def consulta_distribuicao_nfe(certificado, **kwargs):
if "xml" not in kwargs:
kwargs['xml'] = xml_consulta_distribuicao_nfe(certificado, **kwargs)
xml_send = kwargs["xml"]
base_url = localizar_url(
'NFeDistribuicaoDFe', kwargs['estado'], kwargs['modelo'],
kwargs['ambiente'])
cert, key = extract_cert_and_key_from_pfx(
certificado.pfx, certificado.password)
cert, key = save_cert_key(cert, key)
session = Session()
session.cert = (cert, key)
session.verify = False
transport = Transport(session=session)
xml = etree.fromstring(xml_send)
xml_um = etree.fromstring('<nfeCabecMsg xmlns="http://www.portalfiscal.inf.br/nfe/wsdl/"><cUF>AN</cUF><versaoDados>1.00</versaoDados></nfeCabecMsg>')
client = Client(base_url, transport=transport)
port = next(iter(client.wsdl.port_types))
first_operation = next(iter(client.wsdl.port_types[port].operations))
with client.settings(raw_response=True):
response = client.service[first_operation](nfeDadosMsg=xml, _soapheaders=[xml_um])
response, obj = sanitize_response(response.text)
return {
'sent_xml': xml_send,
'received_xml': response,
'object': obj.Body.nfeDistDFeInteresseResponse.nfeDistDFeInteresseResult
}
def _send(certificado, method, **kwargs):
xml_send = kwargs["xml"]
base_url = localizar_url(
method, kwargs['estado'], kwargs['modelo'], kwargs['ambiente'])
cert, key = extract_cert_and_key_from_pfx(
certificado.pfx, certificado.password)
cert, key = save_cert_key(cert, key)
session = Session()
session.cert = (cert, key)
session.verify = False
transport = Transport(session=session)
xml = etree.fromstring(xml_send)
client = Client(base_url, transport=transport)
port = next(iter(client.wsdl.port_types))
first_operation = next(iter(client.wsdl.port_types[port].operations))
namespaceNFe = xml.find(".//{http://www.portalfiscal.inf.br/nfe}NFe")
if namespaceNFe is not None:
namespaceNFe.set('xmlns', 'http://www.portalfiscal.inf.br/nfe')
with client.settings(raw_response=True):
response = client.service[first_operation](xml)
response, obj = sanitize_response(response.text)
return {
'sent_xml': xml_send,
'received_xml': response,
'object': obj.Body.getchildren()[0]
}
def test_factory_ns_custom_prefix():
client = Client('tests/wsdl_files/soap.wsdl')
client.set_ns_prefix('sq', 'http://example.com/stockquote.xsd')
factory = client.type_factory('sq')
obj = factory.Address(NameFirst='Michael', NameLast='van Tellingen')
assert obj.NameFirst == 'Michael'
assert obj.NameLast == 'van Tellingen'
def test_parse_soap_wsdl():
client = Client('tests/wsdl_files/soap.wsdl', transport=Transport(),)
response = """
<?xml version="1.0"?>
<soapenv:Envelope
xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
xmlns:stoc="http://example.com/stockquote.xsd">
<soapenv:Header/>
<soapenv:Body>
<stoc:TradePrice>
<price>120.123</price>
</stoc:TradePrice>
</soapenv:Body>
</soapenv:Envelope>
""".strip()
client.set_ns_prefix('stoc', 'http://example.com/stockquote.xsd')
with requests_mock.mock() as m:
m.post('http://example.com/stockquote', text=response)
account_type = client.get_type('stoc:account')
account = account_type(id=100)
account.user = '******'
country = client.get_element('stoc:country').type()
country.name = 'The Netherlands'
country.code = 'NL'
result = client.service.GetLastTradePrice(
tickerSymbol='foobar',
account=account,
country=country)
assert result == 120.123
request = m.request_history[0]
# Compare request body
expected = """
<soap-env:Envelope
xmlns:soap-env="http://schemas.xmlsoap.org/soap/envelope/"
xmlns:stoc="http://example.com/stockquote.xsd">
<soap-env:Body>
<stoc:TradePriceRequest>
<tickerSymbol>foobar</tickerSymbol>
<account>
<id>100</id>
<user>mvantellingen</user>
</account>
<stoc:country>
<name>The Netherlands</name>
<code>NL</code>
</stoc:country>
</stoc:TradePriceRequest>
</soap-env:Body>
</soap-env:Envelope>
"""
assert_nodes_equal(expected, request.body)
def test_factory_no_reference():
client = Client('tests/wsdl_files/soap.wsdl')
obj_1 = client.get_type('ns0:ArrayOfAddress')()
obj_1.Address.append({
'NameFirst': 'J',
'NameLast': 'Doe',
})
obj_2 = client.get_type('ns0:ArrayOfAddress')()
assert len(obj_2.Address) == 0
def __init__(self, api_key=None, sandbox=False):
if not any([api_key, sandbox]):
raise AttributeError('Api key is required.')
self.api_key = api_key
self.sandbox = sandbox
if sandbox:
self.api_key = api_key or 'abcde12345abcde12345'
self.endpoint = ENDPOINT_SANDBOX
transport = Transport(session=Session())
transport.session.headers = self.headers
client = Client(WSDL, transport=transport)
self.service = client.create_service('{http://tempuri.org/}e3', self.endpoint)
self.headers.update({'sid': self._service('Zaloguj', self.api_key)})
def setUp(self):
from spyne.test.interop._test_soap_client_base import run_server
run_server('http')
transport = Transport(cache=False)
self.client = Client("http://localhost:9754/?wsdl", transport=transport)
self.ns = "spyne.test.interop.server"
def setUp(self):
from spyne.test.interop._test_soap_client_base import run_server
run_server('http')
port, = server_started.keys()
transport = Transport(cache=False)
self.client = Client("http://localhost:%d/?wsdl" % port,
transport=transport)
self.ns = "spyne.test.interop.server"
def __init__(self):
if settings.GP_WS_ENABLED:
cache = SqliteCache(timeout=30 * 24 * 60 * 60)
session = Session()
session.auth = HttpNtlmAuth(
settings.GP_WS_USERNAME, settings.GP_WS_PASSWORD)
self.client = Client(
settings.GP_WS_URL,
transport=Transport(session=session, cache=cache)
)
self.ws_factory1 = self.client.type_factory('ns1')
self.ws_factory2 = self.client.type_factory('ns2')
company = self.ws_factory2.CompanyKey(settings.GP_COMPANY_ID)
self.service_context = self.ws_factory2.Context(
OrganizationKey=company,
CurrencyType='Local'
)
def __init__(self, url, location, sslverify, **kwargs):
if "session" in kwargs:
session = kwargs["session"]
del kwargs["session"]
transport = Transport(session=session)
else:
transport = Transport()
if "auth" in kwargs:
transport.session.auth = kwargs["auth"]
del kwargs["auth"]
transport.session.verify = sslverify
self.sessionplugin=SessionPlugin(self)
plugins=[self.sessionplugin]
if "log" in kwargs:
log = kwargs.get("log")
if isinstance(log, Plugin):
plugins.append(log)
elif log == True:
plugins.append(LogRequest())
del kwargs["log"]
self.client = Client(url,
transport=transport,
# cache=None, unwrap=False,
plugins=plugins)
self.service = self.client.create_service(ns_name(schema_xmla,"MsXmlAnalysisSoap"), location)
self.client.set_ns_prefix(None, schema_xmla)
# optional, call might fail
self.getMDSchemaLevels = lambda *args, **kw: self.Discover("MDSCHEMA_LEVELS",
*args, **kw)
self.setListenOnSessionId(False)
self.setSessionId(None)
self._soapheaders=None
def test_factory_ns_unknown_prefix():
client = Client('tests/wsdl_files/soap.wsdl')
with pytest.raises(ValueError):
client.type_factory('bla')
def test_factory_ns_auto_prefix():
client = Client('tests/wsdl_files/soap.wsdl')
factory = client.type_factory('ns0')
obj = factory.Address(NameFirst='Michael', NameLast='van Tellingen')
assert obj.NameFirst == 'Michael'
assert obj.NameLast == 'van Tellingen'
class TestZeep(unittest.TestCase):
def setUp(self):
from spyne.test.interop._test_soap_client_base import run_server
run_server('http')
self.client = Client("http://localhost:9754/?wsdl")
self.ns = "spyne.test.interop.server"
def get_inst(self, what):
return self.client.get_type(what)()
def test_echo_datetime(self):
# ZEEP doesn't support microseconds
val = datetime.now().replace(microsecond=0)
ret = self.client.service.echo_datetime(val)
assert val == ret
def test_echo_datetime_with_invalid_format(self):
# ZEEP doesn't support microseconds
val = datetime.now().replace(microsecond=0)
ret = self.client.service.echo_datetime_with_invalid_format(val)
assert val == ret
def test_echo_date(self):
val = datetime.now().date()
ret = self.client.service.echo_date(val)
assert val == ret
def test_echo_date_with_invalid_format(self):
val = datetime.now().date()
ret = self.client.service.echo_date_with_invalid_format(val)
assert val == ret
def test_echo_time(self):
# ZEEP doesnt support microseconds
val = datetime.now().replace(microsecond=0).time()
ret = self.client.service.echo_time(val)
assert val == ret
def test_echo_time_with_invalid_format(self):
# ZEEP doesnt support microseconds
val = datetime.now().replace(microsecond=0).time()
ret = self.client.service.echo_time_with_invalid_format(val)
assert val == ret
def test_echo_simple_boolean_array(self):
val = [False, False, False, True]
ret = self.client.service.echo_simple_boolean_array(val)
assert val == ret
def test_echo_boolean(self):
val = True
ret = self.client.service.echo_boolean(val)
self.assertEquals(val, ret)
val = False
ret = self.client.service.echo_boolean(val)
self.assertEquals(val, ret)
def test_enum(self):
val = self.client.get_type("{%s}DaysOfWeekEnum" % self.ns)('Monday')
ret = self.client.service.echo_enum(val)
assert val == ret
def test_bytearray(self):
val = b"\x00\x01\x02\x03\x04"
ret = self.client.service.echo_bytearray(val)
assert val == ret
def test_validation(self):
non_nillable_class = self.client.get_type("{hunk.sunk}NonNillableClass")()
non_nillable_class.i = 6
non_nillable_class.s = None
try:
self.client.service.non_nillable(non_nillable_class)
except ZeepError as e:
pass
else:
raise Exception("must fail")
def test_echo_integer_array(self):
ia = self.client.get_type('{%s}integerArray' % self.ns)()
ia.integer.extend([1, 2, 3, 4, 5])
self.client.service.echo_integer_array(ia)
# FIXME: Figure how this is supposed to work
def _test_echo_in_header(self):
in_header = self.client.get_type('{%s}InHeader' % self.ns)()
in_header.s = 'a'
in_header.i = 3
self.client.set_options(soapheaders=in_header)
ret = self.client.service.echo_in_header()
self.client.set_options(soapheaders=None)
print(ret)
self.assertEquals(in_header.s, ret.s)
self.assertEquals(in_header.i, ret.i)
# FIXME: Figure how this is supposed to work
def _test_echo_in_complex_header(self):
in_header = self.client.get_type('{%s}InHeader' % self.ns)()
in_header.s = 'a'
in_header.i = 3
in_trace_header = self.client.get_type('{%s}InTraceHeader' % self.ns)()
in_trace_header.client = 'suds'
in_trace_header.callDate = datetime(year=2000, month=1, day=1, hour=0,
minute=0, second=0, microsecond=0)
self.client.set_options(soapheaders=(in_header, in_trace_header))
ret = self.client.service.echo_in_complex_header()
self.client.set_options(soapheaders=None)
print(ret)
self.assertEquals(in_header.s, ret[0].s)
self.assertEquals(in_header.i, ret[0].i)
self.assertEquals(in_trace_header.client, ret[1].client)
self.assertEquals(in_trace_header.callDate, ret[1].callDate)
def test_send_out_header(self):
out_header = self.client.get_type('{%s}OutHeader' % self.ns)()
out_header.dt = datetime(year=2000, month=1, day=1)
out_header.f = 3.141592653
ret = self.client.service.send_out_header()
self.assertEquals(ret.header.OutHeader.dt, out_header.dt)
self.assertEquals(ret.header.OutHeader.f, out_header.f)
def test_send_out_complex_header(self):
out_header = self.client.get_type('{%s}OutHeader' % self.ns)()
out_header.dt = datetime(year=2000, month=1, day=1)
out_header.f = 3.141592653
out_trace_header = self.client.get_type('{%s}OutTraceHeader' % self.ns)()
out_trace_header.receiptDate = datetime(year=2000, month=1, day=1,
hour=1, minute=1, second=1, microsecond=1)
out_trace_header.returnDate = datetime(year=2000, month=1, day=1,
hour=1, minute=1, second=1, microsecond=100)
ret = self.client.service.send_out_complex_header()
self.assertEquals(ret.header.OutHeader.dt, out_header.dt)
self.assertEquals(ret.header.OutHeader.f, out_header.f)
self.assertEquals(ret.header.OutTraceHeader.receiptDate, out_trace_header.receiptDate)
self.assertEquals(ret.header.OutTraceHeader.returnDate, out_trace_header.returnDate)
def test_echo_string(self):
test_string = "OK"
ret = self.client.service.echo_string(test_string)
self.assertEquals(ret, test_string)
def __get_xml_test_val(self):
return {
"test_sub": {
"test_subsub1": {
"test_subsubsub1": ["subsubsub1 value"]
},
"test_subsub2": ["subsub2 value 1", "subsub2 value 2"],
"test_subsub3": [
{
"test_subsub3sub1": ["subsub3sub1 value"]
},
{
"test_subsub3sub2": ["subsub3sub2 value"]
},
],
"test_subsub4": [],
"test_subsub5": ["x"],
}
}
def test_echo_simple_class(self):
val = self.client.get_type("{%s}SimpleClass" % self.ns)()
val.i = 45
val.s = "asd"
