I'm receiving a SAML request via HTTP-redirect binding the content of the SAML request look like this

{"SigAlg"=>"http://www.w3.org/2000/09/xmldsig#rsa-sha1", "SAMLRequest"=>"lVLLaoQwFP0VyT5jEqPG4AiFoSDMtNApXXQzxDxaQRObRDqfX3XoolAKXd7DPQ/uuXUQ4zDxo3tzc3zSH7MOMWkPe3DpcixzVVVQl4RBqoiCncEYEmkoY7k00hCQvGgfemf3gOwQSNoQZt3aEIWNC4RwCRGGiD6jkmPMs2KHUPYKksPi0lsRN+Z7jFPgafqpvejtbtQpSK7jYAPfsu3B7C13IvSBWzHqwKPk57vTkS+WfPIuOukG0NSbub9R/yaJELRfzUGzrhmtFut15qdeeheciY926K2u05toUz8sIu0huXd+FPFv9RXpFTTbKp/WA4WobQT/jEYrykwhNaQ66yDNMwY7wijEtMCmysqqo6xOb8Ga+tbjWYe1jtYqfW0uCucoYwWCHS3F0kRGoajWTpAiiJRZJRmu01+Y3+CPt2i+AA=="}

It also has a Signature value


But I fail to understand how to verify this signature is correct.

Section on SAML binding https://docs.oasis-open.org/security/saml/v2.0/saml-bindings-2.0-os.pdf

To construct the signature, a string consisting of the concatenation of the RelayState (if present),
SigAlg, and SAMLRequest (or SAMLResponse) query string parameters (each one URLencoded)
is constructed in one of the following ways (ordered as below):

I tried the approach but

  • The signature I generated using the Private key does not match to the one I received from my SP. (posted above)

  • Also, I'm not able to decrypt the signed message using the Private key (I'm assuming the Signature was created using the public that I federated it with.)

<samlp:LogoutRequest ID="_36167d94-d868-4c04-aee3-8bbd4ed91317" Version="2.0" IssueInstant="2017-01-05T16:21:55.704Z" Destination="https://werain.me/" xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"><Issuer xmlns="urn:oasis:names:tc:SAML:2.0:assertion">urn:federation:MicrosoftOnline</Issuer><NameID Format="urn:oasis:names:tc:SAML:2.0:nameid-format:persistent" xmlns="urn:oasis:names:tc:SAML:2.0:assertion">4948f6ce-4e3b-4538-b284-1461f9379b48</NameID><samlp:SessionIndex>_eafbb730-b590-0134-a918-00d202739c81</samlp:SessionIndex></samlp:LogoutRequest>

Any help here.

7 Answers 7


A SAML authentication message is a XML document with an embedded (enveloped) XMLDSig signature or a deflated encoding signature

Enveloped XMLDSign signature

    <...saml message...> 
         <ds:SignedInfo />
         <ds:SignatureValue /> 
         <ds:KeyInfo /> 

<ds:SignatureValue> contains the signature, <ds:SignedInfo> the signed data and a reference to the message and <ds:KeyInfo> usually contains the X509Certificate with the identity of the signer, or a reference to that certicate

Deflated encoding in URL


Where each value is url encoded

SAMLRequest=urlencode(base64(<samlp:LogoutRequest> <...saml message...> </samlp:LogoutRequest>))

And the signature is done on a concatenation of query string algorithm using the algorithm SigAlg

Signature = urlencode( base64 ( SigAlg ("SAMLRequest=value&RelayState=value&SigAlg=value")))

Digital signature of SAML messages

SAML message is digitally signed (not encrypted) with the private key of the issuer (SP), and can be verified with the public key of the SP. A SAML response must be signed with the private key of the identity provider (IdP), and the SP can verify the message with the public key of the IdP.

