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mirror of https://github.com/rapid7/metasploit-framework synced 2024-10-29 18:07:27 +01:00
metasploit-framework/msfvenom
2013-12-02 11:57:52 +01:00

511 lines
15 KiB
Ruby
Executable File

#!/usr/bin/env ruby
# -*- coding: binary -*-
msfbase = __FILE__
while File.symlink?(msfbase)
msfbase = File.expand_path(File.readlink(msfbase), File.dirname(msfbase))
end
$:.unshift(File.expand_path(File.join(File.dirname(msfbase), 'lib')))
require 'fastlib'
require 'msfenv'
$:.unshift(ENV['MSF_LOCAL_LIB']) if ENV['MSF_LOCAL_LIB']
require 'rex'
require 'msf/ui'
require 'msf/base'
# Mad payload generation
#
# @example
# venom = MsfVenom.new
# # ARGV will be parsed destructively!
# venom.parse_args(ARGV)
# $stdout.puts venom.generate
class MsfVenom
class MsfVenomError < StandardError; end
class UsageError < MsfVenomError; end
class NoTemplateError < MsfVenomError; end
class IncompatibleError < MsfVenomError; end
Status = "[*] "
Error = "[-] "
require 'optparse'
def initialize(in_stream=$stdin, out_stream=$stdout, err_stream=$stderr, framework=nil)
@in = in_stream
@out = out_stream
@err = err_stream
@framework = framework
end
# Creates a new framework object.
#
# @note Ignores any previously cached value
# @param (see ::Msf::Simple::Framework.create)
# @return [Msf::Framework]
def init_framework(create_opts={})
create_opts[:module_types] ||= [
::Msf::MODULE_PAYLOAD, ::Msf::MODULE_ENCODER, ::Msf::MODULE_NOP
]
@framework = ::Msf::Simple::Framework.create(create_opts.merge('DisableDatabase' => true))
end
# Cached framework object
#
# @return [Msf::Framework]
def framework
return @framework if @framework
init_framework
@framework
end
# Initialize the options for this run from ARGV
# @param args [Array] Usually ARGV. Parsed destructively.
# @return [void]
# @raise [UsageError] When given invalid options
def parse_args(args)
@opts = {}
@datastore = {}
opt = OptionParser.new
opt.banner = "Usage: #{$0} [options] <var=val>"
opt.separator('')
opt.separator('Options:')
opt.on('-p', '--payload <payload>', String, 'Payload to use. Specify a \'-\' or stdin to use custom payloads') do |p|
if p == '-'
@opts[:payload] = 'stdin'
else
@opts[:payload] = p
end
end
opt.on('-l', '--list [module_type]', Array, 'List a module type example: payloads, encoders, nops, all') do |l|
if l.nil? or l.empty?
l = ["all"]
end
@opts[:list] = l
end
opt.on('-n', '--nopsled <length>', Integer, 'Prepend a nopsled of [length] size on to the payload') do |n|
@opts[:nopsled] = n.to_i
end
opt.on('-f', '--format <format>', String, "Output format (use --help-formats for a list)") do |f|
@opts[:format] = f
end
opt.on('-e', '--encoder [encoder]', String, 'The encoder to use') do |e|
@opts[:encode] = true
@opts[:encoder] = e
end
opt.on('-a', '--arch <architecture>', String, 'The architecture to use') do |a|
@opts[:arch] = a
end
opt.on('--platform <platform>', String, 'The platform of the payload') do |l|
@opts[:platform] = l
end
opt.on('-s', '--space <length>', Integer, 'The maximum size of the resulting payload') do |s|
@opts[:space] = s
end
opt.on('-b', '--bad-chars <list>', String, 'The list of characters to avoid example: \'\x00\xff\'') do |b|
@opts[:badchars] = b
end
opt.on('-i', '--iterations <count>', Integer, 'The number of times to encode the payload') do |i|
@opts[:iterations] = i
end
opt.on('-c', '--add-code <path>', String, 'Specify an additional win32 shellcode file to include') do |x|
@opts[:addshellcode] = x
end
opt.on('-x', '--template <path>', String, 'Specify a custom executable file to use as a template') do |x|
@opts[:template] = x
end
opt.on('-k', '--keep', 'Preserve the template behavior and inject the payload as a new thread') do
@opts[:inject] = true
end
opt.on('-o', '--options', "List the payload's standard options") do
@opts[:list_options] = true
end
opt.on_tail('-h', '--help', 'Show this message') do
raise UsageError, "#{opt}"
end
opt.on_tail('--help-formats', String, "List available formats") do
init_framework(:module_types => [])
msg = "Executable formats\n" +
"\t" + ::Msf::Util::EXE.to_executable_fmt_formats.join(", ") + "\n" +
"Transform formats\n" +
"\t" + ::Msf::Simple::Buffer.transform_formats.join(", ")
raise UsageError, msg
end
begin
opt.parse!(args)
rescue OptionParser::InvalidOption => e
raise UsageError, "Invalid option\n#{opt}"
rescue OptionParser::MissingArgument => e
raise UsageError, "Missing required argument for option\n#{opt}"
end
if @opts.empty?
