Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.145.81.250
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /lib/python3.6/site-packages/isc/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /lib/python3.6/site-packages/isc/dnskey.py
############################################################################
# Copyright (C) Internet Systems Consortium, Inc. ("ISC")
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, you can obtain one at https://mozilla.org/MPL/2.0/.
#
# See the COPYRIGHT file distributed with this work for additional
# information regarding copyright ownership.
############################################################################

import os
import time
import calendar
from subprocess import Popen, PIPE

########################################################################
# Class dnskey
########################################################################
class TimePast(Exception):
    def __init__(self, key, prop, value):
        super(TimePast, self).__init__('%s time for key %s (%d) is already past'
                                       % (prop, key, value))

class dnskey:
    """An individual DNSSEC key.  Identified by path, name, algorithm, keyid.
    Contains a dictionary of metadata events."""

    _PROPS = ('Created', 'Publish', 'Activate', 'Inactive', 'Delete',
              'Revoke', 'DSPublish', 'SyncPublish', 'SyncDelete')
    _OPTS = (None, '-P', '-A', '-I', '-D', '-R', None, '-Psync', '-Dsync')

    _ALGNAMES = (None, 'RSAMD5', 'DH', 'DSA', 'ECC', 'RSASHA1',
                 'NSEC3DSA', 'NSEC3RSASHA1', 'RSASHA256', None,
                 'RSASHA512', None, 'ECCGOST', 'ECDSAP256SHA256',
                 'ECDSAP384SHA384', 'ED25519', 'ED448')

    def __init__(self, key, directory=None, keyttl=None):
        # this makes it possible to use algname as a class or instance method
        if isinstance(key, tuple) and len(key) == 3:
            self._dir = directory or '.'
            (name, alg, keyid) = key
            self.fromtuple(name, alg, keyid, keyttl)

        self._dir = directory or os.path.dirname(key) or '.'
        key = os.path.basename(key)
        (name, alg, keyid) = key.split('+')
        name = name[1:-1]
        alg = int(alg)
        keyid = int(keyid.split('.')[0])
        self.fromtuple(name, alg, keyid, keyttl)

    def fromtuple(self, name, alg, keyid, keyttl):
        if name.endswith('.'):
            fullname = name
            name = name.rstrip('.')
        else:
            fullname = name + '.'

        keystr = "K%s+%03d+%05d" % (fullname, alg, keyid)
        key_file = self._dir + (self._dir and os.sep or '') + keystr + ".key"
        private_file = (self._dir + (self._dir and os.sep or '') +
                        keystr + ".private")

        self.keystr = keystr

        self.name = name
        self.alg = int(alg)
        self.keyid = int(keyid)
        self.fullname = fullname

        kfp = open(key_file, "r")
        for line in kfp:
            if line[0] == ';':
                continue
            tokens = line.split()
            if not tokens:
                continue

            if tokens[1].lower() in ('in', 'ch', 'hs'):
                septoken = 3
                self.ttl = keyttl
            else:
                septoken = 4
                self.ttl = int(tokens[1]) if not keyttl else keyttl

            if (int(tokens[septoken]) & 0x1) == 1:
                self.sep = True
            else:
                self.sep = False
        kfp.close()

        pfp = open(private_file, "rU")

        self.metadata = dict()
        self._changed = dict()
        self._delete = dict()
        self._times = dict()
        self._fmttime = dict()
        self._timestamps = dict()
        self._original = dict()
        self._origttl = None

        for line in pfp:
            line = line.strip()
            if not line or line[0] in ('!#'):
                continue
            punctuation = [line.find(c) for c in ':= '] + [len(line)]
            found = min([pos for pos in punctuation if pos != -1])
            name = line[:found].rstrip()
            value = line[found:].lstrip(":= ").rstrip()
            self.metadata[name] = value

        for prop in dnskey._PROPS:
            self._changed[prop] = False
            if prop in self.metadata:
                t = self.parsetime(self.metadata[prop])
                self._times[prop] = t
                self._fmttime[prop] = self.formattime(t)
                self._timestamps[prop] = self.epochfromtime(t)
                self._original[prop] = self._timestamps[prop]
            else:
                self._times[prop] = None
                self._fmttime[prop] = None
                self._timestamps[prop] = None
                self._original[prop] = None

        pfp.close()

    def commit(self, settime_bin, **kwargs):
        quiet = kwargs.get('quiet', False)
        cmd = []
        first = True

        if self._origttl is not None:
            cmd += ["-L", str(self.ttl)]

        for prop, opt in zip(dnskey._PROPS, dnskey._OPTS):
            if not opt or not self._changed[prop]:
                continue

            delete = False
            if prop in self._delete and self._delete[prop]:
                delete = True

            when = 'none' if delete else self._fmttime[prop]
            cmd += [opt, when]
            first = False

        if cmd:
            fullcmd = [settime_bin, "-K", self._dir] + cmd + [self.keystr,]
            if not quiet:
                print('# ' + ' '.join(fullcmd))
            try:
                p = Popen(fullcmd, stdout=PIPE, stderr=PIPE)
                stdout, stderr = p.communicate()
                if stderr:
                    raise Exception(str(stderr))
            except Exception as e:
                raise Exception('unable to run %s: %s' %
                                (settime_bin, str(e)))
            self._origttl = None
            for prop in dnskey._PROPS:
                self._original[prop] = self._timestamps[prop]
                self._changed[prop] = False

