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Web Cryptography API Examples

Live Table: https://diafygi.github.io/webcrypto-examples/

I couldn't find anywhere that had clear examples of WebCryptoAPI, so I wrote examples and made a live table with them. Pull requests welcome!

  1. RSASSA-PKCS1-v1_5
  1. RSA-PSS
  1. RSA-OAEP
  1. ECDSA
  1. ECDH
  1. AES-CTR
  1. AES-CBC
  1. AES-CMAC
  1. AES-GCM
  1. AES-CFB
  1. AES-KW
  1. HMAC
  1. DH
  1. SHA
  1. CONCAT
  1. HKDF-CTR
  1. PBKDF2

RSASSA-PKCS1-v1_5

RSASSA-PKCS1-v1_5 - generateKey

window.crypto.subtle.generateKey(
    {
        name: "RSASSA-PKCS1-v1_5",
        modulusLength: 2048, //can be 1024, 2048, or 4096
        publicExponent: new Uint8Array([0x01, 0x00, 0x01]),
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

RSASSA-PKCS1-v1_5 - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    {   //this is an example jwk key, other key types are Uint8Array objects
        kty: "RSA",
        e: "AQAB",
        n: "vGO3eU16ag9zRkJ4AK8ZUZrjbtp5xWK0LyFMNT8933evJoHeczexMUzSiXaLrEFSyQZortk81zJH3y41MBO_UFDO_X0crAquNrkjZDrf9Scc5-MdxlWU2Jl7Gc4Z18AC9aNibWVmXhgvHYkEoFdLCFG-2Sq-qIyW4KFkjan05IE",
        alg: "RS256",
        ext: true,
    },
    {   //these are the algorithm options
        name: "RSASSA-PKCS1-v1_5",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["verify"] //"verify" for public key import, "sign" for private key imports
)
.then(function(publicKey){
    //returns a publicKey (or privateKey if you are importing a private key)
    console.log(publicKey);
})
.catch(function(err){
    console.error(err);
});

RSASSA-PKCS1-v1_5 - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

RSASSA-PKCS1-v1_5 - sign

window.crypto.subtle.sign(
    {
        name: "RSASSA-PKCS1-v1_5",
    },
    privateKey, //from generateKey or importKey above
    data //ArrayBuffer of data you want to sign
)
.then(function(signature){
    //returns an ArrayBuffer containing the signature
    console.log(new Uint8Array(signature));
})
.catch(function(err){
    console.error(err);
});

RSASSA-PKCS1-v1_5 - verify

window.crypto.subtle.verify(
    {
        name: "RSASSA-PKCS1-v1_5",
    },
    publicKey, //from generateKey or importKey above
    signature, //ArrayBuffer of the signature
    data //ArrayBuffer of the data
)
.then(function(isvalid){
    //returns a boolean on whether the signature is true or not
    console.log(isvalid);
})
.catch(function(err){
    console.error(err);
});

RSA-PSS

RSA-PSS - generateKey

window.crypto.subtle.generateKey(
    {
        name: "RSA-PSS",
        modulusLength: 2048, //can be 1024, 2048, or 4096
        publicExponent: new Uint8Array([0x01, 0x00, 0x01]),
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

RSA-PSS - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    {   //this is an example jwk key, other key types are Uint8Array objects
        kty: "RSA",
        e: "AQAB",
        n: "vGO3eU16ag9zRkJ4AK8ZUZrjbtp5xWK0LyFMNT8933evJoHeczexMUzSiXaLrEFSyQZortk81zJH3y41MBO_UFDO_X0crAquNrkjZDrf9Scc5-MdxlWU2Jl7Gc4Z18AC9aNibWVmXhgvHYkEoFdLCFG-2Sq-qIyW4KFkjan05IE",
        alg: "PS256",
        ext: true,
    },
    {   //these are the algorithm options
        name: "RSA-PSS",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["verify"] //"verify" for public key import, "sign" for private key imports
)
.then(function(publicKey){
    //returns a publicKey (or privateKey if you are importing a private key)
    console.log(publicKey);
})
.catch(function(err){
    console.error(err);
});

RSA-PSS - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

RSA-PSS - sign

window.crypto.subtle.sign(
    {
        name: "RSA-PSS",
        saltLength: 128, //the length of the salt
    },
    privateKey, //from generateKey or importKey above
    data //ArrayBuffer of data you want to sign
)
.then(function(signature){
    //returns an ArrayBuffer containing the signature
    console.log(new Uint8Array(signature));
})
.catch(function(err){
    console.error(err);
});

