Pascal (Lazarus/Delphi)
Pascal (Lazarus/Delphi)
Decrypt a SAML Response
See more Encryption Examples
Demonstrates how to decrypt a SAML response.Chilkat Pascal (Lazarus/Delphi) Downloads
program ChilkatDemo;
// Demonstrates using the Chilkat Pascal wrapper via the C bridge DLL.
// Builds as a console application under Lazarus (FPC) or Delphi.
{$IFDEF FPC}
{$MODE DELPHI}
{$ENDIF}
{$APPTYPE CONSOLE}
uses
{$IFDEF UNIX}
cthreads,
{$ENDIF}
SysUtils,
CkDllLoader,
Chilkat.Http,
Chilkat.Crypt2,
Chilkat.StringBuilder,
Chilkat.BinData,
Chilkat.PrivateKey,
Chilkat.Xml,
Chilkat.Rsa;
// ---------------------------------------------------------------------------
procedure RunDemo;
var
success: Boolean;
http: THttp;
sbSamlResponse: TStringBuilder;
sbPrivateKeyPem: TStringBuilder;
xml: TXml;
privkey: TPrivateKey;
rsa: TRsa;
encryptedAesKey: string;
bdAesKey: TBinData;
sbRsaAlg: TStringBuilder;
encrypted64: string;
bdEncrypted: TBinData;
crypt: TCrypt2;
sbAlg: TStringBuilder;
decryptedXml: string;
xmlAssertion: TXml;
xmlEncryptedAssertion: TXml;
begin
success := False;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
// This example decrypts this SAML response:
// <?xml version="1.0" encoding="UTF-8" ?>
// <saml2p:Response Destination="https://deskflow-asp2.com/ubc/ubcdfe.dll/cwlacs" ID="_e4585eaeedbcaf7c24dff7f1ee2499f5" IssueInstant="2018-10-11T17:46:20.727Z" Version="2.0" xmlns:saml2p="urn:oasis:names:tc:SAML:2.0:protocol">
// <saml2:Issuer xmlns:saml2="urn:oasis:names:tc:SAML:2.0:assertion">https://authentication.stg.id.ubc.ca</saml2:Issuer>
// <ds:Signature xmlns:ds="http://www.w3.org/2000/09/xmldsig#">
// <ds:SignedInfo>
// <ds:CanonicalizationMethod Algorithm="http://www.w3.org/2001/10/xml-exc-c14n#"/>
// <ds:SignatureMethod Algorithm="http://www.w3.org/2001/04/xmldsig-more#rsa-sha256"/>
// <ds:Reference URI="#_e4585eaeedbcaf7c24dff7f1ee2499f5">
// <ds:Transforms>
// <ds:Transform Algorithm="http://www.w3.org/2000/09/xmldsig#enveloped-signature"/>
// <ds:Transform Algorithm="http://www.w3.org/2001/10/xml-exc-c14n#"/>
// </ds:Transforms>
// <ds:DigestMethod Algorithm="http://www.w3.org/2001/04/xmlenc#sha256"/>
// <ds:DigestValue>1ui22tqFyYEOoWI19CMwz4n+ynxNjLDGdTeRMdi60EU=</ds:DigestValue>
// </ds:Reference>
// </ds:SignedInfo>
// <ds:SignatureValue>ROg7FXV6vsp8socVhdo76/i7cRHGGKIveAiScKdujZT0QrHVqIvvbZ/RnwvEMJ9H9i/kJFAQA171
// Eo2kDjSdvNFQ/YcKaJUwMtAwT05yVatGV42RZKEf7ME+vpcCTR1LWZdrhat1FWCg1MNQwNWB0EL5
// fEP2a4jAcSTB8tFbjTAHsv7IWC39E5RVv99mACYXLa7iGZLtORANZxgYu5qQgmH6pUkI6Z1cpmf+
// m9mIjKM6LF0EvLfWOBWL6udZ+GsHPOLjVTJg+1S0xb9FQCYDVW1QhbjSS0icKHKTNNbrsaxllVDY
// m4q27YQjRh+XxugPgvsZ61Pxlto8Jbg+6jUlMQ==</ds:SignatureValue>
// <ds:KeyInfo>
// <ds:X509Data>
// <ds:X509Certificate>MIIDTTCCAjWgAwIBAgIVAJccYyIV6wly8XyddumpgnHMJ2JLMA0GCSqGSIb3DQEBCwUAMCcxJTAj
// BgNVBAMMHGF1dGhlbnRpY2F0aW9uLnN0Zy5pZC51YmMuY2EwHhcNMTcwMzAxMTk1NDM0WhcNMzcw
// ...
