-#!/usr/bin/python
-# -*- encoding: utf-8 -*-
+#!/usr/bin/env python
+# -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
#
##############################################################################
-
-import SimpleXMLRPCServer
-import SocketServer
+import errno
import logging
import logging.handlers
import os
-import signal
import socket
import sys
import threading
import time
-import xmlrpclib
import release
-
-SERVICES = {}
-GROUPS = {}
+from pprint import pformat
+import warnings
+import heapq
class Service(object):
+ """ Base class for *Local* services
+
+ Functionality here is trusted, no authentication.
+ """
+ _services = {}
def __init__(self, name, audience=''):
- SERVICES[name] = self
+ Service._services[name] = self
self.__name = name
self._methods = {}
def joinGroup(self, name):
- GROUPS.setdefault(name, {})[self.__name] = self
+ raise Exception("No group for local services")
+ #GROUPS.setdefault(name, {})[self.__name] = self
+
+ @classmethod
+ def exists(cls, name):
+ return name in cls._services
+
+ @classmethod
+ def remove(cls, name):
+ if cls.exists(name):
+ cls._services.pop(name)
def exportMethod(self, method):
if callable(method):
else:
raise
-class LocalService(Service):
+class LocalService(object):
+ """ Proxy for local services.
+
+ Any instance of this class will behave like the single instance
+ of Service(name)
+ """
+ __logger = logging.getLogger('service')
def __init__(self, name):
self.__name = name
try:
- self._service = SERVICES[name]
+ self._service = Service._services[name]
for method_name, method_definition in self._service._methods.items():
setattr(self, method_name, method_definition)
except KeyError, keyError:
- Logger().notifyChannel('module', LOG_ERROR, 'This service does not exists: %s' % (str(keyError),) )
+ self.__logger.error('This service does not exist: %s' % (str(keyError),) )
raise
+
def __call__(self, method, *params):
return getattr(self, method)(*params)
-def service_exist(name):
- return SERVICES.get(name, False)
+class ExportService(object):
+ """ Proxy for exported services.
+
+ All methods here should take an AuthProxy as their first parameter. It
+ will be appended by the calling framework.
+
+ Note that this class has no direct proxy, capable of calling
+ eservice.method(). Rather, the proxy should call
+ dispatch(method,auth,params)
+ """
+
+ _services = {}
+ _groups = {}
+ _logger = logging.getLogger('web-services')
+
+ def __init__(self, name, audience=''):
+ ExportService._services[name] = self
+ self.__name = name
+ self._logger.debug("Registered an exported service: %s" % name)
+
+ def joinGroup(self, name):
+ ExportService._groups.setdefault(name, {})[self.__name] = self
+
+ @classmethod
+ def getService(cls,name):
+ return cls._services[name]
+
+ def dispatch(self, method, auth, params):
+ raise Exception("stub dispatch at %s" % self.__name)
+
+ def new_dispatch(self,method,auth,params):
+ raise Exception("stub dispatch at %s" % self.__name)
+
+ def abortResponse(self, error, description, origin, details):
+ if not tools.config['debug_mode']:
+ raise Exception("%s -- %s\n\n%s"%(origin, description, details))
+ else:
+ raise
LOG_NOTSET = 'notset'
+LOG_DEBUG_SQL = 'debug_sql'
+LOG_DEBUG_RPC_ANSWER = 'debug_rpc_answer'
LOG_DEBUG_RPC = 'debug_rpc'