RSA-PSS - verify

window.crypto.subtle.verify(
    {
        name: "RSA-PSS",
        saltLength: 128, //the length of the salt
    },
    publicKey, //from generateKey or importKey above
    signature, //ArrayBuffer of the signature
    data //ArrayBuffer of the data
)
.then(function(isvalid){
    //returns a boolean on whether the signature is true or not
    console.log(isvalid);
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP

RSA-OAEP - generateKey

window.crypto.subtle.generateKey(
    {
        name: "RSA-OAEP",
        modulusLength: 2048, //can be 1024, 2048, or 4096
        publicExponent: new Uint8Array([0x01, 0x00, 0x01]),
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //must be ["encrypt", "decrypt"] or ["wrapKey", "unwrapKey"]
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    {   //this is an example jwk key, other key types are Uint8Array objects
        kty: "RSA",
        e: "AQAB",
        n: "vGO3eU16ag9zRkJ4AK8ZUZrjbtp5xWK0LyFMNT8933evJoHeczexMUzSiXaLrEFSyQZortk81zJH3y41MBO_UFDO_X0crAquNrkjZDrf9Scc5-MdxlWU2Jl7Gc4Z18AC9aNibWVmXhgvHYkEoFdLCFG-2Sq-qIyW4KFkjan05IE",
        alg: "RSA-OAEP-256",
        ext: true,
    },
    {   //these are the algorithm options
        name: "RSA-OAEP",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt"] //"encrypt" or "wrapKey" for public key import or
                //"decrypt" or "unwrapKey" for private key imports
)
.then(function(publicKey){
    //returns a publicKey (or privateKey if you are importing a private key)
    console.log(publicKey);
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - encrypt

window.crypto.subtle.encrypt(
    {
        name: "RSA-OAEP",
        //label: Uint8Array([...]) //optional
    },
    publicKey, //from generateKey or importKey above
    data //ArrayBuffer of data you want to encrypt
)
.then(function(encrypted){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(encrypted));
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - decrypt

window.crypto.subtle.decrypt(
    {
        name: "RSA-OAEP",
        //label: Uint8Array([...]) //optional
    },
    privateKey, //from generateKey or importKey above
    data //ArrayBuffer of the data
)
.then(function(decrypted){
    //returns an ArrayBuffer containing the decrypted data
    console.log(new Uint8Array(decrypted));
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - wrapKey

window.crypto.subtle.wrapKey(
    "raw", //the export format, must be "raw" (only available sometimes)
    key, //the key you want to wrap, must be able to fit in RSA-OAEP padding
    publicKey, //the public key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "RSA-OAEP",
        hash: {name: "SHA-256"},
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

RSA-OAEP - unwrapKey

window.crypto.subtle.unwrapKey(
    "raw", //the import format, must be "raw" (only available sometimes)
    wrapped, //the key you want to unwrap
    privateKey, //the private key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "RSA-OAEP",
        modulusLength: 2048,
        publicExponent: new Uint8Array([0x01, 0x00, 0x01]),
        hash: {name: "SHA-256"},
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-GCM",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

ECDSA

ECDSA - generateKey

window.crypto.subtle.generateKey(
    {
        name: "ECDSA",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

ECDSA - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    {   //this is an example jwk key, other key types are Uint8Array objects
        kty: "EC",
        crv: "P-256",
        x: "zCQ5BPHPCLZYgdpo1n-x_90P2Ij52d53YVwTh3ZdiMo",
        y: "pDfQTUx0-OiZc5ZuKMcA7v2Q7ZPKsQwzB58bft0JTko",
        ext: true,
    },
    {   //these are the algorithm options
        name: "ECDSA",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["verify"] //"verify" for public key import, "sign" for private key imports
)
.then(function(publicKey){
    //returns a publicKey (or privateKey if you are importing a private key)
    console.log(publicKey);
})
.catch(function(err){
    console.error(err);
});

ECDSA - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" (public or private), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

ECDSA - sign

window.crypto.subtle.sign(
    {
        name: "ECDSA",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    privateKey, //from generateKey or importKey above
    data //ArrayBuffer of data you want to sign
)
.then(function(signature){
    //returns an ArrayBuffer containing the signature
    console.log(new Uint8Array(signature));
})
.catch(function(err){
    console.error(err);
});

ECDSA - verify

window.crypto.subtle.verify(
    {
        name: "ECDSA",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    publicKey, //from generateKey or importKey above
    signature, //ArrayBuffer of the signature
    data //ArrayBuffer of the data
)
.then(function(isvalid){
    //returns a boolean on whether the signature is true or not
    console.log(isvalid);
})
.catch(function(err){
    console.error(err);
});

ECDH

ECDH - generateKey

window.crypto.subtle.generateKey(
    {
        name: "ECDH",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

