DOM.entropyWeakEntropyOverrideWarning = DOM.entropyContainer.find(".weak-entropy-override-warning");
DOM.entropyFilterWarning = DOM.entropyContainer.find(".filter-warning");
DOM.phrase = $(".phrase");
+ DOM.splitPhrase = $(".phraseSplit");
+ DOM.phraseSplitWarn = $(".phraseSplitWarn");
DOM.passphrase = $(".passphrase");
DOM.generateContainer = $(".generate-container");
DOM.generate = $(".generate");
if (phraseChangeTimeoutEvent != null) {
clearTimeout(phraseChangeTimeoutEvent);
}
- phraseChangeTimeoutEvent = setTimeout(phraseChanged, 400);
+ phraseChangeTimeoutEvent = setTimeout(function() {
+ phraseChanged();
+ var entropy = mnemonic.toRawEntropyHex(DOM.phrase.val());
+ if (entropy !== null) {
+ DOM.entropyMnemonicLength.val("raw");
+ DOM.entropy.val(entropy);
+ }
+ }, 400);
}
function phraseChanged() {
clearDisplay();
clearEntropyFeedback();
DOM.phrase.val("");
+ DOM.phraseSplit.val("");
showValidationError("Blank entropy");
return;
}
showPending();
// Clear existing mnemonic and passphrase
DOM.phrase.val("");
+ DOM.phraseSplit.val("");
DOM.passphrase.val("");
seed = null;
if (rootKeyChangedTimeoutEvent != null) {
if (DOM.phrase.val().length > 0) {
var newPhrase = convertPhraseToNewLanguage();
DOM.phrase.val(newPhrase);
+ writeSplitPhrase(newPhrase);
phraseChanged();
}
else {
// show the words
var words = mnemonic.toMnemonic(data);
DOM.phrase.val(words);
+ writeSplitPhrase(words);
// show the entropy
var entropyHex = uint8ArrayToHex(data);
DOM.entropy.val(entropyHex);
extendedKey = extendedKey.derive(index);
}
}
- return extendedKey
+ return extendedKey;
}
function showValidationError(errorText) {
}
function validateRootKey(rootKeyBase58) {
- if(isGRS())
+ if(isGRS())
return validateRootKeyGRS(rootKeyBase58);
-
+
// try various segwit network params since this extended key may be from
// any one of them.
if (networkHasSegwit()) {
return networks[DOM.network.val()].name == "GRS - Groestlcoin" || networks[DOM.network.val()].name == "GRS - Groestlcoin Testnet";
}
+ function isELA() {
+ return networks[DOM.network.val()].name == "ELA - Elastos"
+ }
+
function displayBip44Info() {
// Get the derivation path for the account
var purpose = parseIntNoNaN(DOM.bip44purpose.val(), 44);
var accountExtendedKey = calcBip32ExtendedKey(path);
var accountXprv = accountExtendedKey.toBase58();
var accountXpub = accountExtendedKey.neutered().toBase58();
+
// Display the extended keys
DOM.bip44accountXprv.val(accountXprv);
DOM.bip44accountXpub.val(accountXpub);
+
+ if (isELA()) {
+ displayBip44InfoForELA();
+ }
}
function displayBip49Info() {
clearAddressesList();
var initialAddressCount = parseInt(DOM.rowsToAdd.val());
displayAddresses(0, initialAddressCount);
+
+ if (isELA()) {
+ displayBip32InfoForELA();
+ }
}
function displayAddresses(start, total) {
privkey = keyPair.toWIF();
// BIP38 encode private key if required
if (useBip38) {
- if(isGRS())
+ if(isGRS())
privkey = groestlcoinjsBip38.encrypt(keyPair.d.toBuffer(), false, bip38password, function(p) {
console.log("Progressed " + p.percent.toFixed(1) + "% for index " + index);
}, null, networks[DOM.network.val()].name.includes("Testnet"));
else if (isP2wpkhInP2sh) {
address = groestlcoinjs.address.fromOutputScript(scriptpubkey, network)
}
- }
+ }
//non-segwit addresses are handled by using groestlcoinjs for bip32RootKey
}
+ if (isELA()) {
+ let elaAddress = calcAddressForELA(
+ seed,
+ parseIntNoNaN(DOM.bip44coin.val(), 0),
+ parseIntNoNaN(DOM.bip44account.val(), 0),
+ parseIntNoNaN(DOM.bip44change.val(), 0),
+ index
+ );
+ address = elaAddress.address;
+ privkey = elaAddress.privateKey;
+ pubkey = elaAddress.publicKey;
+ }
+
addAddressToList(indexText, address, pubkey, privkey);
if (isLast) {
hidePending();
}
return phrase;
}
+
+ function writeSplitPhrase(phrase) {
+ var wordCount = phrase.split(/\s/g).length; //get number of words in phrase
+ var left=[]; //initialize array of indexs
+ for (var i=0;i<wordCount;i++) left.push(i); //add all indexs to array
+ var group=[[],[],[]], //make array for 3 groups
+ groupI=-1; //initialize group index