# why val loses all its data after being passed to service request?
# it doesn't work without deepcopy!
ret = self.client.service.echo_simple_class(deepcopy(val))
assert ret.i == val.i
assert ret.s == val.s
def test_echo_class_with_self_reference(self):
val = self.client.get_type("{%s}ClassWithSelfReference" % self.ns)()
val.i = 45
val.sr = self.client.get_type("{%s}ClassWithSelfReference" % self.ns)()
val.sr.i = 50
val.sr.sr = None
# why val loses all its data after being passed to service request?
# it doesn't work without deepcopy!
ret = self.client.service.echo_class_with_self_reference(deepcopy(val))
assert ret.i == val.i
assert ret.sr.i == val.sr.i
def test_echo_nested_class(self):
val = self.client.get_type("{punk.tunk}NestedClass")()
val.i = 45
val.s = "asd"
val.f = 12.34
val.ai = self.client.get_type("{%s}integerArray" % self.ns)()
val.ai.integer.extend([1, 2, 3, 45, 5, 3, 2, 1, 4])
val.simple = self.client.get_type("{%s}SimpleClassArray" % self.ns)()
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass[0].i = 45
val.simple.SimpleClass[0].s = "asd"
val.simple.SimpleClass[1].i = 12
val.simple.SimpleClass[1].s = "qwe"
val.other = self.client.get_type("{%s}OtherClass" % self.ns)()
# ZEEP doesn't support microseconds
val.other.dt = datetime.now().replace(microsecond=0)
val.other.d = 123.456
val.other.b = True
# why val loses all its data after being passed to service request?
# it doesn't work without deepcopy!
ret = self.client.service.echo_nested_class(deepcopy(val))
self.assertEquals(ret.i, val.i)
self.assertEqual(ret.ai.integer, val.ai.integer)
self.assertEqual(ret.ai.integer[0], val.ai.integer[0])
self.assertEquals(ret.simple.SimpleClass[0].s, val.simple.SimpleClass[0].s)
self.assertEqual(ret.other.dt, val.other.dt)
def test_huge_number(self):
self.assertEquals(self.client.service.huge_number(), 2 ** int(1e5))
def test_long_string(self):
self.assertEquals(self.client.service.long_string(),
('0123456789abcdef' * 16384))
def test_empty(self):
self.client.service.test_empty()
def test_echo_extension_class(self):
val = self.client.get_type("{bar}ExtensionClass")()
val.i = 45
val.s = "asd"
val.f = 12.34
val.simple = self.client.get_type("{%s}SimpleClassArray" % self.ns)()
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass[0].i = 45
val.simple.SimpleClass[0].s = "asd"
val.simple.SimpleClass[1].i = 12
val.simple.SimpleClass[1].s = "qwe"
val.other = self.client.get_type("{%s}OtherClass" % self.ns)()
# ZEEP doesn't support microseconds
val.other.dt = datetime.now().replace(microsecond=0)
val.other.d = 123.456
val.other.b = True
val.p = self.client.get_type("{hunk.sunk}NonNillableClass")()
val.p.dt = datetime(2010, 6, 2)
val.p.i = 123
val.p.s = "punk"
val.l = datetime(2010, 7, 2)
val.q = 5
# why val loses all its data after being passed to service request?
# it doesn't work without deepcopy!
ret = self.client.service.echo_extension_class(deepcopy(val))
print(ret)
self.assertEquals(ret.i, val.i)
self.assertEquals(ret.s, val.s)
self.assertEquals(ret.f, val.f)
self.assertEquals(ret.simple.SimpleClass[0].i, val.simple.SimpleClass[0].i)
self.assertEquals(ret.other.dt, val.other.dt)
self.assertEquals(ret.p.s, val.p.s)
def test_python_exception(self):
try:
self.client.service.python_exception()
raise Exception("must fail")
except ZeepError as e:
pass
def test_soap_exception(self):
try:
self.client.service.soap_exception()
raise Exception("must fail")
except ZeepError as e:
pass
def test_complex_return(self):
ret = self.client.service.complex_return()
self.assertEquals(ret.resultCode, 1)
self.assertEquals(ret.resultDescription, "Test")
self.assertEquals(ret.transactionId, 123)
self.assertEquals(ret.roles.RoleEnum[0], "MEMBER")
def test_return_invalid_data(self):
try:
self.client.service.return_invalid_data()
raise Exception("must fail")
except:
pass
def test_custom_messages(self):
ret = self.client.service.custom_messages("test")
assert ret == 'test'
def test_echo_simple_bare(self):
ret = self.client.service.echo_simple_bare("test")
assert ret == 'test'
#
# This test is disabled because zeep does not create the right request
# object. Opening the first <ns0:string> tag below is wrong.
#
#<SOAP-ENV:Envelope xmlns:ns0="spyne.test.interop.server"
# xmlns:xs="http://www.w3.org/2001/XMLSchema"
# xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
# xmlns:ns1="http://schemas.xmlsoap.org/soap/envelope/"
# xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/">
# <SOAP-ENV:Header/>
# <ns1:Body>
# <ns0:echo_complex_bare>
# <ns0:string>
# <ns0:string>abc</ns0:string>
# <ns0:string>def</ns0:string>
# </ns0:string>
# </ns0:echo_complex_bare>
# </ns1:Body>
#</SOAP-ENV:Envelope>
#
# The right request looks like this:
#
# <ns0:echo_complex_bare>
# <ns0:string>abc</ns0:string>
# <ns0:string>def</ns0:string>
# </ns0:echo_complex_bare>
#
def _test_echo_complex_bare(self):
val = ['abc','def']
ia = self.client.get_type('{%s}stringArray' % self.ns)()
ia.string.extend(val)
ret = self.client.service.echo_complex_bare(ia)
assert ret == val
def __init__(self):
self.WSDL = os.getenv('DHL.WSDL', None)
self.client = Client(wsdl=self.WSDL)
import os
from zeep import Client
from utils.cache import cache
CLIENT_WSDL = Client(
os.environ.get(
"URL_AMIL",
"https://api.amil.com.br/sisamil-credenciado/prestador/conecta?wsdl"))
@cache.cached(timeout=50)
def get_justification():
response_amil = []
response = CLIENT_WSDL.service.BuscarJustificativaConfirmacaoSemToken()
for r in response:
response_amil.append({'codigo': r["Codigo"], 'message': r['Mensagem']})
return response_amil
def confirm_attendance(data):
return CLIENT_WSDL.service.ConfirmarAtendimento(
pedido=data["pedido"],
prestador=data["prestador"],
beneficiario=data["codMatriculaBeneficario"],
token=data["token"] if 'token' in data and data["token"] else None,
dataAtendimento=data["dataAtendimento"],
horaAtendimento=data["horaAtendimento"],
justificativaConfirmacaoSemToken=data["retorno"])
def remake_client(self, keyword: str):
self.client = Client(_make_client_url(keyword=keyword))
def test_xop():
wsdl_main = StringIO("""
<?xml version="1.0"?>
<wsdl:definitions
xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/"
xmlns:xsd="http://www.w3.org/2001/XMLSchema"
xmlns:tns="http://tests.python-zeep.org/xsd-main"
xmlns:sec="http://tests.python-zeep.org/wsdl-secondary"
xmlns:soap="http://schemas.xmlsoap.org/wsdl/soap/"
xmlns:wsdlsoap="http://schemas.xmlsoap.org/wsdl/soap/"
targetNamespace="http://tests.python-zeep.org/xsd-main">
<wsdl:types>
<xsd:schema
targetNamespace="http://tests.python-zeep.org/xsd-main"
xmlns:tns="http://tests.python-zeep.org/xsd-main">
<xsd:complexType name="responseTypeSimple">
<xsd:sequence>
<xsd:element name="BinaryData" type="xsd:base64Binary"/>
</xsd:sequence>
</xsd:complexType>
<xsd:complexType name="BinaryDataType">
<xsd:simpleContent>
<xsd:extension base="xsd:base64Binary">
<xsd:anyAttribute namespace="##other" processContents="lax"/>
</xsd:extension>
</xsd:simpleContent>
</xsd:complexType>
<xsd:complexType name="responseTypeComplex">
<xsd:sequence>
<xsd:element name="BinaryData" type="tns:BinaryDataType"/>
</xsd:sequence>
</xsd:complexType>
<xsd:element name="input" type="xsd:string"/>
<xsd:element name="resultSimple" type="tns:responseTypeSimple"/>
<xsd:element name="resultComplex" type="tns:responseTypeComplex"/>
</xsd:schema>
</wsdl:types>
<wsdl:message name="dummyRequest">
<wsdl:part name="response" element="tns:input"/>
</wsdl:message>
<wsdl:message name="dummyResponseSimple">
<wsdl:part name="response" element="tns:resultSimple"/>
</wsdl:message>
<wsdl:message name="dummyResponseComplex">
<wsdl:part name="response" element="tns:resultComplex"/>
</wsdl:message>
<wsdl:portType name="TestPortType">
<wsdl:operation name="TestOperation1">
<wsdl:input message="dummyRequest"/>
<wsdl:output message="dummyResponseSimple"/>
</wsdl:operation>
<wsdl:operation name="TestOperation2">
<wsdl:input message="dummyRequest"/>
<wsdl:output message="dummyResponseComplex"/>
</wsdl:operation>
</wsdl:portType>
<wsdl:binding name="TestBinding" type="tns:TestPortType">
<soap:binding style="document" transport="http://schemas.xmlsoap.org/soap/http"/>
<wsdl:operation name="TestOperation1">
<soap:operation soapAction="urn:dummyRequest"/>
<wsdl:input>
<soap:body use="literal"/>
</wsdl:input>
<wsdl:output>
<soap:body use="literal"/>
</wsdl:output>
</wsdl:operation>
<wsdl:operation name="TestOperation2">
<soap:operation soapAction="urn:dummyRequest"/>
<wsdl:input>
<soap:body use="literal"/>
</wsdl:input>
<wsdl:output>
<soap:body use="literal"/>
</wsdl:output>
</wsdl:operation>
</wsdl:binding>
<wsdl:service name="TestService">
<wsdl:documentation>Test service</wsdl:documentation>
<wsdl:port name="TestPortType" binding="tns:TestBinding">
<soap:address location="http://tests.python-zeep.org/test"/>
</wsdl:port>
</wsdl:service>
</wsdl:definitions>
""".strip())
client = Client(wsdl_main, transport=Transport())
service = client.create_service(
"{http://tests.python-zeep.org/xsd-main}TestBinding",
"http://tests.python-zeep.org/test")
content_type = 'multipart/related; boundary="boundary"; type="application/xop+xml"; start="<soap:Envelope>"; start-info="application/soap+xml; charset=utf-8"'
response1 = '\r\n'.join(line.strip() for line in """
Content-Type: application/xop+xml; charset=utf-8; type="application/soap+xml"
Content-Transfer-Encoding: binary
Content-ID: <soap:Envelope>
<?xml version="1.0" encoding="UTF-8"?>
<soap:Envelope
xmlns:soap="http://schemas.xmlsoap.org/soap/envelope/"
xmlns:xop="http://www.w3.org/2004/08/xop/include"
xmlns:test="http://tests.python-zeep.org/xsd-main">
<soap:Body>
<test:resultSimple>
<test:BinaryData>
<xop:Include href="cid:id4"/>
</test:BinaryData>
</test:resultSimple>
</soap:Body>
</soap:Envelope>
--boundary
Content-Type: application/binary
Content-Transfer-Encoding: binary
Content-ID: <id4>
BINARYDATA
--boundary--
""".splitlines())
response2 = '\r\n'.join(line.strip() for line in """
Content-Type: application/xop+xml; charset=utf-8; type="application/soap+xml"
Content-Transfer-Encoding: binary
Content-ID: <soap:Envelope>
<?xml version="1.0" encoding="UTF-8"?>
<soap:Envelope
xmlns:soap="http://schemas.xmlsoap.org/soap/envelope/"
xmlns:xop="http://www.w3.org/2004/08/xop/include"
xmlns:test="http://tests.python-zeep.org/xsd-main">
<soap:Body>
<test:resultComplex>
<test:BinaryData>
<xop:Include href="cid:id4"/>
</test:BinaryData>
</test:resultComplex>
</soap:Body>
</soap:Envelope>
--boundary
Content-Type: application/binary
Content-Transfer-Encoding: binary
Content-ID: <id4>
BINARYDATA
--boundary--
""".splitlines())
print(response1)
with requests_mock.mock() as m:
m.post('http://tests.python-zeep.org/test',
content=response2.encode("utf-8"),
headers={"Content-Type": content_type})
result = service.TestOperation2("")
assert result["_value_1"] == "BINARYDATA".encode()
m.post(
'http://tests.python-zeep.org/test',
content=response1.encode("utf-8"),
headers={"Content-Type": content_type})
result = service.TestOperation1("")
assert result == "BINARYDATA".encode()
def _get_cliente_sigep():
global _cliente_sigep
if _cliente_sigep is None:
_cliente_sigep = Client(_URL_SIGEP)
return _cliente_sigep
def _get_item(self):
return Client(self.wsfex.url).get_type('ns0:Item')
def _get_item_array(self):
return Client(self.wsfex.url).get_type('ns0:ArrayOfItem')
def _get_document_request(self):
return Client(self.wsfex.url).type_factory('ns0').ClsFEXRequest()
# CERT = 'changeme.pem'
# session.verify = CERT
session.auth = HTTPBasicAuth(creds.USERNAME, creds.PASSWORD)
transport = Transport(session=session, timeout=10)
# strict=False is not always necessary, but it allows zeep to parse imperfect XML
settings = Settings(strict=False, xml_huge_tree=True)
# If debug output is requested, add the MyLoggingPlugin callback
plugin = [MyLoggingPlugin()] if DEBUG else []
# Create the Zeep client with the specified settings
client = Client(WSDL_FILE,
settings=settings,
transport=transport,
plugins=plugin)
# Create the Zeep service binding to AXL at the specified CUCM
service = client.create_service(
"{http://www.cisco.com/AXLAPIService/}AXLAPIBinding",
'https://{cucm}:8443/axl/'.format(cucm=creds.CUCM_ADDRESS))
# Add testPartition1
partition_data = {'name': PARTITION1_NAME}
try:
resp = service.addRoutePartition(partition_data)
except Fault as err:
print('Zeep error: addRoutePartition (1 of 2): {err}'.format(err=err))
else:
import os
import string
from hashlib import sha1
from bson import ObjectId
from flask import request, abort, jsonify, Blueprint
from pymongo import MongoClient
from zeep import Client
MONGO_HOST = os.environ.get('MONGO_HOST')
USAEPAY_KEY = os.environ.get('USAEPAY_KEY')
USAEPAY_PIN = os.environ.get('USAEPAY_PIN')
USAEPAY_WSDL = os.environ.get('USAEPAY_WSDL')
usaepay_client = Client(USAEPAY_WSDL)
factory = usaepay_client.type_factory('ns0')
mongo_cli = MongoClient(host=MONGO_HOST)
bp_payment = Blueprint('payment', __name__)
def build_token():
"""Create the request token."""