ECDH - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" (public or private), "raw" (public only), "spki" (public only), or "pkcs8" (private only)
    {   //this is an example jwk key, other key types are Uint8Array objects
        kty: "EC",
        crv: "P-256",
        x: "kgR_PqO07L8sZOBbw6rvv7O_f7clqDeiE3WnMkb5EoI",
        y: "djI-XqCqSyO9GFk_QT_stROMCAROIvU8KOORBgQUemE",
        d: "5aPFSt0UFVXYGu-ZKyC9FQIUOAMmnjzdIwkxCMe3Iok",
        ext: true,
    },
    {   //these are the algorithm options
        name: "ECDH",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //"deriveKey" and/or "deriveBits" for private keys only (just put an empty list if importing a public key)
)
.then(function(privateKey){
    //returns a privateKey (or publicKey if you are importing a public key)
    console.log(privateKey);
})
.catch(function(err){
    console.error(err);
});

ECDH - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" (public or private), "raw" (public only), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

ECDH - deriveKey

window.crypto.subtle.deriveKey(
    {
        name: "ECDH",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
        public: publicKey, //an ECDH public key from generateKey or importKey
    },
    privateKey, //your ECDH private key from generateKey or importKey
    { //the key type you want to create based on the derived bits
        name: "AES-CTR", //can be any AES algorithm ("AES-CTR", "AES-CBC", "AES-CMAC", "AES-GCM", "AES-CFB", "AES-KW", "ECDH", "DH", or "HMAC")
        //the generateKey parameters for that type of algorithm
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the derived key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //limited to the options in that algorithm's importKey
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

ECDH - deriveBits

window.crypto.subtle.deriveBits(
    {
        name: "ECDH",
        namedCurve: "P-256", //can be "P-256", "P-384", or "P-521"
        public: publicKey, //an ECDH public key from generateKey or importKey
    },
    privateKey, //your ECDH private key from generateKey or importKey
    256 //the number of bits you want to derive
)
.then(function(bits){
    //returns the derived bits as an ArrayBuffer
    console.log(new Uint8Array(bits));
})
.catch(function(err){
    console.error(err);
});

AES-CTR

AES-CTR - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-CTR",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CTR - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256CTR",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-CTR",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CTR - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-CTR - encrypt

window.crypto.subtle.encrypt(
    {
        name: "AES-CTR",
        //Don't re-use counters!
        //Always use a new counter every time your encrypt!
        counter: new Uint8Array(16),
        length: 128, //can be 1-128
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to encrypt
)
.then(function(encrypted){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(encrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CTR - decrypt

window.crypto.subtle.decrypt(
    {
        name: "AES-CTR",
        counter: ArrayBuffer(16), //The same counter you used to encrypt
        length: 128, //The same length you used to encrypt
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of the data
)
.then(function(decrypted){
    //returns an ArrayBuffer containing the decrypted data
    console.log(new Uint8Array(decrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CTR - wrapKey

window.crypto.subtle.wrapKey(
    "jwk", //can be "jwk", "raw", "spki", or "pkcs8"
    key, //the key you want to wrap, must be able to export to "raw" format
    wrappingKey, //the AES-CTR key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CTR",
        //Don't re-use counters!
        //Always use a new counter every time your encrypt!
        counter: new Uint8Array(16),
        length: 128, //can be 1-128
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

AES-CTR - unwrapKey

window.crypto.subtle.unwrapKey(
    "jwk", //"jwk", "raw", "spki", or "pkcs8" (whatever was used in wrapping)
    wrapped, //the key you want to unwrap
    wrappingKey, //the AES-CTR key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CTR",
        //Don't re-use counters!
        //Always use a new counter every time your encrypt!
        counter: new Uint8Array(16),
        length: 128, //can be 1-128
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-GCM",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CBC

AES-CBC - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-CBC",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can be "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CBC - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256CBC",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-CBC",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can be "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CBC - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-CBC - encrypt

window.crypto.subtle.encrypt(
    {
        name: "AES-CBC",
        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        iv: window.crypto.getRandomValues(new Uint8Array(16)),
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to encrypt
)
.then(function(encrypted){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(encrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CBC - decrypt

window.crypto.subtle.decrypt(
    {
        name: "AES-CBC",
        iv: ArrayBuffer(16), //The initialization vector you used to encrypt
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of the data
)
.then(function(decrypted){
    //returns an ArrayBuffer containing the decrypted data
    console.log(new Uint8Array(decrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CBC - wrapKey

window.crypto.subtle.wrapKey(
    "jwk", //can be "jwk", "raw", "spki", or "pkcs8"
    key, //the key you want to wrap, must be able to export to above format
    wrappingKey, //the AES-CBC key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CBC",
        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        iv: window.crypto.getRandomValues(new Uint8Array(16)),
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