LOG_DEBUG = 'debug'
+LOG_TEST = 'test'
LOG_INFO = 'info'
LOG_WARNING = 'warn'
LOG_ERROR = 'error'
LOG_CRITICAL = 'critical'
-# add new log level below DEBUG
-logging.DEBUG_RPC = logging.DEBUG - 1
+logging.DEBUG_RPC_ANSWER = logging.DEBUG - 4
+logging.addLevelName(logging.DEBUG_RPC_ANSWER, 'DEBUG_RPC_ANSWER')
+logging.DEBUG_RPC = logging.DEBUG - 2
+logging.addLevelName(logging.DEBUG_RPC, 'DEBUG_RPC')
+logging.DEBUG_SQL = logging.DEBUG_RPC - 3
+logging.addLevelName(logging.DEBUG_SQL, 'DEBUG_SQL')
+
+logging.TEST = logging.INFO - 5
+logging.addLevelName(logging.TEST, 'TEST')
+
+BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE, _NOTHING, DEFAULT = range(10)
+#The background is set with 40 plus the number of the color, and the foreground with 30
+#These are the sequences need to get colored ouput
+RESET_SEQ = "\033[0m"
+COLOR_SEQ = "\033[1;%dm"
+BOLD_SEQ = "\033[1m"
+COLOR_PATTERN = "%s%s%%s%s" % (COLOR_SEQ, COLOR_SEQ, RESET_SEQ)
+LEVEL_COLOR_MAPPING = {
+ logging.DEBUG_SQL: (WHITE, MAGENTA),
+ logging.DEBUG_RPC: (BLUE, WHITE),
+ logging.DEBUG_RPC_ANSWER: (BLUE, WHITE),
+ logging.DEBUG: (BLUE, DEFAULT),
+ logging.INFO: (GREEN, DEFAULT),
+ logging.TEST: (WHITE, BLUE),
+ logging.WARNING: (YELLOW, DEFAULT),
+ logging.ERROR: (RED, DEFAULT),
+ logging.CRITICAL: (WHITE, RED),
+}
+
+class DBFormatter(logging.Formatter):
+ def format(self, record):
+ record.dbname = getattr(threading.currentThread(), 'dbname', '?')
+ return logging.Formatter.format(self, record)
+
+class ColoredFormatter(DBFormatter):
+ def format(self, record):
+ fg_color, bg_color = LEVEL_COLOR_MAPPING[record.levelno]
+ record.levelname = COLOR_PATTERN % (30 + fg_color, 40 + bg_color, record.levelname)
+ return DBFormatter.format(self, record)
def init_logger():
import os
+ from tools.translate import resetlocale
+ resetlocale()
- logger = logging.getLogger()
# create a format for log messages and dates
- formatter = logging.Formatter('[%(asctime)s] %(levelname)s:%(name)s:%(message)s', '%Y-%m-%d %H:%M:%S')
+ format = '[%(asctime)s][%(dbname)s] %(levelname)s:%(name)s:%(message)s'
if tools.config['syslog']:
# SysLog Handler
if os.name == 'nt':
- handler = logging.handlers.NTEventLogHandler("%s %s" %
- (release.description,
- release.version))
+ handler = logging.handlers.NTEventLogHandler("%s %s" % (release.description, release.version))
else:
handler = logging.handlers.SysLogHandler('/dev/log')
- formatter = logging.Formatter("%s %s" % (release.description, release.version) + ':%(levelname)s:%(name)s:%(message)s')
+ format = '%s %s' % (release.description, release.version) \
+ + ':%(dbname)s:%(levelname)s:%(name)s:%(message)s'
elif tools.config['logfile']:
# LogFile Handler
dirname = os.path.dirname(logf)
if dirname and not os.path.isdir(dirname):
os.makedirs(dirname)
- handler = logging.handlers.TimedRotatingFileHandler(logf,'D',1,30)
- except Exception, ex:
- sys.stderr.write("ERROR: couldn't create the logfile directory\n")
+ if tools.config['logrotate'] is not False:
+ handler = logging.handlers.TimedRotatingFileHandler(logf,'D',1,30)
+ elif os.name == 'posix':
+ handler = logging.handlers.WatchedFileHandler(logf)
+ else:
+ handler = logging.handlers.FileHandler(logf)
+ except Exception:
+ sys.stderr.write("ERROR: couldn't create the logfile directory. Logging to the standard output.\n")