If you act as IdP and you want to verify a SAML request of the SP, you need:

  • Verify the digital signature: Verify using the public key of the SP that the signature match with the signed message to ensure the identity of the signer and the message has not been altered

  • Authorize the request: Verify that the identity of the signer can perform the requested operation. Usually you have to match the serial number or the subject of the certificate with a pre-existent list, or verify that the certificate has been issued by a trusted certificate authority

  • Generate the SAML response: Generate a XML message with the SAML data and sign it with your private key to send to SP

Most programming languages support XMLDsig signatures but in your case is used the deflated encoding that is a specific characteristic of SAML binding, so if your SAML library does not support it, you have to verify the signature manually. These are more or less the steps to follow according to specification

 //get params from query string 
String samlrequest = getQueryParam("SAMLRequest");
String relaystate = getQueryParam("RelayState");
String sigalg = getQueryParam("SigAlg");
String signature = getQueryParam("Signature");

//The signature
byte signature[] = URLDecoder.decode(Base64.getDecoder().decode(signature ), "UTF-8");

//The signed data. build the following string checking if RelayState is null
byte signedData[] = concat(samlrequest,relaystate,sigalg);

//The signature algorithm could be "SHA1WithRSA" or "SHA1withDSA" depending on sigalg is http://www.w3.org/2000/09/xmldsig#rsa-sha1 or http://www.w3.org/2000/09/xmldsig#dsa-sha1 
String signatureAlgorithm = extractSignatureAlgorithm(sigalg);

//get the public key of the SP. It must be registered before this process
PublicKey publicKey = ...

//Verify the signature
Signature sig = Signature.getInstance(signatureAlgorithm);
boolean verifies = sig.verify(signature);  
  • 2
    couple of thing. Firstly it's a LogoutRequest not SAML AuthRequest (I guess I forget to mention that). Second The binding is HTTP redirect and not HTTP-POST see SECTION of SAML bindings. Commented Jan 5, 2017 at 5:14
  • Also Correct me If I'm wrong but this how SAML signature and verification work right. IDP (has it own public/private pair) SP (has it own public/private pair). If IDP has to sign a data it sign it using it own private key. the SP can then decrypt the sign data using the Public/cert of IDP (shared via metadata of IDP) . Like wise if the SP has to signed a data it does so using it own private key then IDP decrypt it using the Public/Cert of SP (accessible via SP metadata) Commented Jan 5, 2017 at 5:19
  • AuthRequest just was an example. The signature model for IdP&SP is correct. Only the term decrypt is not suitable. The message is signed, not encrypted (content is not hidden), and the operation to check with public key is verification
    – pedrofb
    Commented Jan 5, 2017 at 6:45
  • If I'm correct you are talking about embedded signature what I'm receiving from SP is a request over HTTP-redirect binding with SAML request that has no embedded signature. Added the Snippet of my SAML logout request. Commented Jan 5, 2017 at 17:17
  • Your SAML logout includes <samlp:SessionIndex> to identify which sessions to logout, so in this case I guess the digital signature is not needed because client was identified previously and the posession of the sessionIndex is enought to authenticate the request
    – pedrofb
    Commented Jan 6, 2017 at 10:02

I'am trying using the above answer but don't success.

Then, read the documentation and a little time, i have sucess to validate signature with Java and the fast answer is:

final String samlRequest = request.getParameter("SAMLRequest");
final String relayState = request.getParameter("RelayState");
final String sigAlg = request.getParameter("SigAlg");
final String signature = request.getParameter("Signature");

FileInputStream fis = new FileInputStream(new File("path-to-service-provider-x509-certificate"));

CertificateFactory cf = CertificateFactory.getInstance("X.509");
Certificate cert = cf.generateCertificate(fis);

// ps: java.net.URLEncoder;
String query = "SAMLRequest=" + URLEncoder.encode(samlRequest, "UTF-8");
query += "&RelayState=" +URLEncoder.encode(relayState, "UTF-8");
query += "&SigAlg=" + URLEncoder.encode(sigAlg, "UTF-8");

// ps: org.opensaml.xml.util.Base64
byte[] signatureBytes = Base64.decode(signature);

Signature sig = Signature.getInstance("SHA1withRSA"); // or other alg (i, e: SHA256WithRSA or others)
Boolean valid = sig.verify(signatureBytes);
  • What tutorial? can you please edit your answer and give a better explanation.
    – Spoody
    Commented Apr 1, 2018 at 14:19
  • @MehdiBounya the correct term is "answer" no tutorial. Commented Apr 1, 2018 at 15:05

A SAML 2.0 signature is validated differently depending on the binding (POST or Redirect). If a POST binding is used the signature is validated in the SAML XML. If a Redirect binding is used the query string is validated with the signature.

