#!/usr/bin/python # -*- coding: utf-8 -*- # (c) 2013, James Cammarata # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . DOCUMENTATION = ''' --- module: accelerate short_description: Enable accelerated mode on remote node description: - This modules launches an ephemeral I(accelerate) daemon on the remote node which Ansible can use to communicate with nodes at high speed. - The daemon listens on a configurable port for a configurable amount of time. - Fireball mode is AES encrypted version_added: "1.3" options: port: description: - TCP port for the socket connection required: false default: 5099 aliases: [] timeout: description: - 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. required: false default: 300 aliases: [] minutes: description: - The I(accelerate) listener daemon is started on nodes and will stay around for this number of minutes before turning itself off. required: false default: 30 ipv6: description: - The listener daemon on the remote host will bind to the ipv6 localhost socket if this parameter is set to true. required: false default: false multi_key: description: - When enabled, the daemon will open a local socket file which can be used by future daemon executions to upload a new key to the already running daemon, so that multiple users can connect using different keys. This access still requires an ssh connection as the uid for which the daemon is currently running. required: false default: no version_added: "1.6" notes: - See the advanced playbooks chapter for more about using accelerated mode. requirements: [ "python-keyczar" ] author: James Cammarata ''' EXAMPLES = ''' # To use accelerate mode, simply add "accelerate: true" to your play. The initial # key exchange and starting up of the daemon will occur over SSH, but all commands and # subsequent actions will be conducted over the raw socket connection using AES encryption - hosts: devservers accelerate: true tasks: - command: /usr/bin/anything ''' import base64 import errno import getpass import json import os import os.path import pwd import signal import socket import struct import sys import syslog import tempfile import time import traceback import SocketServer from datetime import datetime from threading import Thread, Lock # import module snippets # we must import this here at the top so we can use get_module_path() from ansible.module_utils.basic import * syslog.openlog('ansible-%s' % os.path.basename(__file__)) # the chunk size to read and send, assuming mtu 1500 and # leaving room for base64 (+33%) encoding and header (100 bytes) # 4 * (975/3) + 100 = 1400 # which leaves room for the TCP/IP header CHUNK_SIZE=10240 # FIXME: this all should be moved to module_common, as it's # pretty much a copy from the callbacks/util code DEBUG_LEVEL=0 def log(msg, cap=0): global DEBUG_LEVEL if DEBUG_LEVEL >= cap: syslog.syslog(syslog.LOG_NOTICE|syslog.LOG_DAEMON, msg) def v(msg): log(msg, cap=1) def vv(msg): log(msg, cap=2) def vvv(msg): log(msg, cap=3) def vvvv(msg): log(msg, cap=4) HAS_KEYCZAR = False try: from keyczar.keys import AesKey HAS_KEYCZAR = True except ImportError: pass SOCKET_FILE = os.path.join(get_module_path(), '.ansible-accelerate', ".local.socket") def get_pid_location(module): """ Try to find a pid directory in the common locations, falling back to the user's home directory if no others exist """ for dir in ['/var/run', '/var/lib/run', '/run', os.path.expanduser("~/")]: try: if os.path.isdir(dir) and os.access(dir, os.R_OK|os.W_OK): return os.path.join(dir, '.accelerate.pid') except: pass module.fail_json(msg="couldn't find any valid directory to use for the accelerate pid file") # NOTE: this shares a fair amount of code in common with async_wrapper, if async_wrapper were a new module we could move # this into utils.module_common and probably should anyway def daemonize_self(module, password, port, minutes, pid_file): # daemonizing code: http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/66012 try: pid = os.fork() if pid > 0: vvv("exiting pid %s" % pid) # exit first parent module.exit_json(msg="daemonized accelerate on port %s for %s minutes with pid %s" % (port, minutes, str(pid))) except OSError, e: log("fork #1 failed: %d (%s)" % (e.errno, e.strerror)) sys.exit(1) # decouple from parent environment os.chdir("/") os.setsid() os.umask(022) # do second fork try: pid = os.fork() if pid > 0: log("daemon pid %s, writing %s" % (pid, pid_file)) pid_file = open(pid_file, "w") pid_file.write("%s" % pid) pid_file.close() vvv("pid file written") sys.exit(0) except OSError, e: log("fork #2 failed: %d (%s)" % (e.errno, e.strerror)) sys.exit(1) dev_null = file('/dev/null','rw') os.dup2(dev_null.fileno(), sys.stdin.fileno()) os.dup2(dev_null.fileno(), sys.stdout.fileno()) os.dup2(dev_null.fileno(), sys.stderr.fileno()) log("daemonizing successful") class LocalSocketThread(Thread): server = None terminated = False def __init__(self, group=None, target=None, name=None, args=(), kwargs={}, Verbose=None): self.server = kwargs.get('server') Thread.