metasploit-framework/lib/rex/socket.rb

510 lines
9.9 KiB
Ruby
Raw Normal View History

require 'socket'
require 'resolv'
require 'rex/exceptions'
module Rex
###
#
# Base class for all sockets.
#
###
module Socket
module Comm
end
require 'rex/socket/parameters'
require 'rex/socket/tcp'
require 'rex/socket/tcp_server'
require 'rex/socket/comm'
require 'rex/socket/comm/local'
require 'rex/socket/switch_board'
require 'rex/socket/subnet_walker'
require 'rex/socket/range_walker'
##
#
# Factory methods
#
##
#
# Create a socket instance using the supplied parameter hash.
#
def self.create(opts = {})
return create_param(Rex::Socket::Parameters.from_hash(opts))
end
#
# Create a socket using the supplied Rex::Socket::Parameter instance.
#
def self.create_param(param)
return param.comm.create(param)
end
#
# Create a TCP socket using the supplied parameter hash.
#
def self.create_tcp(opts = {})
return create_param(Rex::Socket::Parameters.from_hash(opts.merge('Proto' => 'tcp')))
end
#
# Create a TCP server socket using the supplied parameter hash.
#
def self.create_tcp_server(opts = {})
return create_tcp(opts.merge('Server' => true))
end
#
# Create a UDP socket using the supplied parameter hash.
#
def self.create_udp(opts = {})
return create_param(Rex::Socket::Parameters.from_hash(opts.merge('Proto' => 'udp')))
end
#
# Create a IP socket using the supplied parameter hash.
#
def self.create_ip(opts = {})
return create_param(Rex::Socket::Parameters.from_hash(opts.merge('Proto' => 'ip')))
end
##
#
# Serialization
#
##
# Cache our IPv6 support flag
@@support_ipv6 = nil
#
# Determine whether we support IPv6
#
def self.support_ipv6?
if(@@support_ipv6)
return (@@support_ipv6 == "yes" ? true : false)
end
@@support_ipv6 = "no"
if (::Socket.const_defined?('AF_INET6'))
begin
s = ::Socket.new(::Socket::AF_INET6, ::Socket::SOCK_DGRAM, ::Socket::IPPROTO_UDP)
s.close
@@support_ipv6 = "yes"
rescue
end
end
return (@@support_ipv6 == "yes" ? true : false)
end
#
# Determine whether this is an IPv4 address
#
def self.is_ipv4?(addr)
res = Rex::Socket.getaddress(addr)
res.match(/:/) ? false : true
end
#
# Determine whether this is an IPv6 address
#
def self.is_ipv6?(addr)
res = Rex::Socket.getaddress(addr)
res.match(/:/) ? true : false
end
#
# Checks to see if the supplied address is a dotted quad.
#
def self.dotted_ip?(addr)
# Assume anything with a colon is IPv6
return true if (support_ipv6? and addr =~ /:/)
# Otherwise assume this is IPv4
(addr =~ /^(?:(?:25[0-5]|2[0-4][0-9]|[0-1]?[0-9]{1,2})[.](?:25[0-5]|2[0-4][0-9]|[0-1]?[0-9]{1,2})[.](?:25[0-5]|2[0-4][0-9]|[0-1]?[0-9]{1,2})[.](?:25[0-5]|2[0-4][0-9]|[0-1]?[0-9]{1,2}))$/) ? true : false
end
#
# Wrapper for Resolv.getaddress that takes special care to see if the
# supplied address is already a dotted quad, for instance. This is
# necessary to prevent calls to gethostbyaddr (which occurs on windows).
# These calls can be quite slow.
#
def self.getaddress(addr)
begin
dotted_ip?(addr) ? addr : Resolv.getaddress(addr)
rescue ::ArgumentError # Win32 bug
nil
end
end
#
# Wrapper for Socket.gethostbyname which takes into account whether or not
# an IP address is supplied. If it is, then reverse DNS resolution does
# not occur. This is done in order to prevent delays, such as would occur
# on Windows.
#
def self.gethostbyname(host)
if (dotted_ip?(host))
if (is_ipv4?(host))
return [ host, host, 2, host.split('.').map{ |c| c.to_i }.pack("C4") ]
end
end
::Socket.gethostbyname(host)
end
#
# Create a sockaddr structure using the supplied IP address, port, and
# address family
#
def self.to_sockaddr(ip, port)
if (ip == '::ffff:0.0.0.0')
ip = support_ipv6?() ? '::' : '0.0.0.0'
end
return ::Socket.pack_sockaddr_in(port, ip)
end
#
# Returns the address family, host, and port of the supplied sockaddr as
# [ af, host, port ]
#
def self.from_sockaddr(saddr)
port, host = ::Socket::unpack_sockaddr_in(saddr)
af = ::Socket::AF_INET
if (support_ipv6?() and is_ipv6?(host))
af = ::Socket::AF_INET6
end
return [ af, host, port ]
end
#
# Resolves a host to raw network-byte order.
#
def self.resolv_nbo(host)
self.gethostbyname(Rex::Socket.getaddress(host))[3]
end
#
# Resolves a host to a network-byte order ruby integer.
#
def self.resolv_nbo_i(host)
addr_ntoi(resolv_nbo(host))
end
#
# Resolves a host to a dotted address.
#
def self.resolv_to_dotted(host)
addr_ntoa(addr_aton(host))
end
#
# Converts a ascii address into an integer
#
def self.addr_atoi(addr)
resolv_nbo_i(addr)
end
#
# Converts an integer address into ascii
#
def self.addr_itoa(addr, v6=false)
nboa = addr_iton(addr, v6)
# IPv4
if (addr < 0x100000000 and not v6)
nboa.unpack('C4').join('.')
