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

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# -*- coding: binary -*-
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
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autoload :Arch, 'msf/core/module/arch'
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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'
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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'
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autoload :Search, 'msf/core/module/search'
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autoload :SiteReference, 'msf/core/module/reference'
autoload :Target, 'msf/core/module/target'
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autoload :Type, 'msf/core/module/type'
autoload :UI, 'msf/core/module/ui'
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autoload :UUID, 'msf/core/module/uuid'
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include Msf::Module::Arch
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include Msf::Module::Author
include Msf::Module::Compatibility
include Msf::Module::DataStore
include Msf::Module::FullName
include Msf::Module::ModuleInfo
include Msf::Module::ModuleStore
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include Msf::Module::Network
include Msf::Module::Options
include Msf::Module::Privileged
include Msf::Module::Ranking
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include Msf::Module::Search
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include Msf::Module::Type
include Msf::Module::UI
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include Msf::Module::UUID
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# 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'
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# 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
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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'])
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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
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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
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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_name|
self.extend(const_name.constantize)
end
else
fail "Invalid settings in datastore at key #{REPLICANT_EXTENSION_DS_KEY}"
end
end
end
# @overload register_extensions(name)
# @param[String] name of Ruby module
#
# @overload register_extensions(name_array)
# @param[Array<String>] name_array array of Ruby module names
#
# @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|
name = rb_mod.name
datastore[REPLICANT_EXTENSION_DS_KEY] << name unless datastore[REPLICANT_EXTENSION_DS_KEY].include? name
end
end
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#
# Returns the unduplicated class associated with this module.
#
def orig_cls
self.class.orig_cls
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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(", ")
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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. The debug flag is set
# by setting datastore['DEBUG'] to 1|true|yes
#
def debugging?
(datastore['DEBUG'] || '') =~ /^(1|t|y)/i
end
#
# Support fail_with for all module types, allow specific classes to override
#
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
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#
# 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
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protected
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#
# 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
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attr_writer :platform, :references # :nodoc:
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attr_writer :privileged # :nodoc:
attr_writer :license # :nodoc:
end
end