raise UsageError, "No options\n#{opt}"
end
if args
args.each do |x|
k,v = x.split('=', 2)
@datastore[k.upcase] = v.to_s
end
end
if @opts[:payload].nil? # if no payload option is selected assume we are reading it from stdin
@opts[:payload] = "stdin"
end
end
def print_status(msg)
@err.puts(Status + msg)
end
def print_error(msg)
@err.puts(Error + msg)
end
def get_encoders(arch, encoder)
encoders = []
if (encoder)
encoders << framework.encoders.create(encoder)
else
framework.encoders.each_module_ranked(
'Arch' => arch ? arch.split(',') : nil) { |name, mod|
encoders << mod.new
}
end
encoders
end
# Read a raw payload from stdin (or whatever IO object we're currently
# using as stdin, see {#initialize})
#
# @return [String]
def payload_stdin
@in.binmode
payload = @in.read
payload
end
def generate_nops(arch, len, nop_mod=nil, nop_opts={})
nop_opts['BadChars'] ||= ''
nop_opts['SaveRegisters'] ||= [ 'esp', 'ebp', 'esi', 'edi' ]
if nop_mod
nop = framework.nops.create(nop_mod)
raw = nop.generate_sled(len, nop_opts)
return raw if raw
end
framework.nops.each_module_ranked('Arch' => arch) do |name, mod|
begin
nop = framework.nops.create(name)
raw = nop.generate_sled(len, nop_opts)
return raw if raw
rescue
end
end
nil
end
def dump_payloads
init_framework(:module_types => [ ::Msf::MODULE_PAYLOAD ])
tbl = Rex::Ui::Text::Table.new(
'Indent' => 4,
'Header' => "Framework Payloads (#{framework.stats.num_payloads} total)",
'Columns' =>
[
"Name",
"Description"
])
framework.payloads.each_module { |name, mod|
tbl << [ name, mod.new.description ]
}
"\n" + tbl.to_s + "\n"
end
def dump_encoders(arch = nil)
init_framework(:module_types => [ ::Msf::MODULE_ENCODER ])
tbl = Rex::Ui::Text::Table.new(
'Indent' => 4,
'Header' => "Framework Encoders" + ((arch) ? " (architectures: #{arch})" : ""),
'Columns' =>
[
"Name",
"Rank",
"Description"
])
cnt = 0
framework.encoders.each_module(
'Arch' => arch ? arch.split(',') : nil) { |name, mod|
tbl << [ name, mod.rank_to_s, mod.new.name ]
cnt += 1
}
(cnt > 0) ? "\n" + tbl.to_s + "\n" : "\nNo compatible encoders found.\n\n"
end
def dump_nops
init_framework(:module_types => [ ::Msf::MODULE_NOP ])
tbl = Rex::Ui::Text::Table.new(
'Indent' => 4,
'Header' => "Framework NOPs (#{framework.stats.num_nops} total)",
'Columns' =>
[
"Name",
"Description"
])
framework.nops.each_module { |name, mod|
tbl << [ name, mod.new.description ]
}
"\n" + tbl.to_s + "\n"
end
# @return [String] A raw shellcode blob
# @return [nil] When commandline options conspire to produce no output
def generate_raw_payload
if @opts[:payload] == 'stdin'
payload_raw = payload_stdin
if @opts[:encode] and (@opts[:arch].nil? or @opts[:platform].nil?)
print_error("Cannot encode stdin payload without specifying the proper architecture and platform")
@opts[:encode] = false
end
# defaults for stdin payloads users should define them
unless @opts[:arch]
print_error("Defaulting to x86 architecture for stdin payload, use -a to change")
@opts[:arch] = "x86"
end
unless @opts[:platform]
print_error("Defaulting to Windows platform for stdin payload, use --platform to change")
@opts[:platform] = ::Msf::Module::PlatformList.transform("Windows")
end
else
payload = framework.payloads.create(@opts[:payload])
if payload.nil?
raise UsageError, "Invalid payload: #{@opts[:payload]}"
end
@opts[:arch] ||= payload.arch[0]
# If it's not stdin, we'll already have a PlatformList
@opts[:platform] ||= payload.platform
payload.datastore.merge! @datastore
if @opts[:list_options]
print_status("Options for #{payload.fullname}\n\n" +
::Msf::Serializer::ReadableText.dump_module(payload,' '))
return
end
payload_raw = payload.generate_simple(
'Format' => 'raw',
'Options' => @datastore,
'Encoder' => nil)
end
payload_raw
end
# Main dispatch method to do the right thing with the given options.
def generate
if @opts[:list]
@opts[:list].each do |mod|
case mod.downcase
when "payloads"
@err.puts dump_payloads
when "encoders"
@err.puts dump_encoders(@opts[:arch])
when "nops"
@err.puts dump_nops
when "all"
# Init here so #dump_payloads doesn't create a framework with
# only payloads, etc.
init_framework
@err.puts dump_payloads
@err.puts dump_encoders
@err.puts dump_nops
else
raise UsageError, "Invalid module type"
end
end
return
end
# Normalize the options
@opts[:platform] = ::Msf::Module::PlatformList.transform(@opts[:platform]) if @opts[:platform]
@opts[:badchars] = Rex::Text.hex_to_raw(@opts[:badchars]) if @opts[:badchars]
@opts[:format] ||= 'ruby'
@opts[:encoder] ||= nil
@opts[:encode] ||= !(@opts[:badchars].nil? or @opts[:badchars].empty?)
