Example #1
0
 def add_group(self):
     print "Adding group"
     self.group1 = Group(name="group")
     self.group1.save()
     self.group2 = Group(name="group2")
     self.group2.save()
     self.area = AreaInfo(areaid="TEST000000",
                          areanm="TEST",
                          groupid=self.group1)
     self.area.save()
     self.place = PlaceInfo(placeid="TEST000000",
                            placenm="TEST",
                            areaid=self.area,
                            groupid=self.group2)
     self.place.save()
     self.devicetype = DeviceTypeInfo(typeid="0",
                                      devicetype=1,
                                      typenm="Controller")
     self.devicetype.save()
     print "Enter controller id from 0 to 19, please enter a single digit.\n"
     for ev in range(14):
         id1 = raw_input()
         test_ev = "0000-0000-0000" + id1
         self.con = ControllerInfo(controllerid=test_ev,
                                   placeid=self.place,
                                   controllernm="TEST cont",
                                   type=self.devicetype)
         self.con.save()
Example #2
0
class ResultTest(TestCase):
    
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=self.area,groupid = self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=self.place,controllernm="TEST cont",type=self.devicetype)
        self.con.save()
        
        self.req = ControlResult(requestid=1,controllerid=self.con,controltype=80,devicetype=1,deviceindex=0)
        self.req.save()
                
    def test_normal(self):
        self.client = Client()
        csvline = "1,0,TEST"
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/controlresult/' + has,csvline,'application/x-www-form-urlencoded')
        
        self.assertEqual(response.content, 'OK', 'response dont match %s' % response.content) 
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()  
        self.assertEqual(res.result ,0, "controltype don't match {0}".format(res.result))
        self.assertEqual(res.resultmsg ,"TEST", "devicetype don't match {0}".format(res.resultmsg)) 
        
    def test_nothing(self):
        self.client = Client()
        csvline = "0,1,TEST"
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/controlresult/' + has,csvline,'application/x-www-form-urlencoded')
        
        self.assertEqual(response.content, "NG Data don't match", 'response dont match %s' % response.content)  
    
    def test_getlog(self):
        self.req.controltype = 60
        self.req.save()
        self.client = Client()
        csvline = "1,0,test.log"
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/controlresult/' + has,csvline,'application/x-www-form-urlencoded')
        
        self.assertEqual(response.content, 'OK') 
        
        flist = LogList.objects.get(controllerid = self.con.controllerid)
        self.assertEqual(flist.filenm, 'test.log') 
        self.assertEqual(flist.url, settings.MY_WEBDAV_URL + 'test.log') 
        
        
        
        
        
Example #3
0
 def setUp(self):
     self.group1 = Group(name="group")
     self.group1.save()
     self.group2 = Group(name="group2")
     self.group2.save()
     self.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = self.group1)
     self.area.save()
     self.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=self.area,groupid = self.group2)
     self.place.save()
     self.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
     self.devicetype.save()
     self.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=self.place,controllernm="TEST cont",type=self.devicetype)
     self.con.save()
Example #4
0
class TestEventSave(TestCase):
    def setUp(self):
        self.group1 = Group(name="group")
        self.group1.save()
        self.group2 = Group(name="group2")
        self.group2.save()
        self.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = self.group1)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=self.area,groupid = self.group2)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=self.place,controllernm="TEST cont",type=self.devicetype)
        self.con.save()
    
    def test_OneMailtoAdminHappen(self):
        #user = User.objects.create_user('tester', '*****@*****.**', 'password')
        user = User.objects.create_user('tester', '*****@*****.**', 'password')
        user.is_staff = True
        user.is_superuser = True
        user.save()
        
        #evmail = EventSms()
        #evmail.priorityno = 0
        #evmail.sendrange = 0
        #evmail.sendhappen = True
        #evmail.sendrestore= False
        #evmail.subject= 'Test Mail'
        #evmail.message = 'Happen Alarm $CONT-NM$'
        #evmail.targetevent = '1010000011'
        #evmail.save()

        evsms = EventSms()
        evsms.priorityno = 0
        evsms.sendrange = 0
        evsms.sendhappen = True
        evsms.sendrestore= False
        evsms.subject= 'Test Mail'
        evsms.message = 'Happen Alarm $CONT-NM$'
        evsms.targetevent = '1010000011'
        evsms.save()

        evn = Event(controllerid="TEST-0000-000000",deviceindex=0,alarmtype=1)
        evn.senddate =  timezone.now()
        evn.measureddate =  timezone.now()
        evn.id = createid(evn.controllerid,evn.measureddate,Event)
        evn.code = "1010000011"
        evn.level = 3
        evn.message = "Changed Controller Setting by the Controller"
        evn.save()
Example #5
0
 def setUp(self):
     self.group = Group(name="group")
     self.group.save()
     self.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = self.group)
     self.area.save()
     self.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=self.area,groupid = self.group)
     self.place.save()
     self.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
     self.devicetype.save()
     self.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=self.place,controllernm="TEST cont",type=self.devicetype)
     self.con.save()
     
     self.req = ControlResult(requestid=1,controllerid=self.con,controltype=80,devicetype=1,deviceindex=0)
     self.req.save()
Example #6
0
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",
                             areanm="TEST",
                             groupid=self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",
                               placenm="TEST",
                               areaid=self.area,
                               groupid=self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",
                                         devicetype=1,
                                         typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid="0000-0000-000000",
                                  placeid=self.place,
                                  controllernm="TEST cont",
                                  type=self.devicetype)
        self.con.save()

        self.senddate = "2013-07-08 11:11:11"
        self.alermtype = "0"

        self.bttrtype = DeviceTypeInfo(typeid="1",
                                       devicetype=2,
                                       typenm="Battery")
        self.bttrtype.save()

        self.sb = SettingBattery(type=self.bttrtype)
        self.sb.controllerid = self.con
        self.sb.deviceindex = 0
        self.sb.mode = 1
        self.sb.soc_max = 80
        self.sb.soc_min = 0
        self.sb.energy = 1800
        self.sb.shipping_energy = 1800
        self.sb.chargepower_max = 2000
        self.sb.dischargepower_max = 1000
        self.sb.bms_cnt = 1
        self.sb.voltage_max = 100
        self.sb.voltage_min = 50
        self.sb.peak_shaving_limit = 10000
        self.sb.save()
Example #7
0
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",
                             areanm="TEST",
                             groupid=self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",
                               placenm="TEST",
                               areaid=self.area,
                               groupid=self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",
                                         devicetype=1,
                                         typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid="0000-0000-000000",
                                  placeid=self.place,
                                  controllernm="TEST cont",
                                  type=self.devicetype)
        self.con.save()

