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speed.py
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speed.py
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import six
import timeit
from ecdsa.curves import curves
def do(setup_statements, statement):
# extracted from timeit.py
t = timeit.Timer(stmt=statement, setup="\n".join(setup_statements))
# determine number so that 0.2 <= total time < 2.0
for i in range(1, 10):
number = 10 ** i
x = t.timeit(number)
if x >= 0.2:
break
return x / number
prnt_form = (
"{name:>16}{sep:1} {siglen:>6} {keygen:>9{form}}{unit:1} "
"{keygen_inv:>9{form_inv}} {sign:>9{form}}{unit:1} "
"{sign_inv:>9{form_inv}} {verify:>9{form}}{unit:1} "
"{verify_inv:>9{form_inv}} {verify_single:>13{form}}{unit:1} "
"{verify_single_inv:>14{form_inv}}"
)
print(
prnt_form.format(
siglen="siglen",
keygen="keygen",
keygen_inv="keygen/s",
sign="sign",
sign_inv="sign/s",
verify="verify",
verify_inv="verify/s",
verify_single="no PC verify",
verify_single_inv="no PC verify/s",
name="",
sep="",
unit="",
form="",
form_inv="",
)
)
for curve in [i.name for i in curves]:
S1 = "import six; from ecdsa import SigningKey, %s" % curve
S2 = "sk = SigningKey.generate(%s)" % curve
S3 = "msg = six.b('msg')"
S4 = "sig = sk.sign(msg)"
S5 = "vk = sk.get_verifying_key()"
S6 = "vk.precompute()"
S7 = "vk.verify(sig, msg)"
# We happen to know that .generate() also calculates the
# verifying key, which is the time-consuming part. If the code
# were changed to lazily calculate vk, we'd need to change this
# benchmark to loop over S5 instead of S2
keygen = do([S1], S2)
sign = do([S1, S2, S3], S4)
verf = do([S1, S2, S3, S4, S5, S6], S7)
verf_single = do([S1, S2, S3, S4, S5], S7)
import ecdsa
c = getattr(ecdsa, curve)
sig = ecdsa.SigningKey.generate(c).sign(six.b("msg"))
print(
prnt_form.format(
name=curve,
sep=":",
siglen=len(sig),
unit="s",
keygen=keygen,
keygen_inv=1.0 / keygen,
sign=sign,
sign_inv=1.0 / sign,
verify=verf,
verify_inv=1.0 / verf,
verify_single=verf_single,
verify_single_inv=1.0 / verf_single,
form=".5f",
form_inv=".2f",
)
)
print("")
ecdh_form = "{name:>16}{sep:1} {ecdh:>9{form}}{unit:1} {ecdh_inv:>9{form_inv}}"
print(
ecdh_form.format(
ecdh="ecdh",
ecdh_inv="ecdh/s",
name="",
sep="",
unit="",
form="",
form_inv="",
)
)
for curve in [i.name for i in curves]:
if curve == "Ed25519" or curve == "Ed448":
continue
S1 = "from ecdsa import SigningKey, ECDH, {0}".format(curve)
S2 = "our = SigningKey.generate({0})".format(curve)
S3 = "remote = SigningKey.generate({0}).verifying_key".format(curve)
S4 = "ecdh = ECDH(private_key=our, public_key=remote)"
S5 = "ecdh.generate_sharedsecret_bytes()"
ecdh = do([S1, S2, S3, S4], S5)
print(
ecdh_form.format(
name=curve,
sep=":",
unit="s",
form=".5f",
form_inv=".2f",
ecdh=ecdh,
ecdh_inv=1.0 / ecdh,
)
)