1 | #!/usr/local/bin/python |
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2 | |
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3 | import os, sys |
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4 | import subprocess |
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5 | import tempfile |
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6 | |
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7 | from M2Crypto import SSL, X509, EVP |
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8 | from pyasn1.codec.der import decoder |
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9 | |
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10 | from xmlrpclib import Binary |
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11 | |
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12 | |
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13 | # The version of M2Crypto on users is pretty old and doesn't have all the |
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14 | # features that are useful. The legacy code is somewhat more brittle than the |
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15 | # main line, but will work. |
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16 | if "as_der" not in dir(EVP.PKey): |
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17 | from asn1_raw import get_key_bits_from_file, get_key_bits_from_cert |
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18 | legacy = True |
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19 | else: |
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20 | legacy = False |
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21 | |
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22 | class fedd_ssl_context(SSL.Context): |
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23 | """ |
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24 | Simple wrapper around an M2Crypto.SSL.Context to initialize it for fedd. |
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25 | """ |
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26 | def __init__(self, my_cert, trusted_certs=None, password=None): |
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27 | """ |
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28 | construct a fedd_ssl_context |
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29 | |
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30 | @param my_cert: PEM file with my certificate in it |
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31 | @param trusted_certs: PEM file with trusted certs in it (optional) |
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32 | """ |
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33 | SSL.Context.__init__(self) |
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34 | |
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35 | # load_cert takes a callback to get a password, not a password, so if |
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36 | # the caller provided a password, this creates a nonce callback using a |
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37 | # lambda form. |
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38 | if password != None and not callable(password): |
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39 | # This is cute. password = lambda *args: password produces a |
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40 | # function object that returns itself rather than one that returns |
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41 | # the object itself. This is because password is an object |
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42 | # reference and after the assignment it's a lambda. So we assign |
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43 | # to a temp. |
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44 | pwd = password |
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45 | password =lambda *args: pwd |
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46 | |
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47 | if password != None: |
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48 | self.load_cert(my_cert, callback=password) |
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49 | else: |
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50 | self.load_cert(my_cert) |
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51 | if trusted_certs != None: self.load_verify_locations(trusted_certs) |
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52 | self.set_verify(SSL.verify_peer, 10) |
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53 | |
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54 | class fedid: |
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55 | """ |
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56 | Wrapper around the federated ID from an X509 certificate. |
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57 | """ |
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58 | HASHSIZE=20 |
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59 | def __init__(self, bits=None, hexstr=None, cert=None, file=None): |
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60 | if bits != None: |
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61 | self.set_bits(bits) |
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62 | elif hexstr != None: |
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63 | self.set_hexstr(hexstr) |
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64 | elif cert != None: |
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65 | self.set_cert(cert) |
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66 | elif file != None: |
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67 | self.set_file(file) |
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68 | else: |
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69 | self.buf = None |
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70 | |
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71 | def __hash__(self): |
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72 | return hash(self.buf) |
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73 | |
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74 | def __eq__(self, other): |
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75 | if isinstance(other, type(self)): |
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76 | return self.buf == other.buf |
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77 | elif isinstance(other, type(str())): |
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78 | return self.buf == other; |
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79 | else: |
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80 | return False |
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81 | |
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82 | def __ne__(self, other): return not self.__eq__(other) |
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83 | |
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84 | def __str__(self): |
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85 | if self.buf != None: |
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86 | return str().join([ "%02x" % ord(x) for x in self.buf]) |
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87 | else: return "" |
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88 | |
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89 | def __repr__(self): |
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90 | return "fedid(hexstr='%s')" % self.__str__() |
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91 | |
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92 | def pack_soap(self): |
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93 | return self.buf |
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94 | |
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95 | def pack_xmlrpc(self): |
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96 | return self.buf |
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97 | |
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98 | def digest_bits(self, bits): |
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99 | """Internal function. Compute the fedid from bits and store in buf""" |
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100 | d = EVP.MessageDigest('sha1') |
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101 | d.update(bits) |