        self.senddate = "2013-07-08 11:11:11"
        self.alermtype = "0"
Example #8
0
def ControlResultSetup(obj):
    obj.group = Group(name="group")
    obj.group.save()
    obj.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = obj.group)
    obj.area.save()
    obj.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=obj.area,groupid = obj.group)
    obj.place.save()
    obj.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
    obj.devicetype.save()
    obj.devicetypeb = DeviceTypeInfo(typeid="1",devicetype=2,typenm="Battery")
    obj.devicetypeb.save()
    obj.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=obj.place,controllernm="TEST cont",type=obj.devicetype)
    obj.con.save()
        
    for i in range(0,100):
        res = ControlResult(requestid=i+100, controllerid=obj.con, deviceindex=0, controltype=10, devicetype=1)
        if i < 60:
            res.result = 1
        res.save()
        
        res.updatedate = (dt.utcnow() - timedelta(days=100-i,hours=-1))
        cursor = connection.cursor()
        cursor.execute("update emscontrol_controlresult set updatedate=%s where requestid=%s",[res.updatedate.strftime('%Y-%m-%d %H:%M:%S'),str(res.requestid)])
        transaction.commit_unless_managed()
Example #9
0
class MakeDairyPowerTest(TestCase):
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",
                             areanm="TEST",
                             groupid=self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",
                               placenm="TEST",
                               areaid=self.area,
                               groupid=self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",
                                         devicetype=1,
                                         typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid="0000-0000-000000",
                                  placeid=self.place,
                                  controllernm="TEST cont",
                                  type=self.devicetype)
        self.con.save()

        self.senddate = "2013-07-08 11:11:11"
        self.alermtype = "0"

    def test_load_pv_zero(self):
        ret = makedairypower(self.con.controllerid, "2013-02-01", 20)
        power = Target_daily_power.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1),
            devicetype=3).order_by('time')
        self.assertEqual(-1, ret, "ret={0}".format(ret))
        self.assertEqual(0, len(power), "power insert {0}".format(len(power)))

    def test_load_zero(self):
        pv = MeasuredPV()
        measureddate = "2013-01-30 11:11:11"
        csvline = ",".join([
            self.con.controllerid, "0", self.senddate, self.alermtype, "1",
            measureddate, "", "", "100"
        ])
        pv.setcsvline(csvline)
        pv.save()

        ret = makedairypower(self.con.controllerid, "2013-02-01", 20)
        power = Target_daily_power.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1),
            devicetype=3).order_by('time')
        self.assertEqual(-1, ret, "ret={0}".format(ret))
        self.assertEqual(0, len(power), "power insert {0}".format(len(power)))

    def test_pv_zero(self):
        load = MeasuredLoad()
        measureddate = "2013-01-30 11:11:11"
        csvline = ",".join([
            self.con.controllerid, "0", self.senddate, self.alermtype, "1",
            measureddate, "", "", "100"
        ])
        load.setcsvline(csvline)
        load.save()

        ret = makedairypower(self.con.controllerid, "2013-02-01", 20)
        power = Target_daily_power.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1),
            devicetype=4).order_by('time')
        self.assertEqual(0, ret, "ret={0}".format(ret))
        self.assertEqual(24 * 3, len(power),
                         "power insert {0}".format(len(power)))

        for test in power:
            if test.time >= time(11, 0):
                self.assertEqual(
                    10, test.power,
                    "time={0} power={1}".format(test.time, test.power))
            else:
                self.assertEqual(
                    0, test.power,
                    "time={0} power={1}".format(test.time, test.power))

    def test_load_full(self):
        for i in range(0, 24 * 60, 5):
            load = MeasuredLoad()
            measureddate = "2013-01-30 %d:%d:0" % (int(
                i / 60), int(i / 5) * 5 % 60)
            csvline = ",".join([
                self.con.controllerid, "0", self.senddate, self.alermtype, "1",
                measureddate, "", "",
                str(i * 100)
            ])
            load.setcsvline(csvline)
            load.save()

        ret = makedairypower(self.con.controllerid, "2013-02-01", 20)
        power = Target_daily_power.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1),
            devicetype=4).order_by('time')
        self.assertEqual(0, ret, "ret={0}".format(ret))
        self.assertEqual(24 * 3, len(power),
                         "power insert {0}".format(len(power)))

        for test in power:
            po = 75 + 10 * (test.time.hour * 60 + test.time.minute)
            self.assertEqual(
                po, test.power,
                "time={0} power={1}".format(test.time, test.power))
Example #10
0
class makeperiodTest(TestCase):
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",
                             areanm="TEST",
                             groupid=self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",
                               placenm="TEST",
                               areaid=self.area,
                               groupid=self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",
                                         devicetype=1,
                                         typenm="Controller")
        self.devicetype.save()
        self.con = ControllerInfo(controllerid="0000-0000-000000",
                                  placeid=self.place,
                                  controllernm="TEST cont",
                                  type=self.devicetype)
        self.con.save()

        self.senddate = "2013-07-08 11:11:11"
        self.alermtype = "0"

        self.bttrtype = DeviceTypeInfo(typeid="1",
                                       devicetype=2,
                                       typenm="Battery")
        self.bttrtype.save()

        self.sb = SettingBattery(type=self.bttrtype)
        self.sb.controllerid = self.con
        self.sb.deviceindex = 0
        self.sb.mode = 1
        self.sb.soc_max = 80
        self.sb.soc_min = 0
        self.sb.energy = 1800
        self.sb.shipping_energy = 1800
        self.sb.chargepower_max = 2000
        self.sb.dischargepower_max = 1000
        self.sb.bms_cnt = 1
        self.sb.voltage_max = 100
        self.sb.voltage_min = 50
        self.sb.peak_shaving_limit = 10000
        self.sb.save()

    def test_makeperiod_only_tariff(self):
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=0,
                                 start_time=time(0, 0),
                                 end_time=time(12, 30),
                                 price=10)
        tari.save()
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=1,
                                 start_time=time(12, 30),
                                 end_time=time(0, 0),
                                 price=20)
        tari.save()
        makeperiod(self.con.controllerid, 20, date(2013, 2, 1))

