1 | #!/usr/local/bin/python |
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2 | |
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3 | import os,sys |
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4 | import stat # for chmod constants |
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5 | import re |
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6 | import random |
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7 | import string |
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8 | import copy |
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9 | import pickle |
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10 | import logging |
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11 | import subprocess |
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12 | |
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13 | from threading import * |
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14 | from M2Crypto.SSL import SSLError |
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15 | |
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16 | from util import * |
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17 | from allocate_project import allocate_project_local, allocate_project_remote |
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18 | from fedid import fedid, generate_fedid |
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19 | from authorizer import authorizer |
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20 | from service_error import service_error |
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21 | from remote_service import xmlrpc_handler, soap_handler, service_caller |
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22 | |
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23 | import httplib |
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24 | import tempfile |
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25 | from urlparse import urlparse |
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26 | |
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27 | import topdl |
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28 | import list_log |
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29 | |
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30 | |
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31 | # Make log messages disappear if noone configures a fedd logger |
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32 | class nullHandler(logging.Handler): |
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33 | def emit(self, record): pass |
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34 | |
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35 | fl = logging.getLogger("fedd.access") |
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36 | fl.addHandler(nullHandler()) |
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37 | |
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38 | class legacy_access: |
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39 | """ |
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40 | This collects the legacy access control helpers in one place. |
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41 | """ |
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42 | |
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43 | class parse_error(RuntimeError): pass |
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44 | |
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45 | def __init__(self): pass |
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46 | |
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47 | def legacy_read_access(self, config, access_obj=None): |
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48 | """ |
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49 | Read an access DB with filename config of the form: |
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50 | (id, id, id) -> attribute, something |
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51 | where the ids can be fedids, strings, or <any> or <none>, attribute is |
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52 | the attribute to assign , and something is any set of charcters. The |
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53 | hash self.access is populated with mappings from those triples to the |
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54 | results of access_obj being called on the remainder of the line (if |
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55 | present). If access_obj is not given, the string itself is entered in |
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56 | the hash. Additionally, a triple with <any> and <none> mapped to None |
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57 | is entered in self.auth with the attribute given. |
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58 | |
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59 | Parsing errors result in a self.parse_error exception being raised. |
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60 | access_obj should throw that as well. |
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61 | """ |
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62 | lineno=0 |
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63 | name_expr = "["+string.ascii_letters + string.digits + "\.\-_]+" |
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64 | fedid_expr = "fedid:[" + string.hexdigits + "]+" |
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65 | key_name = "(<ANY>|<NONE>|"+fedid_expr + "|"+ name_expr + ")" |
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66 | access_re = re.compile('\('+key_name+'\s*,\s*'+key_name+'\s*,\s*'+ |
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67 | key_name+'\s*\)\s*->\s*([^,]+)\s*(.*)', re.IGNORECASE) |
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68 | |
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69 | def parse_name(n): |
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70 | if n.startswith('fedid:'): return fedid(hexstr=n[len('fedid:'):]) |
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71 | else: return n |
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72 | |
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73 | def auth_name(n): |
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74 | if isinstance(n, basestring): |
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75 | if n =='<any>' or n =='<none>': return None |
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76 | else: return unicode(n) |
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77 | else: |
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78 | return n |
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79 | def strip_comma(s): |
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80 | s = s.strip() |
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81 | if s.startswith(','): |
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82 | s = s[1:].strip() |
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83 | return s |
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84 | |
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85 | if access_obj is None: |
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86 | access_obj = lambda(x): "%s" % x |
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87 | |
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88 | f = open(config, "r"); |
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89 | try: |
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90 | for line in f: |
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91 | lineno += 1 |
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92 | line = line.strip(); |
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93 | if len(line) == 0 or line.startswith('#'): |
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94 | continue |
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95 | |
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96 | # Access line (t, p, u) -> anything |
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97 | m = access_re.match(line) |
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98 | if m != None: |
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99 | access_key = tuple([ parse_name(x) \ |
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100 | for x in m.group(1,2,3)]) |
