bitmessage-js/lib/address.js
Kagami Hiiragi a47563ee8c Typo fixes
2014-12-28 00:04:23 +03:00

271 lines
7.4 KiB
JavaScript

/**
* Working with Bitmessage addresses.
* @module bitmessage/address
*/
"use strict";
require("es6-promise").polyfill();
var assert = require("assert");
var bufferEqual = require("buffer-equal");
var bs58 = require("bs58");
var varint = require("./varint");
var bmcrypto = require("./crypto");
/**
* Parse Bitmessage address into address object.
* @param {String} str - Address string (with or without `BM-` prefix)
* @return {Promise.<Address,Error>} Decoded address object
*/
exports.decode = function(str) {
str = str.trim();
if (str.slice(0, 3) === "BM-") {
str = str.slice(3);
}
var bytes;
try {
bytes = bs58.decode(str);
} catch(e) {
return Promise.reject(e);
}
// Checksum validating.
var data = new Buffer(bytes.slice(0, -4));
var checksum = new Buffer(bytes.slice(-4));
return getchecksum(data).then(function(realchecksum) {
assert(bufferEqual(checksum, realchecksum), "Bad checkum");
var decoded = varint.decode(data);
var version = decoded.value;
assertversion(version);
data = decoded.rest;
decoded = varint.decode(data);
var stream = decoded.value;
assertstream(stream);
var ripe = decoded.rest;
var ripelen = ripe.length;
assertripelen(ripelen, version);
if (version === 4) {
assert(ripe[0] !== 0, "Ripe decode error");
}
// Prevent extra allocation. God, kill me please for premature
// optimizations.
if (ripelen < 20) {
var zeroes = new Buffer(Array(20 - ripelen));
ripe = Buffer.concat([zeroes, ripe]);
}
return {version: version, stream: stream, ripe: ripe};
});
};
// Compute the Bitmessage checksum for the given data.
function getchecksum(data) {
return bmcrypto.sha512(data).then(bmcrypto.sha512).then(function(dhash) {
return dhash.slice(0, 4);
});
}
// Get RIPEMD160(SHA512(SIGN_PUBLIC_KEY || ENC_PUBLIC_KEY)).
// Arguments could be either private or public keys. Private keys are
// **always** 32 bytes in length.
function keys2ripe(signKey, encKey) {
var signPublicKey, encPublicKey;
if (signKey.length === 32) {
signPublicKey = bmcrypto.getPublic(signKey);
} else {
signPublicKey = signKey;
}
if (encKey.length === 32) {
encPublicKey = bmcrypto.getPublic(encKey);
} else {
encPublicKey = encKey;
}
var concat = Buffer.concat([signPublicKey, encPublicKey]);
return bmcrypto.sha512(concat).then(bmcrypto.ripemd160);
}
/**
* Get Ripe hash for the given address object.
* @param {Address} addr - Address object
* @param {?Object} opts - Options
* @return {Buffer} Resulting Ripe hash.
*/
function getRipe(addr, opts) {
var signKey = addr.signPrivateKey || addr.signPublicKey;
assert(signKey, "No signing key");
var encKey = addr.encPrivateKey || addr.encPublicKey;
assert(encKey, "No encryption key");
opts = opts || {};
return keys2ripe(signKey, encKey).then(function(ripe) {
if (opts.short) {
var ripelen = getripelen(ripe);
return ripe.slice(20 - ripelen);
} else {
return ripe;
}
});
}
exports.getRipe = getRipe;
// Do neccessary checkings of the address version.
function assertversion(version) {
assert(version <= 4, "Version too high");
assert(version >= 1, "Version too low");
}
// Do neccessary checkings of the stream number.
function assertstream(stream) {
assert(stream, "No stream");
}
// Get truncated Ripe hash length.
function getripelen(ripe) {
var zeroes = 0;
for (var i = 0; i < 20, ripe[i] === 0; i++) {
zeroes++;
}
return 20 - zeroes;
}
// Do neccessary checkings of the truncated Ripe hash length depending
// on the address version.
function assertripelen(ripelen, version) {
switch (version) {
case 1:
assert(ripelen === 20, "Bad ripe length");
break;
case 2:
case 3:
assert(ripelen >= 18, "Ripe too short");
assert(ripelen <= 20, "Ripe too long");
break;
case 4:
assert(ripelen >= 4, "Ripe too short");
assert(ripelen <= 20, "Ripe too long");
break;
default:
throw new Error("Wrong version");
}
}
// The same as `assertripelen` but return boolean instead of thrown an
// Error.
function checkripelen(ripelen, version) {
try {
assertripelen(ripelen, version);
return true;
} catch(e) {
return false;
}
}
/**
* Encode Bitmessage address object into address string.
* @param {Address} addr - Address object
* @return {Promise.<string,Error>} Address string
*/
exports.encode = function(addr) {
var version, stream, ripepromise;
try {
version = addr.version;
assertversion(version);
stream = addr.stream;
assertstream(stream);
if (addr.ripe) {
ripepromise = Promise.resolve(addr.ripe);
} else {
ripepromise = getRipe(addr);
}
} catch (e) {
return Promise.reject(e);
}
return ripepromise.then(function(ripe) {
var ripelen = getripelen(ripe);
assertripelen(ripelen, version);
// Skip leading zeroes.
ripe = ripe.slice(20 - ripelen);
var data = Buffer.concat([
varint.encode(version),
varint.encode(stream),
ripe,
]);
return getchecksum(data).then(function(checksum) {
var addr = Buffer.concat([data, checksum]);
return "BM-" + bs58.encode(addr);
});
});
};
/**
* Create new Bitmessage address using random encryption and signing
* private keys.
* @param {?Object} opts - Address options
* @return {Promise.<Address,Error>} Generated address object
*/
exports.getRandom = function(opts) {
var version, stream, ripelen, signPrivateKey;
opts = opts || {};
try {
version = opts.version || 4;
assertversion(version);
stream = opts.stream || 1;
assertstream(version);
ripelen = opts.ripelen || 19;
assertripelen(ripelen, version);
// Place it to try-catch since there might be not enough entropy to
// generate the key and the function will fail.
signPrivateKey = bmcrypto.getPrivate();
} catch(e) {
return Promise.reject(e);
}
// Should the generated Ripe length be strictly equal to the specified
// (less-or-equal by default);
var strictripelen = !!opts.strictripelen;
var nextTick = typeof setImmediate === "undefined" ?
process.nextTick :
setImmediate;
var signPublicKey = bmcrypto.getPublic(signPrivateKey);
// FIXME(Kagami): This function is rather slow in browsers so
// generation of ripelen=18 currently is disabled (see `test.js`). It
// should be heavilty profiled to determine the bottleneck.
// TODO(Kagami): We may want to run this in the web worker to speedup
// the search. Currently WebCryptoAPI is not available in Firefox in
// web workers (see
// <https://bugzilla.mozilla.org/show_bug.cgi?id=842818>) but is
// available in Chrome (at least in 39.0+).
return new Promise(function(resolve, reject) {
function tryKey() {
var encPrivateKey;
try {
encPrivateKey = bmcrypto.getPrivate();
} catch(e) {
reject(e);
}
return keys2ripe(signPublicKey, encPrivateKey).then(function(ripe) {
var len = getripelen(ripe);
if (
(strictripelen && len === ripelen) ||
(!strictripelen && len <= ripelen && checkripelen(ripelen, version))
) {
resolve({
version: version,
stream: stream,
signPrivateKey: signPrivateKey,
encPrivateKey: encPrivateKey,
});
} else {
nextTick(tryKey);
}
}).catch(reject);
}
tryKey();
});
};