Esempio n. 1
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	def get_history(self, topic, seconds_back):
		conn = self._borrow_connection()
		cur = conn.cursor()

		start = now() - timedelta(seconds = seconds_back)
		cur.execute("EXECUTE get_history (%s, %s)",
					(topic, start))

		data = cur.fetchall()

		self._retun_connection(conn)

		return map(self._result_to_dict, data)
Esempio n. 2
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def get_reminders(serv):
	init()

	queue = []
	current_time = timeutils.now()
	c = sqlite3.connect(settings.datafile_remind)
	for row in c.execute("SELECT * FROM remind WHERE server = '{0}' AND time_end <= {1}".format(serv, str(current_time))):
		reminder = [row[1], float(row[2]), float(row[3]), row[4], row[5], row[6]]
		queue.append(reminder)
	c.execute("DELETE FROM remind WHERE server = '{0}' AND time_end <= {1}".format(serv, str(current_time)))
	c.commit()
	c.close()
	return queue
Esempio n. 3
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    def is_recent_enough(self):
        if self.config.max_age_expected is None:
            return True

        max_age_expected = datetime.timedelta(
            seconds=self.config.max_age_expected)

        now = timeutils.now()
        last_updated = self.get_last_updated()

        if not last_updated:
            return False

        return (now - last_updated) < max_age_expected
Esempio n. 4
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	def get_last_message(self, topic):
		conn = self._borrow_connection()
		cur = conn.cursor()

		cur.execute("EXECUTE get_last_message (%s)", (topic,))
		data = cur.fetchone()

		if data == None:
			data = {'topic' : topic, 'time' : now(), 'value' : 0.0}
		else:
			data = self._result_to_dict(data)

		self._retun_connection(conn)
		return data
Esempio n. 5
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 def inner(*args, **kwargs):
     t1 = timeutils.now()
     t2 = None
     try:
         with lock(
             name, lock_file_prefix, external, lock_path, do_log=False, semaphores=semaphores, delay=delay
         ):
             t2 = timeutils.now()
             LOG.debug(
                 'Lock "%(name)s" acquired by "%(function)s" :: ' "waited %(wait_secs)0.3fs",
                 {"name": name, "function": reflection.get_callable_name(f), "wait_secs": (t2 - t1)},
             )
             return f(*args, **kwargs)
     finally:
         t3 = timeutils.now()
         if t2 is None:
             held_secs = "N/A"
         else:
             held_secs = "%0.3fs" % (t3 - t2)
         LOG.debug(
             'Lock "%(name)s" released by "%(function)s" :: held ' "%(held_secs)s",
             {"name": name, "function": reflection.get_callable_name(f), "held_secs": held_secs},
         )
Esempio n. 6
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    def get_seconds_out_of_date(self):
        now = timeutils.now()
        max_age_expected = self.get_max_age_expected()
        last_updated = self.get_last_updated()
        """
        - If `max_age_expected` is None we're saying
        'hey, we're not going to check this'.
        - If `last_updated` is a null value,
        the data-set has never been updated,
        so it doesn't really give us any value to say
        'you should update this thing you've never updated before'
        because we already know that, right?
        """
        if max_age_expected is None or not last_updated:
            return None

        max_age_delta = datetime.timedelta(seconds=max_age_expected)

        return int((now - last_updated - max_age_delta).total_seconds())
Esempio n. 7
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def add_reminder(serv, chan, tdest, sender, target, msg):
	if timeutils.validate(tdest):
		current_time = timeutils.now()
		time_end = timeutils.parse(tdest)
		target = misc.sanitize_sql(target)
		msg = misc.sanitize_sql(msg)

		c = sqlite3.connect(settings.datafile_remind)
		c.execute("INSERT INTO remind VALUES ('{0}', '{1}', {2}, {3}, '{4}', '{5}', '{6}')".format(serv, chan, str(current_time), str(time_end), sender, target, msg))
		c.commit()
		c.close()

		c = sqlite3.connect(settings.datafile_remind + '.archive')
		c.execute("INSERT INTO remind VALUES ('{0}', '{1}', {2}, {3}, '{4}', '{5}', '{6}')".format(serv, chan, str(current_time), str(time_end), sender, target, msg))
		c.commit()
		c.close()

		return('Okay, I\'ll remind '+target+' in '+timeutils.timediff(time_end)+'!')
	else:
		return ('Invalid input.')
Esempio n. 8
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    def get_seconds_out_of_date(self):
        now = timeutils.now()
        max_age_expected = self.get_max_age_expected()
        last_updated = self.get_last_updated()

