def setUp(self): # add a user self.user = User(username='******') self.user.save() # device classes rClass = DeviceClass(name='Router') rClass.save() sClass = DeviceClass(name='Switch') sClass.save() rlClass = DeviceClass(name='Routerlab Device') rlClass.save() lcClass = DeviceClass(name='Labcourse Device') lcClass.save() # devices self.d1 = Device(name='muc-rj1') self.d1.save() self.d1.deviceClasses.add(rClass) self.d1.deviceClasses.add(rlClass) self.d1.deviceClasses.add(lcClass) self.d2 = Device(name='nyc-sc1') self.d2.save() self.d2.deviceClasses.add(sClass) self.d2.deviceClasses.add(rlClass)
def __forget_device(self, request, **kwargs):
"""
'forgetting' a device happens if a user unlinks a 'hardware' device from daysyView
what happens:
- a new device with a 'virtual' serial-number is created and attached to the user/profile
- data (files) form the old device are copied to the new one
- old device and its data (files) are deleted.
"""
self.method_check(request, allowed=['get', ])
self.throttle_check(request)
self.is_authenticated(request)
user = User.objects.get(**self.remove_api_resource_names(kwargs))
log.info('forget device for %s' % user.email)
old_device = user.profile.device
device = Device()
device.generate_serial_number(user.pk)
from django.core.files.base import ContentFile
# temporary store data
try:
data_file = ContentFile(old_device.data_file.read())
except Exception, e:
data_file = None
print e
def set_setpoint(request, pk):
from device.models import Device
setpoint = request.GET.get('setpoint')
f = Fermenter.objects.get(pk=pk)
Device.serial_cmd(f.component.device.device, "setSetpoint,"+str(f.fid)+','+setpoint)
f.setpoint = Device.serial_cmd(f.component.device.device, "getSetpoint,"+str(f.fid))
f.save()
return HttpResponse(f.setpoint)
def create_or_update_device(request):
# define default response
response = {"error": "", "data": ""}
# return if GET request
if request.method == 'GET':
response['error'] = {'no': 'err0', 'msg': 'sorry no gets'}
return json_response_from(response)
# get params from POST
params = request.POST
# error checking
if (params['device_id'] == "" or params['reg_id'] == ""
or params['phone_no'] == ""):
response['error'] = {'no': 'err1', 'msg': 'missing mandatory params'}
# get device
device = Device.objects.filter(meid=params['device_id'])
# if device exists, update
if device.count() == 1:
device = device[0]
# email
#if ('email' in params and device.email != params['email']):
# device.email = params['email']
# reg_id
if ('reg_id' in params and device.reg_id != params['reg_id']):
device.reg_id = params['reg_id']
# update
if ('update_interval' in params
and device.update_interval != params['update_interval']):
device.update_interval = params['update_interval']
device.save()
# device does not exist, insert
else:
device = Device(
meid=params['device_id'],
# email = "*****@*****.**", #params['email']
reg_id=params['reg_id'],
active="E")
device.save()
# create monitor interval in StatusMonitor class
# statusmonitor = StatusMonitor(
# name = 'monitorInterval',
# value = '10',
# units = 'min')
# statusmonitor.save()
deviceprofile = DeviceProfile()
#deviceprofile.statusmonitor.add(statusmonitor)
deviceprofile.dev = device
if params['device_id'].startswith('A0000', 0, 5):
deviceprofile.phone_no = params['phone_no']
deviceprofile.save()
# device
response['data'] = device
# render json response
return json_response_from(response)
def discover(cls, device):
from fermenter.models import Fermenter
sn = Device.serial_cmd(device.device, 'getSN')
type = Device.serial_cmd(device.device, 'getType')
try:
c = Component.objects.get(sn=sn)
c.device = device
c.save()
except Component.DoesNotExist:
c = Component.objects.create(device=device, sn=sn, type=type)
if type == 'FERMENTER':
Fermenter.discover(c)
def sup_add(request):
if request.method == 'POST':
if request.POST['project'] and request.POST[
'username'] and request.POST['devicename'] and request.POST[
'devicetype'] and request.POST['ostype'] and request.POST[
'version'] and request.POST[
'quantity'] and request.POST['reason']:
sup = Supplement()
project = get_object_or_404(Project, name=request.POST['project'])
user = get_object_or_404(User, username=request.POST['username'])
device = Device()
device.code = ''
device.name = request.POST['devicename']
device.type = request.POST['devicetype']
device.ostype = request.POST['ostype']
device.version = request.POST['version']
device.status = 'Ordered'
sup.account = user
sup.project = project
sup.device = device
sup.status = 'Requesting'
sup.quantity = request.POST['quantity']
sup.reason = request.POST['reason']
sup.save()
return redirect('http://localhost:8000/device/')
else:
return render(request, 'supplement/sup_add.html',
{'error': 'All fields are required.'})
else:
return render(request, 'supplement/sup_add.html')
def discover(cls, component):
count = int(Device.serial_cmd(component.device.device,'getFermenters'))
for fid in range(count):
try:
f = cls.objects.get(component=component, fid=fid)
except Fermenter.DoesNotExist:
f = cls.objects.create(component=component, fid=fid)
f.mode = Device.serial_cmd(f.component.device.device,'getMode,'+str(f.fid))
f.setpoint = Device.serial_cmd(f.component.device.device,'getSetpoint,'+str(f.fid))
f.save()
verbose_name="probe_temperature_"+str(f.id)
try:
t = Task.objects.get(verbose_name=verbose_name)
except Task.DoesNotExist:
cls.probe_temperature(f.id, verbose_name=verbose_name, repeat=60)
def upload(request, name):
logger = logging.getLogger("mylogger")