handler = logging.StreamHandler(sys.stdout)
else:
# Normal Handler on standard output
handler = logging.StreamHandler(sys.stdout)
-
- # tell the handler to use this format
+ if isinstance(handler, logging.StreamHandler) and os.isatty(handler.stream.fileno()):
+ formatter = ColoredFormatter(format)
+ else:
+ formatter = DBFormatter(format)
handler.setFormatter(formatter)
# add the handler to the root logger
+ logger = logging.getLogger()
logger.addHandler(handler)
logger.setLevel(int(tools.config['log_level'] or '0'))
- if (not isinstance(handler, logging.FileHandler)) and os.name != 'nt':
- # change color of level names
- # uses of ANSI color codes
- # see http://pueblo.sourceforge.net/doc/manual/ansi_color_codes.html
- # maybe use http://code.activestate.com/recipes/574451/
- colors = ['black', 'red', 'green', 'yellow', 'blue', 'magenta', 'cyan', 'white', None, 'default']
- foreground = lambda f: 30 + colors.index(f)
- background = lambda f: 40 + colors.index(f)
-
- mapping = {
- 'DEBUG_RPC': ('blue', 'white'),
- 'DEBUG': ('blue', 'default'),
- 'INFO': ('green', 'default'),
- 'WARNING': ('yellow', 'default'),
- 'ERROR': ('red', 'default'),
- 'CRITICAL': ('white', 'red'),
- }
-
- for level, (fg, bg) in mapping.items():
- msg = "\x1b[%dm\x1b[%dm%s\x1b[0m" % (foreground(fg), background(bg), level)
- logging.addLevelName(getattr(logging, level), msg)
-
class Logger(object):
+ def __init__(self):
+ warnings.warn("The netsvc.Logger API shouldn't be used anymore, please "
+ "use the standard `logging.getLogger` API instead",
+ PendingDeprecationWarning, stacklevel=2)
+ super(Logger, self).__init__()
+
def notifyChannel(self, name, level, msg):
- log = logging.getLogger(name)
+ warnings.warn("notifyChannel API shouldn't be used anymore, please use "
+ "the standard `logging` module instead",
+ PendingDeprecationWarning, stacklevel=2)
+ from service.web_services import common
+
+ log = logging.getLogger(tools.ustr(name))
+
+ if level in [LOG_DEBUG_RPC, LOG_TEST] and not hasattr(log, level):
+ fct = lambda msg, *args, **kwargs: log.log(getattr(logging, level.upper()), msg, *args, **kwargs)
+ setattr(log, level, fct)
- if level == LOG_DEBUG_RPC and not hasattr(log, level):
- fct = lambda msg, *args, **kwargs: log.log(logging.DEBUG_RPC, msg, *args, **kwargs)
- setattr(log, LOG_DEBUG_RPC, fct)
level_method = getattr(log, level)
if isinstance(msg, Exception):
msg = tools.exception_to_unicode(msg)
- result = tools.ustr(msg).strip().split('\n')
- if len(result)>1:
- for idx, s in enumerate(result):
- level_method('[%02d]: %s' % (idx+1, s,))
- elif result:
- level_method(result[0])
+ try:
+ msg = tools.ustr(msg).strip()
+ if level in (LOG_ERROR, LOG_CRITICAL) and tools.config.get_misc('debug','env_info',False):
+ msg = common().exp_get_server_environment() + "\n" + msg
+
+ result = msg.split('\n')
+ except UnicodeDecodeError:
+ result = msg.strip().split('\n')
+ try:
+ if len(result)>1:
+ for idx, s in enumerate(result):
+ level_method('[%02d]: %s' % (idx+1, s,))
+ elif result:
+ level_method(result[0])
+ except IOError:
+ # TODO: perhaps reset the logger streams?
+ #if logrotate closes our files, we end up here..
+ pass
+ except Exception:
+ # better ignore the exception and carry on..