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102 | self.buf = d.final() |
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103 | |
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104 | |
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105 | def set_hexstr(self, hexstr): |
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106 | h = hexstr.replace(':','') |
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107 | self.buf= str().join([chr(int(h[i:i+2],16)) \ |
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108 | for i in range(0,2*fedid.HASHSIZE,2)]) |
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109 | |
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110 | def get_hexstr(self): |
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111 | """Return the hexstring representation of the fedid""" |
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112 | return __str__(self) |
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113 | |
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114 | def set_bits(self, bits): |
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115 | """Set the fedid to bits(a 160 bit buffer)""" |
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116 | self.buf = bits |
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117 | |
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118 | def get_bits(self): |
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119 | """Get the 160 bit buffer from the fedid""" |
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120 | return self.buf |
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121 | |
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122 | def set_file(self, file): |
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123 | """Get the fedid from a certificate file |
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124 | |
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125 | Calculate the SHA1 hash over the bit string of the public key as |
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126 | defined in RFC3280. |
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127 | """ |
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128 | self.buf = None |
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129 | if legacy: self.digest_bits(get_key_bits_from_file(file)) |
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130 | else: self.set_cert(X509.load_cert(file)) |
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131 | |
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132 | def set_cert(self, cert): |
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133 | """Get the fedid from a certificate. |
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134 | |
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135 | Calculate the SHA1 hash over the bit string of the public key as |
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136 | defined in RFC3280. |
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137 | """ |
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138 | |
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139 | self.buf = None |
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140 | if (cert != None): |
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141 | if legacy: |
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142 | self.digest_bits(get_key_bits_from_cert(cert)) |
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143 | else: |
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144 | b = [] |
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145 | k = cert.get_pubkey() |
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146 | |
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147 | # Getting the key was easy, but getting the bit string of the |
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148 | # key requires a side trip through ASN.1 |
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149 | dec = decoder.decode(k.as_der()) |
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150 | |
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151 | # kv is a tuple of the bits in the key. The loop below |
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152 | # recombines these into bytes and then into a buffer for the |
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153 | # SSL digest function. |
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154 | kv = dec[0].getComponentByPosition(1) |
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155 | for i in range(0, len(kv), 8): |
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156 | v = 0 |
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157 | for j in range(0, 8): |
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158 | v = (v << 1) + kv[i+j] |
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159 | b.append(v) |
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160 | # The comprehension turns b from a list of bytes into a buffer |
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161 | # (string) of bytes |
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162 | self.digest_bits(str().join([chr(x) for x in b])) |
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163 | |
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164 | def pack_id(id): |
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165 | """ |
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166 | Return a dictionary with the field name set by the id type. Handy for |
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167 | creating dictionaries to be converted to messages. |
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168 | """ |
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169 | if isinstance(id, type(fedid())): return { 'fedid': id } |
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170 | elif id.startswith("http:") or id.startswith("https:"): return { 'uri': id } |
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171 | else: return { 'localname': id} |
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172 | |
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173 | def unpack_id(id): |
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174 | """return id as a type determined by the key""" |
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175 | if id.has_key("fedid"): return fedid(id["fedid"]) |
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176 | else: |
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177 | for k in ("localname", "uri", "kerberosUsername"): |
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178 | if id.has_key(k): return id[k] |
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179 | return None |
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180 | |
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181 | def pack_soap(container, name, contents): |
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182 | """ |
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183 | Convert the dictionary in contents into a tree of ZSI classes. |
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184 | |
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185 | The holder classes are constructed from factories in container and assigned |
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186 | to either the element or attribute name. This is used to recursively |
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187 | create the SOAP message. |
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188 | """ |
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189 | if getattr(contents, "__iter__", None) != None: |
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190 | attr =getattr(container, "new_%s" % name, None) |
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191 | if attr: obj = attr() |
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192 | else: |
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193 | print dir(container) |
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194 | raise TypeError("%s does not have a new_%s attribute" % \ |
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195 | (container, name)) |
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196 | for e, v in contents.iteritems(): |
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197 | assign = getattr(obj, "set_element_%s" % e, None) or \ |
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198 | getattr(obj, "set_attribute_%s" % e, None) |
