there can be more than one message on the socket; empty the queue when shutting down...
[saartuer.git] / libtuer.py
index cd10a7bcded338e514ca8480633a07c278672d70..f79dcc6cf4c9403fb0dbcb2bd3ebfc6db7d1996b 100644 (file)
@@ -5,11 +5,13 @@ import email.mime.text, email.utils
 # Logging configuration
 syslogLevel = logging.INFO
 mailLevel   = logging.CRITICAL # must be "larger" than syslog level!
-mailAddress = 'post+tuer'+'@'+'ralfj.de'
+from config import mailAddress
+printLevel  = logging.DEBUG
 
 # Mail logging handler
 def sendeMail(subject, text, receivers, sender='sphinx@hacksaar.de', replyTo=None):
-       if not isinstance(type(receivers), list): receivers = [receivers]
+       assert isinstance(receivers, list)
+       if not len(receivers): return # nothing to do
        # construct content
        msg = email.mime.text.MIMEText(text.encode('UTF-8'), 'plain', 'UTF-8')
        msg['Subject'] = subject
@@ -19,7 +21,7 @@ def sendeMail(subject, text, receivers, sender='sphinx@hacksaar.de', replyTo=Non
        if replyTo is not None:
                msg['Reply-To'] = replyTo
        # put into envelope and send
-       s = smtplib.SMTP('ralfj.de')
+       s = smtplib.SMTP('localhost')
        s.sendmail(sender, receivers, msg.as_string())
        s.quit()
 
@@ -27,18 +29,20 @@ def sendeMail(subject, text, receivers, sender='sphinx@hacksaar.de', replyTo=Non
 class Logger:
        def __init__ (self):
                self.syslog = logging.getLogger("tuerd")
-               self.syslog.setLevel(syslogLevel)
+               self.syslog.setLevel(logging.DEBUG)
                self.syslog.addHandler(logging.handlers.SysLogHandler(address = '/dev/log',
                                                                                                                facility = logging.handlers.SysLogHandler.LOG_LOCAL0))
        
        def _log (self, lvl, what):
-               thestr = "%s[%d]: %s" % ("osspd", os.getpid(), what)
+               thestr = "%s[%d]: %s" % ("tuerd", os.getpid(), what)
                # console log
-               print(thestr)
+               if lvl >= printLevel:
+                       print(thestr)
                # syslog
-               self.syslog.log(lvl, thestr)
+               if lvl >= syslogLevel:
+                       self.syslog.log(lvl, thestr)
                # mail log
-               if lvl >= mailLevel:
+               if lvl >= mailLevel and mailAddress is not None:
                        sendeMail('Kritischer Türfehler', what, mailAddress)
        
        def debug(self, what):
@@ -54,16 +58,26 @@ class Logger:
 
 logger = Logger()
 
+# run a Python command asynchronously
+def fire_and_forget(f):
+       def _fire_and_forget():
+               try:
+                       f()
+               except Exception as e:
+                       logger.critical("fire_and_forget: Got exception out of callback: %s" % str(e))
+                       logger.debug(traceback.format_exc())
+       t = threading.Thread(target=_fire_and_forget)
+       t.start()
+
 # run a command asynchronously and log the return value if not 0
 # prefix must be a string identifying the code position where the call came from
-def fire_and_forget (cmd, log, prefix):
-       def _fire_and_forget ():
+def fire_and_forget_cmd (cmd, log, prefix):
+       def _fire_and_forget_cmd ():
                with open("/dev/null", "w") as fnull:
                        retcode = subprocess.call(cmd, stdout=fnull, stderr=fnull)
                        if retcode is not 0:
                                logger.error("%sReturn code %d at command: %s" % (prefix,retcode,str(cmd)))
-       t = threading.Thread(target=_fire_and_forget)
-       t.start()
+       fire_and_forget(_fire_and_forget_cmd)
 
 # Threaded callback class
 class ThreadFunction():
@@ -97,6 +111,13 @@ class ThreadFunction():
                self._q.put((ThreadFunction._CALL, arg))
        
        def stop(self):
+               # empty the queue
+               try:
+                       while True:
+                               self._q.get_nowait()
+               except queue.Empty:
+                       pass
+               # now wait till the job-in-progress is done
                self._q.put((ThreadFunction._TERM, None))
                self._t.join()