AES-CBC - unwrapKey

window.crypto.subtle.unwrapKey(
    "jwk", //"jwk", "raw", "spki", or "pkcs8" (whatever was used in wrapping)
    wrapped, //the key you want to unwrap
    wrappingKey, //the AES-CBC key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CBC",
        iv: ArrayBuffer(16), //The initialization vector you used to encrypt
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-GCM",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CMAC

AES-CMAC - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-CMAC",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CMAC - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256CMAC",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-CMAC",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CMAC - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-CMAC - sign

window.crypto.subtle.sign(
    {
        name: "AES-CMAC",
        length: 256, //bit length of the MAC
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to sign
)
.then(function(signature){
    //returns an ArrayBuffer containing the signature
    console.log(new Uint8Array(signature));
})
.catch(function(err){
    console.error(err);
});

AES-CMAC - verify

window.crypto.subtle.verify(
    {
        name: "AES-CMAC",
        length: 256, //bit length of the MAC
    },
    key, //from generateKey or importKey above
    signature, //ArrayBuffer of the signature
    data //ArrayBuffer of the data
)
.then(function(isvalid){
    //returns a boolean on whether the signature is true or not
    console.log(isvalid);
})
.catch(function(err){
    console.error(err);
});

AES-GCM

AES-GCM - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-GCM",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-GCM - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256GCM",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-GCM",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-GCM - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-GCM - encrypt

window.crypto.subtle.encrypt(
    {
        name: "AES-GCM",

        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        //Recommended to use 12 bytes length
        iv: window.crypto.getRandomValues(new Uint8Array(12)),

        //Additional authentication data (optional)
        additionalData: ArrayBuffer,

        //Tag length (optional)
        tagLength: 128, //can be 32, 64, 96, 104, 112, 120 or 128 (default)
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to encrypt
)
.then(function(encrypted){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(encrypted));
})
.catch(function(err){
    console.error(err);
});

AES-GCM - decrypt

window.crypto.subtle.decrypt(
    {
        name: "AES-GCM",
        iv: ArrayBuffer(12), //The initialization vector you used to encrypt
        additionalData: ArrayBuffer, //The addtionalData you used to encrypt (if any)
        tagLength: 128, //The tagLength you used to encrypt (if any)
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of the data
)
.then(function(decrypted){
    //returns an ArrayBuffer containing the decrypted data
    console.log(new Uint8Array(decrypted));
})
.catch(function(err){
    console.error(err);
});

AES-GCM - wrapKey

window.crypto.subtle.wrapKey(
    "jwk", //can be "jwk", "raw", "spki", or "pkcs8"
    key, //the key you want to wrap, must be able to export to above format
    wrappingKey, //the AES-GCM key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-GCM",

        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        //Recommended to use 12 bytes length
        iv: window.crypto.getRandomValues(new Uint8Array(12)),

        //Additional authentication data (optional)
        additionalData: ArrayBuffer,

        //Tag length (optional)
        tagLength: 128, //can be 32, 64, 96, 104, 112, 120 or 128 (default)
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

AES-GCM - unwrapKey

window.crypto.subtle.unwrapKey(
    "jwk", //"jwk", "raw", "spki", or "pkcs8" (whatever was used in wrapping)
    wrapped, //the key you want to unwrap
    wrappingKey, //the AES-GCM key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-GCM",
        iv: ArrayBuffer(12), //The initialization vector you used to encrypt
        additionalData: ArrayBuffer, //The addtionalData you used to encrypt (if any)
        tagLength: 128, //The tagLength you used to encrypt (if any)
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-CBC",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CFB

AES-CFB - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-CFB-8",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CFB - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256CFB8",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-CFB-8",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //can "encrypt", "decrypt", "wrapKey", or "unwrapKey"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-CFB - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-CFB - encrypt

window.crypto.subtle.encrypt(
    {
        name: "AES-CFB-8",
        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        iv: window.crypto.getRandomValues(new Uint8Array(16)),
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to encrypt
)
.then(function(encrypted){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(encrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CFB - decrypt

window.crypto.subtle.decrypt(
    {
        name: "AES-CFB-8",
        iv: ArrayBuffer(16), //The initialization vector you used to encrypt
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of the data
)
.then(function(decrypted){
    //returns an ArrayBuffer containing the decrypted data
    console.log(new Uint8Array(decrypted));
})
.catch(function(err){
    console.error(err);
});

AES-CFB - wrapKey

window.crypto.subtle.wrapKey(
    "jwk", //can be "jwk", "raw", "spki", or "pkcs8"
    key, //the key you want to wrap, must be able to export to above format
    wrappingKey, //the AES-CFB key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CFB",
        //Don't re-use initialization vectors!
        //Always generate a new iv every time your encrypt!
        iv: window.crypto.getRandomValues(new Uint8Array(16)),
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