        sdi = SettingDirective.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1)).order_by('start_time')
        self.assertEqual(2, len(sdi), "len={0}".format(len(sdi)))
        self.assertEqual(0, sdi[0].period_no,
                         "period_no={0}".format(sdi[0].period_no))
        self.assertEqual(1, sdi[1].period_no,
                         "period_no={0}".format(sdi[1].period_no))
        self.assertEqual(0, sdi[0].period_type,
                         "period_type={0}".format(sdi[0].period_type))
        self.assertEqual(1, sdi[1].period_type,
                         "period_type={0}".format(sdi[1].period_type))
        self.assertEqual(10, sdi[0].grid_cost,
                         "grid_cost={0}".format(sdi[0].grid_cost))
        self.assertEqual(20, sdi[1].grid_cost,
                         "grid_cost={0}".format(sdi[1].grid_cost))
        self.assertEqual(
            0, sdi[0].outage_probability,
            "outage_probability={0}".format(sdi[0].outage_probability))
        self.assertEqual(0, sdi[1].outage_probability,
                         "grid_cost={0}".format(sdi[1].outage_probability))
        self.assertEqual(time(0, 0), sdi[0].start_time,
                         "start_time={0}".format(sdi[0].start_time))
        self.assertEqual(time(12, 40), sdi[1].start_time,
                         "start_time={0}".format(sdi[1].start_time))
        self.assertEqual(time(12, 40), sdi[0].end_time,
                         "end_time={0}".format(sdi[0].end_time))
        self.assertEqual(time(0, 0), sdi[1].end_time,
                         "end_time={0}".format(sdi[1].end_time))
        self.assertEqual(0, sdi[0].soc_opt,
                         "start_time={0}".format(sdi[0].soc_opt))
        self.assertEqual(0, sdi[1].soc_opt,
                         "start_time={0}".format(sdi[1].soc_opt))
        self.assertEqual(0, sdi[0].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[0].outage_cnt_opt))
        self.assertEqual(0, sdi[1].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[1].outage_cnt_opt))
        self.assertEqual(
            80, sdi[0].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[0].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[1].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[1].outage_soc_max_opt))
        self.assertEqual(
            0, sdi[0].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[0].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[1].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[1].outage_soc_min_opt))

    def test_makeperiod_tariff_outage(self):
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=0,
                                 start_time=time(0, 0),
                                 end_time=time(12, 30),
                                 price=10)
        tari.save()
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=1,
                                 start_time=time(12, 30),
                                 end_time=time(0, 0),
                                 price=20)
        tari.save()

        out = Target_daily_outage_profile(controllerid=self.con,
                                          period_type=101,
                                          start_time=time(0, 0),
                                          end_time=time(0, 0),
                                          during_minute=100,
                                          probability=50)
        out.save()

        makeperiod(self.con.controllerid, 20, date(2013, 2, 1))

        sdi = SettingDirective.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1)).order_by('start_time')
        self.assertEqual(2, len(sdi), "len={0}".format(len(sdi)))
        self.assertEqual(0, sdi[0].period_no,
                         "period_no={0}".format(sdi[0].period_no))
        self.assertEqual(1, sdi[1].period_no,
                         "period_no={0}".format(sdi[1].period_no))
        self.assertEqual(0, sdi[0].period_type,
                         "period_type={0}".format(sdi[0].period_type))
        self.assertEqual(1, sdi[1].period_type,
                         "period_type={0}".format(sdi[1].period_type))
        self.assertEqual(10, sdi[0].grid_cost,
                         "grid_cost={0}".format(sdi[0].grid_cost))
        self.assertEqual(20, sdi[1].grid_cost,
                         "grid_cost={0}".format(sdi[1].grid_cost))
        self.assertEqual(
            50, sdi[0].outage_probability,
            "outage_probability={0}".format(sdi[0].outage_probability))
        self.assertEqual(
            50, sdi[1].outage_probability,
            "outage_probability={0}".format(sdi[1].outage_probability))
        self.assertEqual(time(0, 0), sdi[0].start_time,
                         "start_time={0}".format(sdi[0].start_time))
        self.assertEqual(time(12, 40), sdi[1].start_time,
                         "start_time={0}".format(sdi[1].start_time))
        self.assertEqual(time(12, 40), sdi[0].end_time,
                         "end_time={0}".format(sdi[0].end_time))
        self.assertEqual(time(0, 0), sdi[1].end_time,
                         "end_time={0}".format(sdi[1].end_time))
        self.assertEqual(0, sdi[0].soc_opt,
                         "start_time={0}".format(sdi[0].soc_opt))
        self.assertEqual(0, sdi[1].soc_opt,
                         "start_time={0}".format(sdi[1].soc_opt))
        self.assertEqual(0, sdi[0].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[0].outage_cnt_opt))
        self.assertEqual(0, sdi[1].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[1].outage_cnt_opt))
        self.assertEqual(
            80, sdi[0].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[0].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[1].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[1].outage_soc_max_opt))
        self.assertEqual(
            0, sdi[0].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[0].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[1].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[1].outage_soc_min_opt))

    def test_makeperiod_tariff_outage_startsift(self):
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=0,
                                 start_time=time(0, 0),
                                 end_time=time(12, 30),
                                 price=10)
        tari.save()
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=1,
                                 start_time=time(12, 30),
                                 end_time=time(0, 0),
                                 price=20)
        tari.save()

        out = Target_daily_outage_profile(controllerid=self.con,
                                          period_type=101,
                                          start_time=time(8, 30),
                                          end_time=time(0, 0),
                                          during_minute=100,
                                          probability=50)
        out.save()

        makeperiod(self.con.controllerid, 20, date(2013, 2, 1))

        sdi = SettingDirective.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1)).order_by('start_time')
        self.assertEqual(3, len(sdi), "len={0}".format(len(sdi)))
        self.assertEqual(0, sdi[0].period_no,
                         "period_no={0}".format(sdi[0].period_no))
        self.assertEqual(1, sdi[1].period_no,
                         "period_no={0}".format(sdi[1].period_no))
        self.assertEqual(2, sdi[2].period_no,
                         "period_no={0}".format(sdi[2].period_no))
        self.assertEqual(0, sdi[0].period_type,
                         "period_type={0}".format(sdi[0].period_type))
        self.assertEqual(0, sdi[1].period_type,
                         "period_type={0}".format(sdi[1].period_type))
        self.assertEqual(1, sdi[2].period_type,
                         "period_type={0}".format(sdi[2].period_type))
        self.assertEqual(10, sdi[0].grid_cost,
                         "grid_cost={0}".format(sdi[0].grid_cost))
        self.assertEqual(10, sdi[1].grid_cost,
                         "grid_cost={0}".format(sdi[1].grid_cost))
        self.assertEqual(20, sdi[2].grid_cost,
                         "grid_cost={0}".format(sdi[2].grid_cost))
        self.assertEqual(
            0, sdi[0].outage_probability,
            "outage_probability={0}".format(sdi[0].outage_probability))
        self.assertEqual(
            50, sdi[1].outage_probability,
            "outage_probability={0}".format(sdi[1].outage_probability))
        self.assertEqual(
            50, sdi[2].outage_probability,
            "outage_probability={0}".format(sdi[2].outage_probability))
        self.assertEqual(time(0, 0), sdi[0].start_time,
                         "start_time={0}".format(sdi[0].start_time))
        self.assertEqual(time(8, 40), sdi[1].start_time,
                         "start_time={0}".format(sdi[1].start_time))
        self.assertEqual(time(12, 40), sdi[2].start_time,
                         "start_time={0}".format(sdi[2].start_time))
        self.assertEqual(time(8, 40), sdi[0].end_time,
                         "end_time={0}".format(sdi[0].end_time))
        self.assertEqual(time(12, 40), sdi[1].end_time,
                         "end_time={0}".format(sdi[1].end_time))
        self.assertEqual(time(0, 0), sdi[2].end_time,
                         "end_time={0}".format(sdi[2].end_time))
        self.assertEqual(0, sdi[0].soc_opt,
                         "start_time={0}".format(sdi[0].soc_opt))
        self.assertEqual(0, sdi[1].soc_opt,
                         "start_time={0}".format(sdi[1].soc_opt))
        self.assertEqual(0, sdi[2].soc_opt,
                         "start_time={0}".format(sdi[2].soc_opt))
        self.assertEqual(0, sdi[0].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[0].outage_cnt_opt))
        self.assertEqual(0, sdi[1].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[1].outage_cnt_opt))
        self.assertEqual(0, sdi[2].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[2].outage_cnt_opt))
        self.assertEqual(
            80, sdi[0].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[0].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[1].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[1].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[2].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[2].outage_soc_max_opt))
        self.assertEqual(
            0, sdi[0].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[0].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[1].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[1].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[2].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[2].outage_soc_min_opt))

