Initial update for the bitmessage-js package #1

Merged
PeterSurda merged 15 commits from lee.miller/bitmessage-js:mac into master 2024-03-08 01:55:30 +01:00
20 changed files with 294 additions and 241 deletions

14
.buildbot/node/Dockerfile Normal file
View File

@ -0,0 +1,14 @@
FROM node:18-bullseye
RUN apt-get update
RUN apt-get install -yq --no-install-suggests --no-install-recommends \
xauth xvfb chromium firefox-esr
WORKDIR /app
ADD src ./src
COPY package*.json binding.gyp ./
RUN npm install
# RUN npm audit fix
COPY . .

6
.buildbot/node/build.sh Normal file
View File

@ -0,0 +1,6 @@
#!/bin/sh
mkdir -p ../out
cp package*.json ../out
npm pack
mv *.tgz ../out/

3
.buildbot/node/test.sh Executable file
View File

@ -0,0 +1,3 @@
#!/bin/sh
npm test

View File

@ -0,0 +1,18 @@
name: Testing
on: [push]
jobs:
default:
runs-on: ubuntu-latest
steps:
- name: Install dependencies
run: |
apt-get update
apt-get install -yq --no-install-suggests --no-install-recommends \
xauth xvfb chromium firefox-esr
- name: Check out repository code
uses: actions/checkout@v3
- name: Install
run: npm install
- name: Run tests
run: npm test

View File

@ -11,7 +11,7 @@ API documentation is available [here](https://bitchan.github.io/bitmessage/docs/
## References ## References
* [Bitmessage wiki](https://bitmessage.org/wiki/Main_Page) * [Bitmessage wiki](https://bitmessage.org/wiki/Main_Page)
* [Protocol specification](https://bitmessage.org/wiki/Protocol_specification) * [Protocol specification](https://pybitmessage.rtfd.io/en/v0.6/protocol.html)
* [Whitepaper](https://bitmessage.org/bitmessage.pdf) * [Whitepaper](https://bitmessage.org/bitmessage.pdf)
## Feature matrix ## Feature matrix
@ -51,7 +51,7 @@ API documentation is available [here](https://bitchan.github.io/bitmessage/docs/
- [x] POW - [x] POW
- [x] High-level classes - [x] High-level classes
- [x] Address - [x] Address
- [x] UserAgent - [ ] UserAgent
- [ ] PyBitmessage configs parsing - [ ] PyBitmessage configs parsing
- [ ] keys.dat - [ ] keys.dat
- [ ] knownnodes.dat - [ ] knownnodes.dat

3
docker-test.sh Executable file
View File

@ -0,0 +1,3 @@
#!/bin/sh
docker build --tag bitmessage-js -f .buildbot/node/Dockerfile .
docker run -it --rm bitmessage-js:latest .buildbot/node/test.sh

View File

@ -1,4 +1,4 @@
process.env.CHROME_BIN = "chromium-browser"; process.env.CHROME_BIN = "/usr/bin/chromium";
var allTests = process.env.ALL_TESTS === "1"; var allTests = process.env.ALL_TESTS === "1";
module.exports = function(config) { module.exports = function(config) {

View File

@ -48,7 +48,7 @@ exports.readTime64BE = function(buf, offset) {
}; };
function writeUInt64BE(buf, value, offset, noAssert) { function writeUInt64BE(buf, value, offset, noAssert) {
buf = buf || new Buffer(8); buf = buf || Buffer.alloc(8);
offset = offset || 0; offset = offset || 0;
assert(noAssert || value <= MAX_SAFE_INTEGER, "Unsafe integer"); assert(noAssert || value <= MAX_SAFE_INTEGER, "Unsafe integer");
buf.writeUInt32BE(Math.floor(value / 4294967296), offset, noAssert); buf.writeUInt32BE(Math.floor(value / 4294967296), offset, noAssert);
@ -96,12 +96,12 @@ exports.popkey = function(obj, key) {
}; };
// See https://en.wikipedia.org/wiki/IPv6#IPv4-mapped_IPv6_addresses // See https://en.wikipedia.org/wiki/IPv6#IPv4-mapped_IPv6_addresses
var IPv4_MAPPING = new Buffer([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 255, 255]); var IPv4_MAPPING = Buffer.from("00000000000000000000ffff", "hex");
exports.IPv4_MAPPING = IPv4_MAPPING; exports.IPv4_MAPPING = IPv4_MAPPING;
// Very simple inet_pton(3) equivalent. // Very simple inet_pton(3) equivalent.
exports.inet_pton = function(str) { exports.inet_pton = function(str) {
var buf = new Buffer(16); var buf = Buffer.alloc(16);
buf.fill(0); buf.fill(0);
// IPv4-mapped IPv6. // IPv4-mapped IPv6.
if (str.slice(0, 7) === "::ffff:") { if (str.slice(0, 7) === "::ffff:") {

View File

@ -11,7 +11,7 @@
* // Or create it from passphrase. * // Or create it from passphrase.
* var addr2 = Address.fromPassphrase("test"); * var addr2 = Address.fromPassphrase("test");
* console.log("Deterministic Bitmessage address:", addr2.encode()); * console.log("Deterministic Bitmessage address:", addr2.encode());
* @see {@link https://bitmessage.org/wiki/Address} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/address.html}
* @module bitmessage/address * @module bitmessage/address
*/ */
// TODO(Kagami): Document getters/setters. // TODO(Kagami): Document getters/setters.
@ -96,8 +96,8 @@ Address.decode = function(str) {
} }
var bytes = bs58.decode(str); var bytes = bs58.decode(str);
var data = new Buffer(bytes.slice(0, -4)); var data = Buffer.from(bytes.slice(0, -4));
var checksum = new Buffer(bytes.slice(-4)); var checksum = Buffer.from(bytes.slice(-4));
assert(bufferEqual(checksum, getaddrchecksum(data)), "Bad checkum"); assert(bufferEqual(checksum, getaddrchecksum(data)), "Bad checkum");
var decoded = var_int.decode(data); var decoded = var_int.decode(data);
@ -269,7 +269,7 @@ Address.fromRandom = function(opts) {
var encPrivateKey, encPublicKey, ripe, len; var encPrivateKey, encPublicKey, ripe, len;
var signPrivateKey = bmcrypto.getPrivate(); var signPrivateKey = bmcrypto.getPrivate();
var signPublicKey = bmcrypto.getPublic(signPrivateKey); var signPublicKey = bmcrypto.getPublic(signPrivateKey);
var keysbuf = new Buffer(130); var keysbuf = Buffer.alloc(130);
signPublicKey.copy(keysbuf); signPublicKey.copy(keysbuf);
while (true) { while (true) {
encPrivateKey = bmcrypto.getPrivate(); encPrivateKey = bmcrypto.getPrivate();
@ -313,9 +313,9 @@ Address.fromPassphrase = function(opts) {
var ripe, len, tmp; var ripe, len, tmp;
var signnonce = 0; var signnonce = 0;
var encnonce = 1; var encnonce = 1;
var keysbuf = new Buffer(130); var keysbuf = Buffer.alloc(130);
// XXX(Kagami): Spec doesn't mention encoding, using UTF-8. // XXX(Kagami): Spec doesn't mention encoding, using UTF-8.
var phrasebuf = new Buffer(passphrase, "utf8"); var phrasebuf = Buffer.from(passphrase, "utf8");
while (true) { while (true) {
// TODO(Kagami): We may slightly optimize it and pre-create tmp // TODO(Kagami): We may slightly optimize it and pre-create tmp
// buffers based on the encoded nonce size (1, 3, 5 and 9 bytes). // buffers based on the encoded nonce size (1, 3, 5 and 9 bytes).
@ -409,7 +409,7 @@ Object.defineProperty(Address.prototype, "ripe", {
set: function(ripe) { set: function(ripe) {
assertripelen(getripelen(ripe), this.version, ripe); assertripelen(getripelen(ripe), this.version, ripe);
if (ripe.length < 20) { if (ripe.length < 20) {
var fullripe = new Buffer(20); var fullripe = Buffer.alloc(20);
fullripe.fill(0); fullripe.fill(0);
ripe.copy(fullripe, 20 - ripe.length); ripe.copy(fullripe, 20 - ripe.length);
ripe = fullripe; ripe = fullripe;

View File

@ -104,17 +104,15 @@ var encrypted = exports.encrypted = {
assert(buf.readUInt16BE(16, true) === SECP256K1_TYPE, "Bad curve type"); assert(buf.readUInt16BE(16, true) === SECP256K1_TYPE, "Bad curve type");
assert(buf.readUInt16BE(18, true) === 32, "Bad Rx length"); assert(buf.readUInt16BE(18, true) === 32, "Bad Rx length");
assert(buf.readUInt16BE(52, true) === 32, "Bad Ry length"); assert(buf.readUInt16BE(52, true) === 32, "Bad Ry length");
var iv = new Buffer(16); var iv = Buffer.alloc(16);
buf.copy(iv, 0, 0, 16); buf.copy(iv, 0, 0, 16);
var ephemPublicKey = new Buffer(65); var ephemPublicKey = Buffer.alloc(70);
ephemPublicKey[0] = 0x04; buf.copy(ephemPublicKey, 0, 16, 86);
buf.copy(ephemPublicKey, 1, 20, 52);
buf.copy(ephemPublicKey, 33, 54, 86);
// NOTE(Kagami): We do copy instead of slice to protect against // NOTE(Kagami): We do copy instead of slice to protect against
// possible source buffer modification by user. // possible source buffer modification by user.
var ciphertext = new Buffer(buf.length - 118); var ciphertext = Buffer.alloc(buf.length - 118);
buf.copy(ciphertext, 0, 86, buf.length - 32); buf.copy(ciphertext, 0, 86, buf.length - 32);
var mac = new Buffer(32); var mac = Buffer.alloc(32);
buf.copy(mac, 0, buf.length - 32); buf.copy(mac, 0, buf.length - 32);
return { return {
iv: iv, iv: iv,
@ -126,19 +124,13 @@ var encrypted = exports.encrypted = {
encode: function(opts) { encode: function(opts) {
assert(opts.iv.length === 16, "Bad IV"); assert(opts.iv.length === 16, "Bad IV");
assert(opts.ephemPublicKey.length === 65, "Bad public key"); assert(opts.ephemPublicKey.length === 70, "Bad public key");
assert(
opts.ephemPublicKey.readUInt16BE(0, true) === SECP256K1_TYPE,
"Bad curve type");
assert(opts.mac.length === 32, "Bad MAC"); assert(opts.mac.length === 32, "Bad MAC");
// 16 + 2 + 2 + 32 + 2 + 32 + ? + 32 return Buffer.concat(
var buf = new Buffer(118 + opts.ciphertext.length); [opts.iv, opts.ephemPublicKey, opts.ciphertext, opts.mac]);
opts.iv.copy(buf);
buf.writeUInt16BE(SECP256K1_TYPE, 16, true); // Curve type
buf.writeUInt16BE(32, 18, true); // Rx length
opts.ephemPublicKey.copy(buf, 20, 1, 33); // Rx
buf.writeUInt16BE(32, 52, true); // Ry length
opts.ephemPublicKey.copy(buf, 54, 33); // Ry
opts.ciphertext.copy(buf, 86);
opts.mac.copy(buf, 86 + opts.ciphertext.length);
return buf;
}, },
}; };

