436 lines
15 KiB
Python
436 lines
15 KiB
Python
#!/usr/bin/python
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# -*- coding: utf-8 -*-
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# (c) 2013, James Cammarata <jcammarata@ansibleworks.com>
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#
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# This file is part of Ansible
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#
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# Ansible is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# Ansible is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
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DOCUMENTATION = '''
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---
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module: accelerate
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short_description: Enable accelerated mode on remote node
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description:
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- This modules launches an ephemeral I(accelerate) daemon on the remote node which
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Ansible can use to communicate with nodes at high speed.
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- The daemon listens on a configurable port for a configurable amount of time.
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- Fireball mode is AES encrypted
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version_added: "1.3"
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options:
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port:
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description:
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- TCP port for the socket connection
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required: false
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default: 5099
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aliases: []
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timeout:
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description:
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- The number of seconds the socket will wait for data. If none is received when the timeout value is reached, the connection will be closed.
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required: false
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default: 300
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aliases: []
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minutes:
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description:
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- The I(accelerate) listener daemon is started on nodes and will stay around for
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this number of minutes before turning itself off.
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required: false
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default: 30
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notes:
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- See the advanced playbooks chapter for more about using accelerated mode.
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requirements: [ "python-keyczar" ]
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author: James Cammarata
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'''
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EXAMPLES = '''
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# To use accelerate mode, simply add "accelerate: true" to your play. The initial
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# key exchange and starting up of the daemon will occur over SSH, but all commands and
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# subsequent actions will be conducted over the raw socket connection using AES encryption
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- hosts: devservers
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accelerate: true
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tasks:
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- command: /usr/bin/anything
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'''
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import base64
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import getpass
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import os
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import os.path
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import shutil
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import signal
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import socket
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import struct
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import sys
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import syslog
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import tempfile
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import time
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import traceback
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import SocketServer
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from datetime import datetime
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from threading import Thread
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syslog.openlog('ansible-%s' % os.path.basename(__file__))
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PIDFILE = os.path.expanduser("~/.accelerate.pid")
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# the chunk size to read and send, assuming mtu 1500 and
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# leaving room for base64 (+33%) encoding and header (100 bytes)
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# 4 * (975/3) + 100 = 1400
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# which leaves room for the TCP/IP header
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CHUNK_SIZE=10240
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# FIXME: this all should be moved to module_common, as it's
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# pretty much a copy from the callbacks/util code
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DEBUG_LEVEL=0
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def log(msg, cap=0):
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global DEBUG_LEVEL
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if cap >= DEBUG_LEVEL:
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syslog.syslog(syslog.LOG_NOTICE|syslog.LOG_DAEMON, msg)
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def vv(msg):
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log(msg, cap=2)
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def vvv(msg):
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log(msg, cap=3)
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def vvvv(msg):
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log(msg, cap=4)
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if os.path.exists(PIDFILE):
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try:
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data = int(open(PIDFILE).read())
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try:
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os.kill(data, signal.SIGKILL)
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except OSError:
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pass
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except ValueError:
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pass
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os.unlink(PIDFILE)
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HAS_KEYCZAR = False
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try:
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from keyczar.keys import AesKey
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HAS_KEYCZAR = True
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except ImportError:
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pass
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# NOTE: this shares a fair amount of code in common with async_wrapper, if async_wrapper were a new module we could move
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# this into utils.module_common and probably should anyway
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def daemonize_self(module, password, port, minutes):
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# daemonizing code: http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/66012
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try:
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pid = os.fork()
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if pid > 0:
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vvv("exiting pid %s" % pid)
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# exit first parent
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module.exit_json(msg="daemonized accelerate on port %s for %s minutes" % (port, minutes))
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except OSError, e:
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log("fork #1 failed: %d (%s)" % (e.errno, e.strerror))
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sys.exit(1)
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# decouple from parent environment
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os.chdir("/")
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os.setsid()
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os.umask(022)
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# do second fork
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try:
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pid = os.fork()
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if pid > 0:
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log("daemon pid %s, writing %s" % (pid, PIDFILE))
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pid_file = open(PIDFILE, "w")
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pid_file.write("%s" % pid)
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pid_file.close()
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vvv("pidfile written")
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sys.exit(0)