    def test_makeperiod_tariff_outage_endsift(self):
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=0,
                                 start_time=time(0, 0),
                                 end_time=time(12, 30),
                                 price=10)
        tari.save()
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=1,
                                 start_time=time(12, 30),
                                 end_time=time(0, 0),
                                 price=20)
        tari.save()

        out = Target_daily_outage_profile(controllerid=self.con,
                                          period_type=101,
                                          start_time=time(0, 0),
                                          end_time=time(13, 30),
                                          during_minute=100,
                                          probability=50)
        out.save()

        makeperiod(self.con.controllerid, 20, date(2013, 2, 1))

        sdi = SettingDirective.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1)).order_by('start_time')
        self.assertEqual(3, len(sdi), "len={0}".format(len(sdi)))
        self.assertEqual(0, sdi[0].period_no,
                         "period_no={0}".format(sdi[0].period_no))
        self.assertEqual(1, sdi[1].period_no,
                         "period_no={0}".format(sdi[1].period_no))
        self.assertEqual(2, sdi[2].period_no,
                         "period_no={0}".format(sdi[2].period_no))
        self.assertEqual(0, sdi[0].period_type,
                         "period_type={0}".format(sdi[0].period_type))
        self.assertEqual(1, sdi[1].period_type,
                         "period_type={0}".format(sdi[1].period_type))
        self.assertEqual(1, sdi[2].period_type,
                         "period_type={0}".format(sdi[2].period_type))
        self.assertEqual(10, sdi[0].grid_cost,
                         "grid_cost={0}".format(sdi[0].grid_cost))
        self.assertEqual(20, sdi[1].grid_cost,
                         "grid_cost={0}".format(sdi[1].grid_cost))
        self.assertEqual(20, sdi[2].grid_cost,
                         "grid_cost={0}".format(sdi[2].grid_cost))
        self.assertEqual(
            50, sdi[0].outage_probability,
            "outage_probability={0}".format(sdi[0].outage_probability))
        self.assertEqual(
            50, sdi[1].outage_probability,
            "outage_probability={0}".format(sdi[1].outage_probability))
        self.assertEqual(
            0, sdi[2].outage_probability,
            "outage_probability={0}".format(sdi[2].outage_probability))
        self.assertEqual(time(0, 0), sdi[0].start_time,
                         "start_time={0}".format(sdi[0].start_time))
        self.assertEqual(time(12, 40), sdi[1].start_time,
                         "start_time={0}".format(sdi[1].start_time))
        self.assertEqual(time(13, 40), sdi[2].start_time,
                         "start_time={0}".format(sdi[2].start_time))
        self.assertEqual(time(12, 40), sdi[0].end_time,
                         "end_time={0}".format(sdi[0].end_time))
        self.assertEqual(time(13, 40), sdi[1].end_time,
                         "end_time={0}".format(sdi[1].end_time))
        self.assertEqual(time(0, 0), sdi[2].end_time,
                         "end_time={0}".format(sdi[2].end_time))
        self.assertEqual(0, sdi[0].soc_opt,
                         "start_time={0}".format(sdi[0].soc_opt))
        self.assertEqual(0, sdi[1].soc_opt,
                         "start_time={0}".format(sdi[1].soc_opt))
        self.assertEqual(0, sdi[2].soc_opt,
                         "start_time={0}".format(sdi[2].soc_opt))
        self.assertEqual(0, sdi[0].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[0].outage_cnt_opt))
        self.assertEqual(0, sdi[1].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[1].outage_cnt_opt))
        self.assertEqual(0, sdi[2].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[2].outage_cnt_opt))
        self.assertEqual(
            80, sdi[0].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[0].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[1].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[1].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[2].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[2].outage_soc_max_opt))
        self.assertEqual(
            0, sdi[0].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[0].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[1].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[1].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[2].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[2].outage_soc_min_opt))

    def test_makeperiod_tariff_outage_sift(self):
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=0,
                                 start_time=time(0, 0),
                                 end_time=time(12, 30),
                                 price=10)
        tari.save()
        tari = SettingGridTariff(areaid=self.area,
                                 period_type=1,
                                 start_time=time(12, 30),
                                 end_time=time(0, 0),
                                 price=20)
        tari.save()

        out = Target_daily_outage_profile(controllerid=self.con,
                                          period_type=101,
                                          start_time=time(8, 30),
                                          end_time=time(13, 30),
                                          during_minute=100,
                                          probability=50)
        out.save()

        makeperiod(self.con.controllerid, 20, date(2013, 2, 1))

