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# Copyright (C) 2003-2007 Robey Pointer <robeypointer@gmail.com> # # This file is part of paramiko. # # Paramiko is free software; you can redistribute it and/or modify it under the # terms of the GNU Lesser General Public License as published by the Free # Software Foundation; either version 2.1 of the License, or (at your option) # any later version. # # Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR # A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License # along with Paramiko; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """ Packet handling """ import errno import os import socket import struct import threading import time from hmac import HMAC from paramiko import util from paramiko.common import ( linefeed_byte, cr_byte_value, MSG_NAMES, DEBUG, xffffffff, zero_byte, byte_ord, ) from paramiko.util import u from paramiko.ssh_exception import SSHException, ProxyCommandFailure from paramiko.message import Message def compute_hmac(key, message, digest_class): return HMAC(key, message, digest_class).digest() class NeedRekeyException(Exception): """ Exception indicating a rekey is needed. """ pass def first_arg(e): arg = None if type(e.args) is tuple and len(e.args) > 0: arg = e.args[0] return arg class Packetizer: """ Implementation of the base SSH packet protocol. """ # READ the secsh RFC's before raising these values. if anything, # they should probably be lower. REKEY_PACKETS = pow(2, 29) REKEY_BYTES = pow(2, 29) # Allow receiving this many packets after a re-key request before # terminating REKEY_PACKETS_OVERFLOW_MAX = pow(2, 29) # Allow receiving this many bytes after a re-key request before terminating REKEY_BYTES_OVERFLOW_MAX = pow(2, 29) def __init__(self, socket): self.__socket = socket self.__logger = None self.__closed = False self.__dump_packets = False self.__need_rekey = False self.__init_count = 0 self.__remainder = bytes() self._initial_kex_done = False # used for noticing when to re-key: self.__sent_bytes = 0 self.__sent_packets = 0 self.__received_bytes = 0 self.__received_packets = 0 self.__received_bytes_overflow = 0 self.__received_packets_overflow = 0 # current inbound/outbound ciphering: self.__block_size_out = 8 self.__block_size_in = 8 self.__mac_size_out = 0 self.__mac_size_in = 0 self.__block_engine_out = None self.__block_engine_in = None self.__sdctr_out = False self.__mac_engine_out = None self.__mac_engine_in = None self.__mac_key_out = bytes() self.__mac_key_in = bytes() self.__compress_engine_out = None self.__compress_engine_in = None self.__sequence_number_out = 0 self.__sequence_number_in = 0 self.__etm_out = False self.__etm_in = False # AEAD (eg aes128-gcm/aes256-gcm) cipher use self.__aead_out = False self.__aead_in = False self.__iv_out = None self.__iv_in = None # lock around outbound writes (packet computation) self.__write_lock = threading.RLock() # keepalives: self.__keepalive_interval = 0 self.__keepalive_last = time.time() self.__keepalive_callback = None self.__timer = None self.__handshake_complete = False self.__timer_expired = False @property def closed(self): return self.__closed def reset_seqno_out(self): self.__sequence_number_out = 0 def reset_seqno_in(self): self.__sequence_number_in = 0 def set_log(self, log): """ Set the Python log object to use for logging. """ self.__logger = log def set_outbound_cipher( self, block_engine, block_size, mac_engine, mac_size, mac_key, sdctr=False, etm=False, aead=False, iv_out=None, ): """ Switch outbound data cipher. :param etm: Set encrypt-then-mac from OpenSSH """ self.__block_engine_out = block_engine self.__sdctr_out = sdctr self.__block_size_out = block_size self.__mac_engine_out = mac_engine self.__mac_size_out = mac_size self.__mac_key_out = mac_key self.__sent_bytes = 0 self.__sent_packets = 0 self.__etm_out = etm self.__aead_out = aead self.__iv_out = iv_out # wait until the reset happens in both directions before clearing # rekey flag self.__init_count |= 1 if self.__init_count == 3: self.__init_count = 0 self.__need_rekey = False def set_inbound_cipher( self, block_engine, block_size, mac_engine, mac_size, mac_key, etm=False, aead=False, iv_in=None, ): """ Switch inbound data cipher. :param etm: Set encrypt-then-mac from OpenSSH """ self.__block_engine_in = block_engine self.__block_size_in = block_size self.__mac_engine_in = mac_engine self.__mac_size_in = mac_size self.__mac_key_in = mac_key self.__received_bytes = 0 self.__received_packets = 0 self.__received_bytes_overflow = 0 self.__received_packets_overflow = 0 self.__etm_in = etm self.__aead_in = aead self.__iv_in = iv_in # wait until the reset happens in both directions before clearing # rekey flag self.__init_count |= 2 if self.__init_count == 3: self.__init_count = 0 self.__need_rekey = False def set_outbound_compressor(self, compressor): self.__compress_engine_out = compressor def set_inbound_compressor(self, compressor): self.__compress_engine_in = compressor def close(self): self.__closed = True self.__socket.close() def set_hexdump(self, hexdump): self.__dump_packets = hexdump def get_hexdump(self): return self.__dump_packets def get_mac_size_in(self): return self.__mac_size_in def get_mac_size_out(self): return self.__mac_size_out def need_rekey(self): """ Returns ``True`` if a new set of keys needs to be negotiated. This will be triggered during a packet read or write, so it should be checked after every read or write, or at least after every few. """ return self.__need_rekey def set_keepalive(self, interval, callback): """ Turn on/off the callback keepalive. If ``interval`` seconds pass with no data read from or written to the socket, the callback will be executed and the timer will be reset. """ self.__keepalive_interval = interval self.__keepalive_callback = callback self.__keepalive_last = time.time() def read_timer(self): self.__timer_expired = True def start_handshake(self, timeout): """ Tells `Packetizer` that the handshake process started. Starts a book keeping timer that can signal a timeout in the handshake process. :param float timeout: amount of seconds to wait before timing out """ if not self.__timer: self.__timer = threading.Timer(float(timeout), self.read_timer) self.__timer.start() def handshake_timed_out(self): """ Checks if the handshake has timed out. If `start_handshake` wasn't called before the call to this function, the return value will always be `False`. If the handshake completed before a timeout was reached, the return value will be `False` :return: handshake time out status, as a `bool` """ if not self.__timer: return False if self.__handshake_complete: return False return self.__timer_expired def complete_handshake(self): """ Tells `Packetizer` that the handshake has completed. """ if self.__timer: self.__timer.cancel() self.__timer_expired = False self.__handshake_complete = True def read_all(self, n, check_rekey=False): """ Read as close to N bytes as possible, blocking as long as necessary. :param int n: number of bytes to read :return: the data read, as a `str` :raises: ``EOFError`` -- if the socket was closed before all the bytes could be read """ out = bytes() # handle over-reading from reading the banner line if len(self.__remainder) > 0: out = self.__remainder[:n] self.__remainder = self.__remainder[n:] n -= len(out) while n > 0: got_timeout = False if self.handshake_timed_out(): raise EOFError() try: x = self.__socket.recv(n) if len(x) == 0: raise EOFError() out += x n -= len(x) except socket.timeout: got_timeout = True except socket.error as e: # on Linux, sometimes instead of socket.timeout, we get # EAGAIN. this is a bug in recent (> 2.6.9) kernels but # we need to work around it. arg = first_arg(e) if arg == errno.EAGAIN: got_timeout = True elif self.__closed: raise EOFError() else: raise if got_timeout: if self.__closed: raise EOFError() if check_rekey and (len(out) == 0) and self.__need_rekey: raise NeedRekeyException() self._check_keepalive() return out def write_all(self, out): self.__keepalive_last = time.time() iteration_with_zero_as_return_value = 0 while len(out) > 0: retry_write = False try: n = self.__socket.send(out) except socket.timeout: retry_write = True except socket.error as e: arg = first_arg(e) if arg == errno.EAGAIN: retry_write = True else: n = -1 except ProxyCommandFailure: raise # so it doesn't get swallowed by the below catchall except Exception: # could be: (32, 'Broken pipe') n = -1 if retry_write: n = 0 if self.__closed: n = -1 else: if n == 0 and iteration_with_zero_as_return_value > 10: # We shouldn't retry the write, but we didn't # manage to send anything over the socket. This might be an # indication that we have lost contact with the remote # side, but are yet to receive an EOFError or other socket # errors. Let's give it some iteration to try and catch up. n = -1 iteration_with_zero_as_return_value += 1 if n < 0: raise EOFError() if n == len(out): break out = out[n:] return def readline(self, timeout): """ Read a line from the socket. We assume no data is pending after the line, so it's okay to attempt large reads. """ buf = self.