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

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require 'msf/core'
require 'fastlib'
require 'pathname'
module Msf
#
# Define used for a place-holder module that is used to indicate that the
# module has not yet been demand-loaded. Soon to go away.
#
SymbolicModule = "__SYMBOLIC__"
###
#
# A module set contains zero or more named module classes of an arbitrary
# type.
#
###
class ModuleSet < Hash
include Framework::Offspring
#
# Initializes a module set that will contain modules of a specific type and
# expose the mechanism necessary to create instances of them.
#
def initialize(type = nil)
self.module_type = type
# Hashes that convey the supported architectures and platforms for a
# given module
self.mod_arch_hash = {}
self.mod_platform_hash = {}
self.mod_sorted = nil
self.mod_ranked = nil
self.mod_extensions = []
self.mod_ambiguous = {}
end
#
# Wrapper that detects if a symbolic module is in use. If it is, it
# creates an instance to demand load the module and then returns the
# now-loaded class afterwords.
#
def [](name)
if (get_hash_val(name) == SymbolicModule)
create(name)
end
get_hash_val(name)
end
#
# Returns the hash value associated with the supplied module name without
# throwing an exception.
#
def get_hash_val(name)
fetch(name) if has_key?(name)
end
#
# Create an instance of the supplied module by its name
#
def create(name)
klass = get_hash_val(name)
instance = nil
# If there is no module associated with this class, then try to demand
# load it.
if (klass.nil? or klass == SymbolicModule)
# If we are the root module set, then we need to try each module
# type's demand loading until we find one that works for us.
if (module_type.nil?)
MODULE_TYPES.each { |type|
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framework.modules.demand_load_module(type, name)
}
else
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framework.modules.demand_load_module(module_type, name)
end
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recalculate
klass = get_hash_val(name)
end
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# If the klass is valid for this name, try to create it
if (klass and klass != SymbolicModule)
instance = klass.new
end
# Notify any general subscribers of the creation event
if (instance)
self.framework.events.on_module_created(instance)
end
return instance
end
#
# Checks to see if the supplied module name is valid.
#
def valid?(name)
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create(name)
(self[name]) ? true : false
end
#
# Overrides the builtin 'each' operator to avoid the following exception on Ruby 1.9.2+
# "can't add a new key into hash during iteration"
#
def each(&block)
list = []
self.keys.sort.each do |sidx|
list << [sidx, self[sidx]]
end
list.each(&block)
end
#
# Enumerates each module class in the set.
#
def each_module(opts = {}, &block)
demand_load_modules
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self.mod_sorted = self.sort
each_module_list(mod_sorted, opts, &block)
end
#
# Enumerates each module class in the set based on their relative ranking
# to one another. Modules that are ranked higher are shown first.
#
def each_module_ranked(opts = {}, &block)
demand_load_modules
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self.mod_ranked = rank_modules
each_module_list(mod_ranked, opts, &block)
end
#
# Custom each_module filtering if an advanced set supports doing extended
# filtering. Returns true if the entry should be filtered.
#
def each_module_filter(opts, name, entry)
return false
end
#
# Dummy placeholder to relcalculate aliases and other fun things.
#
def recalculate
end
#
# Gives the module set an opportunity to handle a module reload event
#
def on_module_reload(mod)
end
#
# Forces all modules in this set to be loaded.
#
def force_load_set
each_module { |name, mod| }
end
attr_reader :module_type
#
# Whether or not recalculations should be postponed. This is used from the
# context of the each_module_list handler in order to prevent the demand
# loader from calling recalc for each module if it's possible that more
# than one module may be loaded. This field is not initialized until used.
#
attr_accessor :postpone_recalc
protected
#
# Load all modules that are marked as being symbolic.
#
def demand_load_modules
# Pre-scan the module list for any symbolic modules
self.each_pair { |name, mod|
if (mod == SymbolicModule)
self.postpone_recalc = true
mod = create(name)
next if (mod.nil?)