    @classmethod
    def generate(cls, keygen_bin, randomdev, keys_dir, name, alg, keysize, sep,
                 ttl, publish=None, activate=None, **kwargs):
        quiet = kwargs.get('quiet', False)

        keygen_cmd = [keygen_bin, "-q", "-K", keys_dir, "-L", str(ttl)]

        if randomdev:
            keygen_cmd += ["-r", randomdev]

        if sep:
            keygen_cmd.append("-fk")

        if alg:
            keygen_cmd += ["-a", alg]

        if keysize:
            keygen_cmd += ["-b", str(keysize)]

        if publish:
            t = dnskey.timefromepoch(publish)
            keygen_cmd += ["-P", dnskey.formattime(t)]

        if activate:
            t = dnskey.timefromepoch(activate)
            keygen_cmd += ["-A", dnskey.formattime(activate)]

        keygen_cmd.append(name)

        if not quiet:
            print('# ' + ' '.join(keygen_cmd))

        p = Popen(keygen_cmd, stdout=PIPE, stderr=PIPE)
        stdout, stderr = p.communicate()
        if stderr:
            raise Exception('unable to generate key: ' + str(stderr))

        try:
            keystr = stdout.splitlines()[0].decode('ascii')
            newkey = dnskey(keystr, keys_dir, ttl)
            return newkey
        except Exception as e:
            raise Exception('unable to parse generated key: %s' % str(e))

    def generate_successor(self, keygen_bin, randomdev, prepublish, **kwargs):
        quiet = kwargs.get('quiet', False)

        if not self.inactive():
            raise Exception("predecessor key %s has no inactive date" % self)

        keygen_cmd = [keygen_bin, "-q", "-K", self._dir, "-S", self.keystr]

        if self.ttl:
            keygen_cmd += ["-L", str(self.ttl)]

        if randomdev:
            keygen_cmd += ["-r", randomdev]

        if prepublish:
            keygen_cmd += ["-i", str(prepublish)]

        if not quiet:
            print('# ' + ' '.join(keygen_cmd))

        p = Popen(keygen_cmd, stdout=PIPE, stderr=PIPE)
        stdout, stderr = p.communicate()
        if stderr:
            raise Exception('unable to generate key: ' + stderr)

        try:
            keystr = stdout.splitlines()[0].decode('ascii')
            newkey = dnskey(keystr, self._dir, self.ttl)
            return newkey
        except:
            raise Exception('unable to generate successor for key %s' % self)

    @staticmethod
    def algstr(alg):
        name = None
        if alg in range(len(dnskey._ALGNAMES)):
            name = dnskey._ALGNAMES[alg]
        return name if name else ("%03d" % alg)

    @staticmethod
    def algnum(alg):
        if not alg:
            return None
        alg = alg.upper()
        try:
            return dnskey._ALGNAMES.index(alg)
        except ValueError:
            return None

    def algname(self, alg=None):
        return self.algstr(alg or self.alg)

    @staticmethod
    def timefromepoch(secs):
        return time.gmtime(secs)

    @staticmethod
    def parsetime(string):
        return time.strptime(string, "%Y%m%d%H%M%S")

    @staticmethod
    def epochfromtime(t):
        return calendar.timegm(t)

    @staticmethod
    def formattime(t):
        return time.strftime("%Y%m%d%H%M%S", t)

    def setmeta(self, prop, secs, now, **kwargs):
        force = kwargs.get('force', False)

        if self._timestamps[prop] == secs:
            return

        if self._original[prop] is not None and \
           self._original[prop] < now and not force:
            raise TimePast(self, prop, self._original[prop])

        if secs is None:
            self._changed[prop] = False \
                if self._original[prop] is None else True

            self._delete[prop] = True
            self._timestamps[prop] = None
            self._times[prop] = None
            self._fmttime[prop] = None
            return

        t = self.timefromepoch(secs)
        self._timestamps[prop] = secs
        self._times[prop] = t
        self._fmttime[prop] = self.formattime(t)
        self._changed[prop] = False if \
            self._original[prop] == self._timestamps[prop] else True

    def gettime(self, prop):
        return self._times[prop]

    def getfmttime(self, prop):
        return self._fmttime[prop]

    def gettimestamp(self, prop):
        return self._timestamps[prop]

    def created(self):
        return self._timestamps["Created"]

    def syncpublish(self):
        return self._timestamps["SyncPublish"]

    def setsyncpublish(self, secs, now=time.time(), **kwargs):
        self.setmeta("SyncPublish", secs, now, **kwargs)

    def publish(self):
        return self._timestamps["Publish"]

    def setpublish(self, secs, now=time.time(), **kwargs):
        self.setmeta("Publish", secs, now, **kwargs)

