TLS/SSL Certiicate Utilities
Project description
cert_utils
cert_utils offers support for common operations when dealing with SSL Certificates within the LetsEncrypt ecosystem.
This library was originally developed as a toolkit for bugfixing and troubleshooting large ACME installations.
cert_utils will attempt to process operations with Python when possible. If the required Python libraries are not installed, it will fallback to using OpenSSL commandline via subprocesses. cert_utils does a bit of work to standardize certificate operations across versions of Python and OpenSSL that do not share the same inputs, outputs or invocations.
cert_utils was formerly part of the peter_sslers ACME Client and Certificate Management System, and has been descoped into it's own library.
This library does not process Certificates and Certificate Data itself. Instead, it offers a simplified API to invoke other libraries and extract data from Certificates. It was designed for developers and system administrators to more easily use the various libraries to accomplish specific tasks on the commandline or as part of other projects.
Examples:
For example, cert_utils.parse_cert
returns a Python dict of key fields in a
certificate. This can make writing a script to analyze large directories of
certificates fairly simple.
Parse a Leaf/End-Entity
Example Script:
import cert_utils
import pprint
cert_path = "./tests/test_data/unit_tests/cert_001/cert.pem"
cert_pem = open(cert_path, 'r').read()
data = cert_utils.parse_cert(cert_pem)
pprint.pprint(data)
Result:
{'SubjectAlternativeName': ['a.example.com',
'b.example.com',
'c.example.com',
'd.example.com'],
'authority_key_identifier': 'D159010094B0A62ADBABE54B2321CA1B6EBA93E7',
'enddate': datetime.datetime(2025, 6, 16, 20, 19, 30),
'fingerprint_sha1': 'F63C5C66B52551EEDADF7CE44301D646680B8F5D',
'issuer': 'CN=Pebble Intermediate CA 601ea1',
'issuer_uri': None,
'key_technology': 'RSA',
'spki_sha256': '34E67CC615761CBADAF430B2E02E0EC39C99EEFC73CCE469B18AE54A37EF6942',
'startdate': datetime.datetime(2020, 6, 16, 20, 19, 30),
'subject': 'CN=a.example.com'}
The payload contains SubjectAlternativeName
listing all the domains, along
with enddate
and startdate
in Python datetime objects for easy comparison.
Parse a Trusted Root
Example Script:
import cert_utils
import pprint
cert_path = "./src/cert_utils/letsencrypt-certs/isrgrootx1.pem"
cert_pem = open(cert_path, 'r').read()
data = cert_utils.parse_cert(cert_pem)
pprint.pprint(data)
Result:
{'SubjectAlternativeName': None,
'authority_key_identifier': None,
'enddate': datetime.datetime(2035, 6, 4, 11, 4, 38),
'fingerprint_sha1': 'CABD2A79A1076A31F21D253635CB039D4329A5E8',
'issuer': 'C=US\nO=Internet Security Research Group\nCN=ISRG Root X1',
'issuer_uri': None,
'key_technology': 'RSA',
'spki_sha256': '0B9FA5A59EED715C26C1020C711B4F6EC42D58B0015E14337A39DAD301C5AFC3',
'startdate': datetime.datetime(2015, 6, 4, 11, 4, 38),
'subject': 'C=US\nO=Internet Security Research Group\nCN=ISRG Root X1'}
The payload on Trusted Roots is identical.
Why does this exist?
The peter_sslers project was designed to deploy on a wide variety of production servers that did not share common Python and OpenSSL installations. Earlier versions of the library (within peter_sslers) supported both Python2.7 and Python3, as it was common to encounter a machine that did not have Python3 installed. Although it is still common to find these machines, Python2.7 was dropped to take advantage of typing. Depending on the version of OpenSSL installed on a system, cert_utils will invoke the binary or regex the output to bridge support through a unified interface.
Project details
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