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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.,
# 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA.

"""
Useful functions used by the rest of paramiko.
"""

from __future__ import generators

import errno
import sys
import struct
import traceback
import threading
import logging

from paramiko.common import DEBUG, zero_byte, xffffffff, max_byte
from paramiko.py3compat import PY2, long, byte_chr, byte_ord, b
from paramiko.config import SSHConfig


def inflate_long(s, always_positive=False):
    """turns a normalized byte string into a long-int (adapted from Crypto.Util.number)"""
    out = long(0)
    negative = 0
    if not always_positive and (len(s) > 0) and (byte_ord(s[0]) >= 0x80):
        negative = 1
    if len(s) % 4:
        filler = zero_byte
        if negative:
            filler = max_byte
        # never convert this to ``s +=`` because this is a string, not a number
        # noinspection PyAugmentAssignment
        s = filler * (4 - len(s) % 4) + s
    for i in range(0, len(s), 4):
        out = (out << 32) + struct.unpack('>I', s[i:i+4])[0]
    if negative:
        out -= (long(1) << (8 * len(s)))
    return out

deflate_zero = zero_byte if PY2 else 0
deflate_ff = max_byte if PY2 else 0xff


def deflate_long(n, add_sign_padding=True):
    """turns a long-int into a normalized byte string (adapted from Crypto.Util.number)"""
    # after much testing, this algorithm was deemed to be the fastest
    s = bytes()
    n = long(n)
    while (n != 0) and (n != -1):
        s = struct.pack('>I', n & xffffffff) + s
        n >>= 32
    # strip off leading zeros, FFs
    for i in enumerate(s):
        if (n == 0) and (i[1] != deflate_zero):
            break
        if (n == -1) and (i[1] != deflate_ff):
            break
    else:
        # degenerate case, n was either 0 or -1
        i = (0,)
        if n == 0:
            s = zero_byte
        else:
            s = max_byte
    s = s[i[0]:]
    if add_sign_padding:
        if (n == 0) and (byte_ord(s[0]) >= 0x80):
            s = zero_byte + s
        if (n == -1) and (byte_ord(s[0]) < 0x80):
            s = max_byte + s
    return s


def format_binary(data, prefix=''):
    x = 0
    out = []
    while len(data) > x + 16:
        out.append(format_binary_line(data[x:x+16]))
        x += 16
    if x < len(data):
        out.append(format_binary_line(data[x:]))
    return [prefix + x for x in out]


def format_binary_line(data):
    left = ' '.join(['%02X' % byte_ord(c) for c in data])
    right = ''.join([('.%c..' % c)[(byte_ord(c)+63)//95] for c in data])
    return '%-50s %s' % (left, right)


def safe_string(s):
    out = b('')
    for c in s:
        i = byte_ord(c)
        if 32 <= i <= 127:
            out += byte_chr(i)
        else:
            out += b('%%%02X' % i)
    return out


def bit_length(n):
    try:
        return n.bit_length()
    except AttributeError:
        norm = deflate_long(n, False)
        hbyte = byte_ord(norm[0])
        if hbyte == 0:
            return 1
        bitlen = len(norm) * 8
        while not (hbyte & 0x80):
            hbyte <<= 1
            bitlen -= 1
        return bitlen


def tb_strings():
    return ''.join(traceback.format_exception(*sys.exc_info())).split('\n')


def generate_key_bytes(hash_alg, salt, key, nbytes):
    """
    Given a password, passphrase, or other human-source key, scramble it
    through a secure hash into some keyworthy bytes.  This specific algorithm
    is used for encrypting/decrypting private key files.