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199 | if isinstance(v, type(dict())): |
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200 | assign(pack_soap(obj, e, v)) |
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201 | elif getattr(v, "__iter__", None) != None: |
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202 | assign([ pack_soap(obj, e, val ) for val in v]) |
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203 | elif getattr(v, "pack_soap", None) != None: |
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204 | assign(v.pack_soap()) |
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205 | else: |
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206 | assign(v) |
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207 | return obj |
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208 | else: return contents |
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209 | |
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210 | def unpack_soap(element): |
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211 | """ |
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212 | Convert a tree of ZSI SOAP classes intro a hash. The inverse of pack_soap |
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213 | |
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214 | Elements or elements that are empty are ignored. |
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215 | """ |
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216 | methods = [ m for m in dir(element) \ |
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217 | if m.startswith("get_element") or m.startswith("get_attribute")] |
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218 | if len(methods) > 0: |
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219 | rv = { } |
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220 | for m in methods: |
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221 | if m.startswith("get_element_"): n = m.replace("get_element_","",1) |
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222 | else: n = m.replace("get_attribute_", "", 1) |
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223 | sub = getattr(element, m)() |
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224 | if sub != None: |
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225 | if isinstance(sub, basestring): |
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226 | rv[n] = sub |
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227 | elif getattr(sub, "__iter__", None) != None: |
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228 | if len(sub) > 0: rv[n] = [unpack_soap(e) for e in sub] |
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229 | else: |
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230 | rv[n] = unpack_soap(sub) |
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231 | return rv |
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232 | else: |
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233 | return element |
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234 | |
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235 | def encapsulate_binaries(e, tags): |
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236 | """Walk through a message and encapsulate any dictionary entries in |
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237 | tags into a binary object.""" |
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238 | dict_type = type(dict()) |
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239 | list_type = type(list()) |
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240 | str_type = type(str()) |
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241 | |
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242 | if isinstance(e, dict_type): |
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243 | for k in e.keys(): |
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244 | if k in tags: |
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245 | if isinstance(e[k], list_type): |
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246 | bin_list = [] |
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247 | for ee in e[k]: |
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248 | if getattr(ee, 'pack_xmlrpc', None): |
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249 | bin_list.append(Binary(ee.pack_xmlrpc())) |
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250 | else: |
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251 | bin_list.append(Binary(ee)) |
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252 | e[k] = bin_list |
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253 | elif getattr(e[k],'pack_xmlrpc', None): |
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254 | e[k] = Binary(e[k].pack_xmlrpc()) |
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255 | else: |
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256 | e[k] = Binary(e[k]) |
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257 | elif isinstance(e[k], dict_type): |
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258 | encapsulate_binaries(e[k], tags) |
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259 | elif isinstance(e[k], list_type): |
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260 | for ee in e[k]: |
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261 | encapsulate_binaries(ee, tags) |
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262 | # Other types end the recursion - they should be leaves |
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263 | return e |
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264 | |
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265 | def decapsulate_binaries(e, tags): |
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266 | """Walk through a message and encapsulate any dictionary entries in |
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267 | tags into a binary object.""" |
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268 | dict_type = type(dict()) |
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269 | list_type = type(list()) |
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270 | str_type = type(str()) |
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271 | |
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272 | if isinstance(e, dict_type): |
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273 | for k in e.keys(): |
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274 | if k in tags: |
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275 | if isinstance(e[k], list_type): |
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276 | e[k] = [ b.data for b in e[k]] |
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277 | else: |
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278 | e[k] = e[k].data |
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279 | elif isinstance(e[k], dict_type): |
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280 | decapsulate_binaries(e[k], tags) |
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281 | elif isinstance(e[k], list_type): |
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282 | for ee in e[k]: |
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283 | decapsulate_binaries(ee, tags) |
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284 | # Other types end the recursion - they should be leaves |
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285 | return e |
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286 | |
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287 | |
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288 | def generate_fedid(subj, bits=2048, log=None, dir=None, trace=None): |
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289 | """ |
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290 | Create a new certificate and derive a fedid from it. |
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291 | |
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292 | The fedid and the certificte are returned as a tuple. |
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293 | """ |
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294 | |
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295 | keypath = None |
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296 | certpath = None |
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297 | try: |
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298 | try: |