+ pass
+
+ def set_loglevel(self, level, logger=None):
+ if logger is not None:
+ log = logging.getLogger(str(logger))
+ else:
+ log = logging.getLogger()
+ log.setLevel(logging.INFO) # make sure next msg is printed
+ log.info("Log level changed to %s" % logging.getLevelName(level))
+ log.setLevel(level)
def shutdown(self):
logging.shutdown()
init_logger()
class Agent(object):
- _timers = []
- _logger = Logger()
-
- def setAlarm(self, fn, dt, args=None, kwargs=None):
- if not args:
- args = []
- if not kwargs:
- kwargs = {}
- wait = dt - time.time()
- if wait > 0:
- self._logger.notifyChannel('timers', LOG_DEBUG, "Job scheduled in %s seconds for %s.%s" % (wait, fn.im_class.__name__, fn.func_name))
- timer = threading.Timer(wait, fn, args, kwargs)
- timer.start()
- self._timers.append(timer)
- for timer in self._timers[:]:
- if not timer.isAlive():
- self._timers.remove(timer)
+ """Singleton that keeps track of cancellable tasks to run at a given
+ timestamp.
+ The tasks are caracterised by:
+ * a timestamp
+ * the database on which the task run
+ * the function to call
+ * the arguments and keyword arguments to pass to the function
+
+ Implementation details:
+ Tasks are stored as list, allowing the cancellation by setting
+ the timestamp to 0.
+ A heapq is used to store tasks, so we don't need to sort
+ tasks ourself.
+ """
+ __tasks = []
+ __tasks_by_db = {}
+ _logger = logging.getLogger('netsvc.agent')
+
+ @classmethod
+ def setAlarm(cls, function, timestamp, db_name, *args, **kwargs):
+ task = [timestamp, db_name, function, args, kwargs]
+ heapq.heappush(cls.__tasks, task)
+ cls.__tasks_by_db.setdefault(db_name, []).append(task)
+
+ @classmethod
+ def cancel(cls, db_name):
+ """Cancel all tasks for a given database. If None is passed, all tasks are cancelled"""
+ cls._logger.debug("Cancel timers for %s db", db_name or 'all')
+ if db_name is None:
+ cls.__tasks, cls.__tasks_by_db = [], {}
+ else:
+ if db_name in cls.__tasks_by_db:
+ for task in cls.__tasks_by_db[db_name]:
+ task[0] = 0
+ @classmethod
def quit(cls):
- for timer in cls._timers:
- timer.cancel()
- quit = classmethod(quit)
+ cls.cancel(None)
+ @classmethod
+ def runner(cls):
+ """Neverending function (intended to be ran in a dedicated thread) that
+ checks every 60 seconds tasks to run. TODO: make configurable
+ """
+ current_thread = threading.currentThread()
+ while True:
+ while cls.__tasks and cls.__tasks[0][0] < time.time():
+ task = heapq.heappop(cls.__tasks)
+ timestamp, dbname, function, args, kwargs = task
+ cls.__tasks_by_db[dbname].remove(task)
+ if not timestamp:
+ # null timestamp -> cancelled task
+ continue
+ current_thread.dbname = dbname # hack hack
+ cls._logger.debug("Run %s.%s(*%s, **%s)", function.im_class.__name__, function.func_name, args, kwargs)
+ delattr(current_thread, 'dbname')
+ task_thread = threading.Thread(target=function, name='netsvc.Agent.task', args=args, kwargs=kwargs)
+ # force non-daemon task threads (the runner thread must be daemon, and this property is inherited by default)
+ task_thread.setDaemon(False)
+ task_thread.start()
+ time.sleep(1)
+ time.sleep(60)
+
+agent_runner = threading.Thread(target=Agent.runner, name="netsvc.Agent.runner")
+# the agent runner is a typical daemon thread, that will never quit and must be
+# terminated when the main process exits - with no consequence (the processing
+# threads it spawns are not marked daemon)
+agent_runner.setDaemon(True)
+agent_runner.start()
import traceback
-class xmlrpc(object):
- class RpcGateway(object):
- def __init__(self, name):
- self.name = name
+class Server:
+ """ Generic interface for all servers with an event loop etc.
