def test_6_modify_instance(self):
"""Test modify instance"""
rinst, msg = self._create_test_instance('Boron', 5)
if not rinst:
self.fail('%s: CreateInstance Failed.' % str(msg))
return
propertylist = ['uint64Prop', 'dateProp', 'stringProp', 'real32Prop', \
'sint64Propa', 'sint64prop', 'boolProp']
keybindings = {'Name': 'Boron'}
mod_instance = get_instance(self.conn, keybindings, propertylist)
weight = _atomic_weights['Boron']
new_time = pywbem.CIMDateTime.now()
if mod_instance['boolProp']:
mod_instance['boolProp'] = False
else:
mod_instance['boolProp'] = True
mod_instance['uint64Prop'] = pywbem.Uint64(2)
mod_instance['dateProp'] = new_time
mod_instance['stringProp'] = "Helium"
mod_instance['real32Prop'] = pywbem.Real32(weight)
mod_instance['sint64Propa'] = pywbem.CIMProperty('sint64Propa', \
value=[pywbem.Sint64(2), \
pywbem.Sint64(2), pywbem.Sint64(2)])
mod_instance['sint64prop'] = pywbem.Sint64(2)
mod_instance['Name'] = 'Boron'
try:
self.conn.ModifyInstance(mod_instance)
except pywbem.CIMError, arg:
self.fail(arg)
def _typed_randrange(lo, hi, type):
if type == 'sint8':
return pywbem.Sint8(
random.randrange(pywbem.Sint8(lo), pywbem.Sint8(hi)))
elif type == 'sint16':
return pywbem.Sint16(
random.randrange(pywbem.Sint16(lo), pywbem.Sint16(hi)))
elif type == 'sint32':
return pywbem.Sint32(
random.randrange(pywbem.Sint32(lo), pywbem.Sint32(hi)))
elif type == 'sint64':
return pywbem.Sint64(
random.randrange(pywbem.Sint64(lo), pywbem.Sint64(hi)))
elif type == 'uint8':
return pywbem.Uint8(
random.randrange(pywbem.Uint8(lo), pywbem.Uint8(hi)))
elif type == 'uint16':
return pywbem.Uint16(
random.randrange(pywbem.Uint16(lo), pywbem.Uint16(hi)))
elif type == 'uint32':
return pywbem.Uint32(
random.randrange(pywbem.Uint32(lo), pywbem.Uint32(hi)))
elif type == 'uint64':
return pywbem.Uint64(
random.randrange(pywbem.Uint64(lo), pywbem.Uint64(hi)))
elif type == 'real32':
return pywbem.Real32(
random.randrange(pywbem.Real32(lo), pywbem.Real32(hi)))
elif type == 'real64':
return pywbem.Real64(
random.randrange(pywbem.Real64(lo), pywbem.Real64(hi)))
def _create_test_instance(self, name_of_atom, number):
""" Create a TestAtom instance. """
weight = _atomic_weights[name_of_atom]
#new_instance['char16Prop'] =
#new_instance['char16Propa'] = Null
new_instance = pywbem.CIMInstance('TestAtom')
new_instance['Name'] = name_of_atom
new_instance['boolProp'] = False
new_instance['dateProp'] = self.time
new_instance['real32Prop'] = pywbem.Real32(weight)
new_instance['real32Propa'] = [pywbem.Real32(weight), \
pywbem.Real32(weight), \
pywbem.Real32(weight)]
new_instance['real64Prop'] = pywbem.Real64(weight)
new_instance['real64Propa'] = [pywbem.Real64(weight), \
pywbem.Real64(weight), \
pywbem.Real64(weight)]
new_instance['sint16Prop'] = pywbem.Sint16(number)
new_instance['sint16Propa'] = [pywbem.Sint16(number), \
pywbem.Sint16(number), \
pywbem.Sint16(number)]
new_instance['sint32Prop'] = pywbem.Sint32(number)
new_instance['sint32Propa'] = [pywbem.Sint32(number), \
pywbem.Sint32(number), \
pywbem.Sint32(number)]
new_instance['sint64Prop'] = pywbem.Sint64(number)
new_instance['sint64Propa'] = [pywbem.Sint64(number), \
pywbem.Sint64(number), \
pywbem.Sint64(number)]
new_instance['sint8prop'] = pywbem.Sint8(number)
new_instance['sint8Propa'] = [pywbem.Sint8(number), \
pywbem.Sint8(number), \
pywbem.Sint8(number)]