        sdi = SettingDirective.objects.filter(
            controllerid__exact=self.con.controllerid,
            target_day__exact=date(2013, 2, 1)).order_by('start_time')
        self.assertEqual(4, len(sdi), "len={0}".format(len(sdi)))
        self.assertEqual(0, sdi[0].period_no,
                         "period_no={0}".format(sdi[0].period_no))
        self.assertEqual(1, sdi[1].period_no,
                         "period_no={0}".format(sdi[1].period_no))
        self.assertEqual(2, sdi[2].period_no,
                         "period_no={0}".format(sdi[2].period_no))
        self.assertEqual(3, sdi[3].period_no,
                         "period_no={0}".format(sdi[3].period_no))
        self.assertEqual(0, sdi[0].period_type,
                         "period_type={0}".format(sdi[0].period_type))
        self.assertEqual(0, sdi[1].period_type,
                         "period_type={0}".format(sdi[1].period_type))
        self.assertEqual(1, sdi[2].period_type,
                         "period_type={0}".format(sdi[2].period_type))
        self.assertEqual(1, sdi[3].period_type,
                         "period_type={0}".format(sdi[3].period_type))
        self.assertEqual(10, sdi[0].grid_cost,
                         "grid_cost={0}".format(sdi[0].grid_cost))
        self.assertEqual(10, sdi[1].grid_cost,
                         "grid_cost={0}".format(sdi[1].grid_cost))
        self.assertEqual(20, sdi[2].grid_cost,
                         "grid_cost={0}".format(sdi[2].grid_cost))
        self.assertEqual(20, sdi[3].grid_cost,
                         "grid_cost={0}".format(sdi[3].grid_cost))
        self.assertEqual(
            0, sdi[0].outage_probability,
            "outage_probability={0}".format(sdi[0].outage_probability))
        self.assertEqual(
            50, sdi[1].outage_probability,
            "outage_probability={0}".format(sdi[1].outage_probability))
        self.assertEqual(
            50, sdi[2].outage_probability,
            "outage_probability={0}".format(sdi[2].outage_probability))
        self.assertEqual(
            0, sdi[3].outage_probability,
            "outage_probability={0}".format(sdi[3].outage_probability))
        self.assertEqual(time(0, 0), sdi[0].start_time,
                         "start_time={0}".format(sdi[0].start_time))
        self.assertEqual(time(8, 40), sdi[1].start_time,
                         "start_time={0}".format(sdi[1].start_time))
        self.assertEqual(time(12, 40), sdi[2].start_time,
                         "start_time={0}".format(sdi[2].start_time))
        self.assertEqual(time(13, 40), sdi[3].start_time,
                         "start_time={0}".format(sdi[3].start_time))
        self.assertEqual(time(8, 40), sdi[0].end_time,
                         "end_time={0}".format(sdi[0].end_time))
        self.assertEqual(time(12, 40), sdi[1].end_time,
                         "end_time={0}".format(sdi[1].end_time))
        self.assertEqual(time(13, 40), sdi[2].end_time,
                         "end_time={0}".format(sdi[2].end_time))
        self.assertEqual(time(0, 0), sdi[3].end_time,
                         "end_time={0}".format(sdi[3].end_time))
        self.assertEqual(0, sdi[0].soc_opt,
                         "start_time={0}".format(sdi[0].soc_opt))
        self.assertEqual(0, sdi[1].soc_opt,
                         "start_time={0}".format(sdi[1].soc_opt))
        self.assertEqual(0, sdi[2].soc_opt,
                         "start_time={0}".format(sdi[2].soc_opt))
        self.assertEqual(0, sdi[3].soc_opt,
                         "start_time={0}".format(sdi[3].soc_opt))
        self.assertEqual(0, sdi[0].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[0].outage_cnt_opt))
        self.assertEqual(0, sdi[1].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[1].outage_cnt_opt))
        self.assertEqual(0, sdi[2].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[2].outage_cnt_opt))
        self.assertEqual(0, sdi[3].outage_cnt_opt,
                         "outage_cnt_opt={0}".format(sdi[3].outage_cnt_opt))
        self.assertEqual(
            80, sdi[0].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[0].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[1].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[1].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[2].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[2].outage_soc_max_opt))
        self.assertEqual(
            80, sdi[3].outage_soc_max_opt,
            "outage_soc_max_opt={0}".format(sdi[3].outage_soc_max_opt))
        self.assertEqual(
            0, sdi[0].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[0].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[1].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[1].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[2].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[2].outage_soc_min_opt))
        self.assertEqual(
            0, sdi[3].outage_soc_min_opt,
            "outage_soc_min_opt={0}".format(sdi[3].outage_soc_min_opt))
Example #11
0
class PollingTest(TestCase):
    
    def setUp(self):
        self.group = Group(name="group")
        self.group.save()
        self.area = AreaInfo(areaid="TEST000000",areanm="TEST",groupid = self.group)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",placenm="TEST",areaid=self.area,groupid = self.group)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",devicetype=1,typenm="Controller")
        self.devicetype.save()
        self.devicetypeb = DeviceTypeInfo(typeid="1",devicetype=2,typenm="Battery")
        self.devicetypeb.save()
        self.con = ControllerInfo(controllerid = "TEST-0000-000000",placeid=self.place,controllernm="TEST cont",type=self.devicetype)
        self.con.save()
    def test_nothing(self):
        self.client = Client()
        deviceindex = "10"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        self.assertEqual(response.content,"Nothing",)
        
    def test_resetController(self):
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=10,devicetype=1)
        req.save()
        
        self.client = Client()
        deviceindex = "10"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        self.assertEqual(result[0],"RESET",)
        self.assertEqual(result[2] ,"CONTROLLER", )
        self.assertEqual(result[3] ,"1", )
        self.assertEqual(result[4],"",)
        
        conr=ControlRequest.objects.filter(controllerid=self.con,deviceindex=1,controltype=10,devicetype=1).get()
        self.assertEqual(conr.deleteflg,True)
            
        reqreslt = ControlResult.objects.get(controllerid=self.con,deviceindex=1,controltype=10,devicetype=1)
        self.assertIsNone(reqreslt.result,)
        self.assertEqual(reqreslt.resultmsg,"")
        
    def test_settingController(self):
        
        scon = SettingController(controllerid=self.con,mode="01")
        scon.save()
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=30,devicetype=1)
        req.save()
        
        self.client = Client()
        deviceindex = "10"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        
        self.assertEqual(result[0],"SETTING",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"CONTROLLER", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        self.assertEqual(result[4],"01","csvdata don't match %s " % result[4])
        
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        
        
        req =ControlRequest.objects.filter(controllerid=self.con,deviceindex=1,controltype=30,devicetype=1).get()
        self.assertEqual(req.deleteflg,True)
            
        reqreslt = ControlResult.objects.get(controllerid=self.con,deviceindex=1,controltype=30,devicetype=1)
        self.assertIsNone(reqreslt.result,)
        self.assertEqual(res.resultmsg,"")

    def test_settingBattery(self):
        
        sbttr = SettingBattery(controllerid=self.con)
        sbttr.deviceindex = 1
        sbttr.mode = 00
        sbttr.soc_max = 100
        sbttr.soc_min = 100
        sbttr.energy = 99999.9
        sbttr.shipping_energy = 99999.9
        sbttr.chargepower_max =99999.9
        sbttr.dischargepower_max = 99999.9
        sbttr.bms_cnt = 99
        sbttr.voltage_max = 99999.9
        sbttr.voltage_min =99999.9
        sbttr.peak_shaving_limit = 99999.9
        sbttr.type = self.devicetypeb
        sbttr.save()
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=30,devicetype=2)
        req.save()
        