# ftp = FTP(host='10.235.65.24',user='******', passwd = 'task!123!')
# ftp.login()
# ftp.cwd('/home/task')
# filename = 'task.csv'
# localfile = open(filename, 'wb')
# ftp.retrbinary('RETR ' + filename, localfile.write, 1024)
# ftp.quit()
# with open(localfile,encoding = 'cp850') as csv_file:
try:
with open(os.path.join(settings.MEDIA_ROOT, name),
encoding='cp850') as csv_file:
next(csv_file)
csv_reader = csv.reader(csv_file, delimiter=',')
all_devices = []
for row in csv_reader:
str1 = row[1].replace("O/L", "Online")
str2 = str1.replace("CEASING", "Offline")
all_devices.append(
Device(name=row[0],
status=str2,
chassis_type=row[2],
service_type=row[3],
device_type=row[4],
toposite_name=row[5],
site_name=row[6],
ico01=row[7]))
Device.objects.bulk_create(all_devices)
return redirect("/all")
except:
messages.info(request, 'Wrong file format, please choose a .csv file!')
return redirect('/')
def create_or_update_device(request):
# define default response
response = { "error": "", "data": "" }
# return if GET request
if request.method == 'GET':
response['error'] = {
'no' : 'err0',
'msg': 'sorry no gets'
}
return json_response_from(response)
# get params from POST
params = request.POST
# error checking
if (params['device_id'] == "" or params['reg_id'] == ""):
response['error'] = {
'no' : 'err1',
'msg': 'missing mandatory params'
}
# get device
device = Device.objects.filter(id=params['device_id'])
# if device exists, update
if device.count() == 1:
device = device[0]
# email
if ('email' in params and device.email != params['email']):
device.email = params['email']
# reg_id
if ('reg_id' in params and device.reg_id != params['reg_id']):
device.reg_id = params['reg_id']
# update
if ('update_interval' in params and device.update_interval != params['update_interval']):
device.update_interval = params['update_interval']
# device does not exist, insert
else:
device = Device(
id = params['device_id'],
email = "*****@*****.**", #params['email']
reg_id = params['reg_id']
)
# save device
device.save()
# device
response['data'] = device
# render json response
return json_response_from(response)
def test_register_already_existing_device_set_it_to_me(self):
device = generate_device_info()
device1 = device.copy()
device1["user"] = User.objects.last()
Device(**device1).save()
self.assertEqual(self.post(device).status_code, status.HTTP_201_CREATED)
self.assertEqual(Device.objects.get(registration_id=device["registration_id"]).user_id, self.user.id)
def get_temperature(request, pk):
from device.models import Device
from beer.models import Temperature
f = Fermenter.objects.get(pk=pk)
f.temperature = Device.serial_cmd(f.component.device.device, "getTemperature,"+str(f.fid))
f.datetime = timezone.now()
f.save()
if hasattr(f, 'beer'):
Temperature.objects.create(beer=f.beer, setpoint=f.setpoint, measured=f.temperature, datetime=timezone.now())
return HttpResponse(f.temperature)
def device_monthly(request, pk):
try:
device = Device.get(pk)
items = Monthly.objects.filter(device=device).order_by('-created')[:12]
except Device.DoesNotExist:
items = Monthly()
except Monthly.DoesNotExist:
items = Monthly()
return json_write_items(items)
def device_activity(request, pk):
try:
device = Device.get(pk)
items = Activity.objects.filter(
device=device).order_by('-created')[:20]
except Device.DoesNotExist:
items = Activity()
except Activity.DoesNotExist:
items = Activity()
return json_write_items(items)
def add_device(request):
if request.method == 'POST':
if request.POST['code'] and request.POST['name'] and request.POST[
'type'] and request.POST['ostype'] and request.POST[
'version'] and request.POST['status']:
try:
device = Device()
device.code = request.POST['code']
device.name = request.POST['name']
device.type = request.POST['type']
device.ostype = request.POST['ostype']
device.version = request.POST['version']
device.status = request.POST['status']
device.save()
#return redirect('/device/detail/' + str(device.code))
return render(request, 'device/add.html', {'device': device})
except:
return render(request, 'device/add.html',
{'error': 'Something Wrong!'})
else:
return render(request, 'device/add.html',
{'error': 'All fields are required.'})
else:
return render(request, 'device/add.html')
def device_activity_chart(request, pk):
today = date.today()
try:
device = Device.get(pk)
items = Activity.objects.filter(device=device).filter(
created__contains=today).values_list('created', 'energy_wh',
'real_power_w')
chart = [[device.name, 'Energy', 'Power']]