    :param function hash_alg: A function which creates a new hash object, such
        as ``hashlib.sha256``.
    :param salt: data to salt the hash with.
    :type salt: byte string
    :param str key: human-entered password or passphrase.
    :param int nbytes: number of bytes to generate.
    :return: Key data `str`
    """
    keydata = bytes()
    digest = bytes()
    if len(salt) > 8:
        salt = salt[:8]
    while nbytes > 0:
        hash_obj = hash_alg()
        if len(digest) > 0:
            hash_obj.update(digest)
        hash_obj.update(b(key))
        hash_obj.update(salt)
        digest = hash_obj.digest()
        size = min(nbytes, len(digest))
        keydata += digest[:size]
        nbytes -= size
    return keydata


def load_host_keys(filename):
    """
    Read a file of known SSH host keys, in the format used by openssh, and
    return a compound dict of ``hostname -> keytype ->`` `PKey
    <paramiko.pkey.PKey>`. The hostname may be an IP address or DNS name.  The
    keytype will be either ``"ssh-rsa"`` or ``"ssh-dss"``.

    This type of file unfortunately doesn't exist on Windows, but on posix,
    it will usually be stored in ``os.path.expanduser("~/.ssh/known_hosts")``.

    Since 1.5.3, this is just a wrapper around `.HostKeys`.

    :param str filename: name of the file to read host keys from
    :return:
        nested dict of `.PKey` objects, indexed by hostname and then keytype
    """
    from paramiko.hostkeys import HostKeys
    return HostKeys(filename)


def parse_ssh_config(file_obj):
    """
    Provided only as a backward-compatible wrapper around `.SSHConfig`.
    """
    config = SSHConfig()
    config.parse(file_obj)
    return config


def lookup_ssh_host_config(hostname, config):
    """
    Provided only as a backward-compatible wrapper around `.SSHConfig`.
    """
    return config.lookup(hostname)


def mod_inverse(x, m):
    # it's crazy how small Python can make this function.
    u1, u2, u3 = 1, 0, m
    v1, v2, v3 = 0, 1, x

    while v3 > 0:
        q = u3 // v3
        u1, v1 = v1, u1 - v1 * q
        u2, v2 = v2, u2 - v2 * q
        u3, v3 = v3, u3 - v3 * q
    if u2 < 0:
        u2 += m
    return u2

_g_thread_ids = {}
_g_thread_counter = 0
_g_thread_lock = threading.Lock()


def get_thread_id():
    global _g_thread_ids, _g_thread_counter, _g_thread_lock
    tid = id(threading.currentThread())
    try:
        return _g_thread_ids[tid]
    except KeyError:
        _g_thread_lock.acquire()
        try:
            _g_thread_counter += 1
            ret = _g_thread_ids[tid] = _g_thread_counter
        finally:
            _g_thread_lock.release()
        return ret


def log_to_file(filename, level=DEBUG):
    """send paramiko logs to a logfile, if they're not already going somewhere"""
    l = logging.getLogger("paramiko")
    if len(l.handlers) > 0:
        return
    l.setLevel(level)
    f = open(filename, 'w')
    lh = logging.StreamHandler(f)
    lh.setFormatter(logging.Formatter('%(levelname)-.3s [%(asctime)s.%(msecs)03d] thr=%(_threadid)-3d %(name)s: %(message)s',
                                      '%Y%m%d-%H:%M:%S'))
    l.addHandler(lh)


# make only one filter object, so it doesn't get applied more than once
class PFilter (object):
    def filter(self, record):
        record._threadid = get_thread_id()
        return True
_pfilter = PFilter()


def get_logger(name):
    l = logging.getLogger(name)
    l.addFilter(_pfilter)
    return l


def retry_on_signal(function):
    """Retries function until it doesn't raise an EINTR error"""
    while True:
        try:
            return function()
        except EnvironmentError as e:
            if e.errno != errno.EINTR:
                raise


def constant_time_bytes_eq(a, b):
    if len(a) != len(b):
        return False
    res = 0
    # noinspection PyUnresolvedReferences
    for i in (xrange if PY2 else range)(len(a)):
        res |= byte_ord(a[i]) ^ byte_ord(b[i])
    return res == 0


class ClosingContextManager(object):
    def __enter__(self):
        return self

    def __exit__(self, type, value, traceback):
        self.close()


def clamp_value(minimum, val, maximum):
    return max(minimum, min(val, maximum))