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Quelle  test_WebCrypto_Structured_Cloning.html

  Sprache: HTML
 

 products/Sources/formale Sprachen/C/Firefox/dom/crypto/test/test_WebCrypto_Structured_Cloning.html


<!DOCTYPE html>
<html>

<head>
<title>WebCrypto Test Suite</title>
<meta http-equiv="Content-Type" content="text/html;charset=utf-8" />
<link rel="stylesheet" href="./test_WebCrypto.css"/>
<script src="/tests/SimpleTest/SimpleTest.js"></script>

<!-- Utilities for manipulating ABVs -->
<script src="util.js"></script>

<!-- A simple wrapper around IndexedDB -->
<script src="simpledb.js"></script>

<!-- Test vectors drawn from the literature -->
<script src="./test-vectors.js"></script>

<!-- General testing framework -->
<script src="./test-array.js"></script>

<script>/* <![CDATA[*/
"use strict";

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: AES-CTR",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));
    var iv = crypto.getRandomValues(new Uint8Array(16));
    var alg = {name: "AES-CTR", length: 128, iv};

    var counter = new Uint8Array(16);
    var algEncrypt = {name: "AES-CTR", length: 128, counter};

    crypto.subtle.generateKey(alg, true, ["encrypt"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.encrypt(algEncrypt, x, data))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: AES-CBC",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));
    var iv = crypto.getRandomValues(new Uint8Array(16));
    var alg = {name: "AES-CBC", length: 128, iv};

    crypto.subtle.generateKey(alg, true, ["encrypt"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.encrypt(alg, x, data))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: AES-GCM",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));
    var iv = crypto.getRandomValues(new Uint8Array(16));
    var alg = {name: "AES-GCM", length: 128, iv};

    crypto.subtle.generateKey(alg, true, ["encrypt"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.encrypt(alg, x, data))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: AES-KW",
  function() {
    var that = this;
    var alg = {name: "AES-KW", length: 128};

    crypto.subtle.generateKey(alg, true, ["wrapKey"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.wrapKey("raw", x, x, "AES-KW"))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: HMAC",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));
    var alg = {name: "HMAC", length: 256, hash: "SHA-256"};

    crypto.subtle.generateKey(alg, true, ["sign""verify"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.sign("HMAC", x, data))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: PBKDF2",
  function() {
    var that = this;
    var key = new TextEncoder().encode("password");

    var alg = {
      name: "PBKDF2",
      hash: "SHA-1",
      salt: crypto.getRandomValues(new Uint8Array(8)),
      iterations: 4096,
    };

    crypto.subtle.importKey("raw", key, "PBKDF2", true, ["deriveBits"])
      .then(util.cloneExportCompareKeys)
      .then(x => crypto.subtle.deriveBits(alg, x, 160))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: HKDF",
  function() {
    var that = this;
    var key = new TextEncoder().encode("password");

    var alg = {
      name: "HKDF",
      hash: "SHA-256",
      salt: new Uint8Array(),
      info: new Uint8Array(),
    };

    crypto.subtle.importKey("raw", key, "HKDF", false, ["deriveBits"])
      .then(util.clone)
      .then(x => crypto.subtle.deriveBits(alg, x, 16))
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: RSA-OAEP",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));

    var alg = {
      name: "RSA-OAEP",
      hash: "SHA-256",
      modulusLength: 2048,
      publicExponent: new Uint8Array([101]),
    };

    crypto.subtle.generateKey(alg, true, ["encrypt""decrypt"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        return crypto.subtle.encrypt(alg, x.publicKey, data)
          .then(ct => crypto.subtle.decrypt(alg, x.privateKey, ct));
      })
      .then(complete(that), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: RSASSA-PKCS1-v1_5",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));

    var alg = {
      name: "RSASSA-PKCS1-v1_5",
      hash: "SHA-256",
      modulusLength: 2048,
      publicExponent: new Uint8Array([101]),
    };

    crypto.subtle.generateKey(alg, true, ["sign""verify"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        return crypto.subtle.sign(alg, x.privateKey, data)
          .then(sig => crypto.subtle.verify(alg, x.publicKey, sig, data));
      })
      .then(complete(that, x => x), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: RSA-PSS",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));

    var alg = {
      name: "RSA-PSS",
      hash: "SHA-256",
      modulusLength: 2048,
      publicExponent: new Uint8Array([101]),
      saltLength: 20,
    };

    crypto.subtle.generateKey(alg, true, ["sign""verify"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        return crypto.subtle.sign(alg, x.privateKey, data)
          .then(sig => crypto.subtle.verify(alg, x.publicKey, sig, data));
      })
      .then(complete(that, x => x), error(that));
  }
);

// -----------------------------------------------------------------------------
TestArray.addTest(
  "Structured Cloning: Ed25519",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));

    var alg = {
      name: 'Ed25519'
    };

    crypto.subtle.generateKey(alg, true, ['sign''verify'])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        return crypto.subtle.sign(alg, x.privateKey, data)
          .then(sig => crypto.subtle.verify(alg, x.publicKey, sig, data));
      })
      .then(complete(that, x => x), error(that));
  }
);


// -----------------------------------------------------------------------------
/* TestArray.addTest(
  "Structured Cloning: DH",
  function() {
    var that = this;
    var alg = {name: "DH", prime: tv.dh.prime, generator: new Uint8Array([2])};

    crypto.subtle.generateKey(alg, true, ["deriveBits"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        var alg = {name: "DH", public: x.publicKey};
        return crypto.subtle.deriveBits(alg, x.privateKey, 16);
      })
      .then(complete(that), error(that));
  }
);*/

// -----------------------------------------------------------------------------
/* TestArray.addTest(
  "Structured Cloning: ECDH",
  function() {
    var that = this;
    var alg = {name: "ECDH", namedCurve: "P-256"};

    crypto.subtle.generateKey(alg, true, ["deriveBits"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        var alg = {name: "ECDH", public: x.publicKey};
        return crypto.subtle.deriveBits(alg, x.privateKey, 16);
      })
      .then(complete(that), error(that));
  }
);*/

// -----------------------------------------------------------------------------
/* TestArray.addTest(
  "Structured Cloning: ECDSA",
  function() {
    var that = this;
    var data = crypto.getRandomValues(new Uint8Array(128));
    var alg = {name: "ECDSA", namedCurve: "P-256", hash: "SHA-256"};

    crypto.subtle.generateKey(alg, true, ["sign""verify"])
      .then(util.cloneExportCompareKeys)
      .then(x => {
        return crypto.subtle.sign(alg, x.privateKey, data)
          .then(sig => crypto.subtle.verify(alg, x.publicKey, sig, data));
      })
      .then(complete(that), error(that));
  }
);*/
/* ]]>*/</script>
</head>

<body>

<div id="content">
 <div id="head">
  <b>Web</b>Crypto<br>
 </div>

    <div id="start" onclick="start();">RUN ALL</div>

    <div id="resultDiv" class="content">
    Summary:
    <span class="pass"><span id="passN">0</span> passed, </span>
    <span class="fail"><span id="failN">0</span> failed, </span>
    <span class="pending"><span id="pendingN">0</span> pending.</span>
    <br/>
    <br/>

    <table id="results">
        <tr>
            <th>Test</th>
            <th>Result</th>
            <th>Time</th>
        </tr>
    </table>

    </div>

    <div id="foot"></div>
</div>

</body>
</html>

Messung V0.5 in Prozent
C=99 H=100 G=99

¤ Dauer der Verarbeitung: 0.19 Sekunden  (vorverarbeitet am  2026-06-06) ¤

*© Formatika GbR, Deutschland






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