if len(items) > 0:
for item in items:
t = timezone.localtime(item[0]).strftime('%H:%M')
chart.append((t, item[1], item[2]))
else:
raise Device.DoesNotExist
except Device.DoesNotExist:
chart = [[device.name, 'Energy', 'Power'], ['', 0, 0]]
return HttpResponse(json.dumps(chart), content_type="text/json")
def edit(request, pk):
from device.models import Device
f = Fermenter.objects.get(pk=pk)
if request.method == "POST":
form = FermenterForm(request.POST)
if "save" in request.POST and form.is_valid():
if not f.name == request.POST.get("name"):
f.name = request.POST.get("name")
if not f.setpoint == Decimal(request.POST.get("setpoint")):
Device.serial_cmd(f.component.device.device,"setSetpoint,"+str(f.fid)+","+request.POST.get("setpoint"))
f.setpoint = Device.serial_cmd(f.component.device.device,"getSetpoint,"+str(f.fid))
if not f.mode == request.POST.get("mode"):
Device.serial_cmd(f.component.device.device,"setMode,"+str(f.fid)+","+request.POST.get("mode"))
f.mode = Device.serial_cmd(f.component.device.device,"getMode,"+str(f.fid))
f.save()
return redirect('fermenter:detail', pk=f.id)
else:
form = FermenterForm(instance=f)
return render(request, 'fermenter/form.html', {'form': form, 'fermenter': f})
def apiDevice( request ): # Return list of all devices if( request.method == "GET" ): try: device_data = Device.objects.all() except Device.DoesNotExist: return Response( status = status.HTTP_404_NOT_FOUND ) serializer = DeviceSerializer( device_data, many=True ) return Response( serializer.data ) # Create new device elif ( request.method == "POST" ): try: # Extract attributes payload = request.POST uid = payload["uid"] name = payload["name"] # Create new Device device_new = Device( uid = uid, name = name ) Device.full_clean( device_new ) device_new.save() except PermissionDenied as e: return Response( status = status.HTTP_401_UNAUTHORIZED ) return Response( status = status.HTTP_201_CREATED )
def setUp(self): # device classes rClass = DeviceClass(name='Router') rClass.save() sClass = DeviceClass(name='Switch') sClass.save() rlClass = DeviceClass(name='Routerlab Device') rlClass.save() lcClass = DeviceClass(name='Labcourse Device') lcClass.save() lgClass = DeviceClass(name='LoadGen') lgClass.save() domUClass = DeviceClass(name='VirtualLoadGen') domUClass.save() # power device classes pdClass = DeviceClass(name='PowerDevice') pdClass.save() pdIlomClass = DeviceClass(name='ILOM') pdIlomClass.save() pdXenDom0Class = DeviceClass(name='XenDom0') pdXenDom0Class.save() pdPowerSwitchClass = DeviceClass(name='GUDE Power Switch') pdPowerSwitchClass.save() pdPowerBarClass = DeviceClass(name='Infratec Power Bar') pdPowerBarClass.save() # devices self.router = Device(name='muc-rj1') self.router.save() self.router.deviceClasses.add(rClass) self.router.deviceClasses.add(rlClass) self.router.deviceClasses.add(lcClass) self.switch = Device(name='nyc-sc1') self.switch.save() self.switch.deviceClasses.add(sClass) self.switch.deviceClasses.add(rlClass) self.domU = Device(name='Loadgen42') self.domU.save() self.domU.deviceClasses.add(lcClass) self.domU.deviceClasses.add(rlClass) self.domU.deviceClasses.add(domUClass) self.loadgen35 = Device(name='loadgen35') self.loadgen35.save() self.loadgen35.deviceClasses.add(lcClass) self.loadgen35.deviceClasses.add(rlClass) self.loadgen35.deviceClasses.add(lgClass) # power devices self.dom0 = Device(name='LoadgenXenDom0') self.dom0.save() self.dom0.deviceClasses.add(rlClass) self.dom0.deviceClasses.add(pdXenDom0Class) self.dom0.deviceClasses.add(pdClass) self.ilom = Device(name='loadgen35-sp') self.ilom.save() self.ilom.deviceClasses.add(rlClass) self.ilom.deviceClasses.add(pdIlomClass) self.ilom.deviceClasses.add(pdClass) self.power_switch = Device(name='PowerSwitch') self.power_switch.save() self.power_switch.deviceClasses.add(rlClass) self.power_switch.deviceClasses.add(pdPowerSwitchClass) self.power_switch.deviceClasses.add(pdClass) self.power_bar = Device(name='PowerBar 3') self.power_bar.save() self.power_bar.deviceClasses.add(rlClass) self.power_bar.deviceClasses.add(pdClass) self.power_bar.deviceClasses.add(pdPowerBarClass) # link devices to power devices self.pp_xen = PowerPort(device=self.dom0,socketId=1) self.pp_xen.save() self.domU.power = self.pp_xen self.pp_ilom = PowerPort(device=self.ilom,socketId=1) self.pp_ilom.save() self.loadgen35.power = self.pp_ilom self.pp_power_switch_1 = PowerPort(device=self.power_switch,socketId=1) self.pp_power_switch_1.save() self.switch.power = self.pp_power_switch_1 self.pp_power_switch_2 = PowerPort(device=self.power_switch,socketId=2) self.pp_power_switch_2.save()
