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(Node.js) Create XML Signature with External XML ReferenceDemonstrates how to create an XML digital signature where the referenced data is external. In this case, the data is an XML file located at the following URL: https://www.chilkatsoft.com/data/helloWorld.xml
var os = require('os'); if (os.platform() == 'win32') { if (os.arch() == 'ia32') { var chilkat = require('@chilkat/ck-node21-win-ia32'); } else { var chilkat = require('@chilkat/ck-node21-win64'); } } else if (os.platform() == 'linux') { if (os.arch() == 'arm') { var chilkat = require('@chilkat/ck-node21-arm'); } else if (os.arch() == 'x86') { var chilkat = require('@chilkat/ck-node21-linux32'); } else { var chilkat = require('@chilkat/ck-node21-linux64'); } } else if (os.platform() == 'darwin') { if (os.arch() == 'arm64') { var chilkat = require('@chilkat/ck-node21-mac-m1'); } else { var chilkat = require('@chilkat/ck-node21-macosx'); } } function chilkatExample() { // This example requires the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. // This example inserts an XML signature in the following XML: // <?xml version="1.0" encoding="UTF-8" standalone="no"?> // <abc> // <xyz> // <name>helloWorld.xml</name> // <url>https://www.chilkatsoft.com/data/helloWorld.xml</url> // </xyz> // </abc> // Build the above XML to be signed. var xml = new chilkat.Xml(); xml.Tag = "abc"; xml.UpdateChildContent("xyz|name","helloWorld.xml"); xml.UpdateChildContent("xyz|url","https://www.chilkatsoft.com/data/helloWorld.xml"); var cert = new chilkat.Cert(); var success = cert.LoadPfxFile("qa_data/pfx/test_secret.pfx","secret"); if (success == false) { console.log(cert.LastErrorText); return; } var gen = new chilkat.XmlDSigGen(); // Indicate the location within the XML the Signature will be inserted. gen.SigLocation = "abc|xyz"; // Get the content of the XML data to be referenced. var http = new chilkat.Http(); var sbExternalXml = new chilkat.StringBuilder(); success = http.QuickGetSb("https://www.chilkatsoft.com/data/helloWorld.xml",sbExternalXml); if (success == false) { console.log(http.LastErrorText); return; } success = gen.AddExternalXmlRef("https://www.chilkatsoft.com/data/helloWorld.xml",sbExternalXml,"sha256","EXCL_C14N",""); if (success == false) { console.log(gen.LastErrorText); return; } // Provide the private key for signing via the certificate, and indicate that // we want the base64 of the certificate embedded in the KeyInfo. gen.KeyInfoType = "X509Data"; gen.X509Type = "Certificate"; var bUsePrivateKey = true; success = gen.SetX509Cert(cert,bUsePrivateKey); if (success !== true) { console.log(gen.LastErrorText); return; } // Indicate we want an indented signature for readability. // This can be removed after debugging is finished.. gen.Behaviors = "IndentedSignature"; // Now create and insert the Signature var sbXml = new chilkat.StringBuilder(); xml.GetXmlSb(sbXml); success = gen.CreateXmlDSigSb(sbXml); if (success !== true) { console.log(gen.LastErrorText); return; } // Examine the XML with the digital signature inserted console.log(sbXml.GetAsString()); // Here is the output: // <?xml version="1.0" encoding="utf-8"?> // <abc> // <xyz> // <name>helloWorld.xml</name> // <url>https://www.chilkatsoft.com/data/helloWorld.xml</url> // <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="https://www.chilkatsoft.com/data/helloWorld.xml"> // <ds:Transforms> // <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>H/s775OZhel6wdBhe02l4LK6m0lkplOisKxAbVwWxp0=</ds:DigestValue> // </ds:Reference> // </ds:SignedInfo> // <ds:SignatureValue>UruwnBqh..Ll4IzUA==</ds:SignatureValue> // <ds:KeyInfo> // <ds:X509Data> // <ds:X509Certificate>MIIHAz...nUZWCaDE=</ds:X509Certificate> // </ds:X509Data> // </ds:KeyInfo> // </ds:Signature></xyz> // </abc> // Let's verify the signature... var verifier = new chilkat.XmlDSig(); success = verifier.LoadSignatureSb(sbXml); if (success !== true) { console.log(verifier.LastErrorText); return; } // Let's examine the external references, and fetch the data for each.. var sbExternalData = new chilkat.StringBuilder(); var numRefs = verifier.NumReferences; var i = 0; while (i < numRefs) { var bExternal = verifier.IsReferenceExternal(i); if (bExternal == true) { var uri = verifier.ReferenceUri(i); // We're assuming the URI is an https:// or http:// URL... // Let's also assume we know that the referenced data is text and we want the utf-8 byte representation. sbExternalData.Clear(); success = http.QuickGetSb(uri,sbExternalData); if (success == false) { console.log(http.LastErrorText); return; } // Because the referenced external data was explicitly XML, it was the canonicalized XML that was digested. // We need to canonicalize the XML in the same way as when signed. var canonXml = verifier.CanonicalizeXml(sbExternalData.GetAsString(),"EXCL_C14N",false); sbExternalData.SetString(canonXml); success = verifier.SetRefDataSb(i,sbExternalData,"utf-8"); if (success == false) { console.log(verifier.LastErrorText); return; } } i = i+1; } // Now that we have the external data available, we can verify the reference digest(s) and the signature. var bVerified = verifier.VerifySignature(true); if (bVerified !== true) { console.log(verifier.LastErrorText); return; } console.log("Signature verified!"); } chilkatExample(); |
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