end
}
# If we found any symbolic modules, then recalculate.
if (self.postpone_recalc)
self.postpone_recalc = false
recalculate
end
end
#
# Enumerates the modules in the supplied array with possible limiting
# factors.
#
def each_module_list(ary, opts, &block)
ary.each { |entry|
name, mod = entry
# Skip any lingering symbolic modules.
next if (mod == SymbolicModule)
# Filter out incompatible architectures
if (opts['Arch'])
if (!mod_arch_hash[mod])
mod_arch_hash[mod] = mod.new.arch
end
next if ((mod_arch_hash[mod] & opts['Arch']).empty? == true)
end
# Filter out incompatible platforms
if (opts['Platform'])
if (!mod_platform_hash[mod])
mod_platform_hash[mod] = mod.new.platform
end
next if ((mod_platform_hash[mod] & opts['Platform']).empty? == true)
end
# Custom filtering
next if (each_module_filter(opts, name, entry) == true)
block.call(name, mod)
}
end
#
# Ranks modules based on their constant rank value, if they have one.
#
def rank_modules
self.mod_ranked = self.sort { |a, b|
a_name, a_mod = a
b_name, b_mod = b
# Dynamically loads the module if needed
a_mod = create(a_name) if a_mod == SymbolicModule
b_mod = create(b_name) if b_mod == SymbolicModule
# Extract the ranking between the two modules
a_rank = a_mod.const_defined?('Rank') ? a_mod.const_get('Rank') : NormalRanking
b_rank = b_mod.const_defined?('Rank') ? b_mod.const_get('Rank') : NormalRanking
# Compare their relevant rankings. Since we want highest to lowest,
# we compare b_rank to a_rank in terms of higher/lower precedence
b_rank <=> a_rank
}
end
#
# Adds a module with a the supplied name.
#
def add_module(mod, name, modinfo = nil)
# Set the module's name so that it can be referenced when
# instances are created.
mod.framework = framework
mod.refname = name
mod.file_path = ((modinfo and modinfo['files']) ? modinfo['files'][0] : nil)
mod.orig_cls = mod
if (get_hash_val(name) and get_hash_val(name) != SymbolicModule)
mod_ambiguous[name] = true
wlog("The module #{mod.refname} is ambiguous with #{self[name].refname}.")
else
self[name] = mod
end
mod
end
attr_writer :module_type
attr_accessor :mod_arch_hash, :mod_platform_hash
attr_accessor :mod_sorted, :mod_ranked
attr_accessor :mod_extensions, :mod_ambiguous
attr_accessor :module_history
end
###
#
# Upper management decided to throw in some middle management
# because the modules were getting out of hand. This bad boy
# takes care of the work of managing the interaction with
# modules in terms of loading and instantiation.
#
# TODO:
#
# - add unload support
#
###
class ModuleManager < ModuleSet
require 'msf/core/payload_set'
include Framework::Offspring
#
# Initializes an instance of the overall module manager using the supplied
# framework instance. The types parameter can be used to only load specific
# module types on initialization
#
def initialize(framework,types=MODULE_TYPES)
self.module_paths = []
self.module_sets = {}
self.module_failed = {}
self.enabled_types = {}
self.framework = framework
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self.cache = {}
types.each { |type|
init_module_set(type)
}
super(nil)
end
def init_module_set(type)
self.enabled_types[type] = true
case type
when MODULE_PAYLOAD
instance = PayloadSet.new(self)
else
instance = ModuleSet.new(type)
end
self.module_sets[type] = instance
# Set the module set's framework reference
instance.framework = self.framework
end
#
# Creates a module using the supplied name.
#
def create(name)
# Check to see if it has a module type prefix. If it does,
# try to load it from the specific module set for that type.
if (md = name.match(/^(#{MODULE_TYPES.join('|')})\/(.*)$/))
module_sets[md[1]].create(md[2])
# Otherwise, just try to load it by name.
else
super
end
end
#
# Accessors by module type
#
#
# Returns all of the modules of the specified type
#
def module_set(type)
module_sets[type]
end
#
# Returns the set of loaded encoder module classes.
#
def encoders
module_set(MODULE_ENCODER)
