Limnoria/plugins/Google/SOAP.py
2005-02-01 12:09:12 +00:00

3978 lines
124 KiB
Python

################################################################################
#
# SOAP.py 0.9.7 - Cayce Ullman (cayce@actzero.com)
# Brian Matthews (blm@actzero.com)
#
# INCLUDED:
# - General SOAP Parser based on sax.xml (requires Python 2.0)
# - General SOAP Builder
# - SOAP Proxy for RPC client code
# - SOAP Server framework for RPC server code
#
# FEATURES:
# - Handles all of the types in the BDG
# - Handles faults
# - Allows namespace specification
# - Allows SOAPAction specification
# - Homogeneous typed arrays
# - Supports multiple schemas
# - Header support (mustUnderstand and actor)
# - XML attribute support
# - Multi-referencing support (Parser/Builder)
# - Understands SOAP-ENC:root attribute
# - Good interop, passes all client tests for Frontier, SOAP::LITE, SOAPRMI
# - Encodings
# - SSL clients (with OpenSSL configured in to Python)
# - SSL servers (with OpenSSL configured in to Python and M2Crypto installed)
#
# TODO:
# - Timeout on method calls - MCU
# - Arrays (sparse, multidimensional and partial) - BLM
# - Clean up data types - BLM
# - Type coercion system (Builder) - MCU
# - Early WSDL Support - MCU
# - Attachments - BLM
# - setup.py - MCU
# - mod_python example - MCU
# - medusa example - MCU
# - Documentation - JAG
# - Look at performance
#
################################################################################
#
# Copyright (c) 2001, Cayce Ullman.
# Copyright (c) 2001, Brian Matthews.
#
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# Redistributions of source code must retain the above copyright notice, this
# list of conditions and the following disclaimer.
#
# Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# Neither the name of actzero, inc. nor the names of its contributors may
# be used to endorse or promote products derived from this software without
# specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR
# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
# ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
################################################################################
#
# Additional changes:
# 0.9.7.3 - 4/18/2002 - Mark Pilgrim (f8dy@diveintomark.org)
# added dump_dict as alias for dump_dictionary for Python 2.2 compatibility
# 0.9.7.2 - 4/12/2002 - Mark Pilgrim (f8dy@diveintomark.org)
# fixed logic to unmarshal the value of "null" attributes ("true" or "1"
# means true, others false)
# 0.9.7.1 - 4/11/2002 - Mark Pilgrim (f8dy@diveintomark.org)
# added "dump_str" as alias for "dump_string" for Python 2.2 compatibility
# Between 2.1 and 2.2, type("").__name__ changed from "string" to "str"
################################################################################
import xml.sax
import UserList
import base64
import cgi
import urllib
import exceptions
import copy
import re
import socket
import string
import sys
import time
import SocketServer
from types import *
try: from M2Crypto import SSL
except: pass
ident = '$Id: SOAP.py,v 1.8 2004/09/30 08:09:08 jemfinch dead $'
__version__ = "0.9.7.3"
# Platform hackery
# Check float support
try:
float("NaN")
float("INF")
float("-INF")
good_float = 1
except:
good_float = 0
################################################################################
# Exceptions
################################################################################
class Error(exceptions.Exception):
def __init__(self, msg):
self.msg = msg
def __str__(self):
return "<Error : %s>" % self.msg
__repr__ = __str__
class RecursionError(Error):
pass
class UnknownTypeError(Error):
pass
class HTTPError(Error):
# indicates an HTTP protocol error
def __init__(self, code, msg):
self.code = code
self.msg = msg
def __str__(self):
return "<HTTPError %s %s>" % (self.code, self.msg)
__repr__ = __str__
##############################################################################
# Namespace Class
################################################################################
def invertDict(dict):
d = {}
for k, v in dict.items():
d[v] = k
return d
class NS:
XML = "http://www.w3.org/XML/1998/namespace"
ENV = "http://schemas.xmlsoap.org/soap/envelope/"
ENC = "http://schemas.xmlsoap.org/soap/encoding/"
XSD = "http://www.w3.org/1999/XMLSchema"
XSD2 = "http://www.w3.org/2000/10/XMLSchema"
XSD3 = "http://www.w3.org/2001/XMLSchema"
XSD_L = [XSD, XSD2, XSD3]
EXSD_L= [ENC, XSD, XSD2, XSD3]
XSI = "http://www.w3.org/1999/XMLSchema-instance"
XSI2 = "http://www.w3.org/2000/10/XMLSchema-instance"
XSI3 = "http://www.w3.org/2001/XMLSchema-instance"
XSI_L = [XSI, XSI2, XSI3]
URN = "http://soapinterop.org/xsd"
# For generated messages
XML_T = "xml"
ENV_T = "SOAP-ENV"
ENC_T = "SOAP-ENC"
XSD_T = "xsd"
XSD2_T= "xsd2"
XSD3_T= "xsd3"
XSI_T = "xsi"
XSI2_T= "xsi2"
XSI3_T= "xsi3"
URN_T = "urn"
NSMAP = {ENV_T: ENV, ENC_T: ENC, XSD_T: XSD, XSD2_T: XSD2,
XSD3_T: XSD3, XSI_T: XSI, XSI2_T: XSI2, XSI3_T: XSI3,
URN_T: URN}
NSMAP_R = invertDict(NSMAP)
STMAP = {'1999': (XSD_T, XSI_T), '2000': (XSD2_T, XSI2_T),
'2001': (XSD3_T, XSI3_T)}
STMAP_R = invertDict(STMAP)
def __init__(self):
raise Error, "Don't instantiate this"
################################################################################
# Configuration class
################################################################################
class SOAPConfig:
__readonly = ('SSLserver', 'SSLclient')
def __init__(self, config = None, **kw):
d = self.__dict__
if config:
if not isinstance(config, SOAPConfig):
raise AttributeError, \
"initializer must be SOAPConfig instance"
s = config.__dict__
for k, v in s.items():
if k[0] != '_':
d[k] = v
else:
# Setting debug also sets returnFaultInfo, dumpFaultInfo,
# dumpHeadersIn, dumpHeadersOut, dumpSOAPIn, and dumpSOAPOut
self.debug = 0
# Setting namespaceStyle sets typesNamespace, typesNamespaceURI,
# schemaNamespace, and schemaNamespaceURI
self.namespaceStyle = '1999'
self.strictNamespaces = 0
self.typed = 1
self.buildWithNamespacePrefix = 1
self.returnAllAttrs = 0
try: SSL; d['SSLserver'] = 1
except: d['SSLserver'] = 0
try: socket.ssl; d['SSLclient'] = 1
except: d['SSLclient'] = 0
for k, v in kw.items():
if k[0] != '_':
setattr(self, k, v)
def __setattr__(self, name, value):
if name in self.__readonly:
raise AttributeError, "readonly configuration setting"
d = self.__dict__
if name in ('typesNamespace', 'typesNamespaceURI',
'schemaNamespace', 'schemaNamespaceURI'):
if name[-3:] == 'URI':
base, uri = name[:-3], 1
else:
base, uri = name, 0
if type(value) == StringType:
if NS.NSMAP.has_key(value):
n = (value, NS.NSMAP[value])
elif NS.NSMAP_R.has_key(value):
n = (NS.NSMAP_R[value], value)
else:
raise AttributeError, "unknown namespace"
elif type(value) in (ListType, TupleType):
if uri:
n = (value[1], value[0])
else:
n = (value[0], value[1])
else:
raise AttributeError, "unknown namespace type"
d[base], d[base + 'URI'] = n
try:
d['namespaceStyle'] = \
NS.STMAP_R[(d['typesNamespace'], d['schemaNamespace'])]
except:
d['namespaceStyle'] = ''
elif name == 'namespaceStyle':
value = str(value)
if not NS.STMAP.has_key(value):
raise AttributeError, "unknown namespace style"
d[name] = value
n = d['typesNamespace'] = NS.STMAP[value][0]
d['typesNamespaceURI'] = NS.NSMAP[n]
n = d['schemaNamespace'] = NS.STMAP[value][1]
d['schemaNamespaceURI'] = NS.NSMAP[n]
elif name == 'debug':
d[name] = \
d['returnFaultInfo'] = \
d['dumpFaultInfo'] = \
d['dumpHeadersIn'] = \
d['dumpHeadersOut'] = \
d['dumpSOAPIn'] = \
d['dumpSOAPOut'] = value
else:
d[name] = value
Config = SOAPConfig()
################################################################################
# Types and Wrappers
################################################################################
class anyType:
_validURIs = (NS.XSD, NS.XSD2, NS.XSD3, NS.ENC)
def __init__(self, data = None, name = None, typed = 1, attrs = None):
if self.__class__ == anyType:
raise Error, "anyType can't be instantiated directly"
if type(name) in (ListType, TupleType):
self._ns, self._name = name
else:
self._ns, self._name = self._validURIs[0], name
self._typed = typed
self._attrs = {}
self._cache = None
self._type = self._typeName()
self._data = self._checkValueSpace(data)
if attrs != None:
self._setAttrs(attrs)
def __str__(self):
if self._name:
return "<%s %s at %d>" % (self.__class__, self._name, id(self))
return "<%s at %d>" % (self.__class__, id(self))
__repr__ = __str__
def _checkValueSpace(self, data):
return data
def _marshalData(self):
return str(self._data)
def _marshalAttrs(self, ns_map, builder):
a = ''
for attr, value in self._attrs.items():
ns, n = builder.genns(ns_map, attr[0])
a += n + ' %s%s="%s"' % \
(ns, attr[1], cgi.escape(str(value), 1))
return a
def _fixAttr(self, attr):
if type(attr) in (StringType, UnicodeType):
attr = (None, attr)
elif type(attr) == ListType:
attr = tuple(attr)
elif type(attr) != TupleType:
raise AttributeError, "invalid attribute type"
if len(attr) != 2:
raise AttributeError, "invalid attribute length"
if type(attr[0]) not in (NoneType, StringType, UnicodeType):
raise AttributeError, "invalid attribute namespace URI type"
return attr
def _getAttr(self, attr):
attr = self._fixAttr(attr)
try:
return self._attrs[attr]
except:
return None
def _setAttr(self, attr, value):
attr = self._fixAttr(attr)
self._attrs[attr] = str(value)
def _setAttrs(self, attrs):
if type(attrs) in (ListType, TupleType):
for i in range(0, len(attrs), 2):
self._setAttr(attrs[i], attrs[i + 1])
return
if type(attrs) == DictType:
d = attrs
elif isinstance(attrs, anyType):
d = attrs._attrs
else:
raise AttributeError, "invalid attribute type"
for attr, value in d.items():
self._setAttr(attr, value)
def _setMustUnderstand(self, val):
self._setAttr((NS.ENV, "mustUnderstand"), val)
def _getMustUnderstand(self):
return self._getAttr((NS.ENV, "mustUnderstand"))
def _setActor(self, val):
self._setAttr((NS.ENV, "actor"), val)
def _getActor(self):
return self._getAttr((NS.ENV, "actor"))
def _typeName(self):
return self.__class__.__name__[:-4]
def _validNamespaceURI(self, URI, strict):
if not self._typed:
return None
if URI in self._validURIs:
return URI
if not strict:
return self._ns
raise AttributeError, \
"not a valid namespace for type %s" % self._type
class voidType(anyType):
pass
class stringType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
return data
class untypedType(stringType):
def __init__(self, data = None, name = None, attrs = None):
stringType.__init__(self, data, name, 0, attrs)
class IDType(stringType): pass
class NCNameType(stringType): pass
class NameType(stringType): pass
class ENTITYType(stringType): pass
class IDREFType(stringType): pass
class languageType(stringType): pass
class NMTOKENType(stringType): pass
class QNameType(stringType): pass
class tokenType(anyType):
_validURIs = (NS.XSD2, NS.XSD3)
__invalidre = '[\n\t]|^ | $| '
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
if type(self.__invalidre) == StringType:
self.__invalidre = re.compile(self.__invalidre)
if self.__invalidre.search(data):
raise ValueError, "invalid %s value" % self._type
return data
class normalizedStringType(anyType):
_validURIs = (NS.XSD3,)
__invalidre = '[\n\r\t]'
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
if type(self.__invalidre) == StringType:
self.__invalidre = re.compile(self.__invalidre)
if self.__invalidre.search(data):
raise ValueError, "invalid %s value" % self._type
return data
class CDATAType(normalizedStringType):
_validURIs = (NS.XSD2,)
class booleanType(anyType):
def __int__(self):
return self._data
__nonzero__ = __int__
def _marshalData(self):
return ['false', 'true'][self._data]
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if data in (0, '0', 'false', ''):
return 0
if data in (1, '1', 'true'):
return 1
raise ValueError, "invalid %s value" % self._type
class decimalType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType, FloatType):
raise Error, "invalid %s value" % self._type
return data
class floatType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType, FloatType) or \
data < -3.4028234663852886E+38 or \
data > 3.4028234663852886E+38:
raise ValueError, "invalid %s value" % self._type
return data
def _marshalData(self):
return "%.18g" % self._data # More precision
class doubleType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType, FloatType) or \
data < -1.7976931348623158E+308 or \
data > 1.7976931348623157E+308:
raise ValueError, "invalid %s value" % self._type
return data
def _marshalData(self):
return "%.18g" % self._data # More precision
class durationType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
try:
# A tuple or a scalar is OK, but make them into a list
if type(data) == TupleType:
data = list(data)
elif type(data) != ListType:
data = [data]
if len(data) > 6:
raise Exception, "too many values"