View File

@ -1,8 +1,7 @@
/** /**
* Working with messages. * Working with messages.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Message_types} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#message-types}
* @see {@link https://bitmessage.org/wiki/Protocol_specification_v3#Message_types} * @see {@link https://wiki.bitmessage.org/w/index.php?title=Protocol_specification&oldid=23#Message_types}
* @see {@link https://bitmessage.org/Bitmessage%20Technical%20Paper.pdf}
* @module bitmessage/messages * @module bitmessage/messages
* @example * @example
* var structs = require("bitmessage").structs; * var structs = require("bitmessage").structs;
@ -30,6 +29,8 @@
* console.log(structs.message.decode(verackmsg).command); // verack * console.log(structs.message.decode(verackmsg).command); // verack
*/ */
// broken link: https://bitmessage.org/Bitmessage%20Technical%20Paper.pdf
"use strict"; "use strict";
var objectAssign = Object.assign || require("object-assign"); var objectAssign = Object.assign || require("object-assign");
@ -71,7 +72,7 @@ exports.getCommand = function(buf) {
/** /**
* `version` message. * `version` message.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#version} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#version}
* @namespace * @namespace
* @static * @static
*/ */
@ -133,7 +134,7 @@ var version = exports.version = {
var short = {short: true}; var short = {short: true};
var addrRecv = structs.net_addr.decode(buf.slice(20, 46), short); var addrRecv = structs.net_addr.decode(buf.slice(20, 46), short);
var addrFrom = structs.net_addr.decode(buf.slice(46, 72), short); var addrFrom = structs.net_addr.decode(buf.slice(46, 72), short);
var nonce = new Buffer(8); var nonce = Buffer.alloc(8);
buf.copy(nonce, 0, 72, 80); buf.copy(nonce, 0, 72, 80);
var decodedUa = UserAgent.decode(buf.slice(80)); var decodedUa = UserAgent.decode(buf.slice(80));
assert(decodedUa.length <= 5000, "User agent is too long"); assert(decodedUa.length <= 5000, "User agent is too long");
@ -202,7 +203,7 @@ var version = exports.version = {
var streams = opts.streams || [1]; var streams = opts.streams || [1];
assert(streams.length <= 160000, "Too many streams"); assert(streams.length <= 160000, "Too many streams");
// Start encoding. // Start encoding.
var protoVersion = new Buffer(4); var protoVersion = Buffer.alloc(4);
protoVersion.writeUInt32BE(util.PROTOCOL_VERSION, 0); protoVersion.writeUInt32BE(util.PROTOCOL_VERSION, 0);
var addrRecv = structs.net_addr.encode({ var addrRecv = structs.net_addr.encode({
services: services, services: services,
@ -229,9 +230,7 @@ var version = exports.version = {
}, },
}; };
var IPv6_LOOPBACK = new Buffer( var IPv6_LOOPBACK = Buffer.from("00000000000000000000000000000001", "hex");
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1]
);
// Check whether given encoded IPv6 or IPv4-mapped IPv6 is in private // Check whether given encoded IPv6 or IPv4-mapped IPv6 is in private
// network range. See // network range. See
@ -279,7 +278,7 @@ function checkAddrOpts(opts) {
/** /**
* `addr` message. Provide information on known nodes of the network. * `addr` message. Provide information on known nodes of the network.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#addr} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#addr}
* @namespace * @namespace
* @static * @static
*/ */
@ -359,7 +358,7 @@ var addr = exports.addr = {
/** /**
* `inv` message. Allows a node to advertise its knowledge of one or * `inv` message. Allows a node to advertise its knowledge of one or
* more objects. * more objects.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#inv} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#inv}
* @namespace * @namespace
* @static * @static
*/ */
@ -433,7 +432,7 @@ var inv = exports.inv = {
* `getdata` message. `getdata` is used in response to an * `getdata` message. `getdata` is used in response to an
* [inv]{@link module:bitmessage/messages.inv} message to retrieve the * [inv]{@link module:bitmessage/messages.inv} message to retrieve the
* content of a specific object after filtering known elements. * content of a specific object after filtering known elements.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#getdata} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#getdata}
* @namespace * @namespace
*/ */
exports.getdata = objectAssign({}, inv, { exports.getdata = objectAssign({}, inv, {
@ -566,7 +565,7 @@ var error = exports.error = {
assert(rest.length >= vectorLength, "Buffer is too small"); assert(rest.length >= vectorLength, "Buffer is too small");
var vector = null; var vector = null;
if (vectorLength) { if (vectorLength) {
vector = new Buffer(vectorLength); vector = Buffer.alloc(vectorLength);
rest.copy(vector); rest.copy(vector);
rest = rest.slice(vectorLength); rest = rest.slice(vectorLength);
} }
@ -616,7 +615,7 @@ var error = exports.error = {
var type = opts.type || error.WARNING; var type = opts.type || error.WARNING;
var banTime = opts.banTime || 0; var banTime = opts.banTime || 0;
// TODO(Kagami): Validate vector length. // TODO(Kagami): Validate vector length.
var vector = opts.vector || new Buffer(0); var vector = opts.vector || Buffer.alloc(0);
return Buffer.concat([ return Buffer.concat([
structs.var_int.encode(type), structs.var_int.encode(type),
structs.var_int.encode(banTime), structs.var_int.encode(banTime),

View File

@ -2,7 +2,7 @@
* Working with objects. * Working with objects.
* NOTE: Most operations with objects are asynchronous and return * NOTE: Most operations with objects are asynchronous and return
* promises. * promises.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Object_types} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#object-types}
* @module bitmessage/objects * @module bitmessage/objects
*/ */
@ -61,7 +61,7 @@ function prependNonce(obj, opts) {
opts = objectAssign({}, opts); opts = objectAssign({}, opts);
var nonce, target, powp; var nonce, target, powp;
if (opts.skipPow) { if (opts.skipPow) {
nonce = new Buffer(8); nonce = Buffer.alloc(8);
nonce.fill(0); nonce.fill(0);
resolve(Buffer.concat([nonce, obj])); resolve(Buffer.concat([nonce, obj]));
} else { } else {
@ -71,7 +71,7 @@ function prependNonce(obj, opts) {
.then(function(nonce) { .then(function(nonce) {
// TODO(Kagami): We may want to receive nonce as a Buffer from // TODO(Kagami): We may want to receive nonce as a Buffer from
// POW module to skip conversion step. // POW module to skip conversion step.
var payload = new Buffer(opts.payloadLength); var payload = Buffer.alloc(opts.payloadLength);
util.writeUInt64BE(payload, nonce, 0, true); util.writeUInt64BE(payload, nonce, 0, true);
obj.copy(payload, 8); obj.copy(payload, 8);
return payload; return payload;
@ -85,7 +85,7 @@ function prependNonce(obj, opts) {
* `getpubkey` object. When a node has the hash of a public key (from an * `getpubkey` object. When a node has the hash of a public key (from an
* address) but not the public key itself, it must send out a request * address) but not the public key itself, it must send out a request
* for the public key. * for the public key.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#getpubkey} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#getpubkey}
* @namespace * @namespace
* @static * @static
*/ */
@ -193,10 +193,10 @@ function extractPubkey(buf) {
// We assume here that input buffer was copied before so it's safe to // We assume here that input buffer was copied before so it's safe to
// return reference to it. // return reference to it.
decoded.behavior = PubkeyBitfield(buf.slice(0, 4)); decoded.behavior = PubkeyBitfield(buf.slice(0, 4));
var signPublicKey = decoded.signPublicKey = new Buffer(65); var signPublicKey = decoded.signPublicKey = Buffer.alloc(65);
signPublicKey[0] = 4; signPublicKey[0] = 4;
buf.copy(signPublicKey, 1, 4, 68); buf.copy(signPublicKey, 1, 4, 68);
var encPublicKey = decoded.encPublicKey = new Buffer(65); var encPublicKey = decoded.encPublicKey = Buffer.alloc(65);
encPublicKey[0] = 4; encPublicKey[0] = 4;
buf.copy(encPublicKey, 1, 68, 132); buf.copy(encPublicKey, 1, 68, 132);
return decoded; return decoded;
@ -246,7 +246,7 @@ function findAddrByTag(addrs, tag) {
/** /**
* `pubkey` object. * `pubkey` object.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#pubkey} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#pubkey}
* @namespace * @namespace
* @static * @static
*/ */
@ -509,20 +509,20 @@ function encodeMessage(opts) {
var subject = opts.subject; var subject = opts.subject;
if (encoding === msg.IGNORE && !message) { if (encoding === msg.IGNORE && !message) {
// User may omit message for IGNORE encoding. // User may omit message for IGNORE encoding.
message = new Buffer(0); message = Buffer.alloc(0);
} else if (!Buffer.isBuffer(message)) { } else if (!Buffer.isBuffer(message)) {
// User may specify message as a string. // User may specify message as a string.
message = new Buffer(message, "utf8"); message = Buffer.from(message, "utf8");
} }
if (encoding === msg.SIMPLE && subject) { if (encoding === msg.SIMPLE && subject) {
// User may specify subject for SIMPLE encoding. // User may specify subject for SIMPLE encoding.
if (!Buffer.isBuffer(subject)) { if (!Buffer.isBuffer(subject)) {
subject = new Buffer(subject, "utf8"); subject = Buffer.from(subject, "utf8");
} }
message = Buffer.concat([ message = Buffer.concat([
new Buffer("Subject:"), Buffer.from("Subject:"),
subject, subject,
new Buffer("\nBody:"), Buffer.from("\nBody:"),
message, message,
]); ]);
} }
@ -562,7 +562,7 @@ function decodeMessage(message, encoding) {
/** /**
* `msg` object. * `msg` object.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#msg} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#msg}
* @namespace * @namespace
* @static * @static
*/ */
@ -813,7 +813,7 @@ var msg = exports.msg = {
msgData.push(var_int.encode(0)); msgData.push(var_int.encode(0));
// Sign and encrypt. // Sign and encrypt.
opts.objectPayload = new Buffer(0); opts.objectPayload = Buffer.alloc(0);
var obj = object.encodePayloadWithoutNonce(opts); var obj = object.encodePayloadWithoutNonce(opts);
var dataToSign = Buffer.concat([obj].concat(msgData)); var dataToSign = Buffer.concat([obj].concat(msgData));
var msgp = bmcrypto var msgp = bmcrypto
@ -871,7 +871,7 @@ function tryDecryptBroadcastV4(subscriptions, buf) {
/** /**
* `broadcast` object. * `broadcast` object.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#broadcast} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#broadcast}
* @namespace * @namespace
* @static * @static
*/ */
@ -1119,7 +1119,7 @@ var broadcast = exports.broadcast = {
); );
// Sign and encrypt. // Sign and encrypt.
opts.objectPayload = from.version >= 4 ? from.getTag() : new Buffer(0); opts.objectPayload = from.version >= 4 ? from.getTag() : Buffer.alloc(0);
var obj = object.encodePayloadWithoutNonce(opts); var obj = object.encodePayloadWithoutNonce(opts);
var dataToSign = Buffer.concat([obj].concat(broadData)); var dataToSign = Buffer.concat([obj].concat(broadData));
var broadp = bmcrypto var broadp = bmcrypto

