require 'net/ssh/buffered_io' require 'net/ssh/errors' require 'net/ssh/packet' require 'net/ssh/transport/cipher_factory' require 'net/ssh/transport/hmac' require 'net/ssh/transport/state' module Net; module SSH; module Transport # A module that builds additional functionality onto the Net::SSH::BufferedIo # module. It adds SSH encryption, compression, and packet validation, as # per the SSH2 protocol. It also adds an abstraction for polling packets, # to allow for both blocking and non-blocking reads. module PacketStream include BufferedIo def self.extended(object) object.__send__(:initialize_ssh) end # The map of "hints" that can be used to modify the behavior of the packet # stream. For instance, when authentication succeeds, an "authenticated" # hint is set, which is used to determine whether or not to compress the # data when using the "delayed" compression algorithm. attr_reader :hints # The server state object, which encapsulates the algorithms used to interpret # packets coming from the server. attr_reader :server # The client state object, which encapsulates the algorithms used to build # packets to send to the server. attr_reader :client # The name of the client (local) end of the socket, as reported by the # socket. def client_name @client_name ||= begin sockaddr = getsockname begin Socket.getnameinfo(sockaddr, Socket::NI_NAMEREQD).first rescue begin Socket.getnameinfo(sockaddr).first rescue begin Socket.gethostbyname(Socket.gethostname).first rescue lwarn { "the client ipaddr/name could not be determined" } "unknown" end end end end end # The IP address of the peer (remote) end of the socket, as reported by # the Rex socket. def peer_ip @peer_ip ||= getpeername[1] end # Returns true if the IO is available for reading, and false otherwise. def available_for_read? result = IO.select([self], nil, nil, 0) result && result.first.any? end # Returns the next full packet. If the mode parameter is :nonblock (the # default), then this will return immediately, whether a packet is # available or not, and will return nil if there is no packet ready to be # returned. If the mode parameter is :block, then this method will block # until a packet is available. def next_packet(mode=:nonblock) case mode when :nonblock then fill if available_for_read? poll_next_packet when :block then loop do packet = poll_next_packet return packet if packet loop do result = IO.select([self]) or next break if result.first.any? end if fill <= 0 raise Net::SSH::Disconnect, "connection closed by remote host" end end else raise ArgumentError, "expected :block or :nonblock, got #{mode.inspect}" end end # Enqueues a packet to be sent, and blocks until the entire packet is # sent. def send_packet(payload) enqueue_packet(payload) wait_for_pending_sends end # Enqueues a packet to be sent, but does not immediately send the packet. # The given payload is pre-processed according to the algorithms specified # in the client state (compression, cipher, and hmac). def enqueue_packet(payload) # try to compress the packet payload = client.compress(payload) # the length of the packet, minus the padding actual_length = 4 + payload.length + 1 # compute the padding length padding_length = client.cipher.block_size - (actual_length % client.cipher.block_size) padding_length += client.cipher.block_size if padding_length < 4 # compute the packet length (sans the length field itself) packet_length = payload.length + padding_length + 1 padding = Array.new(padding_length) { rand(256) }.pack("C*") unencrypted_data = [packet_length, padding_length, payload, padding].pack("NCA*A*") mac = client.hmac.digest([client.sequence_number, unencrypted_data].pack("NA*")) encrypted_data = client.update_cipher(unencrypted_data) << client.final_cipher message = encrypted_data + mac debug { "queueing packet nr #{client.sequence_number} type #{payload.getbyte(0)} len #{packet_length}" } enqueue(message) client.increment(packet_length) self end # Performs any pending cleanup necessary on the IO and its associated # state objects. (See State#cleanup). def cleanup client.cleanup server.cleanup end # If the IO object requires a rekey operation (as indicated by either its # client or server state objects, see State#needs_rekey?), this will # yield. Otherwise, this does nothing. def if_needs_rekey? if client.needs_rekey? || server.needs_rekey? yield client.reset! if client.needs_rekey? server.reset! if server.needs_rekey? end end protected # Called when this module is used to extend an object. It initializes # the states and generally prepares the object for use as a packet stream. def initialize_ssh @hints = {} @server = State.new(self, :server) @client = State.new(self, :client) @packet = nil initialize_buffered_io end # Tries to read the next packet. If there is insufficient data to read # an entire packet, this returns immediately, otherwise the packet is # read, post-processed according to the cipher, hmac, and compression # algorithms specified in the server state object, and returned as a # new Packet object. def poll_next_packet if @packet.nil? minimum = server.cipher.block_size < 4 ? 4 : server.cipher.block_size return nil if available < minimum data = read_available(minimum) # decipher it @packet = Net::SSH::Buffer.new(server.update_cipher(data)) @packet_length = @packet.read_long end need = @packet_length + 4 - server.cipher.block_size raise Net::SSH::Exception, "padding error, need #{need} block #{server.cipher.block_size}" if need % server.cipher.block_size != 0 return nil if available < need + server.hmac.mac_length if need > 0 # read the remainder of the packet and decrypt it. data = read_available(need) @packet.append(server.update_cipher(data)) end # get the hmac from the tail of the packet (if one exists), and # then validate it. real_hmac = read_available(server.hmac.mac_length) || "" @packet.append(server.final_cipher) padding_length = @packet.read_byte payload = @packet.read(@packet_length - padding_length - 1) padding = @packet.read(padding_length) if padding_length > 0 my_computed_hmac = server.hmac.digest([server.sequence_number, @packet.content].pack("NA*")) raise Net::SSH::Exception, "corrupted mac detected" if real_hmac != my_computed_hmac # try to decompress the payload, in case compression is active payload = server.decompress(payload) debug { "received packet nr #{server.sequence_number} type #{payload.getbyte(0)} len #{@packet_length}" } server.increment(@packet_length) @packet = nil return Packet.new(payload) end end end; end; end