# Now check the types of all the components, and find
# the first nonzero element along the way.
f = -1
for i in range(len(data)):
if data[i] == None:
data[i] = 0
continue
if type(data[i]) not in \
(IntType, LongType, FloatType):
raise Exception, "element %d a bad type" % i
if data[i] and f == -1:
f = i
# If they're all 0, just use zero seconds.
if f == -1:
self._cache = 'PT0S'
return (0,) * 6
# Make sure only the last nonzero element has a decimal fraction
# and only the first element is negative.
d = -1
for i in range(f, len(data)):
if data[i]:
if d != -1:
raise Exception, \
"all except the last nonzero element must be " \
"integers"
if data[i] < 0 and i > f:
raise Exception, \
"only the first nonzero element can be negative"
elif data[i] != long(data[i]):
d = i
# Pad the list on the left if necessary.
if len(data) < 6:
n = 6 - len(data)
f += n
d += n
data = [0] * n + data
# Save index of the first nonzero element and the decimal
# element for _marshalData.
self.__firstnonzero = f
self.__decimal = d
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
t = 0
if d[self.__firstnonzero] < 0:
s = '-P'
else:
s = 'P'
t = 0
for i in range(self.__firstnonzero, len(d)):
if d[i]:
if i > 2 and not t:
s += 'T'
t = 1
if self.__decimal == i:
s += "%g" % abs(d[i])
else:
s += "%d" % long(abs(d[i]))
s += ['Y', 'M', 'D', 'H', 'M', 'S'][i]
self._cache = s
return self._cache
class timeDurationType(durationType):
_validURIs = (NS.XSD, NS.XSD2, NS.ENC)
class dateTimeType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.time()
if (type(data) in (IntType, LongType)):
data = list(time.gmtime(data)[:6])
elif (type(data) == FloatType):
f = data - int(data)
data = list(time.gmtime(int(data))[:6])
data[5] += f
elif type(data) in (ListType, TupleType):
if len(data) < 6:
raise Exception, "not enough values"
if len(data) > 9:
raise Exception, "too many values"
data = list(data[:6])
cleanDate(data)
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
s = "%04d-%02d-%02dT%02d:%02d:%02d" % ((abs(d[0]),) + d[1:])
if d[0] < 0:
s = '-' + s
f = d[5] - int(d[5])
if f != 0:
s += ("%g" % f)[1:]
s += 'Z'
self._cache = s
return self._cache
class recurringInstantType(anyType):
_validURIs = (NS.XSD,)
def _checkValueSpace(self, data):
try:
if data == None:
data = list(time.gmtime(time.time())[:6])
if (type(data) in (IntType, LongType)):
data = list(time.gmtime(data)[:6])
elif (type(data) == FloatType):
f = data - int(data)
data = list(time.gmtime(int(data))[:6])
data[5] += f
elif type(data) in (ListType, TupleType):
if len(data) < 1:
raise Exception, "not enough values"
if len(data) > 9:
raise Exception, "too many values"
data = list(data[:6])
if len(data) < 6:
data += [0] * (6 - len(data))
f = len(data)
for i in range(f):
if data[i] == None:
if f < i:
raise Exception, \
"only leftmost elements can be none"
else:
f = i
break
cleanDate(data, f)
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
e = list(d)
neg = ''
if e[0] < 0:
neg = '-'
e[0] = abs(e[0])
if not e[0]:
e[0] = '--'
elif e[0] < 100:
e[0] = '-' + "%02d" % e[0]
else:
e[0] = "%04d" % e[0]
for i in range(1, len(e)):
if e[i] == None or (i < 3 and e[i] == 0):
e[i] = '-'
else:
if e[i] < 0:
neg = '-'
e[i] = abs(e[i])
e[i] = "%02d" % e[i]
if d[5]:
f = abs(d[5] - int(d[5]))
if f:
e[5] += ("%g" % f)[1:]
s = "%s%s-%s-%sT%s:%s:%sZ" % ((neg,) + tuple(e))
self._cache = s
return self._cache
class timeInstantType(dateTimeType):
_validURIs = (NS.XSD, NS.XSD2, NS.ENC)
class timePeriodType(dateTimeType):
_validURIs = (NS.XSD2, NS.ENC)
class timeType(anyType):
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[3:6]
elif (type(data) == FloatType):
f = data - int(data)
data = list(time.gmtime(int(data))[3:6])
data[2] += f
elif type(data) in (IntType, LongType):
data = time.gmtime(data)[3:6]
elif type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[3:6]
elif len(data) > 3:
raise Exception, "too many values"
data = [None, None, None] + list(data)
if len(data) < 6:
data += [0] * (6 - len(data))
cleanDate(data, 3)
data = data[3:]
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
s = ''
s = time.strftime("%H:%M:%S", (0, 0, 0) + d + (0, 0, -1))
f = d[2] - int(d[2])
if f != 0:
s += ("%g" % f)[1:]
s += 'Z'
self._cache = s
return self._cache
class dateType(anyType):
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[0:3]
elif type(data) in (IntType, LongType, FloatType):
data = time.gmtime(data)[0:3]
elif type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[0:3]
elif len(data) > 3:
raise Exception, "too many values"
data = list(data)
if len(data) < 3:
data += [1, 1, 1][len(data):]
data += [0, 0, 0]
cleanDate(data)
data = data[:3]
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
s = "%04d-%02d-%02dZ" % ((abs(d[0]),) + d[1:])
if d[0] < 0:
s = '-' + s
self._cache = s
return self._cache
class gYearMonthType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[0:2]
elif type(data) in (IntType, LongType, FloatType):
data = time.gmtime(data)[0:2]
elif type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[0:2]
elif len(data) > 2:
raise Exception, "too many values"
data = list(data)
if len(data) < 2:
data += [1, 1][len(data):]
data += [1, 0, 0, 0]
cleanDate(data)
data = data[:2]
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
d = self._data
s = "%04d-%02dZ" % ((abs(d[0]),) + d[1:])
if d[0] < 0:
s = '-' + s
self._cache = s
return self._cache
class gYearType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[0:1]
elif type(data) in (IntType, LongType, FloatType):
data = [data]
if type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[0:1]
elif len(data) < 1:
raise Exception, "too few values"
elif len(data) > 1:
raise Exception, "too many values"
if type(data[0]) == FloatType:
try: s = int(data[0])
except: s = long(data[0])
if s != data[0]:
raise Exception, "not integral"
data = [s]
elif type(data[0]) not in (IntType, LongType):
raise Exception, "bad type"
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return data[0]
def _marshalData(self):
if self._cache == None:
d = self._data
s = "%04dZ" % abs(d)
if d < 0:
s = '-' + s
self._cache = s
return self._cache
class centuryType(anyType):
_validURIs = (NS.XSD2, NS.ENC)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[0:1] / 100
elif type(data) in (IntType, LongType, FloatType):
data = [data]
if type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[0:1] / 100
elif len(data) < 1:
raise Exception, "too few values"
elif len(data) > 1:
raise Exception, "too many values"
if type(data[0]) == FloatType:
try: s = int(data[0])
except: s = long(data[0])
if s != data[0]:
raise Exception, "not integral"
data = [s]
elif type(data[0]) not in (IntType, LongType):
raise Exception, "bad type"
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return data[0]
def _marshalData(self):
if self._cache == None:
d = self._data
s = "%02dZ" % abs(d)
if d < 0:
s = '-' + s
self._cache = s
return self._cache
class yearType(gYearType):
_validURIs = (NS.XSD2, NS.ENC)
class gMonthDayType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[1:3]
elif type(data) in (IntType, LongType, FloatType):
data = time.gmtime(data)[1:3]
elif type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[0:2]
elif len(data) > 2:
raise Exception, "too many values"
data = list(data)
if len(data) < 2:
data += [1, 1][len(data):]
data = [0] + data + [0, 0, 0]
cleanDate(data, 1)
data = data[1:3]
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return tuple(data)
def _marshalData(self):
if self._cache == None:
self._cache = "--%02d-%02dZ" % self._data
return self._cache
class recurringDateType(gMonthDayType):
_validURIs = (NS.XSD2, NS.ENC)
class gMonthType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[1:2]
elif type(data) in (IntType, LongType, FloatType):
data = [data]
if type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[1:2]
elif len(data) < 1:
raise Exception, "too few values"
elif len(data) > 1:
raise Exception, "too many values"
if type(data[0]) == FloatType:
try: s = int(data[0])
except: s = long(data[0])
if s != data[0]:
raise Exception, "not integral"
data = [s]
elif type(data[0]) not in (IntType, LongType):
raise Exception, "bad type"
if data[0] < 1 or data[0] > 12:
raise Exception, "bad value"
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return data[0]
def _marshalData(self):
if self._cache == None:
self._cache = "--%02d--Z" % self._data
return self._cache
class monthType(gMonthType):
_validURIs = (NS.XSD2, NS.ENC)
class gDayType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
try:
if data == None:
data = time.gmtime(time.time())[2:3]
elif type(data) in (IntType, LongType, FloatType):
data = [data]
if type(data) in (ListType, TupleType):
if len(data) == 9:
data = data[2:3]
elif len(data) < 1:
raise Exception, "too few values"
elif len(data) > 1:
raise Exception, "too many values"
if type(data[0]) == FloatType:
try: s = int(data[0])
except: s = long(data[0])
if s != data[0]:
raise Exception, "not integral"
data = [s]
elif type(data[0]) not in (IntType, LongType):
raise Exception, "bad type"
if data[0] < 1 or data[0] > 31:
raise Exception, "bad value"
else:
raise Exception, "invalid type"
except Exception, e:
raise ValueError, "invalid %s value - %s" % (self._type, e)
return data[0]
def _marshalData(self):
if self._cache == None:
self._cache = "---%02dZ" % self._data
return self._cache
class recurringDayType(gDayType):
_validURIs = (NS.XSD2, NS.ENC)
class hexBinaryType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
return data
def _marshalData(self):
if self._cache == None:
self._cache = encodeHexString(self._data)
return self._cache
class base64BinaryType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
return data
def _marshalData(self):
if self._cache == None:
self._cache = base64.encodestring(self._data)
return self._cache
class base64Type(base64BinaryType):
_validURIs = (NS.ENC,)
class binaryType(anyType):
_validURIs = (NS.XSD, NS.ENC)
def __init__(self, data, name = None, typed = 1, encoding = 'base64',
attrs = None):
anyType.__init__(self, data, name, typed, attrs)
self._setAttr('encoding', encoding)
def _marshalData(self):
if self._cache == None:
if self._getAttr((None, 'encoding')) == 'base64':
self._cache = base64.encodestring(self._data)
else:
self._cache = encodeHexString(self._data)
return self._cache
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
return data
def _setAttr(self, attr, value):
attr = self._fixAttr(attr)
if attr[1] == 'encoding':
if attr[0] != None or value not in ('base64', 'hex'):
raise AttributeError, "invalid encoding"
self._cache = None
anyType._setAttr(self, attr, value)
class anyURIType(anyType):
_validURIs = (NS.XSD3,)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (StringType, UnicodeType):