View File

@ -1,6 +1,6 @@
/** /**
* Implements proof of work. * Implements proof of work.
* @see {@link https://bitmessage.org/wiki/Proof_of_work} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/pow.html}
* @module bitmessage/pow * @module bitmessage/pow
*/ */
@ -64,7 +64,7 @@ exports.check = function(opts) {
initialHash = bmcrypto.sha512(opts.payload.slice(8)); initialHash = bmcrypto.sha512(opts.payload.slice(8));
} else { } else {
if (typeof opts.nonce === "number") { if (typeof opts.nonce === "number") {
nonce = new Buffer(8); nonce = Buffer.alloc(8);
// High 32 bits. // High 32 bits.
nonce.writeUInt32BE(Math.floor(opts.nonce / 4294967296), 0, true); nonce.writeUInt32BE(Math.floor(opts.nonce / 4294967296), 0, true);
// Low 32 bits. // Low 32 bits.

View File

@ -1,14 +1,14 @@
/** /**
* Implements common structures. * Implements common structures.
* @see {@link * @see {@link
* https://bitmessage.org/wiki/Protocol_specification#Common_structures} * https://pybitmessage.rtfd.io/en/v0.6/protocol.html#common-structures}
* @module bitmessage/structs * @module bitmessage/structs
* @example * @example
* var structs = require("bitmessage").structs; * var structs = require("bitmessage").structs;
* *
* var encoded = Buffer.concat([ * var encoded = Buffer.concat([
* structs.var_int.encode(4), * structs.var_int.encode(4),
* Buffer("test"), * Buffer.from("test"),
* structs.var_str.encode("test2"), * structs.var_str.encode("test2"),
* structs.var_int_list.encode([1, 2, 3]), * structs.var_int_list.encode([1, 2, 3]),
* ]); * ]);
@ -93,7 +93,7 @@ function findMagic(buf) {
/** /**
* Message structure. * Message structure.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Message_structure} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#id1}
* @namespace * @namespace
* @static * @static
*/ */
@ -137,12 +137,12 @@ var message = exports.message = {
if (mindex !== 0) { if (mindex !== 0) {
if (mindex === -1) { if (mindex === -1) {
res.error = new Error("Magic not found, skipping buffer data"); res.error = new Error("Magic not found, skipping buffer data");
res.rest = new Buffer(0); res.rest = Buffer.alloc(0);
} else { } else {
res.error = new Error( res.error = new Error(
"Magic in the middle of buffer, skipping some data at start" "Magic in the middle of buffer, skipping some data at start"
); );
res.rest = new Buffer(buf.length - mindex); res.rest = Buffer.alloc(buf.length - mindex);
buf.copy(res.rest, 0, mindex); buf.copy(res.rest, 0, mindex);
} }
return res; return res;
@ -155,10 +155,10 @@ var message = exports.message = {
if (payloadLength > 1600003) { if (payloadLength > 1600003) {
res.error = new Error("Message is too large, skipping it"); res.error = new Error("Message is too large, skipping it");
if (buf.length > msgLength) { if (buf.length > msgLength) {
res.rest = new Buffer(buf.length - msgLength); res.rest = Buffer.alloc(buf.length - msgLength);
buf.copy(res.rest, 0, msgLength); buf.copy(res.rest, 0, msgLength);
} else { } else {
res.rest = new Buffer(0); res.rest = Buffer.alloc(0);
} }
return res; return res;
} }
@ -169,7 +169,7 @@ var message = exports.message = {
} }
// Now we can set `rest` value. // Now we can set `rest` value.
res.rest = new Buffer(buf.length - msgLength); res.rest = Buffer.alloc(buf.length - msgLength);
buf.copy(res.rest, 0, msgLength); buf.copy(res.rest, 0, msgLength);
// Command. // Command.
@ -190,7 +190,7 @@ var message = exports.message = {
command = command.slice(0, firstNonNull).toString("ascii"); command = command.slice(0, firstNonNull).toString("ascii");
// Payload. // Payload.
var payload = new Buffer(payloadLength); var payload = Buffer.alloc(payloadLength);
buf.copy(payload, 0, 24, msgLength); buf.copy(payload, 0, 24, msgLength);
var checksum = buf.slice(20, 24); var checksum = buf.slice(20, 24);
if (!bufferEqual(checksum, getmsgchecksum(payload))) { if (!bufferEqual(checksum, getmsgchecksum(payload))) {
@ -241,7 +241,7 @@ var message = exports.message = {
var checksum = buf.slice(20, 24); var checksum = buf.slice(20, 24);
// NOTE(Kagami): We do copy instead of slice to protect against // NOTE(Kagami): We do copy instead of slice to protect against
// possible source buffer modification by user. // possible source buffer modification by user.
var payload = new Buffer(payloadLength); var payload = Buffer.alloc(payloadLength);
buf.copy(payload, 0, 24, length); buf.copy(payload, 0, 24, length);
assert(bufferEqual(checksum, getmsgchecksum(payload)), "Bad checksum"); assert(bufferEqual(checksum, getmsgchecksum(payload)), "Bad checksum");
var rest = buf.slice(length); var rest = buf.slice(length);
@ -257,9 +257,9 @@ var message = exports.message = {
encode: function(command, payload) { encode: function(command, payload) {
assert(command.length <= 12, "Command is too long"); assert(command.length <= 12, "Command is too long");
assert(isAscii(command), "Non-ASCII characters in command"); assert(isAscii(command), "Non-ASCII characters in command");
payload = payload || new Buffer(0); payload = payload || Buffer.alloc(0);
assert(payload.length <= 1600003, "Message payload is too big"); assert(payload.length <= 1600003, "Message payload is too big");
var buf = new Buffer(24 + payload.length); var buf = Buffer.alloc(24 + payload.length);
buf.fill(0); buf.fill(0);
buf.writeUInt32BE(message.MAGIC, 0, true); buf.writeUInt32BE(message.MAGIC, 0, true);
buf.write(command, 4); buf.write(command, 4);
@ -274,7 +274,7 @@ var message = exports.message = {
* An `object` is a message which is shared throughout a stream. It is * An `object` is a message which is shared throughout a stream. It is
* the only message which propagates; all others are only between two * the only message which propagates; all others are only between two
* nodes. * nodes.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#object} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#object}
* @namespace * @namespace
* @static * @static
*/ */
@ -342,7 +342,7 @@ var object = exports.object = {
assert(buf.length <= 262144, "object message payload is too big"); assert(buf.length <= 262144, "object message payload is too big");
var nonce; var nonce;
if (!opts._validate) { if (!opts._validate) {
nonce = new Buffer(8); nonce = Buffer.alloc(8);
buf.copy(nonce, 0, 0, 8); buf.copy(nonce, 0, 0, 8);
} }
@ -371,7 +371,7 @@ var object = exports.object = {
if (opts._validate) { return {stream: decodedStream.value}; } if (opts._validate) { return {stream: decodedStream.value}; }
var objectPayload = new Buffer(decodedStream.rest.length); var objectPayload = Buffer.alloc(decodedStream.rest.length);
decodedStream.rest.copy(objectPayload); decodedStream.rest.copy(objectPayload);
return { return {
@ -482,7 +482,7 @@ var object = exports.object = {
assert(opts.ttl > 0, "Bad TTL"); assert(opts.ttl > 0, "Bad TTL");
assert(opts.ttl <= 2430000, "TTL may not be larger than 28 days + 3 hours"); assert(opts.ttl <= 2430000, "TTL may not be larger than 28 days + 3 hours");
var expiresTime = util.tnow() + opts.ttl; var expiresTime = util.tnow() + opts.ttl;
var type = new Buffer(4); var type = Buffer.alloc(4);
type.writeUInt32BE(opts.type, 0); type.writeUInt32BE(opts.type, 0);
var stream = opts.stream || 1; var stream = opts.stream || 1;
var obj = Buffer.concat([ var obj = Buffer.concat([
@ -499,7 +499,7 @@ var object = exports.object = {
/** /**
* Variable length integer. * Variable length integer.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Variable_length_integer} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#variable-length-integer}
* @namespace * @namespace
* @static * @static
*/ */
@ -569,25 +569,26 @@ var var_int = exports.var_int = {
if (typeof value === "number") { if (typeof value === "number") {
assert(value >= 0, "Value cannot be less than zero"); assert(value >= 0, "Value cannot be less than zero");
if (value < 253) { if (value < 253) {
buf = new Buffer([value]); buf = Buffer.alloc(1);
buf[0] = value;
} else if (value < 65536) { } else if (value < 65536) {
buf = new Buffer(3); buf = Buffer.alloc(3);
buf[0] = 253; buf[0] = 253;
buf.writeUInt16BE(value, 1, true); buf.writeUInt16BE(value, 1, true);
} else if (value < 4294967296) { } else if (value < 4294967296) {
buf = new Buffer(5); buf = Buffer.alloc(5);
buf[0] = 254; buf[0] = 254;
buf.writeUInt32BE(value, 1, true); buf.writeUInt32BE(value, 1, true);
} else { } else {
assert(value <= 9007199254740991, "Unsafe integer"); assert(value <= 9007199254740991, "Unsafe integer");
buf = new Buffer(9); buf = Buffer.alloc(9);
buf[0] = 255; buf[0] = 255;
buf.writeUInt32BE(Math.floor(value / 4294967296), 1, true); // high32 buf.writeUInt32BE(Math.floor(value / 4294967296), 1, true); // high32
buf.writeUInt32BE(value % 4294967296, 5, true); // low32 buf.writeUInt32BE(value % 4294967296, 5, true); // low32
} }
} else if (Buffer.isBuffer(value)) { } else if (Buffer.isBuffer(value)) {
assert(value.length <= 8, "Buffer is too big"); assert(value.length <= 8, "Buffer is too big");
buf = new Buffer(9); buf = Buffer.alloc(9);
buf.fill(0); buf.fill(0);
buf[0] = 255; buf[0] = 255;
targetStart = 1 + (8 - value.length); targetStart = 1 + (8 - value.length);
@ -601,7 +602,7 @@ var var_int = exports.var_int = {
/** /**
* Variable length string. * Variable length string.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Variable_length_string} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#variable-length-string}
* @namespace * @namespace
*/ */
exports.var_str = { exports.var_str = {
@ -638,14 +639,14 @@ exports.var_str = {
*/ */
encode: function(str) { encode: function(str) {
// XXX(Kagami): Spec doesn't mention encoding, using UTF-8. // XXX(Kagami): Spec doesn't mention encoding, using UTF-8.
var strBuf = new Buffer(str, "utf8"); var strBuf = Buffer.from(str, "utf8");
return Buffer.concat([var_int.encode(strBuf.length), strBuf]); return Buffer.concat([var_int.encode(strBuf.length), strBuf]);
}, },
}; };
/** /**
* Variable length list of integers. * Variable length list of integers.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Variable_length_list_of_integers} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#variable-length-list-of-integers}
* @namespace * @namespace
*/ */
exports.var_int_list = { exports.var_int_list = {
@ -711,7 +712,7 @@ function inet_ntop(buf) {
/** /**
* Network address. * Network address.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Network_address} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#network-address}
* @namespace * @namespace
*/ */
exports.net_addr = { exports.net_addr = {
@ -785,10 +786,10 @@ exports.net_addr = {
// old browsers). So we use offset instead of `buf = buf.slice`. // old browsers). So we use offset instead of `buf = buf.slice`.
var buf, shift; var buf, shift;
if (opts.short) { if (opts.short) {
buf = new Buffer(26); buf = Buffer.alloc(26);
shift = 0; shift = 0;
} else { } else {
buf = new Buffer(38); buf = Buffer.alloc(38);
var time = opts.time || new Date(); var time = opts.time || new Date();
time = Math.floor(time.getTime() / 1000); time = Math.floor(time.getTime() / 1000);
buf.writeUInt32BE(Math.floor(time / 4294967296), 0, true); // high32 buf.writeUInt32BE(Math.floor(time / 4294967296), 0, true); // high32
@ -813,7 +814,7 @@ exports.net_addr = {
/** /**
* Inventory vector. * Inventory vector.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Inventory_Vectors} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#inventory-vectors}
* @namespace * @namespace
*/ */
exports.inv_vect = { exports.inv_vect = {
@ -832,7 +833,7 @@ exports.inv_vect = {
/** /**
* Encrypted payload. * Encrypted payload.
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Encrypted_payload} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#encrypted-payload}
* @namespace encrypted * @namespace encrypted
* @static * @static
*/ */
@ -883,13 +884,13 @@ var Bitfield = function(size) {
if (buf) { if (buf) {
assert(buf.length === bytesize, "Bad buffer size"); assert(buf.length === bytesize, "Bad buffer size");
if (opts.copy) { if (opts.copy) {
var dup = new Buffer(bytesize); var dup = Buffer.alloc(bytesize);
dup.fill(0); dup.fill(0);
buf.copy(dup); buf.copy(dup);
buf = dup; buf = dup;
} }
} else { } else {
buf = new Buffer(bytesize); buf = Buffer.alloc(bytesize);
buf.fill(0); buf.fill(0);
} }
this.buffer = buf; this.buffer = buf;
@ -939,7 +940,7 @@ var Bitfield = function(size) {
/** /**
* Service features bitfield (MSB 0). * Service features bitfield (MSB 0).
* @see {@link https://bitmessage.org/wiki/Protocol_specification#version} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#version}
* @param {Buffer=} buf - A 8-byte bitfield buffer (will be created if * @param {Buffer=} buf - A 8-byte bitfield buffer (will be created if
* not provided or will be copied if `opts.copy` is `true`) * not provided or will be copied if `opts.copy` is `true`)
* @param {Object=} opts - Options * @param {Object=} opts - Options
@ -1005,7 +1006,7 @@ var ServicesBitfield = exports.ServicesBitfield = objectAssign(Bitfield(64), {
/** /**
* Pubkey features bitfield (MSB 0). * Pubkey features bitfield (MSB 0).
* @see {@link https://bitmessage.org/wiki/Protocol_specification#Pubkey_bitfield_features} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/protocol.html#pubkey-bitfield-features}
* @param {Buffer=} buf - A 4-byte bitfield buffer (will be created if * @param {Buffer=} buf - A 4-byte bitfield buffer (will be created if
* not provided or will be copied if `opts.copy` is `true`) * not provided or will be copied if `opts.copy` is `true`)
* @param {Object=} opts - Options * @param {Object=} opts - Options