        self.client = Client()
        deviceindex = "10"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        
        self.assertEqual(result[0],"SETTING",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"BATTERY", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        
        ressettting = result[4].split(',')
        self.assertEqual(ressettting[0], str(sbttr.mode),'mode does not match{0}!={1}'.format(int(ressettting[0]), sbttr.mode))
        self.assertEqual(ressettting[1], str(sbttr.soc_max),'soc_max does not match{0}!={1}'.format(int(ressettting[1]), sbttr.soc_max))
        self.assertEqual(ressettting[2], str(sbttr.soc_min),'soc_min does not match{0}!={1}'.format(int(ressettting[2]), sbttr.soc_min))
        self.assertEqual(ressettting[3], str(int(sbttr.energy*10)),'energy does not match{0}!={1}'.format(Decimal(ressettting[3]) / Decimal(10), sbttr.energy))
        self.assertEqual(ressettting[4], str(int(sbttr.shipping_energy*10)),'shipping_energy does not match{0}!={1}'.format(Decimal(ressettting[4]) / Decimal(10), sbttr.shipping_energy))
        self.assertEqual(ressettting[5], str(int(sbttr.chargepower_max*10)),'chargepower_max does not match{0}!={1}'.format(Decimal(ressettting[5]) / Decimal(10), sbttr.chargepower_max))
        self.assertEqual(ressettting[6], str(int(sbttr.dischargepower_max*10)),'dischargepower_max does not match{0}!={1}'.format(Decimal(ressettting[6]) / Decimal(10), sbttr.dischargepower_max))
        self.assertEqual(ressettting[7], str(sbttr.bms_cnt), 'bms_cnt does not match{0}!={1}'.format(int(ressettting[7]), sbttr.bms_cnt))
        self.assertEqual(ressettting[8], str(int(sbttr.voltage_max*10)),'voltage_max does not match{0}!={1}'.format(Decimal(ressettting[8]) / Decimal(10), sbttr.voltage_max))
        self.assertEqual(ressettting[9], str(int(sbttr.voltage_min*10)),'voltage_min does not match{0}!={1}'.format(Decimal(ressettting[9]) / Decimal(10), sbttr.voltage_min))
        self.assertEqual(ressettting[10], str(int(sbttr.peak_shaving_limit*10)),'peak_shaving_limit does not match{0}!={1}'.format(Decimal(ressettting[10]) / Decimal(10), sbttr.peak_shaving_limit))
        
        req = ControlRequest.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        self.assertEqual(req.deleteflg,True)
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        self.assertIsNone(res.result,)
        self.assertEqual(res.resultmsg,"")
        
    def test_settingDEG(self):
        
        sdeg = SettingDEG(controllerid=self.con)
        sdeg.deviceindex = 1
        sdeg.max_power = 99999.9
        sdeg.min_sec_switch_onoff = 99
        sdeg.max_cnt_switch_onoff = 99
        sdeg.mode = 1
        sdeg.save()
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=30,devicetype=6)
        req.save()
        
        self.client = Client()
        deviceindex = "1"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        
        self.assertEqual(result[0],"SETTING",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"DEG", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        
        ressettting = result[4].split(',')
        self.assertEqual(ressettting[0], str(int(sdeg.max_power*10)),)
        self.assertEqual(ressettting[1], str(sdeg.min_sec_switch_onoff),)
        self.assertEqual(ressettting[2], str(sdeg.max_cnt_switch_onoff),)
        self.assertEqual(ressettting[3], str(sdeg.mode),)
        
        req = ControlRequest.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        self.assertEqual(req.deleteflg,True)
        
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        self.assertIsNone(res.result,)
        self.assertEqual(res.resultmsg,"")
        
    def test_GET_LOG(self):
        
        slog = SettingGetLogInfo(controllerid=self.con)
        slog.deviceindex = 1
        slog.logfile = "AAAa"
        slog.save()
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=60,devicetype=1)
        req.save()
        
        self.client = Client()
        deviceindex = "1"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        print response.content
        
        self.assertEqual(result[0],"GET_LOG",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"CONTROLLER", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        self.assertEqual(result[4] ,"AAAa", "deviceid don't match %s" % result[3])
        
        req = ControlRequest.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        self.assertEqual(req.deleteflg,True)
        
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        self.assertIsNone(res.result,)
        self.assertEqual(res.resultmsg,"")
        
    def test_FW_UPDATE(self):
        
        sfw = SettingFWUpdateInfo(controllerid=self.con)
        sfw.deviceindex = 1
        sfw.url = "AAAa"
        fwt = FWType(typeid="0",typenm="test0",devicetype=self.devicetype)
        fwt.save()
        fwt2 = FWType(typeid="1",typenm="test1",devicetype=self.devicetype)
        fwt2.save()
        fwif = FWInfo(type=fwt2,version="X.X",url="http://aaa.aaa.aaa/romfs.img.gz",filehash="aaaa")
        fwif.save()
        sfw.fw = fwif
        sfw.save()
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=50,devicetype=1)
        req.save()
        
        self.client = Client()
        deviceindex = "1"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        print response.content
        
        self.assertEqual(result[0],"FW_UPDATE",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"CONTROLLER", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        self.assertEqual(result[4] ,"2", "deviceid don't match %s" % result[4])
        self.assertEqual(result[5] ,";http", "deviceid don't match %s" % result[5])
        
        req = ControlRequest.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        self.assertEqual(req.deleteflg,True)
        
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        self.assertIsNone(res.result,)
        self.assertEqual(res.resultmsg,"")
        
    def test_Directive(self):
        
        req = ControlRequest(controllerid=self.con,deviceindex=1,controltype=80,devicetype=1)
        req.save()
        
        direct = SettingDirective()
        direct.controllerid = self.con
        direct.target_day = datetime.date(2014,1,2)
        direct.period_no = 0
        direct.period_type = 1
        direct.grid_cost = 1
        direct.outage_probability = 0
        direct.start_time = datetime.time(0,0,0)
        direct.end_time =datetime.time(12,0,0)
        direct.soc_opt =50
        direct.outage_cnt_opt = 0
        direct.outage_soc_max_opt = 50
        direct.outage_soc_min_opt = 50
        direct.save()
        
        objs = SettingDirective.objects.filter(controllerid = self.con).order_by("period_no")
        
        print len(objs)
        
        direct2 = SettingDirective()
        direct2.controllerid = self.con
        direct2.target_day =  datetime.date(2014,1,2)
        direct2.period_no = 1
        direct2.period_type = 2
        direct2.grid_cost =2
        direct2.outage_probability = 0
        direct2.start_time = datetime.time(12,0,0)
        direct2.end_time =datetime.time(0,0,0)
        direct2.soc_opt =20
        direct2.outage_cnt_opt = 0
        direct2.outage_soc_max_opt = 50
        direct2.outage_soc_min_opt = 50
        direct2.save()
        
        objs = SettingDirective.objects.filter(controllerid = self.con).order_by("period_no")
        
        print len(objs)
        
        self.client = Client()
        deviceindex = "1"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        print response.content
        result = response.content.split(":")       
        