new_instance['stringProp'] = name_of_atom
new_instance['stringPropa'] = ['proton', 'electron', 'neutron']
new_instance['uint16Prop'] = pywbem.Uint16(number)
new_instance['uint16Propa'] = [pywbem.Uint16(number), \
pywbem.Uint16(number), \
pywbem.Uint16(number)]
new_instance['uint32Prop'] = pywbem.Uint32(number)
new_instance['uint32Propa'] = [pywbem.Uint32(number), \
pywbem.Uint32(number), \
pywbem.Uint32(number)]
new_instance['uint64Prop'] = pywbem.Uint64(number)
new_instance['uint64Propa'] = [pywbem.Uint64(number), \
pywbem.Uint64(number), \
pywbem.Uint64(number)]
new_instance['uint8Prop'] = pywbem.Uint64(number)
new_instance['uint8Propa'] = [pywbem.Uint64(number), \
pywbem.Uint64(number), \
pywbem.Uint64(number)]
try:
cipath = self.conn.CreateInstance(new_instance)
new_instance.path = cipath
self.inst_paths.append(cipath)
except pywbem.CIMError, arg:
return None, arg
def get_value(string):
vtype, value = string.split(',', 1)
if vtype == 'str':
return str(value)
elif vtype == 'uint8':
return pywbem.Uint8(value)
elif vtype == 'sint8':
return pywbem.Sint8(value)
elif vtype == 'uint16':
return pywbem.Uint16(value)
elif vtype == 'sint16':
return pywbem.Sint16(value)
elif vtype == 'uint32':
return pywbem.Uint32(value)
elif vtype == 'sint32':
return pywbem.Sint32(value)
elif vtype == 'uint64':
return pywbem.Uint64(value)
elif vtype == 'sint64':
return pywbem.Sint64(value)
else:
print "Input value is invalid : %s" % string
sys.exit(1)
except pywbem.CIMError, arg:
self.fail(arg)
mod_instance = get_instance(self.conn, keybindings, propertylist)
for prop in mod_instance.properties.keys():
if prop == 'uint64Prop' or prop == 'sint64Prop':
self.assertEqual(mod_instance[prop],2,"Values NOT EQUAL")
elif prop == "real32Prop":
self.assertTrue(math.fabs(mod_instance[prop] - weight) <\
_tolerance,"Values NOT EQUAL")
elif prop == 'dateProp':
self.assertNotEquals(self.time,mod_instance[prop], \
"Times ARE EQUAL")
elif prop == 'sint64Propa':
for val in mod_instance[prop]:
self.assertEquals(val, pywbem.Sint64(2), \
("Values NOT EQUAL: " + str(prop)))
elif prop == 'stringProp':
self.assertNotEquals(mod_instance[prop], 'Boron', \
("Values NOT EQUAL"+str(prop)))
elif prop == 'boolProp':
self.assertNotEqual(mod_instance['boolProp'], \
(not mod_instance['boolProp']), \
"ModifyInstance failed.")
def test_7_delete(self):
"""Test delete instance"""
insts = []
for atom_name, atomic_number in _atoms.items():
rval, msg = self._create_test_instance(atom_name, atomic_number)
class TestMethods(unittest.TestCase):
limits = {
'sint8_min': pywbem.Sint8(-128),
'sint8_max': pywbem.Sint8(127),
'sint16_min': pywbem.Sint16(-32768),
'sint16_max': pywbem.Sint16(32767),
'sint32_min': pywbem.Sint32(-2147483648),
'sint32_max': pywbem.Sint32(2147483647),
'sint64_min': pywbem.Sint64(-92233736854775808L),
'sint64_max': pywbem.Sint64(9223372036854775807L),
'uint8_min': pywbem.Uint8(0),
'uint8_max': pywbem.Uint8(0xFF),
'uint16_min': pywbem.Uint16(0),
'uint16_max': pywbem.Uint16(0xFFFF),
'uint32_min': pywbem.Uint32(0),
'uint32_max': pywbem.Uint32(0xFFFFFFFF),
'uint64_min': pywbem.Uint64(0L),
'uint64_max': pywbem.Uint64(0x7FFFFFFFFFFFFFFFL),
'real32_min': pywbem.Real32(-123456.78),
'real32_max': pywbem.Real32(123456.78),
'real64_min': pywbem.Real64(-12345678987654.32),
'real64_max': pywbem.Real64(12345678987654.32)
