Ejemplo n.º 1
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 def test_notifications_without_destination(self, mocked_ready):
     """Test that notifications without a destination aren't sent."""
     mocked_ready.side_effect = [True, True]
     notifications = self.notifications
     notifications[0].destination["webhook"] = None
     notifications[1].destination["webhook"] = None
     outbox = Outbox(notifications)
     self.assertEqual(0, outbox.send_notifications())
Ejemplo n.º 2
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class SMTPPlugin(object):
    def __init__(self, config):
        self.outbox = Outbox(server=config.host,
                             username=config.user,
                             password=config.password,
                             port=config.get('port', 25),
                             mode=config.get('mode', None))

    def send(self, subject, message, recipients):
        self.outbox.send(Email(subject=subject, html_body=message, recipients=recipients))
Ejemplo n.º 3
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def test_outbox_login():
    o = Outbox('username', 'password', 'server', 1234)

    with mock.patch('smtplib.SMTP') as SMTP:
        smtp = SMTP.return_value
        o._login()

    print(smtp.mock_calls)
    smtp.set_debuglevel.assert_any_call(False)
    smtp.starttls.assert_any_call()
    smtp.login.assert_any_call('username', 'password')
Ejemplo n.º 4
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 def __init__(self):
     # self.maxRowPerWorker = env.VEN_MAX_ROW_PER_WORKER
     self.workerAddress = env.VEN_WORKER_ADDR
     self.sinkAddr = env.SINK_ADDR
     self.context = zmq.Context()
     self.sender = self.context.socket(zmq.PUSH)
     self.sender.bind(self.workerAddress)
     self.processId = os.getpid()
     self.system = platform.system()
     self.db = DatabaseConnection(env.DB_HOST, env.DB_UNAME,
                                  env.DB_PASSWORD, env.DB_NAME)
     self.syslog = SystemLog()
     self.outbox = Outbox(self.db)
Ejemplo n.º 5
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 def test_merge_notifications_with_same_destination_but_different_report(
         self):
     """Test that the metrics are merged into the correct notification."""
     report = dict(title="different_title", url="https://differentreport")
     metric1 = dict(metric_name="new_metric 1")
     metric2 = dict(metric_name="new_metric 2")
     metrics1 = [metric1, metric2]
     new_notifications = [Notification(report, metrics1, "uuid1", {})]
     outbox = Outbox(self.notifications)
     outbox.add_notifications(new_notifications)
     self.assertEqual(
         outbox.notifications[0].metrics,
         [self.metric_notification_data1, self.metric_notification_data2],
     )
Ejemplo n.º 6
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def _send_email(config_file, subject, body):
    with open(config_file, 'r') as f:
        config = json.load(f)

    port = config["port"]
    server = config["server"]
    fromaddr = config["fromaddr"]
    toaddrs = config["toaddrs"]
    username = config["username"]
    password = config["password"]

    outbox = Outbox(username=username, password=password, server=server, port=port)
    email = Email(subject=subject, body=body, recipients=toaddrs)
    outbox.send(email)
Ejemplo n.º 7
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 def __init__(self):
     self.syncDB = DatabaseConnection(env.DB_HOST, env.DB_UNAME,
                                      env.DB_PASSWORD, env.DB_NAME)
     # self.statusDB = DatabaseConnection(
     #     env.DB_HOST, env.DB_UNAME, env.DB_PASSWORD, env.DB_NAME)
     self.limitRow = env.LIMIT_PROC_ROW
     self.outbox = Outbox(self.syncDB)
     self.systemlog = SystemLog()
     self.inbox = Inbox(self.syncDB)
     self.outbox = Outbox(self.syncDB)
     self.clientIdStartFrom = 10
     self.updateToZeroHistory = set([])
     self.PKFileName = 'pk'
     self.nextPriToProcess = dict()
     self.PRIFileName = 'pri'
Ejemplo n.º 8
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def test_outbox_send():
    message = Email(['*****@*****.**'], 'subject', 'body')
    o = Outbox('username', 'password', 'server', 1234, debug=True)

    import email.mime.multipart

    with mock.patch.object(email.mime.multipart.MIMEMultipart, 'as_string', lambda self: 'foo'):
        with mock.patch('smtplib.SMTP') as SMTP:
            smtp = SMTP.return_value
            o.send(message, [Attachment('foo', fileobj=StringIO('foo'))])

    smtp.set_debuglevel.assert_any_call(True)
    smtp.starttls.assert_any_call()
    smtp.login.assert_any_call('username', 'password')
    smtp.sendmail.assert_any_call('username', message.recipients, 'foo')
    smtp.quit.assert_any_call()
Ejemplo n.º 9
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def _send_email(config_file, subject, body):
    with open(config_file, 'r') as f:
        config = json.load(f)

    port = config["port"]
    server = config["server"]
    fromaddr = config["fromaddr"]
    toaddrs = config["toaddrs"]
    username = config["username"]
    password = config["password"]

    outbox = Outbox(username=username,
                    password=password,
                    server=server,
                    port=port)
    email = Email(subject=subject, body=body, recipients=toaddrs)
    outbox.send(email)
Ejemplo n.º 10
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    def send(self,
             recipient_list,
             subject='Sem assunto',
             attachment_list='False'):

        emailRegex = re.compile(
            r'''([a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+(\.[a-zA-Z]{2,4}))''',
            re.VERBOSE)
        valid_recipients = []
        invalid_recipients = []