        """
        - If `max_age_expected` is None we're saying
        'hey, we're not going to check this'.
        - If `last_updated` is a null value,
        the data-set has never been updated,
        so it doesn't really give us any value to say
        'you should update this thing you've never updated before'
        because we already know that, right?
        """
        if max_age_expected is None or not last_updated:
            return None

        max_age_delta = datetime.timedelta(seconds=max_age_expected)

        return int((
            now - last_updated - max_age_delta
        ).total_seconds())
def float_parser(message):
	value = float(message)

	return {'time': now(), 'value': value}
Esempio n. 10
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def commit_report(data):
    '''Commit report and its counterparts.
    '''

    project_name = data['project']
    status = data['status']
    risks = data['risks']
    created = timeutils.now()
    author = data['author']
    project = session.query(Project).filter(Project.name == project_name).first()
    report = Report(status, risks, author, created)
    report.project = project
    session.add(report)
    
    # Now process impediments and milestones
    impediments = data['impediments']
    milestones = data['milestones']
    # Cycle through impediments and add them if we have any
    if len(impediments) > 0:
        for imp in impediments:
            desc = imp['description']
            comment = imp['comment']
            start = timeutils.to_date_time_obj(imp['start_date'])
            try:
                end = timeutils.to_date_time_obj(imp['end_date'])
            except TypeError:
                end = None
            state_name = imp['state']
            impediment = Impediment(desc, comment, start, end)
            
            impediment.project = project
            impediment.report = report
            state = session.query(Impediment_State).filter(Impediment_State.name == state_name).first()
            impediment.state = state
            # Create many-to-many relationship
            try:
                report.impediments.extend([impediment])
            except AttributeError:
                report.impediments = []
                report.impediments.extend([impediment]) 
            
            session.add(impediment)

    # Now do similarly to milestones:
    if len(milestones) > 0:
        for mil in milestones:
            milestone = session.query(Milestone).filter(Milestone.name == mil['name']).first()
            try:
                completion_date = timeutils.to_date_time_obj(mil['expected_completion'])
                expected_completion = Expected_Completion(completion_date)
                expected_completion.milestone = milestone
                expected_completion.report = report
            except ValueError:
                pass
            try:
                report.milestones.extend([milestone])
            except AttributeError:
                report.milestones = []
                report.milestones.extend([milestone]) 
                
    try:
        session.commit()
        
    except IntegrityError:
        session.rollback()
        print '\n*** DB INTEGRITY ERROR: Cannot commit report. Rolled back.'
Esempio n. 11
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def commit_report(data):
    '''Commit report and its counterparts.
    '''

    project_name = data['project']
    status = data['status']
    risks = data['risks']
    created = timeutils.now()
    author = data['author']
    project = session.query(Project).filter(
        Project.name == project_name).first()
    report = Report(status, risks, author, created)
    report.project = project
    session.add(report)

    # Now process impediments and milestones
    impediments = data['impediments']
    milestones = data['milestones']
    # Cycle through impediments and add them if we have any
    if len(impediments) > 0:
        for imp in impediments:
            desc = imp['description']
            comment = imp['comment']
            start = timeutils.to_date_time_obj(imp['start_date'])
            try:
                end = timeutils.to_date_time_obj(imp['end_date'])
            except TypeError:
                end = None
            state_name = imp['state']
            impediment = Impediment(desc, comment, start, end)

            impediment.project = project
            impediment.report = report
            state = session.query(Impediment_State).filter(
                Impediment_State.name == state_name).first()
            impediment.state = state
            # Create many-to-many relationship
            try:
                report.impediments.extend([impediment])
            except AttributeError:
                report.impediments = []
                report.impediments.extend([impediment])

            session.add(impediment)

    # Now do similarly to milestones:
    if len(milestones) > 0:
        for mil in milestones:
            milestone = session.query(Milestone).filter(
                Milestone.name == mil['name']).first()
            try:
                completion_date = timeutils.to_date_time_obj(
                    mil['expected_completion'])
                expected_completion = Expected_Completion(completion_date)
                expected_completion.milestone = milestone
                expected_completion.report = report
            except ValueError:
                pass
            try:
                report.milestones.extend([milestone])
            except AttributeError:
                report.milestones = []
                report.milestones.extend([milestone])

    try:
        session.commit()

    except IntegrityError:
        session.rollback()
        print '\n*** DB INTEGRITY ERROR: Cannot commit report. Rolled back.'