AES-CFB - unwrapKey

window.crypto.subtle.unwrapKey(
    "jwk", //"jwk", "raw", "spki", or "pkcs8" (whatever was used in wrapping)
    wrapped, //the key you want to unwrap
    wrappingKey, //the AES-CFB key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-CFB",
        iv: ArrayBuffer(16), //The initialization vector you used to encrypt
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-GCM",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-KW

AES-KW - generateKey

window.crypto.subtle.generateKey(
    {
        name: "AES-KW",
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["wrapKey", "unwrapKey"] //can be any combination of "wrapKey" and "unwrapKey"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-KW - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "A256KW",
        ext: true,
    },
    {   //this is the algorithm options
        name: "AES-KW",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["wrapKey", "unwrapKey"] //can be any combination of "wrapKey" and "unwrapKey"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

AES-KW - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

AES-KW - wrapKey

window.crypto.subtle.wrapKey(
    "raw", //the export format, must be "raw" (only available sometimes)
    key, //the key you want to wrap, must export in 8 byte increments
    wrappingKey, //the AES-KW key with "wrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-KW",
    }
)
.then(function(wrapped){
    //returns an ArrayBuffer containing the encrypted data
    console.log(new Uint8Array(wrapped));
})
.catch(function(err){
    console.error(err);
});

AES-KW - unwrapKey

window.crypto.subtle.unwrapKey(
    "raw", //the import format, must be "raw" (only available sometimes)
    wrapped, //the key you want to unwrap
    wrappingKey, //the AES-KW key with "unwrapKey" usage flag
    {   //these are the wrapping key's algorithm options
        name: "AES-KW",
    },
    {   //this what you want the wrapped key to become (same as when wrapping)
        name: "AES-GCM",
        length: 256
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //the usages you want the unwrapped key to have
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

HMAC

HMAC - generateKey

window.crypto.subtle.generateKey(
    {
        name: "HMAC",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
        //length: 256, //optional, if you want your key length to differ from the hash function's block length
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

HMAC - importKey

window.crypto.subtle.importKey(
    "jwk", //can be "jwk" or "raw"
    {   //this is an example jwk key, "raw" would be an ArrayBuffer
        kty: "oct",
        k: "Y0zt37HgOx-BY7SQjYVmrqhPkO44Ii2Jcb9yydUDPfE",
        alg: "HS256",
        ext: true,
    },
    {   //this is the algorithm options
        name: "HMAC",
        hash: {name: "SHA-256"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
        //length: 256, //optional, if you want your key length to differ from the hash function's block length
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["sign", "verify"] //can be any combination of "sign" and "verify"
)
.then(function(key){
    //returns the symmetric key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

HMAC - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "jwk" or "raw"
    key //extractable must be true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

HMAC - sign

window.crypto.subtle.sign(
    {
        name: "HMAC",
    },
    key, //from generateKey or importKey above
    data //ArrayBuffer of data you want to sign
)
.then(function(signature){
    //returns an ArrayBuffer containing the signature
    console.log(new Uint8Array(signature));
})
.catch(function(err){
    console.error(err);
});

HMAC - verify

window.crypto.subtle.verify(
    {
        name: "HMAC",
    },
    key, //from generateKey or importKey above
    signature, //ArrayBuffer of the signature
    data //ArrayBuffer of the data
)
.then(function(isvalid){
    //returns a boolean on whether the signature is true or not
    console.log(isvalid);
})
.catch(function(err){
    console.error(err);
});

DH

DH - generateKey

window.crypto.subtle.generateKey(
    {
        name: "DH",
        //NOTE: THIS IS A SMALL PRIME FOR TESTING ONLY! DO NOT USE IT FOR REAL!
        //See http://datatracker.ietf.org/doc/rfc3526/ for better primes
        prime: new Uint8Array([
            255,255,255,255,255,255,255,255,201,15,218,162,33,104,194,52,196,198,98,139,
            128,220,28,209,41,2,78,8,138,103,204,116,2,11,190,166,59,19,155,34,81,74,8,
            121,142,52,4,221,239,149,25,179,205,58,67,27,48,43,10,109,242,95,20,55,79,225,
            53,109,109,81,194,69,228,133,181,118,98,94,126,198,244,76,66,233,166,55,237,
            107,11,255,92,182,244,6,183,237,238,56,107,251,90,137,159,165,174,159,36,17,
            124,75,31,230,73,40,102,81,236,228,91,61,194,0,124,184,161,99,191,5,152,218,
            72,54,28,85,211,154,105,22,63,168,253,36,207,95,131,101,93,35,220,163,173,
            150,28,98,243,86,32,133,82,187,158,213,41,7,112,150,150,109,103,12,53,78,74,
            188,152,4,241,116,108,8,202,35,115,39,255,255,255,255,255,255,255,255
        ]),
        generator: new Uint8Array([2]),
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a keypair object
    console.log(key);
    console.log(key.publicKey);
    console.log(key.privateKey);
})
.catch(function(err){
    console.error(err);
});