client_ip = '74.71.168.169'
seed = string.ascii_lowercase
apikey = USAEPAY_KEY
apipin = USAEPAY_PIN
prehash = (apikey + seed + apipin).encode('utf-8')
pinhash = str(sha1(prehash).hexdigest())
euhash = factory.ueHash(HashValue=pinhash, Seed=seed, Type='sha1')
token = factory.ueSecurityToken(ClientIP=client_ip,
def legislation_categories(self):
categories = []
for category in Client(
_make_client_url(keyword='Legislation')).service.GetTitles():
categories.append(Category(category_data=category))
return categories
from urllib3 import disable_warnings
from urllib3.exceptions import InsecureRequestWarning
from lxml import etree
import getpass
# CUCM HostName/ IP Address
host = input("CUCM Hostname:")
# WSDL Service location download AXLToolKit from Call Manager
wsdl = input("WSDL Service path:")
# UserName and Password
user = input("Username: "******"{http://www.cisco.com/AXLAPIService/}AXLAPIBinding"
session = Session()
session.verify = False
session.auth = HTTPBasicAuth(user, pwd)
transport = Transport(cache=SqliteCache(), session=session, timeout=20)
history = HistoryPlugin()
client = Client(wsdl=wsdl, transport=transport, plugins=[history])
service = client.create_service(binding, location)
# user id on CUCM
username = input("Username ID:")
try:
response = service.getUser(userid=username)
print(response)
except Exception as e:
print(str(e))
property['RawValue'] = '{masked}'
if (property['Formatted'] != None):
property['Formatted'] = '{masked}'
property['Creator'] = '{masked}'
# Main
#
# Consume WSDL and generate soap structures
try:
session = Session()
if (args.nosslverify):
session.verify = False
session.sslverify = False
transport = DebugTransport(cache=SqliteCache(), session=session)
wudetails = Client(wudetailsservice_wsdl_url, transport=transport)
except:
logging.critical ('Unable to obtain WSDL from ' +wudetailsservice_wsdl_url)
raise
try:
scopeFilter = wudetails.get_type('ns0:WUScopeFilter')
nestedFilter = wudetails.get_type('ns0:WUNestedFilter')
propertiesToReturn = wudetails.get_type('ns0:WUPropertiesToReturn')
scopeOptions = wudetails.get_type('ns0:WUScopeOptions')
propertyOptions = wudetails.get_type('ns0:WUPropertyOptions')
extraProperties = wudetails.get_type('ns0:WUExtraProperties')
except:
logging.critical ('WSDL different from expected')
raise
class NetSuiteClient:
"""The Netsuite client class providing access to the Netsuite
SOAP/WSDL web service"""
WSDL_URL_TEMPLATE = 'https://{account}.suitetalk.api.netsuite.com/wsdl/v2019_1_0/netsuite.wsdl'
DATACENTER_URL_TEMPLATE = 'https://{account}.suitetalk.api.netsuite.com/services/NetSuitePort_2019_1'
_search_preferences = None
_passport = None
_account = None
# Used by TBA
_consumer_key = None
_consumer_secret = None
_token_key = None
_token_secret = None
_app_id = None
def __init__(self, account=None, caching=None):
"""
Initialize the Zeep SOAP client, parse the xsd specifications
of Netsuite and store the complex types as attributes of this
instance.
:param str account: Account ID to connect to
:param dict caching: The available cache settings are the following
caching['enable'] bool: Indicates if
caching['timeout'] int: Timeout in seconds for caching. If None, defaults to 30 days
caching['path'] str: The path to store the database files
caching['engine'] str: The Database engine used for caching.
"""
self.logger = logging.getLogger(self.__class__.__name__)
assert account, 'Invalid account'
assert '-' not in account, 'Account cannot have hyphens, it is likely an underscore'
self._account = account
self._wsdl_url = self.WSDL_URL_TEMPLATE.format(
account=account.replace('_', '-'))
self._datacenter_url = self.DATACENTER_URL_TEMPLATE.format(
account=account.replace('_', '-'))
if caching is None:
caching = {}
# Make sure that caching argument is an instance of dict
assert isinstance(
caching, dict), '"caching" argument must be an instance of dict'
# Allowed cache setting keys
allowed_cache_settings = ['enable', 'engine', 'timeout', 'path']
allowed_cache_engines = ['sqlite']
# Default cache settings
cache_settings = {
'enable': True,
'engine': 'sqlite',
'timeout': 2592000,
'path': os.path.dirname(os.path.abspath(__file__))
}
# Filter out user input and get only the allowed keys
cache_settings_input = {
key: caching[key]
for key in caching if key in allowed_cache_settings
}
# Merge default cache settings with input cache settings
cache_settings.update(cache_settings_input)
# Default transport set to None
transport = None
if cache_settings['enable']:
# Make sure that provided cache engine is allowed
assert cache_settings['engine'] in allowed_cache_engines, \
f'Cache engine "{cache_settings["engine"]}" is not available. You can use one of the following engines: ' + ','.join(allowed_cache_engines)
path = os.path.join(cache_settings['path'], 'cache.db')
timeout = cache_settings['timeout']
# Sqlite cache engine
if cache_settings['engine'] == 'sqlite':
cache = SqliteCache(path=path, timeout=timeout)
transport = Transport(cache=cache)
# Initialize the Zeep Client
self._client = Client(self._wsdl_url, transport=transport)
# default service points to wrong data center. need to create a new service proxy and replace the default one
self._service_proxy = self._client.create_service(
'{urn:platform_2019_1.webservices.netsuite.com}NetSuiteBinding',
self._datacenter_url)
# Parse all complex types specified in :const:`~netsuitesdk.netsuite_types.COMPLEX_TYPES`
# and store them as attributes of this instance. Same for simple types.
self._namespaces = {}
self._init_complex_types()
self._init_simple_types()
self._app_info = None
self._is_authenticated = False
self.set_search_preferences()
def set_search_preferences(self,
page_size: int = 5,
return_search_columns: bool = False):
self._search_preferences = self.SearchPreferences(
bodyFieldsOnly=False,
pageSize=page_size,
returnSearchColumns=return_search_columns)
def _init_complex_types(self):
self._complex_types = {}
for namespace, complex_types in COMPLEX_TYPES.items():
if not namespace in self._namespaces:
self._namespaces[namespace] = []
for type_name in complex_types:
try:
verbose_type_name = '{namespace}:{type_name}'.format(
namespace=namespace, type_name=type_name)
complex_type = self._client.get_type(verbose_type_name)
except ZeepLookupError:
self.logger.warning(
'LookupError: Did not find complex type {}'.format(
type_name))
else:
setattr(self, type_name, complex_type)
self._complex_types[type_name] = complex_type
self._namespaces[namespace].append(complex_type)
def _init_simple_types(self):
self._simple_types = {}
for namespace, simple_types in SIMPLE_TYPES.items():
if not namespace in self._namespaces:
self._namespaces[namespace] = []
for type_name in simple_types:
try:
verbose_type_name = '{namespace}:{type_name}'.format(
namespace=namespace, type_name=type_name)
simple_type = self._client.get_type(verbose_type_name)
except ZeepLookupError:
self.logger.warning(
'LookupError: Did not find simple type {}'.format(
type_name))
else:
setattr(self, type_name, simple_type)
self._simple_types[type_name] = simple_type
self._namespaces[namespace].append(simple_type)
def get_complex_type(self, type_name):
# if ':' in type_name:
# namespace, type_name = type_name.split(':')
# namespace_index = namespace[2:]
return self._complex_types[type_name]
def get_simple_type(self, type_name):
return self._simple_types[type_name]
def get_complex_type_attributes(self, complex_type):
if isinstance(complex_type, str):
complex_type = self.get_complex_type(complex_type)
try:
return [(attribute.name, attribute.type.name)
for attribute in complex_type._attributes]
except AttributeError:
return []
def get_complex_type_elements(self, complex_type):
if isinstance(complex_type, str):
complex_type = self.get_complex_type(complex_type)
try:
return [(attr_name, element.type.name)
for attr_name, element in complex_type.elements]
except AttributeError:
return []
def get_complex_type_info(self, complex_type):
if isinstance(complex_type, str):
complex_type = self.get_complex_type(complex_type)
label = complex_type
else:
if hasattr(complex_type, 'name'):
label = complex_type.name
else:
label = str(complex_type)
attributes = self.get_complex_type_attributes(complex_type)
elements = self.get_complex_type_elements(complex_type)
yield 'complexType {}:'.format(label)
if attributes:
yield 'Attributes:'
for name, type_name in attributes:
yield '\t{}: {}'.format(name, type_name)
else:
yield 'No attributes'
if elements:
yield 'Elements:'
for name, type_name in elements:
yield '\t{}: {}'.format(name, type_name)
else:
yield 'No elements'
def login(self, email, password, role, application_id):
"""
Authenticate and login user for a Netsuite session. The passport argument is
of type Passport(email, password, role and account) which holds the credentials
and can be created with NetSuiteClient.create_password.
:param int applicationId: All requests done in this session will be identified
with this application id.
:param Passport passport: holds the credentials to authenticate the user.
:return: the login response which contains the response status and user roles
:rtype: LoginResponse
:raises :class:`~netsuitesdk.exceptions.NetSuiteLoginError`: if login was not successful. Possible codes
are: InsufficientPermissionFault, InvalidAccountFault, InvalidSessionFault,
InvalidCredentialsFault and UnexpectedErrorFault
"""
role = self.RecordRef(internalId=role)
self._passport = self.Passport(email=email,
password=password,
role=role,
account=self._account)
if self._is_authenticated:
self.logout()
try:
self._app_info = self.ApplicationInfo(applicationId=application_id)
response = self._service_proxy.login(
self._passport,
_soapheaders={'applicationInfo': self._app_info})
if response.status.isSuccess:
self._is_authenticated = True
return response
else:
statusDetail = response.status['statusDetail'][0]
exc = self._request_error('login',
detail=statusDetail,
error_cls=NetSuiteLoginError)
raise exc
except Fault as fault:
exc = NetSuiteLoginError(str(fault), code=fault.code)
raise exc from None
def _generate_token_passport(self):
def compute_nonce(length=20):
"""pseudo-random generated numeric string"""
return ''.join([str(random.randint(0, 9)) for i in range(length)])
nonce = compute_nonce(length=20)
timestamp = int(time.time())
key = '{}&{}'.format(self._consumer_secret, self._token_secret)
base_string = '&'.join([
self._account, self._consumer_key, self._token_key, nonce,
str(timestamp)
])
key_bytes = key.encode(encoding='ascii')
message_bytes = base_string.encode(encoding='ascii')
# compute the signature
if self._signature_algorithm == 'HMAC-SHA256':
# hash
hashed_value = hmac.new(key_bytes,
msg=message_bytes,
digestmod=hashlib.sha256)
elif self._signature_algorithm == 'HMAC-SHA1':
hashed_value = hmac.new(key_bytes,
msg=message_bytes,
digestmod=hashlib.sha1)
else:
raise NetSuiteError(
"signature_algorithm needs to be one of 'HMAC-SHA256', 'HMAC-SHA1'"
)
dig = hashed_value.digest()
# convert dig (a byte sequence) to a base 64 string
value = base64.b64encode(dig).decode()
signature = self.TokenPassportSignature(
value, algorithm=self._signature_algorithm)
return self.TokenPassport(account=self._account,
consumerKey=self._consumer_key,
token=self._token_key,
nonce=nonce,
timestamp=timestamp,
signature=signature)
def connect_tba(self,
consumer_key,
consumer_secret,
token_key,
token_secret,
signature_algorithm='HMAC-SHA1'):
"""
Create a TokenPassport object holding credentials for Token based
authentication which will be passed to NetSuiteClient.login
:param str account: the NetSuite account ID
:param str consumer_key: the consumer key for the integration record
:param str consumer_secret: the consumer secret
:param str token_key: a string identifier of a token representing a
unique combination of a user, a role and an integration record
:param str token_secret: the token secret
:param str signature_algorithm: algorithm to compute the signature value (a hashed value),
choices are 'HMAC-SHA256' or 'HMAC-SHA1'
"""
self._consumer_key = consumer_key
self._consumer_secret = consumer_secret
self._token_key = token_key
self._token_secret = token_secret
self._signature_algorithm = signature_algorithm
@property
def logged_in(self):
return self._is_authenticated
def logout(self):
if not self._is_authenticated:
return
response = self._service_proxy.logout()
self._is_authenticated = False
self._consumer_key = None
self._consumer_secret = None
self._token_key = None
self._token_secret = None
return response.status
def _request_error(self, service_name, detail, error_cls=None):
if error_cls is None:
error_cls = NetSuiteRequestError
exc = error_cls(
"An error occured in a {service_name} request: {msg}".format(
service_name=service_name, msg=detail['message']),
code=detail['code'])
# self.logger.error(str(exc))
return exc
def _build_soap_headers(self, include_search_preferences: bool = False):
"""
Generate soap headers dictionary to send with a request
:param Passport passport: holds the authentication credentials
:param TokenPassport tokenPassport: holds the token based authentication details
:param ApplicationInfo applicationInfo: contains the application Id
:return: the dictionary representing the headers
:rtype: dict
:raises :class:`~netsuitesdk.exceptions.NetSuiteError`: if user is neither logged in nor a passport or tokenPassport was passed
"""
soapheaders = {}
if self._is_authenticated:
# User is already logged in, so there is no
# need to pass authentication details in the header
pass
elif self._consumer_key is not None:
soapheaders['tokenPassport'] = self._generate_token_passport()
elif self._passport is not None:
soapheaders['passport'] = self._passport
else:
raise NetSuiteError(
'Must either login first or pass passport or tokenPassport to request header.'