View File

@ -1,13 +1,13 @@
/** /**
* Working with Bitmessage user agents. * Working with Bitmessage user agents.
* @see {@link https://bitmessage.org/wiki/User_Agent} * @see {@link https://pybitmessage.rtfd.io/en/v0.6/useragent.html}
* @module bitmessage/user-agent * @module bitmessage/user-agent
*/ */
"use strict"; "use strict";
var var_str = require("./structs").var_str; var var_str = require("./structs").var_str;
var BM_NAME = require("../package.json").name; var BM_NAME = require("../package.json").name.replace("@bitmessage/", "");
var BM_VERSION = require("../package.json").version; var BM_VERSION = require("../package.json").version;
/** /**

View File

@ -25,8 +25,8 @@ function getwifchecksum(data) {
exports.decode = function(wif) { exports.decode = function(wif) {
var bytes = bs58.decode(wif); var bytes = bs58.decode(wif);
assert(bytes[0] === 0x80, "Bad WIF"); assert(bytes[0] === 0x80, "Bad WIF");
var data = new Buffer(bytes.slice(0, -4)); var data = Buffer.from(bytes.slice(0, -4));
var checksum = new Buffer(bytes.slice(-4)); var checksum = Buffer.from(bytes.slice(-4));
assert(bufferEqual(checksum, getwifchecksum(data)), "Bad checkum"); assert(bufferEqual(checksum, getwifchecksum(data)), "Bad checkum");
return data.slice(1); return data.slice(1);
}; };
@ -38,7 +38,7 @@ exports.decode = function(wif) {
* @return {string} WIF-encoded private key. * @return {string} WIF-encoded private key.
*/ */
exports.encode = function(privateKey) { exports.encode = function(privateKey) {
var data = Buffer.concat([new Buffer([0x80]), privateKey]); var data = Buffer.concat([Buffer.from([0x80]), privateKey]);
var checksum = getwifchecksum(data); var checksum = getwifchecksum(data);
var bytes = Buffer.concat([data, checksum]); var bytes = Buffer.concat([data, checksum]);
return bs58.encode(bytes); return bs58.encode(bytes);

View File

@ -13,7 +13,7 @@ function sha512(buf) {
function pow(opts) { function pow(opts) {
var nonce = opts.num; var nonce = opts.num;
var poolSize = opts.poolSize; var poolSize = opts.poolSize;
var message = new Buffer(72); var message = Buffer.alloc(72);
message.fill(0); message.fill(0);
Buffer(opts.initialHash).copy(message, 8); Buffer(opts.initialHash).copy(message, 8);
var targetHi = Math.floor(opts.target / 4294967296); var targetHi = Math.floor(opts.target / 4294967296);

View File

@ -1,6 +1,6 @@
{ {
"name": "bitmessage", "name": "@bitmessage/bitmessage",
"version": "0.6.6", "version": "0.6.7",
"description": "JavaScript Bitmessage library", "description": "JavaScript Bitmessage library",
"main": "./lib/index.js", "main": "./lib/index.js",
"browser": { "browser": {
@ -8,7 +8,7 @@
}, },
"scripts": { "scripts": {
"install": "node-gyp rebuild || exit 0", "install": "node-gyp rebuild || exit 0",
"test": "ALL_TESTS=1 mocha && ALL_TESTS=1 xvfb-run -a karma start --browsers Chromium && ALL_TESTS=1 xvfb-run -a karma start --browsers Firefox && jshint .", "test": "ALL_TESTS=1 mocha && xvfb-run -a karma start && jshint .",
"m": "mocha", "m": "mocha",
"kc": "xvfb-run -a karma start --browsers Chromium", "kc": "xvfb-run -a karma start --browsers Chromium",
"kf": "xvfb-run -a karma start --browsers Firefox", "kf": "xvfb-run -a karma start --browsers Firefox",
@ -18,7 +18,7 @@
}, },
"repository": { "repository": {
"type": "git", "type": "git",
"url": "https://github.com/bitchan/bitmessage.git" "url": "https://git.bitmessage.org/Bitmessage/bitmessage-js.git"
}, },
"keywords": [ "keywords": [
"bitmessage", "bitmessage",
@ -29,36 +29,37 @@
"author": "Kagami Hiiragi", "author": "Kagami Hiiragi",
"license": "CC0-1.0", "license": "CC0-1.0",
"bugs": { "bugs": {
"url": "https://github.com/bitchan/bitmessage/issues" "url": "https://git.bitmessage.org/Bitmessage/bitmessage-js/issues"
}, },
"homepage": "https://github.com/bitchan/bitmessage", "homepage": "https://git.bitmessage.org/Bitmessage/bitmessage-js",
"devDependencies": { "devDependencies": {
"chai": "*", "browserify": "16.5.0",
"jsdoc": "^3.3.2", "chai": "~4.3.4",
"jsdoc": "^4.0.2",
"jshint": "*", "jshint": "*",
"karma": "^0.12.31", "karma": "6.4.1",
"karma-browserify": "^2.0.0", "karma-browserify": "8.1.0",
"karma-chrome-launcher": "^0.1.7", "karma-chrome-launcher": "3.1.0",
"karma-cli": "~0.0.4", "karma-cli": "2.0.0",
"karma-env-preprocessor": "^0.1.0", "karma-env-preprocessor": "^0.1.0",
"karma-firefox-launcher": "^0.1.4", "karma-firefox-launcher": "1.2.0",
"karma-mocha": "^0.1.10", "karma-mocha": "2.0.1",
"karma-mocha-reporter": "^0.3.1", "karma-mocha-reporter": "2.2.5",
"mocha": "*" "mocha": "*"
}, },
"dependencies": { "dependencies": {
"bn.js": "^3.0.1", "bn.js": "^3.0.1",
"bs58": "^2.0.0", "bs58": "^2.0.0",
"buffer-equal": "~0.0.1", "buffer-equal": "~0.0.1",
"eccrypto": "^1.0.3", "eccrypto": "git+https://git.bitmessage.org/Bitmessage/eccrypto.git",
"es6-promise": "^3.0.2", "es6-promise": "4.2.8",
"hash.js": "^1.0.2", "hash.js": "^1.0.2",
"nan": "^2.1.0", "nan": "~2.15.0",
"object-assign": "^2.0.0", "object-assign": "^2.0.0",
"sha.js": "^2.3.1", "sha.js": "^2.3.1",
"webworkify": "^1.0.1" "webworkify": "^1.0.1"
}, },
"optionalDependencies": { "optionalDependencies": {
"bignum": "^0.11.0" "bignum": "^0.13.1"
} }
} }