def confirm_participant_register(request):
# params checking
if (request.POST['ub_id'] == '' and request.POST['email'] == '' \
and request.POST['first_name'] =='' and request.POST['last_name'] ==''):
participantregister = ParticipantRegister(
lib_number = request.POST['lib_number'],
meid = request.POST['meid']
)
print request.POST['lib_number']+" -- "+request.POST['meid']
participantregister.save()
return render_to_response(
'participant_register_form.html',
{
'success': True,
},
context_instance=RequestContext(request)
)
else:
password = User.objects.make_random_password(length=10, allowed_chars='abcdefghjkmnpqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ23456789')
user = User.objects.create_user(request.POST['ub_id'], request.POST['email'], password)
user.is_active = False
user.first_name = request.POST['first_name']
user.last_name = request.POST['last_name']
user.save()
# Build the activation key for their account
salt = hashlib.md5(str(random.random())).hexdigest()[:5]
activation_key = hashlib.md5(salt+user.username).hexdigest()
key_expires = datetime.today() + timedelta(2)
userprofile = UserProfile(
user = user,
user_type = "P",
activation_key=activation_key,
key_expires=key_expires
)
# Create and save their profile
userprofile.save()
device = Device(
meid = request.POST['meid'],
hash_meid = hashlib.sha1(request.POST['meid']).hexdigest(),
active = "E"
)
device_id = device.save()
device.save()
# create monitor interval in StatusMonitor class
statusmonitor = StatusMonitor(
name = 'monitorInterval',
value = '10',
units = 'min')
statusmonitor.save()
# Create and save device profile
deviceprofile = DeviceProfile()
deviceprofile.dev = device
deviceprofile.user = user
deviceprofile.phone_no = request.POST['phone_number']
deviceprofile.status = "W"
#deviceprofile.purpose = ""
if request.POST['meid'].startswith('A0000', 0, 5):
deviceprofile.service_type = "4"
else:
deviceprofile.service_type = "3"
deviceprofile.save()
deviceprofile.statusmonitor.add(statusmonitor)
deviceprofile.save()
return render_to_response(
'participant_register_form.html',
{
'success': True,
},
context_instance=RequestContext(request)
)
def create_device(user):
info = dict(user=user, registration_id="{}-{}".format(user, uuid.uuid4()))
device = Device(**info)
device.save()
return device
class ReservationTest(TestCase):
def setUp(self):
# add a user
self.user = User(username='******')
self.user.save()
# device classes
rClass = DeviceClass(name='Router')
rClass.save()
sClass = DeviceClass(name='Switch')
sClass.save()
rlClass = DeviceClass(name='Routerlab Device')
rlClass.save()
lcClass = DeviceClass(name='Labcourse Device')
lcClass.save()
# devices
self.d1 = Device(name='muc-rj1')
self.d1.save()
self.d1.deviceClasses.add(rClass)
self.d1.deviceClasses.add(rlClass)
self.d1.deviceClasses.add(lcClass)
self.d2 = Device(name='nyc-sc1')
self.d2.save()
self.d2.deviceClasses.add(sClass)
self.d2.deviceClasses.add(rlClass)
@unittest.skip("feature not yet implemented")
def test_no_reservation_creation_in_the_past(self):
""" Reservations must begin at or after the current system now """
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2011, 10, 12, 10, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2011, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
r.save()
self.assertRaises(ValidationError, r.save)
def test_simple_reservation_creation(self):
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 10, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
r.save()
self.assertEqual(Reservation.objects.get(id=1).devices.all()[0], self.d1)
def test_start_end_time_inverstion_raises_exception(self):
""" Reservation with begin after end must raise ValidationError """
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 10, 0, 0).replace(tzinfo=utc)
self.assertRaises(ValidationError, r.save)
def test_single_device_conflicting_reservations(self):
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 10, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
r.save()
# this reservation has a device whose existing reservation conflicts
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 9, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 11, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
self.assertRaises(ValidationError, r.save)
def test_multi_device_conflicting_reservations(self):