raise AttributeError, "invalid %s type" % self._type
return data
def _marshalData(self):
if self._cache == None:
self._cache = urllib.quote(self._data)
return self._cache
class uriType(anyURIType):
_validURIs = (NS.XSD,)
class uriReferenceType(anyURIType):
_validURIs = (NS.XSD2,)
class NOTATIONType(anyType):
def __init__(self, data, name = None, typed = 1, attrs = None):
if self.__class__ == NOTATIONType:
raise Error, "a NOTATION can't be instantiated directly"
anyType.__init__(self, data, name, typed, attrs)
class ENTITIESType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) in (StringType, UnicodeType):
return (data,)
if type(data) not in (ListType, TupleType) or \
filter (lambda x: type(x) not in (StringType, UnicodeType), data):
raise AttributeError, "invalid %s type" % self._type
return data
def _marshalData(self):
return ' '.join(self._data)
class IDREFSType(ENTITIESType): pass
class NMTOKENSType(ENTITIESType): pass
class integerType(anyType):
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType):
raise ValueError, "invalid %s value" % self._type
return data
class nonPositiveIntegerType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or data > 0:
raise ValueError, "invalid %s value" % self._type
return data
class non_Positive_IntegerType(nonPositiveIntegerType):
_validURIs = (NS.XSD,)
def _typeName(self):
return 'non-positive-integer'
class negativeIntegerType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or data >= 0:
raise ValueError, "invalid %s value" % self._type
return data
class negative_IntegerType(negativeIntegerType):
_validURIs = (NS.XSD,)
def _typeName(self):
return 'negative-integer'
class longType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < -9223372036854775808L or \
data > 9223372036854775807L:
raise ValueError, "invalid %s value" % self._type
return data
class intType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < -2147483648L or \
data > 2147483647:
raise ValueError, "invalid %s value" % self._type
return data
class shortType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < -32768 or \
data > 32767:
raise ValueError, "invalid %s value" % self._type
return data
class byteType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < -128 or \
data > 127:
raise ValueError, "invalid %s value" % self._type
return data
class nonNegativeIntegerType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or data < 0:
raise ValueError, "invalid %s value" % self._type
return data
class non_Negative_IntegerType(nonNegativeIntegerType):
_validURIs = (NS.XSD,)
def _typeName(self):
return 'non-negative-integer'
class unsignedLongType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < 0 or \
data > 18446744073709551615L:
raise ValueError, "invalid %s value" % self._type
return data
class unsignedIntType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < 0 or \
data > 4294967295L:
raise ValueError, "invalid %s value" % self._type
return data
class unsignedShortType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < 0 or \
data > 65535:
raise ValueError, "invalid %s value" % self._type
return data
class unsignedByteType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or \
data < 0 or \
data > 255:
raise ValueError, "invalid %s value" % self._type
return data
class positiveIntegerType(anyType):
_validURIs = (NS.XSD2, NS.XSD3, NS.ENC)
def _checkValueSpace(self, data):
if data == None:
raise ValueError, "must supply initial %s value" % self._type
if type(data) not in (IntType, LongType) or data <= 0:
raise ValueError, "invalid %s value" % self._type
return data
class positive_IntegerType(positiveIntegerType):
_validURIs = (NS.XSD,)
def _typeName(self):
return 'positive-integer'
# Now compound types
class compoundType(anyType):
def __init__(self, data = None, name = None, typed = 1, attrs = None):
if self.__class__ == compoundType:
raise Error, "a compound can't be instantiated directly"
anyType.__init__(self, data, name, typed, attrs)
self._aslist = []
self._asdict = {}
self._keyord = []
if type(data) == DictType:
self.__dict__.update(data)
def __getitem__(self, item):
if type(item) == IntType:
return self._aslist[item]
return getattr(self, item)
def __len__(self):
return len(self._aslist)
def __nonzero__(self):
return 1
def _keys(self):
return filter(lambda x: x[0] != '_', self.__dict__.keys())
def _addItem(self, name, value, attrs = None):
d = self._asdict
if d.has_key(name):
if type(d[name]) != ListType:
d[name] = [d[name]]
d[name].append(value)
else:
d[name] = value
self._keyord.append(name)
self._aslist.append(value)
self.__dict__[name] = d[name]
def _placeItem(self, name, value, pos, subpos = 0, attrs = None):
d = self._asdict
if subpos == 0 and type(d[name]) != ListType:
d[name] = value
else:
d[name][subpos] = value
self._keyord[pos] = name
self._aslist[pos] = value
self.__dict__[name] = d[name]
def _getItemAsList(self, name, default = []):
try:
d = self.__dict__[name]
except:
return default
if type(d) == ListType:
return d
return [d]
class structType(compoundType):
pass
class headerType(structType):
_validURIs = (NS.ENV,)
def __init__(self, data = None, typed = 1, attrs = None):
structType.__init__(self, data, "Header", typed, attrs)
class bodyType(structType):
_validURIs = (NS.ENV,)
def __init__(self, data = None, typed = 1, attrs = None):
structType.__init__(self, data, "Body", typed, attrs)
class arrayType(UserList.UserList, compoundType):
def __init__(self, data = None, name = None, attrs = None,
offset = 0, rank = None, asize = 0, elemsname = None):
if data:
if type(data) not in (ListType, TupleType):
raise Error, "Data must be a sequence"
UserList.UserList.__init__(self, data)
compoundType.__init__(self, data, name, 0, attrs)
self._elemsname = elemsname or "item"
if data == None:
self._rank = rank
# According to 5.4.2.2 in the SOAP spec, each element in a
# sparse array must have a position. _posstate keeps track of
# whether we've seen a position or not. It's possible values
# are:
# -1 No elements have been added, so the state is indeterminate
# 0 An element without a position has been added, so no
# elements can have positions
# 1 An element with a position has been added, so all elements
# must have positions
self._posstate = -1
self._full = 0
if asize in ('', None):
asize = '0'
self._dims = map (lambda x: int(x), str(asize).split(','))
self._dims.reverse() # It's easier to work with this way
self._poss = [0] * len(self._dims) # This will end up
# reversed too
for i in range(len(self._dims)):
if self._dims[i] < 0 or \
self._dims[i] == 0 and len(self._dims) > 1:
raise TypeError, "invalid Array dimensions"
if offset > 0:
self._poss[i] = offset % self._dims[i]
offset = int(offset / self._dims[i])
# Don't break out of the loop if offset is 0 so we test all the
# dimensions for > 0.
if offset:
raise AttributeError, "invalid Array offset"
a = [None] * self._dims[0]
for i in range(1, len(self._dims)):
b = []
for j in range(self._dims[i]):
b.append(copy.deepcopy(a))
a = b
self.data = a
def _addItem(self, name, value, attrs):
if self._full:
raise ValueError, "Array is full"
pos = attrs.get((NS.ENC, 'position'))
if pos != None:
if self._posstate == 0:
raise AttributeError, \
"all elements in a sparse Array must have a " \
"position attribute"
self._posstate = 1
try:
if pos[0] == '[' and pos[-1] == ']':
pos = map (lambda x: int(x), pos[1:-1].split(','))
pos.reverse()
if len(pos) == 1:
pos = pos[0]
curpos = [0] * len(self._dims)
for i in range(len(self._dims)):
curpos[i] = pos % self._dims[i]
pos = int(pos / self._dims[i])
if pos == 0:
break
if pos:
raise Exception
elif len(pos) != len(self._dims):
raise Exception
else:
for i in range(len(self._dims)):
if pos[i] >= self._dims[i]:
raise Exception
curpos = pos
else:
raise Exception
except:
raise AttributeError, \
"invalid Array element position %s" % str(pos)
else:
if self._posstate == 1:
raise AttributeError, \
"only elements in a sparse Array may have a " \
"position attribute"
self._posstate = 0
curpos = self._poss
a = self.data
for i in range(len(self._dims) - 1, 0, -1):
a = a[curpos[i]]
if curpos[0] >= len(a):
a += [None] * (len(a) - curpos[0] + 1)
a[curpos[0]] = value
if pos == None:
self._poss[0] += 1
for i in range(len(self._dims) - 1):
if self._poss[i] < self._dims[i]:
break
self._poss[i] = 0
self._poss[i + 1] += 1
if self._dims[-1] and self._poss[-1] >= self._dims[-1]:
self._full = 1
def _placeItem(self, name, value, pos, subpos, attrs = None):
curpos = [0] * len(self._dims)
for i in range(len(self._dims)):
if self._dims[i] == 0:
curpos[0] = pos
break
curpos[i] = pos % self._dims[i]
pos = int(pos / self._dims[i])
if pos == 0:
break
if self._dims[i] != 0 and pos:
raise Error, "array index out of range"
a = self.data
for i in range(len(self._dims) - 1, 0, -1):
a = a[curpos[i]]
if curpos[0] >= len(a):
a += [None] * (len(a) - curpos[0] + 1)
a[curpos[0]] = value
class typedArrayType(arrayType):
def __init__(self, data = None, name = None, typed = None, attrs = None,
offset = 0, rank = None, asize = 0, elemsname = None):
arrayType.__init__(self, data, name, attrs, offset, rank, asize,
elemsname)
self._type = typed
class faultType(structType, Error):
def __init__(self, faultcode = "", faultstring = "", detail = None):
self.faultcode = faultcode
self.faultstring = faultstring
if detail != None:
self.detail = detail
structType.__init__(self, None, 0)
def _setDetail(self, detail = None):
if detail != None:
self.detail = detail
else:
try: del self.detail
except AttributeError: pass
def __repr__(self):
return "<Fault %s: %s>" % (self.faultcode, self.faultstring)
__str__ = __repr__
################################################################################
class RefHolder:
def __init__(self, name, frame):
self.name = name
self.parent = frame
self.pos = len(frame)
self.subpos = frame.namecounts.get(name, 0)
def __repr__(self):
return "<%s %s at %d>" % (self.__class__, self.name, id(self))
################################################################################
# Utility infielders
################################################################################
def collapseWhiteSpace(s):
return re.sub('\s+', ' ', s).strip()
def decodeHexString(data):
conv = {'0': 0x0, '1': 0x1, '2': 0x2, '3': 0x3, '4': 0x4,
'5': 0x5, '6': 0x6, '7': 0x7, '8': 0x8, '9': 0x9, 'a': 0xa,
'b': 0xb, 'c': 0xc, 'd': 0xd, 'e': 0xe, 'f': 0xf, 'A': 0xa,
'B': 0xb, 'C': 0xc, 'D': 0xd, 'E': 0xe, 'F': 0xf,}
ws = string.whitespace
bin = ''
i = 0
while i < len(data):
if data[i] not in ws:
break
i += 1
low = 0
while i < len(data):
c = data[i]
if c in string.whitespace:
break
try:
c = conv[c]
except KeyError:
raise ValueError, \
"invalid hex string character `%s'" % c
if low:
bin += chr(high * 16 + c)
low = 0
else:
high = c
low = 1
i += 1
if low:
raise ValueError, "invalid hex string length"
while i < len(data):
if data[i] not in string.whitespace:
raise ValueError, \
"invalid hex string character `%s'" % c
i += 1
return bin
def encodeHexString(data):
h = ''
for i in data:
h += "%02X" % ord(i)
return h
def leapMonth(year, month):
return month == 2 and \
year % 4 == 0 and \
(year % 100 != 0 or year % 400 == 0)
def cleanDate(d, first = 0):
ranges = (None, (1, 12), (1, 31), (0, 23), (0, 59), (0, 61))
months = (0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31)
names = ('year', 'month', 'day', 'hours', 'minutes', 'seconds')
if len(d) != 6:
raise ValueError, "date must have 6 elements"
for i in range(first, 6):
s = d[i]
if type(s) == FloatType:
if i < 5:
try:
s = int(s)
except OverflowError:
if i > 0:
raise
s = long(s)
if s != d[i]:
raise ValueError, "%s must be integral" % names[i]
d[i] = s
elif type(s) == LongType:
try: s = int(s)
except: pass
elif type(s) != IntType:
raise TypeError, "%s isn't a valid type" % names[i]
if i == first and s < 0:
continue
if ranges[i] != None and \
(s < ranges[i][0] or ranges[i][1] < s):
raise ValueError, "%s out of range" % names[i]
if first < 6 and d[5] >= 61:
raise ValueError, "seconds out of range"
if first < 2:
leap = first < 1 and leapMonth(d[0], d[1])
if d[2] > months[d[1]] + leap:
raise ValueError, "day out of range"
class UnderflowError(exceptions.ArithmeticError):
pass
def debugHeader(title):
s = '*** ' + title + ' '
print s + ('*' * (72 - len(s)))
def debugFooter(title):
print '*' * 72
sys.stdout.flush()
################################################################################
# SOAP Parser
################################################################################
class SOAPParser(xml.sax.handler.ContentHandler):
class Frame:
def __init__(self, name, kind = None, attrs = {}, rules = {}):
self.name = name
self.kind = kind
self.attrs = attrs
self.rules = rules
self.contents = []
self.names = []
self.namecounts = {}
self.subattrs = []
def append(self, name, data, attrs):
self.names.append(name)
self.contents.append(data)
self.subattrs.append(attrs)
if self.namecounts.has_key(name):
self.namecounts[name] += 1
else:
self.namecounts[name] = 1
def _placeItem(self, name, value, pos, subpos = 0, attrs = None):
self.contents[pos] = value
if attrs:
self.attrs.update(attrs)
def __len__(self):
return len(self.contents)
def __repr__(self):
return "<%s %s at %d>" % (self.__class__, self.name, id(self))
def __init__(self, rules = None):
xml.sax.handler.ContentHandler.__init__(self)
self.body = None
self.header = None
self.attrs = {}
self._data = None
self._next = "E" # Keeping state for message validity
self._stack = [self.Frame('SOAP')]
# Make two dictionaries to store the prefix <-> URI mappings, and
# initialize them with the default
self._prem = {NS.XML_T: NS.XML}
self._prem_r = {NS.XML: NS.XML_T}
self._ids = {}
self._refs = {}
self._rules = rules
def startElementNS(self, name, qname, attrs):
# Workaround two sax bugs
if name[0] == None and name[1][0] == ' ':
name = (None, name[1][1:])
else:
name = tuple(name)
# First some checking of the layout of the message
if self._next == "E":
if name[1] != 'Envelope':
raise Error, "expected `SOAP-ENV:Envelope', got `%s:%s'" % \
(self._prem_r[name[0]], name[1])
if name[0] != NS.ENV:
raise faultType, ("%s:VersionMismatch" % NS.ENV_T,
"Don't understand version `%s' Envelope" % name[0])
else:
self._next = "HorB"
elif self._next == "HorB":
if name[0] == NS.ENV and name[1] in ("Header", "Body"):
self._next = None
else:
raise Error, \
"expected `SOAP-ENV:Header' or `SOAP-ENV:Body', " \
"got `%s'" % self._prem_r[name[0]] + ':' + name[1]
elif self._next == "B":
if name == (NS.ENV, "Body"):
self._next = None
else:
raise Error, "expected `SOAP-ENV:Body', got `%s'" % \
self._prem_r[name[0]] + ':' + name[1]
elif self._next == "":
raise Error, "expected nothing, got `%s'" % \
self._prem_r[name[0]] + ':' + name[1]
if len(self._stack) == 2:
rules = self._rules
else:
try:
rules = self._stack[-1].rules[name[1]]
except:
rules = None
if type(rules) not in (NoneType, DictType):
kind = rules
else:
kind = attrs.get((NS.ENC, 'arrayType'))
if kind != None:
del attrs._attrs[(NS.ENC, 'arrayType')]
i = kind.find(':')
if i >= 0:
kind = (self._prem[kind[:i]], kind[i + 1:])
else:
kind = None
self.pushFrame(self.Frame(name[1], kind, attrs._attrs, rules))
self._data = '' # Start accumulating
def pushFrame(self, frame):
self._stack.append(frame)
def popFrame(self):
return self._stack.pop()
def endElementNS(self, name, qname):
# Workaround two sax bugs
if name[0] == None and name[1][0] == ' ':
ns, name = None, name[1][1:]
else:
ns, name = tuple(name)
if self._next == "E":
raise Error, "didn't get SOAP-ENV:Envelope"
if self._next in ("HorB", "B"):
raise Error, "didn't get SOAP-ENV:Body"
cur = self.popFrame()
attrs = cur.attrs
idval = None
if attrs.has_key((None, 'id')):
idval = attrs[(None, 'id')]
if self._ids.has_key(idval):
raise Error, "duplicate id `%s'" % idval
del attrs[(None, 'id')]
root = 1
if len(self._stack) == 3:
if attrs.has_key((NS.ENC, 'root')):
root = int(attrs[(NS.ENC, 'root')])
# Do some preliminary checks. First, if root="0" is present,
# the element must have an id. Next, if root="n" is present,
# n something other than 0 or 1, raise an exception.
if root == 0:
if idval == None:
raise Error, "non-root element must have an id"
elif root != 1:
raise Error, "SOAP-ENC:root must be `0' or `1'"
del attrs[(NS.ENC, 'root')]
while 1:
href = attrs.get((None, 'href'))
if href:
if href[0] != '#':
raise Error, "only do local hrefs right now"
if self._data != None and self._data.strip() != '':
raise Error, "hrefs can't have data"
href = href[1:]
if self._ids.has_key(href):
data = self._ids[href]
else:
data = RefHolder(name, self._stack[-1])
if self._refs.has_key(href):
self._refs[href].append(data)
else:
self._refs[href] = [data]
del attrs[(None, 'href')]
break
kind = None
if attrs:
for i in NS.XSI_L:
if attrs.has_key((i, 'type')):
kind = attrs[(i, 'type')]
del attrs[(i, 'type')]
if kind != None:
i = kind.find(':')
if i >= 0:
kind = (self._prem[kind[:i]], kind[i + 1:])
else:
# XXX What to do here? (None, kind) is just going to fail in convertType
kind = (None, kind)
null = 0
if attrs:
for i in (NS.XSI, NS.XSI2):
if attrs.has_key((i, 'null')):
null = attrs[(i, 'null')]
del attrs[(i, 'null')]
if attrs.has_key((NS.XSI3, 'nil')):
null = attrs[(NS.XSI3, 'nil')]
del attrs[(NS.XSI3, 'nil')]
#MAP 4/12/2002 - must also support "true"
#null = int(null)
null = (str(null).lower() in ['true', '1'])
if null:
if len(cur) or \
(self._data != None and self._data.strip() != ''):
raise Error, "nils can't have data"
data = None
break
if len(self._stack) == 2:
if (ns, name) == (NS.ENV, "Header"):
self.header = data = headerType(attrs = attrs)
self._next = "B"
break
elif (ns, name) == (NS.ENV, "Body"):
self.body = data = bodyType(attrs = attrs)
self._next = ""
break
elif len(self._stack) == 3 and self._next == None:
if (ns, name) == (NS.ENV, "Fault"):
data = faultType()
self._next = ""
break
if cur.rules != None:
rule = cur.rules
if type(rule) in (StringType, UnicodeType):
# XXX Need a namespace here
rule = (None, rule)
elif type(rule) == ListType:
rule = tuple(rule)
# XXX What if rule != kind?
if callable(rule):
data = rule(self._data)
elif type(rule) == DictType:
data = structType(name = (ns, name), attrs = attrs)
else:
data = self.convertType(self._data, rule, attrs)
break
if (kind == None and cur.kind != None) or \
(kind == (NS.ENC, 'Array')):
kind = cur.kind
if kind == None:
kind = 'ur-type[%d]' % len(cur)
else:
kind = kind[1]
if len(cur.namecounts) == 1:
elemsname = cur.names[0]
else:
elemsname = None
data = self.startArray((ns, name), kind, attrs, elemsname)
break
if len(self._stack) == 3 and kind == None and \
len(cur) == 0 and \
(self._data == None or self._data.strip() == ''):
data = structType(name = (ns, name), attrs = attrs)
break
if len(cur) == 0 and ns != NS.URN:
# Nothing's been added to the current frame so it must be a
# simple type.
if kind == None:
# If the current item's container is an array, it will
# have a kind. If so, get the bit before the first [,
# which is the type of the array, therefore the type of
# the current item.
kind = self._stack[-1].kind
if kind != None:
i = kind[1].find('[')
if i >= 0:
kind = (kind[0], kind[1][:i])
elif ns != None:
kind = (ns, name)
if kind != None:
try:
data = self.convertType(self._data, kind, attrs)
except UnknownTypeError:
data = None
else:
data = None
if data == None:
data = self._data or ''
if len(attrs) == 0:
try: data = str(data)
except: pass
break
data = structType(name = (ns, name), attrs = attrs)
break
if isinstance(data, compoundType):
for i in range(len(cur)):
v = cur.contents[i]
data._addItem(cur.names[i], v, cur.subattrs[i])
if isinstance(v, RefHolder):
v.parent = data
if root:
self._stack[-1].append(name, data, attrs)
if idval != None:
self._ids[idval] = data
if self._refs.has_key(idval):
for i in self._refs[idval]:
i.parent._placeItem(i.name, data, i.pos, i.subpos, attrs)
del self._refs[idval]
self.attrs[id(data)] = attrs
if isinstance(data, anyType):
data._setAttrs(attrs)
self._data = None # Stop accumulating
def endDocument(self):
if len(self._refs) == 1:
raise Error, \
"unresolved reference " + self._refs.keys()[0]
elif len(self._refs) > 1:
raise Error, \
"unresolved references " + ', '.join(self._refs.keys())
def startPrefixMapping(self, prefix, uri):
self._prem[prefix] = uri
self._prem_r[uri] = prefix
def endPrefixMapping(self, prefix):
try:
del self._prem_r[self._prem[prefix]]
del self._prem[prefix]
except:
pass
def characters(self, c):
if self._data != None:
self._data += c
arrayre = '^(?:(?P<ns>[^:]*):)?' \
'(?P<type>[^[]+)' \
'(?:\[(?P<rank>,*)\])?' \
'(?:\[(?P<asize>\d+(?:,\d+)*)?\])$'
def startArray(self, name, kind, attrs, elemsname):
if type(self.arrayre) == StringType:
self.arrayre = re.compile (self.arrayre)
offset = attrs.get((NS.ENC, "offset"))
if offset != None:
del attrs[(NS.ENC, "offset")]
try:
if offset[0] == '[' and offset[-1] == ']':
offset = int(offset[1:-1])
if offset < 0:
raise Exception
else:
raise Exception
except:
raise AttributeError, "invalid Array offset"
else:
offset = 0
try:
m = self.arrayre.search(kind)
if m == None:
raise Exception
t = m.group('type')
if t == 'ur-type':
return arrayType(None, name, attrs, offset, m.group('rank'),
m.group('asize'), elemsname)
elif m.group('ns') != None:
return typedArrayType(None, name,
(self._prem[m.group('ns')], t), attrs, offset,
m.group('rank'), m.group('asize'), elemsname)
else:
return typedArrayType(None, name, (None, t), attrs, offset,
m.group('rank'), m.group('asize'), elemsname)
except:
raise AttributeError, "invalid Array type `%s'" % kind
# Conversion
class DATETIMECONSTS:
SIGNre = '(?P<sign>-?)'
