def _serialize_to_xml(obj, xmlnode):
"""Create XML representation of a Python object (list, tuple,
dist, or basic number and string types)."""
if type(obj) in (list, tuple):
listnode = libxml2.newNode('list')
for li in obj:
itemnode = libxml2.newNode('li')
_serialize_to_xml(li, itemnode)
listnode.addChild(itemnode)
xmlnode.addChild(listnode)
elif type(obj) == dict:
dictnode = libxml2.newNode('dict')
for key, val in obj.iteritems():
itemnode = libxml2.newNode(key.encode('utf-8'))
_serialize_to_xml(val, itemnode)
dictnode.addChild(itemnode)
xmlnode.addChild(dictnode)
elif type(obj) in (str, unicode, int, long, float, complex, bool):
content = libxml2.newText(unicode(obj).encode('utf-8'))
xmlnode.addChild(content)
elif type(obj) == type(None):
pass
else:
raise TypeError('Unsupported type %s while serializing to xml'
% type(obj))
def _add_type_info(self, parent, type, line_number):
elem = xml.newNode("type")
elem.newProp("line_number", str(line_number))
parent.addChild(elem)
canonical_type = type.get_canonical()
elem.newProp("canonical_kind", canonical_type.kind.name)
elem.newProp("kind", type.kind.name)
decl_name = canonical_type.get_declaration().displayname
if decl_name:
elem.newProp("declaration", decl_name)
qualifiers = []
if type.is_const_qualified():
qualifiers.append("const")
if type.is_restrict_qualified():
qualifiers.append("restrict")
if type.is_volatile_qualified():
qualifiers.append("volatile")
if len(qualifiers) > 0:
elem.newProp("qualifiers", str(qualifiers))
if canonical_type.kind == ci.TypeKind.POINTER:
self._add_type_info(elem, canonical_type.get_pointee(), line_number)
if canonical_type.kind in [ci.TypeKind.FUNCTIONPROTO, ci.TypeKind.FUNCTIONNOPROTO]:
result = xml.newNode("result")
elem.addChild(result)
self._add_type_info(result, type.get_result(), line_number)
def genxml(self, x):
if self.type == 'system':
x.openblock(self.type, {'description': self.description})
else:
x.openblock(self.type, {'id': self.id, 'priority': self.priority})
x.openblock('statistics')
x.taggedvalue('samples', str(self.numsamples))
x.taggedvalue('minimum', str(self.min), {"unit": "us"})
x.taggedvalue('maximum', str(self.max), {"unit": "us"})
x.taggedvalue('median', str(self.median), {"unit": "us"})
x.taggedvalue('mode', str(self.mode), {"unit": "us"})
x.taggedvalue('range', str(self.range), {"unit": "us"})
x.taggedvalue('mean', str(self.mean), {"unit": "us"})
x.taggedvalue('mean_absolute_deviation', str(self.mad), {"unit": "us"})
x.taggedvalue('variance', str(self.variance), {"unit": "us"})
x.taggedvalue('standard_deviation', str(self.stddev), {"unit": "us"})
x.closeblock()
h = libxml2.newNode('histogram')
h.newProp('nbuckets', str(len(self.samples)))
keys = self.samples.keys()
keys.sort()
for k in keys:
b = libxml2.newNode('bucket')
b.newProp('index', str(k))
b.newProp('value', str(self.samples[k]))
h.addChild(b)
x.AppendXMLnodes(h)
x.closeblock()
def sxw2rml(sxw_file, xsl, output='.', save_pict=False):
import libxslt
import libxml2
tool = PyOpenOffice(output, save_pict = save_pict)
res = tool.unpackNormalize(sxw_file)
styledoc = libxml2.parseDoc(xsl)
style = libxslt.parseStylesheetDoc(styledoc)
doc = libxml2.parseMemory(res,len(res))
result = style.applyStylesheet(doc, None)
root = result.xpathEval("/document/stylesheet")
if root:
root=root[0]
images = libxml2.newNode("images")
for img in tool.images:
node = libxml2.newNode('image')
node.setProp('name', img)
node.setContent( base64.encodestring(tool.images[img]))
images.addChild(node)
root.addNextSibling(images)
try:
xml = style.saveResultToString(result)
return xml
except:
return result
def __parseToXML(self, node, data):
# All supported variable types needs to be set up
# here. TypeError exception will be raised on
# unknown types.
t = type(data)
if t is unicode or t is str or t is int or t is float:
n = libxml2.newText(self.__encode(data))
node.addChild(n)
elif t is bool:
v = data and "1" or "0"
n = libxml2.newText(self.__encode(v))
node.addChild(n)
elif t is dict:
for (key, val) in data.iteritems():
node2 = libxml2.newNode(self.__encode(self.parsedata_prefix + key, True))
self.__parseToXML(node2, val)
node.addChild(node2)
elif t is tuple:
for v in data:
if type(v) is dict:
self.__parseToXML(node, v)
else:
n = libxml2.newNode(self.tuple_tagname)
self.__parseToXML(n, v)
node.addChild(n)
else:
raise TypeError, "unhandled type (%s) for value '%s'" % (type(data), unicode(data))
def MakeReport(self):
rep_n = libxml2.newNode('cyclictest')
rep_n.newProp('command_line', ' '.join(self.__cmd))
# If it was detected cyclictest was aborted somehow,
# report the reason
abrt_n = libxml2.newNode('abort_report')
abrt = False
if self.__breaktraceval:
abrt_n.newProp('reason', 'breaktrace')
btv_n = abrt_n.newChild(None, 'breaktrace', None)
btv_n.newProp('latency_threshold', str(self.__cfg.breaktrace))
btv_n.newProp('measured_latency', str(self.__breaktraceval))
abrt = True
# Only add the <abort_report/> node if an abortion happened
if abrt:
rep_n.addChild(abrt_n)
rep_n.addChild(self.__cyclicdata["system"].MakeReport())
for thr in self.__cpus:
if str(thr) not in self.__cyclicdata:
continue
rep_n.addChild(self.__cyclicdata[str(thr)].MakeReport())
return rep_n
def sxw2rml(sxw_file, xsl, output='.', save_pict=False):
import libxslt
import libxml2
tool = PyOpenOffice(output, save_pict = save_pict)
res = tool.unpackNormalize(sxw_file)
styledoc = libxml2.parseDoc(xsl)
style = libxslt.parseStylesheetDoc(styledoc)
doc = libxml2.parseMemory(res,len(res))
result = style.applyStylesheet(doc, None)
root = result.xpathEval("/document/stylesheet")
if root:
root=root[0]
images = libxml2.newNode("images")
for img in tool.images:
node = libxml2.newNode('image')
node.setProp('name', img)
node.setContent( base64.encodestring(tool.images[img]))
images.addChild(node)
root.addNextSibling(images)
try:
xml = style.saveResultToString(result)
return xml
except:
return result
def genxml(self, x):
if self.type == 'system':
