def convert(self, xmlroot):
"""
:param Element xmlroot: root element of xml to convert.
:rtype: wsag_model.Agreement
"""
# for name, value in xmlroot.attrib.items():
# logger.debug('SLA xmlconverter: {} = {}'.format(name, value))
if xmlroot.tag in self.agreement_tags:
result = Agreement()
agreementId = str(QName(self._namespaces["wsag"], "AgreementId"))
result.agreement_id = xmlroot.attrib[agreementId]
elif xmlroot.tag in self.template_tags:
result = Template()
templateId = str(QName(self._namespaces["wsag"], "TemplateId"))
result.template_id = xmlroot.attrib[templateId]
else:
raise ValueError("Not valid root element name: " + xmlroot.tag)
context = xmlroot.find("wsag:Context", self._namespaces)
result.context = self._parse_context(context)
terms = xmlroot.find("wsag:Terms/wsag:All", self._namespaces)
properties = terms.findall("wsag:ServiceProperties", self._namespaces)
result.variables = self._parse_properties(properties)
guarantees = terms.findall("wsag:GuaranteeTerm", self._namespaces)
result.guaranteeterms = self._parse_guarantees(guarantees)
return result
def create():
element = Element(QName(NS_SOAP, 'Reason'))
value = Element(QName(NS_SOAP, 'Text'))
element.append(value)
return element
def probe_metric(service_url, metric):
'''
Query the service at the given URL for the given metric value.
Assumptions are made about the name of the method and output parameters
which are only valid for the WanCommonInterfaceConfig service.
'''
envelope = E(
QName(ns['s'], 'Envelope'), {
QName(ns['s'], 'encodingStyle'):
'http://schemas.xmlsoap.org/soap/encoding/'
})
body = sE(envelope, QName(ns['s'], 'Body'))
method = sE(body, QName(ns['i'], 'Get{}'.format(metric)))
request_tree = ET(envelope)
with io.BytesIO() as out:
out.write(b'<?xml version="1.0"?>')
request_tree.write(out, encoding='utf-8')
out.write(b'\r\n') # or else my Belkin F5D8236-4 never responds...
req = urllib.request.Request(service_url, out.getvalue())
req.add_header('Content-Type', 'text/xml')
req.add_header('SOAPAction', '"{}#{}"'.format(ns['i'],
'Get{}'.format(metric)))
with urllib.request.urlopen(req) as result:
result_tree = ElementTree.parse(result)
return int(
result_tree.findtext('.//New{}'.format(metric), namespaces=ns))
def from_xml(cls, element: Element):
if element[1].tag != QName(FES20, "LowerBoundary") or element[2].tag != QName(
FES20, "UpperBoundary"
):
raise ExternalParsingError(
f"{element.tag} should have 3 child nodes: "
f"(expression), <LowerBoundary>, <UpperBoundary>"
)
lower = get_child(element, FES20, "LowerBoundary")
upper = get_child(element, FES20, "UpperBoundary")
if len(lower) != 1:
raise ExternalParsingError(
f"{lower.tag} should have 1 expression child node"
)
if len(upper) != 1:
raise ExternalParsingError(
f"{upper.tag} should have 1 expression child node"
)
return cls(
expression=Expression.from_child_xml(element[0]),
lowerBoundary=Expression.from_child_xml(lower[0]),
upperBoundary=Expression.from_child_xml(upper[0]),
_source=element.tag,
)
def messages(self):
logmessages_tag = QName(XMLNS, 'LogMessages').text
message_tag = QName(XMLNS, 'Message').text
el = self.xml.find(logmessages_tag)
if not el:
return list()
return list(m.text for m in el.findall(message_tag))
def create():
element = Element(QName(NS_SOAP, 'Subcode'))
value = Element(QName(NS_SOAP, 'Value'))
element.append(value)
return element
def tips_statuslist(self, status_list):
el = Element(QName(XMLNS, 'EntityStatusList'), {'entity': self.entity})
for item in status_list:
status = EntityStatusChoices.ENABLED if item[
'enabled'] else EntityStatusChoices.DISABLED
subel = SubElement(el, QName(XMLNS, status))
subel.text = item['name']
return el
def LastChange(self):
root = Element(QName(self._event_ns, "Event"))
inst = SubElement(root, QName(self._event_ns, "InstanceID"),
{"val": "0"})
for name, value in self._changes.items():
SubElement(inst, QName(self._event_ns, name), {"val": value})
misc.set_ns_prefixes(root, {"": self._event_ns})
return ElementTree.tostring(root, encoding="utf-8").decode("utf-8")
def addresponse(self, path, root, depth):
e = SubElement(root, QName("DAV:", 'response'))
href = SubElement(e, QName("DAV:", 'href'))
href.text = path
propstat = SubElement(e, QName("DAV:", 'propstat'))
prop = SubElement(propstat, QName("DAV:", 'resourcetype'))
if os.path.isdir(path):
SubElement(prop, QName("DAV:", 'collection'))
def add_array(node, items):
rdf_type = next(
c.rdf_type for c in XMP_CONTAINERS if isinstance(items, c.py_type)
)
seq = ET.SubElement(node, QName(XMP_NS_RDF, rdf_type))
for item in items:
el = ET.SubElement(seq, QName(XMP_NS_RDF, 'li'))
el.text = item.replace('\x00', '')
def __init__(self, method, entity):
self.path = f'{ROOT_PATH}/{method}/{entity}'
self.entity = entity
self.path = None
self.xml = Element(QName(XMLNS, 'TipsApiRequest'))
tips_header = SubElement(self.xml, QName(XMLNS, 'TipsHeader'),
{'version': VERSION})
if entity in (EntityChoices.GUEST_USER, EntityChoices.ONBOARD_DEVICE):
tips_header.set('source', 'Guest')
def parsePropElementHref(self, prop, result, is_list):
# Grab the element data
hrefs = tuple([URL(url=href.text, decode=True) for href in prop.findall(str(davxml.href))])
if not is_list:
if len(hrefs) == 1:
hrefs = hrefs[0]
else:
hrefs = ""
result.addHrefProperty(QName(prop.tag), hrefs)
result.addNodeProperty(QName(prop.tag), prop)
def test_qualified_attrib(self):
ns, nsa = 'http://x.y.z/ns', 'http://x.y.z/ns/a'
fruit = self.root.find('.//%s' % QName(ns, 'fruit'))
# default ns, not qualitifed (TODO: why?)
self.assertEqual(fruit.get('name'), 'Apple')
self.assertIsNone(fruit.get(QName(ns, 'name')))
# non-default ns, qualified
self.assertEqual(fruit.get(QName(nsa, 'name')), 'Apple (a)')
def LastChange(self):
root = Element(QName(self._event_ns, "Event"))
inst = SubElement(root, QName(self._event_ns, "InstanceID"),
{"val": "0"})
for name, value in self._changes.items():
SubElement(inst, QName(self._event_ns, name), {"val": value})
misc.set_ns_prefixes(root, {"": self._event_ns})
writer = StringIO()
ElementTree(root).write(writer, encoding="utf-8")
return writer.getvalue()
def test_deserialize(self):
convert = self.converter.deserialize
invalid = ["a:b", "", " ", "{a}1b", "{a} b", "{|}b", "a a"]
for inv in invalid:
with self.assertRaises(ConverterError):
convert(inv)
self.assertEqual(QName("{a}b"), convert("{a}b"))
self.assertEqual(QName("a"), convert("a", ns_map={}))
self.assertEqual(QName("aa", "b"), convert("a:b", ns_map={"a": "aa"}))
def create():
client = Element(QName(NS_CEP, 'client'))
last_update = Element(QName(NS_CEP, 'lastUpdate'))
last_update.attrib[ATTR_NIL] = 'true'
client.append(last_update)
preferred_language = Element(QName(NS_CEP, 'preferredLanguage'))
preferred_language.attrib[ATTR_NIL] = 'true'
client.append(preferred_language)
return client
def test_find_qname(self):
ns, nsa = 'http://x.y.z/ns', 'http://x.y.z/ns/a'
# default namespace
color = self.root.find('.//%s' % QName(ns, 'color'))
self.assertEqual(color.tag, '{http://x.y.z/ns}color') # Clark notation
self.assertIsNone(self.root.find('.//color'))
# another namespace
color_a = self.root.find('.//%s' % QName(nsa, 'color'))
self.assertEqual(color_a.tag, '{http://x.y.z/ns/a}color')
def from_element(cls, element):
type = URI(QName(element.tag))
uri = URI(element.get(QName(RDF, 'about')))
type_class = cls.TYPE_MAP.get(type, cls)
if cls is type_class:
test = cls(type, uri)
test.status = cls._status(element)
test.description = cls._description(element)
test.warning = cls._warning(element)
else:
test = type_class.from_element(element)
return test
def __setitem__(self, key, val):
if not self._updating:
raise RuntimeError("Metadata not opened for editing, use with block")
def add_array(node, items):
rdf_type = next(
c.rdf_type for c in XMP_CONTAINERS if isinstance(items, c.py_type)
)
seq = ET.SubElement(node, QName(XMP_NS_RDF, rdf_type))
for item in items:
el = ET.SubElement(seq, QName(XMP_NS_RDF, 'li'))
el.text = item.replace('\x00', '')
try:
# Locate existing node to replace
node, attrib, _oldval, parent = next(self._get_elements(key))
if attrib:
if not isinstance(val, str):
raise TypeError(val)
node.set(attrib, val)
elif isinstance(val, (list, set)):
for child in node.findall('*'):
node.remove(child)
add_array(node, val)
elif isinstance(val, str):
for child in node.findall('*'):
node.remove(child)
node.text = val
else:
raise TypeError(val)
except StopIteration:
# Insert a new node
rdf = self._xmp.find('.//rdf:RDF', self.NS)
if isinstance(val, (list, set)):
rdfdesc = ET.SubElement(
rdf, QName(XMP_NS_RDF, 'Description'),
attrib={
QName(XMP_NS_RDF, 'about'): '',
},
)
node = ET.SubElement(rdfdesc, self._qname(key))
add_array(node, val)
elif isinstance(val, str):
rdfdesc = ET.SubElement(
rdf, QName(XMP_NS_RDF, 'Description'),
attrib={
QName(XMP_NS_RDF, 'about'): '',
self._qname(key): val
},
)
else:
raise TypeError(val)
def getIMDBids(self):
movies = []
enablers = [
tryInt(x) for x in splitString(self.conf('automation_urls_use'))
]
urls = splitString(self.conf('automation_urls'))
namespace = 'http://www.w3.org/2005/Atom'
namespace_im = 'http://itunes.apple.com/rss'
index = -1
for url in urls:
index += 1
if len(enablers
) == 0 or len(enablers) < index or not enablers[index]:
continue
try:
cache_key = 'itunes.rss.%s' % md5(url)
rss_data = self.getCache(cache_key, url)
data = XMLTree.fromstring(rss_data)
if data is not None:
entry_tag = str(QName(namespace, 'entry'))
rss_movies = self.getElements(data, entry_tag)
for movie in rss_movies:
name_tag = str(QName(namespace_im, 'name'))
name = self.getTextElement(movie, name_tag)
releaseDate_tag = str(
QName(namespace_im, 'releaseDate'))
releaseDateText = self.getTextElement(
movie, releaseDate_tag)
year = datetime.datetime.strptime(
releaseDateText,
'%Y-%m-%dT00:00:00-07:00').strftime("%Y")
imdb = self.search(name, year)
if imdb and self.isMinimalMovie(imdb):
movies.append(imdb['imdb'])
except:
log.error('Failed loading iTunes rss feed: %s %s',
(url, traceback.format_exc()))
return movies
def _on_play(self):
if self.source is None or self.state == "PLAYING":
return
if self._timer:
self._timer.unregister()
from cocy.upnp import DIDL_LITE_NS
duration = self.source_meta_dom.find(
str(QName(DIDL_LITE_NS, "item")) + "/" + str(QName(DIDL_LITE_NS, "res"))) \
.get("duration")
self.current_track_duration = duration_to_secs(duration)
self._timer = Timer(self.current_track_duration,
end_reached()).register(self)
self.state = "PLAYING"
def __init__(self, geopackage_path, log=None):
"""
:param geopackage_path: the file path for the geopackaging we are working on
:param srs_name: The code value for the SRS (CODE: 4326 in EPSG:4326)
:param srs_org: The organization specifying the SRS (ORG: EPSG in EPSG:4326)
:param log: an optional log file passed through from an outer context
"""
self.geopackage_path = geopackage_path
self.log = log
existing_metadata = self.__load_metadata()
self.existing_metadata = dict()
for _entry in existing_metadata:
self.existing_metadata[_entry["id"]] = _entry
# register the namespaces we will be using as we manipulate the data
[
register_namespace(namespace.value[0], namespace.value[1])
for namespace in NameSpaces
]
# check to see if there is existing data or not
if len(self.existing_metadata):
try:
self.tree = ElementTree.fromstring(
self.existing_metadata[1]["metadata"].encode(
"ascii", "ignore"))
except Exception: # metadata is invalid or not what we want
self.tree = ElementTree.parse(
source=MD_TREE).getroot() # Load base MD XML
# set the creation date
self.tree.set(QName(NameSpaces.ISM.value[1], "createDate"),
datetime.date.today().isoformat())
else:
self.tree = ElementTree.parse(
source=MD_TREE).getroot() # Load base MD XML
# set the creation date
self.tree.set(QName(NameSpaces.ISM.value[1], "createDate"),
datetime.date.today().isoformat())
# Fill out our DateStamp elem
date_element = self.__build_tag(namespace=NameSpaces.GMD.value[1],
tag=Tags.DATE_STAMP)
self.__build_tag(
namespace=NameSpaces.GCO.value[1],
tag="Date",
parent=date_element,
text=str(datetime.date.today().isoformat()),
)
# insert as the 3rd element bc spec
self.tree.insert(3, date_element)
def _apply_changes(self):
"""Serialize our changes back to the PDF in memory
Depending how we are initialized, leave our metadata mark and producer.
"""
if self.mark:
self[QName(XMP_NS_XMP, 'MetadataDate')] = datetime.now().isoformat()
self[QName(XMP_NS_PDF, 'Producer')] = 'pikepdf ' + pikepdf_version
xml = self._get_xml_bytes()
self._pdf.Root.Metadata = Stream(self._pdf, xml)
self._pdf.Root.Metadata[Name.Type] = Name.Metadata
self._pdf.Root.Metadata[Name.Subtype] = Name.XML
if self.sync_docinfo:
self._update_docinfo()
def getIMDBids(self):
movies = []
rss_movies = self.getRSSData(self.urls['theater'])
rating_tag = str(QName(self.urls['namespace'], 'tomatometer_percent'))
for movie in rss_movies:
value = self.getTextElement(movie, "title")
result = re.search('(?<=%\s).*', value)
if result:
log.info2('Something smells...')
rating = tryInt(self.getTextElement(movie, rating_tag))
name = result.group(0)
if rating < tryInt(self.conf('tomatometer_percent')):
log.info2('%s seems to be rotten...', name)
else:
log.info2('Found %s fresh enough movies, enqueuing: %s',
(rating, name))
year = datetime.datetime.now().strftime("%Y")
imdb = self.search(name, year)
if imdb:
movies.append(imdb['imdb'])
return movies
def test_from_value(self):
self.assertEqual(DataType.BOOLEAN, DataType.from_value(True))
self.assertEqual(DataType.INT, DataType.from_value(1))
self.assertEqual(DataType.FLOAT, DataType.from_value(1.1))
self.assertEqual(DataType.DECIMAL, DataType.from_value(Decimal(1.1)))
self.assertEqual(DataType.QNAME, DataType.from_value(QName("a")))
self.assertEqual(DataType.STRING, DataType.from_value("a"))
def parsePropElement(self, prop, result, badstatus):
# Here we need to detect the type of element and dispatch accordingly
if badstatus:
result.addBadProperty(QName(prop.tag), badstatus)
# Determine what type of content we have
else:
children = prop.getchildren()
children_length = len(children)
if children_length == 0:
self.parsePropElementText(prop, result)
elif prop.text is None or not prop.text.strip():
if children_length == 1:
if children[0].tag == davxml.href:
self.parsePropElementHref(prop, result, False)
else:
self.parsePropElementUnknown(prop, result)
else:
allHref = True
for child in children:
if child.tag != davxml.href:
allHref = False
if allHref:
self.parsePropElementHref(prop, result, True)
else:
self.parsePropElementUnknown(prop, result)
else:
self.parsePropElementUnknown(prop, result)
def create():
element = Element(QName(NS_CEP, 'requestFilter'))
policy_oids = Element(QName(NS_CEP, 'policyOIDs'))
policy_oids.attrib[ATTR_NIL] = 'true'
element.append(policy_oids)
client_version = Element(QName(NS_CEP, 'clientVersion'))
client_version.attrib[ATTR_NIL] = 'true'
element.append(client_version)
server_version = Element(QName(NS_CEP, 'serverVersion'))
server_version.attrib[ATTR_NIL] = 'true'
element.append(server_version)
return element
def find_weather():
for i in locationcode:
url = WEATHER_URL % i
url = url + METRIC_PARAMETER
xml = ET.parse(urllib.urlopen(url))
root = xml.getroot()
ns = "http://xml.weather.yahoo.com/ns/rss/1.0"
site = root[0][0].text.split(' - ')[1]
print "Current location is:", site
# print "Current date is:", root[0][4].text
# for condition in root.findall('yweather:condition'):
# print "get it"
# print condition.attrib
body_tag = str(QName(ns, 'condition'))
body = root[0][12].findall(body_tag)
# print body[0].attrib['date']
dicweather = body[0].attrib
# print ' -->',dicweather['date']
# print ' -->',dicweather['low']
# print ' -->',dicweather['high']
# print ' -->',dicweather['text']
# head = ['date','text','temp','low','location']
# write_file(filename,
# head,dicweather['date'].split(',')[1].split('AEDT')[0],dicweather['text'],dicweather['temp'],site.split(',')[0])
store_db(dicweather['date'].split(',')[1].split('AEDT')[0],
dicweather['text'], dicweather['temp'])
def _update_docinfo(self):
"""Update the PDF's DocumentInfo dictionary to match XMP metadata
The standard mapping is described here:
https://www.pdfa.org/pdfa-metadata-xmp-rdf-dublin-core/
"""
self._pdf.docinfo # Touch object to ensure it exists
for uri, element, docinfo_name, converter in self.DOCINFO_MAPPING:
qname = QName(uri, element)
try:
value = self[qname]
except KeyError:
if docinfo_name in self._pdf.docinfo:
del self._pdf.docinfo[docinfo_name]
continue
if converter:
value = converter.docinfo_from_xmp(value)
if value is None:
del self._pdf.docinfo[docinfo_name]
continue
try:
# Try to save pure ASCII
self._pdf.docinfo[docinfo_name] = value.encode('ascii')
except UnicodeEncodeError:
# qpdf will serialize this as a UTF-16 with BOM string
self._pdf.docinfo[docinfo_name] = value
def create_response(self,
action_name: str,
arguments: dict,
encoding=None,
envelope_attrib=None,
typed=None):
"""
Creates a Soap response to the action with the specified arguments.
"""
register_namespace('', None)
if encoding is None:
encoding = self._encoding
if envelope_attrib is None:
envelope_attrib = self._envelope_attrib
if typed is None:
typed = self._typed
envelope = Element("s:Envelope")
if envelope_attrib:
for eakey, eaval in envelope_attrib:
envelope.attrib.update({eakey: eaval})
else:
envelope.attrib.update({'xmlns:s': NS_SOAP_ENV})
envelope.attrib.update({'s:encodingStyle': encoding})
body = SubElement(envelope, "s:Body")
action_name_tag_name = action_name + "Response"
methElement = SubElement(body, action_name_tag_name)
if encoding:
methElement.set(NS_SOAP_ENV + "encodingStyle", encoding)
if arguments:
for arg_name, arg_val in arguments.items():
py_type = type(arg_val)
soap_type = PYTHON_TO_SOAP_TYPE_MAP[py_type]
if soap_type == 'xsd:string':
arg_val = arg_val # pylint: disable=self-assigning-variable
elif soap_type == 'xsd:int' or soap_type == 'xsd:float':
arg_val = str(arg_val)
elif soap_type == 'xsd:boolean':
arg_val = "1" if arg_val else "0"
argElement = SubElement(methElement, arg_name)
if typed and soap_type:
if not isinstance(type, QName):
arg_type = QName(NS_XSD, soap_type)
argElement.set(NS_XSI + "type", soap_type)
argElement.text = arg_val
else:
methElement.text = ""
envelope_content = xml_tostring(envelope, short_empty_elements=False)
content = XML_DOCUMENT_DECLARATION + "\n" + str_cast(envelope_content)
return content