+ Override this to impement http, net-rpc etc. servers.
+
+ Servers here must have threaded behaviour. start() must not block,
+ there is no run().
+ """
+ __is_started = False
+ __servers = []
+ __starter_threads = []
+
+ # we don't want blocking server calls (think select()) to
+ # wait forever and possibly prevent exiting the process,
+ # but instead we want a form of polling/busy_wait pattern, where
+ # _server_timeout should be used as the default timeout for
+ # all I/O blocking operations
+ _busywait_timeout = 0.5
+
+
+ __logger = logging.getLogger('server')
+
+ def __init__(self):
+ Server.__servers.append(self)
+ if Server.__is_started:
+ # raise Exception('All instances of servers must be inited before the startAll()')
+ # Since the startAll() won't be called again, allow this server to
+ # init and then start it after 1sec (hopefully). Register that
+ # timer thread in a list, so that we can abort the start if quitAll
+ # is called in the meantime
+ t = threading.Timer(1.0, self._late_start)
+ t.name = 'Late start timer for %s' % str(self.__class__)
+ Server.__starter_threads.append(t)
+ t.start()
+
+ def start(self):
+ self.__logger.debug("called stub Server.start")
+
+ def _late_start(self):
+ self.start()
+ for thr in Server.__starter_threads:
+ if thr.finished.is_set():
+ Server.__starter_threads.remove(thr)
+
+ def stop(self):
+ self.__logger.debug("called stub Server.stop")
+
+ def stats(self):
+ """ This function should return statistics about the server """
+ return "%s: No statistics" % str(self.__class__)
+
+ @classmethod
+ def startAll(cls):
+ if cls.__is_started:
+ return
+ cls.__logger.info("Starting %d services" % len(cls.__servers))
+ for srv in cls.__servers:
+ srv.start()
+ cls.__is_started = True
+
+ @classmethod
+ def quitAll(cls):
+ if not cls.__is_started:
+ return
+ cls.__logger.info("Stopping %d services" % len(cls.__servers))
+ for thr in cls.__starter_threads:
+ if not thr.finished.is_set():
+ thr.cancel()
+ cls.__starter_threads.remove(thr)
+
+ for srv in cls.__servers:
+ srv.stop()
+ cls.__is_started = False
+
+ @classmethod
+ def allStats(cls):
+ res = ["Servers %s" % ('stopped', 'started')[cls.__is_started]]
+ res.extend(srv.stats() for srv in cls.__servers)
+ return '\n'.join(res)
+
+ def _close_socket(self):
+ if os.name != 'nt':
+ try:
+ self.socket.shutdown(getattr(socket, 'SHUT_RDWR', 2))
+ except socket.error, e:
+ if e.errno != errno.ENOTCONN: raise
+ # OSX, socket shutdowns both sides if any side closes it
+ # causing an error 57 'Socket is not connected' on shutdown
+ # of the other side (or something), see
+ # http://bugs.python.org/issue4397
+ self.__logger.debug(
+ '"%s" when shutting down server socket, '
+ 'this is normal under OS X', e)
+ self.socket.close()
class OpenERPDispatcherException(Exception):
def __init__(self, exception, traceback):
self.exception = exception
self.traceback = traceback
+def replace_request_password(args):
+ # password is always 3rd argument in a request, we replace it in RPC logs
+ # so it's easier to forward logs for diagnostics/debugging purposes...