}
# note: the last Uint64 value should be 0xFFFFFFFFFFFFFFFF but there is a bug somewhere...
inttypes = [
'sint8', 'sint16', 'sint32', 'sint64', 'uint8', 'uint16', 'uint32',
'uint64'
]
realtypes = ['real32', 'real64']
zeros = {
'sint8': pywbem.Sint8(0),
'sint16': pywbem.Sint16(0),
'sint32': pywbem.Sint32(0),
'sint64': pywbem.Sint64(0),
'uint8': pywbem.Uint8(0),
'uint16': pywbem.Uint16(0),
'uint32': pywbem.Uint32(0),
'uint64': pywbem.Uint64(0),
'real32': pywbem.Real32(0),
'real64': pywbem.Real64(0)
}
ones = {
'sint8': pywbem.Sint8(1),
'sint16': pywbem.Sint16(1),
'sint32': pywbem.Sint32(1),
'sint64': pywbem.Sint64(1),
'uint8': pywbem.Uint8(1),
'uint16': pywbem.Uint16(1),
'uint32': pywbem.Uint32(1),
'uint64': pywbem.Uint64(1),
'real32': pywbem.Real32(0),
'real64': pywbem.Real64(0)
}
tens = {
'sint8': pywbem.Sint8(10),
'sint16': pywbem.Sint16(10),
'sint32': pywbem.Sint32(10),
'sint64': pywbem.Sint64(10),
'uint8': pywbem.Uint8(10),
'uint16': pywbem.Uint16(10),
'uint32': pywbem.Uint32(10),
'uint64': pywbem.Uint64(10),
'real32': pywbem.Real32(10),
'real64': pywbem.Real64(10)
}
twenties = {
'sint8': pywbem.Sint8(20),
'sint16': pywbem.Sint16(20),
'sint32': pywbem.Sint32(20),
'sint64': pywbem.Sint64(20),
'uint8': pywbem.Uint8(20),
'uint16': pywbem.Uint16(20),
'uint32': pywbem.Uint32(20),
'uint64': pywbem.Uint64(20),
'real32': pywbem.Real32(20),
'real64': pywbem.Real64(20)
}
numlists = {
'sint8': [
pywbem.Sint8(8),
pywbem.Sint8(2),
pywbem.Sint8(5),
pywbem.Sint8(6),
pywbem.Sint8(3),
pywbem.Sint8(9),
pywbem.Sint8(7),
pywbem.Sint8(1),
pywbem.Sint8(4)
],
'sint16': [
pywbem.Sint16(8),
pywbem.Sint16(2),
pywbem.Sint16(5),
pywbem.Sint16(6),
pywbem.Sint16(3),
pywbem.Sint16(9),
pywbem.Sint16(7),
pywbem.Sint16(1),
pywbem.Sint16(4)
],
'sint32': [
pywbem.Sint32(8),
pywbem.Sint32(2),
pywbem.Sint32(5),
pywbem.Sint32(6),
pywbem.Sint32(3),
pywbem.Sint32(9),
pywbem.Sint32(7),
pywbem.Sint32(1),
pywbem.Sint32(4)
],
'sint64': [
pywbem.Sint64(8),
pywbem.Sint64(2),
pywbem.Sint64(5),
pywbem.Sint64(6),
pywbem.Sint64(3),
pywbem.Sint64(9),
pywbem.Sint64(7),
pywbem.Sint64(1),
pywbem.Sint64(4)
],
'uint8': [
pywbem.Uint8(8),
pywbem.Uint8(2),
pywbem.Uint8(5),
pywbem.Uint8(6),
pywbem.Uint8(3),
pywbem.Uint8(9),
pywbem.Uint8(7),
pywbem.Uint8(1),
pywbem.Uint8(4)
],
'uint16': [
pywbem.Uint16(8),
pywbem.Uint16(2),
pywbem.Uint16(5),