+ var seed = Math.abs(sjcl.hash.sha256.hash(phrase)[0])% 2147483647; //start seed at sudo random value based on hash of words
+ while (left.length>0) { //while indexs left
+ groupI=(groupI+1)%3; //get next group to insert index into
+ seed = seed * 16807 % 2147483647; //change random value.(simple predicatable random number generator works well for this use)
+ var selected=Math.floor(left.length*(seed - 1) / 2147483646); //get index in left we will use for this group
+ group[groupI].push(left[selected]); //add index to group
+ left.splice(selected,1); //remove selected index
+ }
+ var cards=[phrase.split(/\s/g),phrase.split(/\s/g),phrase.split(/\s/g)];//make array of cards
+ for (var i=0;i<3;i++) { //go through each card
+ for (var ii=0;ii<wordCount/3;ii++) cards[i][group[i][ii]]='XXXX'; //erase words listed in the group
+ cards[i]='Card '+(i+1)+': '+wordArrayToPhrase(cards[i]); //combine words on card back to string
+ }
+ DOM.splitPhrase.val(cards.join("\r\n")); //make words visible
+ var triesPerSecond=10000000000; //assumed number of tries per second
+ var hackTime=Math.pow(2,wordCount*10/3)/triesPerSecond; //get number of bits of unknown data per card
+ if (hackTime<1) {
+ hackTime="<1 second";
+ } else if (hackTime<86400) {
+ hackTime=Math.floor(hackTime)+" seconds";
+ } else if(hackTime<31557600) {
+ hackTime=Math.floor(hackTime/86400)+" days";
+ } else {
+ hackTime=Math.floor(hackTime/31557600)+" years";
+ }
+ DOM.phraseSplitWarn.html("Time to hack with only one card: "+hackTime);
+ }
function isUsingOwnEntropy() {
return DOM.useEntropy.prop("checked");
var phrase = mnemonic.toMnemonic(entropyArr);
// Set the mnemonic in the UI
DOM.phrase.val(phrase);
+ writeSplitPhrase(phrase);
// Show the word indexes
showWordIndexes();
// Show the checksum
var name = networks[DOM.network.val()].name;
return (name == "ETH - Ethereum")
|| (name == "ETC - Ethereum Classic")
+ || (name == "EWT - EnergyWeb")
|| (name == "PIRL - Pirl")
|| (name == "MIX - MIX")
|| (name == "MUSIC - Musicoin")
setHdCoin(78);
},
},
+ {
+ name: "ELA - Elastos",
+ onSelect: function () {
+ network = bitcoinjs.bitcoin.networks.elastos;
+ setHdCoin(2305);
+ },
+ },
{
name: "ELLA - Ellaism",
segwitAvailable: false,
network = bitcoinjs.bitcoin.networks.bitcoin;
setHdCoin(60);
},
- },
+ },
+ {
+ name: "EWT - EnergyWeb",
+ onSelect: function() {
+ network = bitcoinjs.bitcoin.networks.bitcoin;
+ setHdCoin(246);
+ },
+ },
{
name: "EXCL - Exclusivecoin",
onSelect: function() {
}
]
+ // ELA - Elastos functions - begin
+ function displayBip44InfoForELA() {
+ if (!isELA()) {
+ return;
+ }
+
+ var coin = parseIntNoNaN(DOM.bip44coin.val(), 0);
+ var account = parseIntNoNaN(DOM.bip44account.val(), 0);
+
+ // Calculate the account extended keys
+ var accountXprv = elastosjs.getAccountExtendedPrivateKey(seed, coin, account);
+ var accountXpub = elastosjs.getAccountExtendedPublicKey(seed, coin, account);
+
+ // Display the extended keys
+ DOM.bip44accountXprv.val(accountXprv);
+ DOM.bip44accountXpub.val(accountXpub);
+ }
+
+ function displayBip32InfoForELA() {
+ if (!isELA()) {
+ return;
+ }
+
+ var coin = parseIntNoNaN(DOM.bip44coin.val(), 0);
+ var account = parseIntNoNaN(DOM.bip44account.val(), 0);
+ var change = parseIntNoNaN(DOM.bip44change.val(), 0);
+
+ DOM.extendedPrivKey.val(elastosjs.getBip32ExtendedPrivateKey(seed, coin, account, change));
+ DOM.extendedPubKey.val(elastosjs.getBip32ExtendedPublicKey(seed, coin, account, change));
+
+ // Display the addresses and privkeys
+ clearAddressesList();
+ var initialAddressCount = parseInt(DOM.rowsToAdd.val());
+ displayAddresses(0, initialAddressCount);
+ }
+
+ function calcAddressForELA(seed, coin, account, change, index) {
+ if (!isELA()) {
+ return;
+ }
+
+ var publicKey = elastosjs.getDerivedPublicKey(elastosjs.getMasterPublicKey(seed), change, index);
+ return {
+ privateKey: elastosjs.getDerivedPrivateKey(seed, coin, account, change, index),
+ publicKey: publicKey,
+ address: elastosjs.getAddress(publicKey.toString('hex'))
+ };
+ }
+ // ELA - Elastos functions - end
+
init();
})();