// xUuh6HuHKIwQqHBz7udxbH3Zbb6jXGDJjiDHt1LRJ8xbVisFIcDlIwsGQQi0HeEJfx4P</ds:X509Certificate>
// </ds:X509Data>
// </ds:KeyInfo>
// </ds:Signature>
// <saml2p:Status>
// <saml2p:StatusCode Value="urn:oasis:names:tc:SAML:2.0:status:Success"/>
// </saml2p:Status>
// <saml2:EncryptedAssertion xmlns:saml2="urn:oasis:names:tc:SAML:2.0:assertion">
// <xenc:EncryptedData Id="_314d80b9cf02d8eda8d686a6ffd626cf" Type="http://www.w3.org/2001/04/xmlenc#Element" xmlns:xenc="http://www.w3.org/2001/04/xmlenc#">
// <xenc:EncryptionMethod Algorithm="http://www.w3.org/2001/04/xmlenc#aes128-cbc" xmlns:xenc="http://www.w3.org/2001/04/xmlenc#"/>
// <ds:KeyInfo xmlns:ds="http://www.w3.org/2000/09/xmldsig#">
// <xenc:EncryptedKey Id="_d7b6da6fb59a627ebb4a96928441ab79" Recipient="https://ubcdfe.deskflow-asp2.com" xmlns:xenc="http://www.w3.org/2001/04/xmlenc#">
// <xenc:EncryptionMethod Algorithm="http://www.w3.org/2001/04/xmlenc#rsa-oaep-mgf1p" xmlns:xenc="http://www.w3.org/2001/04/xmlenc#">
// <ds:DigestMethod Algorithm="http://www.w3.org/2000/09/xmldsig#sha1" xmlns:ds="http://www.w3.org/2000/09/xmldsig#"/>
// </xenc:EncryptionMethod>
// <ds:KeyInfo>
// <ds:X509Data>
// <ds:X509Certificate>MIICuzCCAiQCCQD3bpigRnKMSzANBgkqhkiG9w0BAQsFADCBoTELMAkGA1UEBhMCQ0ExEDAOBgNV
// BAgMB09udGFyaW8xEDAOBgNVBAcMB1Rvcm9udG8xJjAkBgNVBAoMHVRhY3RpY2FsIEJ1c2luZXNz
// ...
// kVRcHd1UK3q7G8FoykWjdQz/0EoMTfEZ+Md56mLOe48eMUZV2ONZuL1kDCEKw1UwkaDQI4Pf8pzx
// 82b9rgw9wBDtvu5eFPlUGEGIBw==</ds:X509Certificate>
// </ds:X509Data>
// </ds:KeyInfo>
// <xenc:CipherData xmlns:xenc="http://www.w3.org/2001/04/xmlenc#">
// <xenc:CipherValue>BNHfUOpgdPE5BgpN2VIZIDthMAv1rxk91qVnWyCZOG9bmUKChJtTUqMpndot7VJwYuyKFshkAdnT
// D79KGdlSA1xHKcVeZXXzDWglqSyYjzhDCsyOhPaI4HelMFgCLwyFz89uEpUpqlvfl8ol3Am/XnzQ
// Vp7V7oS76hocjUI51Qs=</xenc:CipherValue>
// </xenc:CipherData>
// </xenc:EncryptedKey>
// </ds:KeyInfo>
// <xenc:CipherData xmlns:xenc="http://www.w3.org/2001/04/xmlenc#">
// <xenc:CipherValue>R6l7tmbnXrOfBgB8lA3KnwLYsLH5ZO5omQ7Hp5K05atzw2o55xmCXVMYhNneFxMtxUh6raEyHeZX
// PTZNgWrvdqc4GYND/R7MhRrJzk9OAq1WyoOXwbtRpwNDwWA4N2IuprPQJbvjVxaw/PesZMZwZqlp
// ...
// zm9zAxahyu8Ooe8M4r3HN2cY0JxxxkZtDiulbnyA+rRtXfBRJtangvFQ4iFAnzM/Yg9hMyW9jcu0
// S7FzuRB9ONMxi+nh0IFWgqp+</xenc:CipherValue>
// </xenc:CipherData>
// </xenc:EncryptedData>
// </saml2:EncryptedAssertion>
// </saml2p:Response>
// The sample encrypted SAML response and RSA private key are available online:
http := THttp.Create;
sbSamlResponse := TStringBuilder.Create;
sbPrivateKeyPem := TStringBuilder.Create;
success := http.QuickGetSb('https://chilkatdownload.com/data/samlresponse.xml',sbSamlResponse);
if (success = True) then
begin
success := http.QuickGetSb('https://chilkatdownload.com/data/samlresponse_privkey.pem',sbPrivateKeyPem);
end;
if (success = False) then
begin
WriteLn(http.LastErrorText);
Exit;
end;
xml := TXml.Create;
xml.LoadSb(sbSamlResponse,True);
// Load the RSA private key..
privkey := TPrivateKey.Create;
success := privkey.LoadPem(sbPrivateKeyPem.GetAsString());
if (success = False) then
begin
WriteLn(privkey.LastErrorText);
Exit;
end;
// Prepare an RSA object w/ the private key...
