k.verify_update(data)
return M2Crypto.m2.verify_final(k.ctx, base64.b64decode(sig), k.pkey)
+ def compute_hash(self, value):
+ return self.sign_string(str(value))
+
##
# The certificate class implements a general purpose X509 certificate, making
# use of the appropriate pyOpenSSL or M2Crypto abstractions. It also adds
# until a certificate is found that is signed by a trusted root.
# TODO: verify expiration time
-
+ #print "====Verify Chain====="
# if this cert is signed by a trusted_cert, then we are set
for trusted_cert in trusted_certs:
+ #print "***************"
# TODO: verify expiration of trusted_cert ?
+ #print "CLIENT CERT", self.dump()
+ #print "TRUSTED CERT", trusted_cert.dump()
+ #print "Client is signed by Trusted?", self.is_signed_by_cert(trusted_cert)
if self.is_signed_by_cert(trusted_cert):
#print self.get_subject(), "is signed by a root"
return