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101 | attribute = m.group(4) |
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102 | auth_key = tuple([ auth_name(x) for x in access_key]) |
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103 | self.auth.set_attribute(auth_key, attribute) |
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104 | if len(m.group(5)) > 0: |
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105 | access_val = access_obj(strip_comma(m.group(5))) |
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106 | self.access[access_key] = access_val |
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107 | continue |
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108 | |
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109 | # Nothing matched to here: unknown line - raise exception |
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110 | f.close() |
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111 | raise self.parse_error( |
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112 | "Unknown statement at line %d of %s" % \ |
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113 | (lineno, config)) |
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114 | finally: |
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115 | if f: f.close() |
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116 | |
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117 | @staticmethod |
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118 | def permute_wildcards(a, p): |
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119 | """Return a copy of a with various fields wildcarded. |
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120 | |
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121 | The bits of p control the wildcards. A set bit is a wildcard |
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122 | replacement with the lowest bit being user then project then testbed. |
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123 | """ |
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124 | if p & 1: user = ["<any>"] |
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125 | else: user = a[2] |
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126 | if p & 2: proj = "<any>" |
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127 | else: proj = a[1] |
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128 | if p & 4: tb = "<any>" |
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129 | else: tb = a[0] |
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130 | |
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131 | return (tb, proj, user) |
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132 | |
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133 | def legacy_find_access(self, search): |
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134 | """ |
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135 | Search the access DB for a match on this tuple. Return the matching |
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136 | access tuple and the user that matched. |
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137 | |
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138 | NB, if the initial tuple fails to match we start inserting wildcards in |
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139 | an order determined by self.project_priority. Try the list of users in |
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140 | order (when wildcarded, there's only one user in the list). |
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141 | """ |
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142 | if self.project_priority: perm = (0, 1, 2, 3, 4, 5, 6, 7) |
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143 | else: perm = (0, 2, 1, 3, 4, 6, 5, 7) |
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144 | |
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145 | for p in perm: |
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146 | s = self.permute_wildcards(search, p) |
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147 | # s[2] is None on an anonymous, unwildcarded request |
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148 | if s[2] != None: |
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149 | for u in s[2]: |
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150 | if self.access.has_key((s[0], s[1], u)): |
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151 | return (self.access[(s[0], s[1], u)], u) |
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152 | else: |
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153 | if self.access.has_key(s): |
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154 | return (self.access[s], None) |
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155 | return None, None |
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156 | |
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157 | def legacy_lookup_access_base(self, req, fid): |
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158 | """ |
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159 | Determine the allowed access for this request. Return the access and |
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160 | which fields are dynamic. |
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161 | |
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162 | The fedid is needed to construct the request |
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163 | """ |
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164 | user_re = re.compile("user:\s(.*)") |
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165 | project_re = re.compile("project:\s(.*)") |
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166 | |
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167 | # Search keys |
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168 | tb = fid |
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169 | user = [ user_re.findall(x)[0] for x in req.get('credential', []) \ |
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170 | if user_re.match(x)] |
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171 | project = [ project_re.findall(x)[0] \ |
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172 | for x in req.get('credential', []) \ |
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173 | if project_re.match(x)] |
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174 | |
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175 | if len(project) == 1: project = project[0] |
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176 | elif len(project) == 0: project = None |
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177 | else: |
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178 | raise service_error(service_error.req, |
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179 | "More than one project credential") |
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180 | |
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181 | # Confirm authorization |
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182 | for u in user: |
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183 | self.log.debug("[lookup_access] Checking access for %s" % \ |
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184 | ((tb, project, u),)) |
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185 | if self.auth.check_attribute((tb, project, u), 'access'): |
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186 | self.log.debug("[lookup_access] Access granted") |
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187 | break |
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188 | else: |
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189 | self.log.debug("[lookup_access] Access Denied") |
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190 | else: |
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191 | raise service_error(service_error.access, "Access denied") |
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192 | |
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193 | # This maps a valid user to the Emulab projects and users to use |
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194 | found, user_match = self.legacy_find_access((tb, project, user)) |
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195 | |
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196 | return (found, (tb, project, user_match)) |
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