CkPython
CkPython
Azure Key Vault Sign with a Certificate's Private Key
See more Azure Key Vault Examples
Signs a hash using the private key of a certificate previously imported to an Azure Key Vault.Chilkat CkPython Downloads
import sys
import chilkat
success = False
# This requires the Chilkat API to have been previously unlocked.
# See Global Unlock Sample for sample code.
# See Azure Key Vault Get Certificates for a more detailed explanation
# for how Chilkat is automatically getting the OAuth2 access token for your application.
# Provide information needed for Chilkat to automatically get an OAuth2 access token as needed.
json = chilkat.CkJsonObject()
json.UpdateString("client_id","APP_ID")
json.UpdateString("client_secret","APP_PASSWORD")
json.UpdateString("resource","https://vault.azure.net")
json.UpdateString("token_endpoint","https://login.microsoftonline.com/TENANT_ID/oauth2/token")
# In this example, we'll sign the SHA256 hash of the string "This is a test"
sb = chilkat.CkStringBuilder()
signedString = "This is a test"
sb.Append(signedString)
hash_base64url = sb.getHash("sha256","base64url","utf-8")
# We're going to send a POST to the following URL:
# POST {vaultBaseUrl}/keys/{key-or-cert-name}/{key-or-cert-version}/sign?api-version=7.4
# For example:
# POST https://VAULT_NAME.vault.azure.net/keys/CERT_NAME/CERT_VERSION/sign?api-version=7.4
#
# {
# "alg": "RS512",
# "value": "RUE3Nzg4NTQ4QjQ5RjFFN0U2NzAyQzhDNEMwMkJDOTA1MTYyOTUzNjI5NDhBNzZDQTlFOTM1NDA2M0ZGMjk2Mg"
# }
# The alg can be one of the following
# ES256 ECDSA using P-256 and SHA-256
# ES256K ECDSA using P-256K and SHA-256
# ES384 ECDSA using P-384 and SHA-384
# ES512 ECDSA using P-521 and SHA-512
# PS256 RSASSA-PSS using SHA-256 and MGF1 with SHA-256
# PS384 RSASSA-PSS using SHA-384 and MGF1 with SHA-384
# PS512 RSASSA-PSS using SHA-512 and MGF1 with SHA-512
# RS256 RSASSA-PKCS1-v1_5 using SHA-256
# RS384 RSASSA-PKCS1-v1_5 using SHA-384
# RS512 RSASSA-PKCS1-v1_5 using SHA-512
# The sample POST above uses SHA512. We'll instead sign a SHA256 hash..
jsonBody = chilkat.CkJsonObject()
jsonBody.UpdateString("alg","RS256")
jsonBody.UpdateString("value",hash_base64url)
http = chilkat.CkHttp()
# Instead of providing an actual access token, we give Chilkat the information that allows it to
# automatically fetch the access token using the OAuth2 client credentials flow.
http.put_AuthToken(json.emit())
http.SetUrlVar("certName","importCert01")
http.SetUrlVar("certVersion","7140c8755ed14839b5d86a9f7e7f0497")
# Note: Replace "VAULT_NAME" with the name of your Azure key vault.
url = "https://VAULT_NAME.vault.azure.net/keys/{$certName}/{$certVersion}/sign?api-version=7.4"
resp = chilkat.CkHttpResponse()
success = http.HttpJson("POST",url,jsonBody,"application/json",resp)
if (success == False):
print(http.lastErrorText())
sys.exit()
statusCode = resp.get_StatusCode()
jsonResp = chilkat.CkJsonObject()
resp.GetBodyJson(jsonResp)
jsonResp.put_EmitCompact(False)
print(jsonResp.emit())
if (statusCode != 200):
print("Failed.")
sys.exit()
# A successful response body contains JSON like this:
# Note: Azure's documentation is not very clear, but base64url is the encoding, not "base64".
# {
# "kid": "https://kvchilkat.vault.azure.net/keys/importCert01/7140c8755ed14839b5d86a9f7e7f0497",
# "value": "JzWd2YF21gjtW ... Em37hKOQ"
# }
# Let's validate the signature using the cert's public key.
# This example will load the corresponding certificate from a local file and will verify the signature against the original data.
#
cert = chilkat.CkCert()
success = cert.LoadFromFile("qa_data/certs/chilkat_code_signing_2024.cer")
if (success == False):
print(cert.lastErrorText())
sys.exit()
rsa = chilkat.CkRsa()
# Tell the RSA object to use the cert's public key.
success = rsa.SetX509Cert(cert,False)
if (success == False):
print(rsa.lastErrorText())
sys.exit()
# Verify the signature using the cert's public key against the original string.
rsa.put_EncodingMode("base64url")
valid = rsa.VerifyStringENC(signedString,"sha-256",jsonResp.stringOf("value"))
print("signature valid = " + str(valid))