def print_timings():
import timeit
kp, pk = rand_pair()
kp2, pk2 = rand_pair()
print "keypair gen", timeit.timeit(lambda: ec.gen_keypair(ec.CURVES['K-163']), number=1000), "ms"
print "ECDH", timeit.timeit(lambda: ec.ecdh(pk, kp2), number=1000), "ms"
print "sign", timeit.timeit(lambda: kp.sign('hello'), number=1000), "ms"
sig = kp.sign('hello')
print "verify", timeit.timeit(lambda: pk.verify('hello', sig), number=1000), "ms"
def print_timings():
import timeit
kp, pk = rand_pair()
kp2, pk2 = rand_pair()
print "keypair gen", timeit.timeit(
lambda: ec.gen_keypair(ec.CURVES['K-163']), number=1000), "ms"
print "ECDH", timeit.timeit(lambda: ec.ecdh(pk, kp2), number=1000), "ms"
print "sign", timeit.timeit(lambda: kp.sign('hello'), number=1000), "ms"
sig = kp.sign('hello')
print "verify", timeit.timeit(lambda: pk.verify('hello', sig),
number=1000), "ms"
def rand_pair(curve=ec.CURVES['K-163']):
keypair = ec.gen_keypair(curve)
pub_bytes = keypair.encode_pubkey()
pub_key = ec.PublicKey(str(pub_bytes), curve)
return keypair, pub_key
def rand_pair(curve=ec.CURVES['K-163']):
keypair = ec.gen_keypair(curve)
pub_bytes = keypair.encode_pubkey()
pub_key = ec.PublicKey(str(pub_bytes), curve)
return keypair, pub_key