pywbem.Uint16(6),
pywbem.Uint16(3),
pywbem.Uint16(9),
pywbem.Uint16(7),
pywbem.Uint16(1),
pywbem.Uint16(4)
],
'uint32': [
pywbem.Uint32(8),
pywbem.Uint32(2),
pywbem.Uint32(5),
pywbem.Uint32(6),
pywbem.Uint32(3),
pywbem.Uint32(9),
pywbem.Uint32(7),
pywbem.Uint32(1),
pywbem.Uint32(4)
],
'uint64': [
pywbem.Uint64(8),
pywbem.Uint64(2),
pywbem.Uint64(5),
pywbem.Uint64(6),
pywbem.Uint64(3),
pywbem.Uint64(9),
pywbem.Uint64(7),
pywbem.Uint64(1),
pywbem.Uint64(4)
],
'real32': [
pywbem.Real32(8),
pywbem.Real32(2),
pywbem.Real32(5),
pywbem.Real32(6),
pywbem.Real32(3),
pywbem.Real32(9),
pywbem.Real32(7),
pywbem.Real32(1),
pywbem.Real32(4)
],
'real64': [
pywbem.Real64(8),
pywbem.Real64(2),
pywbem.Real64(5),
pywbem.Real64(6),
pywbem.Real64(3),
pywbem.Real64(9),
pywbem.Real64(7),
pywbem.Real64(1),
pywbem.Real64(4)
]
}
def _dbgPrint(self, msg=''):
if self._verbose:
if len(msg):
print('\t -- %s --' % msg)
else:
print('')
def setUp(self):
unittest.TestCase.setUp(self)
wconn = wbem_connection.wbem_connection()
self.conn = wconn._WBEMConnFromOptions(_g_opts)
for iname in self.conn.EnumerateInstanceNames('TestMethod'):
self.conn.DeleteInstance(iname)
self._verbose = _g_opts.verbose
self._dbgPrint()
def tearDown(self):
unittest.TestCase.tearDown(self)
for iname in self.conn.EnumerateInstanceNames('TestMethod'):
self.conn.DeleteInstance(iname)
def _run_and_validate_getrand(self,
type,
methodName,
min,
max,
expectedReturnValue=None,
minReturnValue=None,
maxReturnValue=None):
isRealType = False
if type.startswith('real'):
isRealType = True
if isRealType:
self._dbgPrint('Testing %s invocation with min=%f, max=%f' %
(methodName, min, max))
else:
self._dbgPrint('Testing %s invocation with min=%d, max=%d' %
(methodName, min, max))
(rv, oparams) = self.conn.InvokeMethod(methodName,
'TestMethod',
min=min,
max=max)
if not oparams['success']:
self.fail(
'"Success" reported as false for invocation of method %s' %
methodName)
if expectedReturnValue is not None:
if isRealType:
self._dbgPrint(
'Verifying return value (%f) equal to expected return value %f...'
% (rv, expectedReturnValue))
if abs(expectedReturnValue - rv) > real_tolerance:
self.fail(
'Return value not as expected for invocation of method %s'
% methodName)
else:
self._dbgPrint(
'Verifying return value (%d) equal to expected return value %d...'