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except OSError, e:
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log("fork #2 failed: %d (%s)" % (e.errno, e.strerror))
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sys.exit(1)
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dev_null = file('/dev/null','rw')
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os.dup2(dev_null.fileno(), sys.stdin.fileno())
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os.dup2(dev_null.fileno(), sys.stdout.fileno())
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os.dup2(dev_null.fileno(), sys.stderr.fileno())
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log("daemonizing successful")
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class ThreadWithReturnValue(Thread):
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def __init__(self, group=None, target=None, name=None, args=(), kwargs={}, Verbose=None):
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Thread.__init__(self, group, target, name, args, kwargs, Verbose)
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self._return = None
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def run(self):
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if self._Thread__target is not None:
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self._return = self._Thread__target(*self._Thread__args,
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**self._Thread__kwargs)
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def join(self,timeout=None):
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Thread.join(self, timeout=timeout)
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return self._return
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class ThreadedTCPServer(SocketServer.ThreadingTCPServer):
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def __init__(self, server_address, RequestHandlerClass, module, password, timeout):
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self.module = module
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self.key = AesKey.Read(password)
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self.allow_reuse_address = True
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self.timeout = timeout
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SocketServer.ThreadingTCPServer.__init__(self, server_address, RequestHandlerClass)
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class ThreadedTCPRequestHandler(SocketServer.BaseRequestHandler):
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def send_data(self, data):
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packed_len = struct.pack('!Q', len(data))
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return self.request.sendall(packed_len + data)
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def recv_data(self):
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header_len = 8 # size of a packed unsigned long long
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data = ""
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vvvv("in recv_data(), waiting for the header")
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while len(data) < header_len:
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d = self.request.recv(header_len - len(data))
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if not d:
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vvv("received nothing, bailing out")
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return None
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data += d
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vvvv("in recv_data(), got the header, unpacking")
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data_len = struct.unpack('!Q',data[:header_len])[0]
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data = data[header_len:]
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vvvv("data received so far (expecting %d): %d" % (data_len,len(data)))
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while len(data) < data_len:
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d = self.request.recv(data_len - len(data))
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if not d:
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vvv("received nothing, bailing out")
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return None
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data += d
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vvvv("data received so far (expecting %d): %d" % (data_len,len(data)))
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vvvv("received all of the data, returning")
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return data
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def handle(self):
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try:
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while True:
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vvvv("waiting for data")
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data = self.recv_data()
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if not data:
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vvvv("received nothing back from recv_data(), breaking out")
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break
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try:
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vvvv("got data, decrypting")
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data = self.server.key.Decrypt(data)
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vvvv("decryption done")
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except:
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vv("bad decrypt, skipping...")
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data2 = json.dumps(dict(rc=1))
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data2 = self.server.key.Encrypt(data2)
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send_data(client, data2)
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return
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vvvv("loading json from the data")
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data = json.loads(data)
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mode = data['mode']
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response = {}
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last_pong = datetime.now()
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if mode == 'command':
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vvvv("received a command request, running it")
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twrv = ThreadWithReturnValue(target=self.command, args=(data,))
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twrv.start()
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response = None
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while twrv.is_alive():
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if (datetime.now() - last_pong).seconds >= 15:
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last_pong = datetime.now()
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vvvv("command still running, sending keepalive packet")
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data2 = json.dumps(dict(pong=True))
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data2 = self.server.key.Encrypt(data2)
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self.send_data(data2)
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time.sleep(0.1)
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response = twrv._return
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vvvv("thread is done, response from join was %s" % response)
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elif mode == 'put':
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vvvv("received a put request, putting it")
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response = self.put(data)
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elif mode == 'fetch':
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vvvv("received a fetch request, getting it")
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response = self.fetch(data)
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vvvv("response result is %s" % str(response))
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data2 = json.dumps(response)
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data2 = self.server.key.Encrypt(data2)
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vvvv("sending the response back to the controller")
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self.send_data(data2)
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vvvv("done sending the response")
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except:
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tb = traceback.format_exc()
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log("encountered an unhandled exception in the handle() function")
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log("error was:\n%s" % tb)
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data2 = json.dumps(dict(rc=1, failed=True, msg="unhandled error in the handle() function"))
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data2 = self.server.key.Encrypt(data2)
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self.send_data(data2)
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def command(self, data):
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if 'cmd' not in data:
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return dict(failed=True, msg='internal error: cmd is required')
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if 'tmp_path' not in data:
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return dict(failed=True, msg='internal error: tmp_path is required')
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if 'executable' not in data:
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return dict(failed=True, msg='internal error: executable is required')
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vvvv("executing: %s" % data['cmd'])
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rc, stdout, stderr = self.server.module.run_command(data['cmd'], executable=data['executable'], close_fds=True)