DH - importKey

window.crypto.subtle.importKey(
    "raw", //can be "raw" (public only), "spki" (public only), or "pkcs8" (private only)
    new Uint8Array([ //this is an example raw key, "raw" would be an ArrayBuffer
        203,25,0,203,43,75,46,159,217,37,185,181,25,220,71,187,112,195,251,233,152,56,206,
        93,18,96,87,132,17,113,166,110,123,190,194,168,100,147,21,174,131,80,8,247,125,35,
        210,70,103,141,152,173,99,74,34,132,92,134,216,55,171,186,89,167,189,217,164,119,
        22,139,55,26,239,242,30,241,140,139,202,116,174,137,77,11,29,4,30,47,118,170,84,243,
        97,132,86,58,24,82,36,149,45,185,23,172,67,162,48,43,110,251,175,20,102,237,113,148,
        5,242,29,209,34,173,52,72,251,254,84,86,226,151,202,110,61,145,198,244,80,227,65,
        203,118,217,91,45,58,172,165,224,122,230,50,135,120,124,37,190,186,204,103,218,19,
        91,246,115,6,199,45,121,156,149,6,208,85,26,94,171,165,228,58,200,49,82,210,170,243,
        154,190,15,2,225,143,159
    ]),
    {   //these are the algorithm options
        name: "DH",
        //NOTE: THIS IS A SMALL PRIME FOR TESTING ONLY! DO NOT USE IT FOR REAL!
        //See http://datatracker.ietf.org/doc/rfc3526/ for better primes
        prime: new Uint8Array([
            255,255,255,255,255,255,255,255,201,15,218,162,33,104,194,52,196,198,98,139,
            128,220,28,209,41,2,78,8,138,103,204,116,2,11,190,166,59,19,155,34,81,74,8,
            121,142,52,4,221,239,149,25,179,205,58,67,27,48,43,10,109,242,95,20,55,79,225,
            53,109,109,81,194,69,228,133,181,118,98,94,126,198,244,76,66,233,166,55,237,
            107,11,255,92,182,244,6,183,237,238,56,107,251,90,137,159,165,174,159,36,17,
            124,75,31,230,73,40,102,81,236,228,91,61,194,0,124,184,161,99,191,5,152,218,
            72,54,28,85,211,154,105,22,63,168,253,36,207,95,131,101,93,35,220,163,173,
            150,28,98,243,86,32,133,82,187,158,213,41,7,112,150,150,109,103,12,53,78,74,
            188,152,4,241,116,108,8,202,35,115,39,255,255,255,255,255,255,255,255
        ]),
        generator: new Uint8Array([2]),
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    [] //use ["deriveKey", "deriveBits"] if importing a private key
)
.then(function(publicKey){
    //returns a publicKey (or privateKey if you are importing a private key)
    console.log(publicKey);
})
.catch(function(err){
    console.error(err);
});

DH - exportKey

window.crypto.subtle.exportKey(
    "jwk", //can be "raw" (public or private), "spki" (public only), or "pkcs8" (private only)
    publicKey //can be a publicKey or privateKey, as long as extractable was true
)
.then(function(keydata){
    //returns the exported key data
    console.log(keydata);
})
.catch(function(err){
    console.error(err);
});

DH - deriveKey

window.crypto.subtle.deriveKey(
    {
        name: "DH",
        //NOTE: THIS IS A SMALL PRIME FOR TESTING ONLY! DO NOT USE IT FOR REAL!
        //See http://datatracker.ietf.org/doc/rfc3526/ for better primes
        prime: new Uint8Array([
            255,255,255,255,255,255,255,255,201,15,218,162,33,104,194,52,196,198,98,139,
            128,220,28,209,41,2,78,8,138,103,204,116,2,11,190,166,59,19,155,34,81,74,8,
            121,142,52,4,221,239,149,25,179,205,58,67,27,48,43,10,109,242,95,20,55,79,225,
            53,109,109,81,194,69,228,133,181,118,98,94,126,198,244,76,66,233,166,55,237,
            107,11,255,92,182,244,6,183,237,238,56,107,251,90,137,159,165,174,159,36,17,
            124,75,31,230,73,40,102,81,236,228,91,61,194,0,124,184,161,99,191,5,152,218,
            72,54,28,85,211,154,105,22,63,168,253,36,207,95,131,101,93,35,220,163,173,
            150,28,98,243,86,32,133,82,187,158,213,41,7,112,150,150,109,103,12,53,78,74,
            188,152,4,241,116,108,8,202,35,115,39,255,255,255,255,255,255,255,255
        ]),
        generator: new Uint8Array([2]),
        public: publicKey, //a DH public key from generateKey or importKey
    },
    privateKey, //your DH private key from generateKey or importKey
    { //the key type you want to create based on the derived bits
        name: "AES-CTR", //can be any AES algorithm ("AES-CTR", "AES-CBC", "AES-CMAC", "AES-GCM", "AES-CFB", "AES-KW", "ECDH", "DH", or "HMAC")
        //the generateKey parameters for that type of algorithm
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the derived key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //limited to the options in that algorithm's importKey
)
.then(function(key){
    //returns the derived key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