% (rv, expectedReturnValue))
if expectedReturnValue != rv:
self.fail(
'Return value not as expected for invocation of method %s'
% methodName)
self._dbgPrint('Return value is as expected.')
if minReturnValue is not None:
if isRealType:
self._dbgPrint('Verifying return value (%f) >= %f' %
(rv, minReturnValue))
else:
self._dbgPrint('Verifying return value (%d) >= %d' %
(rv, minReturnValue))
if rv < minReturnValue:
self.fail(
'Return value less than expected for invocation of method %s'
% methodName)
self._dbgPrint('Return value is as expected.')
if maxReturnValue is not None:
if isRealType:
self._dbgPrint('Verifying return value (%f) <= %f' %
(rv, maxReturnValue))
else:
self._dbgPrint('Verifying return value (%d) <= %d' %
(rv, maxReturnValue))
if rv > maxReturnValue:
self.fail(
'Return value greater than expected for invocation of method %s'
% methodName)
self._dbgPrint('Return value is as expected.')
def _run_and_validate_getrandlist(self, type, methodName, min, max,
nelems):
isRealType = False
if type.startswith('real'):
isRealType = True
if isRealType:
self._dbgPrint('Testing %s invocation with min=%f, max=%f' %
(methodName, min, max))
else:
self._dbgPrint('Testing %s invocation with min=%d, max=%d' %
(methodName, min, max))
(rv, oparams) = self.conn.InvokeMethod(methodName,
'TestMethod',
lo=min,
hi=max,
nelems=nelems)
if not rv:
self.fail('Invocation of %s returned false success value.' %
methodName)
self._dbgPrint('Invocation of %s returned successfully.' % methodName)
if isRealType:
self._dbgPrint('Validating lo (%f) and hi (%f) outparams...' %
(min, max))
if abs(oparams['lo'] - min) > real_tolerance:
self.fail(
'Returned low range value (%f) not equal to specified value (%f).'
% (oparams['lo'], min))
if abs(oparams['hi'] - max) > real_tolerance:
self.fail(
'Returned high range value (%f) not equal to specified value (%f).'
% (oparams['hi'], max))
else:
self._dbgPrint('Validating lo (%d) and hi (%d) outparams...' %
(min, max))
if oparams['lo'] != min:
self.fail(
'Returned low range value (%d) not equal to specified value (%d).'
% (oparams['lo'], min))
if oparams['hi'] != max:
self.fail(
'Returned high range value (%d) not equal to specified value (%d).'
% (oparams['hi'], max))
self._dbgPrint('Lo and hi outparams validated successfully.')
self._dbgPrint('Validating random list values...')
if oparams['nlist'] is None:
self.fail('Expected a list of values but got none.')
if len(oparams['nlist']) != nelems:
self.fail('Expected a list of %d items but got %d items instead.' %
(nelems, len(oparams['nlist'])))
minkey = '%s_min' % type
maxkey = '%s_max' % type
for num in oparams['nlist']:
if num < TestMethods.limits[minkey] or \
num > TestMethods.limits[maxkey]:
if isRealType:
self.fail(
'List element %f not in expected range for type %s.' %
(num, type))
else:
self.fail(
'List element %d not in expected range for type %s.' %
(num, type))
self._dbgPrint('Random list values validated successfully.')
def _run_and_validate_minmedmax(self, type, methodName, numlist):
self._dbgPrint('Testing %s invocation' % methodName)
(rv, oparams) = self.conn.InvokeMethod(methodName,
'TestMethod',
numlist=numlist)
if not rv:
self.fail('Invocation of %s returned false success value.' %
methodName)
self._dbgPrint('Invocation of %s returned successfully.' % methodName)
self._dbgPrint('Validating min, median, and max outparams...')
if oparams['min'] != 1:
self.fail('Expected min of 1 but instead got %d' % oparams['min'])
if oparams['max'] != 9:
self.fail('Expected max of 9 but instead got %d' % oparams['max'])
if oparams['med'] != 5:
self.fail('Expected median of 5 but instead got %d' %
oparams['med'])
self._dbgPrint('Min, median, and max values validated successfully.')