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299 | kd, keypath = tempfile.mkstemp(dir=dir, prefix="key", |
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300 | suffix=".pem") |
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301 | cd, certpath = tempfile.mkstemp(dir=dir, prefix="cert", |
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302 | suffix=".pem") |
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303 | |
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304 | cmd = ["openssl", "req", "-text", "-newkey", "rsa:%d" % bits, |
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305 | "-keyout", keypath, "-nodes", "-subj", "/CN=%s" % subj, |
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306 | "-x509", "-days", "30", "-out", certpath] |
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307 | |
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308 | if log: |
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309 | log.debug("[generate_fedid] %s" % " ".join(cmd)) |
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310 | |
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311 | if trace: call_out = trace |
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312 | else: call_out = open("/dev/null", "w") |
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313 | |
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314 | rv = subprocess.call(cmd, stdout=call_out, stderr=call_out) |
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315 | if rv == 0: |
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316 | cert = "" |
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317 | for p in (certpath, keypath): |
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318 | f = open(p) |
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319 | for line in f: |
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320 | cert += line |
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321 | |
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322 | fid = fedid(file=certpath) |
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323 | return (fid, cert) |
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324 | else: |
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325 | return None |
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326 | except IOError, e: |
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327 | raise e |
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328 | finally: |
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329 | if keypath: os.remove(keypath) |
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330 | if certpath: os.remove(certpath) |
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331 | |
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332 | |
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333 | def make_soap_handler(typecode, method, constructor, body_name): |
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334 | """ |
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335 | Generate the handler code to unpack and pack SOAP requests and responses |
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336 | and call the given method. |
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337 | |
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338 | The code to decapsulate and encapsulate parameters encoded in SOAP is the |
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339 | same modulo a few parameters. This is basically a stub compiler for |
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340 | calling a fedd service trhough a soap interface. The parameters are the |
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341 | typecode of the request parameters, the method to call (usually a bound |
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342 | instance of a method on a fedd service providing class), the constructor of |
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343 | a response packet and the name of the body element of that packet. The |
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344 | handler takes a ParsedSoap object (the request) and returns an instance of |
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345 | the class created by constructor containing the response. Failures of the |
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346 | constructor or badly created constructors will result in None being |
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347 | returned. |
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348 | """ |
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349 | def handler(ps, fid): |
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350 | req = ps.Parse(typecode) |
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351 | |
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352 | msg = method(unpack_soap(req), fedid) |
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353 | |
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354 | resp = constructor() |
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355 | set_element = getattr(resp, "set_element_%s" % body_name, None) |
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356 | if set_element and callable(set_element): |
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357 | try: |
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358 | set_element(pack_soap(resp, body_name, msg)) |
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359 | return resp |
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360 | except (NameError, TypeError): |
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361 | return None |
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362 | else: |
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363 | return None |
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364 | |
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365 | return handler |
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366 | |
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367 | def make_xmlrpc_handler(method, body_name, input_binaries=('fedid',), |
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368 | output_binaries=('fedid',)): |
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369 | """ |
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370 | Generate the handler code to unpack and pack SOAP requests and responses |
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371 | and call the given method. |
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372 | |
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373 | The code to marshall and unmarshall XMLRPC parameters to and from a fedd |
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374 | service is largely the same. This helper creates such a handler. The |
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375 | parameters are the method name, the name of the body struct that contains |
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376 | the response asn the list of fields that are encoded as Binary objects in |
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377 | the input and in the output. A handler is created that takes the params |
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378 | response from an xm,lrpclib.loads on the incoming rpc and a fedid and |
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379 | responds with a hash representing the struct ro be returned to the other |
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380 | side. On error None is returned. |
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381 | """ |
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382 | def handler(params, fid): |
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383 | p = decapsulate_binaries(params[0], input_binaries) |
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384 | msg = method(p, fedid) |
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385 | |
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386 | if msg != None: |
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387 | return encapsulate_binaries({ body_name: msg }, output_binaries) |
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388 | else: |
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389 | return None |
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390 | |
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391 | return handler |
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