DH - deriveBits

window.crypto.subtle.deriveBits(
    {
        name: "DH",
        //NOTE: THIS IS A SMALL PRIME FOR TESTING ONLY! DO NOT USE IT FOR REAL!
        //See http://datatracker.ietf.org/doc/rfc3526/ for better primes
        prime: new Uint8Array([
            255,255,255,255,255,255,255,255,201,15,218,162,33,104,194,52,196,198,98,139,
            128,220,28,209,41,2,78,8,138,103,204,116,2,11,190,166,59,19,155,34,81,74,8,
            121,142,52,4,221,239,149,25,179,205,58,67,27,48,43,10,109,242,95,20,55,79,225,
            53,109,109,81,194,69,228,133,181,118,98,94,126,198,244,76,66,233,166,55,237,
            107,11,255,92,182,244,6,183,237,238,56,107,251,90,137,159,165,174,159,36,17,
            124,75,31,230,73,40,102,81,236,228,91,61,194,0,124,184,161,99,191,5,152,218,
            72,54,28,85,211,154,105,22,63,168,253,36,207,95,131,101,93,35,220,163,173,
            150,28,98,243,86,32,133,82,187,158,213,41,7,112,150,150,109,103,12,53,78,74,
            188,152,4,241,116,108,8,202,35,115,39,255,255,255,255,255,255,255,255
        ]),
        generator: new Uint8Array([2]),
        public: publicKey, //a DH public key from generateKey or importKey
    },
    privateKey, //your DH private key from generateKey or importKey
    256 //the number of bits you want to derive
)
.then(function(bits){
    //returns the derived bits as an ArrayBuffer
    console.log(new Uint8Array(bits));
})
.catch(function(err){
    console.error(err);
});

SHA

SHA-1 - digest

window.crypto.subtle.digest(
    {
        name: "SHA-1",
    },
    new Uint8Array([1,2,3,4]) //The data you want to hash as an ArrayBuffer
)
.then(function(hash){
    //returns the hash as an ArrayBuffer
    console.log(new Uint8Array(hash));
})
.catch(function(err){
    console.error(err);
});

SHA-256 - digest

window.crypto.subtle.digest(
    {
        name: "SHA-256",
    },
    new Uint8Array([1,2,3,4]) //The data you want to hash as an ArrayBuffer
)
.then(function(hash){
    //returns the hash as an ArrayBuffer
    console.log(new Uint8Array(hash));
})
.catch(function(err){
    console.error(err);
});

SHA-384 - digest

window.crypto.subtle.digest(
    {
        name: "SHA-384",
    },
    new Uint8Array([1,2,3,4]) //The data you want to hash as an ArrayBuffer
)
.then(function(hash){
    //returns the hash as an ArrayBuffer
    console.log(new Uint8Array(hash));
})
.catch(function(err){
    console.error(err);
});

SHA-512 - digest

window.crypto.subtle.digest(
    {
        name: "SHA-512",
    },
    new Uint8Array([1,2,3,4]) //The data you want to hash as an ArrayBuffer
)
.then(function(hash){
    //returns the hash as an ArrayBuffer
    console.log(new Uint8Array(hash));
})
.catch(function(err){
    console.error(err);
});

CONCAT

CONCAT - importKey

window.crypto.subtle.importKey(
    "raw", //only "raw" is allowed
    keydata, //your raw key data as an ArrayBuffer
    {
        name: "CONCAT",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