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 10, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
r.devices.add(self.d2)
r.save()
# this reservation has a device whose existing reservation conflicts
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 9, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 11, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d2)
self.assertRaises(ValidationError, r.save)
def test_bordering_reservations(self):
""" Reservations may begin at the time dependent reservations end """
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 10, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
r.save()
# test bordering reservation
r = Reservation(user=self.user)
r.startTime = datetime.datetime(2016, 10, 12, 14, 0, 0).replace(tzinfo=utc)
r.endTime = datetime.datetime(2016, 10, 12, 15, 0, 0).replace(tzinfo=utc)
r.save()
r.devices.add(self.d1)
self.assertEqual(Reservation.objects.get(id=1).devices.all()[0], self.d1)
# Only active and future reservations may have device additions
@unittest.skip("feature not yet implemented")
def test_active_reservation_device_addition(self):
""" A new reservation should be created inclding the new devices
(if possible), old reservation terminated now and new reservation starting
now
"""
pass
@unittest.skip("feature not yet implemented")
def test_future_reservation_device_addition_(self):
pass
@unittest.skip("feature not yet implemented")
def test_ended_reservation_device_addition_raises_exception(self):
pass
# Only active and future reservations may be time-extended i.e. end-time set to system now
@unittest.skip("feature not yet implemented")
def test_active_reservation_extension(self):
pass
@unittest.skip("feature not yet implemented")
def test_future_reservation_extension_raises_exception(self):
pass
@unittest.skip("feature not yet implemented")
def test_ended_reservation_extension_raises_exception(self):
pass
# Only active reservations may be terminated i.e. end-time set to system now
def test_active_reservation_termination(self):
""" Active reservations should not be running after termination """
r = Reservation(user=self.user)
now = datetime.datetime.utcnow().replace(tzinfo=utc)
r.startTime = now + datetime.timedelta(days=-1)
r.endTime = now + datetime.timedelta(days=10)
r.save(full_clean=False)
r.terminate(full_clean=False)
self.assertFalse(r.is_running())
def test_future_reservation_termination_raises_exception(self):
""" Future reservations may not be terminated """
r = Reservation(user=self.user)
now = datetime.datetime.utcnow().replace(tzinfo=utc)
r.startTime = now + datetime.timedelta(days=10)
r.endTime = now + datetime.timedelta(days=12)
r.save()
self.assertRaises(ValidationError, r.terminate)
def test_ended_reservation_termination_raises_exception(self):
""" Ended reservations may not be terminated """
r = Reservation(user=self.user)
now = datetime.datetime.utcnow().replace(tzinfo=utc)
r.startTime = now + datetime.timedelta(days=-14)
r.endTime = now + datetime.timedelta(days=-7)
r.save(full_clean=False)
self.assertRaises(ValidationError, r.terminate)
# Reservations may only be deleted i.e. removed from the database or flagged as deleted and thus never considered by any logic if they have not yet begun
@unittest.skip("feature not yet implemented")
def test_active_reservation_deletion_raises_exception(self):
pass
@unittest.skip("feature not yet implemented")
def test_future_active_reservation_deletion(self):
pass
@unittest.skip("feature not yet implemented")
def test_ended_reservation_deletion_raises_exception(self):
pass
# create the user as active
# separate flag in profile model to track email confirmation
user = create_user(data['email'], data['password'], is_active=True)
# hook up with registration
registration_profile = RegistrationProfile.objects.create_profile(user)
registration_signals.user_registered.send(sender=self.__class__, user=user, request=request)
send_activation_email(registration_profile)
# create device for user
if serial_number:
# device, created = Device.objects.get_or_create(profiles__in=[user.pk, ], serial_number=serial_number)
device, created = Device.objects.get_or_create(serial_number=serial_number, status=2)
else:
# no serial provided, so create a 'app' device and generate a serial for it
device = Device()
device.generate_serial_number(user.pk)
device.status = 2
device.save()
# finally create the user profile
profile, created = UserProfile.objects.get_or_create(user=user, device=device)