)
if include_search_preferences:
soapheaders['searchPreferences'] = self._search_preferences
return soapheaders
def request(self, name, *args, **kwargs):
"""
Make a NetSuite web service request
:param str name: the name of the request service ('get', 'search', ...)
:return: the request response object
:rtype: the exact type depends on the request
"""
method = getattr(self._service_proxy, name)
# call the service:
include_search_preferences = (name == 'search')
response = method(
*args,
_soapheaders=self._build_soap_headers(
include_search_preferences=include_search_preferences),
**kwargs)
return response
def get(self, recordType, internalId=None, externalId=None):
"""
Make a get request to retrieve an object of type recordType
specified by either internalId or externalId
:param str recordType: the complex type (e.g. 'vendor')
:param int internalId: id specifying the record to be retrieved
:param str externalId: str specifying the record to be retrieved
:return: the matching record in case of success
:rtype: Record
:raises ValueError: if neither internalId nor externalId was passed
"""
recordType = recordType[0].lower() + recordType[1:]
if internalId is not None:
record_ref = self.RecordRef(type=recordType, internalId=internalId)
elif externalId is not None:
record_ref = self.RecordRef(type=recordType, externalId=externalId)
else:
raise ValueError(
'Either internalId or externalId is necessary to make a get request.'
)
response = self.request('get', baseRef=record_ref)
response = response.body.readResponse
status = response.status
if status.isSuccess:
record = response['record']
return record
else:
exc = self._request_error('get', detail=status['statusDetail'][0])
raise exc
def getAll(self, recordType):
"""
Make a getAll request to retrieve all objects of type recordType.
All NetSuite types available for a search
are listed under :const:`constants.GET_ALL_RECORD_TYPES`.
:param str recordType: the complex type (e.g. 'vendor')
:param int internalId: id specifying the record to be retrieved
:param str externalId: str specifying the record to be retrieved
:return: the matching record in case of success
:rtype: Record
"""
recordType = recordType[0].lower() + recordType[1:]
record = self.GetAllRecord(recordType=recordType)
response = self.request('getAll', record=record)
response = response.body.getAllResult
status = response.status
if status.isSuccess:
records = response['recordList']['record']
return records
else:
exc = self._request_error('getAll',
detail=status['statusDetail'][0])
raise exc
def search_factory(self, type_name, **kwargs):
_type_name = type_name[0].lower() + type_name[1:]
if not _type_name in SEARCH_RECORD_TYPES:
raise NetSuiteTypeError(
'{} is not a searchable NetSuite type!'.format(type_name))
search_cls_name = '{}Search'.format(type_name)
search_cls = self.get_complex_type(search_cls_name)
search_record = search_cls(**kwargs)
return search_record
def basic_search_factory(self, type_name, **kwargs):
_type_name = type_name[0].lower() + type_name[1:]
if not _type_name in SEARCH_RECORD_TYPES:
raise NetSuiteTypeError(
'{} is not a searchable NetSuite type!'.format(type_name))
basic_search_cls_name = '{}SearchBasic'.format(type_name)
basic_search_cls = self.get_complex_type(basic_search_cls_name)
basic_search = basic_search_cls()
for key, value in kwargs.items():
setattr(basic_search, key, value)
return basic_search
def search(self, searchRecord):
"""
Make a search request to retrieve an object of type recordType
specified by internalId. All NetSuite types available for a search
are listed under :const:`constants.SEARCH_RECORD_TYPES`.
:param Record searchRecord: data object holding all parameters for the search.
The utility function `search_factory` can be used to create one.
:return: result records and meta data about search result
:rtype: SearchResult(type):
int totalRecords: total number of records
int pageSize: number of records per page
int totalPages: number of pages
int pageIndex: index of actual returned result page
str searchId: identifier for the search
list records: the actual records found
"""
response = self.request('search', searchRecord=searchRecord)
result = response.body.searchResult
status = result.status
success = status.isSuccess
if success:
if hasattr(result.recordList, 'record'):
result.records = result.recordList.record
return result
else:
# Did not find anything
result.records = None
return result
else:
exc = self._request_error('search',
detail=status['statusDetail'][0])
raise exc
def searchMoreWithId(self, searchId, pageIndex):
response = self.request('searchMoreWithId',
searchId=searchId,
pageIndex=pageIndex)
result = response.body.searchResult
status = result.status
success = status.isSuccess
if success:
result.records = result.recordList.record
return result
else:
exc = self._request_error('searchMoreWithId',
detail=status['statusDetail'][0])
raise exc
def upsert(self, record):
"""
Add an object of type recordType with given externalId..
If a record of specified type with matching externalId already
exists, it is updated.
Usage example:
customer = self.Customer()
customer.externalId = 'customer_id'
customer.companyName = 'Test Inc.'
customer.email = '*****@*****.**'
self.upsert(record=customer)
:param str recordType: the complex type (e.g. either 'Customer' or 'vendors')
:param str externalId: str specifying the record to be retrieved
:return: a reference to the newly created or updated record (in case of success)
:rtype: RecordRef
"""
response = self.request('upsert', record=record)
response = response.body.writeResponse
status = response.status
if status.isSuccess:
record_ref = response['baseRef']
self.logger.debug(
'Successfully updated record of type {type}, internalId: {internalId}, externalId: {externalId}'
.format(type=record_ref['type'],
internalId=record_ref['internalId'],
externalId=record_ref['externalId']))
return record_ref
else:
exc = self._request_error('upsert',
detail=status['statusDetail'][0])
raise exc
class GPWebService(object):
"""Class for interacting with MS Dynamics GP Web Services"""
def __init__(self):
if settings.GP_WS_ENABLED:
cache = SqliteCache(timeout=30 * 24 * 60 * 60)
session = Session()
session.auth = HttpNtlmAuth(
settings.GP_WS_USERNAME, settings.GP_WS_PASSWORD)
self.client = Client(
settings.GP_WS_URL,
transport=Transport(session=session, cache=cache)
)
self.ws_factory1 = self.client.type_factory('ns1')
self.ws_factory2 = self.client.type_factory('ns2')
company = self.ws_factory2.CompanyKey(settings.GP_COMPANY_ID)
self.service_context = self.ws_factory2.Context(
OrganizationKey=company,
CurrencyType='Local'
)
def get_item_by_id(self, item_id):
if settings.GP_WS_ENABLED:
return self.client.service.GetItemByKey(
key=self.ws_factory1.ItemKey(Id=item_id),
context=self.service_context
)
else:
return {'Description': 'Product Description Here'}
def get_invoice_list(self, customer_id):
if settings.GP_WS_ENABLED:
criteria = {
'TransactionState': self.ws_factory1.ListRestrictionOfNullableOfSalesTransactionState(
'Work'),
'CustomerId': self.ws_factory1.LikeRestrictionOfString(
customer_id),
'Scope': 'Return All'
}
return self.client.service.GetSalesInvoiceList(
criteria=criteria, context=self.service_context) or []
else:
return [{
'Key': {
'CompanyKey': {
'Id': 2
},
'Id': '092306'
},
}]
def get_invoice_detail(self, invoice_id):
if settings.GP_WS_ENABLED:
return self.client.service.GetSalesInvoiceByKey(
key={'Id': invoice_id}, context=self.service_context)
else:
return {
'Key': {
'CompanyKey': {
'Id': 2L
},
'Id': '092306'
},
'BatchKey': {
'CompanyKey': {
'Id': 1L
},
'Source': 'Sales Entry',
'Id': 'Transfer 02/24',
'CreatedDateTime': datetime.datetime(1900, 1, 1, 0, 0)
},
'Type': 'Invoice',
'Date': datetime.datetime(2017, 2, 8, 0, 0),
'CustomerName': 'Texas Education Agency',
'CustomerPONumber': '00001251811',
'RequestedShipDate': datetime.datetime(2017, 1, 25, 0, 0),
'Comment': 'We Appreciate Your Business',
'LineTotalAmount': {
'Currency': 'USD',
'Value': Decimal('2120.00000'),
'DecimalDigits': 2L
},
'TotalAmount': {
'Currency': 'USD',
'Value': Decimal('2120.00000'),
'DecimalDigits': 2L
},
'ActualShipDate': datetime.datetime(2017, 2, 6, 0, 0),
'InvoiceDate': datetime.datetime(2017, 2, 8, 0, 0),
'OriginalSalesDocumentKey': {
'CompanyKey': None,
'Id': 'TEA0000125614'
},
'ShipToAddressKey': {
'CompanyKey': {
'Id': 2L
},
'CustomerKey': {
'CompanyKey': {
'Id': 2L
},
'Id': '7TEX701'
},
'Id': '187906'
},
'ShipToAddress': {
'Extensions': None,
'Line1': 'Breanna Murphy [email protected]',
'Line2': 'Leggett High School',
'Line3': 'P.O. Box 68',
'City': 'Leggett',
'State': 'TX',
'PostalCode': '77350',
'CountryRegion': 'United States',
},
'UserDefined': {
'Date01': datetime.datetime(2017, 2, 8, 0, 0),
'Date02': None,
'List01': '1',
'List02': '12.00',
'List03': None,
'Text01': '5',
'Text02': None,
'Text03': '0000123394',
'Text04': '0000141474',
'Text05': '1z79x8540353316852'
},
'Lines': {
'SalesInvoiceLine': [
{
'UnitPrice': {
'Currency': 'USD',
'Value': Decimal('801.00000'),
'DecimalDigits': 2
},
'TotalAmount': {
'Currency': 'USD',
'Value': Decimal('801.00000'),
'DecimalDigits': 2
},
'Quantity': {
'Value': Decimal('1.00000'),
'DecimalDigits': 0
},
'Discount': {
'Amount': None,
'Percent': {
'Value': Decimal('0'),
'DecimalDigits': 2L
}
},
'ItemDescription': 'Some Product Description',
'UofM': 'Each',
'ItemKey': {
'CompanyKey': {
'Id': 2L
},
'Id': '9781603339056'
},
},
]
},
}
def __init__(self, account=None, caching=None):
"""
Initialize the Zeep SOAP client, parse the xsd specifications
of Netsuite and store the complex types as attributes of this
instance.
:param str account: Account ID to connect to
:param dict caching: The available cache settings are the following
caching['enable'] bool: Indicates if
caching['timeout'] int: Timeout in seconds for caching. If None, defaults to 30 days
caching['path'] str: The path to store the database files
caching['engine'] str: The Database engine used for caching.