CENTURYre = '(?P<century>\d{2,})'
YEARre = '(?P<year>\d{2})'
MONTHre = '(?P<month>\d{2})'
DAYre = '(?P<day>\d{2})'
HOURre = '(?P<hour>\d{2})'
MINUTEre = '(?P<minute>\d{2})'
SECONDre = '(?P<second>\d{2}(?:\.\d*)?)'
TIMEZONEre = '(?P<zulu>Z)|(?P<tzsign>[-+])(?P<tzhour>\d{2}):' \
'(?P<tzminute>\d{2})'
BOSre = '^\s*'
EOSre = '\s*$'
__allres = {'sign': SIGNre, 'century': CENTURYre, 'year': YEARre,
'month': MONTHre, 'day': DAYre, 'hour': HOURre,
'minute': MINUTEre, 'second': SECONDre, 'timezone': TIMEZONEre,
'b': BOSre, 'e': EOSre}
dateTime = '%(b)s%(sign)s%(century)s%(year)s-%(month)s-%(day)sT' \
'%(hour)s:%(minute)s:%(second)s(%(timezone)s)?%(e)s' % __allres
timeInstant = dateTime
timePeriod = dateTime
time = '%(b)s%(hour)s:%(minute)s:%(second)s(%(timezone)s)?%(e)s' % \
__allres
date = '%(b)s%(sign)s%(century)s%(year)s-%(month)s-%(day)s' \
'(%(timezone)s)?%(e)s' % __allres
century = '%(b)s%(sign)s%(century)s(%(timezone)s)?%(e)s' % __allres
gYearMonth = '%(b)s%(sign)s%(century)s%(year)s-%(month)s' \
'(%(timezone)s)?%(e)s' % __allres
gYear = '%(b)s%(sign)s%(century)s%(year)s(%(timezone)s)?%(e)s' % \
__allres
year = gYear
gMonthDay = '%(b)s--%(month)s-%(day)s(%(timezone)s)?%(e)s' % __allres
recurringDate = gMonthDay
gDay = '%(b)s---%(day)s(%(timezone)s)?%(e)s' % __allres
recurringDay = gDay
gMonth = '%(b)s--%(month)s--(%(timezone)s)?%(e)s' % __allres
month = gMonth
recurringInstant = '%(b)s%(sign)s(%(century)s|-)(%(year)s|-)-' \
'(%(month)s|-)-(%(day)s|-)T' \
'(%(hour)s|-):(%(minute)s|-):(%(second)s|-)' \
'(%(timezone)s)?%(e)s' % __allres
duration = '%(b)s%(sign)sP' \
'((?P<year>\d+)Y)?' \
'((?P<month>\d+)M)?' \
'((?P<day>\d+)D)?' \
'((?P<sep>T)' \
'((?P<hour>\d+)H)?' \
'((?P<minute>\d+)M)?' \
'((?P<second>\d*(?:\.\d*)?)S)?)?%(e)s' % \
__allres
timeDuration = duration
# The extra 31 on the front is:
# - so the tuple is 1-based
# - so months[month-1] is December's days if month is 1
months = (31, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31)
def convertDateTime(self, value, kind):
def getZoneOffset(d):
zoffs = 0
try:
if d['zulu'] == None:
zoffs = 60 * int(d['tzhour']) + int(d['tzminute'])
if d['tzsign'] != '-':
zoffs = -zoffs
except TypeError:
pass
return zoffs
def applyZoneOffset(months, zoffs, date, minfield, posday = 1):
if zoffs == 0 and (minfield > 4 or 0 <= date[5] < 60):
return date
if minfield > 5: date[5] = 0
if minfield > 4: date[4] = 0
if date[5] < 0:
date[4] += int(date[5]) / 60
date[5] %= 60
date[4] += zoffs
if minfield > 3 or 0 <= date[4] < 60: return date
date[3] += date[4] / 60
date[4] %= 60
if minfield > 2 or 0 <= date[3] < 24: return date
date[2] += date[3] / 24
date[3] %= 24
if minfield > 1:
if posday and date[2] <= 0:
date[2] += 31 # zoffs is at most 99:59, so the
# day will never be less than -3
return date
while 1:
# The date[1] == 3 (instead of == 2) is because we're
# going back a month, so we need to know if the previous
# month is February, so we test if this month is March.
leap = minfield == 0 and date[1] == 3 and \
date[0] % 4 == 0 and \
(date[0] % 100 != 0 or date[0] % 400 == 0)
if 0 < date[2] <= months[date[1]] + leap: break
date[2] += months[date[1] - 1] + leap
date[1] -= 1
if date[1] > 0: break
date[1] = 12
if minfield > 0: break
date[0] -= 1
return date
try:
exp = getattr(self.DATETIMECONSTS, kind)
except AttributeError:
return None
if type(exp) == StringType:
exp = re.compile(exp)
setattr (self.DATETIMECONSTS, kind, exp)
m = exp.search(value)
try:
if m == None:
raise Exception
d = m.groupdict()
f = ('century', 'year', 'month', 'day',
'hour', 'minute', 'second')
fn = len(f) # Index of first non-None value
r = []
if kind in ('duration', 'timeDuration'):
if d['sep'] != None and d['hour'] == None and \
d['minute'] == None and d['second'] == None:
raise Exception
f = f[1:]
for i in range(len(f)):
s = d[f[i]]
if s != None:
if f[i] == 'second':
s = float(s)
else:
try: s = int(s)
except ValueError: s = long(s)
if i < fn: fn = i
r.append(s)
if fn > len(r): # Any non-Nones?
raise Exception
if d['sign'] == '-':
r[fn] = -r[fn]
return tuple(r)
if kind == 'recurringInstant':
for i in range(len(f)):
s = d[f[i]]
if s == None or s == '-':
if i > fn:
raise Exception
s = None
else:
if i < fn:
fn = i
if f[i] == 'second':
s = float(s)
else:
try:
s = int(s)
except ValueError:
s = long(s)
r.append(s)
s = r.pop(0)
if fn == 0:
r[0] += s * 100
else:
fn -= 1
if fn < len(r) and d['sign'] == '-':
r[fn] = -r[fn]
cleanDate(r, fn)
return tuple(applyZoneOffset(self.DATETIMECONSTS.months,
getZoneOffset(d), r, fn, 0))
r = [0, 0, 1, 1, 0, 0, 0]
for i in range(len(f)):
field = f[i]
s = d.get(field)
if s != None:
if field == 'second':
s = float(s)
else:
try:
s = int(s)
except ValueError:
s = long(s)
if i < fn:
fn = i
r[i] = s
if fn > len(r): # Any non-Nones?
raise Exception
s = r.pop(0)
if fn == 0:
r[0] += s * 100
else:
fn -= 1
if d.get('sign') == '-':
r[fn] = -r[fn]
cleanDate(r, fn)
zoffs = getZoneOffset(d)
if zoffs:
r = applyZoneOffset(self.DATETIMECONSTS.months, zoffs, r, fn)
if kind == 'century':
return r[0] / 100
s = []
for i in range(1, len(f)):
if d.has_key(f[i]):
s.append(r[i - 1])
if len(s) == 1:
return s[0]
return tuple(s)
except Exception, e:
raise Error, "invalid %s value `%s' - %s" % (kind, value, e)
intlimits = \
{
'nonPositiveInteger': (0, None, 0),
'non-positive-integer': (0, None, 0),
'negativeInteger': (0, None, -1),
'negative-integer': (0, None, -1),
'long': (1, -9223372036854775808L,
9223372036854775807L),
'int': (0, -2147483648L, 2147483647),
'short': (0, -32768, 32767),
'byte': (0, -128, 127),
'nonNegativeInteger': (0, 0, None),
'non-negative-integer': (0, 0, None),
'positiveInteger': (0, 1, None),
'positive-integer': (0, 1, None),
'unsignedLong': (1, 0, 18446744073709551615L),
'unsignedInt': (0, 0, 4294967295L),
'unsignedShort': (0, 0, 65535),
'unsignedByte': (0, 0, 255),
}
floatlimits = \
{
'float': (7.0064923216240861E-46, -3.4028234663852886E+38,
3.4028234663852886E+38),
'double': (2.4703282292062327E-324, -1.7976931348623158E+308,
1.7976931348623157E+308),
}
zerofloatre = '[1-9]'
def convertType(self, d, t, attrs):
dnn = d or ''
if t[0] in NS.EXSD_L:
if t[1] == "integer":
try:
d = int(d)
if len(attrs):
d = long(d)
except:
d = long(d)
return d
if self.intlimits.has_key (t[1]):
l = self.intlimits[t[1]]
try: d = int(d)
except: d = long(d)
if l[1] != None and d < l[1]:
raise UnderflowError, "%s too small" % d
if l[2] != None and d > l[2]:
raise OverflowError, "%s too large" % d
if l[0] or len(attrs):
return long(d)
return d
if t[1] == "string":
if len(attrs):
return unicode(dnn)
try:
return str(dnn)
except:
return dnn
if t[1] == "boolean":
d = d.strip().lower()
if d in ('0', 'false'):
return 0
if d in ('1', 'true'):
return 1
raise AttributeError, "invalid boolean value"
if self.floatlimits.has_key (t[1]):
l = self.floatlimits[t[1]]
s = d.strip().lower()
try:
d = float(s)
except:
# Some platforms don't implement the float stuff. This
# is close, but NaN won't be > "INF" as required by the
# standard.
if s in ("nan", "inf"):
return 1e300**2
if s == "-inf":
return -1e300**2
raise
if str (d) == 'nan':
if s != 'nan':
raise ValueError, "invalid %s" % t[1]
elif str (d) == '-inf':
if s != '-inf':
raise UnderflowError, "%s too small" % t[1]
elif str (d) == 'inf':
if s != 'inf':
raise OverflowError, "%s too large" % t[1]
elif d < 0:
if d < l[1]:
raise UnderflowError, "%s too small" % t[1]
elif d > 0:
if d < l[0] or d > l[2]:
raise OverflowError, "%s too large" % t[1]
elif d == 0:
if type(self.zerofloatre) == StringType:
self.zerofloatre = re.compile(self.zerofloatre)
if self.zerofloatre.search(s):
raise UnderflowError, "invalid %s" % t[1]
return d
if t[1] in ("dateTime", "date", "timeInstant", "time"):
return self.convertDateTime(d, t[1])
if t[1] == "decimal":
return float(d)
if t[1] in ("language", "QName", "NOTATION", "NMTOKEN", "Name",
"NCName", "ID", "IDREF", "ENTITY"):
return collapseWhiteSpace(d)
if t[1] in ("IDREFS", "ENTITIES", "NMTOKENS"):
d = collapseWhiteSpace(d)
return d.split()
if t[0] in NS.XSD_L:
if t[1] in ("base64", "base64Binary"):
return base64.decodestring(d)
if t[1] == "hexBinary":
return decodeHexString(d)
if t[1] == "anyURI":
return urllib.unquote(collapseWhiteSpace(d))
if t[1] in ("normalizedString", "token"):
return collapseWhiteSpace(d)
if t[0] == NS.ENC:
if t[1] == "base64":
return base64.decodestring(d)
if t[0] == NS.XSD:
if t[1] == "binary":
try:
e = attrs[(None, 'encoding')]
if e == 'hex':
return decodeHexString(d)
elif e == 'base64':
return base64.decodestring(d)
except:
pass
raise Error, "unknown or missing binary encoding"
if t[1] == "uri":
return urllib.unquote(collapseWhiteSpace(d))
if t[1] == "recurringInstant":
return self.convertDateTime(d, t[1])
if t[0] in (NS.XSD2, NS.ENC):
if t[1] == "uriReference":
return urllib.unquote(collapseWhiteSpace(d))
if t[1] == "timePeriod":
return self.convertDateTime(d, t[1])
if t[1] in ("century", "year"):
return self.convertDateTime(d, t[1])
if t[0] in (NS.XSD, NS.XSD2, NS.ENC):
if t[1] == "timeDuration":
return self.convertDateTime(d, t[1])
if t[0] == NS.XSD3:
if t[1] == "anyURI":
return urllib.unquote(collapseWhiteSpace(d))
if t[1] in ("gYearMonth", "gMonthDay"):
return self.convertDateTime(d, t[1])
if t[1] == "gYear":
return self.convertDateTime(d, t[1])
if t[1] == "gMonth":
return self.convertDateTime(d, t[1])
if t[1] == "gDay":
return self.convertDateTime(d, t[1])
if t[1] == "duration":
return self.convertDateTime(d, t[1])
if t[0] in (NS.XSD2, NS.XSD3):
if t[1] == "token":
return collapseWhiteSpace(d)
if t[1] == "recurringDate":
return self.convertDateTime(d, t[1])
if t[1] == "month":
return self.convertDateTime(d, t[1])
if t[1] == "recurringDay":
return self.convertDateTime(d, t[1])
if t[0] == NS.XSD2:
if t[1] == "CDATA":
return collapseWhiteSpace(d)
raise UnknownTypeError, "unknown type `%s'" % (t[0] + ':' + t[1])
################################################################################
# call to SOAPParser that keeps all of the info
################################################################################
def _parseSOAP(xml_str, rules = None):
try:
from cStringIO import StringIO
except ImportError:
from StringIO import StringIO
parser = xml.sax.make_parser()
t = SOAPParser(rules = rules)
parser.setContentHandler(t)
e = xml.sax.handler.ErrorHandler()
parser.setErrorHandler(e)
inpsrc = xml.sax.xmlreader.InputSource()
inpsrc.setByteStream(StringIO(xml_str))
# turn on namespace mangeling
parser.setFeature(xml.sax.handler.feature_namespaces,1)
parser.parse(inpsrc)
return t
################################################################################
# SOAPParser's more public interface
################################################################################
def parseSOAP(xml_str, attrs = 0):
t = _parseSOAP(xml_str)
if attrs:
return t.body, t.attrs
return t.body
def parseSOAPRPC(xml_str, header = 0, body = 0, attrs = 0, rules = None):
t = _parseSOAP(xml_str, rules = rules)
p = t.body._aslist[0]
# Empty string, for RPC this translates into a void
if type(p) in (type(''), type(u'')) and p in ('', u''):
name = "Response"
for k in t.body.__dict__.keys():
if k[0] != "_":
name = k
p = structType(name)
if header or body or attrs:
ret = (p,)
if header : ret += (t.header,)
if body: ret += (t.body,)
if attrs: ret += (t.attrs,)
return ret
else:
return p
################################################################################
# SOAP Builder
################################################################################
class SOAPBuilder:
_xml_top = '<?xml version="1.0"?>\n'
_xml_enc_top = '<?xml version="1.0" encoding="%s"?>\n'
_env_top = '%(ENV_T)s:Envelope %(ENV_T)s:encodingStyle="%(ENC)s"' % \
NS.__dict__
_env_bot = '</%(ENV_T)s:Envelope>\n' % NS.__dict__
# Namespaces potentially defined in the Envelope tag.
_env_ns = {NS.ENC: NS.ENC_T, NS.ENV: NS.ENV_T,
NS.XSD: NS.XSD_T, NS.XSD2: NS.XSD2_T, NS.XSD3: NS.XSD3_T,
NS.XSI: NS.XSI_T, NS.XSI2: NS.XSI2_T, NS.XSI3: NS.XSI3_T}
def __init__(self, args = (), kw = {}, method = None, namespace = None,
header = None, methodattrs = None, envelope = 1, encoding = 'UTF-8',
use_refs = 0, config = Config):
# Test the encoding, raising an exception if it's not known
if encoding != None:
''.encode(encoding)
self.args = args
self.kw = kw
self.envelope = envelope
self.encoding = encoding
self.method = method
self.namespace = namespace
self.header = header
self.methodattrs= methodattrs
self.use_refs = use_refs
self.config = config
self.out = ''
self.tcounter = 0
self.ncounter = 1
self.icounter = 1
self.envns = {}
self.ids = {}
self.depth = 0
self.multirefs = []
self.multis = 0
self.body = not isinstance(args, bodyType)
def build(self):
ns_map = {}
# Cache whether typing is on or not
typed = self.config.typed
if self.header:
# Create a header.
self.dump(self.header, "Header", typed = typed)
self.header = None # Wipe it out so no one is using it.
if self.body:
# Call genns to record that we've used SOAP-ENV.
self.depth += 1
body_ns = self.genns(ns_map, NS.ENV)[0]
self.out += "<%sBody>\n" % body_ns
if self.method:
self.depth += 1
a = ''
if self.methodattrs:
for (k, v) in self.methodattrs.items():
a += ' %s="%s"' % (k, v)
if self.namespace: # Use the namespace info handed to us
methodns, n = self.genns(ns_map, self.namespace)
else:
methodns, n = '', ''
self.out += '<%s%s%s%s%s>\n' % \
(methodns, self.method, n, a, self.genroot(ns_map))
try:
if type(self.args) != TupleType:
args = (self.args,)
else:
args = self.args
for i in args:
self.dump(i, typed = typed, ns_map = ns_map)
for (k, v) in self.kw.items():
self.dump(v, k, typed = typed, ns_map = ns_map)
except RecursionError:
if self.use_refs == 0:
# restart
b = SOAPBuilder(args = self.args, kw = self.kw,
method = self.method, namespace = self.namespace,
header = self.header, methodattrs = self.methodattrs,
envelope = self.envelope, encoding = self.encoding,
use_refs = 1, config = self.config)
return b.build()
raise
if self.method:
self.out += "</%s%s>\n" % (methodns, self.method)
self.depth -= 1
if self.body:
# dump may add to self.multirefs, but the for loop will keep
# going until it has used all of self.multirefs, even those
# entries added while in the loop.
self.multis = 1
for obj, tag in self.multirefs:
self.dump(obj, tag, typed = typed, ns_map = ns_map)
self.out += "</%sBody>\n" % body_ns
self.depth -= 1
if self.envelope:
e = map (lambda ns: 'xmlns:%s="%s"' % (ns[1], ns[0]),
self.envns.items())
self.out = '<' + self._env_top + ' '.join([''] + e) + '>\n' + \
self.out + \
self._env_bot
if self.encoding != None:
self.out = self._xml_enc_top % self.encoding + self.out
return self.out.encode(self.encoding)
return self._xml_top + self.out
def gentag(self):
self.tcounter += 1
return "v%d" % self.tcounter
def genns(self, ns_map, nsURI):
if nsURI == None:
return ('', '')
if type(nsURI) == TupleType: # already a tuple
if len(nsURI) == 2:
ns, nsURI = nsURI
else:
ns, nsURI = None, nsURI[0]
else:
ns = None
if ns_map.has_key(nsURI):
return (ns_map[nsURI] + ':', '')
if self._env_ns.has_key(nsURI):
ns = self.envns[nsURI] = ns_map[nsURI] = self._env_ns[nsURI]
return (ns + ':', '')
if not ns:
ns = "ns%d" % self.ncounter
self.ncounter += 1
ns_map[nsURI] = ns
if self.config.buildWithNamespacePrefix:
return (ns + ':', ' xmlns:%s="%s"' % (ns, nsURI))
else:
return ('', ' xmlns="%s"' % (nsURI))
def genroot(self, ns_map):
if self.depth != 2:
return ''
ns, n = self.genns(ns_map, NS.ENC)
return ' %sroot="%d"%s' % (ns, not self.multis, n)