        for i in recipient_list:
            email = emailRegex.findall(i)
            if email:
                valid_recipients.append(email)
            else:
                invalid_recipients.append(email)
        try:
            with Outbox(username=smtp_user,
                        password=smtp_pass,
                        server=smtp_server,
                        port=smtp_port,
                        mode='SSL') as outbox:

                if attachment_list == 'False':
                    attachments = []
                    for i in attachment_list:
                        attachments.append(
                            Attachment(str(i), fileobj=open(i, 'rb')))
                    outbox.send(Email(
                        subject=subject,
                        html_body='<b>SOME REALLY NICE SENTIMENT</b>',
                        recipients=valid_recipients),
                                attachments=attachments)
                    response = self.get_mail_sent_ok_message()
                    if len(invalid_recipients) > 0:
                        response = response + '\n' + self.get_invalid_mails_filtered_by_regex(
                        )
                        for invalid in invalid_recipients:
                            response = response + '\n' + invalid
                    return response
                else:
                    outbox.send(
                        Email(subject=subject,
                              html_body='<b>SOME REALLY NICE SENTIMENT</b>',
                              recipients=valid_recipients))
                    response = self.get_mail_sent_ok_message()
                    if len(invalid_recipients) > 0:
                        response = response + '\n' + self.get_invalid_mails_filtered_by_regex(
                        )
                        for invalid in invalid_recipients:
                            response = response + '\n' + invalid
                    return response
        finally:
            pass
Ejemplo n.º 11
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 def __init__(self, dbhost, dbusername, dbpass, dbname, sinkaddr, skey,
              ivkey):
     self.key = skey
     self.iv = ivkey
     self.context = zmq.Context()
     self.receiver = self.context.socket(zmq.PULL)
     self.receiver.bind(sinkaddr)
     self.syslog = SystemLog()
     self.db = DatabaseConnection(dbhost, dbusername, dbpass, dbname)
     self.inbox = Inbox(self.db)
     self.outbox = Outbox(self.db)
Ejemplo n.º 12
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async def notify(log_level: int = None) -> NoReturn:
    """Notify our users periodically of the number of red metrics."""
    logging.getLogger().setLevel(log_level or logging.ERROR)
    sleep_duration = int(os.environ.get("NOTIFIER_SLEEP_DURATION", 60))
    api_version = "v3"
    reports_url = (
        f"http://{os.environ.get('SERVER_HOST', 'localhost')}:"
        f"{os.environ.get('SERVER_PORT', '5001')}/api/{api_version}/reports")
    data_model = await retrieve_data_model(api_version)
    most_recent_measurement_seen = datetime.max.replace(tzinfo=timezone.utc)
    outbox = Outbox()
    notification_finder = NotificationFinder(data_model)
    while True:
        record_health()
        logging.info("Determining notifications...")
        try:
            async with aiohttp.ClientSession(raise_for_status=True,
                                             trust_env=True) as session:
                response = await session.get(reports_url)
                json = await response.json()
        except Exception as reason:  # pylint: disable=broad-except
            logging.error("Could not get reports from %s: %s", reports_url,
                          reason)
            json = dict(reports=[])
        notifications = notification_finder.get_notifications(
            json, most_recent_measurement_seen)
        outbox.add_notifications(notifications)
        outbox.send_notifications()
        most_recent_measurement_seen = most_recent_measurement_timestamp(json)
        logging.info("Sleeping %.1f seconds...", sleep_duration)
        await asyncio.sleep(sleep_duration)
Ejemplo n.º 13
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def send_email():
	outbox = Outbox(username=config.username, password=config.password,server=config.server, port=config.port)

	conn = sqlite3.connect(config.database_directory+'article_db')
	cursor = conn.cursor()
	to_send = cursor.execute('SELECT headline,rubric,body,rowid FROM article_tbl WHERE delivered = "False"').fetchall()
	
	if len(to_send) > 0:

		html_email = PyH('Economist Articles')
		
		html_email << a(img(src="http://www.economist.com/rights/images/logo+economist.gif"),name="top")
		
		contents = html_email << div()

		for i, thing in enumerate(to_send):
			content_object = contents << div()
			content_object << a(thing[0],href="#%i" % i,style="font-family:Verdana;color:blue")
			content_object << br()
			content_object << span("&nbsp;&nbsp;&nbsp;&nbsp;%s" % thing[1],style="font-family:Verdana;")
			content_object << p('')

			html_email << h2(thing[0],style="font-family:Verdana;") << a(name="%i" % i)
			html_email << h3(thing[1],style="font-family:Verdana;")
			html_email << p(thing[2],style="font-family:Verdana;")
			html_email << p('') << a("Top",href="#top",style="font-family:Verdana;")
		html_email << p('')
		html_email << p('Made with <3 by oneschirm',style="font-family:Verdana;")

		outbox.send(Email(subject='Economist Articles - %s' % datetime.strftime(datetime.today(),'%m/%d/%Y, %H:%M %Z'), html_body=html_email.render(),recipients=config.recipients))
		
		for thing in to_send:
			cursor.execute('UPDATE article_tbl SET delivered="True" WHERE rowid = ?', (thing[3],))

		conn.commit()
		conn.close()
Ejemplo n.º 14
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def send(account: Account, to: str, subject: str, body: str, attachment,
         attachment_name):
    if not body:
        raise EmptyBody

    with Outbox(server=account.smtp_host,
                port=account.smtp_port,
                username=account.address,
                password=account.password,
                mode='SSL' if account.smtp_ssl else None) as connection:

        email = Email(recipients=to, subject=subject, body=body)

        attachments = []

        if attachment:
            attachments.append(Attachment(attachment_name, attachment))

        try:
            connection.send(email, attachments)
        except SMTPRecipientsRefused:
            raise IncorrectAddress
Ejemplo n.º 15
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def send_report(report):
    message = ''
    for server_key, server_report in report.items():
        message += "SERVER %s: \n\n" % server_key
        if isinstance(server_report, dict):
            remote_report = server_report.get("remote")
            del (server_report["remote"])
            for db_name, db_report in server_report.items():
                message += "\tDB %s: %s\n" % (db_name, db_report)
            if remote_report:
                message += "\n\t[Remote server (scp)]: %s\n" % remote_report
        else:
            message += "%s" % server_report
        message += "\n\n"
    print(message)
    try:
        import socket
        from outbox import Outbox, Email, Attachment
        hostname = socket.gethostname()
        smtp = namedtuple('smtp', settings.smtp.keys())(**settings.smtp)
        attachments = [
            Attachment('backup.log', fileobj=open(settings.logfile))
        ]
        outbox = Outbox(username=smtp.user,
                        password=smtp.password,
                        server=smtp.host,
                        port=smtp.port,
                        mode='SSL')
        message = "HOST: %s\n\n" % hostname + message
        outbox.send(Email(subject='[%s] Daily backup report' % hostname,
                          body=message,
                          recipients=settings.emails),
                    attachments=attachments)
        # if report sent, we can remove log file
        os.unlink(settings.logfile)
    except Exception as e:
        logger.error("Can't send report via email")
        logger.exception(e)
Ejemplo n.º 16
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 def test_merge_nothing_into_nothing(self):
     """Test that notifications are merged, even if the destination is empty."""
     outbox = Outbox()
     outbox.add_notifications([])
     self.assertEqual(outbox.notifications, [])
Ejemplo n.º 17
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 def test_merge_nothing_into_notifications(self):
     """Test that notifications are merged, even if no new metrics are given to be added."""
     outbox = Outbox(self.notifications)
     outbox.add_notifications([])
     self.assertEqual(outbox.notifications, self.notifications)
Ejemplo n.º 18
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 def test_merge_notifications_into_nothing(self):
     """Test that notifications are merged, even if the outbox is currently empty."""
     outbox = Outbox()
     outbox.add_notifications(self.notifications)
     self.assertEqual(outbox.notifications, self.notifications)
Ejemplo n.º 19
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 def test_deletion_of_notifications(self, mocked_send, mocked_ready):
     """Test that notifications are deleted after sending."""
     mocked_ready.side_effect = [True, True]
     mocked_send.side_effect = [None, None]
     outbox = Outbox(self.notifications)
     self.assertEqual(2, outbox.send_notifications())
Ejemplo n.º 20
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class Ventilator:
    context = None
    sender = None
    processId = None
    system = None

    def __init__(self):
        # self.maxRowPerWorker = env.VEN_MAX_ROW_PER_WORKER
        self.workerAddress = env.VEN_WORKER_ADDR
        self.sinkAddr = env.SINK_ADDR
        self.context = zmq.Context()
        self.sender = self.context.socket(zmq.PUSH)
        self.sender.bind(self.workerAddress)
        self.processId = os.getpid()
        self.system = platform.system()
        self.db = DatabaseConnection(env.DB_HOST, env.DB_UNAME,
                                     env.DB_PASSWORD, env.DB_NAME)
        self.syslog = SystemLog()
        self.outbox = Outbox(self.db)

    # ///////////////////////////////////////////

    def setWorker(self, numberOfWorker):
        for i in range(numberOfWorker):
            os.system('py worker.py ' + self.processId)

    # ///////////////////////////////////////////

    def killWorker(self):
        file = open("process/" + self.processId)
        workers = file.read()
        print(workers)

    # ///////////////////////////////////////////

    def send(self, data):

        sink = self.context.socket(zmq.PUSH)
        sink.connect(self.sinkAddr)
        i = 1
        for item in data:
            print("---------------------")
            print(f"Outbox ID: {item['outbox_id']}")
            print(f"Type: {item['msg_type']}")
            # proses mengecek pesan yang valid
            # pengecekan dilakukan agar sebuah pesan tidak kembali ke pengirimnya
            # atau terjadi looping data terus menerus
            isValid = False
            invalidReason = ''
            if (item['msg_type'] == 'INS' or item['msg_type'] == 'DEL'
                    or item['msg_type'] == 'UPD'):
                if (item['msg_type'] == 'INS' or item['msg_type'] == 'DEL'):
                    # mengecek pesan ins valid menggunakan
                    # PK, client_unique_id dan nama tabel
                    # sistem tidak akan mengirim data yang sama balik lagi ke pengirimnya
                    isInsideInboxQuery = "select * from tb_sync_inbox where client_unique_id={} and sync_token = '{}' and table_name = '{}' and msg_type='{}'".format(
                        item['client_unique_id'], item['sync_token'],
                        item['table_name'], item['msg_type'])

                elif (item['msg_type'] == 'UPD'):
                    isInsideInboxQuery = "select * from tb_sync_inbox where client_unique_id={} and sync_token = '{}' and table_name = '{}' and msg_type='{}'".format(
                        item['client_unique_id'], item['sync_token'],
                        item['table_name'], item['msg_type'])

                inbox = self.db.executeFetchAll(isInsideInboxQuery)

                if (inbox['execute_status']):
                    clients = [
                        client['client_unique_id'] for client in inbox['data']
                    ]
                    print(clients)
                    if (item['client_unique_id'] not in clients):
                        isValid = True

                else:
                    self.syslog.insert("ventilator-valid-msg",
                                       "Error get data from outbox")
            else:
                isValid = True

            # print(isValid)
            # sys.exit()
            print("Status: ", end="")
            if (isValid):

                # filter DEL msg type
                # jangan kirim pesan DEL jika row yang di DEL belum selesai
                if (not env.MASTER_MODE and item['msg_type'] == 'DEL'):
                    checkPRIQuery = """
                        select * from tb_sync_inbox where msg_type = 'PRI'
                        and status='waiting'
                        and table_name = '{}' and row_id = '{}'
                    """
                    checkPRIRes = self.db.executeFetchAll(
                        checkPRIQuery.format(item['table_name'],
                                             item['query']))

                    if (checkPRIRes['execute_status']):
                        if (len(checkPRIRes['data']) > 0):
                            print("PRI not yet process")
                            continue
                    else:
                        print("check PRI fails")
                        continue

                print('Valid')
                packet = {
                    'client_id': item['client_unique_id'],
                    'client_key': item['client_key'],
                    'client_iv': item['client_iv'],
                    'client_port': item['client_port'],
                    'client_ip': item['client_ip'],
                    'msg_type': item['msg_type'],
                    'row_id': item['row_id'],
                    'table_name': item['table_name'],
                    'msg_id': item['outbox_id'],
                    'occur_at': item['occur_at'],
                    'sync_token': item['sync_token'],
                    'first_time_occur_at': item['first_time_occur_at'],
                    'query': item['query'],
                    'priority': item['priority'],
                    'timestamp':
                    item['created_at'].strftime("%Y-%m-%d %H:%M:%S")
                }
                nextRetryAt = datetime.datetime.now() + datetime.timedelta(
                    seconds=30)
                nextRetryAt = nextRetryAt.strftime('%Y-%m-%d %H:%M:%S')
                if (item['msg_type'] == 'ACK'):
                    status = 'arrived'
                else:
                    status = 'sent'
                self.outbox.update(
                    data={
                        'priority': 3,
                        'status': status,
                        'retry_again_at': nextRetryAt
                    },
                    where_clause={'outbox_id': item['outbox_id']})
                self.sender.send_json(packet)

                file = open("sendtime.txt", 'a')
                file.write(f"{time.time()}\n")
                file.close()

            else:
                invalidReason = 'Loop'
                print('Invalid, Reason: {}'.format(invalidReason))
                # self.outbox.update(data={'status': 'canceled'}, where_clause={
                #                    'outbox_id': item['outbox_id']})
                query = "update tb_sync_outbox set status='canceled' where outbox_id = {}".format(
                    item['outbox_id'])

                self.db.executeCommit(query)
Ejemplo n.º 21
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 def test_send_notifications(self, mocked_send, mocked_ready):
     """Test that notifications can be sent."""
     mocked_ready.side_effect = [True, False]
     outbox = Outbox(self.notifications)
     outbox.send_notifications()
     mocked_send.assert_called_once()
Ejemplo n.º 22
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class Sync:
    def __init__(self):
        self.syncDB = DatabaseConnection(env.DB_HOST, env.DB_UNAME,
                                         env.DB_PASSWORD, env.DB_NAME)
        # self.statusDB = DatabaseConnection(
        #     env.DB_HOST, env.DB_UNAME, env.DB_PASSWORD, env.DB_NAME)
        self.limitRow = env.LIMIT_PROC_ROW
        self.outbox = Outbox(self.syncDB)
        self.systemlog = SystemLog()
        self.inbox = Inbox(self.syncDB)
        self.outbox = Outbox(self.syncDB)
        self.clientIdStartFrom = 10
        self.updateToZeroHistory = set([])
        self.PKFileName = 'pk'
        self.nextPriToProcess = dict()
        self.PRIFileName = 'pri'

    def getClient(self):
        sql = "select * from tb_sync_client"
        return self.syncDB.executeFetchAll(sql)

    def _getPrimaryKeyColumn(self, table):
        db_name = env.DB_NAME
        sql = """
            select COLUMN_NAME from information_schema.COLUMNS
            where TABLE_SCHEMA='{}' and TABLE_NAME='{}'
            and COLUMN_KEY='PRI'
        """.format(db_name, table)
        res = self.syncDB.executeFetchOne(sql)
        return res['data']['COLUMN_NAME']

    def setPriority(self, id, table, priority):
        db_name = env.DB_NAME
        sql = """
            select COLUMN_NAME from information_schema.COLUMNS
            where TABLE_SCHEMA='{}' and TABLE_NAME='{}'
            and COLUMN_KEY='PRI'
        """.format(db_name, table)
        res = self.syncDB.executeFetchOne(sql)
        if (res['execute_status']):
            primary_key = res['data']['COLUMN_NAME']
            # update primary key
            sql = "update {} set priority={} where {}={}"
            update = self.syncDB.executeCommit(
                sql.format(table, priority, primary_key, id))

            if (update):
                # update PK success
                print("Updated Priority")
            else:
                self.systemlog.insert(
                    "Sync.setPriority",
                    json.dumps(self.syncDB.getLastCommitError()))

    def processInsert(self, data):
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")
        # mengirim bahwa pesan sedang di proses
        # self.sendStatusUpdate(data, 'PROC')

        insert = self.syncDB.executeCommit(data['query'])
        rowId = self.syncDB.lastRowId

        if (insert):
            # hanya master yang mengirim NEEDPK ke slave
            # if(env.MASTER_MODE):
            #     self.sendStatusUpdate(data, 'NEEDPK')

            print("Status: OK")

            # set result primary key to table inbox
            insert = self.inbox.update(
                data={
                    'result_primary_key': rowId,
                },
                where_clause={'inbox_id': data['inbox_id']})

            # if the msg is sent from master
            # update primary key right away
            if (data['master_status'] == 1):
                # insert to inbox jadi akan dikerjakan di proses selanjutnya
                inbox = {
                    'row_id': rowId,
                    'table_name': data['table_name'],
                    'msg_type': 'PRI',
                    'msg_id': 0,
                    'query': data['row_id'],
                    'client_unique_id': data['client_unique_id'],
                    'master_status': 0,
                    'priority': 1
                }
                if (not self.inbox.insert(inbox)):
                    print(self.syncDB.getLastCommitError())
            elif (env.MASTER_MODE):
                # master akan mengirim PK hasil insert ke
                # slave pengirim pesan insert
                msg = {
                    'row_id': data['row_id'],  # local row id
                    'table_name': data['table_name'],
                    'msg_type': 'PRI',
                    'query': rowId,  # receiver outbox_id
                    'client_unique_id': data['client_unique_id'],
                    'msg_id': 0,
                    'priority': 1
                }
                tes = self.outbox.insert(msg)
                # print(tes)
                if (not tes):
                    print(self.syncDB.getLastCommitError())
            self.setAsProcessed(data['inbox_id'])
        else:
            # set priority menjadi 3
            self.setPriority(data['inbox_id'], 'tb_sync_inbox', 3)
            print('error, downgrade priority')
        return True

    def getZeroPKHistory(self):
        file = open(self.PKFileName, 'r')
        file_value = file.read()
        if (file_value):
            self.updateToZeroHistory = set(literal_eval(file_value))
        file.close()

    def getPriToProcess(self):
        file = open(self.PRIFileName, 'r')
        file_value = file.read()
        if (file_value):
            self.nextPriToProcess = literal_eval(file_value)
        file.close()

    def updateZeroPKHistory(self):
        file = open(self.PKFileName, 'w')
        file.write(str(list(self.updateToZeroHistory)))
        file.close()

    def updatePriToProcess(self):
        file = open(self.PRIFileName, 'w')
        file.write(str(self.nextPriToProcess))
        file.close()

    def processPrimaryKey(self, data):
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")

        if (data['row_id'] == int(data['query'])):
            self.setAsProcessed(data['inbox_id'])
            print("Status: OK Same PK")
            return True

        self.getPriToProcess()
        print(self.nextPriToProcess)
        if (data['table_name'] in self.nextPriToProcess):
            if (int(data['query']) !=
                    self.nextPriToProcess[data['table_name']]):
                print(
                    f"Status: {data['query']}/{self.nextPriToProcess[data['table_name']]}"
                )
                return True

        self.getZeroPKHistory()

        # check apakah pri ini ada di history update 0
        row_id = data['row_id']

        if (len(self.updateToZeroHistory) > 0):
            # mencari apakah ada history\
            code = f"{data['table_name']}{data['row_id']}"
            zeroExecMode = False

            if (code in self.updateToZeroHistory):
                print("Mode: 0 Exec")
                data['row_id'] = 0
                res = self.doUpdatePK(data)
                if (res):
                    self.updateToZeroHistory.remove(code)
            else:
                # skip
                res = self.doUpdatePK(data)
        else:
            # langsung eksekusi update
            res = self.doUpdatePK(data)

        print("Status: ", end="")
        print("OK") if res else print("ERROR")
        self.updateZeroPKHistory()
        # mencari nama kolom primary key
        # print(db_name)

    def doUpdatePK(self, data):
        db_name = env.DB_NAME
        sql = """
            select COLUMN_NAME from information_schema.COLUMNS
            where TABLE_SCHEMA='{}' and TABLE_NAME='{}'
            and COLUMN_KEY='PRI'
        """.format(db_name, data['table_name'])
        res = self.syncDB.executeFetchOne(sql)
        if (res['execute_status']):
            primary_key = res['data']['COLUMN_NAME']
            update_from = data['row_id']
            update_to = data['query']
            print(f"From: {update_from} To: {update_to}")
            sql = "update {} set {}={} where {}={}"
            update = self.syncDB.executeCommit(
                sql.format(data['table_name'], primary_key, update_to,
                           primary_key, update_from))

            if (update):
                # set status outbox menjadi done

                if (update_from == 0):
                    self.nextPriToProcess.pop(data['table_name'])
                else:
                    self.nextPriToProcess[data['table_name']] = update_from

                self.updatePriToProcess()

                if (data['msg_id'] == 0):
                    # pesan PRI di generate oleh slave
                    # mengambil pesan INS
                    insMsg = self.syncDB.executeFetchOne(
                        f"select * from tb_sync_inbox where row_id={data['query']} and msg_type='INS' and table_name='{data['table_name']}'"
                    )
                    self.sendStatusUpdate(insMsg['data'], 'DONE')
                else:
                    # pesan PRI yang diterima dari master
                    updateQ = f"update tb_sync_outbox set status='done' where table_name='{data['table_name']}' and msg_type='INS' and row_id = {data['row_id']}"
                    self.syncDB.executeCommit(updateQ)