View File

@ -2,7 +2,7 @@
#include <nan.h> #include <nan.h>
#include "./pow.h" #include "./pow.h"
using v8::Handle; // using v8::Handle;
using v8::Local; using v8::Local;
using v8::FunctionTemplate; using v8::FunctionTemplate;
using v8::Function; using v8::Function;
@ -71,8 +71,8 @@ NAN_METHOD(PowAsync) {
return Nan::ThrowError("Bad input"); return Nan::ThrowError("Bad input");
} }
size_t pool_size = info[0]->Uint32Value(); size_t pool_size = (size_t)Nan::To<uint32_t>(info[0]).FromJust();
uint64_t target = info[1]->IntegerValue(); uint64_t target = Nan::To<int64_t>(info[1]).FromJust();
char* buf = node::Buffer::Data(info[2]); char* buf = node::Buffer::Data(info[2]);
size_t length = node::Buffer::Length(info[2]); size_t length = node::Buffer::Length(info[2]);
if (pool_size < 1 || if (pool_size < 1 ||

246
test.js
View File

@ -35,19 +35,19 @@ var skipPow = {skipPow: true};
describe("Crypto", function() { describe("Crypto", function() {
it("should implement SHA-1 hash", function() { it("should implement SHA-1 hash", function() {
expect(bmcrypto.sha1(Buffer("test")).toString("hex")).to.equal("a94a8fe5ccb19ba61c4c0873d391e987982fbbd3"); expect(bmcrypto.sha1(Buffer.from("test")).toString("hex")).to.equal("a94a8fe5ccb19ba61c4c0873d391e987982fbbd3");
}); });
it("should implement SHA-256 hash", function() { it("should implement SHA-256 hash", function() {
expect(bmcrypto.sha256(Buffer("test")).toString("hex")).to.equal("9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08"); expect(bmcrypto.sha256(Buffer.from("test")).toString("hex")).to.equal("9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08");
}); });
it("should implement SHA-512 hash", function() { it("should implement SHA-512 hash", function() {
expect(bmcrypto.sha512(Buffer("test")).toString("hex")).to.equal("ee26b0dd4af7e749aa1a8ee3c10ae9923f618980772e473f8819a5d4940e0db27ac185f8a0e1d5f84f88bc887fd67b143732c304cc5fa9ad8e6f57f50028a8ff"); expect(bmcrypto.sha512(Buffer.from("test")).toString("hex")).to.equal("ee26b0dd4af7e749aa1a8ee3c10ae9923f618980772e473f8819a5d4940e0db27ac185f8a0e1d5f84f88bc887fd67b143732c304cc5fa9ad8e6f57f50028a8ff");
}); });
it("should implement RIPEMD-160 hash", function() { it("should implement RIPEMD-160 hash", function() {
expect(bmcrypto.ripemd160(Buffer("test")).toString("hex")).to.equal("5e52fee47e6b070565f74372468cdc699de89107"); expect(bmcrypto.ripemd160(Buffer.from("test")).toString("hex")).to.equal("5e52fee47e6b070565f74372468cdc699de89107");
}); });
it("should implement cryptographically secure PRNG", function() { it("should implement cryptographically secure PRNG", function() {
@ -84,16 +84,16 @@ describe("Crypto", function() {
}); });
it("should allow to convert private key to public", function() { it("should allow to convert private key to public", function() {
var privateKey = Buffer(32); var privateKey = Buffer.alloc(32);
privateKey.fill(1); privateKey.fill(1);
expect(bmcrypto.getPublic(privateKey).toString("hex")).to.equal("041b84c5567b126440995d3ed5aaba0565d71e1834604819ff9c17f5e9d5dd078f70beaf8f588b541507fed6a642c5ab42dfdf8120a7f639de5122d47a69a8e8d1"); expect(bmcrypto.getPublic(privateKey).toString("hex")).to.equal("041b84c5567b126440995d3ed5aaba0565d71e1834604819ff9c17f5e9d5dd078f70beaf8f588b541507fed6a642c5ab42dfdf8120a7f639de5122d47a69a8e8d1");
}); });
it("should allow to sign and verify message", function() { it("should allow to sign and verify message", function() {
var privateKey = Buffer(32); var privateKey = Buffer.alloc(32);
privateKey.fill(1); privateKey.fill(1);
var publicKey = bmcrypto.getPublic(privateKey); var publicKey = bmcrypto.getPublic(privateKey);
var message = Buffer("test"); var message = Buffer.from("test");
return bmcrypto.sign(privateKey, message).then(function(sig) { return bmcrypto.sign(privateKey, message).then(function(sig) {
expect(Buffer.isBuffer(sig)).to.be.true; expect(Buffer.isBuffer(sig)).to.be.true;
expect(sig.toString("hex")).to.equal("304402204737396b697e5a3400e3aedd203d8be89879f97708647252bd0c17752ff4c8f302201d52ef234de82ce0719679fa220334c83b80e21b8505a781d32d94a27d9310aa"); expect(sig.toString("hex")).to.equal("304402204737396b697e5a3400e3aedd203d8be89879f97708647252bd0c17752ff4c8f302201d52ef234de82ce0719679fa220334c83b80e21b8505a781d32d94a27d9310aa");
@ -104,7 +104,7 @@ describe("Crypto", function() {
it("should allow to encrypt and decrypt message", function() { it("should allow to encrypt and decrypt message", function() {
var privateKeyA = bmcrypto.getPrivate(); var privateKeyA = bmcrypto.getPrivate();
var publicKeyA = bmcrypto.getPublic(privateKeyA); var publicKeyA = bmcrypto.getPublic(privateKeyA);
return bmcrypto.encrypt(publicKeyA, Buffer("msg to a")).then(function(buf) { return bmcrypto.encrypt(publicKeyA, Buffer.from("msg to a")).then(function(buf) {
expect(Buffer.isBuffer(buf)).to.be.true; expect(Buffer.isBuffer(buf)).to.be.true;
return bmcrypto.decrypt(privateKeyA, buf).then(function(plaintext) { return bmcrypto.decrypt(privateKeyA, buf).then(function(plaintext) {
expect(Buffer.isBuffer(plaintext)).to.be.true; expect(Buffer.isBuffer(plaintext)).to.be.true;
@ -118,22 +118,28 @@ describe("Common structures", function() {
describe("message", function() { describe("message", function() {
it("should decode", function() { it("should decode", function() {
var res; var res;
res = message.decode(Buffer("e9beb4d97465737400000000000000000000000770b33ce97061796c6f6164", "hex")); res = message.decode(Buffer.from(
"e9beb4d97465737400000000000000000000000770b33ce97061796c6f6164", "hex"
));
expect(res.command).to.equal("test"); expect(res.command).to.equal("test");
expect(res.payload.toString()).to.equal("payload"); expect(res.payload.toString()).to.equal("payload");
expect(res.length).to.equal(31); expect(res.length).to.equal(31);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
res = message.decode(Buffer("e9beb4d90000000000000000000000000000000770b33ce97061796c6f6164", "hex")); res = message.decode(Buffer.from(
"e9beb4d90000000000000000000000000000000770b33ce97061796c6f6164", "hex"
));
expect(res.command).to.equal(""); expect(res.command).to.equal("");
}); });
it("should throw when decoding message with truncated payload", function() { it("should throw when decoding message with truncated payload", function() {
expect(message.decode.bind(null, Buffer("e9beb4d97465737400000000000000000000000770b33ce97061796c6f61", "hex"))).to.throw(Error); expect(message.decode.bind(null, Buffer.from(
"e9beb4d97465737400000000000000000000000770b33ce97061796c6f61", "hex"))
).to.throw(Error);
}); });
it("should encode", function() { it("should encode", function() {
expect(message.encode("test", Buffer("payload")).toString("hex")).to.equal("e9beb4d97465737400000000000000000000000770b33ce97061796c6f6164"); expect(message.encode("test", Buffer.from("payload")).toString("hex")).to.equal("e9beb4d97465737400000000000000000000000770b33ce97061796c6f6164");
}); });
it("should encode empty payload without second argument", function() { it("should encode empty payload without second argument", function() {
@ -143,29 +149,29 @@ describe("Common structures", function() {
}); });
it("should decode messages in stream mode", function() { it("should decode messages in stream mode", function() {
var res = message.tryDecode(Buffer("")); var res = message.tryDecode(Buffer.from(""));
expect(res).to.not.exist; expect(res).to.not.exist;
res = message.tryDecode(Buffer(25)); res = message.tryDecode(Buffer.alloc(25));
expect(res.error).to.match(/magic not found/i); expect(res.error).to.match(/magic not found/i);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
expect(res).to.not.have.property("message"); expect(res).to.not.have.property("message");
res = message.tryDecode(message.encode("test", Buffer([1,2,3]))); res = message.tryDecode(message.encode("test", Buffer.from("010203", "hex")));
expect(res).to.not.have.property("error"); expect(res).to.not.have.property("error");
expect(res.message.command).to.equal("test"); expect(res.message.command).to.equal("test");
expect(res.message.payload.toString("hex")).to.equal("010203"); expect(res.message.payload.toString("hex")).to.equal("010203");
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
var encoded = message.encode("cmd", Buffer("buf")); var encoded = message.encode("cmd", Buffer.from("buf"));
encoded[20] ^= 1; // Corrupt checksum encoded[20] ^= 1; // Corrupt checksum
encoded = Buffer.concat([encoded, Buffer("rest")]); encoded = Buffer.concat([encoded, Buffer.from("rest")]);
res = message.tryDecode(encoded); res = message.tryDecode(encoded);
expect(res.error).to.match(/bad checksum/i); expect(res.error).to.match(/bad checksum/i);
expect(res.rest.toString()).to.equal("rest"); expect(res.rest.toString()).to.equal("rest");
expect(res).to.not.have.property("message"); expect(res).to.not.have.property("message");
encoded = Buffer.concat([Buffer(10), encoded]); encoded = Buffer.concat([Buffer.alloc(10), encoded]);
res = message.tryDecode(encoded); res = message.tryDecode(encoded);
expect(res.error).to.match(/magic in the middle/i); expect(res.error).to.match(/magic in the middle/i);
expect(res.rest).to.have.length(31); expect(res.rest).to.have.length(31);
@ -174,7 +180,7 @@ describe("Common structures", function() {
}); });
it("should check for max payload length", function() { it("should check for max payload length", function() {