# checkref checks an element to see if it needs to be encoded as a
# multi-reference element or not. If it returns None, the element has
# been handled and the caller can continue with subsequent elements.
# If it returns a string, the string should be included in the opening
# tag of the marshaled element.
def checkref(self, obj, tag, ns_map):
if self.depth < 2:
return ''
if not self.ids.has_key(id(obj)):
n = self.ids[id(obj)] = self.icounter
self.icounter = n + 1
if self.use_refs == 0:
return ''
if self.depth == 2:
return ' id="i%d"' % n
self.multirefs.append((obj, tag))
else:
if self.use_refs == 0:
raise RecursionError, "Cannot serialize recursive object"
n = self.ids[id(obj)]
if self.multis and self.depth == 2:
return ' id="i%d"' % n
self.out += '<%s href="#i%d"%s/>\n' % (tag, n, self.genroot(ns_map))
return None
# dumpers
def dump(self, obj, tag = None, typed = 1, ns_map = {}):
ns_map = ns_map.copy()
self.depth += 1
if type(tag) not in (NoneType, StringType, UnicodeType):
raise KeyError, "tag must be a string or None"
try:
meth = getattr(self, "dump_" + type(obj).__name__)
meth(obj, tag, typed, ns_map)
except AttributeError:
if type(obj) == LongType:
obj_type = "integer"
else:
obj_type = type(obj).__name__
self.out += self.dumper(None, obj_type, obj, tag, typed,
ns_map, self.genroot(ns_map))
self.depth -= 1
# generic dumper
def dumper(self, nsURI, obj_type, obj, tag, typed = 1, ns_map = {},
rootattr = '', id = '',
xml = '<%(tag)s%(type)s%(id)s%(attrs)s%(root)s>%(data)s</%(tag)s>\n'):
if nsURI == None:
nsURI = self.config.typesNamespaceURI
tag = tag or self.gentag()
a = n = t = ''
if typed and obj_type:
ns, n = self.genns(ns_map, nsURI)
ins = self.genns(ns_map, self.config.schemaNamespaceURI)[0]
t = ' %stype="%s%s"%s' % (ins, ns, obj_type, n)
try: a = obj._marshalAttrs(ns_map, self)
except: pass
try: data = obj._marshalData()
except: data = obj
return xml % {"tag": tag, "type": t, "data": data, "root": rootattr,
"id": id, "attrs": a}
def dump_float(self, obj, tag, typed = 1, ns_map = {}):
# Terrible windows hack
if not good_float:
if obj == float(1e300**2):
obj = "INF"
elif obj == float(-1e300**2):
obj = "-INF"
obj = str(obj)
if obj in ('inf', '-inf'):
obj = str(obj).upper()
elif obj == 'nan':
obj = 'NaN'
self.out += self.dumper(None, "float", obj, tag, typed, ns_map,
self.genroot(ns_map))
def dump_string(self, obj, tag, typed = 0, ns_map = {}):
tag = tag or self.gentag()
id = self.checkref(obj, tag, ns_map)
if id == None:
return
try: data = obj._marshalData()
except: data = obj
self.out += self.dumper(None, "string", cgi.escape(data), tag,
typed, ns_map, self.genroot(ns_map), id)
dump_unicode = dump_string
dump_str = dump_string # 4/12/2002 - MAP - for Python 2.2
def dump_None(self, obj, tag, typed = 0, ns_map = {}):
tag = tag or self.gentag()
ns = self.genns(ns_map, self.config.schemaNamespaceURI)[0]
self.out += '<%s %snull="1"%s/>\n' % (tag, ns, self.genroot(ns_map))
def dump_list(self, obj, tag, typed = 1, ns_map = {}):
if type(obj) == InstanceType:
data = obj.data
else:
data = obj
tag = tag or self.gentag()
id = self.checkref(obj, tag, ns_map)
if id == None:
return
try:
sample = data[0]
empty = 0
except:
sample = structType()
empty = 1
# First scan list to see if all are the same type
same_type = 1
if not empty:
for i in data[1:]:
if type(sample) != type(i) or \
(type(sample) == InstanceType and \
sample.__class__ != i.__class__):
same_type = 0
break
ndecl = ''
if same_type:
if (isinstance(sample, structType)) or \
type(sample) == DictType: # force to urn struct
try:
tns = obj._ns or NS.URN
except:
tns = NS.URN
ns, ndecl = self.genns(ns_map, tns)
try:
typename = last._typename
except:
typename = "SOAPStruct"
t = ns + typename
elif isinstance(sample, anyType):
ns = sample._validNamespaceURI(self.config.typesNamespaceURI,
self.config.strictNamespaces)
if ns:
ns, ndecl = self.genns(ns_map, ns)
t = ns + sample._type
else:
t = 'ur-type'
else:
t = self.genns(ns_map, self.config.typesNamespaceURI)[0] + \
type(sample).__name__
else:
t = self.genns(ns_map, self.config.typesNamespaceURI)[0] + \
"ur-type"
try: a = obj._marshalAttrs(ns_map, self)
except: a = ''
ens, edecl = self.genns(ns_map, NS.ENC)
ins, idecl = self.genns(ns_map, self.config.schemaNamespaceURI)
self.out += \
'<%s %sarrayType="%s[%d]" %stype="%sArray"%s%s%s%s%s%s>\n' %\
(tag, ens, t, len(data), ins, ens, ndecl, edecl, idecl,
self.genroot(ns_map), id, a)
typed = not same_type
try: elemsname = obj._elemsname
except: elemsname = "item"
for i in data:
self.dump(i, elemsname, typed, ns_map)
self.out += '</%s>\n' % tag
dump_tuple = dump_list
def dump_dictionary(self, obj, tag, typed = 1, ns_map = {}):
tag = tag or self.gentag()
id = self.checkref(obj, tag, ns_map)
if id == None:
return
try: a = obj._marshalAttrs(ns_map, self)
except: a = ''
self.out += '<%s%s%s%s>\n' % \
(tag, id, a, self.genroot(ns_map))
for (k, v) in obj.items():
if k[0] != "_":
self.dump(v, k, 1, ns_map)
self.out += '</%s>\n' % tag
dump_dict = dump_dictionary # 4/18/2002 - MAP - for Python 2.2
def dump_instance(self, obj, tag, typed = 1, ns_map = {}):
if not tag:
# If it has a name use it.
if isinstance(obj, anyType) and obj._name:
tag = obj._name
else:
tag = self.gentag()
if isinstance(obj, arrayType): # Array
self.dump_list(obj, tag, typed, ns_map)
return
if isinstance(obj, faultType): # Fault
cns, cdecl = self.genns(ns_map, NS.ENC)
vns, vdecl = self.genns(ns_map, NS.ENV)
self.out += '''<%sFault %sroot="1"%s%s>
<faultcode>%s</faultcode>
<faultstring>%s</faultstring>
''' % (vns, cns, vdecl, cdecl, obj.faultcode, obj.faultstring)
if hasattr(obj, "detail"):
self.dump(obj.detail, "detail", typed, ns_map)
self.out += "</%sFault>\n" % vns
return
r = self.genroot(ns_map)
try: a = obj._marshalAttrs(ns_map, self)
except: a = ''
if isinstance(obj, voidType): # void
self.out += "<%s%s%s></%s>\n" % (tag, a, r, tag)
return
id = self.checkref(obj, tag, ns_map)
if id == None:
return
if isinstance(obj, structType):
# Check for namespace
ndecl = ''
ns = obj._validNamespaceURI(self.config.typesNamespaceURI,
self.config.strictNamespaces)
if ns:
ns, ndecl = self.genns(ns_map, ns)
tag = ns + tag
self.out += "<%s%s%s%s%s>\n" % (tag, ndecl, id, a, r)
# If we have order use it.
order = 1
for i in obj._keys():
if i not in obj._keyord:
order = 0
break
if order:
for i in range(len(obj._keyord)):
self.dump(obj._aslist[i], obj._keyord[i], 1, ns_map)
else:
# don't have pristine order information, just build it.
for (k, v) in obj.__dict__.items():
if k[0] != "_":
self.dump(v, k, 1, ns_map)
if isinstance(obj, bodyType):
self.multis = 1
for v, k in self.multirefs:
self.dump(v, k, typed = typed, ns_map = ns_map)
self.out += '</%s>\n' % tag
elif isinstance(obj, anyType):
t = ''
if typed:
ns = obj._validNamespaceURI(self.config.typesNamespaceURI,
self.config.strictNamespaces)
if ns:
ons, ondecl = self.genns(ns_map, ns)
ins, indecl = self.genns(ns_map,
self.config.schemaNamespaceURI)
t = ' %stype="%s%s"%s%s' % \
(ins, ons, obj._type, ondecl, indecl)
self.out += '<%s%s%s%s%s>%s</%s>\n' % \
(tag, t, id, a, r, obj._marshalData(), tag)
else: # Some Class
self.out += '<%s%s%s>\n' % (tag, id, r)
for (k, v) in obj.__dict__.items():
if k[0] != "_":
self.dump(v, k, 1, ns_map)
self.out += '</%s>\n' % tag
################################################################################
# SOAPBuilder's more public interface
################################################################################
def buildSOAP(args=(), kw={}, method=None, namespace=None, header=None,
methodattrs=None,envelope=1,encoding='UTF-8',config=Config):
t = SOAPBuilder(args=args,kw=kw, method=method, namespace=namespace,
header=header, methodattrs=methodattrs,envelope=envelope,
encoding=encoding, config=config)
return t.build()
################################################################################
# RPC
################################################################################
def SOAPUserAgent():
return "SOAP.py " + __version__ + " (actzero.com)"
################################################################################
# Client
################################################################################
class SOAPAddress:
def __init__(self, url, config = Config):
proto, uri = urllib.splittype(url)
# apply some defaults
if uri[0:2] != '//':
if proto != None:
uri = proto + ':' + uri
uri = '//' + uri
proto = 'http'
host, path = urllib.splithost(uri)
try:
int(host)
host = 'localhost:' + host
except:
pass
if not path:
path = '/'
if proto not in ('http', 'https'):
raise IOError, "unsupported SOAP protocol"
if proto == 'https' and not config.SSLclient:
raise AttributeError, \
"SSL client not supported by this Python installation"
self.proto = proto
self.host = host
self.path = path
def __str__(self):
return "%(proto)s://%(host)s%(path)s" % self.__dict__
__repr__ = __str__
class HTTPTransport:
# Need a Timeout someday?
def call(self, addr, data, soapaction = '', encoding = None,
http_proxy = None, config = Config):
import httplib
if not isinstance(addr, SOAPAddress):
addr = SOAPAddress(addr, config)
# Build a request
if http_proxy:
real_addr = http_proxy
real_path = addr.proto + "://" + addr.host + addr.path
else:
real_addr = addr.host
real_path = addr.path
if addr.proto == 'https':
r = httplib.HTTPS(real_addr)
else:
r = httplib.HTTP(real_addr)
r.putrequest("POST", real_path)
r.putheader("Host", addr.host)
r.putheader("User-agent", SOAPUserAgent())
t = 'text/xml';
if encoding != None:
t += '; charset="%s"' % encoding
r.putheader("Content-type", t)
r.putheader("Content-length", str(len(data)))
r.putheader("SOAPAction", '"%s"' % soapaction)
if config.dumpHeadersOut:
s = 'Outgoing HTTP headers'
debugHeader(s)
print "POST %s %s" % (real_path, r._http_vsn_str)
print "Host:", addr.host
print "User-agent: SOAP.py " + __version__ + " (actzero.com)"
print "Content-type:", t
print "Content-length:", len(data)
print 'SOAPAction: "%s"' % soapaction
debugFooter(s)
r.endheaders()
if config.dumpSOAPOut:
s = 'Outgoing SOAP'
debugHeader(s)
print data,
if data[-1] != '\n':
print
debugFooter(s)
# send the payload
r.send(data)
# read response line
code, msg, headers = r.getreply()
if config.dumpHeadersIn:
s = 'Incoming HTTP headers'
debugHeader(s)
if headers.headers:
print "HTTP/1.? %d %s" % (code, msg)
print "\n".join(map (lambda x: x.strip(), headers.headers))
else:
print "HTTP/0.9 %d %s" % (code, msg)
debugFooter(s)
if config.dumpSOAPIn:
data = r.getfile().read()
s = 'Incoming SOAP'
debugHeader(s)
print data,
if data[-1] != '\n':
print
debugFooter(s)
if code not in (200, 500):
raise HTTPError(code, msg)
if not config.dumpSOAPIn:
data = r.getfile().read()
# return response payload
return data
################################################################################
# SOAP Proxy
################################################################################
class SOAPProxy:
def __init__(self, proxy, namespace = None, soapaction = '',
header = None, methodattrs = None, transport = HTTPTransport,
encoding = 'UTF-8', throw_faults = 1, unwrap_results = 1,
http_proxy=None, config = Config):
# Test the encoding, raising an exception if it's not known
if encoding != None:
''.encode(encoding)
self.proxy = SOAPAddress(proxy, config)
self.namespace = namespace
self.soapaction = soapaction
self.header = header
self.methodattrs = methodattrs
self.transport = transport()
self.encoding = encoding
self.throw_faults = throw_faults
self.unwrap_results = unwrap_results
self.http_proxy = http_proxy
self.config = config
def __call(self, name, args, kw, ns = None, sa = None, hd = None,
ma = None):
ns = ns or self.namespace
ma = ma or self.methodattrs
if sa: # Get soapaction
if type(sa) == TupleType: sa = sa[0]
else:
sa = self.soapaction
if hd: # Get header
if type(hd) == TupleType:
hd = hd[0]
else:
hd = self.header
hd = hd or self.header
if ma: # Get methodattrs
if type(ma) == TupleType: ma = ma[0]
else:
ma = self.methodattrs
ma = ma or self.methodattrs
m = buildSOAP(args = args, kw = kw, method = name, namespace = ns,
header = hd, methodattrs = ma, encoding = self.encoding,
config = self.config)
r = self.transport.call(self.proxy, m, sa, encoding = self.encoding,
http_proxy = self.http_proxy,
config = self.config)
p, attrs = parseSOAPRPC(r, attrs = 1)
try:
throw_struct = self.throw_faults and \
isinstance (p, faultType)
except:
throw_struct = 0
if throw_struct:
raise p
# Bubble a regular result up, if there is only element in the
# struct, assume that is the result and return it.
# Otherwise it will return the struct with all the elements
# as attributes.
if self.unwrap_results:
try:
count = 0
for i in p.__dict__.keys():
if i[0] != "_": # don't move the private stuff
count += 1
t = getattr(p, i)
if count == 1: p = t # Only one piece of data, bubble it up
except:
pass
if self.config.returnAllAttrs:
return p, attrs
return p
def _callWithBody(self, body):
return self.__call(None, body, {})
def __getattr__(self, name): # hook to catch method calls
if name == '__del__':
raise AttributeError, name
else:
return self.__Method(self.__call, name, config = self.config)
# To handle attribute wierdness
class __Method:
# Some magic to bind a SOAP method to an RPC server.
# Supports "nested" methods (e.g. examples.getStateName) -- concept
# borrowed from xmlrpc/soaplib -- www.pythonware.com
# Altered (improved?) to let you inline namespaces on a per call
# basis ala SOAP::LITE -- www.soaplite.com
def __init__(self, call, name, ns = None, sa = None, hd = None,
ma = None, config = Config):
self.__call = call
self.__name = name
self.__ns = ns
self.__sa = sa
self.__hd = hd
self.__ma = ma
self.__config = config
if self.__name[0] == "_":
if self.__name in ["__repr__","__str__"]:
self.__call__ = self.__repr__
else:
self.__call__ = self.__f_call
else:
self.__call__ = self.__r_call
def __getattr__(self, name):
if name == '__del__':
raise AttributeError, name
if self.__name[0] == "_":
# Don't nest method if it is a directive
return self.__class__(self.__call, name, self.__ns,
self.__sa, self.__hd, self.__ma)
return self.__class__(self.__call, "%s.%s" % (self.__name, name),
self.__ns, self.__sa, self.__hd, self.__ma)
def __f_call(self, *args, **kw):
if self.__name == "_ns": self.__ns = args
elif self.__name == "_sa": self.__sa = args
elif self.__name == "_hd": self.__hd = args
elif self.__name == "_ma": self.__ma = args
return self
def __r_call(self, *args, **kw):
return self.__call(self.__name, args, kw, self.__ns, self.__sa,
self.__hd, self.__ma)
def __repr__(self):
return "<%s at %d>" % (self.__class__, id(self))
################################################################################
# Server
################################################################################
# Method Signature class for adding extra info to registered funcs, right now
# used just to indicate it should be called with keywords, instead of ordered
# params.
class MethodSig:
def __init__(self, func, keywords=0, context=0):
self.func = func
self.keywords = keywords
self.context = context
self.__name__ = func.__name__
def __call__(self, *args, **kw):
return apply(self.func,args,kw)
class SOAPContext:
def __init__(self, header, body, attrs, xmldata, connection, httpheaders,
soapaction):
self.header = header
self.body = body
self.attrs = attrs
self.xmldata = xmldata
self.connection = connection
self.httpheaders= httpheaders
self.soapaction = soapaction
# A class to describe how header messages are handled
class HeaderHandler:
# Initially fail out if there are any problems.
def __init__(self, header, attrs):
for i in header.__dict__.keys():
if i[0] == "_":
continue
d = getattr(header, i)
try:
fault = int(attrs[id(d)][(NS.ENV, 'mustUnderstand')])
except:
fault = 0
if fault:
raise faultType, ("%s:MustUnderstand" % NS.ENV_T,
"Don't understand `%s' header element but "
"mustUnderstand attribute is set." % i)
################################################################################
# SOAP Server
################################################################################
class SOAPServer(SocketServer.TCPServer):
import BaseHTTPServer
class SOAPRequestHandler(BaseHTTPServer.BaseHTTPRequestHandler):
def version_string(self):
return '<a href="http://www.actzero.com/solution.html">' + \
'SOAP.py ' + __version__ + '</a> (Python ' + \
sys.version.split()[0] + ')'
def date_time_string(self):
self.__last_date_time_string = \
SOAPServer.BaseHTTPServer.BaseHTTPRequestHandler.\
date_time_string(self)
return self.__last_date_time_string
def do_POST(self):
try:
if self.server.config.dumpHeadersIn:
s = 'Incoming HTTP headers'
debugHeader(s)
print self.raw_requestline.strip()
print "\n".join(map (lambda x: x.strip(),
self.headers.headers))
debugFooter(s)
data = self.rfile.read(int(self.headers["content-length"]))
if self.server.config.dumpSOAPIn:
s = 'Incoming SOAP'
debugHeader(s)
print data,
if data[-1] != '\n':
print
debugFooter(s)
(r, header, body, attrs) = \
parseSOAPRPC(data, header = 1, body = 1, attrs = 1)
method = r._name
args = r._aslist
kw = r._asdict
ns = r._ns
resp = ""
# For fault messages
if ns:
nsmethod = "%s:%s" % (ns, method)
else:
nsmethod = method
try:
# First look for registered functions
if self.server.funcmap.has_key(ns) and \
self.server.funcmap[ns].has_key(method):
f = self.server.funcmap[ns][method]
else: # Now look at registered objects
# Check for nested attributes. This works even if
# there are none, because the split will return
# [method]
f = self.server.objmap[ns]
l = method.split(".")
for i in l:
f = getattr(f, i)
except:
resp = buildSOAP(faultType("%s:Client" % NS.ENV_T,
"No method %s found" % nsmethod,
"%s %s" % tuple(sys.exc_info()[0:2])),
encoding = self.server.encoding,
config = self.server.config)
status = 500
else:
try:
if header:
x = HeaderHandler(header, attrs)
# If it's wrapped, some special action may be needed
if isinstance(f, MethodSig):
c = None
if f.context: # Build context object
c = SOAPContext(header, body, attrs, data,
self.connection, self.headers,
self.headers["soapaction"])
if f.keywords:
# This is lame, but have to de-unicode
# keywords
strkw = {}
for (k, v) in kw.items():
strkw[str(k)] = v
if c:
strkw["_SOAPContext"] = c
fr = apply(f, (), strkw)
elif c:
fr = apply(f, args, {'_SOAPContext':c})
else:
fr = apply(f, args, {})
else:
fr = apply(f, args, {})
if type(fr) == type(self) and \
isinstance(fr, voidType):
resp = buildSOAP(kw = {'%sResponse' % method: fr},
encoding = self.server.encoding,
config = self.server.config)
else:
resp = buildSOAP(kw =
{'%sResponse' % method: {'Result': fr}},
encoding = self.server.encoding,
config = self.server.config)
except Exception, e:
import traceback
info = sys.exc_info()
if self.server.config.dumpFaultInfo:
s = 'Method %s exception' % nsmethod
debugHeader(s)
traceback.print_exception(info[0], info[1],
info[2])
debugFooter(s)
if isinstance(e, faultType):
f = e
else:
f = faultType("%s:Server" % NS.ENV_T,
"Method %s failed." % nsmethod)
if self.server.config.returnFaultInfo:
f._setDetail("".join(traceback.format_exception(
info[0], info[1], info[2])))
elif not hasattr(f, 'detail'):
f._setDetail("%s %s" % (info[0], info[1]))
resp = buildSOAP(f, encoding = self.server.encoding,
config = self.server.config)
status = 500
else:
status = 200
except faultType, e:
import traceback
info = sys.exc_info()
if self.server.config.dumpFaultInfo:
s = 'Received fault exception'
debugHeader(s)
traceback.print_exception(info[0], info[1],
info[2])
debugFooter(s)
if self.server.config.returnFaultInfo:
e._setDetail("".join(traceback.format_exception(
info[0], info[1], info[2])))
elif not hasattr(e, 'detail'):
e._setDetail("%s %s" % (info[0], info[1]))
resp = buildSOAP(e, encoding = self.server.encoding,
config = self.server.config)
status = 500
except:
# internal error, report as HTTP server error
if self.server.config.dumpFaultInfo:
import traceback
s = 'Internal exception'
debugHeader(s)
traceback.print_exc ()
debugFooter(s)
self.send_response(500)
self.end_headers()
if self.server.config.dumpHeadersOut and \
self.request_version != 'HTTP/0.9':
s = 'Outgoing HTTP headers'
debugHeader(s)
if self.responses.has_key(status):
s = ' ' + self.responses[status][0]
else:
s = ''
print "%s %d%s" % (self.protocol_version, 500, s)
print "Server:", self.version_string()
print "Date:", self.__last_date_time_string
debugFooter(s)
else:
# got a valid SOAP response
self.send_response(status)
t = 'text/xml';
if self.server.encoding != None:
t += '; charset="%s"' % self.server.encoding
self.send_header("Content-type", t)
self.send_header("Content-length", str(len(resp)))
self.end_headers()
if self.server.config.dumpHeadersOut and \
self.request_version != 'HTTP/0.9':
s = 'Outgoing HTTP headers'
debugHeader(s)
if self.responses.has_key(status):
s = ' ' + self.responses[status][0]
else:
s = ''
print "%s %d%s" % (self.protocol_version, status, s)
print "Server:", self.version_string()
print "Date:", self.__last_date_time_string
print "Content-type:", t
print "Content-length:", len(resp)
debugFooter(s)
if self.server.config.dumpSOAPOut:
s = 'Outgoing SOAP'
debugHeader(s)
print resp,
if resp[-1] != '\n':
print
debugFooter(s)
self.wfile.write(resp)
self.wfile.flush()
# We should be able to shut down both a regular and an SSL
# connection, but under Python 2.1, calling shutdown on an
# SSL connections drops the output, so this work-around.
# This should be investigated more someday.
if self.server.config.SSLserver and \
isinstance(self.connection, SSL.Connection):
self.connection.set_shutdown(SSL.SSL_SENT_SHUTDOWN |
SSL.SSL_RECEIVED_SHUTDOWN)
else:
self.connection.shutdown(1)
def log_message(self, format, *args):
if self.server.log:
SOAPServer.BaseHTTPServer.BaseHTTPRequestHandler.\
log_message (self, format, *args)
def __init__(self, addr = ('localhost', 8000),
RequestHandler = SOAPRequestHandler, log = 1, encoding = 'UTF-8',
config = Config, namespace = None, ssl_context = None):
# Test the encoding, raising an exception if it's not known
if encoding != None:
''.encode(encoding)
if ssl_context != None and not config.SSLserver:
raise AttributeError, \
"SSL server not supported by this Python installation"
self.namespace = namespace
self.objmap = {}
self.funcmap = {}
self.ssl_context = ssl_context
self.encoding = encoding
self.config = config
self.log = log
self.allow_reuse_address= 1
SocketServer.TCPServer.__init__(self, addr, RequestHandler)
def get_request(self):
sock, addr = SocketServer.TCPServer.get_request(self)
if self.ssl_context:
sock = SSL.Connection(self.ssl_context, sock)
sock._setup_ssl(addr)
if sock.accept_ssl() != 1:
raise socket.error, "Couldn't accept SSL connection"
return sock, addr
def registerObject(self, object, namespace = ''):
if namespace == '': namespace = self.namespace
self.objmap[namespace] = object
def registerFunction(self, function, namespace = '', funcName = None):
if not funcName : funcName = function.__name__
if namespace == '': namespace = self.namespace
if self.funcmap.has_key(namespace):
self.funcmap[namespace][funcName] = function
else:
self.funcmap[namespace] = {funcName : function}
def registerKWObject(self, object, namespace = ''):
if namespace == '': namespace = self.namespace
for i in dir(object.__class__):
if i[0] != "_" and callable(getattr(object, i)):
self.registerKWFunction(getattr(object,i), namespace)
# convenience - wraps your func for you.
def registerKWFunction(self, function, namespace = '', funcName = None):
self.registerFunction(MethodSig(function,keywords=1), namespace,
funcName)
# vim:set shiftwidth=4 tabstop=8 expandtab textwidth=78: