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Current File : //usr/lib/python3/dist-packages/paramiko/message.py |
# 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. """ Implementation of an SSH2 "message". """ import struct from paramiko import util from paramiko.common import zero_byte, max_byte, one_byte, asbytes from paramiko.py3compat import long, BytesIO, u, integer_types class Message(object): """ An SSH2 message is a stream of bytes that encodes some combination of strings, integers, bools, and infinite-precision integers (known in Python as longs). This class builds or breaks down such a byte stream. Normally you don't need to deal with anything this low-level, but it's exposed for people implementing custom extensions, or features that paramiko doesn't support yet. """ big_int = long(0xff000000) def __init__(self, content=None): """ Create a new SSH2 message. :param str content: the byte stream to use as the message content (passed in only when decomposing a message). """ if content is not None: self.packet = BytesIO(content) else: self.packet = BytesIO() def __str__(self): """ Return the byte stream content of this message, as a string/bytes obj. """ return self.asbytes() def __repr__(self): """ Returns a string representation of this object, for debugging. """ return "paramiko.Message(" + repr(self.packet.getvalue()) + ")" def asbytes(self): """ Return the byte stream content of this Message, as bytes. """ return self.packet.getvalue() def rewind(self): """ Rewind the message to the beginning as if no items had been parsed out of it yet. """ self.packet.seek(0) def get_remainder(self): """ Return the bytes (as a `str`) of this message that haven't already been parsed and returned. """ position = self.packet.tell() remainder = self.packet.read() self.packet.seek(position) return remainder def get_so_far(self): """ Returns the `str` bytes of this message that have been parsed and returned. The string passed into a message's constructor can be regenerated by concatenating ``get_so_far`` and `get_remainder`. """ position = self.packet.tell() self.rewind() return self.packet.read(position) def get_bytes(self, n): """ Return the next ``n`` bytes of the message (as a `str`), without decomposing into an int, decoded string, etc. Just the raw bytes are returned. Returns a string of ``n`` zero bytes if there weren't ``n`` bytes remaining in the message. """ b = self.packet.read(n) max_pad_size = 1 << 20 # Limit padding to 1 MB if len(b) < n < max_pad_size: return b + zero_byte * (n - len(b)) return b def get_byte(self): """ Return the next byte of the message, without decomposing it. This is equivalent to `get_bytes(1) <get_bytes>`. :return: the next (`str`) byte of the message, or ``'\000'`` if there aren't any bytes remaining. """ return self.get_bytes(1) def get_boolean(self): """ Fetch a boolean from the stream. """ b = self.get_bytes(1) return b != zero_byte def get_adaptive_int(self): """ Fetch an int from the stream. :return: a 32-bit unsigned `int`. """ byte = self.get_bytes(1) if byte == max_byte: return util.inflate_long(self.get_binary()) byte += self.get_bytes(3) return struct.unpack(">I", byte)[0] def get_int(self): """ Fetch an int from the stream. """ return struct.unpack(">I", self.get_bytes(4))[0] def get_int64(self): """ Fetch a 64-bit int from the stream. :return: a 64-bit unsigned integer (`long`). """ return struct.unpack(">Q", self.get_bytes(8))[0] def get_mpint(self): """ Fetch a long int (mpint) from the stream. :return: an arbitrary-length integer (`long`). """ return util.inflate_long(self.get_binary()) def get_string(self): """ Fetch a `str` from the stream. This could be a byte string and may contain unprintable characters. (It's not unheard of for a string to contain another byte-stream message.) """ return self.get_bytes(self.get_int()) def get_text(self): """ Fetch a Unicode string from the stream. """ return u(self.get_string()) def get_binary(self): """ Fetch a string from the stream. This could be a byte string and may contain unprintable characters. (It's not unheard of for a string to contain another byte-stream Message.) """ return self.get_bytes(self.get_int()) def get_list(self): """ Fetch a list of `strings <str>` from the stream. These are trivially encoded as comma-separated values in a string. """ return self.get_text().split(",") def add_bytes(self, b): """ Write bytes to the stream, without any formatting. :param str b: bytes to add """ self.packet.write(b) return self def add_byte(self, b): """ Write a single byte to the stream, without any formatting. :param str b: byte to add """ self.packet.write(b) return self def add_boolean(self, b): """ Add a boolean value to the stream. :param bool b: boolean value to add """ if b: self.packet.write(one_byte) else: self.packet.write(zero_byte) return self def add_int(self, n): """ Add an integer to the stream. :param int n: integer to add """ self.packet.write(struct.pack(">I", n)) return self def add_adaptive_int(self, n): """ Add an integer to the stream. :param int n: integer to add """ if n >= Message.big_int: self.packet.write(max_byte) self.add_string(util.deflate_long(n)) else: self.packet.write(struct.pack(">I", n)) return self def add_int64(self, n): """ Add a 64-bit int to the stream. :param long n: long int to add """ self.packet.write(struct.pack(">Q", n)) return self def add_mpint(self, z): """ Add a long int to the stream, encoded as an infinite-precision integer. This method only works on positive numbers. :param long z: long int to add """ self.add_string(util.deflate_long(z)) return self def add_string(self, s): """ Add a string to the stream. :param str s: string to add """ s = asbytes(s) self.add_int(len(s)) self.packet.write(s) return self def add_list(self, l): # noqa: E741 """ Add a list of strings to the stream. They are encoded identically to a single string of values separated by commas. (Yes, really, that's how SSH2 does it.) :param l: list of strings to add """ self.add_string(",".join(l)) return self def _add(self, i): if type(i) is bool: return self.add_boolean(i) elif isinstance(i, integer_types): return self.add_adaptive_int(i) elif type(i) is list: return self.add_list(i) else: return self.add_string(i) def add(self, *seq): """ Add a sequence of items to the stream. The values are encoded based on their type: str, int, bool, list, or long. .. warning:: Longs are encoded non-deterministically. Don't use this method. :param seq: the sequence of items """ for item in seq: self._add(item)