SignXML is an implementation of the W3C XML Signature standard in Python. This standard (also known as XMLDSig and RFC 3275) is used to provide payload security in SAML 2.0 and WS-Security, among other uses. Two versions of the standard exist (Version 1.1 and Version 2.0). SignXML implements all of the required components of the standard, and most recommended ones. Its features are:
- Use of defusedxml.lxml to defend against common XML-based attacks when verifying signatures
- Extensions to allow signing with and verifying X.509 certificate chains, including hostname/CN validation
- Support for exclusive XML canonicalization with inclusive prefixes (InclusiveNamespaces PrefixList, required to verify signatures generated by some SAML implementations)
- Modern Python compatibility (2.7-3.6+ and PyPy)
- Well-supported, portable, reliable dependencies: lxml, defusedxml, cryptography, eight, pyOpenSSL
- Comprehensive testing (including the XMLDSig interoperability suite) and continuous integration
- Simple interface with useful defaults
- Compactness, readability, and extensibility
pip install signxml
Note: SignXML depends on lxml and cryptography, which in turn depend on OpenSSL, LibXML, and Python tools to interface with them. You can install those as follows:
OS | Python | Command |
---|---|---|
Ubuntu | Python 2 | apt-get install python-dev python-cffi libxml2-dev libxslt1-dev libssl-dev libffi-dev
python-lxml python-cryptography python-openssl python-certifi python-defusedxml build-essential |
Ubuntu | Python 3 | apt-get install python3-dev python3-cffi libxml2-dev libxslt1-dev libssl-dev libffi-dev
python3-lxml python3-cryptography python3-openssl python3-certifi python3-defusedxml build-essential |
Red Hat | Python 2 | yum install python-devel python-cffi libxml2-devel libxslt1-devel openssl-devel |
Red Hat | Python 3 | yum install python3-devel python3-cffi libxml2-devel libxslt1-devel openssl-devel |
Mac OS | Homebrew Python | xcode-select --install; brew install openssl;
export LDFLAGS="-L$(brew --prefix openssl)/lib" CFLAGS="-I$(brew --prefix openssl)/include" |
SignXML uses the ElementTree API (also supported by lxml) to work with XML data.
from signxml import XMLSigner, XMLVerifier
cert = open("example.pem").read()
key = open("example.key").read()
root = ElementTree.fromstring(data_to_sign)
signed_root = XMLSigner().sign(root, key=key, cert=cert)
verified_data = XMLVerifier().verify(signed_root).signed_xml
Assuming metadata.xml
contains SAML metadata for the assertion source:
from lxml import etree
from base64 import b64decode
from signxml import XMLVerifier
with open("metadata.xml", "rb") as fh:
cert = etree.parse(fh).find("//ds:X509Certificate").text
assertion_data = XMLVerifier().verify(b64decode(assertion_body), x509_cert=cert).signed_xml
Signing SAML assertions
The SAML assertion schema specifies a location for the enveloped XML signature (between <Issuer>
and
<Subject>
). To sign a SAML assertion in a schema-compliant way, insert a signature placeholder tag at that location
before calling XMLSigner: <ds:Signature Id="placeholder"></ds:Signature>
.
See what is signed
It is important to understand and follow the best practice rule of "See what is signed" when verifying XML signatures. The gist of this rule is: if your application neglects to verify that the information it trusts is what was actually signed, the attacker can supply a valid signature but point you to malicious data that wasn't signed by that signature. Failure to follow this rule can lead to vulnerability against attacks like SAML signature wrapping.
In SignXML, you can ensure that the information signed is what you expect to be signed by only trusting the
data returned by the verify()
method. The signed_xml
attribute of the return value is the XML node or string that
was signed.
Recommended reading: W3C XML Signature Best Practices for Applications, OWASP: On Breaking SAML: Be Whoever You Want to Be
Establish trust
If you do not supply any keyword arguments to verify()
, the default behavior is to trust any valid XML
signature generated using a valid X.509 certificate trusted by your system's CA store. This means anyone can
get an SSL certificate and generate a signature that you will trust. To establish trust in the signer, use the
x509_cert
argument to specify a certificate that was pre-shared out-of-band (e.g. via SAML metadata, as
shown in Verifying SAML assertions), or cert_subject_name
to specify a
subject name that must be in the signing X.509 certificate given by the signature (verified as if it were a
domain name), or ca_pem_file
/ca_path
to give a custom CA.
The XML Signature specification defines three ways to compose a signature with the data being signed: enveloped,
detached, and enveloping signature. Enveloped is the default method. To specify the type of signature that you want to
generate, pass the method
argument to sign()
:
signed_root = XMLSigner(method=signxml.methods.detached).sign(root, key=key, cert=cert)
verified_data = XMLVerifier().verify(signed_root).signed_xml
For detached signatures, the code above will use the Id
or ID
attribute of root
to generate a relative URI
(<Reference URI="#value"
). You can also override the value of URI
by passing a reference_uri
argument to
sign()
. To verify a detached signature that refers to an external entity, pass a callable resolver in
XMLVerifier().verify(data, uri_resolver=...)
.
See the API documentation for more.
- Andrey Kislyuk
- Project home page (GitHub)
- Documentation (Read the Docs)
- Package distribution (PyPI)
- Change log
- List of W3C XML Signature standards and drafts
- W3C Recommendation: XML Signature Syntax and Processing Version 1.1
- W3C Working Group Note: XML Signature Syntax and Processing Version 2.0
- W3C Working Group Note: XML Security 2.0 Requirements and Design Considerations
- W3C Working Group Note: XML Signature Best Practices
- XML-Signature Interoperability
- W3C Working Group Note: Test Cases for C14N 1.1 and XMLDSig Interoperability
- XMLSec: Related links
- OWASP SAML Security Cheat Sheet
- Okta Developer Docs: SAML
Please report bugs, issues, feature requests, etc. on GitHub.
Licensed under the terms of the Apache License, Version 2.0.