end
#
# Returns the set of loaded exploit module classes.
#
def exploits
module_set(MODULE_EXPLOIT)
end
#
# Returns the set of loaded nop module classes.
#
def nops
module_set(MODULE_NOP)
end
#
# Returns the set of loaded payload module classes.
#
def payloads
module_set(MODULE_PAYLOAD)
end
#
# Returns the set of loaded auxiliary module classes.
#
def auxiliary
module_set(MODULE_AUX)
end
#
# Returns the set of loaded auxiliary module classes.
#
def post
module_set(MODULE_POST)
end
#
# Returns the set of modules that failed to load.
#
def failed
return module_failed
end
##
#
# Module path management
#
##
#
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# Adds a path to be searched for new modules.
#
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def add_module_path(path)
npaths = []
if path =~ /\.fastlib$/
unless ::File.exist?(path)
raise RuntimeError, "The path supplied does not exist", caller
end
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npaths << ::File.expand_path(path)
else
path.sub!(/#{File::SEPARATOR}$/, '')
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# Make the path completely canonical
path = Pathname.new(File.expand_path(path))
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# Make sure the path is a valid directory
unless path.directory?
raise RuntimeError, "The path supplied is not a valid directory.", caller
end
# Now that we've confirmed it exists, get the full, cononical path
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path = ::File.expand_path(path)
npaths << path
# Identify any fastlib archives inside of this path
Dir["#{path}/**/*.fastlib"].each do |fp|
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npaths << fp
end
end
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# Update the module paths appropriately
self.module_paths = (module_paths + npaths).flatten.uniq
# Load all of the modules from the new paths
counts = nil
npaths.each { |d|
counts = load_modules(d, false)
}
return counts
end
#
# Removes a path from which to search for modules.
#
def remove_module_path(path)
module_paths.delete(path)
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module_paths.delete(::File.expand_path(path))
end
def register_type_extension(type, ext)
end
#
# Reloads modules from all module paths
#
def reload_modules
self.module_history = {}
self.clear
self.enabled_types.each_key do |type|
module_sets[type].clear
init_module_set(type)
end
# The counts loaded modules in the following categories:
# auxiliary/encoder/exploit/nop/payload/post
counts = 0
module_paths.each do |path|
mods = load_modules(path, true)
mods.each_value {|c| counts += c}
end
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rebuild_cache
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counts
end
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#
# Reloads the module specified in mod. This can either be an instance of a
# module or a module class.
#
def reload_module(mod)
refname = mod.refname
ds = mod.datastore
dlog("Reloading module #{refname}...", 'core')
# Set the target file
file = mod.file_path
wrap = ::Module.new
# Load the module into a new Module wrapper
begin
wrap.module_eval(load_module_source(file), file)
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to load module from #{file} due to version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[mod.file_path] = errmsg
return false
end
end
rescue ::Exception => e
# Hide eval errors when the module version is not compatible
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to reload module from #{file} due to version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[mod.file_path] = errmsg
return
end
end
errmsg = "Failed to reload module from #{file}: #{e.class} #{e}"
elog(errmsg)
self.module_failed[mod.file_path] = errmsg
return
end
added = nil
::Msf::Framework::Major.downto(1) do |major|
if wrap.const_defined?("Metasploit#{major}")
added = wrap.const_get("Metasploit#{major}")
break
end
end
if not added
errmsg = "Reloaded file did not contain a valid module (#{file})."
elog(errmsg)
self.module_failed[mod.file_path] = errmsg
return nil
end
self.module_failed.delete(mod.file_path)
# Remove the original reference to this module
self.delete(mod.refname)
# Indicate that the module is being loaded again so that any necessary
# steps can be taken to extend it properly.
on_module_load(added, mod.type, refname, {
'files' => [ mod.file_path ],
'noup' => true})
# Create a new instance of the module
if (mod = create(refname))
mod.datastore.update(ds)
else
elog("Failed to create instance of #{refname} after reload.", 'core')
end
# Let the specific module sets have an opportunity to handle the fact
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# that this module was reloaded.