x.openblock(self.type, {'description':self.description})
else:
x.openblock(self.type, {'id': self.id, 'priority': self.priority})
x.openblock('statistics')
x.taggedvalue('samples', str(self.numsamples))
x.taggedvalue('minimum', str(self.min), {"unit": "us"})
x.taggedvalue('maximum', str(self.max), {"unit": "us"})
x.taggedvalue('median', str(self.median), {"unit": "us"})
x.taggedvalue('mode', str(self.mode), {"unit": "us"})
x.taggedvalue('range', str(self.range), {"unit": "us"})
x.taggedvalue('mean', str(self.mean), {"unit": "us"})
x.taggedvalue('mean_absolute_deviation', str(self.mad), {"unit": "us"})
x.taggedvalue('variance', str(self.variance), {"unit": "us"})
x.taggedvalue('standard_deviation', str(self.stddev), {"unit": "us"})
x.closeblock()
h = libxml2.newNode('histogram')
h.newProp('nbuckets', str(len(self.samples)))
keys = self.samples.keys()
keys.sort()
for k in keys:
b = libxml2.newNode('bucket')
b.newProp('index', str(k))
b.newProp('value', str(self.samples[k]))
h.addChild(b)
x.AppendXMLnodes(h)
x.closeblock()
def add_xml_font(parent_node, name, face_name):
fontset = libxml2.newNode('FontSet')
fontset.setProp('name', name)
font = libxml2.newNode('Font')
font.setProp('face-name', face_name)
fontset.addChild(font)
parent_node.addChild(fontset)
def get_html(self, root = True):
assert (self.edit_mode == "html")
html_node = libxml2.newNode(DOCBOOK_TO_HTML_NODES[self._xml_root.name])
html_node.newProp("data-docbook-type", self._xml_root.name)
self._docbook_to_html_process_properties(self._xml_root, html_node)
if root:
last_child = None
for i in self._children:
if i.get_xml_node().name != "text":
last_child = i
if (i.element_type in ["chapter"] or i.element_type.startswith("sect")):
child_node = i.get_html(False)
else:
child_node = self._docbook_to_html_node(i.get_xml_node())
if type(child_node) != list:
child_node = [child_node]
for j in child_node:
html_node.addChild(j)
if last_child and (last_child.get_xml_node().name == "chapter" or last_child.get_xml_node().name.startswith("sect")):
html_node.addChild(libxml2.newNode("br"))
else:
html_node.newProp("class", "subsection %s mceNonEditable" % self._xml_root.name)
html_node.addChild(libxml2.newText("Subsection (%s) \"%s\"" % (self._xml_root.name, self.title)))
return html_node
def MakeReport(self):
rep_n = libxml2.newNode("uname")
baseos_n = libxml2.newNode("baseos")
baseos_n.addContent(self.get_base_os())
rep_n.addChild(baseos_n)
(sys, node, release, ver, machine) = os.uname()
isrt = 1
if ver.find(' RT ') == -1:
isrt = 0
node_n = libxml2.newNode("node")
node_n.addContent(node)
rep_n.addChild(node_n)
arch_n = libxml2.newNode("arch")
arch_n.addContent(machine)
rep_n.addChild(arch_n)
kernel_n = libxml2.newNode("kernel")
kernel_n.newProp("is_RT", str(isrt))
kernel_n.addContent(release)
rep_n.addChild(kernel_n)
return rep_n
def _docbook_to_html(self, xml_node, is_root = False):
if xml_node.name == "title" and xml_node.parent.name == "figure":
html_node = libxml2.newNode("figcaption")
elif xml_node.name == "emphasis":
if xml_node.prop("role") == "bold":
html_node = libxml2.newNode("strong")
else:
html_node = libxml2.newNode("em")
else:
if xml_node.name in DOCBOOK_TO_HTML_NODES:
html_node = libxml2.newNode(DOCBOOK_TO_HTML_NODES[xml_node.name])
else:
html_node = libxml2.newNode("span")
html_node.newProp("data-docbook-type", xml_node.name)
self._docbook_to_html_process_properties(xml_node, html_node)
if xml_node.name in DOCBOOK_ELEMENT_TYPE_TO_CLASS:
html_node.newProp("class", xml_node.name)
html_node.newProp("data-docbook-type", xml_node.name)
child = xml_node.children
while child:
html_child = self._docbook_to_html_node(child)
if type(html_child) == list:
for i in html_child:
html_node.addChild(i)
elif html_child != None:
html_node.addChild(html_child)
child = child.next
return html_node
def MakeReport(self):
rep_n = libxml2.newNode('cyclictest')
rep_n.newProp('command_line', ' '.join(self.__cmd))
# If it was detected cyclictest was aborted somehow,
# report the reason
abrt_n = libxml2.newNode('abort_report')
abrt = False
if self.__breaktraceval:
abrt_n.newProp('reason', 'breaktrace')
btv_n = abrt_n.newChild(None, 'breaktrace', None)
btv_n.newProp('latency_threshold', str(self.__cfg.breaktrace))
btv_n.newProp('measured_latency', str(self.__breaktraceval))
abrt = True
# Only add the <abort_report/> node if an abortion happened
if abrt:
rep_n.addChild(abrt_n)
rep_n.addChild(self.__cyclicdata["system"].MakeReport())
for thr in range(0, self.__numcores):
if str(thr) not in self.__cyclicdata:
continue
rep_n.addChild(self.__cyclicdata[str(thr)].MakeReport())
return rep_n
def genrate_xml_tree(csv_files, out_data, folder):
for csv_name in csv_files:
print ' ---- generating the xml of %s file' % (csv_name, )
lines = csv.DictReader(open(folder + '/' + csv_name))
line = lines.next()
line.pop('model')
line.pop('id')
fields_type = line
field_names = fields_type.keys()
for line in lines:
out_record = libxml2.newNode('record')
out_record.setProp('id', line.pop('id'))
out_record.setProp('model', line.pop('model'))
out_data.addChild(out_record)
for field_name in field_names:
if line[field_name]:
out_field = libxml2.newNode('field')
out_field.setProp('name', field_name)
type_field = fields_type[field_name]
if not set_property(type_field, line[field_name],
out_field, folder):
out_field.setContent(line[field_name])
out_record.addChild(out_field)
def MakeReport(self):
rep_n = libxml2.newNode("uname")
baseos_n = libxml2.newNode("baseos")
baseos_n.addContent(self.get_base_os())
rep_n.addChild(baseos_n)
(sys, node, release, ver, machine) = os.uname()
isrt = 1
if ver.find(' RT ') == -1:
isrt = 0
node_n = libxml2.newNode("node")
node_n.addContent(node)
rep_n.addChild(node_n)
arch_n = libxml2.newNode("arch")
arch_n.addContent(machine)
rep_n.addChild(arch_n)
kernel_n = libxml2.newNode("kernel")
kernel_n.newProp("is_RT", str(isrt))
kernel_n.addContent(release)
rep_n.addChild(kernel_n)
return rep_n