payload_raw = generate_raw_payload
return unless payload_raw
if @opts[:template]
unless File.exist?(@opts[:template])
raise NoTemplateError, "Template file (#{@opts[:template]}) does not exist"
end
path = File.dirname(@opts[:template])
altexe = File.basename(@opts[:template])
end
exeopts = { :inject => @opts[:inject], :template_path => path, :template => altexe }
# If we were given addshellcode for a win32 payload,
# create a double-payload; one running in one thread, one running in the other
if @opts[:addshellcode] and @opts[:platform].platforms.include?(::Msf::Module::Platform::Windows) and @opts[:arch] == 'x86'
payload_raw = ::Msf::Util::EXE.win32_rwx_exec_thread(payload_raw,0,'end')
file = ::File.new(@opts[:addshellcode])
file.binmode
payload_raw << file.read
file.close
end
if @opts[:encode]
done = false
encoders = get_encoders(@opts[:arch], @opts[:encoder])
encoders.each do |enc|
next if not enc
begin
break if done
enc.datastore.import_options_from_hash(@datastore)
skip = false
raw = nil
@opts[:iterations] ||= 1
1.upto(@opts[:iterations].to_i) do |iteration|
begin
raw = enc.encode(payload_raw.dup, @opts[:badchars], nil, @opts[:platform])
rescue ::Msf::EncodingError
print_error("#{enc.refname} failed: #{$!.class} : #{$!}")
skip = true
break
end
if @opts[:space] and @opts[:space] > 0 and raw.length > @opts[:space]
print_error("#{enc.refname} created buffer that is too big (#{raw.length})\n\n")
skip = true
break
end
print_status("#{enc.refname} succeeded with size #{raw.length} (iteration=#{iteration})\n")
payload_raw = raw.dup
if iteration == @opts[:iterations]
done = true
break
end
end
next if skip
rescue ::Errno::ENOENT, ::Errno::EINVAL
print_error("#{enc.refname} failed: #{$!}")
break
rescue => e
print_error("#{enc.refname} failed: #{e.class} #{e}")
e.backtrace.each { |el|
@err.puts(el.to_s)
}
end
end
end
if @opts[:nopsled]
nopts = { 'BadChars' => @opts[:badchars] }
nops = generate_nops([@opts[:arch]], @opts[:nopsled], nil, nopts)
payload_raw = nops + payload_raw
end
@out.binmode
case @opts[:format].downcase
# Special-case this to check endianness
when "js_be"
if Rex::Arch.endian(payload.arch) != ENDIAN_BIG
raise IncompatibleError, "Big endian format selected for a non big endian payload"
end
@out.write ::Msf::Simple::Buffer.transform(payload_raw, @opts[:format])
# Special-case this so we can build a war directly from the payload if
# possible
when "war"
exe = ::Msf::Util::EXE.to_executable_fmt(framework, @opts[:arch], @opts[:platform], payload_raw, @opts[:format], exeopts)
if (!exe && payload.respond_to?(:generate_war))
exe = payload.generate_war.pack
else
exe = ::Msf::Util::EXE.to_jsp_war(exe)
end
@out.write exe
# Same as war, special-case this so we can build a jar directly from the
# payload if possible
when "java"
exe = ::Msf::Util::EXE.to_executable_fmt(framework, @opts[:arch], @opts[:platform], payload_raw, @opts[:format], exeopts)
if (!exe && payload.respond_to?(:generate_jar))
exe = payload.generate_jar.pack
end
if exe
@out.write exe
else
print_error("Could not generate payload format")
end
when *::Msf::Simple::Buffer.transform_formats
buf = ::Msf::Simple::Buffer.transform(payload_raw, @opts[:format])
@out.write buf
when *::Msf::Util::EXE.to_executable_fmt_formats
exe = ::Msf::Util::EXE.to_executable_fmt(framework, @opts[:arch], @opts[:platform], payload_raw, @opts[:format], exeopts)
if exe.nil?
raise IncompatibleError, "This format does not support that platform/architecture"
end
@out.write exe
else
raise IncompatibleError, "Unsupported format"
return
end
end
end
if __FILE__ == $0
begin
venom = MsfVenom.new
venom.parse_args(ARGV)
venom.generate
rescue MsfVenom::MsfVenomError, Msf::OptionValidateError => e
$stderr.puts e.message
exit(-1)
end
end