module_sets[mod.type].on_module_reload(mod)
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# Rebuild the cache for just this module
rebuild_cache(mod)
mod
end
#
# Overrides the module set method for adding a module so that some extra
# steps can be taken to subscribe the module and notify the event
# dispatcher.
#
def add_module(mod, name, file_paths)
# Call the module set implementation of add_module
dup = super
# Automatically subscribe a wrapper around this module to the necessary
# event providers based on whatever events it wishes to receive. We
# only do this if we are the module manager instance, as individual
# module sets need not subscribe.
auto_subscribe_module(dup)
# Notify the framework that a module was loaded
framework.events.on_module_load(name, dup)
end
#
# Provide a list of the types of modules in the set
#
def module_types
module_sets.keys.dup
end
#
# Provide a list of module names of a specific type
#
def module_names(set)
module_sets[set] ? module_sets[set].keys.dup : []
end
#
# Read the module code from the file on disk
#
def load_module_source(file)
::File.read(file, ::File.size(file))
end
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#
# Rebuild the cache for the module set
#
def rebuild_cache(mod = nil)
return if not (framework.db and framework.db.migrated)
if mod
framework.db.update_module_details(mod)
else
framework.db.update_all_module_details
end
refresh_cache
end
#
# Return a listing of all cached modules
#
def cache_entries
return {} if not (framework.db and framework.db.migrated)
res = {}
::Mdm::ModuleDetail.find(:all).each do |m|
res[m.file] = { :mtype => m.mtype, :refname => m.refname, :file => m.file, :mtime => m.mtime }
unless module_set(m.mtype).has_key?(m.refname)
module_set(m.mtype)[m.refname] = SymbolicModule
end
end
res
end
#
# Reset the module cache
#
def refresh_cache
self.cache = cache_entries
end
def has_module_file_changed?(file)
begin
cfile = self.cache[file]
return true if not cfile
# Payloads can't be cached due to stage/stager matching
return true if cfile[:mtype] == "payload"
return cfile[:mtime].to_i != ::File.mtime(file).to_i
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rescue ::Errno::ENOENT
return true
end
end
def has_archive_file_changed?(arch, file)
begin
cfile = self.cache[file]
return true if not cfile
# Payloads can't be cached due to stage/stager matching
return true if cfile[:mtype] == "payload"
return cfile[:mtime].to_i != ::File.mtime(file).to_i
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rescue ::Errno::ENOENT
return true
end
end
def demand_load_module(mtype, mname)
n = self.cache.keys.select { |k|
self.cache[k][:mtype] == mtype and
self.cache[k][:refname] == mname
}.first
return nil unless n
m = self.cache[n]
path = nil
if m[:file] =~ /^(.*)\/#{m[:mtype]}s?\//
path = $1
load_module_from_file(path, m[:file], nil, nil, nil, true)
else
dlog("Could not demand load module #{mtype}/#{mname} (unknown base name in #{m[:file]})", 'core', LEV_2)
nil
end
end
attr_accessor :cache # :nodoc:
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protected
#
# Load all of the modules from the supplied directory or archive
#
def load_modules(bpath, demand = false)
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( bpath =~ /\.fastlib$/ ) ?
load_modules_from_archive(bpath, demand) :
load_modules_from_directory(bpath, demand)
end
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#
# Load all of the modules from the supplied module path (independent of
# module type).
#
def load_modules_from_directory(bpath, demand = false)
loaded = {}
recalc = {}
counts = {}
delay = {}
ks = true
dbase = ::Dir.new(bpath)
dbase.entries.each do |ent|
next if ent.downcase == '.svn'
path = ::File.join(bpath, ent)
mtype = ent.gsub(/s$/, '')
next if not ::File.directory?(path)
next if not MODULE_TYPES.include?(mtype)
next if not enabled_types[mtype]
# Try to load modules from all the files in the supplied path
Rex::Find.find(path) do |file|
# Skip non-ruby files
next if file[-3,3] != ".rb"
# Skip unit test files
next if (file =~ /rb\.(ut|ts)\.rb$/)
# Skip files with a leading period
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next if file[0,1] == "."