def add_xml_font(parent_node, name, face_name):
fontset = libxml2.newNode('FontSet')
fontset.setProp('name', name)
font = libxml2.newNode('Font')
font.setProp('face-name', face_name)
fontset.addChild(font)
parent_node.addChild(fontset)
def get_series_xml():
"""
This function returns an XML structure that contains all the series
that are currently in airs, with all properties needed for XSLT -> HTML
"""
dom = libxml2.newDoc("1.0")
root = libxml2.newNode("airs")
dom.addChild(root)
options = _createOptionsNode()
root.addChild(options)
items = libxml2.newNode("series")
root.addChild(items)
todaystr = series_list.date_to_str(datetime.datetime.now())
wdelta = series_list.idx_to_weekdelta(appcfg.options[appcfg.CFG_EPISODE_DELTA])
bottomstr = series_list.date_to_str(datetime.date.today() - datetime.timedelta(weeks = wdelta))
c = db.store.execute("select count(*) from episode where aired != '' and aired <= '%s'"
"and aired > '%s' and new != 0" % (todaystr, bottomstr) )
items.setProp("airedcount", str(c.get_one()[0]))
result = db.store.find(series_list.Series).order_by(series_list.Series.name)
series = [serie for serie in result]
for item in series:
serie = libxml2.newNode("item")
serie.setProp("name", item.name)
serie.setProp("id", str(item.id))
serie.setProp("cancelled", str(item.postponed))
serie.setProp("folder", item.folder)
seriespath = series_list.get_series_path(item)
serie.setProp("mediacount", str(_getMediaCount(seriespath)))
# report total number of episodes and the
# episodes already seen
c = db.store.execute("select count(*) from episode where series_id = %i and aired != '' and aired < '%s'" % \
(item.id, todaystr) )
totalcount = str(c.get_one()[0])
c = db.store.execute("select count(*) from episode where series_id = %i and status = %i" % \
(item.id, series_list.EP_SEEN))
seencount = str(c.get_one()[0])
#c = db.store.execute("select count(*) from episode where series_id = %i and status = 4" % item.id)
#seencount = str(c.get_one()[0])
serie.setProp("seencount", seencount)
serie.setProp("count", totalcount)
items.addChild(serie)
return dom
def _build_node(self):
ciphers = ",".join([
"SSL_RSA_WITH_3DES_EDE_CBC_SHA",
"TLS_RSA_WITH_AES_256_CBC_SHA",
"TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA",
"TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA",
"TLS_ECDH_RSA_WITH_3DES_EDE_CBC_SHA",
"TLS_ECDH_RSA_WITH_AES_128_CBC_SHA",
"TLS_ECDH_RSA_WITH_AES_256_CBC_SHA",
"TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA",
])
# Setup our node configuration
connector = libxml2.newNode("Connector")
self._add_attributes(connector, [
("port", self.port),
("protocol", "HTTP/1.1"),
("SSLEnabled", "true"),
("maxThreads", "150"),
("scheme", "https"),
("secure", "true"),
])
sslconfig = libxml2.newNode("SSLHostConfig")
self._add_attributes(
sslconfig,
[
("certificateVerification", "optional"),
# Note SSLv3 is not included, to avoid poodle
# For the time being, TLSv1 needs to stay enabled in Satellite deployments to support
# existing python-rhsm based clients (RHEL5).
("protocols", "+TLSv1,+TLSv1.1,+TLSv1.2"),
("sslProtocol", "TLS"),
("truststoreFile", "conf/keystore"),
("truststorePassword", "password"),
("truststoreType", "JKS"),
("ciphers", ciphers),
])
certificate = libxml2.newNode("Certificate")
self._add_attributes(certificate, [
("certificateKeystoreFile", "conf/keystore"),
("certificateKeystorePassword", "password"),
("certificateKeystoreType", "JKS"),
])
# Put it all together
# The libxml2 bindings don't provide an obvious way to output indented XML, so we fake
# it here to make it mostly human-readable.
connector.addChild(libxml2.newText("\n "))
connector.addChild(sslconfig)
connector.addChild(libxml2.newText("\n"))
sslconfig.addChild(libxml2.newText("\n "))
sslconfig.addChild(certificate)
sslconfig.addChild(libxml2.newText("\n "))
# Return our top-level node
return connector
def MakeReport(self):
rep_n = libxml2.newNode("cmdlineInfo")
cmdline_n = libxml2.newNode("cmdline")
cmdlineStr = self.read_cmdline()
cmdline_n.addContent(cmdlineStr)
self.__log(Log.DEBUG, cmdlineStr)
rep_n.addChild(cmdline_n)
return rep_n
def journal_parser(out_data, folder, args):
"""
This method generate the account journals xml records taking in base the
account account records in the account account csv of type liquidity.
@param acc_data_list: list of account data information.
"""
# TODO:
# - change the jorunal code to upper case everytime (this is helps for
# thouse personal accounts (no numbers).
# - try to use more account numbers in the journal code.
# - manage the uniqueness of the journal code before write the xml.
my_model = 'account.journal'
bank_data = get_bank_data(folder)
pattern = re.compile(r'(cta|cuenta|cc|cte|ca|no)(\.|-)*(\s)*', re.DOTALL)
pattern2 = re.compile(r'(\s|\.)', re.DOTALL)
field_type = {
'name': 'str',
'code': 'str',
'type': 'str',
'default_credit_account_id': 'ref',
'default_debit_account_id': 'ref',
'company_id': 'ref',
'currency': 'ref',
}
for (index, line) in enumerate(bank_data, 1):
value = dict(
company_id='base.main_company',
type='bank')
value['name'] = unicode(line['aa_name'], 'utf-8')
value['name'] = unidecode.unidecode(value['name'])
value['default_credit_account_id'] = line['aa_xml_id']
value['default_debit_account_id'] = line['aa_xml_id']
xml_id = pattern.sub('', value['name'].lower())
xml_id = pattern2.sub('_', xml_id)
out_record = libxml2.newNode('record')
out_record.setProp('id', 'aj_{}_{}'.format(
args['company_name'], line['aa_xml_id']))
out_record.setProp('model', my_model)
value['code'] = 'BJ{0:03d}'.format(index)
if line['acc_currency']:
value['currency'] = line['acc_currency']
for aj_field in value.keys():
out_field = libxml2.newNode('field')
out_field.setProp('name', aj_field)
if field_type[aj_field] == 'str':
out_field.setContent(value[aj_field])
elif field_type[aj_field] == 'ref':
out_field.setProp('ref', value[aj_field])
else:
assert False, ('Error. This field type is not defined yet.'
