(JavaScript) Validate a .pkpass Archive

Opens a .pkpass archive (which is just a .zip renamed to .pkpass) and validates the contents. The hashes in the manifest are compared with the computed hash values for each individual file. If all computed hash values match, then the signature is verified.

Note: This example requires Chilkat v11.0.0 or greater.

Note

This example is intended for running within a Chilkat.Js embedded JavaScript engine. All Chilkat JavaScript examples require Chilkat v11.4.0 or greater.

var success = false;

// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.

var crypt = new CkCrypt2();
var zip = new CkZip();

success = zip.OpenZip("qa_data/pkpass/invalid.pkpass");
if (success == false) {
    console.log(zip.LastErrorText);
    return;
}

// Get the contents of the manifest.json file, which contains something like this:

// {
//   "icon.png" : "0296b01347b3173e98438a003b0e88986340b2d8",
//   "logo.png" : "25de09e2d3b01ce1fe00c2ca9a90a2be1aaa05cf",
//   "icon@2x.png" : "5afd9585b08c65fdf105a90c8bd643407cba2787",
//   "pass.json" : "145ea5a5db784fff485126c77ecf7a1fc2a88ee7",
//   "strip@2x.png" : "468fa7bc93e6b55342b56fda09bdce7c829d7d46",
//   "strip.png" : "736d01f84cb73d06e8a9932e43076d68f19461ff"
// }

var ent = new CkZipEntry();
success = zip.EntryOf("manifest.json",ent);
if (success == false) {
    console.log(zip.LastErrorText);
    return;
}

// Get the exact content of the manifest.json for later signature verification.
var bdManifest = new CkBinData();
success = ent.UnzipToBd(bdManifest);

var json = new CkJsonObject();
json.EmitCompact = false;
json.Load(ent.UnzipToString(0,"utf-8"));
console.log(json.Emit());

// For each file in the JSON, get the filename and hex hash value.
crypt.EncodingMode = "hexlower";
crypt.HashAlgorithm = "sha1";

var someHashesFailed = false;
var filename;
var sbHashHex = new CkStringBuilder();
var bdFileData = new CkBinData();
var numMembers = json.Size;
var i = 0;
while (i < numMembers) {
    filename = json.NameAt(i);
    sbHashHex.Clear();
    sbHashHex.Append(json.StringAt(i));

    success = zip.EntryOf(filename,ent);
    if (success == false) {
        console.log(zip.LastErrorText);
        return;
    }

    // Get the data for this file.
    bdFileData.Clear();
    success = ent.UnzipToBd(bdFileData);

    var computedHashHex = crypt.HashBdENC(bdFileData);
    if (sbHashHex.ContentsEqual(computedHashHex,false) == false) {
        console.log("Computed hash does not match stored hash for " + filename);
        console.log("  computed: " + computedHashHex);
        console.log("  stored:   " + sbHashHex.GetAsString());
        someHashesFailed = true;
    }
    else {
        console.log("hash verified for " + filename + "(" + computedHashHex + ")");
    }

    i = i+1;
}

if (someHashesFailed == true) {
    console.log("Some hashes failed.");
    return;
}

// Let's verify the signature..
// First get the signature.
success = zip.EntryOf("signature",ent);
if (success == false) {
    console.log(zip.LastErrorText);
    return;
}

var bdSignature = new CkBinData();
success = ent.UnzipToBd(bdSignature);

// Show the contents of the signature in base64 encoding.
console.log("Signature:");
console.log(bdSignature.GetEncoded("base64_mime"));
console.log("----");

// Verify the signature against the manifest.json
crypt.EncodingMode = "base64";
var verified = crypt.VerifyBdENC(bdManifest,bdSignature.GetEncoded("base64"));
if (verified == false) {
    console.log(crypt.LastErrorText);
}

console.log("signature verified = " + verified);