var fn = message.encode.bind(null, "test", Buffer(2000000)); var fn = message.encode.bind(null, "test", Buffer.alloc(2000000));
expect(fn).to.throw(/payload is too big/i); expect(fn).to.throw(/payload is too big/i);
var bigmsg = message.encode("test"); var bigmsg = message.encode("test");
@ -186,14 +192,14 @@ describe("Common structures", function() {
describe("object", function() { describe("object", function() {
it("should encode and decode", function() { it("should encode and decode", function() {
var nonce = Buffer(8); var nonce = Buffer.alloc(8);
var now = new Date().getTime(); var now = new Date().getTime();
var res = object.decode(object.encode({ var res = object.decode(object.encode({
nonce: nonce, nonce: nonce,
ttl: 100, ttl: 100,
type: 2, type: 2,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
}), skipPow); }), skipPow);
expect(bufferEqual(nonce, res.nonce)).to.be.true; expect(bufferEqual(nonce, res.nonce)).to.be.true;
@ -209,43 +215,43 @@ describe("Common structures", function() {
it("shouldn't encode too big TTL", function() { it("shouldn't encode too big TTL", function() {
expect(object.encode.bind(null, { expect(object.encode.bind(null, {
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 10000000, ttl: 10000000,
type: 2, type: 2,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
})).to.throw(Error); })).to.throw(Error);
}); });
it("shouldn't encode message payload bigger than 2^18 bytes", function() { it("shouldn't encode message payload bigger than 2^18 bytes", function() {
expect(object.encodePayload.bind(null, { expect(object.encodePayload.bind(null, {
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 100, ttl: 100,
type: object.MSG, type: object.MSG,
version: 1, version: 1,
objectPayload: Buffer(300000), objectPayload: Buffer.alloc(300000),
})).to.throw(/too big/i); })).to.throw(/too big/i);
}); });
it("shouldn't decode message payload bigger than 2^18 bytes", function() { it("shouldn't decode message payload bigger than 2^18 bytes", function() {
var encoded = object.encodePayload({ var encoded = object.encodePayload({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 100, ttl: 100,
type: object.MSG, type: object.MSG,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
}); });
encoded = Buffer.concat([encoded, Buffer(300000)]); encoded = Buffer.concat([encoded, Buffer.alloc(300000)]);
expect(object.decodePayload.bind(null, encoded)).to.throw(/too big/i); expect(object.decodePayload.bind(null, encoded)).to.throw(/too big/i);
}); });
it("shouldn't decode object with insufficient nonce", function() { it("shouldn't decode object with insufficient nonce", function() {
expect(object.decode.bind(null, object.encode({ expect(object.decode.bind(null, object.encode({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 100, ttl: 100,
type: 2, type: 2,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
}))).to.throw(/insufficient/i); }))).to.throw(/insufficient/i);
}); });
@ -255,11 +261,11 @@ describe("Common structures", function() {
expect(err.message).to.match(/not an object/i); expect(err.message).to.match(/not an object/i);
var obj = object.encodePayload({ var obj = object.encodePayload({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 111, ttl: 111,
type: object.MSG, type: object.MSG,
version: 1, version: 1,
objectPayload: Buffer(0), objectPayload: Buffer.alloc(0),
}); });
err = object.validatePayload(obj); err = object.validatePayload(obj);
expect(err.message).to.match(/insufficient pow/i); expect(err.message).to.match(/insufficient pow/i);
@ -269,11 +275,11 @@ describe("Common structures", function() {
it("should allow to validate stream", function() { it("should allow to validate stream", function() {
var obj = object.encodePayload({ var obj = object.encodePayload({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 111, ttl: 111,
type: object.MSG, type: object.MSG,
version: 1, version: 1,
objectPayload: Buffer(0), objectPayload: Buffer.alloc(0),
}); });
var err = object.validatePayload(obj, {skipPow: true, stream: 3}); var err = object.validatePayload(obj, {skipPow: true, stream: 3});
expect(err.message).to.match(/stream.*is not the one/i); expect(err.message).to.match(/stream.*is not the one/i);
@ -283,35 +289,35 @@ describe("Common structures", function() {
describe("var_int", function() { describe("var_int", function() {
it("should decode", function() { it("should decode", function() {
var res; var res;
expect(var_int.decode.bind(null, Buffer([]))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.alloc(0))).to.throw(Error);
expect(var_int.decode.bind(null, Buffer("fd00", "hex"))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.from("fd00", "hex"))).to.throw(Error);
expect(var_int.decode.bind(null, Buffer("ff004170706e9b0368", "hex"))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.from("ff004170706e9b0368", "hex"))).to.throw(Error);
res = var_int.decode(Buffer([123])); res = var_int.decode(Buffer.from("7b", "hex"));
expect(res.value).to.equal(123); expect(res.value).to.equal(123);
expect(res.length).to.equal(1); expect(res.length).to.equal(1);
expect(res.rest.toString("hex")).to.equal("") expect(res.rest.toString("hex")).to.equal("");
res = var_int.decode(Buffer("fd123456", "hex")); res = var_int.decode(Buffer.from("fd123456", "hex"));
expect(res.value).to.equal(0x1234); expect(res.value).to.equal(0x1234);
expect(res.length).to.equal(3); expect(res.length).to.equal(3);
expect(res.rest.toString("hex")).to.equal("56"); expect(res.rest.toString("hex")).to.equal("56");
res = var_int.decode(Buffer("fe1234567890", "hex")); res = var_int.decode(Buffer.from("fe1234567890", "hex"));
expect(res.value).to.equal(0x12345678); expect(res.value).to.equal(0x12345678);
expect(res.length).to.equal(5); expect(res.length).to.equal(5);
expect(res.rest.toString("hex")).to.equal("90"); expect(res.rest.toString("hex")).to.equal("90");
res = var_int.decode(Buffer("ff0000001234567890", "hex")); res = var_int.decode(Buffer.from("ff0000001234567890", "hex"));
expect(res.value).to.equal(0x1234567890); expect(res.value).to.equal(0x1234567890);
expect(res.length).to.equal(9); expect(res.length).to.equal(9);
expect(res.rest.length).to.equal(0); expect(res.rest.length).to.equal(0);
}); });
it("should check for lowest length on decode", function() { it("should check for lowest length on decode", function() {
expect(var_int.decode.bind(null, Buffer("fd00fc", "hex"))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.from("fd00fc", "hex"))).to.throw(Error);
expect(var_int.decode.bind(null, Buffer("fe0000ffff", "hex"))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.from("fe0000ffff", "hex"))).to.throw(Error);
expect(var_int.decode.bind(null, Buffer("ff00000000ffffffff", "hex"))).to.throw(Error); expect(var_int.decode.bind(null, Buffer.from("ff00000000ffffffff", "hex"))).to.throw(Error);
}); });
it("should encode", function() { it("should encode", function() {
@ -319,10 +325,10 @@ describe("Common structures", function() {
expect(var_int.encode(0x1234).toString("hex")).to.equal("fd1234"); expect(var_int.encode(0x1234).toString("hex")).to.equal("fd1234");
expect(var_int.encode(0x12345678).toString("hex")).to.equal("fe12345678"); expect(var_int.encode(0x12345678).toString("hex")).to.equal("fe12345678");
expect(var_int.encode(0x1234567890).toString("hex")).to.equal("ff0000001234567890"); expect(var_int.encode(0x1234567890).toString("hex")).to.equal("ff0000001234567890");
expect(var_int.encode(Buffer("1234567890", "hex")).toString("hex")).to.equal("ff0000001234567890"); expect(var_int.encode(Buffer.from("1234567890", "hex")).toString("hex")).to.equal("ff0000001234567890");
expect(var_int.encode.bind(null, -123)).to.throw(Error); expect(var_int.encode.bind(null, -123)).to.throw(Error);
expect(var_int.encode.bind(null, 0x4170706e9b0368)).to.throw(Error); expect(var_int.encode.bind(null, 0x4170706e9b0368)).to.throw(Error);
expect(var_int.encode.bind(null, Buffer("123456789012345678", "hex"))).to.throw(Error); expect(var_int.encode.bind(null, Buffer.from("123456789012345678", "hex"))).to.throw(Error);
expect(var_int.encode.bind(null, "test")).to.throw(Error); expect(var_int.encode.bind(null, "test")).to.throw(Error);
}); });
}); });
@ -330,23 +336,23 @@ describe("Common structures", function() {
describe("var_str", function() { describe("var_str", function() {
it("should decode", function() { it("should decode", function() {
var res; var res;
res = var_str.decode(Buffer("00", "hex")); res = var_str.decode(Buffer.from("00", "hex"));
expect(res.str).to.equal(""); expect(res.str).to.equal("");
expect(res.length).to.equal(1); expect(res.length).to.equal(1);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
res = var_str.decode(Buffer("0474657374", "hex")); res = var_str.decode(Buffer.from("0474657374", "hex"));
expect(res.str).to.equal("test"); expect(res.str).to.equal("test");
expect(res.length).to.equal(5); expect(res.length).to.equal(5);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
res = var_str.decode(Buffer("0474657374ffffff", "hex")); res = var_str.decode(Buffer.from("0474657374ffffff", "hex"));
expect(res.str).to.equal("test"); expect(res.str).to.equal("test");
expect(res.length).to.equal(5); expect(res.length).to.equal(5);
expect(res.rest.toString("hex")).to.equal("ffffff"); expect(res.rest.toString("hex")).to.equal("ffffff");