# IPv6
else
nboa.unpack('n8').map{ |c| "%.4x" % c }.join(":")
end
end
#
# Converts a ascii address to network byte order
#
def self.addr_aton(addr)
resolv_nbo(addr)
end
#
# Converts a network byte order address to ascii
#
def self.addr_ntoa(addr)
# IPv4
if (addr.length == 4)
return addr.unpack('C4').join('.')
end
# IPv6
if (addr.length == 16)
return addr.unpack('n8').map{ |c| "%.4x" % c }.join(":")
end
raise RuntimeError, "Invalid address format"
end
#
# Converts a network byte order address to an integer
#
def self.addr_ntoi(addr)
bits = addr.unpack("N*")
if (bits.length == 1)
return bits[0]
end
if (bits.length == 4)
val = 0
bits.each_index { |i| val += ( bits[i] << (96 - (i * 32)) ) }
return val
end
raise RuntimeError, "Invalid address format"
end
#
# Converts an integer into a network byte order address
#
def self.addr_iton(addr, v6=false)
if(addr < 0x100000000 and not v6)
return [addr].pack('N')
else
w = []
w[0] = (addr >> 96) & 0xffffffff
w[1] = (addr >> 64) & 0xffffffff
w[2] = (addr >> 32) & 0xffffffff
w[3] = addr & 0xffffffff
return w.pack('N4')
end
end
#
# Converts a CIDR subnet into an array (base, bcast)
#
def self.cidr_crack(cidr, v6=false)
tmp = cidr.split('/')
tst,scope = tmp[0].split("%",2)
scope = "%" + scope if scope
scope ||= ""
addr = addr_atoi(tst)
bits = 32
mask = 0
use6 = false
if (addr > 0xffffffff or v6 or cidr =~ /:/)
use6 = true
bits = 128
end
mask = (2 ** bits) - (2 ** (bits - tmp[1].to_i))
base = addr & mask
stop = base + (2 ** (bits - tmp[1].to_i)) - 1
return [self.addr_itoa(base, use6) + scope, self.addr_itoa(stop, use6) + scope]
end
#
# Converts a netmask (255.255.255.240) into a bitmask (28). This is the
# lame kid way of doing it.
#
def self.net2bitmask(netmask)
nmask = resolv_nbo(netmask)
imask = addr_ntoi(nmask)
bits = 32
if (imask > 0xffffffff)
bits = 128
end
0.upto(bits-1) do |bit|
p = 2 ** bit
return (bits - bit) if ((imask & p) == p)
end
0
end
#
# Converts a bitmask (28) into a netmask (255.255.255.240)
# TODO: IPv6 (use is ambiguous right now)
#
def self.bit2netmask(bitmask)
[ (~((2 ** (32 - bitmask)) - 1)) & 0xffffffff ].pack('N').unpack('CCCC').join('.')
end
#
# Converts a port specification like "80,21-23,443" into a sorted,
# unique array of valid port numbers like [21,22,23,80,443]
#
def self.portspec_crack(pspec)
ports = []
# Build ports array from port specification
pspec.split(/,/).each do |item|
start, stop = item.split(/-/).map { |p| p.to_i }
start ||= 0
stop ||= item.match(/-/) ? 65535 : start
start, stop = stop, start if stop < start
start.upto(stop) { |p| ports << p }
end
# Sort, and remove dups and invalid ports
ports.sort.uniq.delete_if { |p| p < 0 or p > 65535 }
end
##
#
# Utility class methods
#
##
def self.source_address(dest='1.2.3.4')
begin
s = self.create_udp(
'PeerHost' => dest,
'PeerPort' => 31337
)
r = s.getsockname[1]
s.close
return r
rescue ::Exception
return '127.0.0.1'
end
end
def self.socket_pair
begin
pair = ::Socket.pair(::Socket::AF_UNIX, ::Socket::SOCK_STREAM, 0)
# Windows does not support Socket.pair, so we emulate it
rescue ::NotImplementedError
srv = TCPServer.new('localhost', 0)
rsock = TCPSocket.new(srv.addr[3], srv.addr[1])
lsock = srv.accept
srv.close
[lsock, rsock]
end
end
##
#
# Class initialization
#
##
#
# Initialize general socket parameters.
#
def initsock(params = nil)
if (params)
self.peerhost = params.peerhost
self.peerport = params.peerport
self.localhost = params.localhost
self.localport = params.localport
self.context = params.context || {}
self.ipv = params.v6 ? 6 : 4
end
end
#
# By default, all sockets are themselves selectable file descriptors.
#
def fd
self
end
#
# Returns local connection information.
#
def getsockname
return Socket.from_sockaddr(super)
end
#
# Wrapper around getsockname
#
def getlocalname
getsockname
end
#
# Return peer connection information.
#
def getpeername
return Socket.from_sockaddr(super)
end
#
# Returns a string that indicates the type of the socket, such as 'tcp'.
#
def type?
raise NotImplementedError, "Socket type is not supported."
end
#
# The peer host of the connected socket.
#
attr_reader :peerhost
#
# The peer port of the connected socket.
#
attr_reader :peerport
#
# The local host of the connected socket.
#
attr_reader :localhost
#
# The local port of the connected socket.
#
attr_reader :localport
#
# The IP version of the socket
#
attr_reader :ipv
#
# Contextual information that describes the source and other
# instance-specific attributes. This comes from the param.context
# attribute.
#
attr_reader :context
protected
attr_writer :peerhost, :peerport, :localhost, :localport # :nodoc:
attr_writer :context # :nodoc:
attr_writer :ipv # :nodoc:
end
end
#
# Globalized socket constants
#
SHUT_RDWR = ::Socket::SHUT_RDWR
SHUT_RD = ::Socket::SHUT_RD
SHUT_WR = ::Socket::SHUT_WR