__init__(self, group, target, name, args, kwargs, Verbose) def run(self): try: if os.path.exists(SOCKET_FILE): os.remove(SOCKET_FILE) else: dir = os.path.dirname(SOCKET_FILE) if os.path.exists(dir): if not os.path.isdir(dir): log("The socket file path (%s) exists, but is not a directory. No local connections will be available" % dir) return else: # make sure the directory is accessible only to this # user, as socket files derive their permissions from # the directory that contains them os.chmod(dir, 0700) elif not os.path.exists(dir): os.makedirs(dir, 0700) except OSError: pass self.s = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) self.s.bind(SOCKET_FILE) self.s.listen(5) while not self.terminated: try: conn, addr = self.s.accept() vv("received local connection") data = "" while "\n" not in data: data += conn.recv(2048) try: new_key = AesKey.Read(data.strip()) found = False for key in self.server.key_list: try: new_key.Decrypt(key.Encrypt("foo")) found = True break except: pass if not found: vv("adding new key to the key list") self.server.key_list.append(new_key) conn.sendall("OK\n") else: vv("key already exists in the key list, ignoring") conn.sendall("EXISTS\n") # update the last event time so the server doesn't # shutdown sooner than expected for new cliets try: self.server.last_event_lock.acquire() self.server.last_event = datetime.now() finally: self.server.last_event_lock.release() except Exception, e: vv("key loaded locally was invalid, ignoring (%s)" % e) conn.sendall("BADKEY\n") finally: try: conn.close() except: pass except: pass def terminate(self): self.terminated = True self.s.shutdown(socket.SHUT_RDWR) self.s.close() class ThreadWithReturnValue(Thread): def __init__(self, group=None, target=None, name=None, args=(), kwargs={}, Verbose=None): Thread.__init__(self, group, target, name, args, kwargs, Verbose) self._return = None def run(self): if self._Thread__target is not None: self._return = self._Thread__target(*self._Thread__args, **self._Thread__kwargs) def join(self,timeout=None): Thread.join(self, timeout=timeout) return self._return class ThreadedTCPServer(SocketServer.ThreadingTCPServer): key_list = [] last_event = datetime.now() last_event_lock = Lock() def __init__(self, server_address, RequestHandlerClass, module, password, timeout, use_ipv6=False): self.module = module self.key_list.append(AesKey.Read(password)) self.allow_reuse_address = True self.timeout = timeout if use_ipv6: self.address_family = socket.AF_INET6 if self.module.params.get('multi_key', False): vv("starting thread to handle local connections for multiple keys") self.local_thread = LocalSocketThread(kwargs=dict(server=self)) self.local_thread.start() SocketServer.ThreadingTCPServer.__init__(self, server_address, RequestHandlerClass) def shutdown(self): self.local_thread.terminate() self.running = False SocketServer.ThreadingTCPServer.shutdown(self) class ThreadedTCPRequestHandler(SocketServer.BaseRequestHandler): # the key to use for this connection active_key = None def send_data(self, data): try: self.server.last_event_lock.acquire() self.server.last_event = datetime.now() finally: self.server.last_event_lock.release() packed_len = struct.pack('!Q', len(data)) return self.request.sendall(packed_len + data) def recv_data(self): header_len = 8 # size of a packed unsigned long long data = "" vvvv("in recv_data(), waiting for the header") while len(data) < header_len: try: d = self.request.recv(header_len - len(data)) if not d: vvv("received nothing, bailing out") return None data += d except: # probably got a connection reset vvvv("exception received while waiting for recv(), returning None") return None vvvv("in recv_data(), got the header, unpacking") data_len = struct.unpack('!Q',data[:header_len])[0] data = data[header_len:] vvvv("data received so far (expecting %d): %d" % (data_len,len(data))) while len(data) < data_len: try: d = self.request.recv(data_len - len(data)) if not d: vvv("received nothing, bailing out") return None data += d vvvv("data received so far (expecting %d): %d" % (data_len,len(data))) except: # probably got a connection reset vvvv("exception received while waiting for recv(), returning None") return None vvvv("received all of the data, returning") try: self.server.last_event_lock.acquire() self.server.last_event = datetime.now() finally: self.server.last_event_lock.release() return data def handle(self): try: while True: vvvv("waiting for data") data = self.recv_data() if not data: vvvv("received nothing back from recv_data(), breaking out") break vvvv("got data, decrypting") if not self.active_key: for key in self.server.key_list: try: data = key.Decrypt(data) self.active_key = key break except: pass else: vv("bad decrypt, exiting the connection handler") return else: try: data = self.active_key.Decrypt(data) except: vv("bad decrypt, exiting the connection handler") return vvvv("decryption done, loading json from the data") data = json.loads(data) mode = data['mode'] response = {} last_pong = datetime.now() if mode == 'command': vvvv("received a command request, running it") twrv = ThreadWithReturnValue(target=self.command, args=(data,)) twrv.start() response = None while twrv.is_alive(): if (datetime.now() - last_pong).seconds >= 15: last_pong = datetime.now() vvvv("command still running, sending keepalive packet") data2 = json.dumps(dict(pong=True)) data2 = self.active_key.Encrypt(data2) self.send_data(data2) time.sleep(0.1) response = twrv._return vvvv("thread is done, response from join was %s" % response) elif mode == 'put': vvvv("received a put request, putting it") response = self.put(data) elif mode == 'fetch': vvvv("received a fetch request, getting it") response = self.fetch(data) elif mode == 'validate_user': vvvv("received a request to validate the user id") response = self.validate_user(data) vvvv("response result is %s" % str(response)) json_response = json.dumps(response) vvvv("dumped json is %s" % json_response) data2 = self.active_key.Encrypt(json_response) vvvv("sending the response back to the controller") self.send_data(data2) vvvv("done sending the response") if mode == 'validate_user' and response.get('rc') == 1: vvvv("detected a uid mismatch, shutting down") self.server.shutdown() except: tb = traceback.format_exc() log("encountered an unhandled exception in the handle() function") log("error was:\n%s" % tb) if self.active_key: data2 = json.dumps(dict(rc=1, failed=True, msg="unhandled error in the handle() function")) data2 = self.active_key.Encrypt(data2) self.send_data(data2) def validate_user(self, data): if 'username' not in data: return dict(failed=True, msg='No username specified') vvvv("validating we're running as %s" % data['username']) # get the current uid c_uid = os.getuid() try: # the target uid t_uid = pwd.getpwnam(data['username']).pw_uid except: vvvv("could not find user %s" % data['username']) return dict(failed=True, msg='could not find user %s' % data['username']) # and return rc=0 for success, rc=1 for failure if c_uid == t_uid: return dict(rc=0) else: return dict(rc=1) def command(self, data): if 'cmd' not in data: return dict(failed=True, msg='internal error: cmd is required') if 'tmp_path' not in data: return dict(failed=True, msg='internal error: tmp_path is required') vvvv("executing: %s" % data['cmd']) use_unsafe_shell = False executable = data.get('executable') if executable: use_unsafe_shell = True rc, stdout, stderr = self.server.module.run_command(data['cmd'], executable=executable, use_unsafe_shell=use_unsafe_shell) if stdout is None: stdout = '' if stderr is None: stderr = '' vvvv("got stdout: %s" % stdout) vvvv("got stderr: %s" % stderr) return dict(rc=rc, stdout=stdout, stderr=stderr) def fetch(self, data): if 'in_path' not in data: return dict(failed=True, msg='internal error: in_path is required') try: fd = file(data['in_path'], 'rb') fstat = os.stat(data['in_path']) vvv("FETCH file is %d bytes" % fstat.st_size) while fd.tell() < fstat.st_size: data = fd.read(CHUNK_SIZE) last = False if fd.tell() >= fstat.st_size: last = True data = dict(data=base64.b64encode(data), last=last) data = json.dumps(data) data = self.active_key.Encrypt(data) if self.send_data(data): return dict(failed=True, stderr="failed to send data") response = self.recv_data() if not response: log("failed to get a response, aborting") return dict(failed=True, stderr="Failed to get a response from %s" % self.host) response = self.active_key.Decrypt(response) response = json.loads(response) if response.get('failed',False): log("got a failed response from the master") return dict(failed=True, stderr="Master reported failure, aborting transfer") except Exception, e: fd.close() tb = traceback.format_exc() log("failed to fetch the file: %s" % tb) return dict(failed=True, stderr="Could not fetch the file: %s" % str(e)) fd.close() return dict() def put(self, data): if 'data' not in data: return dict(failed=True, msg='internal error: data is required') if 'out_path' not in data: return dict(failed=True, msg='internal error: out_path is required') final_path = None if 'user' in data and data.get('user') != getpass.getuser(): vvv("the target user doesn't match this user, we'll move the file into place via sudo") tmp_path = os.path.expanduser('~/.ansible/tmp/') if not os.path.exists(tmp_path): try: os.makedirs(tmp_path, 0700) except: return dict(failed=True, msg='could not create a temporary directory at %s' % tmp_path) (fd,out_path) = tempfile.mkstemp(prefix='ansible.', dir=tmp_path) out_fd = os.fdopen(fd, 'w', 0) final_path = data['out_path'] else: out_path = data['out_path'] out_fd = open(out_path, 'w') try: bytes=0 while True: out = base64.b64decode(data['data']) bytes += len(out) out_fd.write(out) response = json.dumps(dict()) response = self.active_key.Encrypt(response) self.send_data(response) if data['last']: break data = self.recv_data() if not data: raise "" data = self.active_key.Decrypt(data) data = json.loads(data) except: out_fd.close() tb = traceback.format_exc() log("failed to put the file: %s" % tb) return dict(failed=True, stdout="Could not write the file") vvvv("wrote %d bytes" % bytes) out_fd.close() if final_path: vvv("moving %s to %s" % (out_path, final_path)) self.server.module.atomic_move(out_path, final_path) return dict() def daemonize(module, password, port, timeout, minutes, use_ipv6, pid_file): try: daemonize_self(module, password, port, minutes, pid_file) def timer_handler(signum, _): try: server.last_event_lock.acquire() td = datetime.now() - server.last_event # older python timedelta objects don't have total_seconds(), # so we use the formula from the docs to calculate it total_seconds = (td.microseconds + (td.seconds + td.days * 24 * 3600) * 10**6) / 10**6 if total_seconds >= minutes * 60: log("server has been idle longer than the timeout, shutting down") server.running = False server.shutdown() else: # reschedule the check vvvv("daemon idle for %d seconds (timeout=%d)" % (total_seconds,minutes*60)) signal.alarm(30) except: pass finally: server.last_event_lock.release() signal.signal(signal.SIGALRM, timer_handler) signal.alarm(30) tries = 5 while tries > 0: try: if use_ipv6: address = ("::", port) else: address = ("0.0.0.0", port) server = ThreadedTCPServer(address, ThreadedTCPRequestHandler, module, password, timeout, use_ipv6=use_ipv6) server.allow_reuse_address = True break except Exception, e: vv("Failed to create the TCP server (tries left = %d) (error: %s) " % (tries,e)) tries -= 1 time.sleep(0.2) if tries == 0: vv("Maximum number of attempts to create the TCP server reached, bailing out") raise Exception("max # of attempts to serve reached") # run the server in a separate thread to make signal handling work server_thread = Thread(target=server.serve_forever, kwargs=dict(poll_interval=0.1)) server_thread.start() server.running = True v("serving!") while server.running: time.sleep(1) # wait for the thread to exit fully server_thread.join() v("server thread terminated, exiting!") sys.exit(0) except Exception, e: tb = traceback.format_exc() log("exception caught, exiting accelerated mode: %s\n%s" % (e, tb)) sys.exit(0) def main(): global DEBUG_LEVEL module = AnsibleModule( argument_spec = dict( port=dict(required=False, default=5099), ipv6=dict(required=False, default=False, type='bool'), multi_key=dict(required=False, default=False, type='bool'), timeout=dict(required=False, default=300), password=dict(required=True), minutes=dict(required=False, default=30), debug=dict(required=False, default=0, type='int') ), supports_check_mode=True ) password = base64.b64decode(module.params['password']) port = int(module.params['port']) timeout = int(module.params['timeout']) minutes = int(module.params['minutes']) debug = int(module.params['debug']) ipv6 = module.params['ipv6'] multi_key = module.params['multi_key'] if not HAS_KEYCZAR: module.fail_json(msg="keyczar is not installed (on the remote side)") DEBUG_LEVEL=debug pid_file = get_pid_location(module) daemon_pid = None daemon_running = False if os.path.exists(pid_file): try: daemon_pid = int(open(pid_file).read()) try: # sending signal 0 doesn't do anything to the # process, other than tell the calling program # whether other signals can be sent os.kill(daemon_pid, 0) except OSError, e: if e.errno == errno.EPERM: # no permissions means the pid is probably # running, but as a different user, so fail module.fail_json(msg="the accelerate daemon appears to be running as a different user that this user cannot access (pid=%d)" % daemon_pid) else: daemon_running = True except ValueError: # invalid pid file, unlink it - otherwise we don't care try: os.unlink(pid_file) except: pass if daemon_running and multi_key: # try to connect to the file socket for the daemon if it exists s = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) try: s.connect(SOCKET_FILE) s.sendall(password + '\n') data = "" while '\n' not in data: data += s.recv(2048) res = data.strip() except: module.fail_json(msg="failed to connect to the local socket file") finally: try: s.close() except: pass if res in ("OK", "EXISTS"): module.exit_json(msg="transferred new key to the existing daemon") else: module.fail_json(msg="could not transfer new key: %s" % data.strip()) else: # try to start up the daemon daemonize(module, password, port, timeout, minutes, ipv6, pid_file) main()