def _run_numeric_type_tests(self, typelist):
gr = self._run_and_validate_getrand
grl = self._run_and_validate_getrandlist
mmm = self._run_and_validate_minmedmax
for type in typelist:
method = 'genRand_%s' % type
minkey = '%s_min' % type
maxkey = '%s_max' % type
min = TestMethods.limits[minkey]
max = TestMethods.limits[maxkey]
gr(type, method, min, max, None, min, max)
gr(type, method, min, min, min)
gr(type, method, max, max, max)
if min != 0:
gr(type, method, TestMethods.zeros[type],
TestMethods.zeros[type], TestMethods.zeros[type])
gr(type, method, TestMethods.tens[type],
TestMethods.twenties[type], None, TestMethods.tens[type],
TestMethods.twenties[type])
# the next two should cause exceptions; getting a TypeError exception is not an error in this case.
try:
gr(type, method, min - 1, min - 1, min - 1)
except TypeError:
pass
try:
gr(type, method, max + 1, max + 1, max + 1)
except TypeError:
pass
method = 'genRandList_%s' % type
nelems = _typed_randrange(TestMethods.tens[type],
TestMethods.twenties[type], type)
grl(type, method, min, max, nelems)
grl(type, method, min, max, TestMethods.ones[type])
grl(type, method, min, max, TestMethods.zeros[type])
if min != 0:
grl(type, method, TestMethods.zeros[type], max, nelems)
else:
grl(type, method, min, TestMethods.zeros[type], nelems)
grl(type, method, TestMethods.tens[type],
TestMethods.twenties[type], nelems)
grl(type, method, TestMethods.tens[type],
TestMethods.twenties[type], TestMethods.ones[type])
grl(type, method, TestMethods.tens[type],
TestMethods.twenties[type], TestMethods.zeros[type])
method = 'minmedmax_%s' % type
mmm(type, method, TestMethods.numlists[type])
def test_integer_types(self):
self._run_numeric_type_tests(TestMethods.inttypes)
def test_real_types(self):
self._run_numeric_type_tests(TestMethods.realtypes)
def test_refs(self):
inst = pywbem.CIMInstance('TestMethod',
properties={
'id': 'one',
'p_str': 'One',
'p_sint32': pywbem.Sint32(1)
})
self.conn.CreateInstance(inst)
iname = pywbem.CIMInstanceName('TestMethod',
namespace='root/cimv2',
keybindings={'id': 'one'})
rv, outs = self.conn.InvokeMethod('getStrProp', iname)
self.assertEquals(rv, 'One')
rv, outs = self.conn.InvokeMethod('setStrProp', iname, value='won')
self.assertFalse(outs)
self.assertEquals(rv, 'One')
rv, outs = self.conn.InvokeMethod('getStrProp', iname)
self.assertEquals(rv, 'won')
inst = self.conn.GetInstance(iname)
self.assertEquals(inst['p_str'], 'won')
rv, outs = self.conn.InvokeMethod('getIntProp', iname)
self.assertEquals(rv, 1)
self.assertTrue(isinstance(rv, pywbem.Sint32))
self.assertEquals(inst['p_sint32'], 1)
rv, outs = self.conn.InvokeMethod('setIntProp',
iname,
value=pywbem.Sint32(2))
self.assertTrue(isinstance(rv, pywbem.Sint32))
self.assertEquals(rv, 1)
self.assertFalse(outs)
rv, outs = self.conn.InvokeMethod('getIntProp', iname)
self.assertEquals(rv, 2)
self.assertTrue(isinstance(rv, pywbem.Sint32))
inst = self.conn.GetInstance(iname)
self.assertEquals(inst['p_sint32'], 2)
rv, outs = self.conn.InvokeMethod('getObjectPath', 'TestMethod')
self.assertTrue(isinstance(outs['path'], pywbem.CIMInstanceName))
self.assertEquals(outs['path']['id'], 'one')
inst = pywbem.CIMInstance('TestMethod',
properties={
'id': 'two',
'p_str': 'Two',
'p_sint32': pywbem.Sint32(2)
})
self.conn.CreateInstance(inst)
rv, outs = self.conn.InvokeMethod('getObjectPaths', 'TestMethod')
self.assertEquals(len(outs['paths']), 2)
self.assertTrue(isinstance(outs['paths'][0], pywbem.CIMInstanceName))
to_delete = outs['paths']
inst = pywbem.CIMInstance('TestMethod',
properties={
'id': 'three',
'p_str': 'Three',
'p_sint32': pywbem.Sint32(3)
})
self.conn.CreateInstance(inst)
iname = pywbem.CIMInstanceName('TestMethod',
namespace='root/cimv2',
keybindings={'id': 'three'})
inames = self.conn.EnumerateInstanceNames('TestMethod')
self.assertEquals(len(inames), 3)
rv, outs = self.conn.InvokeMethod('delObject',
'TestMethod',
path=iname)
inames = self.conn.EnumerateInstanceNames('TestMethod')
self.assertEquals(len(inames), 2)
self.conn.CreateInstance(inst)
''' # OpenWBEM is broken! uncomment this for Pegasus. '''
rv, outs = self.conn.InvokeMethod('delObjects',
'TestMethod',
paths=to_delete)
inames = self.conn.EnumerateInstanceNames('TestMethod')
self.assertEquals(len(inames), 1)
self.assertEquals(inames[0]['id'], 'three')
def test_mkUniStr_sint8(self):
s = 'Scrum Rocks!'