"""
self.logger = logging.getLogger(self.__class__.__name__)
assert account, 'Invalid account'
assert '-' not in account, 'Account cannot have hyphens, it is likely an underscore'
self._account = account
self._wsdl_url = self.WSDL_URL_TEMPLATE.format(
account=account.replace('_', '-'))
self._datacenter_url = self.DATACENTER_URL_TEMPLATE.format(
account=account.replace('_', '-'))
if caching is None:
caching = {}
# Make sure that caching argument is an instance of dict
assert isinstance(
caching, dict), '"caching" argument must be an instance of dict'
# Allowed cache setting keys
allowed_cache_settings = ['enable', 'engine', 'timeout', 'path']
allowed_cache_engines = ['sqlite']
# Default cache settings
cache_settings = {
'enable': True,
'engine': 'sqlite',
'timeout': 2592000,
'path': os.path.dirname(os.path.abspath(__file__))
}
# Filter out user input and get only the allowed keys
cache_settings_input = {
key: caching[key]
for key in caching if key in allowed_cache_settings
}
# Merge default cache settings with input cache settings
cache_settings.update(cache_settings_input)
# Default transport set to None
transport = None
if cache_settings['enable']:
# Make sure that provided cache engine is allowed
assert cache_settings['engine'] in allowed_cache_engines, \
f'Cache engine "{cache_settings["engine"]}" is not available. You can use one of the following engines: ' + ','.join(allowed_cache_engines)
path = os.path.join(cache_settings['path'], 'cache.db')
timeout = cache_settings['timeout']
# Sqlite cache engine
if cache_settings['engine'] == 'sqlite':
cache = SqliteCache(path=path, timeout=timeout)
transport = Transport(cache=cache)
# Initialize the Zeep Client
self._client = Client(self._wsdl_url, transport=transport)
# default service points to wrong data center. need to create a new service proxy and replace the default one
self._service_proxy = self._client.create_service(
'{urn:platform_2019_1.webservices.netsuite.com}NetSuiteBinding',
self._datacenter_url)
# Parse all complex types specified in :const:`~netsuitesdk.netsuite_types.COMPLEX_TYPES`
# and store them as attributes of this instance. Same for simple types.
self._namespaces = {}
self._init_complex_types()
self._init_simple_types()
self._app_info = None
self._is_authenticated = False
self.set_search_preferences()
def main():
global fiasfile
global oldfiasfile
global config
fiasfile = '.\\update\\full\\fias_dbf.rar'
oldfiasfile = '.\\update\\full\\fias_dbf.old.rar'
wsdl = 'http://fias.nalog.ru/WebServices/Public/DownloadService.asmx?WSDL'
# ссылка на сервис получения обновлений сайт Налоговой
config = ConfigObj('fias.cfg', encoding='UTF8')
use_proxy = config.get('Proxy').as_bool('use_proxy')
if use_proxy:
proxy_list = config['Proxy']['Proxy']
# proxy = {'http': 'http://' + proxy_list}
proxy = {'http': 'http://' + proxy_list, 'https': 'https://' + proxy_list}
session = Session()
session.verify = False
session.proxies = proxy
transport = Transport(session=session)
client = Client(wsdl=wsdl, transport=transport)
else:
client = Client(wsdl=wsdl)
maxdeltaupdate = int(config['Update']['maxdeltaupdate'])
if maxdeltaupdate != 0: # при 0 не используем любое количество delta обновлений
currentdeltaupdate = len(os.listdir('.\\update\\delta\\'))
if currentdeltaupdate > maxdeltaupdate:
# необходимо закачать полную базу и удалить дельты
isRen = False
if len(os.listdir(".\\update\\full")) != 0:
isRen = True
fiasfile = ".\\update\\full\\" + os.listdir(".\\update\\full")[0]
oldfiasfile = fiasfile + '.old'
os.rename(fiasfile, oldfiasfile)
try:
if download_fias_full(use_proxy, proxy):
os.remove(oldfiasfile)
del_delta_update()
else:
os.rename(oldfiasfile, fiasfile)
except Exception as inst:
if isRen:
os.rename(oldfiasfile, fiasfile)
print(inst)
return
else:
# делаем все проверки
if config['Update']['fullbase'] == '':
# в конфиге дата отсутствует. Надо брать полную последнюю базу
if len(os.listdir(".\\update\\full")) != 0:
# в каталоге полной базы есть файлы
if os.path.isfile('.\\update\\full\\fias_dbf.rar'):
# получаем размер локального файла
localfilesize = os.path.getsize('.\\update\\full\\fias_dbf.rar')
# на диске есть файл fias_dbf.rar - определяем за какую он дату
spisok = client.service.GetAllDownloadFileInfo()
# rint(spisok)
check_fias = False
for row in spisok:
remotefilesize = getRemoteFileLength(row.FiasCompleteDbfUrl, use_proxy, proxy)
if localfilesize == remotefilesize:
# нашли дату
check_fias = True
du = datetime.datetime.strptime((row.FiasCompleteDbfUrl).split('/')[-2], "%Y%m%d").date()
config['Update']['fullbase'] = du.strftime("%Y%m%d")
config.write()
break
if check_fias:
# нашли дату полной базы для файла на диске
print('нашли дату полной базы для файла на диске ' + du.strftime("%Y%m%d"))
get_delta(spisok, du, use_proxy, proxy)
else:
# не нашли дату полной базы для файла на диске
print('не нашли дату полной базы для файла на диске')
else:
print('файл есть но он не fias_dbf.rar')
else:
# Скачиваем файл http://fias.nalog.ru/Public/Downloads/Actual/VerDate.txt определяем дату полной базы
if os.path.isfile('.\\update\\VerDate.txt'):
os.remove('.\\update\\VerDate.txt')
str_lastupdatedate = open(getFile('http://fias.nalog.ru/Public/Downloads/Actual/VerDate.txt', use_proxy, '.\\update\\', proxy), 'r').read()
d_lastupdate = datetime.datetime.strptime(str_lastupdatedate, "%d.%m.%Y").date()
sd = d_lastupdate.strftime("%Y%m%d")
# в каталоге с архивом полной базы файлов нет. Берем качаем последнюю доступную
url_fb = 'http://fias.nalog.ru/Public/Downloads/Actual/fias_dbf.rar'
remotefilesize = getRemoteFileLength(url_fb, use_proxy, proxy)
getFile(url_fb, use_proxy, '.\\update\\full\\', proxy, '.' + sd + '.tmp')
# localfilesize = os.path.getsize(getFile(url_fb, use_proxy, '.\\update\\full\\', proxy, '.' + sd + '.tmp'))
if os.path.isfile('.\\update\\full\\fias_dbf.rar'):
print('скачали полную базу ФИАС за %s' % d_lastupdate.strftime("%d/%m/%Y"))
config['Update']['fullbase'] = sd
config.write()
else:
print('не скачали полностью полную базу ФИАС за %s' % d_lastupdate.strftime("%d/%m/%Y"))
# print(os.listdir(".\\update\\full"))
else:
# есть в конфиге последняя дата. Надо проверить нахождение файла на диске
# дальше приступаем к проверке дельта обновлений
full_base_update_date = datetime.datetime.strptime(config['Update']['fullbase'], '%Y%m%d').date()
if os.path.isfile('.\\update\\full\\fias_dbf.rar'):
localfilesize = os.path.getsize('.\\update\\full\\fias_dbf.rar')
# 'http://fias.nalog.ru/Public/Downloads/20180705/fias_dbf.rar'
remotefilesize = getRemoteFileLength('http://fias.nalog.ru/Public/Downloads/' + full_base_update_date.strftime("%Y%m%d") + '/fias_dbf.rar', use_proxy, proxy)
if localfilesize == remotefilesize:
# размер локального и удаленного файла совпадают
spisok = client.service.GetAllDownloadFileInfo()
# качаем дельты, если они есть
get_delta(spisok, full_base_update_date, use_proxy, proxy)
else:
# размер локального и удаленного файла не совпадают
isRen = False
if len(os.listdir(".\\update\\full")) != 0:
isRen = True
fiasfile = ".\\update\\full\\" + os.listdir(".\\update\\full")[0]
oldfiasfile = fiasfile + '.old'
os.rename(fiasfile, oldfiasfile)
try:
if download_fias_full(use_proxy, proxy):
os.remove(oldfiasfile)
del_delta_update()
else:
os.rename(oldfiasfile, fiasfile)
except Exception as inst:
if isRen:
os.rename(oldfiasfile, fiasfile)
print(inst)
def login(request):
logfile = open('AuthServerLog.txt', 'a')
time = datetime.now()
# print login post to the logfile
print("login post " + str(time), file=logfile)
# get data from the json posted to the method
try:
decoded = request.body.decode('utf-8')
response = json.loads(decoded)
username = response['username']
password = response['password']
except (KeyError, json.JSONDecodeError) as err:
print("400 bad credentials " + str(err) + " " + str(time),
file=logfile)
logfile.close()
return JsonResponse(data={
"reason":
"Your data is not formatted the proper way",
"helper":
"[POST] at /login and then a JSON formatted like this, " +
"{'username':'******','password':'******'}"
},
status=status.HTTP_400_BAD_REQUEST)
except RuntimeError:
print("500 internal server error when decoding json" + str(time),
file=logfile)
logfile.close()
return JsonResponse(data={
"reason": "There was an internal server error",
"helper": "Contact group 20"
},
status=status.HTTP_500_INTERNAL_SERVER_ERROR)
# Create a soap client object
url = 'http://javabog.dk:9901/brugeradmin?wsdl'
# try and get the userobject from javabog.dk
try:
client = Client(url)
# Get user and create token
response = client.service.hentBruger(username, password)
# create the userobject for GameService
user_object = {
'player': {
"username": response["brugernavn"],
"first_name": response["fornavn"],
"last_name": response["efternavn"],
"email": response["email"],
"study_programme": response["studeretning"],
"high_score": 0
}
}
# create the user_token. This should be exchanged for a creation of a JWT.
user_token = str(uuid.uuid1())
# Register user at gameservice and get gameservice ip and port
game_service_ip, game_service_port, player = register_user_with_game_service(
AUTH_SERVICE_ACCESS_KEY, user_token, user_object, logfile)
if game_service_ip == None:
return JsonResponse(data={
"reason": "Could not login with GameService",
"helper": "Contact group 20"
},
status=status.HTTP_500_INTERNAL_SERVER_ERROR)
# If gameservice responds with proper data,
# return the userobject, usertoken and gameservice ip and port to client.
user_object['user_token'] = user_token
user_object['game_service_ip'] = game_service_ip
user_object['game_service_port'] = game_service_port
user_object['player'] = player
print("user returned to client with token: " + user_token + ", ip: " +
game_service_ip + ", port: " + game_service_port +
" and player: " + str(player) + ", " + str(time),
file=logfile)
return JsonResponse(user_object, status=status.HTTP_200_OK)
# if the communication with javabog.dk did not go through as expected
except RuntimeError as e:
print("500 internal server error when fetching user " + str(time) +
" error: " + e.__str__(),
file=logfile)
logfile.close()
return JsonResponse(data={
"reason": "There was an internal server error",
"helper": "Contact group 20"
},
status=status.HTTP_500_INTERNAL_SERVER_ERROR)
except Fault as e:
if "Forkert brugernavn eller adgangskode" in str(e):
print("401 bad credentials " + str(time), file=logfile)
return JsonResponse(data={
"reason": "Your credentials were not correct",
"helper": "Use the proper credentials"
},
status=status.HTTP_401_UNAUTHORIZED)
logfile.close()
except:
print(
"user not returned to client, could not register user with javabog.dk due to connection error at, "
+ str(time),
file=logfile)
logfile.close()
return JsonResponse(data={
"reason": "Could not login with Javabog.dk do to connection error",
"helper": "Contact group 20"
},
status=status.HTTP_404_NOT_FOUND)
mssg = 'Request Subtracter'
# ping if registry is up
response = pyping.ping(registry_hard)
if response.ret_code == 0:
print('registry at ' + registry_hard + ' is up.')
registry = registry_hard
else:
print('registry at ' + registry_hard + ' is down!')
registry = replica_hard
PORT = PORT2
#create a socket object with IPv4 and TCP protocol
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
#connect to a server with registry address and specified port
s.connect((registry, PORT))
#send the user input to the server
s.send(mssg)
#receive and print to a screen
wsdl_received = s.recv(1024)
print('received the following WSDL from ' + registry + ': ' + wsdl_received)
s.close()
#generate a SOAP client using the received WSDL
client = Client(wsdl_received + '?wsdl')
result = client.service.subtractNum(5, 2)
print('The difference of 5 and 2 is')
print(result)
#-*- coding: utf8 -*-
from zeep import Client
import datetime
# from datetime import datetime
import timestring
client = Client(
'http://localhost:8733/Design_Time_Addresses/lib_wfc/Service1/?wsdl')
isAuth = 0
userСhoice = 0
global TOKEN
TOKEN = ""
def price_def(order):
order_price = 500
if order['quick_price'] == 500:
order_price += 500
prices = [2000, 1000, 500, 100]
params = [
int(order['lenght']),
int(order['width']),
int(order['height']),
int(order['weight'])
]
for param in params:
for price in prices:
if param > price:
order_price += price
break
return order_price
from zeep import Client
# realizando uma integração de um serviço soap com python
client = Client('http://www.soapclient.com/xml/soapresponder.wsdl')
result = client.service.Method1('Hello', 'Bye')
print(result)
from datetime import datetime
from pathlib import Path
import pandas as pd
import pytz
import time
from zeep import Client
from mappings import counties
root = Path(__file__).parents[1]
client = Client("https://tools.rki.de/SurvStat/SurvStatWebService.svc?wsdl")
factory = client.type_factory("ns2")
def fetch_county(county):
res = client.service.GetOlapData(
{
"Language": "German",
"Measures": {"Count": 0},
"Cube": "SurvStat",
# Totals still included, setting `true` yields duplicates
"IncludeTotalColumn": False,
"IncludeTotalRow": False,
"IncludeNullRows": False,
"IncludeNullColumns": True,
def setUp(self):
from spyne.test.interop._test_soap_client_base import run_server
run_server('http')
self.client = Client("http://localhost:9754/?wsdl")
self.ns = "spyne.test.interop.server"
from django.shortcuts import render
from django.views.generic.base import TemplateView
from django.views.decorators.csrf import csrf_exempt
from django.utils.decorators import method_decorator
from django.http import HttpResponse
from .utils import search_person_by_fio
url = 'http://test.fedresurs.ru/MessageService/WebService.svc?singleWsdl'
u = 'demowebuser'
p = 'Ax!761BN'
session = Session()
session.auth = HTTPDigestAuth(u, p)
client = Client(url, transport=Transport(session=session))
class LastPeriodFormView(TemplateView):
template_name = 'last_period_form.html'
class FioFormView(TemplateView):
template_name = 'fio_form.html'
@method_decorator(csrf_exempt, name='dispatch')
class GetIdsView(View):
def post(self, request):
start = request.POST.get('start')
end = request.POST.get('end')
from zeep import Client
client = Client('http://localhost:7777/ws/AcademicoWebService?wsdl')
while True:
print('1 - Listar Estudiantes')
print('2 - Consultar una asignatura')
print('3 - Consultar un profesor')
print('4 - Salir')
op = int(input('\nElija la opcion que desea: '))
if (op == 1):
list = client.service.getAllEstudiante()
for std in list:
print("Matricula: {0}. Nombre: {1}.".format(
std['matricula'], std['nombre']))
elif (op == 2):
asig = input("\nCodigo de la Asignatura: ")
print(client.service.getAsignatura(asig))
elif (op == 3):
prof = input("\nCodigo del Profesor: ")
print(client.service.getProfesor(prof))
elif (op == 4):
break
class XMLAConnection(object):
@classmethod
def addMethod(cls, funcname, func):
return setattr(cls, funcname, func)
@classmethod
def setupMembers(cls):
def getFunc(schemaName):
return lambda this, *args, **kw: cls.Discover(this,
schemaName,
*args, **kw)
for schemaName in xmla1_1_rowsets:
mname = schemaNameToMethodName(schemaName)
cls.addMethod( mname, getFunc(schemaName) )
def __init__(self, url, location, sslverify, **kwargs):
if "session" in kwargs:
session = kwargs["session"]
del kwargs["session"]
transport = Transport(session=session)
else:
transport = Transport()
if "auth" in kwargs:
transport.session.auth = kwargs["auth"]
del kwargs["auth"]
transport.session.verify = sslverify
self.sessionplugin=SessionPlugin(self)
plugins=[self.sessionplugin]
if "log" in kwargs:
log = kwargs.get("log")
if isinstance(log, Plugin):
plugins.append(log)
elif log == True:
plugins.append(LogRequest())
del kwargs["log"]
self.client = Client(url,
transport=transport,
# cache=None, unwrap=False,
plugins=plugins)
self.service = self.client.create_service(ns_name(schema_xmla,"MsXmlAnalysisSoap"), location)
self.client.set_ns_prefix(None, schema_xmla)
# optional, call might fail
self.getMDSchemaLevels = lambda *args, **kw: self.Discover("MDSCHEMA_LEVELS",
*args, **kw)
self.setListenOnSessionId(False)
self.setSessionId(None)
self._soapheaders=None
def getListenOnSessionId(self):
return self.listenOnSessionId
def setListenOnSessionId(self, trueOrFalse):
self.listenOnSessionId = trueOrFalse
def setSessionId(self, sessionId):
self.sessionId = sessionId
def Discover(self, what, restrictions=None, properties=None):
rl = as_etree(restrictions, "RestrictionList")
pl = as_etree(properties, "PropertyList")
try:
#import pdb; pdb.set_trace()
doc=self.service.Discover(RequestType=what, Restrictions=rl, Properties=pl, _soapheaders=self._soapheaders)
root = fromETree(doc.body["return"]["_value_1"], ns=schema_xmla_rowset)
res = getattr(root, "row", [])
if res:
res = aslist(res)
except Fault as fault:
raise XMLAException(fault.message, dictify(fromETree(fault.detail, ns=None)))
#logger.debug( res )
return res
def Execute(self, command, dimformat="Multidimensional",
axisFormat="TupleFormat", **kwargs):
if isinstance(command, stringtypes):
command=as_etree({"Statement": command})
props = {"Format":dimformat, "AxisFormat":axisFormat}
props.update(kwargs)
plist = as_etree({"PropertyList":props})
try:
res = self.service.Execute(Command=command, Properties=plist, _soapheaders=self._soapheaders)
root = res.body["return"]["_value_1"]
return TupleFormatReader(fromETree(root, ns=schema_xmla_mddataset))
except Fault as fault:
raise XMLAException(fault.message, dictify(fromETree(fault.detail, ns=None)))
def BeginSession(self):
bs= self.client.get_element(ns_name(schema_xmla,"BeginSession"))(mustUnderstand=1)
self.setListenOnSessionId(True)
cmd = as_etree("Statement")
self.service.Execute(Command=cmd,_soapheaders={"BeginSession":bs})
self.setListenOnSessionId(False)
sess= self.client.get_element(ns_name(schema_xmla,"Session"))(SessionId=self.sessionId, mustUnderstand = 1)
self._soapheaders={"Session":sess}
def EndSession(self):
if self.sessionId is not None:
es= self.client.get_element(ns_name(schema_xmla,"EndSession"))(SessionId=self.sessionId, mustUnderstand = 1)
cmd = as_etree("Statement")
self.service.Execute(Command=cmd, _soapheaders={"EndSession":es})
self.setSessionId(None)
self._soapheaders=None
def request_apple_pay_authorization(self, basket, billing_address,
payment_token):
"""
Authorizes an Apple Pay payment.
For details on the process, see the CyberSource Simple Order API documentation at
https://www.cybersource.com/developers/integration_methods/apple_pay/.
Args:
basket (Basket)
billing_address (BillingAddress)
payment_token (dict)
Returns:
HandledProcessorResponse
Raises:
GatewayError
"""
try:
client = Client(self.soap_api_url,
wsse=UsernameToken(self.merchant_id,
self.transaction_key))
card_type = APPLE_PAY_CYBERSOURCE_CARD_TYPE_MAP[
payment_token['paymentMethod']['network'].lower()]
bill_to = {
'firstName': billing_address.first_name,
'lastName': billing_address.last_name,
'street1': billing_address.line1,
'street2': billing_address.line2,
'city': billing_address.line4,
'state': billing_address.state,
'postalCode': billing_address.postcode,
'country': billing_address.country.iso_3166_1_a2,
'email': basket.owner.email,
}
purchase_totals = {
'currency': basket.currency,
'grandTotalAmount': str(basket.total_incl_tax),
}
encrypted_payment = {
'descriptor':
'RklEPUNPTU1PTi5BUFBMRS5JTkFQUC5QQVlNRU5U',
'data':
base64.b64encode(
json.dumps(payment_token['paymentData']).encode('utf-8')),
'encoding':
'Base64',
}
card = {
'cardType': card_type,
}
auth_service = {
'run': 'true',
}
capture_service = {
'run': 'true',
}
# Enable Export Compliance for SDN validation, amongst other checks.
# See https://www.cybersource.com/products/fraud_management/export_compliance/
export_service = {
'run': 'true',
}
item = [{
'id': index,
'productCode': line.product.get_product_class().slug,
'productName': clean_field_value(line.product.title),
'quantity': line.quantity,
'productSKU': line.stockrecord.partner_sku,
'taxAmount': str(line.line_tax),
'unitPrice': str(line.unit_price_incl_tax),
} for index, line in enumerate(basket.all_lines())]
response = client.service.runTransaction(
merchantID=self.merchant_id,
merchantReferenceCode=basket.order_number,
billTo=bill_to,
purchaseTotals=purchase_totals,
encryptedPayment=encrypted_payment,
card=card,
ccAuthService=auth_service,
ccCaptureService=capture_service,
exportService=export_service,
paymentSolution='001',
item=item,
)
except:
msg = 'An error occurred while authorizing an Apple Pay (via CyberSource) for basket [{}]'.format(
basket.id)
logger.exception(msg)
raise GatewayError(msg)
request_id = response.requestID
ppr = self.record_processor_response(serialize_object(response),
transaction_id=request_id,
basket=basket)
if response.decision == 'ACCEPT':
currency = basket.currency
total = basket.total_incl_tax
transaction_id = request_id
return HandledProcessorResponse(
transaction_id=transaction_id,
total=total,
currency=currency,
card_number='Apple Pay',
card_type=CYBERSOURCE_CARD_TYPE_MAP.get(card_type))
else:
msg = (
'CyberSource rejected an Apple Pay authorization request for basket [{basket_id}]. '
'Complete response has been recorded in entry [{response_id}]')
msg = msg.format(basket_id=basket.id, response_id=ppr.id)
logger.warning(msg)
raise GatewayError(msg)
import simplejson as json
from scipy import stats
from itertools import chain
import csv
import warnings
import math
import time
from lib.awdbToolsJson import padMissingData, ordinal, getBasinSites
py.init_notebook_mode(connected=True)
this_dir = path.dirname(path.abspath(__file__))
master_dir = path.dirname(this_dir)
wsdl = r"https://wcc.sc.egov.usda.gov/awdbWebService/services?WSDL"
transport = Transport(timeout=300, cache=InMemoryCache())
awdb = Client(wsdl=wsdl, transport=transport, strict=False)
dt = datetime.datetime
date = datetime.date
today = dt.utcnow() - datetime.timedelta(hours=8)
def updtChart(basinName, basinSites):
basin = basinName
print('Working on PREC POR Chart for ' + basinName)
statsData = []
minData = []
maxData = []
meanData = []
lowestData = []
highestData = []
from zeep import Client
aneroid = '302:OR:SNTL'
brighton = '366:UT:SNTL'
client = Client(wsdl='https://wcc.sc.egov.usda.gov/awdbWebService/services?WSDL')
# service areYouThere takes no parameters
print(client.service.areYouThere())
# service getAllForecastsForStation returns an ns0:forecastFull[] list...whatever that means
print(len(client.service.getAllForecastsForStation(brighton, '1980-10-01 00:00:00', '2100-01-01 00:00:00')))
def get_metadata(triplet):
metadata = client.service.getStationMetadata(triplet)
return metadata
print(get_metadata(brighton))
print(get_metadata(aneroid))
def test_parse_soap_wsdl():
wsdl_file = io.StringIO(u"""
<?xml version="1.0"?>
<wsdl:definitions
xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/"
xmlns:xsd="http://www.w3.org/2001/XMLSchema"
xmlns:tns="http://tests.python-zeep.org/"
xmlns:soap="http://schemas.xmlsoap.org/wsdl/soap/"
xmlns:wsdlsoap="http://schemas.xmlsoap.org/wsdl/soap/"
targetNamespace="http://tests.python-zeep.org/">
<wsdl:types>
<xsd:schema
targetNamespace="http://tests.python-zeep.org/"
xmlns:tns="http://tests.python-zeep.org/"
elementFormDefault="qualified">
<xsd:element name="input" type="xsd:string"/>
<xsd:element name="output">
<xsd:complexType>
<xsd:sequence>
<xsd:element name="item_1" type="tns:type_1"/>
<xsd:element name="item_2" type="tns:type_2"/>
</xsd:sequence>
</xsd:complexType>
</xsd:element>
<xsd:complexType name="type_1">
<xsd:sequence>
<xsd:element name="subitem_1" type="xsd:string"/>
<xsd:element name="subitem_2" type="xsd:string"/>
<xsd:element name="subitem_3" type="tns:type_3"/>
</xsd:sequence>
</xsd:complexType>
<xsd:complexType name="type_2">
<xsd:sequence>
<xsd:element name="subitem_1" type="tns:type_1"/>
<xsd:element name="subitem_2" type="xsd:string"/>
</xsd:sequence>
</xsd:complexType>
<xsd:complexType name="type_3" nillable="true">
<xsd:sequence>
</xsd:sequence>
</xsd:complexType>
</xsd:schema>
</wsdl:types>
<wsdl:message name="TestOperationRequest">
<wsdl:part name="response" element="tns:input"/>
</wsdl:message>
<wsdl:message name="TestOperationResponse">
<wsdl:part name="response" element="tns:output"/>
</wsdl:message>
<wsdl:portType name="TestPortType">
<wsdl:operation name="TestOperation">
<wsdl:input message="TestOperationRequest"/>
<wsdl:output message="TestOperationResponse"/>
</wsdl:operation>
</wsdl:portType>
<wsdl:binding name="TestBinding" type="tns:TestPortType">
<soap:binding style="rpc" transport="http://schemas.xmlsoap.org/soap/http"/>
<wsdl:operation name="TestOperation">
<soap:operation soapAction=""/>
<wsdl:input name="TestOperationRequest">