'define Field %s' % (aj_field,))
out_record.addChild(out_field)
out_data.addChild(out_record)
return True
def _build_node(self):
ciphers = ",".join([
"SSL_RSA_WITH_3DES_EDE_CBC_SHA",
"TLS_RSA_WITH_AES_256_CBC_SHA",
"TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA",
"TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA",
"TLS_ECDH_RSA_WITH_3DES_EDE_CBC_SHA",
"TLS_ECDH_RSA_WITH_AES_128_CBC_SHA",
"TLS_ECDH_RSA_WITH_AES_256_CBC_SHA",
"TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA",
])
# Setup our node configuration
connector = libxml2.newNode("Connector")
self._add_attributes(connector, [
("port", self.port),
("protocol", "HTTP/1.1"),
("SSLEnabled", "true"),
("maxThreads", "150"),
("scheme", "https"),
("secure", "true"),
])
sslconfig = libxml2.newNode("SSLHostConfig")
self._add_attributes(sslconfig, [
("certificateVerification", "optional"),
# Note SSLv3 is not included, to avoid poodle
# For the time being, TLSv1 needs to stay enabled in Satellite deployments to support
# existing python-rhsm based clients (RHEL5).
("protocols", "+TLSv1,+TLSv1.1,+TLSv1.2"),
("sslProtocol", "TLS"),
("truststoreFile", "conf/keystore"),
("truststorePassword", "password"),
("truststoreType", "JKS"),
("ciphers", ciphers),
])
certificate = libxml2.newNode("Certificate")
self._add_attributes(certificate, [
("certificateKeystoreFile", "conf/keystore"),
("certificateKeystorePassword", "password"),
("certificateKeystoreType", "JKS"),
])
# Put it all together
# The libxml2 bindings don't provide an obvious way to output indented XML, so we fake
# it here to make it mostly human-readable.
connector.addChild(libxml2.newText("\n "))
connector.addChild(sslconfig)
connector.addChild(libxml2.newText("\n"))
sslconfig.addChild(libxml2.newText("\n "))
sslconfig.addChild(certificate)
sslconfig.addChild(libxml2.newText("\n "))
# Return our top-level node
return connector
def journal_parser(out_data, folder, args):
"""
This method generate the account journals xml records taking in base the
account account records in the account account csv of type liquidity.
@param acc_data_list: list of account data information.
"""
# TODO:
# - change the jorunal code to upper case everytime (this is helps for
# thouse personal accounts (no numbers).
# - try to use more account numbers in the journal code.
# - manage the uniqueness of the journal code before write the xml.
my_model = 'account.journal'
bank_data = get_bank_data(folder)
pattern = re.compile(r'(cta|cuenta|cc|cte|ca|no)(\.|-)*(\s)*', re.DOTALL)
pattern2 = re.compile(r'(\s|\.)', re.DOTALL)
field_type = {
'name': 'str',
'code': 'str',
'type': 'str',
'default_credit_account_id': 'ref',
'default_debit_account_id': 'ref',
'company_id': 'ref',
'currency': 'ref',
}
for (index, line) in enumerate(bank_data, 1):
value = dict(company_id='base.main_company', type='bank')
value['name'] = unicode(line['aa_name'], 'utf-8')
value['name'] = unidecode.unidecode(value['name'])
value['default_credit_account_id'] = line['aa_xml_id']
value['default_debit_account_id'] = line['aa_xml_id']
xml_id = pattern.sub('', value['name'].lower())
xml_id = pattern2.sub('_', xml_id)
out_record = libxml2.newNode('record')
out_record.setProp(
'id', 'aj_{}_{}'.format(args['company_name'], line['aa_xml_id']))
out_record.setProp('model', my_model)
value['code'] = 'BJ{0:03d}'.format(index)
if line['acc_currency']:
value['currency'] = line['acc_currency']
for aj_field in value.keys():
out_field = libxml2.newNode('field')
out_field.setProp('name', aj_field)
if field_type[aj_field] == 'str':
out_field.setContent(value[aj_field])
elif field_type[aj_field] == 'ref':
out_field.setProp('ref', value[aj_field])
else:
assert False, ('Error. This field type is not defined yet.'
'define Field %s' % (aj_field, ))
out_record.addChild(out_field)
out_data.addChild(out_record)
return True
def _ConfigQuery(self,
query_type,
path,
leaf=None,
recursive=False,
ctic=None):
doc = libxml2.newDoc("1.0")
doc_node = doc.newChild(None, "wap-provisioningdoc", None)
parent = doc_node
if path is not None:
tokens = path.split(".")
for token in tokens:
node = parent.newChild(None, "characteristic", None)
node.setProp("type", token)
parent = node
else:
tokens = []
if query_type == QUERY_TYPE_GET:
node = libxml2.newNode("characteristic-query")
if not recursive:
node.setProp("recursive", "false")
node.setProp("type", leaf)
elif query_type == QUERY_TYPE_REMOVE:
node = libxml2.newNode("nocharacteristic")
node.setProp("type", leaf)
elif query_type == QUERY_TYPE_SET:
node = characteristics.characteristic_tree_to_xml(ctic, doc)
parent.addChild(node)
logger.debug("_config_query: CeProcessConfig request is \n%s",
doc_node.serialize("utf-8", 1))
reply = self.process_config(doc_node.serialize("utf-8", 0), 1)
reply_doc = libxml2.parseDoc(reply)
logger.debug("_config_query: CeProcessConfig response is \n%s",
reply_doc.serialize("utf-8", 1))
reply_node = xml2util.GetNodeOnLevel(reply_doc, 2 + len(tokens))
if query_type != QUERY_TYPE_SET:
return characteristics.characteristic_tree_from_xml(reply_node)
else:
return None
def get_xml_nodes(self, doc, obj_name=None):
elements, attributes = self.get_elements_and_attributes()
if obj_name is None:
obj_name = self.__class__.__name__
root = libxml2.newNode(obj_name)
for name in attributes:
name_info = self._xml_info[name]
typecast = name_info.get('export_typecast', str)
value = getattr(self, name)
if value is not None:
root.setProp(name, typecast(value))
for name in elements:
try:
if self._xml_info == 'unstructured':
typecast = string_to_xmlnode
list_item_name = None
else:
name_info = self._xml_info[name]
typecast = name_info.get('export_typecast', string_to_xmlnode)
list_item_name = name_info.get('list')
value = getattr(self, name)
if value is None or isinstance(value, list) and len(value) == 0:
continue
if list_item_name:
# Element is list container, iterate over list items
element_node = libxml2.newNode(name)
root.addChild(element_node)
for item in value:
if isinstance(item, XmlSerialize):
child = item.get_xml_nodes(doc, list_item_name)
element_node.addChild(child)
else:
list_item_node = libxml2.newNode(list_item_name)
element_node.addChild(list_item_node)
child = typecast(doc, item)
list_item_node.addChild(child)
else:
# Element is scalar
if isinstance(value, XmlSerialize):
child = value.get_xml_nodes(doc, name)
root.addChild(child)
else:
element_node = libxml2.newNode(name)
root.addChild(element_node)
child = typecast(doc, value)
element_node.addChild(child)
except Exception as e:
syslog.syslog(syslog.LOG_ERR, "%s.%s value=%s" % (self.__class__.__name__, name, value))
return root
def create_xml_node(self, name, context_dict):
node = libxml2.newNode(name)
for k in context_dict.keys():
if (type(context_dict[k])==dict):
childNode = self.create_xml_node(k, context_dict[k])
node.addChild(childNode)
else:
childNode = libxml2.newNode(k)
childNode.addContent(context_dict[k])
node.addChild(childNode)
return node
def create_xml_node(self, name, context_dict):
node = libxml2.newNode(name)
for k in context_dict.keys():
if (type(context_dict[k]) == dict):
childNode = self.create_xml_node(k, context_dict[k])
node.addChild(childNode)
else:
childNode = libxml2.newNode(k)
childNode.addContent(context_dict[k])
node.addChild(childNode)
return node
def _build_node(self):
# <Connector port="8443" protocol="HTTP/1.1"
# scheme="https"
# secure="true"
# SSLEnabled="true"
# maxThreads="150">
#
# <SSLHostConfig certificateVerification="optional"
# protocols="+TLSv1,+TLSv1.1,+TLSv1.2"
# sslProtocol="TLS"
# ciphers="SSL_RSA_WITH_3DES_EDE_CBC_SHA,TLS_RSA_WITH_AES_256_CBC_SHA,TLS_ECDH_ECDSA_WITH_AES_128_CBC_SHA,TLS_ECDH_ECDSA_WITH_AES_256_CBC_SHA,TLS_ECDH_RSA_WITH_3DES_EDE_CBC_SHA,TLS_ECDH_RSA_WITH_AES_128_CBC_SHA,TLS_ECDH_RSA_WITH_AES_256_CBC_SHA,TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA">
#
# <Certificate
# certificateFile="/etc/candlepin/certs/candlepin-ca.crt"
# certificateKeyFile="/etc/candlepin/certs/candlepin-ca.key"
# type="RSA"
# />
# </SSLHostConfig>
# </Connector>
connector = libxml2.newNode("Connector")
self._add_attributes(connector, self.attributes)
ssl_host_config = libxml2.newNode("SSLHostConfig")
self._add_attributes(ssl_host_config, [
("certificateVerification", "optional"),
# Note SSLv3 is not included, to avoid poodle
# For the time being, TLSv1 needs to stay enabled in Satellite deployments to support
# existing python-rhsm based clients (RHEL5).
("protocols", "+TLSv1,+TLSv1.1,+TLSv1.2"),
("sslProtocol", "TLS"),
("ciphers", ",".join(SSL_CIPHERS))
])
certificate = libxml2.newNode("Certificate")
self._add_attributes(certificate, [
('certificateFile', '/etc/candlepin/certs/candlepin-ca.crt'),
('certificateKeyFile', '/etc/candlepin/certs/candlepin-ca.key'),
('type', 'RSA')
])
# Put it all together
# The libxml2 bindings don't provide an obvious way to output indented XML, so we fake
# it here to make it mostly human-readable.
connector.addChild(libxml2.newText("\n "))
connector.addChild(ssl_host_config)
connector.addChild(libxml2.newText("\n"))
ssl_host_config.addChild(libxml2.newText("\n "))
ssl_host_config.addChild(certificate)
ssl_host_config.addChild(libxml2.newText("\n "))
# return
return connector
def setDateAdded(self, dateadded):
dateaddedValueNodes = self.xmlNode.xpathEval("date[preceding-sibling::* = 'Date Added'][1]")
if len(dateaddedValueNodes) == 0:
newdateaddedKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newdateaddedKeyNode)
newdateaddedKeyNode.setContent("Date Added")
dateaddedValueNode = libxml2.newNode("first-seen")
newdateaddedKeyNode.addSibling(dateaddedValueNode)
else:
dateaddedValueNode = dateaddedValueNodes[0]
dateaddedValueNode.setContent(str(dateadded))
def setPlaycount(self, playcount):
playcountValueNodes = self.xmlNode.xpathEval("integer[preceding-sibling::* = 'Play Count'][1]")
if len(playcountValueNodes) == 0:
newPlaycountKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newPlaycountKeyNode)
newPlaycountKeyNode.setContent("Play Count")
playcountValueNode = libxml2.newNode("integer")
newPlaycountKeyNode.addSibling(playcountValueNode)
else:
playcountValueNode = playcountValueNodes[0]
playcountValueNode.setContent(str(playcount))
def setRating(self, rating):
ratingValueNodes = self.xmlNode.xpathEval("integer[preceding-sibling::* = 'Rating'][1]")
if len(ratingValueNodes) == 0:
newRatingKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newRatingKeyNode)
newRatingKeyNode.setContent("Rating")
ratingValueNode = libxml2.newNode("integer")
newRatingKeyNode.addSibling(ratingValueNode)
else:
ratingValueNode = ratingValueNodes[0]
ratingValueNode.setContent(str(rating))
def newVol(self, req):
conn = util.getConnection()
ret = dict()
try:
if not req.args.has_key('source'):
raise BaseException()
pool = conn.storagePoolLookupByName(req.args['source'][0])
doc = libxml2.parseDoc(pool.XMLDesc(0))
root = doc.getRootElement()
pool_type = root.prop('type')
poolInfo = pool.info()
disk_size = int(req.args['size'][0])
if disk_size * 1024 * 1024 * 1024 > poolInfo[3]:
raise BaseException()
disk_prefix = None
if req.args.has_key('prefix'):
disk_prefix = req.args['prefix'][0]
else:
disk_prefix = str(uuid.uuid4())
disk_idx = 1
disk_name = disk_prefix + '-' + str(disk_idx)
while True:
try:
pool.storageVolLookupByName(disk_name)
disk_idx = disk_idx + 1
disk_name = disk_prefix + '-' + str(disk_idx)
continue
except:
break
volDoc = libxml2.parseDoc('<volume/>')
volRoot = volDoc.getRootElement()
node = libxml2.newNode('name')
node.setContent(disk_name)
volRoot.addChild(node)
node = libxml2.newNode('capacity')
node.newProp('unit', 'G')
node.setContent(str(disk_size))
volRoot.addChild(node)
if pool_type == 'dir':
node = libxml2.newNode('allocation')
node.newProp('unit', 'G')
node.setContent('0')
volRoot.addChild(node)
vol = pool.createXML(volRoot.serialize(), 0)
ret['prefix'] = disk_prefix
ret['path'] = vol.path()
ret['size'] = vol.info()[1]
except:
pass
finally:
conn.close()
return ret
def postProcessXmlTranslation(self, doc, language, translators,
translation):
"""Sets a language and translators in "doc" tree.
"translators" is a string consisted of "Name <email>, years" pairs
of each translator, separated by newlines."""
root = doc.getRootElement()
# DocBook documents can be something other than article, handle that as well in the future
while root and root.name != 'article' and root.name != 'book':
root = root.next
if root and (root.name == 'article' or root.name == 'book'):
root.setProp('lang', language)
else:
return
if translators == self.getStringForTranslators():
return
elif translators:
# Now, lets find 'articleinfo' (it can be something else, but this goes along with 'article')
ai = self._find_articleinfo(root)
if not ai:
return
# Now, lets do one translator at a time
lines = translators.split("\n")
for line in lines:
line = line.strip()
match = re.match(r"^([^<,]+)\s*(?:<([^>,]+)>)?,?\s*(.*)$",
line)
if match:
last = self._find_lastcopyright(ai)
copy = libxml2.newNode("othercredit")
# copy.setProp("class", "translator")
if last:
copy = last.addNextSibling(copy)
else:
ai.addChild(copy)
if match.group(3):
copy.newChild(None, "year",
match.group(3).encode('utf-8'))
holder = libxml2.newNode("othername")
if match.group(1) and match.group(2):
holder.setContent(
(match.group(1) + "(").encode('utf-8'))
holder.newChild(None, "email",
match.group(2).encode('utf-8'))
holder.addContent(")")
elif match.group(1):
holder.setContent(match.group(1).encode('utf-8'))
elif match.group(2):
holder.setContent(match.group(2).encode('utf-8'))
copy.newChild(None, "contrib", translation.encode('utf-8'))
copy.addChild(holder)
def setPlaycount(self, playcount):
playcountValueNodes = self.xmlNode.xpathEval(
"integer[preceding-sibling::* = 'Play Count'][1]")
if len(playcountValueNodes) == 0:
newPlaycountKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newPlaycountKeyNode)
newPlaycountKeyNode.setContent("Play Count")
playcountValueNode = libxml2.newNode("integer")
newPlaycountKeyNode.addSibling(playcountValueNode)
else:
playcountValueNode = playcountValueNodes[0]
playcountValueNode.setContent(str(playcount))
def setRating(self, rating):
ratingValueNodes = self.xmlNode.xpathEval(
"integer[preceding-sibling::* = 'Rating'][1]")
if len(ratingValueNodes) == 0:
newRatingKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newRatingKeyNode)
newRatingKeyNode.setContent("Rating")
ratingValueNode = libxml2.newNode("integer")
newRatingKeyNode.addSibling(ratingValueNode)
else:
ratingValueNode = ratingValueNodes[0]
ratingValueNode.setContent(str(rating))
def setDateAdded(self, dateadded):
dateaddedValueNodes = self.xmlNode.xpathEval(
"date[preceding-sibling::* = 'Date Added'][1]")
if len(dateaddedValueNodes) == 0:
newdateaddedKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newdateaddedKeyNode)
newdateaddedKeyNode.setContent("Date Added")
dateaddedValueNode = libxml2.newNode("first-seen")
newdateaddedKeyNode.addSibling(dateaddedValueNode)
else:
dateaddedValueNode = dateaddedValueNodes[0]
dateaddedValueNode.setContent(str(dateadded))
def MakeReport(self):
srvs = self.services_get()
rep_n = libxml2.newNode("Services")
rep_n.newProp("init", self.__init)
for s in srvs:
srv_n = libxml2.newNode("Service")
srv_n.newProp("state", srvs[s])
srv_n.addContent(s)
rep_n.addChild(srv_n)
return rep_n
def setPlayDate(self, playdate):
playdateValueNodes = self.xmlNode.xpathEval(
"integer[preceding-sibling::* = 'Play Date UTC'][1]")
if len(playdateValueNodes) == 0:
newPlayDateKeyNode = libxml2.newNode("key")
self.xmlNode.addChild(newPlayDateKeyNode)
newPlayDateKeyNode.setContent("Play Date UTC")
playdateValueNode = libxml2.newNode("last-played")
newPlayDateKeyNode.addSibling(playdateValueNode)
else:
playdateValueNode = playdateValueNodes[0]
playdateValueNode.setContent(str(playdate))
def MakeReport(self):
srvs = self.services_get()
rep_n = libxml2.newNode("Services")
rep_n.newProp("init", self.__init)
for s in srvs:
srv_n = libxml2.newNode("Service")
srv_n.newProp("state", srvs[s])
srv_n.addContent(s)
rep_n.addChild(srv_n)
return rep_n
def get_xml_nodes(self, doc, obj_name=None):
elements, attributes = self.get_elements_and_attributes()
if obj_name is None:
obj_name = self.__class__.__name__
root = libxml2.newNode(obj_name)
for name in attributes:
name_info = self._xml_info[name]
typecast = name_info.get('export_typecast', str)
value = getattr(self, name)
if value is not None:
root.setProp(name, typecast(value))
for name in elements:
try:
if self._xml_info == 'unstructured':
typecast = string_to_xmlnode
list_item_name = None
else:
name_info = self._xml_info[name]
typecast = name_info.get('export_typecast', string_to_xmlnode)
list_item_name = name_info.get('list')
value = getattr(self, name)
if value is None or isinstance(value, list) and len(value) == 0: continue
if list_item_name:
# Element is list container, iterate over list items
element_node = libxml2.newNode(name)
root.addChild(element_node)
for item in value:
if isinstance(item, XmlSerialize):
child = item.get_xml_nodes(doc, list_item_name)
element_node.addChild(child)
else:
list_item_node = libxml2.newNode(list_item_name)
element_node.addChild(list_item_node)
child = typecast(doc, item)
list_item_node.addChild(child)
else:
# Element is scalar
if isinstance(value, XmlSerialize):
child = value.get_xml_nodes(doc, name)
root.addChild(child)
else:
element_node = libxml2.newNode(name)
root.addChild(element_node)
child = typecast(doc, value)
element_node.addChild(child)
except Exception, e:
syslog.syslog(syslog.LOG_ERR, "%s.%s value=%s" % (self.__class__.__name__, name, value))
def __generate_internal_xml(self):
"Private method: Generates the internal XML needed for XSLT template"
# Generate new XML document and set <submit/> to be the root tag
xml = libxml2.newDoc('1.0')
submit_node = libxml2.newNode('submit')
xml.setRootElement(submit_node)
# Add white board text if set
wb_node = libxml2.newNode('whiteboard')
if self.whiteboard is not None:
wb_node.addChild(libxml2.newText(self.whiteboard))
submit_node.addChild(wb_node)
# Add the recipe node ...
recipe_node = libxml2.newNode('recipe')
submit_node.addChild(recipe_node)
# ... and add all the defined arguments
for key in self.jobargs.GetArgumentKeys():
if self.jobargs.IsProcessed(key):
continue
(tagname, tagnode) = self.jobargs.CreateTag(key)
arg = self.jobargs.GetNextArgumentOnTag(tagname)
while arg is not None:
if arg['value']:
recipe_node.addChild(tagnode)
if arg['tagvaluetype'] == 'value':
tagnode.addChild(
libxml2.newText(
self.__format_xml_value(
arg['argtype'], arg['value'])))
elif arg['tagvaluetype'] == 'attribute':
tagnode.newProp(
arg['tagvaluename'],
self.__format_xml_value(arg['argtype'],
arg['value']))
elif arg['tagvaluetype'] == "list":
for listval in arg["value"].split(","):
tagchild_n = self.jobargs.CreateChildTag(key)
tagchild_n.addChild(libxml2.newText(listval))
else:
raise Exception(
"Unknown <tag/> type '%s' found in '%s'" %
(arg['tagvaluetype'], key))
self.jobargs.SetProcessed()
arg = self.jobargs.GetNextArgumentOnTag(tagname)
return xml
def MakeReport(self):
rep_n = libxml2.newNode("Memory")
numa_n = libxml2.newNode("numa_nodes")
numa_n.addContent(str(self.mem_get_numa_nodes()))
rep_n.addChild(numa_n)
memsize = self.mem_get_size()
mem_n = libxml2.newNode("memory_size")
mem_n.addContent("%.3f" % memsize[0])
mem_n.newProp("unit", memsize[1])
rep_n.addChild(mem_n)
return rep_n
def doParamList(parentNode, srcNode):
"""
Convert the parameter list
"""
params = srcNode.xpathEval2("attributelist/parmlist/parm")
if params:
plist = libxml2.newNode("paramlist")
for p in params:
pnode = libxml2.newNode("param")
pnode.setProp("name", getAttr(p, "name"))
pnode.setProp("type", fixType(getAttr(p, "type")))
pnode.setProp("default", getAttr(p, "value"))
plist.addChild(pnode)
parentNode.addChild(plist)
def MakeReport(self):
rep_n = libxml2.newNode("Memory")
numa_n = libxml2.newNode("numa_nodes")
numa_n.addContent(str(self.mem_get_numa_nodes()))
rep_n.addChild(numa_n)
memsize = self.mem_get_size()
mem_n = libxml2.newNode("memory_size")
mem_n.addContent("%.3f" % memsize[0])
mem_n.newProp("unit", memsize[1])
rep_n.addChild(mem_n)
return rep_n
def __create_property(self, propName, value):
'''Creates a property xml node for output '''
node = libxml2.newNode('property')
node.setProp('name', propName)
node.addContent(value)
return node
def CreateChildTag(self, key):
"""Create a child node for a node created by CreateTag(), used by lists"""
tagname = self.arguments[key]['tagname_childs']
tagnode = libxml2.newNode(tagname)
self.current_node.addChild(tagnode)
return tagnode
def _append_copyright(self, root, translators):
# Now, lets find 'articleinfo' (it can be something else, but this goes along with 'article')
ai = self._find_articleinfo(root)
if not ai:
return
# Now, lets do one translator at a time
lines = translators.split("\n")
for line in lines:
line = line.strip()
match = re.match(r"^([^<,]+)\s*(?:<([^>,]+)>)?,\s*(.*)$", line)
if match:
last = self._find_lastcopyright(ai)
copy = libxml2.newNode("copyright")
if last:
copy = last.addNextSibling(copy)
else:
ai.addChild(copy)
if match.group(3):
copy.newChild(None, "year", match.group(3).encode('utf-8'))
if match.group(1) and match.group(2):
holder = match.group(1).strip()+" (%s)" % match.group(2).strip()
elif match.group(1):
holder = match.group(1)
elif match.group(2):
holder = match.group(2)
else:
holder = "???"
copy.newChild(None, "holder", holder.encode('utf-8'))
def _html_to_docbook_node(self, html_node):
if html_node.name == "text":
return html_node.copyNode(False)
elif html_node.prop("data-docbook-type") == "footnote":
res = libxml2.newNode("footnote")
child = libxml2.htmlParseDoc(html_node.prop("data-footnote"), "utf-8").getRootElement().children.children
while child:
res.addChild(self._html_to_docbook(child))
child = child.next
self._html_to_docbook_process_properties(html_node, res)
return res
elif html_node.name in ["div", "span"] and html_node.prop("data-docbook-type") in DOCBOOK_ELEMENT_TYPE_TO_CLASS:
res = self._html_to_docbook(html_node)
self._html_to_docbook_process_properties(html_node, res)
return res
elif html_node.name in HTML_TO_DOCBOOK_NODES or html_node.prop("data-docbook-type"):
res = self._html_to_docbook(html_node)
self._html_to_docbook_process_properties(html_node, res)
return res
else:
if not html_node.name in HTML_JUMP_NODES:
self._warn_unconverted_html_node_type(html_node.name)
res = []
subchild = html_node.children
while subchild:
xml_child = self._html_to_docbook_node(subchild)
if type(xml_child) == list:
res += xml_child
elif xml_child != None:
res.append(xml_child)
subchild = subchild.next
return res
def _encode(self,
doc,
tag,
children,
attributes,
value,
cdata,
ns,
nsMap={}):
node = libxml2.newNode(tag)
if ns:
# create a prefix for the ns
if not ns in nsMap:
nsMap[ns] = 'ns%d' % (len(nsMap) + 1)
prefix = nsMap[ns]
node.setNs(node.newNs(ns, prefix))
for k, v in attributes.items():
node.setProp(k, v)
if children:
for (tag, attr) in children:
node.addChild(
self._encode(doc, tag, attr.get('children'),
attr.get('attributes', {}), attr.get('value'),
attr.get('cdata'), attr.get('ns'), nsMap))
else:
if cdata:
node.addChild(doc.newCDataBlock(value, len(value)))
else:
node.addChild(libxml2.newText(value))
return node
def _append_othercredit(self, root, translators):
# Now, lets find 'articleinfo' (it can be something else, but this goes along with 'article')
ai = self._find_authorgroup(root)
if not ai:
return
# Now, lets do one translator at a time
lines = translators.split("\n")
for line in lines:
line = line.strip()
match = re.match(r"^([^<,]+)\s*(?:<([^>,]+)>)?,\s*(.*)$", line)
if match and (match.group(1) or match.group(2)):
last = self._find_lastothercredit(ai)
copy = libxml2.newNode("othercredit")
copy.setProp("class", "translator")
if last:
copy = last.addNextSibling(copy)
else:
ai.addChild(copy)
if match.group(1):
name = match.group(1).strip()
if len(name) < 1:
copy.newChild(None, "firstname", "???")