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if stdout is None:
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stdout = ''
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if stderr is None:
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stderr = ''
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vvvv("got stdout: %s" % stdout)
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vvvv("got stderr: %s" % stderr)
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return dict(rc=rc, stdout=stdout, stderr=stderr)
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def fetch(self, data):
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if 'in_path' not in data:
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return dict(failed=True, msg='internal error: in_path is required')
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try:
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fd = file(data['in_path'], 'rb')
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fstat = os.stat(data['in_path'])
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vvv("FETCH file is %d bytes" % fstat.st_size)
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while fd.tell() < fstat.st_size:
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data = fd.read(CHUNK_SIZE)
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last = False
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if fd.tell() >= fstat.st_size:
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last = True
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data = dict(data=base64.b64encode(data), last=last)
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data = json.dumps(data)
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data = self.server.key.Encrypt(data)
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if self.send_data(data):
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return dict(failed=True, stderr="failed to send data")
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response = self.recv_data()
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if not response:
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log("failed to get a response, aborting")
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return dict(failed=True, stderr="Failed to get a response from %s" % self.host)
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response = self.server.key.Decrypt(response)
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response = json.loads(response)
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if response.get('failed',False):
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log("got a failed response from the master")
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return dict(failed=True, stderr="Master reported failure, aborting transfer")
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except Exception, e:
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tb = traceback.format_exc()
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log("failed to fetch the file: %s" % tb)
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return dict(failed=True, stderr="Could not fetch the file: %s" % str(e))
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finally:
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fd.close()
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return dict()
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def put(self, data):
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if 'data' not in data:
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return dict(failed=True, msg='internal error: data is required')
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if 'out_path' not in data:
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return dict(failed=True, msg='internal error: out_path is required')
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final_path = None
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final_user = None
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if 'user' in data and data.get('user') != getpass.getuser():
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vv("the target user doesn't match this user, we'll move the file into place via sudo")
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(fd,out_path) = tempfile.mkstemp(prefix='ansible.', dir=os.path.expanduser('~/.ansible/tmp/'))
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out_fd = os.fdopen(fd, 'w', 0)
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final_path = data['out_path']
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final_user = data['user']
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else:
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out_path = data['out_path']
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out_fd = open(out_path, 'w')
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try:
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bytes=0
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while True:
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out = base64.b64decode(data['data'])
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bytes += len(out)
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out_fd.write(out)
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response = json.dumps(dict())
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response = self.server.key.Encrypt(response)
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self.send_data(response)
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if data['last']:
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break
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data = self.recv_data()
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if not data:
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raise ""
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data = self.server.key.Decrypt(data)
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data = json.loads(data)
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except:
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tb = traceback.format_exc()
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log("failed to put the file: %s" % tb)
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return dict(failed=True, stdout="Could not write the file")
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finally:
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vvvv("wrote %d bytes" % bytes)
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out_fd.close()
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if final_path:
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vvv("moving %s to %s" % (out_path, final_path))
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self.server.module.atomic_move(out_path, final_path)
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return dict()
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def daemonize(module, password, port, timeout, minutes):
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try:
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daemonize_self(module, password, port, minutes)
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def catcher(signum, _):
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module.exit_json(msg='timer expired')
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signal.signal(signal.SIGALRM, catcher)
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signal.setitimer(signal.ITIMER_REAL, 60 * minutes)
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server = ThreadedTCPServer(("0.0.0.0", port), ThreadedTCPRequestHandler, module, password, timeout)
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server.allow_reuse_address = True
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vv("serving!")
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server.serve_forever(poll_interval=1.0)
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except Exception, e:
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tb = traceback.format_exc()
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log("exception caught, exiting accelerated mode: %s\n%s" % (e, tb))
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sys.exit(0)
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def main():
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global DEBUG_LEVEL
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module = AnsibleModule(
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argument_spec = dict(
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port=dict(required=False, default=5099),
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timeout=dict(required=False, default=300),
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password=dict(required=True),
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minutes=dict(required=False, default=30),
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debug=dict(required=False, default=0, type='int')
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),
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supports_check_mode=True
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)
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password = base64.b64decode(module.params['password'])
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port = int(module.params['port'])
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timeout = int(module.params['timeout'])
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minutes = int(module.params['minutes'])
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debug = int(module.params['debug'])
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if not HAS_KEYCZAR:
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module.fail_json(msg="keyczar is not installed (on the remote side)")
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DEBUG_LEVEL=debug
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daemonize(module, password, port, timeout, minutes)
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# this is magic, see lib/ansible/module_common.py
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#<<INCLUDE_ANSIBLE_MODULE_COMMON>>
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main()
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