log.info('registraion success: %s - serial number: %s' % (email, device.serial_number))
bundle = self.build_bundle(obj=user, request=request)
bundle = self.full_dehydrate(bundle)
# provide api key
bundle.data['api_key'] = bundle.obj.api_key.key
class PowerTest(TestCase):
def setUp(self):
# device classes
rClass = DeviceClass(name='Router')
rClass.save()
sClass = DeviceClass(name='Switch')
sClass.save()
rlClass = DeviceClass(name='Routerlab Device')
rlClass.save()
lcClass = DeviceClass(name='Labcourse Device')
lcClass.save()
lgClass = DeviceClass(name='LoadGen')
lgClass.save()
domUClass = DeviceClass(name='VirtualLoadGen')
domUClass.save()
# power device classes
pdClass = DeviceClass(name='PowerDevice')
pdClass.save()
pdIlomClass = DeviceClass(name='ILOM')
pdIlomClass.save()
pdXenDom0Class = DeviceClass(name='XenDom0')
pdXenDom0Class.save()
pdPowerSwitchClass = DeviceClass(name='GUDE Power Switch')
pdPowerSwitchClass.save()
pdPowerBarClass = DeviceClass(name='Infratec Power Bar')
pdPowerBarClass.save()
# devices
self.router = Device(name='muc-rj1')
self.router.save()
self.router.deviceClasses.add(rClass)
self.router.deviceClasses.add(rlClass)
self.router.deviceClasses.add(lcClass)
self.switch = Device(name='nyc-sc1')
self.switch.save()
self.switch.deviceClasses.add(sClass)
self.switch.deviceClasses.add(rlClass)
self.domU = Device(name='Loadgen42')
self.domU.save()
self.domU.deviceClasses.add(lcClass)
self.domU.deviceClasses.add(rlClass)
self.domU.deviceClasses.add(domUClass)
self.loadgen35 = Device(name='loadgen35')
self.loadgen35.save()
self.loadgen35.deviceClasses.add(lcClass)
self.loadgen35.deviceClasses.add(rlClass)
self.loadgen35.deviceClasses.add(lgClass)
# power devices
self.dom0 = Device(name='LoadgenXenDom0')
self.dom0.save()
self.dom0.deviceClasses.add(rlClass)
self.dom0.deviceClasses.add(pdXenDom0Class)
self.dom0.deviceClasses.add(pdClass)
self.ilom = Device(name='loadgen35-sp')
self.ilom.save()
self.ilom.deviceClasses.add(rlClass)
self.ilom.deviceClasses.add(pdIlomClass)
self.ilom.deviceClasses.add(pdClass)
self.power_switch = Device(name='PowerSwitch')
self.power_switch.save()
self.power_switch.deviceClasses.add(rlClass)
self.power_switch.deviceClasses.add(pdPowerSwitchClass)
self.power_switch.deviceClasses.add(pdClass)
self.power_bar = Device(name='PowerBar 3')
self.power_bar.save()
self.power_bar.deviceClasses.add(rlClass)
self.power_bar.deviceClasses.add(pdClass)
self.power_bar.deviceClasses.add(pdPowerBarClass)
# link devices to power devices
self.pp_xen = PowerPort(device=self.dom0,socketId=1)
self.pp_xen.save()
self.domU.power = self.pp_xen
self.pp_ilom = PowerPort(device=self.ilom,socketId=1)
self.pp_ilom.save()
self.loadgen35.power = self.pp_ilom
self.pp_power_switch_1 = PowerPort(device=self.power_switch,socketId=1)
self.pp_power_switch_1.save()
self.switch.power = self.pp_power_switch_1
self.pp_power_switch_2 = PowerPort(device=self.power_switch,socketId=2)
self.pp_power_switch_2.save()
def test_device_power_methods(self):
with self.assertRaises(UnboundLocalError):
self.router.on()
with self.assertRaises(UnboundLocalError):
self.router.off()
with self.assertRaises(UnboundLocalError):
self.router.powercycle()
with self.assertRaises(UnboundLocalError):
self.router.isrunning()
self.router.power = self.pp_power_switch_2
self.assertTrue(self.router.on())
self.assertTrue(self.router.off())
self.assertTrue(self.router.powercycle())
self.assertTrue(self.router.isrunning())
self.assertTrue(self.switch.on())
self.assertTrue(self.switch.off())
self.assertTrue(self.switch.powercycle())
self.assertTrue(self.switch.isrunning())
self.assertTrue(self.domU.on())
self.assertTrue(self.domU.off())
self.assertTrue(self.domU.powercycle())
self.assertTrue(self.domU.isrunning())
self.assertTrue(self.loadgen35.on())
self.assertTrue(self.loadgen35.off())
self.assertTrue(self.loadgen35.powercycle())
self.assertTrue(self.loadgen35.isrunning())
def test_power_device_methods(self):
self.assertTrue(self.dom0.on())
self.assertTrue(self.dom0.off())
self.assertTrue(self.dom0.powercycle())
self.assertTrue(self.dom0.isrunning())
self.assertTrue(self.ilom.on())
self.assertTrue(self.ilom.off())
self.assertTrue(self.ilom.powercycle())
self.assertTrue(self.ilom.isrunning())
self.assertTrue(self.power_switch.on())
self.assertTrue(self.power_switch.off())
self.assertTrue(self.power_switch.powercycle())
self.assertTrue(self.power_switch.isrunning())
self.assertTrue(self.power_bar.on())