This LogoutRequest is send with a redirect binding. The following C# sample code is copied from the ITfoxtec.Identity.Saml2 component and show how to validate the signature.

var queryString = request.QueryString;
var signatureValue = Convert.FromBase64String(request.Query["Signature"]);

var messageName = "SAMLRequest";
var signatureAlgorithm = "http://www.w3.org/2000/09/xmldsig#rsa-sha1";
var signatureValidationCertificate = new X509Certificate2("path-to-service-provider-x509-certificate");

var saml2Sign = new Saml2SignedText(signatureValidationCertificate, signatureAlgorithm);
if (saml2Sign.CheckSignature(Encoding.UTF8.GetBytes(new RawSaml2QueryString(queryString, messageName).SignedQueryString), signatureValue))
    // Signature is valid.
    throw new InvalidSignatureException("Signature is invalid.");

We can use the one login saml library to verify auth-request signature.They provide a lot of wrapper methods for SAML.This is a ruby implementation of it. `

def verify_signature(params)
    saml_request = URI.decode(params[:SAMLRequest])
    relay_state_string = URI.decode(params[:RelayState])
    signature = URI.decode(params[:Signature])
    sign_alg = URI.decode(params[:SigAlg])
    query_params[:type] = "SAMLRequest"
    query_params[:data] = saml_request
    query_params[:relay_state] = relay_state_string
    query_params[:sig_alg] = sign_alg
    query = OneLogin::RubySaml::Utils.build_query(query_params)
    sig_params[:cert] = getPublicKeyFromCertificate
    sig_params[:sig_alg] = sign_alg
    sig_params[:signature] = signature
    sig_params[:query_string] = query



One point I would like to add to the above answers: URL encoding/decoding is non-canonical, meaning that every framework/language may in fact have a different way of doing it. I was stuck on verifying an HTTP-Redirect binding for many days, turns out that the Java Play 1.x framework we are using URL decodes things in a different way than the SAML framework expects.

We resolved this issue by instead taking the query parameters directly out of the query string, rather than letting Play framework decode it for us (only for us to need to re-encode it back). So if your code matches Alexandre's but the SAML framework says the signature is invalid, make sure that you're feeding into the algorithm the strings that are directly taken from the URL GET parameters.


For those still stuck, here is the complete method

public static void verifySignature(boolean isResponse, String samlQueryString, String relayStateString, String sigAlgString, String signature, X509Certificate cert) throws Exception {
    String type = isResponse ? "SAMLResponse" : "SAMLRequest";

    String query = type + "=" + URLEncoder.encode(samlQueryString, "UTF-8");
        query += relayStateString == null ? "" : "&RelayState=" + URLEncoder.encode(relayStateString, "UTF-8");
        query += "&SigAlg=" + URLEncoder.encode(sigAlgString, "UTF-8");

    String javaSigAlgName = null;

    if(sigAlgString.equals("http://www.w3.org/2000/09/xmldsig#rsa-sha1")) {
        javaSigAlgName = "SHA1withRSA";
    } else if(sigAlgString.equals("http://www.w3.org/2000/09/xmldsig#rsa-sha256")) {
        javaSigAlgName = "SHA256withRSA";
    } else {
        throw new Exception("signature: " + sigAlgString + " not supported by SP/IDP");

    byte[] signatureBytes = Base64.getDecoder().decode(signature);

    Signature sig = Signature.getInstance(javaSigAlgName);

    Boolean valid = sig.verify(signatureBytes);
    System.out.println("is valid: " + valid);

We spent hours trying to figure this out, and finally stumbled across this thread. Just wanted to attach the following image which I created to clearly show how to build a signed SAML AuthNRequest http-redirect request to contribute to this very valuable thread.

enter image description here

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