metasploit-framework/msfencode

279 lines
6.6 KiB
Ruby
Executable File

#!/usr/bin/env ruby
msfbase = __FILE__
while File.symlink?(msfbase)
msfbase = File.expand_path(File.readlink(msfbase), File.dirname(msfbase))
end
$:.unshift(File.join(File.dirname(msfbase), 'lib'))
$:.unshift(ENV['MSF_LOCAL_LIB']) if ENV['MSF_LOCAL_LIB']
require 'rex'
require 'msf/ui'
require 'msf/base'
OutStatus = "[*] "
OutError = "[-] "
$args = Rex::Parser::Arguments.new(
"-i" => [ true, "Encode the contents of the supplied file path" ],
"-m" => [ true, "Specifies an additional module search path" ],
"-a" => [ true, "The architecture to encode as" ],
"-t" => [ true, "The format to display the encoded buffer with (c, elf, exe, java, perl, raw, ruby, vba, vbs, loop-vbs)" ],
"-b" => [ true, "The list of characters to avoid: '\\x00\\xff'" ],
"-s" => [ true, "The maximum size of the encoded data" ],
"-e" => [ true, "The encoder to use" ],
"-o" => [ true, "The output file" ],
"-c" => [ true, "The number of times to encode the data" ],
"-n" => [ false, "Dump encoder information" ],
"-h" => [ false, "Help banner" ],
"-x" => [ true, "Specify an alternate win32 executable template" ],
"-l" => [ false, "List available encoders" ])
#
# Dump the list of encoders
#
def dump_encoders(arch = nil)
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
#
# Returns the list of encoders to try
#
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
#
# Nuff said.
#
def usage
$stderr.puts("\n" + " Usage: #{$0} <options>\n" + $args.usage)
exit
end
# Defaults
cmd = "encode"
arch = nil
badchars = ''
space = nil
encoder = nil
fmt = nil
input = $stdin
options = ''
delim = '_|_'
output = nil
ecount = 1
altexe = nil
# Parse the argument and rock that shit.
$args.parse(ARGV) { |opt, idx, val|
case opt
when "-i"
begin
input = File.new(val)
rescue
$stderr.puts(OutError + "Failed to open file #{val}: #{$!}")
exit
end
when "-m"
$framework.modules.add_module_path(val)
when "-l"
cmd = "list"
when "-n"
cmd = "dump"
when "-a"
arch = val
when "-c"
ecount = val.to_i
when "-b"
badchars = Rex::Text.hex_to_raw(val)
when "-s"
space = val.to_i
when "-t"
if (val =~ /^(perl|ruby|rb|raw|c|js_le|js_be|java|exe|elf|vba|vbs|loop-vbs)$/)
fmt = val
else
$stderr.puts(OutError + "Invalid format: #{val}")
exit
end
when "-o"
output = val
when "-e"
encoder = val
when "-x"
altexe = val
when "-h"
usage
else
if (val =~ /=/)
options += ((options.length > 0) ? delim : "") + "#{val}"
end
end
}
if(not fmt and output)
pre,ext = output.split('.')
if(ext and not ext.empty?)
fmt = ext
end
end
# Initialize the simplified framework instance.
$framework = Msf::Simple::Framework.create(
:module_types => [ Msf::MODULE_ENCODER, Msf::MODULE_NOP ]
)
# Get the list of encoders to try
encoders = get_encoders(arch, encoder)
# Process the actual command
case cmd
when "list"
$stderr.puts(dump_encoders(arch))
when "dump"
enc = encoder ? $framework.encoders.create(encoder) : nil
if (enc)
$stderr.puts(Msf::Serializer::ReadableText.dump_module(enc))
else
$stderr.puts(OutError + "Invalid encoder specified.")
end
when "encode"
buf = input.read
encoders.each { |enc|
next if not enc
begin
# Imports options
enc.datastore.import_options_from_s(options, delim)
skip = false
eout = buf.dup
raw = nil
1.upto(ecount) do |iteration|
# Encode it up
raw = enc.encode(eout, badchars)
# Is it too big?
if (space and space > 0 and raw.length > space)
$stderr.puts(OutError + "#{enc.refname} created buffer that is too big (#{raw.length})")
skip = true
break
end
# Print it out
$stderr.puts(OutStatus + "#{enc.refname} succeeded with size #{raw.length} (iteration=#{iteration})\n\n")
eout = raw
end
next if skip
case fmt
when 'exe'
exe = nil
if(not arch or (arch.index(ARCH_X86)))
exe = Msf::Util::EXE.to_win32pe($framework, raw, {:template => altexe})
end
if(arch and (arch.index( ARCH_X86_64 ) or arch.index( ARCH_X64 )))
exe = Msf::Util::EXE.to_win64pe($framework, raw, {:template => altexe})
end
if(not output)
$stdout.write(exe)
else
File.open(output, "wb") do |fd|
fd.write(exe)
end
end
when 'elf'
elf = Msf::Util::EXE.to_linux_x86_elf($framework, raw)
if(not output)
$stdout.write(elf)
else
File.open(output, "wb") do |fd|
fd.write(elf)
end
end
when 'vba'
exe = Msf::Util::EXE.to_win32pe($framework, raw, {:template => altexe})
vba = Msf::Util::EXE.to_exe_vba(exe)
if(not output)
$stdout.write(vba)
else
File.open(output, "wb") do |fd|
fd.write(vba)
end
end
when 'vbs'
vbs = Msf::Util::EXE.to_win32pe_vbs($framework, raw, {:persist => false, :template => altexe})
if(not output)
$stdout.write(vbs)
else
File.open(output, "wb") do |fd|
fd.write(vbs)
end
end
when 'loop-vbs'
vbs = Msf::Util::EXE.to_win32pe_vbs($framework, raw, {:persist => true, :template => altexe})
if(not output)
$stdout.write(vbs)
else
File.open(output, "wb") do |fd|
fd.write(vbs)
end
end
else
if(not output)
$stdout.print(Msf::Simple::Buffer.transform(raw, fmt))
else
File.open(output, "wb") do |fd|
fd.write(Msf::Simple::Buffer.transform(raw, fmt))
end
end
end
exit
rescue => e
$stderr.puts(OutError + "#{enc.refname} failed: #{e} #{e.backtrace}")
end
}
$stderr.puts(OutError + "No encoders succeeded.")
end