__remainder while linefeed_byte not in buf: buf += self._read_timeout(timeout) n = buf.index(linefeed_byte) self.__remainder = buf[n + 1 :] buf = buf[:n] if (len(buf) > 0) and (buf[-1] == cr_byte_value): buf = buf[:-1] return u(buf) def _inc_iv_counter(self, iv): # Per https://www.rfc-editor.org/rfc/rfc5647.html#section-7.1 , # we increment the last 8 bytes of the 12-byte IV... iv_counter_b = iv[4:] iv_counter = int.from_bytes(iv_counter_b, "big") inc_iv_counter = iv_counter + 1 inc_iv_counter_b = inc_iv_counter.to_bytes(8, "big") # ...then re-concatenate it with the static first 4 bytes new_iv = iv[0:4] + inc_iv_counter_b return new_iv def send_message(self, data): """ Write a block of data using the current cipher, as an SSH block. """ # encrypt this sucka data = data.asbytes() cmd = byte_ord(data[0]) if cmd in MSG_NAMES: cmd_name = MSG_NAMES[cmd] else: cmd_name = "${:x}".format(cmd) orig_len = len(data) self.__write_lock.acquire() try: if self.__compress_engine_out is not None: data = self.__compress_engine_out(data) packet = self._build_packet(data) if self.__dump_packets: self._log( DEBUG, "Write packet <{}>, length {}".format(cmd_name, orig_len), ) self._log(DEBUG, util.format_binary(packet, "OUT: ")) if self.__block_engine_out is not None: if self.__etm_out: # packet length is not encrypted in EtM out = packet[0:4] + self.__block_engine_out.update( packet[4:] ) elif self.__aead_out: # Packet-length field is used as the 'associated data' # under AES-GCM, so like EtM, it's not encrypted. See # https://www.rfc-editor.org/rfc/rfc5647#section-7.3 out = packet[0:4] + self.__block_engine_out.encrypt( self.__iv_out, packet[4:], packet[0:4] ) self.__iv_out = self._inc_iv_counter(self.__iv_out) else: out = self.__block_engine_out.update(packet) else: out = packet # Append an MAC when needed (eg, not under AES-GCM) if self.__block_engine_out is not None and not self.__aead_out: packed = struct.pack(">I", self.__sequence_number_out) payload = packed + (out if self.__etm_out else packet) out += compute_hmac( self.__mac_key_out, payload, self.__mac_engine_out )[: self.__mac_size_out] next_seq = (self.__sequence_number_out + 1) & xffffffff if next_seq == 0 and not self._initial_kex_done: raise SSHException( "Sequence number rolled over during initial kex!" ) self.__sequence_number_out = next_seq self.write_all(out) self.__sent_bytes += len(out) self.__sent_packets += 1 sent_too_much = ( self.__sent_packets >= self.REKEY_PACKETS or self.__sent_bytes >= self.REKEY_BYTES ) if sent_too_much and not self.__need_rekey: # only ask once for rekeying msg = "Rekeying (hit {} packets, {} bytes sent)" self._log( DEBUG, msg.format(self.__sent_packets, self.__sent_bytes) ) self.__received_bytes_overflow = 0 self.__received_packets_overflow = 0 self._trigger_rekey() finally: self.__write_lock.release() def read_message(self): """ Only one thread should ever be in this function (no other locking is done). :raises: `.SSHException` -- if the packet is mangled :raises: `.NeedRekeyException` -- if the transport should rekey """ header = self.read_all(self.__block_size_in, check_rekey=True) if self.__etm_in: packet_size = struct.unpack(">I", header[:4])[0] remaining = packet_size - self.__block_size_in + 4 packet = header[4:] + self.read_all(remaining, check_rekey=False) mac = self.read_all(self.__mac_size_in, check_rekey=False) mac_payload = ( struct.pack(">II", self.__sequence_number_in, packet_size) + packet ) my_mac = compute_hmac( self.__mac_key_in, mac_payload, self.__mac_engine_in )[: self.__mac_size_in] if not util.constant_time_bytes_eq(my_mac, mac): raise SSHException("Mismatched MAC") header = packet if self.__aead_in: # Grab unencrypted (considered 'additional data' under GCM) packet # length. packet_size = struct.unpack(">I", header[:4])[0] aad = header[:4] remaining = ( packet_size - self.__block_size_in + 4 + self.__mac_size_in ) packet = header[4:] + self.read_all(remaining, check_rekey=False) header = self.__block_engine_in.decrypt(self.__iv_in, packet, aad) self.__iv_in = self._inc_iv_counter(self.__iv_in) if self.__block_engine_in is not None and not self.__aead_in: header = self.__block_engine_in.update(header) if self.__dump_packets: self._log(DEBUG, util.format_binary(header, "IN: ")) # When ETM or AEAD (GCM) are in use, we've already read the packet size # & decrypted everything, so just set the packet back to the header we # obtained. if self.