self.assertTrue(self.power_bar.off())
self.assertTrue(self.power_bar.powercycle())
self.assertTrue(self.power_bar.isrunning())
def test_initialize_ssh_client(self):
self.testclient = powercontroller.initialize_ssh_client()
self.assertEqual(isinstance(self.testclient, ssh.SSHClient),True)
# Policy tests
self.assertEqual(isinstance(self.testclient._policy, ssh.AutoAddPolicy),True)
self.testclient = powercontroller.initialize_ssh_client(policy='add')
self.assertEqual(isinstance(self.testclient._policy, ssh.AutoAddPolicy),True)
self.testclient = powercontroller.initialize_ssh_client(policy='deny')
self.assertEqual(isinstance(self.testclient._policy, ssh.RejectPolicy),True)
self.testclient = powercontroller.initialize_ssh_client(policy='')
self.assertEqual(isinstance(self.testclient._policy, ssh.WarningPolicy),True)
# HostKey test
self.testclient = powercontroller.initialize_ssh_client()
# System Host Keys
self.assertEqual(isinstance(self.testclient._system_host_keys,ssh.HostKeys),True)
self.assertNotEqual(self.testclient._system_host_keys.__len__(), 0)
# FIXME: Add tests for custom host_key files
def test_interaction_ILOMSNMP(self):
self.snmp_ilom = powercontroller.ILOMSNMP(unicode('loadgen35-sp'))
# Test if configuration file exists and was parsed correctly
self.assertIsNotNone(powercontroller.CONFIGFILE)
self.assertDictContainsSubset(dict(on=1,off=2,cycle=3),self.snmp_ilom.ILOM_SNMP_POWER_STATES)
self.assertEqual('1.3.6.1.4.1.42.2.175.102.11.1.1.1.2.4.47.83.89.83',self.snmp_ilom.ILOM_SNMP_POWER)
# Test that power functions exist, throw no exception and return false
self.assertFalse(self.snmp_ilom.PowerOn())
self.assertFalse(self.snmp_ilom.PowerOff())
self.assertFalse(self.snmp_ilom.PowerCycle())
self.assertFalse(self.snmp_ilom.PowerIsRunning())
def add(request,action):
message = {}
if request.method == "POST":
try:
if action == "device":
name = request.POST.get('name')
devtype_id = request.POST.get('equ_class_id')
code = request.POST.get('code')
serial = request.POST.get('serial')
addtime = request.POST.get('addtime')
place = request.POST.get('place')
manager = request.POST.get('manager')
if devtype_id == None:
raise ValidationError("请选择分类")
device = Device()
device.dev_type = DevType.objects.get(pk=devtype_id)
device.code = code
device.serial = serial
device.addtime = addtime
device.place = place
device.manager = manager
device.clean()
device.save()
message={'type':'success','content':'添加设备成功'}
elif action == "devtype":
devcataid = request.POST.get('mode')
name = request.POST.get('pattern')
unit = request.POST.get('unit')
price = request.POST.get('price')
devtype = DevType()
devtype.dev_cata = DevCata.objects.get(pk=devcataid)
devtype.name = name
devtype.unit = unit
devtype.price = price
devtype.clean()
devtype.save()
message={'type':'success','content':'添加设备型号成功'}
elif action == "devcata":
name = request.POST.get('name')
devcata = DevCata()
devcata.name = name
devcata.clean()
devcata.save()
message={'type':'success','content':'添加设备分类成功'}
except ValidationError as e:
message = {'type':'error','content':'; '.join(e.messages)}
message["exist"] = True
request.session["message"] = message
return redirect("device:add",action)
cataList = DevCata.objects.all()
typeList = DevType.objects.all()
if action == "device":
form = DeviceForm()
template = 'device/adddevice.html'
elif action == "devtype":
form = DevTypeForm()
template = 'device/adddevtype.html'
elif action == "devcata":
form = DevCataForm()
template = 'device/adddevcata.html'
if 'message' in request.session:
message = request.session['message']
message['exist'] = True
del request.session['message']
return render_to_response(template,{'form':form,'action':action,'cataList':cataList,'typeList':typeList,'message':message,'section':'add'},context_instance=RequestContext(request))
def on_message(client, userdata, msg):
Device = MqttClientConfig.Device
print(msg.topic)
print(msg.payload)
topic = msg.topic
if topic.startswith(cfg_pre):
sn = topic.replace(cfg_pre, '')
dev_msg = json.loads(msg.payload)
try:
if not sn == dev_msg['sn']:
print('found error msg topic %s payload %s' %
(msg.topic, msg.topic))
else:
res = Device.objects.filter(id=sn)
if res.count() == 0:
print('dev_msg not exist')
device = Device()
device.id = sn
device.name = dev_msg['name']
device.config = json.dumps(dev_msg['config'])
device.version = dev_msg['version']
device.save()
print('dev_msg saved')
else:
device = res[0]
local_ver = dev_msg['version'].split('.')
cloud_ver = device.version.split('.')
