self.gid_filename = fn
self.gid_object = None
+ def get_privkey_filename(self):
+ return self.privkey_filename
+
+ def get_gid_filename(self):
+ return self.gid_filename
+
##
# Get the GID in the form of a GID object
# create the parent authority if necessary
parent_hrn = get_authority(hrn)
- if (parent_hrn) and (not self.auth_exists(parent_hrn)) and (create_parents):
- self.create_auth(parent_hrn, create_parents)
+ parent_urn = hrn_to_urn(parent_hrn, 'authority')
+ if (parent_hrn) and (not self.auth_exists(parent_urn)) and (create_parents):
+ self.create_auth(parent_urn, create_parents)
(directory, gid_filename, privkey_filename, dbinfo_filename) = \
self.get_auth_filenames(hrn)
cred.set_gid_caller(gid)
cred.set_gid_object(gid)
cred.set_privileges(kind)
- cred.set_delegate(True)
- cred.set_pubkey(auth_info.get_gid_object().get_pubkey())
+ cred.get_privileges().delegate_all_privileges(True)
+ #cred.set_pubkey(auth_info.get_gid_object().get_pubkey())
parent_hrn = get_authority(hrn)
if not parent_hrn or hrn == self.config.SFA_INTERFACE_HRN:
# if there is no parent hrn, then it must be self-signed. this
# is where we terminate the recursion
- cred.set_issuer(auth_info.get_pkey_object(), hrn)
+ cred.set_issuer_keys(auth_info.get_privkey_filename(), auth_info.get_gid_filename())
else:
# we need the parent's private key in order to sign this GID
parent_auth_info = self.get_auth_info(parent_hrn)
- cred.set_issuer(parent_auth_info.get_pkey_object(), parent_auth_info.hrn)
+ cred.set_issuer_keys(parent_auth_info.get_privkey_filename(), parent_auth_info.get_gid_filename())
+
+
cred.set_parent(self.get_auth_cred(parent_hrn, kind))
cred.encode()