elif name.find(" ") == -1:
copy.newChild(None, "firstname", name.encode('utf-8'))
else:
firstname = name[:name.find(" ")]
surname = name[name.find(" "):].strip()
copy.newChild(None, "firstname", firstname.encode('utf-8'))
copy.newChild(None, "surname", surname.encode('utf-8'))
if match.group(2):
copy.newChild(None, "email", match.group(2).encode('utf-8'))
def openPosition(self):
dataRoot = libxml2.newNode('document')
dataRoot.docSetRootElement(self.xml)
cmd = libxml2.newNode('cmd')
cmd.setProp('broker', 'FXCM')
cmd.setProp('type', 'ClosePosition')
dataRoot.addChild(cmd)
instrument = libxml2.newNode('Instrument')
instrument.setContent(self.instrument)
cmd.addChild(instrument)
ID = libxml2.newNode('ID')
ID.setContent(str(self.id))
cmd.addChild(ID)
def call_gen(self, chain, type, dir, options):
filename = os.path.join(dir, options.name+".xml")
xmldoc = libxml2.parseFile(filename)
p = xmldoc.xpathNewContext()
supplied_arguments = options.arguments
if (hasattr(options,'element') and options.element):
element = options.element
else:
element='*'
for option in supplied_arguments:
option_name = option['name']
option_value = getattr(options,option_name)
if (hasattr(options,option_name) and getattr(options,option_name)):
context = p.xpathEval("//rule[@element='%s' or @element='*']/argument[name='%s']"%(element, option_name))
if (not context):
raise Exception('Unknown option %s for match %s and element %s'%(option,option['name'], element))
else:
# Add the value of option
valueNode = libxml2.newNode('value')
valueNode.addContent(option_value)
context[0].addChild(valueNode)
filename = self.getnextfilename(type,chain)
file_path = os.path.join(sfatables_config, chain, filename)
if not os.path.isdir(os.path.dirname(file_path)):
os.makedirs(os.path.dirname(file_path))
xmldoc.saveFile(file_path)
p.xpathFreeContext()
xmldoc.freeDoc()
return True
def CreateChildTag(self, key):
"""Create a child node for a node created by CreateTag(), used by lists"""
tagname = self.arguments[key]['tagname_childs']
tagnode = libxml2.newNode(tagname)
self.current_node.addChild(tagnode)
return tagnode
def processModule(newDocNode, modulename):
"""
Start processing a new XML file, create a module element and then
find the include elements
"""
filename = os.path.join(SRC, "%s_swig.xml" % modulename)
print filename
doc = libxml2.parseFile(filename)
topNode = doc.getRootElement()
# make a module element
name = getAttr(topNode, "module")
##assert name == modulename # sanity check
moduleNode = libxml2.newNode("module")
moduleNode.setProp("name", name)
newDocNode.addChild(moduleNode)
node = topNode.children
while node is not None:
if node.name == "include":
processInclude(moduleNode, node)
node = node.next
doc.freeDoc()
def _append_copyright(self, root, translators):
# Now, lets find 'articleinfo' (it can be something else, but this goes along with 'article')
ai = self._find_articleinfo(root)
if not ai:
return
# Now, lets do one translator at a time
lines = translators.split("\n")
for line in lines:
line = line.strip()
match = re.match(r"^([^<,]+)\s*(?:<([^>,]+)>)?,\s*(.*)$", line)
if match:
last = self._find_lastcopyright(ai)
copy = libxml2.newNode("copyright")
if last:
copy = last.addNextSibling(copy)
else:
ai.addChild(copy)
if match.group(3):
copy.newChild(None, "year", match.group(3).encode('utf-8'))
if match.group(1) and match.group(2):
holder = match.group(
1).strip() + " (%s)" % match.group(2).strip()
elif match.group(1):
holder = match.group(1)
elif match.group(2):
holder = match.group(2)
else:
holder = "???"
copy.newChild(None, "holder", holder.encode('utf-8'))
def _append_othercredit(self, root, translators):
# Now, lets find 'articleinfo' (it can be something else, but this goes along with 'article')
ai = self._find_authorgroup(root)
if not ai:
return
# Now, lets do one translator at a time
lines = translators.split("\n")
for line in lines:
line = line.strip()
match = re.match(r"^([^<,]+)\s*(?:<([^>,]+)>)?,\s*(.*)$", line)
if match and (match.group(1) or match.group(2)):
last = self._find_lastothercredit(ai)
copy = libxml2.newNode("othercredit")
copy.setProp("class", "translator")
if last:
copy = last.addNextSibling(copy)
else:
ai.addChild(copy)
if match.group(1):
name = match.group(1).strip()
if len(name) < 1:
copy.newChild(None, "firstname", "???")
elif name.find(" ") == -1:
copy.newChild(None, "firstname", name.encode('utf-8'))
else:
firstname = name[:name.find(" ")]
surname = name[name.find(" "):].strip()
copy.newChild(None, "firstname",
firstname.encode('utf-8'))
copy.newChild(None, "surname", surname.encode('utf-8'))
if match.group(2):
copy.newChild(None, "email",
match.group(2).encode('utf-8'))
def initializate_xml_out():
out_doc = libxml2.parseDoc("<openerp/>")
out_root = out_doc.getRootElement()
out_data = libxml2.newNode('data')
out_data.setProp('noupdate','1')
out_root.addChild(out_data)
return out_doc, out_data
def add_xml_node_with_param(parent_node, node_name, node_value, parameter_name,
parameter_value):
if attr_to_string(node_value) is not None:
node = libxml2.newNode(node_name)
node.setContent(attr_to_string(node_value))
set_xml_param(node, parameter_name, parameter_value)
parent_node.addChild(node)
def _handle_node(nodename, parentnode, parentpath):
# If the passed xpath snippet (nodename) exists, return the node
# If it doesn't exist, create it, and return the new node
# If nodename is a node property, we can handle it up front
if nodename.startswith("@"):
nodename = nodename.strip("@")
return parentnode.setProp(nodename, ""), parentpath
if not parentpath:
parentpath = nodename
else:
parentpath += "/%s" % nodename
# See if the xpath node already exists
node = _get_xpath_node(ctx, parentpath)
if node:
# xpath node already exists, so we don't need to create anything
return node, parentpath
# If we don't have a parentnode by this point, the root of the
# xpath didn't find anything. Usually a coding error
if not parentnode:
raise RuntimeError("Could not find XML root node")
# Remove conditional xpath elements for node creation. We preserved
# them up until this point since it was needed for proper xpath
# lookup, but they aren't valid syntax when creating the node
if nodename.count("["):
nodename = nodename[:nodename.index("[")]
newnode = libxml2.newNode(nodename)
return _add_pretty_child(parentnode, newnode), parentpath