        self.assertEqual(result[0],"DIRECTIVE",'controltype does not match %s' % result[0])
        self.assertRegexpMatches(result[1],"[0-9]+", "id don't match %s" % result[1])
        self.assertEqual(result[2] ,"CONTROLLER", "controltype don't match %s" % result[2])
        self.assertEqual(result[3] ,"1", "deviceid don't match %s" % result[3])
        
        self.assertEqual(result[4],"2","csvdata don't match %s = %s " % (result[4],direct.getline()))
        self.assertEqual(result[5],direct.getline(),"csvdata don't match %s = %s " % (result[5],direct.getline()))
        self.assertEqual(result[6],direct2.getline(),"csvdata don't match %s = %s " % (result[6],direct2.getline()))
        
        req = ControlRequest.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        self.assertEqual(req.deleteflg,True)
        
        
        res = ControlResult.objects.filter(controllerid_id__exact=self.con.controllerid).order_by("updatedate")[0:1].get()
        
        self.assertEqual(res.requestid ,int(result[1]), "requestid don't match {0}".format(res.requestid))
        self.assertEqual(res.controllerid ,req.controllerid, "controllerid don't match {0}".format(res.controllerid))
        self.assertEqual(res.deviceindex ,req.deviceindex, "deviceindex don't match {0}".format(res.deviceindex))
        self.assertEqual(res.controltype ,req.controltype, "controltype don't match {0}".format(res.controltype))
        self.assertEqual(res.devicetype ,req.devicetype, "devicetype don't match {0}".format(res.devicetype))
        self.assertIsNone(res.result,)
        self.assertEqual(res.resultmsg,"")
        
    def test_multirequest(self):
        req1 = ControlRequest(controllerid=self.con,deviceindex=1,controltype=10,devicetype=1)
        req1.save()
        
        req2 = ControlRequest(controllerid=self.con,deviceindex=1,controltype=40,devicetype=1)
        req2.save()
        
        self.client = Client()
        deviceindex = "1"
        alarmtype = "0"
        senddate = "2020-07-08 11:11:11"
        csvline = ','.join([self.con.controllerid,deviceindex,senddate,alarmtype,])
        has = hashlib.md5(csvline+"gaui120gtahogsa").hexdigest()
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        self.assertEqual(result[0],"RESET",)
        self.assertEqual(result[2] ,"CONTROLLER", )
        self.assertEqual(result[3] ,"1", )
        self.assertEqual(result[4],"",)
        
        response = self.client.post('/emsserver/deviceif/polling/' + has,csvline,'application/x-www-form-urlencoded')
        
        result = response.content.split(':')
        self.assertEqual(result[0],"GET_SETTING",)
        self.assertEqual(result[2] ,"CONTROLLER", )
        self.assertEqual(result[3] ,"1", )
        self.assertEqual(result[4],"",)
Example #12
0
class TestSql:
    def test_connSql(self):

        print "###################################"

        try:
            db = MySQLdb.connect(host="localhost",
                                 user="******",
                                 passwd="ems=2013",
                                 db="emsserver")

            cur = db.cursor()
            cur.execute("select * from receivedata_event")

            for row in cur.fetchall():
                #print row
                #print "hello"
                pass

            db.close()
        except Exception as e:
            print e

    def test_email(self):

        a = DailyMail()
        a.getevent()

    def add_group(self):
        print "Adding group"
        self.group1 = Group(name="group")
        self.group1.save()
        self.group2 = Group(name="group2")
        self.group2.save()
        self.area = AreaInfo(areaid="TEST000000",
                             areanm="TEST",
                             groupid=self.group1)
        self.area.save()
        self.place = PlaceInfo(placeid="TEST000000",
                               placenm="TEST",
                               areaid=self.area,
                               groupid=self.group2)
        self.place.save()
        self.devicetype = DeviceTypeInfo(typeid="0",
                                         devicetype=1,
                                         typenm="Controller")
        self.devicetype.save()
        print "Enter controller id from 0 to 19, please enter a single digit.\n"
        for ev in range(14):
            id1 = raw_input()
            test_ev = "0000-0000-0000" + id1
            self.con = ControllerInfo(controllerid=test_ev,
                                      placeid=self.place,
                                      controllernm="TEST cont",
                                      type=self.devicetype)
            self.con.save()

    def test_sms(self):
        print "In test sms"
        evn = Event(controllerid="0000-0000-000000",
                    deviceindex=0,
                    alarmtype=1)
        #from datetime import datetime, time, timedelta
        #tz = pytz.timezone("Asia/Calcutta")
        #dt_naive = datetime.today()
        #dt = tz.localize(dt_naive, is_dst=None)
        evn.senddate = timezone.now()
        #evn.senddate = dt
        #evn.senddate = (datetime.date.today() - datetime.timedelta(1))
        #print evn.senddate
        evn.measureddate = timezone.now()
        evn.id = createid(evn.controllerid, evn.measureddate, Event)
        evn.code = "1010000011"
        evn.level = 0
        evn.message = "Changed Controller Setting by the Controller"
        #evn.save()
        evsms = EventSms()
        evsms.priorityno = 0
        evsms.sendrange = 0
        evsms.sendhappen = True
        evsms.sendrestore = False
        evsms.subject = 'Test Mail'
        evsms.message = 'Controller : $CONT-NM$	 	Area : $AREA-NM$ 	Place : $PLACE-NM$ 	Target Event Message : $MESSAGE$ 	Target Event Datetime: $DATETIME$  Target Event Code : $CODE$	Target Event Level : $LEVEL$ '

        evsms.targetevent = '1010000011'
        #evsms.phone_no = '8800968857'
        #evsms.save()
        evn.save()

    def create_event(self, controID):

        #print "Enter controller id from 0 to 19, please enter a single digit.\n"
        #id1 = raw_input()
        #test_ev = "0000-0000-0000" + id1
        test_ev = controID
        print "How many event you want to generate, please enter a digit \n"
        ev_gen = raw_input()
        evList = []
        for ev in range(int(ev_gen)):
            evn = Event(controllerid=test_ev, deviceindex=0, alarmtype=3)
            #from datetime import datetime, time, timedelta
            #tz = pytz.timezone("Asia/Calcutta")
            #dt_naive = datetime.today()
            #dt = tz.localize(dt_naive, is_dst=None)
            #evn.senddate = dt
            evn.senddate = timezone.now()
            evn.updatedate = timezone.now()
            #evn.senddate = (dt.date() + timedelta(days=1))
            #evn.senddate = "2014-09-25 02:14:17"
            #evn.senddate = (datetime.date.today() - datetime.timedelta(1))
            #print evn.senddate
            evn.measureddate = timezone.now()
            #evn.measureddate = "2014-11-27 11:17:37.475515+00:00"
            #evn.measureddate = "2015-03-07 20:38:00"
            #evn.measureddate = (datetime.date.today() - datetime.timedelta(1))
            #evn.measureddate = (timezone.now() - timedelta(1000))
            print evn.measureddate
            #evn.measureddate =  datetime.today()
            evn.id = createid(evn.controllerid, evn.measureddate, Event)
            evn.code = "2100000003"
            #evn.code = "2020000002"
            #evn.code = "3090000014"
            #evn.code = "8080808081"
            #evn.code = "2060000007"
            #evn.code = "2090000002"
            #if ev % 2 == 0:
            #    evn.level = 3
            #else :
            #    evn.level = 2
            evn.level = 3
            #evn.message = "EMS Controller SNMP NO Response"
            evn.message = "Event Message 1"
            print "Saving event########"
            #evList.append(evn)
            #for l in evList:
            evn.save()