                # update PK success
                # cek pesan lain yang menggunakan PK lama
                # update ke PK baru
                if (not env.MASTER_MODE):
                    check = "select * from tb_sync_outbox where (status = 'waiting' or status='canceled') and (msg_type = 'DEL' or msg_type='UPD') and row_id = {}"
                    res = self.syncDB.executeFetchAll(
                        check.format(data['row_id']))
                    if (res['execute_status']):
                        # update ke PK yang benar
                        for msg in res['data']:
                            query = "update tb_sync_outbox set row_id={}, status='waiting' where outbox_id={}"
                            updated = self.syncDB.executeCommit(
                                query.format(data['query'], msg['outbox_id']))
                            if (not updated):
                                print(self.syncDB.getLastCommitError()['msg'])
                    else:
                        print("CHECK PESAN LAIN ERROR: {}".format(
                            res['error_data']['msg']))
                self.setAsProcessed(data['inbox_id'])
                return True
            else:
                # update to zero history
                self.setPriority(data['inbox_id'], 'tb_sync_inbox', 3)
                allowToAdd = True
                for item in self.updateToZeroHistory:
                    if (data['table_name'] in item):
                        allowToAdd = False
                        break

                if (allowToAdd):
                    self.nextPriToProcess[data['table_name']] = update_from
                    self.updatePriToProcess()

                    code = f"{data['table_name']}{data['row_id']}"
                    self.updateToZeroHistory.add(code)
                    update = self.syncDB.executeCommit(
                        sql.format(data['table_name'], primary_key, 0,
                                   primary_key, update_from))
                return False
                # ubah primary key goal menjadi 0

    def processUpdate(self, data):
        # self.sendStatusUpdate(data, "PROC")
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")
        # cek apakah pesan ini lebih baru dibantingkan data sekarnag
        primary_key = self._getPrimaryKeyColumn(data['table_name'])
        row_data = self.syncDB.executeFetchOne(
            f"select * from {data['table_name']} where {primary_key}={data['row_id']}"
        )
        print(
            f"{row_data['data']['last_action_at']} : {data['first_time_occur_at']}"
        )
        if (row_data['data']['last_action_at'] < data['first_time_occur_at']):
            # data yang di proses adalah data baru
            execute = self.syncDB.executeCommit(data['query'])
            if (not execute):
                print("Status: ERROR")
            else:
                self.setAsProcessed(data['inbox_id'])
                self.sendStatusUpdate(data, "DONE")
                print("Status: OK")
        else:
            # data yang di proses adlaah data lama
            self.setAsProcessed(data['inbox_id'])
            self.sendStatusUpdate(data, "DONE")
            print("Status: OLD DATA")

    def processDelete(self, data):
        # self.sendStatusUpdate(data, "PROC")
        # cek apakah ada inbox yang bertipe PRI
        # berdasarkan primari key yang masuk
        # jika ada mata update inbox tersebut jadi terproses
        # jika tidak ada lakukan delete seperti biasa
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")
        checkQuery = """
            select count(inbox_id) as total from tb_sync_inbox where msg_type = 'PRI'
            and status = 'waiting'
            and table_name = '{}'
            and query = '{}'
        """

        result = self.syncDB.executeFetchOne(
            checkQuery.format(data['table_name'], data['query']))
        if (result['execute_status']):
            if (result['data']['total'] > 0):
                print('Skip, total PRI: {}'.format(result['data']['total']))
            else:
                dltQuery = "delete from {} where {}={}"
                pkColumnName = self._getPrimaryKeyColumn(data['table_name'])
                delete = self.syncDB.executeCommit(
                    dltQuery.format(data['table_name'], pkColumnName,
                                    data['row_id']))

                if (delete):
                    self.sendStatusUpdate(data, "DONE")
                    self.setAsProcessed(data['inbox_id'])
                    print("Status: OK")
                else:
                    self.setPriority(data['inbox_id'], 'tb_sync_inbox', 3)
                    print("Status: ERROR")

    def processAck(self, data):
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")
        obox = self.syncDB.executeFetchOne(
            f"select * from tb_sync_outbox where outbox_id = {data['query']}")
        ack = True
        if (obox['data']):
            if (obox['data']['msg_type'] == 'INS'):
                status = 'need_pk_update'
            else:
                status = 'arrived'

            ack = self.outbox.update(data={'status': status},
                                     where_clause={'outbox_id': data['query']})
            # ack = self.syncDB.executeCommit(
            #     f"update tb_sync_outbox set status='{status}' where outbox_id={data['query']}")
        # ackQuery = "update tb_sync_outbox set is_arrived=1, status='arrived' where outbox_id = {}".format(
        #     data['query'])
        # ack = self.syncDB.executeCommit(ackQuery)
        if (not ack):
            self.outbox.update(data={'status': 'error'},
                               where_clause={'outbox_id': data['msg_id']})
            print("Status: ERROR")
            # errorQuery = 'update tb_sync_outbox set is_error=1 where outbox_id = {}'.format(
            #     data['msg_id'])
            # self.syncDB.executeCommit(errorQuery)