<soap:body use="encoded" encodingStyle="http://schemas.xmlsoap.org/soap/encoding/" />
</wsdl:input>
<wsdl:output name="TestOperationResponse">
<soap:body use="encoded" encodingStyle="http://schemas.xmlsoap.org/soap/encoding/" />
</wsdl:output>
</wsdl:operation>
</wsdl:binding>
<wsdl:service name="TestService">
<wsdl:documentation>Test service</wsdl:documentation>
<wsdl:port name="TestPortType" binding="tns:TestBinding">
<soap:address location="http://tests.python-zeep.org/test"/>
</wsdl:port>
</wsdl:service>
</wsdl:definitions>
""".strip())
content = """
<?xml version="1.0"?>
<soapenv:Envelope
xmlns:soapenv="http://schemas.xmlsoap.org/soap/envelope/"
xmlns:tns="http://tests.python-zeep.org/"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
<soapenv:Body>
<tns:TestOperationResponse>
<tns:output>
<tns:item_1 href="#id0"/>
<tns:item_2>
<tns:subitem_1>
<tns:subitem_1>foo</tns:subitem_1>
<tns:subitem_2>bar</tns:subitem_2>
</tns:subitem_1>
<tns:subitem_2>bar</tns:subitem_2>
</tns:item_2>
</tns:output>
</tns:TestOperationResponse>
<multiRef id="id0">
<tns:subitem_1>foo</tns:subitem_1>
<tns:subitem_2>bar</tns:subitem_2>
<tns:subitem_3 xmlns:tns2="http://tests.python-zeep.org/" xsi:type="tns2:type_3"></tns:subitem_3>
</multiRef>
</soapenv:Body>
</soapenv:Envelope>
""".strip()
client = Client(
wsdl_file,
transport=Transport(),
)
response = stub(status_code=200, headers={}, content=content)
operation = client.service._binding._operations['TestOperation']
result = client.service._binding.process_reply(client, operation, response)
assert result.item_1.subitem_1 == 'foo'
assert result.item_1.subitem_2 == 'bar'
assert result.item_2.subitem_1.subitem_1 == 'foo'
assert result.item_2.subitem_1.subitem_2 == 'bar'
assert result.item_2.subitem_2 == 'bar'
class TestZeep(unittest.TestCase):
def setUp(self):
from spyne.test.interop._test_soap_client_base import run_server
run_server('http')
transport = Transport(cache=False)
self.client = Client("http://localhost:9754/?wsdl", transport=transport)
self.ns = "spyne.test.interop.server"
def get_inst(self, what):
return self.client.get_type(what)()
def test_echo_datetime(self):
val = datetime.now()
ret = self.client.service.echo_datetime(val)
assert val == ret
def test_echo_datetime_with_invalid_format(self):
val = datetime.now()
ret = self.client.service.echo_datetime_with_invalid_format(val)
assert val == ret
def test_echo_date(self):
val = datetime.now().date()
ret = self.client.service.echo_date(val)
assert val == ret
def test_echo_date_with_invalid_format(self):
val = datetime.now().date()
ret = self.client.service.echo_date_with_invalid_format(val)
assert val == ret
def test_echo_time(self):
val = datetime.now().time()
ret = self.client.service.echo_time(val)
assert val == ret
def test_echo_time_with_invalid_format(self):
val = datetime.now().time()
ret = self.client.service.echo_time_with_invalid_format(val)
assert val == ret
def test_echo_simple_boolean_array(self):
val = [False, False, False, True]
ret = self.client.service.echo_simple_boolean_array(val)
assert val == ret
def test_echo_boolean(self):
val = True
ret = self.client.service.echo_boolean(val)
self.assertEquals(val, ret)
val = False
ret = self.client.service.echo_boolean(val)
self.assertEquals(val, ret)
def test_enum(self):
val = self.client.get_type("{%s}DaysOfWeekEnum" % self.ns)('Monday')
ret = self.client.service.echo_enum(val)
assert val == ret
def test_bytearray(self):
val = b"\x00\x01\x02\x03\x04"
ret = self.client.service.echo_bytearray(val)
assert val == ret
def test_validation(self):
non_nillable_class = self.client.get_type("{hunk.sunk}NonNillableClass")()
non_nillable_class.i = 6
non_nillable_class.s = None
try:
self.client.service.non_nillable(non_nillable_class)
except ZeepError as e:
pass
else:
raise Exception("must fail")
def test_echo_integer_array(self):
ia = self.client.get_type('{%s}integerArray' % self.ns)()
ia.integer.extend([1, 2, 3, 4, 5])
self.client.service.echo_integer_array(ia)
def test_echo_in_header(self):
in_header = self.client.get_type('{%s}InHeader' % self.ns)()
in_header.s = 'a'
in_header.i = 3
ret = self.client.service.echo_in_header(_soapheaders={
'InHeader': in_header,
})
print(ret)
out_header = ret.body.echo_in_headerResult
self.assertEquals(in_header.s, out_header.s)
self.assertEquals(in_header.i, out_header.i)
def test_echo_in_complex_header(self):
in_header = self.client.get_type('{%s}InHeader' % self.ns)()
in_header.s = 'a'
in_header.i = 3
in_trace_header = self.client.get_type('{%s}InTraceHeader' % self.ns)()
in_trace_header.client = 'suds'
in_trace_header.callDate = datetime(year=2000, month=1, day=1, hour=0,
minute=0, second=0, microsecond=0)
ret = self.client.service.echo_in_complex_header(_soapheaders={
'InHeader': in_header,
'InTraceHeader': in_trace_header
})
print(ret)
out_header = ret.body.echo_in_complex_headerResult0
out_trace_header = ret.body.echo_in_complex_headerResult1
self.assertEquals(in_header.s, out_header.s)
self.assertEquals(in_header.i, out_header.i)
self.assertEquals(in_trace_header.client, out_trace_header.client)
self.assertEquals(in_trace_header.callDate, out_trace_header.callDate)
def test_send_out_header(self):
out_header = self.client.get_type('{%s}OutHeader' % self.ns)()
out_header.dt = datetime(year=2000, month=1, day=1)
out_header.f = 3.141592653
ret = self.client.service.send_out_header()
self.assertEquals(ret.header.OutHeader.dt, out_header.dt)
self.assertEquals(ret.header.OutHeader.f, out_header.f)
def test_send_out_complex_header(self):
out_header = self.client.get_type('{%s}OutHeader' % self.ns)()
out_header.dt = datetime(year=2000, month=1, day=1)
out_header.f = 3.141592653
out_trace_header = self.client.get_type('{%s}OutTraceHeader' % self.ns)()
out_trace_header.receiptDate = datetime(year=2000, month=1, day=1,
hour=1, minute=1, second=1, microsecond=1)
out_trace_header.returnDate = datetime(year=2000, month=1, day=1,
hour=1, minute=1, second=1, microsecond=100)
ret = self.client.service.send_out_complex_header()
self.assertEquals(ret.header.OutHeader.dt, out_header.dt)
self.assertEquals(ret.header.OutHeader.f, out_header.f)
self.assertEquals(ret.header.OutTraceHeader.receiptDate, out_trace_header.receiptDate)
self.assertEquals(ret.header.OutTraceHeader.returnDate, out_trace_header.returnDate)
def test_echo_string(self):
test_string = "OK"
ret = self.client.service.echo_string(test_string)
self.assertEquals(ret, test_string)
def __get_xml_test_val(self):
return {
"test_sub": {
"test_subsub1": {
"test_subsubsub1": ["subsubsub1 value"]
},
"test_subsub2": ["subsub2 value 1", "subsub2 value 2"],
"test_subsub3": [
{
"test_subsub3sub1": ["subsub3sub1 value"]
},
{
"test_subsub3sub2": ["subsub3sub2 value"]
},
],
"test_subsub4": [],
"test_subsub5": ["x"],
}
}
def test_echo_simple_class(self):
val = self.client.get_type("{%s}SimpleClass" % self.ns)()
val.i = 45
val.s = "asd"
ret = self.client.service.echo_simple_class(val)
assert ret.i == val.i
assert ret.s == val.s
def test_echo_class_with_self_reference(self):
val = self.client.get_type("{%s}ClassWithSelfReference" % self.ns)()
val.i = 45
val.sr = self.client.get_type("{%s}ClassWithSelfReference" % self.ns)()
val.sr.i = 50
val.sr.sr = None
ret = self.client.service.echo_class_with_self_reference(val)
assert ret.i == val.i
assert ret.sr.i == val.sr.i
def test_echo_nested_class(self):
val = self.client.get_type("{punk.tunk}NestedClass")()
val.i = 45
val.s = "asd"
val.f = 12.34
val.ai = self.client.get_type("{%s}integerArray" % self.ns)()
val.ai.integer.extend([1, 2, 3, 45, 5, 3, 2, 1, 4])
val.simple = self.client.get_type("{%s}SimpleClassArray" % self.ns)()
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass[0].i = 45
val.simple.SimpleClass[0].s = "asd"
val.simple.SimpleClass[1].i = 12
val.simple.SimpleClass[1].s = "qwe"
val.other = self.client.get_type("{%s}OtherClass" % self.ns)()
val.other.dt = datetime.now()
val.other.d = 123.456
val.other.b = True
ret = self.client.service.echo_nested_class(val)
self.assertEquals(ret.i, val.i)
self.assertEqual(ret.ai.integer, val.ai.integer)
self.assertEqual(ret.ai.integer[0], val.ai.integer[0])
self.assertEquals(ret.simple.SimpleClass[0].s, val.simple.SimpleClass[0].s)
self.assertEqual(ret.other.dt, val.other.dt)
def test_huge_number(self):
self.assertEquals(self.client.service.huge_number(), 2 ** int(1e5))
def test_long_string(self):
self.assertEquals(self.client.service.long_string(),
('0123456789abcdef' * 16384))
def test_empty(self):
self.client.service.test_empty()
def test_echo_extension_class(self):
val = self.client.get_type("{bar}ExtensionClass")()
val.i = 45
val.s = "asd"
val.f = 12.34
val.simple = self.client.get_type("{%s}SimpleClassArray" % self.ns)()
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass.append(self.client.get_type("{%s}SimpleClass" % self.ns)())
val.simple.SimpleClass[0].i = 45
val.simple.SimpleClass[0].s = "asd"
val.simple.SimpleClass[1].i = 12
val.simple.SimpleClass[1].s = "qwe"
val.other = self.client.get_type("{%s}OtherClass" % self.ns)()
val.other.dt = datetime.now()
val.other.d = 123.456
val.other.b = True
val.p = self.client.get_type("{hunk.sunk}NonNillableClass")()
val.p.dt = datetime(2010, 6, 2)
val.p.i = 123
val.p.s = "punk"
val.l = datetime(2010, 7, 2)
val.q = 5
ret = self.client.service.echo_extension_class(val)
print(ret)
self.assertEquals(ret.i, val.i)
self.assertEquals(ret.s, val.s)
self.assertEquals(ret.f, val.f)
self.assertEquals(ret.simple.SimpleClass[0].i, val.simple.SimpleClass[0].i)
self.assertEquals(ret.other.dt, val.other.dt)
self.assertEquals(ret.p.s, val.p.s)
def test_python_exception(self):
try:
self.client.service.python_exception()
raise Exception("must fail")
except ZeepError as e:
pass
def test_soap_exception(self):
try:
self.client.service.soap_exception()
raise Exception("must fail")
except ZeepError as e:
pass
def test_complex_return(self):
ret = self.client.service.complex_return()
self.assertEquals(ret.resultCode, 1)
self.assertEquals(ret.resultDescription, "Test")
self.assertEquals(ret.transactionId, 123)
self.assertEquals(ret.roles.RoleEnum[0], "MEMBER")
def test_return_invalid_data(self):
try:
self.client.service.return_invalid_data()
raise Exception("must fail")
except:
pass
def test_custom_messages(self):
ret = self.client.service.custom_messages("test")
assert ret == 'test'
def test_echo_simple_bare(self):
ret = self.client.service.echo_simple_bare("test")
assert ret == 'test'
def test_echo_complex_bare(self):
val = ['abc','def']
ret = self.client.service.echo_complex_bare(val)
assert ret == val
from zeep import Client
c = Client('http://localhost:8000?wsdl')
def get_header():
return c.get_type('ns0:Header')(Message_Type='mt',
Company_ID='ci',
Version='v',
Source='s',
Destination='d',
Action_Type='read',
Sequence_Number='1',
Batch_ID='bi',
Reference_ID='ri',
Msg_Locale='ml',
Msg_Time_Zone='mtz',
Internal_Date_Time_Stamp='idts')
def send_receive_item_bar_code():
message = c.get_type('ns0:Message')(
ItemBarCodeList=c.get_type('ns0:ItemBarCodeList')(ItemBarCode=[
c.get_type('ns0:ItemBarCode')(
IsPrimary='ip',
ItemCode='ic',
Barcode='b',
Quantity='q',
ActionType='at',
BarcodeType='bt',
Extensions=[
# CERT = 'changeme.pem'
# session.verify = CERT
session.auth = HTTPBasicAuth(os.getenv('USERNAME'), os.getenv('PASSWORD'))
transport = Transport(session=session, timeout=10)
# strict=False is not always necessary, but it allows Zeep to parse imperfect XML
settings = Settings(strict=False, xml_huge_tree=True)
# If debug output is requested, add the MyLoggingPlugin callback
plugin = [MyLoggingPlugin()] if DEBUG else []
# Create the Zeep client with the specified settings
client = Client(WSDL_FILE,
settings=settings,
transport=transport,
plugins=plugin)
# Create the Zeep service binding to AXL at the specified CUCM
service = client.create_service(
'{http://www.cisco.com/AXLAPIService/}AXLAPIBinding',
f'https://{os.getenv("CUCM_ADDRESS")}:8443/axl/')
# Create a simple phone
# Of note, this appears to be the minimum set of elements required
# by the schema/Zeep
phone = {
'name': 'CSFTESTPHONE',
'product': 'Cisco Unified Client Services Framework',
'model': 'Cisco Unified Client Services Framework',
'class': 'Phone',
import os
os.system('cls' if os.name == 'nt' else 'clear')
#client = Client(wsdl='http://localhost:44383/WebService1.asmx?wsdl')
#client = Client(wsdl='http://localhost:44383/WebService1.asmx')
print('\n')
print(' _ __ ______ ___ ____ ____ ')
print(' | | / / | ___ \ | \/ | | \ \ \ ')
print(' | |/ / __ _| |_/ /_ _| . . | | \ \ \ ')
print(' | \ / _` | ___ \ | | | |\/| | | > > > ')
print(' | |\ \ (_| | |_/ / |_| | | | |_| / / / ')
print(' \_| \_/\__,_\____/ \__,_\_| |_(_) /_/_/ ')
print('--------------------------------------------')
print('| Cliente |')
print('--------------------------------------------')
client = Client(wsdl='http://localhost:44383/WebService1.asmx?wsdl')
minhasComprar = []
indexCompra = 0
while True:
print('\n')
print('1) Listar Produtos')
print('2) Comprar Produtos')
print('3) Buscar Produtos')
print('4) Meus Produtos')
print('0) Sair')
print('\n')
op = input('> ')
#------------------------------Listar Produtos -------------------------------------
if op == '1':
x = [client.service.ObterProdutoPorMarca('todas')]
class AxirosACS(object):
"""ACS connection class used to perform TR069 operations on stations/board
"""
model = "axiros_acs_soap"
def __init__(self, *args, **kwargs):
"""This method intializes the varible that are used in establishing connection to the ACS.