        #print evn.senddate

    def updateBattData(self, controID):

        battery = MeasuredBattery(controllerid=controID,
                                  deviceindex="0",
                                  alarmtype=3)
        battery.measureddate = timezone.now()
        #battery.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        battery.senddate = timezone.now()
        #battery.senddate = (datetime.date.today() - datetime.timedelta(1000))
        status = raw_input(
            "Enter 01 to CHARGE, 02 to DISCHARGE, 00 to IDLE and 10 to FAILURE \n"
        )
        if status == "01":
            battery.status = status  #charge
        elif status == "02":
            battery.status = status  #discharge
        elif status == "00":
            battery.status = status  #idle
        elif status == "10":
            battery.status = status  #failure
        else:
            print "Wrong choice"

        #battery.status = "02"  #discharge
        #battery.status = "00"  #idle
        #battery.status = "10"  #failure
        battery.soc = "30"
        battery.energy = "16342.9"
        battery.id = createid(battery.controllerid, battery.measureddate,
                              MeasuredBattery)
        battery.soh = "100"
        battery.power = "30.6"
        battery.celltem = "30"
        battery.uniquekey = "123456"
        battery.save()

    def updateDegData(self, controID):

        deg = MeasuredDEG(controllerid=controID, deviceindex="0", alarmtype=3)
        #deg.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        #deg.senddate = (datetime.date.today() - datetime.timedelta(1000))
        deg.measureddate = timezone.now()
        deg.senddate = timezone.now()
        status = raw_input("Enter 0 to ON DEG and 1 to OFF DEG\n")
        if status == "1":
            deg.status = status  #off
        elif status == "0":
            deg.status = status  #on
        else:
            print "Wrong choice"

        deg.power = "0.0"
        deg.id = createid(deg.controllerid, deg.measureddate, MeasuredDEG)
        deg.uniquekey = "123457"
        deg.save()

    def updateGridData(self, controID):

        grid = MeasuredGrid(controllerid=controID,
                            deviceindex="0",
                            alarmtype=3)
        #grid.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        #grid.senddate = (datetime.date.today() - datetime.timedelta(1000))
        grid.measureddate = timezone.now()
        grid.senddate = timezone.now()
        status = raw_input("Enter 0 to OUTAGE and 1 to NO OUTAGE\n")
        if status == "1":
            grid.status = status  #no outage
        elif status == "0":
            grid.status = status  #outage
        else:
            print "Wrong choice"

        grid.power = "100"
        grid.id = createid(grid.controllerid, grid.measureddate, MeasuredGrid)
        grid.uniquekey = "123458"
        grid.save()

    def updatePvData(self, controID):

        pv = MeasuredPV(controllerid=controID, deviceindex="0", alarmtype=3)
        #pv.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        #pv.senddate = (datetime.date.today() - datetime.timedelta(1000))
        pv.measureddate = timezone.now()
        pv.senddate = timezone.now()
        pv.id = createid(pv.controllerid, pv.measureddate, MeasuredPV)
        power = raw_input("Enter 0 to give pv power and 1 to 0.0 pv power\n")
        if power == "0":
            pvPow = raw_input("Enter a pv power\n")
            pv.power = pvPow
        elif power == "1":
            pv.power = "0.0"
        else:
            print "Wrong choice"
        #pv.power = "30.6"
        pv.uniquekey = "123459"
        pv.save()

    def updateLoadData(self, controID):

        load = MeasuredLoad(controllerid=controID,
                            deviceindex="0",
                            alarmtype=3)
        #load.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        #load.senddate = (datetime.date.today() - datetime.timedelta(1000))
        load.measureddate = timezone.now()
        load.senddate = timezone.now()
        load.id = createid(load.controllerid, load.measureddate, MeasuredLoad)
        loadPower = raw_input("Enter power\n")
        load.power = loadPower
        load.uniquekey = "123459"
        load.save()

    def updatePowerData(self, controID):

        power = MeasuredPower(controllerid=controID,
                              deviceindex="0",
                              alarmtype=3)
        #power.measureddate = (datetime.date.today() - datetime.timedelta(1000))
        #power.senddate = (datetime.date.today() - datetime.timedelta(1000))
        power.measureddate = timezone.now()
        power.senddate = timezone.now()
        power.id = createid(power.controllerid, power.measureddate,
                            MeasuredPower)
        powerChoice = raw_input(
            "Enter 0 for power_a, power_b, power_c and 1 for default values \n"
        )
        if powerChoice == "0":
            voltage_a = raw_input("Enter voltage_a in decimal\n")
            power.voltage_a = voltage_a
            current_a = raw_input("Enter current_a in decimal\n")
            power.current_a = current_a
            power_a = raw_input("Enter power_a in decimal\n")
            power.power_a = power_a
            app_power_a = raw_input("Enter apparent power_a in decimal\n")
            power.app_power_a = app_power_a
            voltage_b = raw_input("Enter voltage_b in decimal\n")
            power.voltage_b = voltage_b
            current_b = raw_input("Enter current_b in decimal\n")
            power.current_b = current_b
            power_b = raw_input("Enter power_b in decimal\n")
            power.power_b = power_b
            app_power_b = raw_input("Enter apparent power_b in decimal\n")
            power.app_power_b = app_power_b
            voltage_c = raw_input("Enter voltage_c in decimal\n")
            power.voltage_c = voltage_c
            current_c = raw_input("Enter current_c in decimal\n")
            power.current_c = current_c
            power_c = raw_input("Enter power_c in decimal\n")
            power.power_c = power_c
            app_power_c = raw_input("Enter apparent power_c in decimal\n")
            power.app_power_c = app_power_c
        elif powerChoice == "1":
            power.voltage_a = "0.0"
            power.current_a = "0.0"
            power.power_a = "0.0"
            power.app_power_a = "0.0"
            power.voltage_b = "0.0"
            power.current_b = "0.0"
            power.power_b = "0.0"
            power.app_power_b = "0.0"
            power.voltage_c = "0.0"
            power.current_c = "0.0"
            power.power_c = "0.0"
            power.app_power_c = "0.0"

        else:
            print "Wrong choice"
        ##pv.power = "30.6"
        power.uniquekey = "123459"
        power.save()