// Truncated input. // Truncated input.
expect(var_str.decode.bind(null, Buffer("04746573", "hex"))).to.throw(Error); expect(var_str.decode.bind(null, Buffer.from("04746573", "hex"))).to.throw(Error);
}); });
it("should encode", function() { it("should encode", function() {
@ -358,12 +364,13 @@ describe("Common structures", function() {
describe("var_int_list", function() { describe("var_int_list", function() {
it("should decode", function() { it("should decode", function() {
var res; var res;
res = var_int_list.decode(Buffer("00", "hex")); res = var_int_list.decode(Buffer.from("00", "hex"));
expect(res.list).to.deep.equal([]); expect(res.list).to.deep.equal([]);
expect(res.length).to.equal(1); expect(res.length).to.equal(1);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
res = var_int_list.decode(Buffer("0501fd0400ff0004000000000000fd9c40fe000186a0", "hex")); res = var_int_list.decode(Buffer.from(
"0501fd0400ff0004000000000000fd9c40fe000186a0", "hex"));
expect(res.length).to.equal(22); expect(res.length).to.equal(22);
expect(res.list.length).to.equal(5); expect(res.list.length).to.equal(5);
expect(res.list[0]).to.equal(1); expect(res.list[0]).to.equal(1);
@ -373,13 +380,15 @@ describe("Common structures", function() {
expect(res.list[4]).to.equal(100000); expect(res.list[4]).to.equal(100000);
expect(res.rest.toString("hex")).to.equal(""); expect(res.rest.toString("hex")).to.equal("");
res = var_int_list.decode(Buffer("0501fd0400ff0004000000000000fd9c40fe000186a0ffffff", "hex")); res = var_int_list.decode(Buffer.from(
"0501fd0400ff0004000000000000fd9c40fe000186a0ffffff", "hex"));
expect(res.length).to.equal(22); expect(res.length).to.equal(22);
expect(res.list.length).to.equal(5); expect(res.list.length).to.equal(5);
expect(res.rest.toString("hex")).to.equal("ffffff"); expect(res.rest.toString("hex")).to.equal("ffffff");
// Truncated input. // Truncated input.
expect(var_int_list.decode.bind(null, Buffer("0501fd0400ff0004000000000000fd9c40fe000186", "hex"))).to.throw(Error); expect(var_int_list.decode.bind(null, Buffer.from(
"0501fd0400ff0004000000000000fd9c40fe000186", "hex"))).to.throw(Error);
}); });
it("should encode", function() { it("should encode", function() {
@ -393,21 +402,22 @@ describe("Common structures", function() {
describe("net_addr", function() { describe("net_addr", function() {
it("should decode", function() { it("should decode", function() {
var res; var res;
res = net_addr.decode(Buffer("0000000054aaf6c000000001000000000000000100000000000000000000ffff7f00000120fc", "hex")); res = net_addr.decode(Buffer.from("0000000054aaf6c000000001000000000000000100000000000000000000ffff7f00000120fc", "hex"));
expect(res.time.getTime()).to.equal(1420490432000); expect(res.time.getTime()).to.equal(1420490432000);
expect(res.stream).to.equal(1); expect(res.stream).to.equal(1);
expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true; expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true;
expect(res.host).to.equal("127.0.0.1"); expect(res.host).to.equal("127.0.0.1");
expect(res.port).to.equal(8444); expect(res.port).to.equal(8444);
expect(net_addr.decode.bind(null, Buffer("000000000000000100000000000000000000ffff7f00000120fc", "hex"))).to.throw(Error);; expect(net_addr.decode.bind(null, Buffer.from(
"000000000000000100000000000000000000ffff7f00000120fc", "hex"))).to.throw(Error);
res = net_addr.decode(Buffer("000000000000000100000000000000000000ffff7f00000120fc", "hex"), {short: true}); res = net_addr.decode(Buffer.from("000000000000000100000000000000000000ffff7f00000120fc", "hex"), {short: true});
expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true; expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true;
expect(res.host).to.equal("127.0.0.1"); expect(res.host).to.equal("127.0.0.1");
expect(res.port).to.equal(8444); expect(res.port).to.equal(8444);
res = net_addr.decode(Buffer("000000000000000100000000000000000000000000000001fde8", "hex"), {short: true}); res = net_addr.decode(Buffer.from("000000000000000100000000000000000000000000000001fde8", "hex"), {short: true});
expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true; expect(res.services.get(ServicesBitfield.NODE_NETWORK)).to.be.true;
expect(res.host).to.equal("0:0:0:0:0:0:0:1"); expect(res.host).to.equal("0:0:0:0:0:0:0:1");
expect(res.port).to.equal(65000); expect(res.port).to.equal(65000);
@ -431,7 +441,7 @@ describe("Common structures", function() {
}); });
it("should allow to pass services as Buffer", function() { it("should allow to pass services as Buffer", function() {
var services = Buffer(8); var services = Buffer.alloc(8);
var res = net_addr.decode(net_addr.encode({ var res = net_addr.decode(net_addr.encode({
host: "1.2.3.4", host: "1.2.3.4",
port: 1234, port: 1234,
@ -449,11 +459,13 @@ describe("Common structures", function() {
describe("encrypted", function() { describe("encrypted", function() {
it("should encode and decode", function() { it("should encode and decode", function() {
var iv = Buffer(16); var iv = Buffer.alloc(16);
var ephemPublicKey = Buffer(65); var ephemPublicKey = Buffer.alloc(70);
ephemPublicKey[0] = 0x04; ephemPublicKey.writeUInt16BE(714, 0, true);
var ciphertext = Buffer("test"); ephemPublicKey.writeUInt16BE(32, 2, true);
var mac = Buffer(32); ephemPublicKey.writeUInt16BE(32, 36, true);
var ciphertext = Buffer.from("test");
var mac = Buffer.alloc(32);
var inopts = { var inopts = {
iv: iv, iv: iv,
ephemPublicKey: ephemPublicKey, ephemPublicKey: ephemPublicKey,
@ -473,7 +485,7 @@ describe("Common structures", function() {
describe("service features", function() { describe("service features", function() {
it("should allow to check bits", function() { it("should allow to check bits", function() {
expect(ServicesBitfield(Buffer("0000000000000001", "hex")).get(ServicesBitfield.NODE_NETWORK)).to.be.true; expect(ServicesBitfield(Buffer.from("0000000000000001", "hex")).get(ServicesBitfield.NODE_NETWORK)).to.be.true;
}); });
it("should allow to set bits", function() { it("should allow to set bits", function() {
@ -492,7 +504,7 @@ describe("Common structures", function() {
describe("pubkey features", function() { describe("pubkey features", function() {
it("should allow to check bits", function() { it("should allow to check bits", function() {
expect(PubkeyBitfield(Buffer("00000003", "hex")).get([PubkeyBitfield.DOES_ACK, PubkeyBitfield.INCLUDE_DESTINATION])).to.be.true; expect(PubkeyBitfield(Buffer.from("00000003", "hex")).get([PubkeyBitfield.DOES_ACK, PubkeyBitfield.INCLUDE_DESTINATION])).to.be.true;
}); });
it("should allow to set bits", function() { it("should allow to set bits", function() {
@ -505,14 +517,14 @@ describe("Common structures", function() {
// TODO(Kagami): Add tests for encodePayload/decodePayload as well. // TODO(Kagami): Add tests for encodePayload/decodePayload as well.
describe("Message types", function() { describe("Message types", function() {
it("should get command for encoded message", function() { it("should get command for encoded message", function() {
var encoded = message.encode("test", Buffer(0)); var encoded = message.encode("test", Buffer.alloc(0));
expect(messages.getCommand(encoded)).to.equal("test"); expect(messages.getCommand(encoded)).to.equal("test");
expect(messages.getCommand(Buffer("test"))).to.be.undefined; expect(messages.getCommand(Buffer.from("test"))).to.be.undefined;
}); });
describe("version", function() { describe("version", function() {
it("should encode and decode", function() { it("should encode and decode", function() {
var nonce = Buffer(8); var nonce = Buffer.alloc(8);
var encoded = version.encode({ var encoded = version.encode({
remoteHost: "1.2.3.4", remoteHost: "1.2.3.4",
remotePort: 48444, remotePort: 48444,
@ -547,7 +559,7 @@ describe("Message types", function() {
expect(version.encode.bind(null, { expect(version.encode.bind(null, {
remoteHost: "1.2.3.4", remoteHost: "1.2.3.4",
remotePort: 8444, remotePort: 8444,
userAgent: Buffer(6000), userAgent: Buffer.alloc(6000),
})).to.throw(/agent is too long/i); })).to.throw(/agent is too long/i);
}); });
@ -603,7 +615,7 @@ describe("Message types", function() {
{host: "fc00::3:2:1", port: 9}, {host: "fc00::3:2:1", port: 9},
]).toString("hex")).to.equal("010000000054f04bfe00000001000000000000000100000000000000000000ffff010203040003"); ]).toString("hex")).to.equal("010000000054f04bfe00000001000000000000000100000000000000000000ffff010203040003");
var res = addr.decodePayload(Buffer("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", "hex")); var res = addr.decodePayload(Buffer.from("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", "hex"));
expect(res.addrs).to.have.length(1); expect(res.addrs).to.have.length(1);
expect(res.addrs[0].host).to.equal("1.2.3.4"); expect(res.addrs[0].host).to.equal("1.2.3.4");
expect(res.addrs[0].port).to.equal(3); expect(res.addrs[0].port).to.equal(3);
@ -612,8 +624,8 @@ describe("Message types", function() {
describe("inv", function() { describe("inv", function() {
it("should encode and decode", function() { it("should encode and decode", function() {
var vect1 = inv_vect.encode(Buffer("test")); var vect1 = inv_vect.encode(Buffer.from("test"));
var vect2 = inv_vect.encode(Buffer("test2")); var vect2 = inv_vect.encode(Buffer.from("test2"));
var vectors = [vect1, vect2]; var vectors = [vect1, vect2];
var encoded = inv.encode(vectors); var encoded = inv.encode(vectors);