load_module_from_file(bpath, file, loaded, recalc, counts, demand)
end
end
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recalc.each_key do |mtype|
module_set(mtype).recalculate
end
# Return per-module loaded counts
return counts
end
#
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# Load all of the modules from the supplied fastlib archive
#
def load_modules_from_archive(bpath, demand = false)
loaded = {}
recalc = {}
counts = {}
delay = {}
ks = true
::FastLib.list(bpath).each do |ent|
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next if ent.index(".svn/")
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mtype, path = ent.split("/", 2)
mtype.sub!(/s$/, '')
next if not MODULE_TYPES.include?(mtype)
next if not enabled_types[mtype]
# Skip non-ruby files
next if ent[-3,3] != ".rb"
# Skip unit test files
next if (ent =~ /rb\.(ut|ts)\.rb$/)
# Skip files with a leading period
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next if ent[0,1] == "."
load_module_from_archive(bpath, ent, loaded, recalc, counts, demand)
end
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recalc.each_key do |mtype|
module_set(mtype).recalculate
end
# Return per-module loaded counts
return counts
end
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#
# Loads a module from the supplied file.
#
def load_module_from_file(path, file, loaded, recalc, counts, demand = false)
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if not ( demand or has_module_file_changed?(file))
dlog("Cached module from file #{file} has not changed.", 'core', LEV_2)
return false
end
# Substitute the base path
path_base = file.sub(path + File::SEPARATOR, '')
# Derive the name from the path with the exclusion of the .rb
name = path_base.match(/^(.+?)#{File::SEPARATOR}(.*)(.rb?)$/)[2]
# Chop off the file name
path_base.sub!(/(.+)(#{File::SEPARATOR}.+)(.rb?)$/, '\1')
if (m = path_base.match(/^(.+?)#{File::SEPARATOR}+?/))
type = m[1]
else
type = path_base
end
type.sub!(/s$/, '')
added = nil
begin
wrap = ::Module.new
wrap.module_eval(load_module_source(file), file)
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to load module from #{file} due to version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[file] = errmsg
return false
end
end
rescue ::Interrupt
raise $!
Merged revisions 5366-5377 via svnmerge from svn+ssh://metasploit.com/home/svn/framework3/branches/framework-3.1 ........ r5366 | hdm | 2008-01-26 20:30:53 -0600 (Sat, 26 Jan 2008) | 2 lines Update version information ........ r5367 | hdm | 2008-01-26 21:10:57 -0600 (Sat, 26 Jan 2008) | 3 lines Updated for version 3.1 ........ r5369 | hdm | 2008-01-26 21:13:31 -0600 (Sat, 26 Jan 2008) | 3 lines Wipe the private directories from the branch. ........ r5371 | hdm | 2008-01-27 17:24:24 -0600 (Sun, 27 Jan 2008) | 5 lines Timeout options added for dcerpc connect and read times. Addition of novell netware as a supported target platform. Inclusion of the serverprotect exploit (still works on the latest version). Addition of the first remote netware kernel exploit that leads to a shell, addition of netware stager and shell, and first draft of the release notes for 3.1 ........ r5372 | hdm | 2008-01-27 17:30:08 -0600 (Sun, 27 Jan 2008) | 3 lines Formatting, indentation, fixed the static IP embedded in the request ........ r5373 | hdm | 2008-01-27 20:02:48 -0600 (Sun, 27 Jan 2008) | 3 lines Correctly trap exploit errors in a way that works with all of the UIs ........ r5374 | hdm | 2008-01-27 20:23:25 -0600 (Sun, 27 Jan 2008) | 3 lines More last-minute bug fixes ........ r5375 | hdm | 2008-01-27 20:37:43 -0600 (Sun, 27 Jan 2008) | 3 lines Force multi-bind off in netware, correct label display in gtk gui labels ........ r5376 | hdm | 2008-01-27 20:50:03 -0600 (Sun, 27 Jan 2008) | 3 lines More exception handling fun ........ git-svn-id: file:///home/svn/framework3/trunk@5378 4d416f70-5f16-0410-b530-b9f4589650da
2008-01-28 03:06:31 +00:00
rescue ::Exception => e
# Hide eval errors when the module version is not compatible
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to load module from #{file} due to error and failed version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[file] = errmsg
return false
end
end
errmsg = "#{e.class} #{e}"
self.module_failed[file] = errmsg
elog(errmsg)
Merged revisions 5366-5377 via svnmerge from svn+ssh://metasploit.com/home/svn/framework3/branches/framework-3.1 ........ r5366 | hdm | 2008-01-26 20:30:53 -0600 (Sat, 26 Jan 2008) | 2 lines Update version information ........ r5367 | hdm | 2008-01-26 21:10:57 -0600 (Sat, 26 Jan 2008) | 3 lines Updated for version 3.1 ........ r5369 | hdm | 2008-01-26 21:13:31 -0600 (Sat, 26 Jan 2008) | 3 lines Wipe the private directories from the branch. ........ r5371 | hdm | 2008-01-27 17:24:24 -0600 (Sun, 27 Jan 2008) | 5 lines Timeout options added for dcerpc connect and read times. Addition of novell netware as a supported target platform. Inclusion of the serverprotect exploit (still works on the latest version). Addition of the first remote netware kernel exploit that leads to a shell, addition of netware stager and shell, and first draft of the release notes for 3.1 ........ r5372 | hdm | 2008-01-27 17:30:08 -0600 (Sun, 27 Jan 2008) | 3 lines Formatting, indentation, fixed the static IP embedded in the request ........ r5373 | hdm | 2008-01-27 20:02:48 -0600 (Sun, 27 Jan 2008) | 3 lines Correctly trap exploit errors in a way that works with all of the UIs ........ r5374 | hdm | 2008-01-27 20:23:25 -0600 (Sun, 27 Jan 2008) | 3 lines More last-minute bug fixes ........ r5375 | hdm | 2008-01-27 20:37:43 -0600 (Sun, 27 Jan 2008) | 3 lines Force multi-bind off in netware, correct label display in gtk gui labels ........ r5376 | hdm | 2008-01-27 20:50:03 -0600 (Sun, 27 Jan 2008) | 3 lines More exception handling fun ........ git-svn-id: file:///home/svn/framework3/trunk@5378 4d416f70-5f16-0410-b530-b9f4589650da
2008-01-28 03:06:31 +00:00
return false
end
::Msf::Framework::Major.downto(1) do |major|
if wrap.const_defined?("Metasploit#{major}")
added = wrap.const_get("Metasploit#{major}")
break
end
end
if not added
errmsg = "Missing Metasploit class constant"
self.module_failed[file] = errmsg
elog(errmsg)
return false
end
# If the module indicates that it is not usable on this system, then we
# will not try to use it.
usable = false
begin
usable = respond_to?(:is_usable) ? added.is_usable : true
rescue
elog("Exception caught during is_usable check: #{$!}")
end
if (usable == false)
ilog("Skipping module in #{file} because is_usable returned false.", 'core', LEV_1)
return false
end
ilog("Loaded #{type} module #{added} from #{file}.", 'core', LEV_2)
self.module_failed.delete(file)
# Do some processing on the loaded module to get it into the
# right associations
on_module_load(added, type, name, {
'files' => [ file ],
'paths' => [ path ],
'type' => type })
# Set this module type as needing recalculation
recalc[type] = true if (recalc)
# Append the added module to the hash of file->module
loaded[file] = added if (loaded)
# The number of loaded modules this round
if (counts)
counts[type] = (counts[type]) ? (counts[type] + 1) : 1
end
return true
end
#
# Loads a module from the supplied archive path
#
def load_module_from_archive(path, file, loaded, recalc, counts, demand = false)
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if not ( demand or has_archive_module_file_changed?(file))
dlog("Cached module from file #{file} has not changed.", 'core', LEV_2)
return false
end
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# Derive the name from the path with the exclusion of the .rb
name = file.match(/^(.+?)#{File::SEPARATOR}(.*)(.rb?)$/)[2]
# Chop off the file name
base = file.sub(/(.+)(#{File::SEPARATOR}.+)(.rb?)$/, '\1')
if (m = base.match(/^(.+?)#{File::SEPARATOR}+?/))
type = m[1]
else
type = base
end
type.sub!(/s$/, '')
added = nil
begin
wrap = ::Module.new
wrap.module_eval( ::FastLib.load(path, file), file )
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to load module from #{path}::#{file} due to version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[file] = errmsg
return false
end
end
rescue ::Interrupt
raise $!
