Chilkat2-Python
Chilkat2-Python
ECDSA Sign Data and Verify Signature
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Demonstrates using the Elliptic Curve Digital Signature Algorithm to hash data and sign it. Also demonstrates how to verify the ECDSA signature.Chilkat Chilkat2-Python Downloads
import sys
import chilkat2
success = False
# This example requires the Chilkat API to have been previously unlocked.
# See Global Unlock Sample for sample code.
# To create an ECDSA signature, the data first needs to be hashed. Then the hash
# is signed.
# Use Chilkat Crypt2 to generate a hash for any of the following
# hash algorithms: SHA256, SHA384, SHA512, SHA1, MD5, MD2, HAVAL, RIPEMD128/160/256/320
crypt = chilkat2.Crypt2()
crypt.HashAlgorithm = "SHA256"
crypt.Charset = "utf-8"
crypt.EncodingMode = "base64"
# Hash a string.
hash1 = crypt.HashStringENC("The quick brown fox jumps over the lazy dog")
print("hash1 = " + hash1)
# Or hash a file..
hash2 = crypt.HashFileENC("qa_data/hamlet.xml")
print("hash2 = " + hash2)
# (The Crypt2 API provides many other ways to hash data..)
# -----------------------------------------------------------
# An ECDSA private key is used for signing. The public key is for signature verification.
# Load our ECC private key.
# Our private key file contains this:
# // -----BEGIN PRIVATE KEY-----
# MIGHAgEAMBMGByqGSM49AgEGCCqGSM49AwEHBG0wawIBAQQg3J8q/24D1sEKGdP9
# 72MGYElLGpw/a56Y3t6pfON3uhShRANCAATlSmoizyhAwoYZAOuFBATl07/1RR54
# a1Dzfm16grxJe666AGKR+bSs24hk7TEpaeCTvT8YOOM3l+xKFg7zq6Q9
# -----END PRIVATE KEY-----
privKey = chilkat2.PrivateKey()
success = privKey.LoadPemFile("qa_data/ecc/secp256r1-key-pkcs8.pem")
if (success != True):
print(privKey.LastErrorText)
sys.exit()
# We'll need a PRNG source for random number generation.
# Use Chilkat's PRNG (for the Fortuna PRNG algorithm).
prng = chilkat2.Prng()
# Sign the hash..
ecdsa = chilkat2.Ecc()
ecdsaSigBase64 = ecdsa.SignHashENC(hash1,"base64",privKey,prng)
if (ecdsa.LastMethodSuccess != True):
print(ecdsa.LastErrorText)
sys.exit()
print("ECDSA signature = " + ecdsaSigBase64)
# -----------------------------------------------------------
# Now let's verify the signature using the public key.
pubKey = chilkat2.PublicKey()
success = pubKey.LoadFromFile("qa_data/ecc/secp256r1-pubkey.pem")
if (success != True):
print(pubKey.LastErrorText)
sys.exit()
result = ecdsa.VerifyHashENC(hash1,ecdsaSigBase64,"base64",pubKey)
if (result == 1):
print("Signature is valid.")
sys.exit()
if (result == 0):
print("Signature is invalid.")
sys.exit()
if (result < 0):
print(ecdsa.LastErrorText)
print("The VerifyHashENC method call failed.")
sys.exit()