l = [pywbem.Sint8(ord(x)) for x in s]
rv, outs = self.conn.InvokeMethod('mkUniStr_sint8',
'TestMethod',
cArr=l)
self.assertFalse(outs)
self.assertEquals(rv, s)
rv, outs = self.conn.InvokeMethod('mkUniStr_sint8',
'TestMethod',
cArr=[])
self.assertEquals(rv, '')
def test_strCat(self):
ra = ['one', 'two', 'three', 'four']
rv, outs = self.conn.InvokeMethod('strCat',
'TestMethod',
strs=ra,
sep=',')
self.assertEquals(rv, ','.join(ra))
self.assertFalse(outs)
def test_strSplit(self):
ra = 'one,two,three,four'
rv, outs = self.conn.InvokeMethod('strSplit',
'TestMethod',
str=ra,
sep=',')
self.assertEquals(outs['elems'], ra.split(','))
self.assertTrue(ra)
def test_getDate(self):
dt = pywbem.CIMDateTime.now()
rv, outs = self.conn.InvokeMethod('getDate',
'TestMethod',
datestr=str(dt))
self.assertFalse(outs)
self.assertEquals(rv, dt)
self.assertEquals(str(rv), str(dt))
self.assertTrue(isinstance(rv, pywbem.CIMDateTime))
def test_getDates(self):
dt = pywbem.CIMDateTime.now()
s1 = str(dt)
ra = [s1]
dt = pywbem.CIMDateTime(pywbem.datetime.now() + \
pywbem.timedelta(seconds=10))
s2 = str(dt)
ra.append(s2)
dt = pywbem.CIMDateTime(pywbem.datetime.now() + \
pywbem.timedelta(seconds=10))
s3 = str(dt)
ra.append(s3)
rv, outs = self.conn.InvokeMethod('getDates',
'TestMethod',
datestrs=ra)
self.assertTrue(rv)
self.assertTrue(isinstance(rv, bool))
self.assertEquals(outs['nelems'], len(ra))
self.assertTrue(isinstance(outs['nelems'], pywbem.Sint32))
for i in range(0, len(ra)):
self.assertTrue(isinstance(outs['elems'][i], pywbem.CIMDateTime))
self.assertEquals(str(outs['elems'][i]), ra[i])
def test_minmedmax(self):
for tstr in [
'Sint8', 'Uint8', 'Sint16', 'Uint16', 'Sint32', 'Uint32',
'Sint64', 'Uint64', 'Real32', 'Real64'
]:
dt = getattr(pywbem, tstr)
method = 'minmedmax_%s' % tstr
numlist = [
dt(2),
dt(5),
dt(8),
dt(1),
dt(9),
dt(6),
dt(4),
dt(7),
dt(3),
]
rv, outs = self.conn.InvokeMethod(method,
'TestMethod',
numlist=numlist)
self.assertTrue(rv)
self.assertTrue(isinstance(rv, bool))
self.assertTrue(isinstance(outs['min'], dt))
self.assertTrue(isinstance(outs['med'], dt))
self.assertTrue(isinstance(outs['max'], dt))
self.assertEquals(outs['min'], 1)
self.assertEquals(outs['max'], 9)
self.assertEquals(outs['med'], 5)
def _create_test_instance(ch, name_of_atom, number, time):
""" Create a TestAtom instance. """
global _inst_paths
new_instance = pywbem.CIMInstance('TestAtom')
new_instance['Name'] = name_of_atom
new_instance['boolProp'] = False
#new_instance['char16Prop'] =
#new_instance['char16Propa'] = Null
new_instance['dateProp'] = time
new_instance['real32Prop'] = pywbem.Real32(number)
#new_instance['real32Propa'] = pywbem.CIMProperty('Real32Propa', \ type='Real32', is_array=True, value=None)