__etm_in or self.__aead_in: packet = header # Otherwise, use the older non-ETM logic else: packet_size = struct.unpack(">I", header[:4])[0] # leftover contains decrypted bytes from the first block (after the # length field) leftover = header[4:] if (packet_size - len(leftover)) % self.__block_size_in != 0: raise SSHException("Invalid packet blocking") buf = self.read_all( packet_size + self.__mac_size_in - len(leftover) ) packet = buf[: packet_size - len(leftover)] post_packet = buf[packet_size - len(leftover) :] if self.__block_engine_in is not None: packet = self.__block_engine_in.update(packet) packet = leftover + packet if self.__dump_packets: self._log(DEBUG, util.format_binary(packet, "IN: ")) if self.__mac_size_in > 0 and not self.__etm_in and not self.__aead_in: mac = post_packet[: self.__mac_size_in] mac_payload = ( struct.pack(">II", self.__sequence_number_in, packet_size) + packet ) my_mac = compute_hmac( self.__mac_key_in, mac_payload, self.__mac_engine_in )[: self.__mac_size_in] if not util.constant_time_bytes_eq(my_mac, mac): raise SSHException("Mismatched MAC") padding = byte_ord(packet[0]) payload = packet[1 : packet_size - padding] if self.__dump_packets: self._log( DEBUG, "Got payload ({} bytes, {} padding)".format( packet_size, padding ), ) if self.__compress_engine_in is not None: payload = self.__compress_engine_in(payload) msg = Message(payload[1:]) msg.seqno = self.__sequence_number_in next_seq = (self.__sequence_number_in + 1) & xffffffff if next_seq == 0 and not self._initial_kex_done: raise SSHException( "Sequence number rolled over during initial kex!" ) self.__sequence_number_in = next_seq # check for rekey raw_packet_size = packet_size + self.__mac_size_in + 4 self.__received_bytes += raw_packet_size self.__received_packets += 1 if self.__need_rekey: # we've asked to rekey -- give them some packets to comply before # dropping the connection self.__received_bytes_overflow += raw_packet_size self.__received_packets_overflow += 1 if ( self.__received_packets_overflow >= self.REKEY_PACKETS_OVERFLOW_MAX ) or ( self.__received_bytes_overflow >= self.REKEY_BYTES_OVERFLOW_MAX ): raise SSHException( "Remote transport is ignoring rekey requests" ) elif (self.__received_packets >= self.REKEY_PACKETS) or ( self.__received_bytes >= self.REKEY_BYTES ): # only ask once for rekeying err = "Rekeying (hit {} packets, {} bytes received)" self._log( DEBUG, err.format(self.__received_packets, self.__received_bytes), ) self.__received_bytes_overflow = 0 self.__received_packets_overflow = 0 self._trigger_rekey() cmd = byte_ord(payload[0]) if cmd in MSG_NAMES: cmd_name = MSG_NAMES[cmd] else: cmd_name = "${:x}".format(cmd) if self.__dump_packets: self._log( DEBUG, "Read packet <{}>, length {}".format(cmd_name, len(payload)), ) return cmd, msg # ...protected... def _log(self, level, msg): if self.__logger is None: return if issubclass(type(msg), list): for m in msg: self.__logger.log(level, m) else: self.__logger.log(level, msg) def _check_keepalive(self): if ( not self.__keepalive_interval or not self.__block_engine_out or self.__need_rekey ): # wait till we're encrypting, and not in the middle of rekeying return now = time.time() if now > self.__keepalive_last + self.__keepalive_interval: self.__keepalive_callback() self.__keepalive_last = now def _read_timeout(self, timeout): start = time.time() while True: try: x = self.__socket.recv(128) if len(x) == 0: raise EOFError() break except socket.timeout: pass if self.__closed: raise EOFError() now = time.time() if now - start >= timeout: raise socket.timeout() return x def _build_packet(self, payload): # pad up at least 4 bytes, to nearest block-size (usually 8) bsize = self.__block_size_out # do not include payload length in computations for padding in EtM mode # (payload length won't be encrypted) addlen = 4 if self.__etm_out or self.__aead_out else 8 padding = 3 + bsize - ((len(payload) + addlen) % bsize) packet = struct.pack(">IB", len(payload) + padding + 1, padding) packet += payload if self.__sdctr_out or self.__block_engine_out is None: # cute trick i caught openssh doing: if we're not encrypting or # SDCTR mode (RFC4344), # don't waste random bytes for the padding packet += zero_byte * padding else: packet += os.urandom(padding) return packet def _trigger_rekey(self): # outside code should check for this flag self.__need_rekey = True
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