rescue ::Exception => e
# Hide eval errors when the module version is not compatible
if(wrap.const_defined?(:RequiredVersions))
mins = wrap.const_get(:RequiredVersions)
if( mins[0] > ::Msf::Framework::VersionCore or
mins[1] > ::Msf::Framework::VersionAPI
)
errmsg = "Failed to load module from #{path}::#{file}due to error and failed version check (requires Core:#{mins[0]} API:#{mins[1]})"
elog(errmsg)
self.module_failed[file] = errmsg
return false
end
end
errmsg = "#{e.class} #{e}"
self.module_failed[file] = errmsg
elog(errmsg)
return false
end
::Msf::Framework::Major.downto(1) do |major|
if wrap.const_defined?("Metasploit#{major}")
added = wrap.const_get("Metasploit#{major}")
break
end
end
if not added
errmsg = "Missing Metasploit class constant"
self.module_failed[file] = errmsg
elog(errmsg)
return false
end
# If the module indicates that it is not usable on this system, then we
# will not try to use it.
usable = false
begin
usable = respond_to?(:is_usable) ? added.is_usable : true
rescue
elog("Exception caught during is_usable check: #{$!}")
end
if (usable == false)
ilog("Skipping module in #{path}::#{file} because is_usable returned false.", 'core', LEV_1)
return false
end
ilog("Loaded #{type} module #{added} from #{path}::#{file}.", 'core', LEV_2)
self.module_failed.delete(file)
# Do some processing on the loaded module to get it into the
# right associations
on_module_load(added, type, name, {
'files' => [ file ],
'paths' => [ path ],
'type' => type })
# Set this module type as needing recalculation
recalc[type] = true if (recalc)
# Append the added module to the hash of file->module
loaded[file] = added if (loaded)
# The number of loaded modules this round
if (counts)
counts[type] = (counts[type]) ? (counts[type] + 1) : 1
end
return true
end
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#
# Called when a module is initially loaded such that it can be
# categorized accordingly.
#
def on_module_load(mod, type, name, modinfo)
# Payload modules require custom loading as the individual files
# may not directly contain a logical payload that a user would
# reference, such as would be the case with a payload stager or
# stage. As such, when payload modules are loaded they are handed
# off to a special payload set. The payload set, in turn, will
# automatically create all the permutations after all the payload
# modules have been loaded.
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if (type != MODULE_PAYLOAD)
# Add the module class to the list of modules and add it to the
# type separated set of module classes
add_module(mod, name, modinfo)
end
module_sets[type].add_module(mod, name, modinfo)
end
#
# This method automatically subscribes a module to whatever event providers
# it wishes to monitor. This can be used to allow modules to automatically
# execute or perform other tasks when certain events occur. For instance,
# when a new host is detected, other aux modules may wish to run such
# that they can collect more information about the host that was detected.
#
def auto_subscribe_module(mod)
# If auto-subscribe has been disabled
if (framework.datastore['DisableAutoSubscribe'] and
framework.datastore['DisableAutoSubscribe'] =~ /^(y|1|t)/)
return
end
# If auto-subscription is enabled (which it is by default), figure out
# if it subscribes to any particular interfaces.
inst = nil
#
# Exploit event subscriber check
#
if (mod.include?(ExploitEvent) == true)
framework.events.add_exploit_subscriber((inst) ? inst : (inst = mod.new))
end
#
# Session event subscriber check
#
if (mod.include?(SessionEvent) == true)
framework.events.add_session_subscriber((inst) ? inst : (inst = mod.new))
end
end
attr_accessor :modules, :module_sets # :nodoc:
attr_accessor :module_paths # :nodoc:
attr_accessor :module_failed # :nodoc:
attr_accessor :enabled_types # :nodoc:
end
end