CONCAT - deriveKey

window.crypto.subtle.deriveKey(
    {
        "name": "CONCAT",
        algorithmId: ArrayBuffer, //?????? I don't know what this should be
        partyUInfo: ArrayBuffer, //?????? I don't know what this should be
        partyVInfo: ArrayBuffer, //?????? I don't know what this should be
        publicInfo: ArrayBuffer, //?????? I don't know what this should be
        privateInfo: ArrayBuffer, //?????? I don't know what this should be
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key from importKey
    { //the key type you want to create based on the derived bits
        name: "AES-CTR", //can be any AES algorithm ("AES-CTR", "AES-CBC", "AES-CMAC", "AES-GCM", "AES-CFB", "AES-KW", "ECDH", "DH", or "HMAC")
        //the generateKey parameters for that type of algorithm
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the derived key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //limited to the options in that algorithm's importKey
)
.then(function(key){
    //returns the derived key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

CONCAT - deriveBits

window.crypto.subtle.deriveBits(
    {
        "name": "CONCAT",
        algorithmId: ArrayBuffer, //?????? I don't know what this should be
        partyUInfo: ArrayBuffer, //?????? I don't know what this should be
        partyVInfo: ArrayBuffer, //?????? I don't know what this should be
        publicInfo: ArrayBuffer, //?????? I don't know what this should be
        privateInfo: ArrayBuffer, //?????? I don't know what this should be
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key importKey
    256 //the number of bits you want to derive
)
.then(function(bits){
    //returns the derived bits as an ArrayBuffer
    console.log(new Uint8Array(bits));
})
.catch(function(err){
    console.error(err);
});

HKDF-CTR

HKDF-CTR - importKey

window.crypto.subtle.importKey(
    "raw", //only "raw" is allowed
    keydata, //your raw key data as an ArrayBuffer
    {
        name: "HKDF-CTR",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

HKDF-CTR - deriveKey

window.crypto.subtle.deriveKey(
    {
        "name": "HKDF-CTR",
        label: ArrayBuffer, //?????? I don't know what this should be
        context: ArrayBuffer, //?????? I don't know what this should be
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key from importKey
    { //the key type you want to create based on the derived bits
        name: "AES-CTR", //can be any AES algorithm ("AES-CTR", "AES-CBC", "AES-CMAC", "AES-GCM", "AES-CFB", "AES-KW", "ECDH", "DH", or "HMAC")
        //the generateKey parameters for that type of algorithm
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the derived key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //limited to the options in that algorithm's importKey
)
.then(function(key){
    //returns the derived key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

HKDF-CTR - deriveBits

window.crypto.subtle.deriveBits(
    {
        "name": "HKDF-CTR",
        label: ArrayBuffer, //?????? I don't know what this should be
        context: ArrayBuffer, //?????? I don't know what this should be
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key importKey
    256 //the number of bits you want to derive
)
.then(function(bits){
    //returns the derived bits as an ArrayBuffer
    console.log(new Uint8Array(bits));
})
.catch(function(err){
    console.error(err);
});

PBKDF2

PBKDF2 - generateKey

//NOTE: This prompts the user to enter a password.
window.crypto.subtle.generateKey(
    {
        name: "PBKDF2",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

PBKDF2 - importKey

window.crypto.subtle.importKey(
    "raw", //only "raw" is allowed
    window.crypto.getRandomValues(new Uint8Array(16)), //your password
    {
        name: "PBKDF2",
    },
    false, //whether the key is extractable (i.e. can be used in exportKey)
    ["deriveKey", "deriveBits"] //can be any combination of "deriveKey" and "deriveBits"
)
.then(function(key){
    //returns a key object
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

PBKDF2 - deriveKey

window.crypto.subtle.deriveKey(
    {
        "name": "PBKDF2",
        salt: window.crypto.getRandomValues(new Uint8Array(16)),
        iterations: 1000,
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key from generateKey or importKey
    { //the key type you want to create based on the derived bits
        name: "AES-CTR", //can be any AES algorithm ("AES-CTR", "AES-CBC", "AES-CMAC", "AES-GCM", "AES-CFB", "AES-KW", "ECDH", "DH", or "HMAC")
        //the generateKey parameters for that type of algorithm
        length: 256, //can be  128, 192, or 256
    },
    false, //whether the derived key is extractable (i.e. can be used in exportKey)
    ["encrypt", "decrypt"] //limited to the options in that algorithm's importKey
)
.then(function(key){
    //returns the derived key
    console.log(key);
})
.catch(function(err){
    console.error(err);
});

PBKDF2 - deriveBits

window.crypto.subtle.deriveBits(
    {
        "name": "PBKDF2",
        salt: window.crypto.getRandomValues(new Uint8Array(16)),
        iterations: 1000,
        hash: {name: "SHA-1"}, //can be "SHA-1", "SHA-256", "SHA-384", or "SHA-512"
    },
    key, //your key from generateKey or importKey
    256 //the number of bits you want to derive
)
.then(function(bits){
    //returns the derived bits as an ArrayBuffer
    console.log(new Uint8Array(bits));
})
.catch(function(err){
    console.error(err);
});