if int(local_ver[0]) > int(cloud_ver[0]) or \
(int(local_ver[0]) == int(cloud_ver[0]) and int(local_ver[1]) >= int(cloud_ver[1])):
device.config = json.dumps(dev_msg['config'])
device.confirm = True
device.version = dev_msg['version']
device.save()
print('dev_msg updated')
else:
device.confirm = False
device.save()
except Exception as e:
print(e)
elif topic.startswith(data_pre):
sn = topic.replace(data_pre, '')
dev_msg = json.loads(msg.payload)
if not sn == dev_msg['sn']:
print('found error msg topic %s payload %s' %
(msg.topic, msg.topic))
else:
print('handle data')
else:
print('found unknown msg topic %s payload %s' %
(msg.topic, msg.topic))
def create_or_update_device(request):
# define default response
response = { "error": "", "data": "" }
# return if GET request
if request.method == 'GET':
response['error'] = {
'no' : 'err0',
'msg': 'sorry no gets'
}
return json_response_from(response)
# get params from POST
params = request.POST
# error checking
if (params['device_id'] == "" or params['reg_id'] == "" or params['phone_no'] == ""):
response['error'] = {
'no' : 'err1',
'msg': 'missing mandatory params'
}
# get device
device = Device.objects.filter(meid=params['device_id'])
# if device exists, update
if device.count() == 1:
device = device[0]
# email
#if ('email' in params and device.email != params['email']):
# device.email = params['email']
# reg_id
if ('reg_id' in params and device.reg_id != params['reg_id']):
device.reg_id = params['reg_id']
# update
if ('update_interval' in params and device.update_interval != params['update_interval']):
device.update_interval = params['update_interval']
device.save()
# device does not exist, insert
else:
device = Device(
meid = params['device_id'],
# email = "*****@*****.**", #params['email']
reg_id = params['reg_id'],
active = "E"
)
device.save()
# create monitor interval in StatusMonitor class
# statusmonitor = StatusMonitor(
# name = 'monitorInterval',
# value = '10',
# units = 'min')
# statusmonitor.save()
deviceprofile = DeviceProfile()
#deviceprofile.statusmonitor.add(statusmonitor)
deviceprofile.dev = device
if params['device_id'].startswith('A0000', 0, 5):
deviceprofile.phone_no = params['phone_no']
deviceprofile.save()
# device
response['data'] = device
# render json response
return json_response_from(response)
class ReservationTest(TestCase): def setUp(self): # add a user self.user = User(username='******') self.user.save() # device classes rClass = DeviceClass(name='Router') rClass.save() sClass = DeviceClass(name='Switch') sClass.save() rlClass = DeviceClass(name='Routerlab Device') rlClass.save() lcClass = DeviceClass(name='Labcourse Device') lcClass.save() # devices self.d1 = Device(name='muc-rj1') self.d1.save() self.d1.deviceClasses.add(rClass) self.d1.deviceClasses.add(rlClass) self.d1.deviceClasses.add(lcClass) self.d2 = Device(name='nyc-sc1') self.d2.save() self.d2.deviceClasses.add(sClass) self.d2.deviceClasses.add(rlClass) def test_device_reservability(self): # add a basic reservation r = Reservation(user=self.user) r.startTime = datetime.datetime(2112, 10, 12, 10, 0, 0).replace(tzinfo=utc) r.endTime = datetime.datetime(2112, 10, 12, 14, 0, 0).replace(tzinfo=utc) r.save() r.devices.add(self.d1) r.save() # device can be reserved if not blocked self.assertEqual(True, self.d1.isReservable( datetime.datetime(2112, 10, 12, 8, 0, 0).replace(tzinfo=utc), datetime.datetime(2112, 10, 12, 9, 0, 0).replace(tzinfo=utc) )) self.assertEqual(True, self.d1.isReservable( datetime.datetime(2112, 10, 12, 8, 0, 0).replace(tzinfo=utc), datetime.datetime(2112, 10, 12, 9, 59, 59).replace(tzinfo=utc) )) self.assertEqual(False, self.d1.isReservable( datetime.datetime(2112, 10, 12, 8, 0, 0).replace(tzinfo=utc), datetime.datetime(2112, 10, 12, 10, 0, 0).replace(tzinfo=utc) )) self.assertEqual(False, self.d1.isReservable( datetime.datetime(2112, 10, 11, 8, 0, 0).replace(tzinfo=utc), datetime.datetime(2112, 10, 16, 10, 0, 0).replace(tzinfo=utc) )) self.assertEqual(True, self.d1.isReservable( datetime.datetime(2112, 10, 18, 8, 0, 0).replace(tzinfo=utc), datetime.datetime(2112, 10, 20, 10, 0, 0).replace(tzinfo=utc) )) def test_adding_devices_to_reservation(self): # add a basic reservation r = Reservation(user=self.user) r.startTime = datetime.datetime(2112, 10, 12, 10, 0, 0).replace(tzinfo=utc) r.endTime = datetime.datetime(2112, 10, 12, 14, 0, 0).replace(tzinfo=utc) r.save() r.devices.add(self.d1) r.save() newRes = r.addDevices(datetime.datetime(2112, 10, 12, 12, 0, 0).replace(tzinfo=utc), [self.d2]) self.assertEqual(newRes.endTime, datetime.datetime(2112, 10, 12, 14, 0, 0).replace(tzinfo=utc)) self.assertEqual(newRes.startTime, datetime.datetime(2112, 10, 12, 12, 0, 0).replace(tzinfo=utc)) self.assertEqual(Reservation.objects.get(id=1).endTime, datetime.datetime(2112, 10, 12, 11, 59, 59).replace(tzinfo=utc)) self.assertEqual(self.d1 in newRes.devices.all(), True) self.assertEqual(self.d2 in newRes.devices.all(), True)