            # self.systemlog.insert("processACK", "Gagal update ACK ID#{} ERROR: {}".format(
            #     data['inbox_id'], self.statusDB.getLastCommitError()['msg']))
        else:
            self.setAsProcessed(data['inbox_id'])
            print("Status: OK")

    def processReg(self, data):
        print(f"Inbox ID: {data['inbox_id']}")
        print(f"Type: {data['msg_type']}")
        if (env.MASTER_MODE):
            time.sleep(0.2)
            regData = data['query'].split('#')
            reg = {}
            for item in regData:
                attributes = item.split(':')
                reg[attributes[0]] = attributes[1]

            # cek apakah ip address sudah terdaftar
            checkQuery = f"select count(*) as total from tb_sync_client where client_ip = '{reg['ip_address']}'"
            check = self.syncDB.executeFetchOne(checkQuery)
            if (check['data']['total'] > 0):
                outbox = {
                    'row_id': 0,
                    'table_name': '',
                    'msg_type': 'REG',
                    'msg_id': 0,
                    'query':
                    f"status:ERROR#reason:IP Address sudah digunakan#for:{data['msg_id']}",
                    'client_unique_id': 0,
                    'client_ip': reg['ip_address'],
                    'client_port': reg['port'],
                    'client_key': reg['secret_key'],
                    'client_iv': reg['iv_key']
                }
                self.outbox.insert(outbox)
                self.setAsProcessed(data['inbox_id'])
            else:
                client_id_check_q = "select ifnull(max(client_unique_id), 0) as id from tb_sync_client"
                client_id = self.syncDB.executeFetchOne(client_id_check_q)
                if (client_id['data']['id'] == 0):
                    client_id = self.clientIdStartFrom
                else:
                    client_id = client_id['data']['id'] + 1
                sql = f"insert into tb_sync_client(client_unique_id, client_key, client_iv, client_port, client_ip) values({client_id}, '{reg['secret_key']}', '{reg['iv_key']}', {reg['port']}, '{reg['ip_address']}')"

                inserted = self.syncDB.executeCommit(sql)
                if (not inserted):
                    self.setPriority(data['inbox_id'], 'tb_sync_inbox', 3)
                else:
                    outbox = {
                        'row_id': 0,
                        'table_name': '',
                        'msg_type': 'REG',
                        'msg_id': 0,
                        'query':
                        f"status:OK#id:{client_id}#for:{data['msg_id']}",
                        'client_unique_id': client_id
                    }
                    self.outbox.insert(outbox)
                    self.setAsProcessed(data['inbox_id'])
                    print("Status: OK")
        else:
            outbox = {
                'row_id': 0,
                'table_name': '',
                'msg_type': 'REG',
                'msg_id': 0,
                'query':
                f"status:ERROR#reason:Host bukan master#for:{data['msg_id']}",
                'client_unique_id': 0,
                'client_ip': reg['ip_address'],
                'client_port': reg['port'],
                'client_key': reg['secret_key'],
                'client_iv': reg['iv_key']
            }
            self.outbox.insert(outbox)
            self.setAsProcessed(data['inbox_id'])
            print(f'Status: ERROR')

    def getData(self):
        self.syncDB.connect()
        sql = "(select * from tb_sync_inbox where status = 'waiting' and msg_type <> 'PRI' order by priority asc, inbox_id asc, occur_at asc)"
        if (self.limitRow > 0):
            sql += f' limit {self.limitRow}'

        self.getPriToProcess()
        additionalQuery = ""
        excludeTables = ""
        # tambah query untuk mendapatkan pri yang harus diproses
        if (len(self.nextPriToProcess) > 0):
            for item in self.nextPriToProcess:
                additionalQuery += f" union (select * from tb_sync_inbox where status = 'waiting' and msg_type = 'PRI' and table_name = '{item}' and query = '{self.nextPriToProcess[item]}' order by first_time_occur_at asc, priority asc)"
                if (excludeTables != ''):
                    excludeTables += f" or table_name <> '{item}'"
                else:
                    excludeTables += f"table_name <> '{item}'"

        # buat query untuk mengambil PRI masing2 tabel kecuali excluded table
        if (excludeTables == ''):
            # mengambil pesan PK masing2 1 pada setiap tabel
            # additionalQuery = ''
            additionalQuery += f" union (SELECT * FROM tb_sync_inbox WHERE msg_type = 'PRI' AND STATUS='waiting' GROUP BY table_name ORDER BY first_time_occur_at ASC, priority ASC)"
        else:
            additionalQuery += f" union (select * from tb_sync_inbox where status = 'waiting' and msg_type = 'PRI' and ({excludeTables}) group by table_name order by first_time_occur_at asc, priority asc)"