    def activate(self):
        return self._timestamps["Activate"]

    def setactivate(self, secs, now=time.time(), **kwargs):
        self.setmeta("Activate", secs, now, **kwargs)

    def revoke(self):
        return self._timestamps["Revoke"]

    def setrevoke(self, secs, now=time.time(), **kwargs):
        self.setmeta("Revoke", secs, now, **kwargs)

    def inactive(self):
        return self._timestamps["Inactive"]

    def setinactive(self, secs, now=time.time(), **kwargs):
        self.setmeta("Inactive", secs, now, **kwargs)

    def delete(self):
        return self._timestamps["Delete"]

    def setdelete(self, secs, now=time.time(), **kwargs):
        self.setmeta("Delete", secs, now, **kwargs)

    def syncdelete(self):
        return self._timestamps["SyncDelete"]

    def setsyncdelete(self, secs, now=time.time(), **kwargs):
        self.setmeta("SyncDelete", secs, now, **kwargs)

    def setttl(self, ttl):
        if ttl is None or self.ttl == ttl:
            return
        elif self._origttl is None:
            self._origttl = self.ttl
            self.ttl = ttl
        elif self._origttl == ttl:
            self._origttl = None
            self.ttl = ttl
        else:
            self.ttl = ttl

    def keytype(self):
        return ("KSK" if self.sep else "ZSK")

    def __str__(self):
        return ("%s/%s/%05d"
                % (self.name, self.algname(), self.keyid))

    def __repr__(self):
        return ("%s/%s/%05d (%s)"
                % (self.name, self.algname(), self.keyid,
                   ("KSK" if self.sep else "ZSK")))

    def date(self):
        return (self.activate() or self.publish() or self.created())

    # keys are sorted first by zone name, then by algorithm. within
    # the same name/algorithm, they are sorted according to their
    # 'date' value: the activation date if set, OR the publication
    # if set, OR the creation date.
    def __lt__(self, other):
        if self.name != other.name:
            return self.name < other.name
        if self.alg != other.alg:
            return self.alg < other.alg
        return self.date() < other.date()

    def check_prepub(self, output=None):
        def noop(*args, **kwargs): pass
        if not output:
            output = noop

        now = int(time.time())
        a = self.activate()
        p = self.publish()

        if not a:
            return False

        if not p:
            if a > now:
                output("WARNING: Key %s is scheduled for\n"
                       "\t activation but not for publication."
                       % repr(self))
            return False

        if p <= now and a <= now:
            return True

        if p == a:
            output("WARNING: %s is scheduled to be\n"
                   "\t published and activated at the same time. This\n"
                   "\t could result in a coverage gap if the zone was\n"
                   "\t previously signed. Activation should be at least\n"
                   "\t %s after publication."
                   % (repr(self),
                       dnskey.duration(self.ttl) or 'one DNSKEY TTL'))
            return True

        if a < p:
            output("WARNING: Key %s is active before it is published"
                   % repr(self))
            return False

        if self.ttl is not None and a - p < self.ttl:
            output("WARNING: Key %s is activated too soon\n"
                   "\t after publication; this could result in coverage \n"
                   "\t gaps due to resolver caches containing old data.\n"
                   "\t Activation should be at least %s after\n"
                   "\t publication."
                   % (repr(self),
                      dnskey.duration(self.ttl) or 'one DNSKEY TTL'))
            return False

        return True

    def check_postpub(self, output = None, timespan = None):
        def noop(*args, **kwargs): pass
        if output is None:
            output = noop

        if timespan is None:
            timespan = self.ttl

        if timespan is None:
            output("WARNING: Key %s using default TTL." % repr(self))
            timespan = (60*60*24)

        now = time.time()
        d = self.delete()
        i = self.inactive()

        if not d:
            return False

        if not i:
            if d > now:
                output("WARNING: Key %s is scheduled for\n"
                       "\t deletion but not for inactivation." % repr(self))
            return False

        if d < now and i < now:
            return True

        if d < i:
            output("WARNING: Key %s is scheduled for\n"
                   "\t deletion before inactivation."
                   % repr(self))
            return False

        if d - i < timespan:
            output("WARNING: Key %s scheduled for\n"
                   "\t deletion too soon after deactivation; this may \n"
                   "\t result in coverage gaps due to resolver caches\n"
                   "\t containing old data.  Deletion should be at least\n"
                   "\t %s after inactivation."
                   % (repr(self), dnskey.duration(timespan)))
            return False

        return True

    @staticmethod
    def duration(secs):
        if not secs:
            return None

        units = [("year", 60*60*24*365),
                 ("month", 60*60*24*30),
                 ("day", 60*60*24),
                 ("hour", 60*60),
                 ("minute", 60),
                 ("second", 1)]

        output = []
        for unit in units:
            v, secs = secs // unit[1], secs % unit[1]
            if v > 0:
                output.append("%d %s%s" % (v, unit[0], "s" if v > 1 else ""))

        return ", ".join(output)


Youez - 2016 - github.com/yon3zu
LinuXploit