rsa := TRsa.Create;
success := rsa.UsePrivateKey(privkey);
if (success = False) then
begin
WriteLn(rsa.LastErrorText);
Exit;
end;
// RSA will be used to decrypt the xenc:EncryptedKey
// The bytes to be decrypted are in xenc:CipherValue (in base64 format)
encryptedAesKey := xml.GetChildContent('saml2:EncryptedAssertion|xenc:EncryptedData|ds:KeyInfo|xenc:EncryptedKey|xenc:CipherData|xenc:CipherValue');
if (xml.LastMethodSuccess <> True) then
begin
WriteLn('Encrypted AES key not found.');
Exit;
end;
WriteLn('Encrypted AES key (base64) = ' + encryptedAesKey);
bdAesKey := TBinData.Create;
bdAesKey.AppendEncoded(encryptedAesKey,'base64');
sbRsaAlg := TStringBuilder.Create;
sbRsaAlg.Append(xml.ChilkatPath('saml2:EncryptedAssertion|xenc:EncryptedData|ds:KeyInfo|xenc:EncryptedKey|xenc:EncryptionMethod|(Algorithm)'));
WriteLn('sbRsaAlg contains: ' + sbRsaAlg.GetAsString());
if (sbRsaAlg.Contains('rsa-oaep',True) = True) then
begin
rsa.PkcsPadding := False;
end;
success := rsa.DecryptBd(bdAesKey,True);
if (success = False) then
begin
WriteLn(rsa.LastErrorText);
Exit;
end;
WriteLn('Decrypted AES key (hex) = ' + bdAesKey.GetEncoded('hex'));
// Get the encrypted XML (in base64) to be decrypted w/ the AES key.
encrypted64 := xml.GetChildContent('saml2:EncryptedAssertion|xenc:EncryptedData|xenc:CipherData|xenc:CipherValue');
if (xml.LastMethodSuccess <> True) then
begin
WriteLn('Encrypted data not found.');
Exit;
end;
bdEncrypted := TBinData.Create;
bdEncrypted.AppendEncoded(encrypted64,'base64');
// Get the symmetric algorithm: "http://www.w3.org/2001/04/xmlenc#aes128-cbc"
// and set the symmetric decrypt properties.
crypt := TCrypt2.Create;
sbAlg := TStringBuilder.Create;
sbAlg.Append(xml.ChilkatPath('saml2:EncryptedAssertion|xenc:EncryptedData|xenc:EncryptionMethod|(Algorithm)'));
if (sbAlg.Contains('aes128-cbc',True) = True) then
begin
crypt.CryptAlgorithm := 'aes';
crypt.KeyLength := 128;
crypt.CipherMode := 'cbc';
// The 1st 16 bytes of the encrypted data are the AES IV.
crypt.SetEncodedIV(bdEncrypted.GetEncodedChunk(0,16,'hex'),'hex');
bdEncrypted.RemoveChunk(0,16);
end;
// Other algorithms, key lengths, etc, can be supported by checking for different Algorithm attribute values..
crypt.SetEncodedKey(bdAesKey.GetEncoded('hex'),'hex');
// AES decrypt...
success := crypt.DecryptBd(bdEncrypted);
if (success = False) then
begin
WriteLn(crypt.LastErrorText);
Exit;
end;
// Get the decrypted XML
decryptedXml := bdEncrypted.GetString('utf-8');
WriteLn('Decrypted XML:');
WriteLn(decryptedXml);
// The decrypted XML looks like this:
// <saml2:Assertion xmlns:saml2="urn:oasis:names:tc:SAML:2.0:assertion" ID="_226e565c548db7986d165d7d969b48b4" IssueInstant="2018-10-11T17:46:20.727Z" Version="2.0">
// ...
// ...
// ...
// </saml2:Assertion>
xmlAssertion := TXml.Create;
xmlAssertion.LoadXml(decryptedXml);
// Replace the saml2:EncryptedAssertion XML subtree with the saml2:Assertion XML.
xmlEncryptedAssertion := xml.FindChild('saml2:EncryptedAssertion');
xmlEncryptedAssertion.SwapTree(xmlAssertion);
xmlEncryptedAssertion.Free;
// The decrypted XML assertion has now replaced the encrypted XML assertion.
// Examine the fully decrypted XML document:
WriteLn('Full XML SAML document with decrypted assertion:');
WriteLn(xml.GetXml());
http.Free;
sbSamlResponse.Free;
sbPrivateKeyPem.Free;
xml.Free;
privkey.Free;
rsa.Free;
bdAesKey.Free;
sbRsaAlg.Free;
bdEncrypted.Free;
crypt.Free;
sbAlg.Free;
xmlAssertion.Free;
end;
// ---------------------------------------------------------------------------
begin
try
RunDemo;
except
on E: Exception do
WriteLn('Unhandled exception: ', E.ClassName, ': ', E.Message);
end;
WriteLn;
{$IFDEF MSWINDOWS}
WriteLn('Press Enter to exit...');
ReadLn;
{$ENDIF}
end.