The method intializes an HTTP SOAP client which will authenticate with the ACS server.
:param *args: the arguments to be used if any
:type *args: tuple
:param **kwargs: extra args to be used if any (mainly contains username, password, ipadress and port)
:type **kwargs: dict
"""
self.args = args
self.kwargs = kwargs
self.username = self.kwargs['username']
self.password = self.kwargs['password']
self.ipaddr = self.kwargs['ipaddr']
self.port = self.kwargs.get('port', None)
if self.port is not None:
target = self.ipaddr + ":" + self.port
else:
target = self.ipaddr
self.wsdl = "http://" + target + "/live/CPEManager/DMInterfaces/soap/getWSDL"
session = Session()
session.auth = HTTPBasicAuth(self.username, self.password)
self.client = Client(wsdl=self.wsdl,
transport=Transport(session=session),
wsse=UsernameToken(self.username, self.password))
name = "acs_server"
def __str__(self):
"""The method is used to format the string representation of self object (instance).
:returns: :class:`Response <Response>` string representation of self object.
:rtype: string
"""
return "AxirosACS"
def close(self):
"""Method to be implemented to close ACS connection
"""
pass
def get_ticketId(self, cpeid, param):
"""ACS server maintains a ticket ID for all TR069 RPC calls.
This method will contruct a TR069 GPV query, execute it and
return the ticket id associated with it.
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to used
:type param: string
:raises: NA
:returns: ticketid
:rtype: string
"""
GetParameterValuesParametersClassArray_type = self.client.get_type(
'ns0:GetParameterValuesParametersClassArray')
GetParameterValuesParametersClassArray_data = GetParameterValuesParametersClassArray_type(
[param])
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.GetParameterValues(
GetParameterValuesParametersClassArray_data,
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
return ticketid
def get(self, cpeid, param, wait=8):
"""This method is used to perform a remote procedure call (GetParameterValue)
The method will query the ACS server for value against ticket_id generated
during the GPV RPC call.
Example usage : acs_server.get(self.cpeid, 'Device.DeviceInfo.SoftwareVersion')
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to be used in get
:type param: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: int
:raises: NA
:returns: first value of ACS reponse for the parameter.
:rtype: string
"""
ticketid = self.get_ticketId(cpeid, param)
if ticketid is None:
return None
return self.Axiros_GetTicketValue(ticketid, wait=wait)
def getcurrent(self, cpeid, param, wait=8):
"""This method is used to get the key, value of the response for the given parameter from board.
Example usage : acs_server.getcurrent(self.cpeid, 'Device.IP.Interface.')
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to be used in get
:type param: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: int
:raises: NA
:returns: dictionary with the key, value of the response for the given parameter.
:rtype: dict
"""
ticketid = self.get_ticketId(cpeid, param)
for i in range(wait):
time.sleep(1)
with self.client.settings(raw_response=True):
ticket_resp = self.client.service.get_generic_sb_result(
ticketid)
root = ElementTree.fromstring(ticket_resp.content)
for value in root.iter('code'):
break
if (value.text != '200'):
continue
dict_key_value = {}
for key, value in zip(root.iter('key'), root.iter('value')):
dict_key_value[key.text] = value.text
return dict_key_value
def set(self, cpeid, attr, value):
"""This method is used to set a parameter in board via TR069 RPC call (SetParameterValue).
This method constructs a SPV query and sends it to ACS server
ACS server will generate a ticket_id and perform the RPC call.
The method will then return the value associated with the ticket_id
Example usage : acs_server.set(self.cpeid, 'Device.WiFi.AccessPoint.1.AC.1.Alias', "TestSSID")
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param attr: attribute to be used to set
:type attr: string
:param values: the value to be set to the attr
:type values: string
:raises: NA
:returns: ticketId for set.
:rtype: string
"""
SetParameterValuesParametersClassArray_type = self.client.get_type(
'ns0:SetParameterValuesParametersClassArray')
SetParameterValuesParametersClassArray_data = SetParameterValuesParametersClassArray_type(
[{
'key': attr,
'value': value
}])
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.SetParameterValues(
SetParameterValuesParametersClassArray_data,
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
if ticketid is None:
return None
return self.Axiros_GetTicketValue(ticketid)
def Axiros_GetListOfCPEs(self):
"""This method is used to get the list of all devices registered on the ACS server.
:raises: NA
:returns: ACS response containing the list of CPE.
:rtype: string
"""
CPESearchOptionsClassStruct_type = self.client.get_type(
'ns0:CPESearchOptionsClassStruct')
CPESearchOptionsClassStruct_data = CPESearchOptionsClassStruct_type()
CommandOptionsForCPESearchStruct_type = self.client.get_type(
'ns0:CommandOptionsForCPESearchStruct')
CommandOptionsForCPESearchStruct_data = CommandOptionsForCPESearchStruct_type(
)
response = self.client.service.GetListOfCPEs(
CPESearchOptionsClassStruct_data,
CommandOptionsForCPESearchStruct_data)
if response['code'] != 200:
return None
return response
def Axiros_DeleteCPEs(self, cpeid):
"""This method is used to delete a CPE on the ACS server.
:raises: NA
:returns: True if successful
:rtype: True/False
"""
CPESearchOptionsClassStruct_type = self.client.get_type(
'ns0:CPESearchOptionsClassStruct')
CPESearchOptionsClassStruct_data = CPESearchOptionsClassStruct_type(
cpeid=cpeid)
CommandOptionsForCPESearchStruct_type = self.client.get_type(
'ns0:CommandOptionsForCPESearchStruct')
CommandOptionsForCPESearchStruct_data = CommandOptionsForCPESearchStruct_type(
)
response = self.client.service.DeleteCPEs(
CPESearchOptionsClassStruct_data,
CommandOptionsForCPESearchStruct_data)
print(response)
if response['code'] != 200:
return False
return True
delete_cpe = Axiros_DeleteCPEs
def Axiros_GetTicketResponse(self, ticketid):
"""This is helper method used to get the ticket response on ACS.
:param ticketid: the ticketid to be used to get the ACS response.
:type ticketid: string
:raises: NA
:returns: ACS response.
:rtype: string
"""
response = self.client.service.get_generic_sb_result(ticketid)
if response['code'] != 200:
return None
return response['code']
def Axiros_GetTicketValue(self, ticketid, wait=8):
"""This is helper method used to get the text of ticket response on ACS.
:param ticketid: the ticketid to be used to get the ACS response.
:type ticketid: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: int
:raises: NA
:returns: ACS response text / None.
:rtype: string/None
"""
for i in range(wait):
time.sleep(1)
with self.client.settings(raw_response=True):
ticket_resp = self.client.service.get_generic_sb_result(
ticketid)
root = ElementTree.fromstring(ticket_resp.content)
for value in root.iter('code'):
break
if (value.text != '200'):
continue
for value in root.iter('value'):
return value.text
return None
def rpc_GetParameterAttributes(self, cpeid, param):
"""This method is used to get parameter attribute on ACS of the parameter specified i.e a remote procedure call (GetParameterAttribute).
Example usage : acs_server.rpc_GetParameterAttributes('DEAP815610DA', 'Device.WiFi.SSID.1.SSID')
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to be used in get
:type param: string
:raises: NA
:returns: dictionary with keys Name, Notification (0/1), AccessList indicating the GPA
:rtype: dict
"""
GetParameterAttrParametersClassArray_type = self.client.get_type(
'ns0:GetParameterAttributesParametersClassArray')
GetParameterAttrParametersClassArray_data = GetParameterAttrParametersClassArray_type(
[param])
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.GetParameterAttributes(
GetParameterAttrParametersClassArray_data,
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
if ticketid is None:
return None
for i in range(8):
time.sleep(1)
with self.client.settings(raw_response=True):
ticket_resp = self.client.service.get_generic_sb_result(
ticketid)
root = ElementTree.fromstring(ticket_resp.content)
for value in root.iter('code'):
break
if (value.text != '200'):
continue
dict_value = {'Name': param}
for iter_value in ['Notification', 'item']:
for value in root.iter(iter_value):
dict_value[iter_value] = value.text
dict_value['AccessList'] = dict_value.pop('item')
return dict_value
assert False, "rpc_GetParameterAttributes failed to lookup %s" % param
def rpc_SetParameterAttributes(self, cpeid, attr, value):
"""This method is used to set parameter attribute on ACS of the parameter specified i.e a remote procedure call (SetParameterAttribute).
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param attr: attribute to be used to set
:type attr: string
:param values: the value to be set to the attr
:type values: string
:raises: NA
:returns: ticket response on ACS.
:rtype: string
"""
SetParameterAttrParametersClassArray_type = self.client.get_type(
'ns0:SetParameterAttributesParametersClassArray')
SetParameterAttrParametersClassArray_data = SetParameterAttrParametersClassArray_type(
[{
'Name': attr,
'Notification': value,
'AccessListChange': '0',
'AccessList': {
'item': 'Subscriber'
},
'NotificationChange': '1'
}])
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.SetParameterAttributes(
SetParameterAttrParametersClassArray_data,
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
if ticketid is None:
return None
return self.Axiros_GetTicketValue(ticketid)
def rpc_AddObject(self, cpeid, param, wait=8):
"""This method is used to add object ACS of the parameter specified i.e a remote procedure call (AddObject).
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to be used to add
:type param: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: integer, optional
:raises assertion: rpc_AddObject failed to lookup for the param
:returns: ticket response on ACS
:rtype: dictionary
"""
AddObjectClassArray_type = self.client.get_type(
'ns0:AddDelObjectArgumentsStruct')
AddObjectClassArray_data = AddObjectClassArray_type(param, '')
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.AddObject(AddObjectClassArray_data, \
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
if ticketid is None:
return None
for i in range(wait):
time.sleep(1)
with self.client.settings(raw_response=True):
ticket_resp = self.client.service.get_generic_sb_result(
ticketid)
root = ElementTree.fromstring(ticket_resp.content)
for value in root.iter('code'):
break
if (value.text != '200'):
continue
dict_value = {}
for key, value in zip(root.iter('key'), root.iter('value')):
dict_value[key.text] = value.text
return dict_value
assert False, "rpc_AddObject failed to lookup %s" % param
def rpc_DelObject(self, cpeid, param):
"""This method is used to delete object ACS of the parameter specified i.e a remote procedure call (DeleteObject).
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param param: parameter to be used to delete
:type param: string
:returns: ticket response on ACS ('0' is returned)
:rtype: string
"""
DelObjectClassArray_type = self.client.get_type(
'ns0:AddDelObjectArgumentsStruct')
DelObjectClassArray_data = DelObjectClassArray_type(param, '')
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsTypeStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.DeleteObject(DelObjectClassArray_data, \
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
ticketid = None
root = ElementTree.fromstring(response.content)
for value in root.iter('ticketid'):
ticketid = value.text
break
if ticketid is None:
return None
return self.Axiros_GetTicketValue(ticketid)
def Read_Log_Message(self, cpeid, wait=8):
"""This method is used to read ACS log messages
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: integer, optional
:returns: ticket response on ACS(Log message)
:rtype: dictionary
"""
CommandOptionsTypeStruct_type = self.client.get_type(
'ns0:CommandOptionsForCPELogStruct')
CommandOptionsTypeStruct_data = CommandOptionsTypeStruct_type()
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.GetLogMessagesOfCPE(
CommandOptionsTypeStruct_data, CPEIdentifierClassStruct_data)
for i in range(wait):
time.sleep(1)
root = ElementTree.fromstring(response.content)
for value in root.iter('code'):
break
if (value.text != '200'):
continue
dict_value1 = {}
num = 1
for key, value in zip(root.iter('ts'), root.iter('message')):
dict_value = {}
dict_value['time'] = key.text
dict_value['msg'] = value.text
dict_value1['log_msg' + str(num)] = dict_value
num += 1
return dict_value1
return None
def Del_Log_Message(self, cpeid, wait=8):
"""This method is used to delete ACS log messages
:param cpeid: the serial number of the modem through which ACS communication happens.
:type cpeid: string
:param wait: the number of tries to be done if we are not getting proper ACS response, defaults to 8
:type wait: integer, optional
:returns: True or None
:rtype: Boolean
"""
CPEIdentifierClassStruct_type = self.client.get_type(
'ns0:CPEIdentifierClassStruct')
CPEIdentifierClassStruct_data = CPEIdentifierClassStruct_type(
cpeid=cpeid)
# get raw soap response (parsing error with zeep)
with self.client.settings(raw_response=True):
response = self.client.service.DeleteLogMessagesOfCPE(
CPEIdentifierClassStruct_data)
for i in range(wait):
time.sleep(1)
root = ElementTree.fromstring(response.content)
for value in root.iter('code'):
break
if (value.text == '200'):
return True
else:
continue
return None
def __init__(self, keyword: str = 'Session', verbose: bool = False):
self.client = Client(_make_client_url(keyword=keyword))
self.verbose = verbose