+ args = list(args)
+ if len(args) > 2:
+ args[2] = '*'
+ return args
+
class OpenERPDispatcher:
- def log(self, title, msg):
- from pprint import pformat
- Logger().notifyChannel('%s' % title, LOG_DEBUG_RPC, pformat(msg))
+ def log(self, title, msg, channel=logging.DEBUG_RPC, depth=None):
+ logger = logging.getLogger(title)
+ if logger.isEnabledFor(channel):
+ for line in pformat(msg, depth=depth).split('\n'):
+ logger.log(channel, line)
def dispatch(self, service_name, method, params):
try:
+ logger = logging.getLogger('result')
self.log('service', service_name)
self.log('method', method)
- self.log('params', params)
- result = LocalService(service_name)(method, *params)
- self.log('result', result)
+ self.log('params', replace_request_password(params), depth=(None if logger.isEnabledFor(logging.DEBUG_RPC_ANSWER) else 1))
+ auth = getattr(self, 'auth_provider', None)
+ result = ExportService.getService(service_name).dispatch(method, auth, params)
+ self.log('result', result, channel=logging.DEBUG_RPC_ANSWER)
return result
except Exception, e:
self.log('exception', tools.exception_to_unicode(e))
- if hasattr(e, 'traceback'):
- tb = e.traceback
- else:
- tb = sys.exc_info()
+ tb = getattr(e, 'traceback', sys.exc_info())
tb_s = "".join(traceback.format_exception(*tb))
if tools.config['debug_mode']:
import pdb
pdb.post_mortem(tb[2])
raise OpenERPDispatcherException(e, tb_s)
-class GenericXMLRPCRequestHandler(OpenERPDispatcher):
- def _dispatch(self, method, params):
- try:
- service_name = self.path.split("/")[-1]
- return self.dispatch(service_name, method, params)
- except OpenERPDispatcherException, e:
- raise xmlrpclib.Fault(tools.exception_to_unicode(e.exception), e.traceback)
-
-class SSLSocket(object):
- def __init__(self, socket):
- if not hasattr(socket, 'sock_shutdown'):
- from OpenSSL import SSL
- ctx = SSL.Context(SSL.SSLv23_METHOD)
- ctx.use_privatekey_file(tools.config['secure_pkey_file'])
- ctx.use_certificate_file(tools.config['secure_cert_file'])
-
- self.socket = SSL.Connection(ctx, socket)
- else:
- self.socket = socket
-
- def shutdown(self, how):
- return self.socket.sock_shutdown(how)
-
- def __getattr__(self, name):
- return getattr(self.socket, name)
-
-class doesitgohere():
- def recv(self, bufsize):
- """ Another bugfix: SSL's recv() may raise
- recoverable exceptions, which simply need us to retry
- the call
- """
- while True:
- try:
- return self.socket.recv(bufsize)
- except SSL.WantReadError:
- pass
- except SSL.WantWriteError:
- pass
-
-
-class SimpleXMLRPCRequestHandler(GenericXMLRPCRequestHandler, SimpleXMLRPCServer.SimpleXMLRPCRequestHandler):
- rpc_paths = map(lambda s: '/xmlrpc/%s' % s, SERVICES.keys())
-
-class SecureXMLRPCRequestHandler(SimpleXMLRPCRequestHandler):
- def setup(self):
- self.connection = SSLSocket(self.request)
- self.rfile = socket._fileobject(self.request, "rb", self.rbufsize)
- self.wfile = socket._fileobject(self.request, "wb", self.wbufsize)
-
-class SimpleThreadedXMLRPCServer(SocketServer.ThreadingMixIn, SimpleXMLRPCServer.SimpleXMLRPCServer):
- encoding = None
- allow_none = False
-
- def server_bind(self):
- self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- SimpleXMLRPCServer.SimpleXMLRPCServer.server_bind(self)
-
- def handle_error(self, request, client_address):
- """ Override the error handler
- """
- import traceback
- Logger().notifyChannel("init", LOG_ERROR,"Server error in request from %s:\n%s" %
- (client_address,traceback.format_exc()))
-
-class SecureThreadedXMLRPCServer(SimpleThreadedXMLRPCServer):
- def __init__(self, server_address, HandlerClass, logRequests=1):
- SimpleThreadedXMLRPCServer.__init__(self, server_address, HandlerClass, logRequests)