        # print(sql + additionalQuery)
        data = self.syncDB.executeFetchAll(sql + additionalQuery, False)
        self.syncDB.close()
        return data

    def getStatusInbox(self):
        sql = "select * from tb_sync_inbox where status = 'waiting' and (msg_type = 'ACK' or msg_type = 'DONE') order by priority asc, inbox_id asc, occur_at asc"
        if (self.limitRow > 0):
            sql += f' {self.limitRow}'
        data = self.syncDB.executeFetchAll(sql)
        return data

    def getSyncInbox(self):
        sql = "select * from tb_sync_inbox where status = 'waiting' and (msg_type = 'INS' or msg_type = 'UPD' or msg_type = 'DEL' or msg_type = 'REG' or msg_type = 'PRI') order by priority asc, inbox_id asc, occur_at asc"
        if (self.limitRow > 0):
            sql += f' {self.limitRow}'
        data = self.syncDB.executeFetchAll(sql)
        return data

    def setAsProcessed(self, id, status='done'):
        set = self.inbox.update(data={'status': status},
                                where_clause={'inbox_id': id})
        # query = 'update tb_sync_inbox set is_process=1 where inbox_id = {}'.format(
        #     id)
        # print(set)

    def sendStatusUpdate(self, data, status):
        return self.outbox.insert({
            'row_id': data['row_id'],  # local row id
            'table_name': data['table_name'],
            'msg_type': status,
            'query': data['msg_id'],  # receiver outbox_id
            'client_unique_id': data['client_unique_id'],
            'msg_id': 0,
            'priority': 1
        })

    def updateOutboxStatus(self, id, status, inbox_id):
        upd = self.syncDB.executeCommit(
            f"update tb_sync_outbox set status='{status}' where outbox_id={id}"
        )
        if (upd):
            self.setAsProcessed(inbox_id)
        else:
            self.setPriority(inbox_id, 'tb_sync_inbox', 3)

    def canProcessMsg(self, data):
        watchedMsgType = ['INS', 'UPD', 'DEL']
        if (data['msg_type'] not in watchedMsgType):
            return True

        # cek apakah ada pesan watchedMsgType yang blm selesai
        # sebelum inbox_id ini

        # jika slave, harus memastika semua outbox nya selesai di proses di master
        # lalu eksekusi inbox
        if (not env.MASTER_MODE):
            previousMsgs = self.syncDB.executeFetchOne(
                "select count(*) as total from tb_sync_outbox where (msg_type = 'INS' or msg_type='UPD' or msg_type='DEL') and status <> 'done'"
            )

            if (previousMsgs['data']['total'] > 0):
                return False
            else:
                return True

        print(previousMsgs)

    def process(self, inbox):
        if (inbox):
            for item in inbox:
                # proses pesan selain INS, UPD dan DEL terlebih dahulu
                # jgn proses pesan utama jika masih ada pesan INS UPD DEL yang belum selesai

                # jika proses adalah INS UPD DEL, lakukan pengecekan pesan tertunda
                delayMsgInboxQ = "select count(*) from tb_sync_inbox where status "
                print("[{}] -> #{}".format(
                    datetime.datetime.now().strftime("%d-%m-%Y %H:%M:%S"),
                    item['msg_id']),
                      end=" ")
                msgType = item['msg_type']
                if (msgType == 'INS'):
                    self.processInsert(item)
                elif (msgType == 'UPD'):
                    self.processUpdate(item)
                elif (msgType == 'DEL'):
                    self.processDelete(item)
                elif (msgType == 'ACK'):
                    self.processAck(item)
                elif (msgType == "PRI"):
                    self.processPrimaryKey(item)
                elif (msgType == 'REG'):
                    self.processReg(item)
                elif (msgType == 'PROC'):
                    print(
                        self.updateOutboxStatus(item['query'], "processing",
                                                item['inbox_id']))
                elif (msgType == 'NEEDPK'):
                    print(
                        self.updateOutboxStatus(item['query'],
                                                "need_pk_update",
                                                item['inbox_id']))
                elif (msgType == 'DONE'):
                    done = self.statusDB.executeCommit(
                        f"update tb_sync_outbox set status = 'done' where outbox_id = {item['query']}"
                    )

                    if (done):
                        print(
                            self.statusDB.executeCommit(
                                f"update tb_sync_inbox set status='done' where inbox_id={item['inbox_id']}"
                            ))
                    else:
                        print("False")
                    # print(self.updateOutboxStatus(
                    #     item['query'], "done", item['inbox_id']))
                else:
                    self.syncDB.insError("Msg type not found for id=" +
                                         str(item['inbox_id']))

                # print(f"finish at: {time.time()}")
                file = open("proctime.text", 'a')
                file.write(f"{time.time()}\n")
                file.close()

        else:
            time.sleep(0.3)
Ejemplo n.º 23
0
 def __init__(self, config):
     self.outbox = Outbox(server=config.host,
                          username=config.user,
                          password=config.password,
                          port=config.get('port', 25),
                          mode=config.get('mode', None))
import time
import zmq
import os
import sys
import json
import env
from encryption import AES256
from DatabaseConnection import DatabaseConnection
import time
from outbox import Outbox
import datetime

uniqueId = env.UNIQUE_ID
db = DatabaseConnection(env.DB_HOST, env.DB_UNAME,
                        env.DB_PASSWORD, env.DB_NAME)
outbox = Outbox(db)
# if(len(sys.argv) == 2):
#     fileName = sys.argv[1]
# else:
#     fileName = 'worker_process.id'

# print(fileName)
context = zmq.Context()
# f = open("process/"+fileName, "a+")
# f.write(str(os.getpid()) + "\n")
# f.close()
# Socket to receive messages on
receiver = context.socket(zmq.PULL)
receiver.connect("tcp://localhost:5557")