evasion' : '') + 'Options' new_cont = OptionContainer.new new_cont.add_options(val, advanced, evasion) cur_cont = OptionContainer.new cur_cont.add_options(info[key_name] || [], advanced, evasion) 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_advanced_options(info, val) merge_info_options(info, val, true, false) end # # Merges advanced options. # def merge_info_evasion_options(info, val) merge_info_options(info, val, false, true) end attr_accessor :module_info # :nodoc: attr_writer :author, :arch, :platform, :references, :datastore, :options # :nodoc: attr_writer :privileged # :nodoc: attr_writer :license # :nodoc: 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