- self.socket = SSLSocket(socket.socket(self.address_family, self.socket_type))
- self.server_bind()
- self.server_activate()
-
- def handle_error(self, request, client_address):
- """ Override the error handler
- """
- import traceback
- e_type, e_value, e_traceback = sys.exc_info()
- Logger().notifyChannel("init", LOG_ERROR,"SSL Request handler error in request from %s: %s\n%s" %
- (client_address,str(e_type),traceback.format_exc()))
-
-class HttpDaemon(threading.Thread):
- def __init__(self, interface, port, secure=False):
- threading.Thread.__init__(self)
- self.__port = port
- self.__interface = interface
- self.secure = bool(secure)
- handler_class = (SimpleXMLRPCRequestHandler, SecureXMLRPCRequestHandler)[self.secure]
- server_class = (SimpleThreadedXMLRPCServer, SecureThreadedXMLRPCServer)[self.secure]
-
- if self.secure:
- from OpenSSL.SSL import Error as SSLError
- else:
- class SSLError(Exception): pass
- try:
- self.server = server_class((interface, port), handler_class, 0)
- except SSLError, e:
- Logger().notifyChannel('xml-rpc-ssl', LOG_CRITICAL, "Can not load the certificate and/or the private key files")
- sys.exit(1)
- except Exception, e:
- Logger().notifyChannel('xml-rpc', LOG_CRITICAL, "Error occur when starting the server daemon: %s" % (e,))
- sys.exit(1)
-
-
- def attach(self, path, gw):
- pass
-
- def stop(self):
- self.running = False
- if os.name != 'nt':
- self.server.socket.shutdown( hasattr(socket, 'SHUT_RDWR') and socket.SHUT_RDWR or 2 )
- self.server.socket.close()
-
- def run(self):
- self.server.register_introspection_functions()
-
- self.running = True
- while self.running:
- self.server.handle_request()
- return True
-
- # If the server need to be run recursively
- #
- #signal.signal(signal.SIGALRM, self.my_handler)
- #signal.alarm(6)
- #while True:
- # self.server.handle_request()
- #signal.alarm(0) # Disable the alarm
-
-import tiny_socket
-class TinySocketClientThread(threading.Thread, OpenERPDispatcher):
- def __init__(self, sock, threads):
- threading.Thread.__init__(self)
- self.sock = sock
- self.threads = threads
-
- def run(self):
- import select
- self.running = True
- try:
- ts = tiny_socket.mysocket(self.sock)
- except:
- self.sock.close()
- self.threads.remove(self)
- return False
- while self.running:
- try:
- msg = ts.myreceive()
- except:
- self.sock.close()
- self.threads.remove(self)
- return False
- try:
- result = self.dispatch(msg[0], msg[1], msg[2:])
- ts.mysend(result)
- except OpenERPDispatcherException, e:
- new_e = Exception(tools.exception_to_unicode(e.exception)) # avoid problems of pickeling
- ts.mysend(new_e, exception=True, traceback=e.traceback)
-
- self.sock.close()
- self.threads.remove(self)
- return True
-
- def stop(self):
- self.running = False
-
-
-class TinySocketServerThread(threading.Thread):
- def __init__(self, interface, port, secure=False):
- threading.Thread.__init__(self)
- self.__port = port
- self.__interface = interface
- self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- self.socket.bind((self.__interface, self.__port))
- self.socket.listen(5)
- self.threads = []
-
- def run(self):
- import select
- try:
- self.running = True
- while self.running:
- (clientsocket, address) = self.socket.accept()
- ct = TinySocketClientThread(clientsocket, self.threads)
- self.threads.append(ct)
- ct.start()
- self.socket.close()
- except Exception, e:
- self.socket.close()
- return False
-
- def stop(self):
- self.running = False
- for t in self.threads:
- t.stop()
- try:
- if hasattr(socket, 'SHUT_RDWR'):
- self.socket.shutdown(socket.SHUT_RDWR)
- else:
- self.socket.shutdown(2)
- self.socket.close()
- except:
- return False
-
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