new_instance['real32Propa'] = [pywbem.Real32(number), \
pywbem.Real32(number), \
pywbem.Real32(number)]
new_instance['real64Prop'] = pywbem.Real64(number)
new_instance['real64Propa'] = [pywbem.Real64(number), \
pywbem.Real64(number), \
pywbem.Real64(number)]
new_instance['sint16Prop'] = pywbem.Sint16(number)
new_instance['sint16Propa'] = [pywbem.Sint16(number), \
pywbem.Sint16(number), \
pywbem.Sint16(number)]
new_instance['sint32Prop'] = pywbem.Sint32(number)
new_instance['sint32Propa'] = [pywbem.Sint32(number), \
pywbem.Sint32(number), \
pywbem.Sint32(number)]
new_instance['sint64Prop'] = pywbem.Sint64(number)
new_instance['sint64Propa'] = [pywbem.Sint64(number), \
pywbem.Sint64(number), \
pywbem.Sint64(number)]
new_instance['sint8prop'] = pywbem.Sint8(number)
new_instance['sint8Propa'] = [pywbem.Sint8(number), \
pywbem.Sint8(number), \
pywbem.Sint8(number)]
new_instance['stringProp'] = name_of_atom
new_instance['stringPropa'] = ['proton', 'electron', 'neutron']
new_instance['uint16Prop'] = pywbem.Uint16(number)
new_instance['uint16Propa'] = [pywbem.Uint16(number), \
pywbem.Uint16(number), \
pywbem.Uint16(number)]
new_instance['uint32Prop'] = pywbem.Uint32(number)
new_instance['uint32Propa'] = [pywbem.Uint32(number), \
pywbem.Uint32(number), \
pywbem.Uint32(number)]
new_instance['uint64Prop'] = pywbem.Uint64(number)
new_instance['uint64Propa'] = [pywbem.Uint64(number), \
pywbem.Uint64(number), \
pywbem.Uint64(number)]
new_instance['uint8Prop'] = pywbem.Uint8(number)
new_instance['uint8Propa'] = [pywbem.Uint8(number), \
pywbem.Uint8(number), \
pywbem.Uint8(number)]
try:
msg = ''
cipath = ch.CreateInstance(new_instance)
new_instance.path = cipath
_inst_paths.append(cipath)
except pywbem.CIMError, arg:
raise
mod_instance = _get_instance(ch, keybindings, propertylist)
if mod_instance:
new_time = pywbem.CIMDateTime.now()
if mod_instance['boolProp']:
mod_instance['boolProp'] = False
else:
mod_instance['boolProp'] = True
mod_instance['uint64Prop'] = pywbem.Uint64(2)
mod_instance['dateProp'] = new_time
mod_instance['stringProp'] = "Helium"
mod_instance['real32Prop'] = pywbem.Real32(2)
mod_instance['sint64Propa'] = pywbem.CIMProperty('sint64Propa', \
type='sint64', \
value=[pywbem.Sint64(2), \
pywbem.Sint64(2), pywbem.Sint64(2)])
mod_instance['sint64prop'] = pywbem.Sint64(2)
mod_instance['Name'] = 'Boron'
try:
ch.ModifyInstance(mod_instance)
except pywbem.CIMError, arg:
raise
mod_instance = _get_instance(ch, keybindings, propertylist)
for prop in mod_instance.properties.keys():
if prop == 'uint64Prop' or prop == 'real32Prop' or \
prop == 'sint64Prop':
if mod_instance[prop] != 2:
raise ("Values %s, %s: NOT EQUAL"%(str(\