expect(message.decode(encoded).command).to.equal("inv"); expect(message.decode(encoded).command).to.equal("inv");
@ -632,8 +644,8 @@ describe("Message types", function() {
describe("getdata", function() { describe("getdata", function() {
it("should encode and decode", function() { it("should encode and decode", function() {
var vect1 = inv_vect.encode(Buffer("test")); var vect1 = inv_vect.encode(Buffer.from("test"));
var vect2 = inv_vect.encode(Buffer("test2")); var vect2 = inv_vect.encode(Buffer.from("test2"));
var vectors = [vect1, vect2]; var vectors = [vect1, vect2];
var encoded = getdata.encode(vectors); var encoded = getdata.encode(vectors);
expect(message.decode(encoded).command).to.equal("getdata"); expect(message.decode(encoded).command).to.equal("getdata");
@ -662,7 +674,7 @@ describe("Message types", function() {
expect(res.length).to.equal(8); expect(res.length).to.equal(8);
expect(error.type2str(res.type)).to.equal("warning"); expect(error.type2str(res.type)).to.equal("warning");
var vector = inv_vect.encode(Buffer("test")); var vector = inv_vect.encode(Buffer.from("test"));
var res = error.decode(error.encode({ var res = error.decode(error.encode({
type: error.FATAL, type: error.FATAL,
banTime: 120, banTime: 120,
@ -681,9 +693,11 @@ describe("Message types", function() {
// TODO(Kagami): Add tests for encodePayloadAsync/decodePayloadAsync as well. // TODO(Kagami): Add tests for encodePayloadAsync/decodePayloadAsync as well.
describe("Object types", function() { describe("Object types", function() {
var signPrivateKey = Buffer("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex"); var signPrivateKey = Buffer.from(
"71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex");
var signPublicKey = bmcrypto.getPublic(signPrivateKey); var signPublicKey = bmcrypto.getPublic(signPrivateKey);
var encPrivateKey = Buffer("9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"); var encPrivateKey = Buffer.from(
"9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex");
var encPublicKey = bmcrypto.getPublic(encPrivateKey); var encPublicKey = bmcrypto.getPublic(encPrivateKey);
var fromV2 = Address({ var fromV2 = Address({
version: 2, version: 2,
@ -703,26 +717,26 @@ describe("Object types", function() {
it("should get type of the encoded object message", function() { it("should get type of the encoded object message", function() {
var encoded = object.encode({ var encoded = object.encode({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 100, ttl: 100,
type: object.BROADCAST, type: object.BROADCAST,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
}); });
expect(objects.getType(encoded)).to.equal(object.BROADCAST); expect(objects.getType(encoded)).to.equal(object.BROADCAST);
expect(objects.getType(Buffer(4))).to.be.undefined; expect(objects.getType(Buffer.alloc(4))).to.be.undefined;
}); });
it("should get type of the object message payload", function() { it("should get type of the object message payload", function() {
var encoded = object.encodePayload({ var encoded = object.encodePayload({
nonce: Buffer(8), nonce: Buffer.alloc(8),
ttl: 333, ttl: 333,
type: object.MSG, type: object.MSG,
version: 1, version: 1,
objectPayload: Buffer("test"), objectPayload: Buffer.from("test"),
}); });
expect(objects.getPayloadType(encoded)).to.equal(object.MSG); expect(objects.getPayloadType(encoded)).to.equal(object.MSG);
expect(objects.getPayloadType(Buffer(7))).to.be.undefined; expect(objects.getPayloadType(Buffer.alloc(7))).to.be.undefined;
}); });
describe("getpubkey", function() { describe("getpubkey", function() {
@ -762,14 +776,13 @@ describe("Object types", function() {
}); });
}); });
it("shouldn't decode getpubkey with insufficient nonce", function(done) { it("shouldn't decode getpubkey with insufficient nonce", function() {
return getpubkey.encodeAsync({ return getpubkey.encodeAsync({
ttl: 100, ttl: 100,
to: "2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z", to: "2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z",
skipPow: true, skipPow: true,
}).then(getpubkey.decodeAsync).catch(function(err) { }).then(getpubkey.decodeAsync).catch(function(err) {
expect(err.message).to.match(/insufficient/i); expect(err.message).to.match(/insufficient/i);
done();
}); });
}); });
@ -780,7 +793,7 @@ describe("Object types", function() {
ttl: 100, ttl: 100,
to: "2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z", to: "2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z",
}).then(function(payload) { }).then(function(payload) {
expect(POW.check({ttl: 100, payload: payload})).to.be.true;; expect(POW.check({ttl: 100, payload: payload})).to.be.true;
return getpubkey.decodePayloadAsync(payload); return getpubkey.decodePayloadAsync(payload);
}).then(function(res) { }).then(function(res) {
expect(res.ttl).to.be.at.most(100); expect(res.ttl).to.be.at.most(100);
@ -864,7 +877,7 @@ describe("Object types", function() {
this.timeout(300000); this.timeout(300000);
return pubkey.encodePayloadAsync({ttl: 789, from: from, to: from}) return pubkey.encodePayloadAsync({ttl: 789, from: from, to: from})
.then(function(payload) { .then(function(payload) {
expect(POW.check({ttl: 789, payload: payload})).to.be.true;; expect(POW.check({ttl: 789, payload: payload})).to.be.true;
return pubkey.decodePayloadAsync(payload, {needed: from}); return pubkey.decodePayloadAsync(payload, {needed: from});
}).then(function(res) { }).then(function(res) {
expect(res.ttl).to.be.at.most(789); expect(res.ttl).to.be.at.most(789);
@ -935,7 +948,7 @@ describe("Object types", function() {
}); });
}); });
it("shouldn't decode msg without identities", function(done) { it("shouldn't decode msg without identities", function() {
return msg.encodeAsync({ return msg.encodeAsync({
ttl: 111, ttl: 111,
from: from, from: from,
@ -946,7 +959,6 @@ describe("Object types", function() {
return msg.decodeAsync(buf, {identities: [], skipPow: true}); return msg.decodeAsync(buf, {identities: [], skipPow: true});
}).catch(function(err) { }).catch(function(err) {
expect(err.message).to.match(/with given identities/i); expect(err.message).to.match(/with given identities/i);
done();
}); });
}); });
@ -968,16 +980,15 @@ describe("Object types", function() {
}); });
}); });
it("shouldn't encode too big msg", function(done) { it("shouldn't encode too big msg", function() {
return msg.encodeAsync({ return msg.encodeAsync({
ttl: 111, ttl: 111,
from: from, from: from,
to: from, to: from,
message: Buffer(300000), message: Buffer.alloc(300000),
skipPow: true, skipPow: true,
}).catch(function(err) { }).catch(function(err) {
expect(err.message).to.match(/too big/i); expect(err.message).to.match(/too big/i);
done();
}); });
}); });
@ -990,7 +1001,7 @@ describe("Object types", function() {
to: from, to: from,
message: "test", message: "test",
}).then(function(payload) { }).then(function(payload) {
expect(POW.check({ttl: 111, payload: payload})).to.be.true;; expect(POW.check({ttl: 111, payload: payload})).to.be.true;
return msg.decodePayloadAsync(payload, {identities: from}); return msg.decodePayloadAsync(payload, {identities: from});
}).then(function(res) { }).then(function(res) {
expect(res.ttl).to.be.at.most(111); expect(res.ttl).to.be.at.most(111);
@ -1085,7 +1096,7 @@ describe("Object types", function() {
}); });
}); });
it("shouldn't decode broadcast without subscriptions", function(done) { it("shouldn't decode broadcast without subscriptions", function() {
return broadcast.encodeAsync({ return broadcast.encodeAsync({
ttl: 101, ttl: 101,
from: from, from: from,
@ -1098,19 +1109,17 @@ describe("Object types", function() {
}); });
}).catch(function(err) { }).catch(function(err) {
expect(err.message).to.match(/not interested/i); expect(err.message).to.match(/not interested/i);
done();
}); });
}); });
it("shouldn't encode too big broadcast", function(done) { it("shouldn't encode too big broadcast", function() {
return broadcast.encodeAsync({ return broadcast.encodeAsync({
ttl: 101, ttl: 101,
from: from, from: from,
message: Buffer(300000), message: Buffer.alloc(300000),
skipPow: true, skipPow: true,
}).catch(function(err) { }).catch(function(err) {
expect(err.message).to.match(/too big/i); expect(err.message).to.match(/too big/i);
done();
}); });
}); });
@ -1122,7 +1131,7 @@ describe("Object types", function() {
from: from, from: from,
message: "test", message: "test",
}).then(function(payload) { }).then(function(payload) {
expect(POW.check({ttl: 101, payload: payload})).to.be.true;; expect(POW.check({ttl: 101, payload: payload})).to.be.true;
return broadcast.decodePayloadAsync(payload, {subscriptions: from}); return broadcast.decodePayloadAsync(payload, {subscriptions: from});
}).then(function(res) { }).then(function(res) {
expect(res.ttl).to.be.at.most(101); expect(res.ttl).to.be.at.most(101);
@ -1136,8 +1145,10 @@ describe("Object types", function() {
describe("WIF", function() { describe("WIF", function() {
var wifSign = "5JgQ79vTBusc61xYPtUEHYQ38AXKdDZgQ5rFp7Cbb4ZjXUKFZEV"; var wifSign = "5JgQ79vTBusc61xYPtUEHYQ38AXKdDZgQ5rFp7Cbb4ZjXUKFZEV";
var wifEnc = "5K2aL8cnsEWHwHfHnUrPo8QdYyRfoYUBmhAnWY5GTpDLbeyusnE"; var wifEnc = "5K2aL8cnsEWHwHfHnUrPo8QdYyRfoYUBmhAnWY5GTpDLbeyusnE";
var signPrivateKey = Buffer("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex"); var signPrivateKey = Buffer.from(
var encPrivateKey = Buffer("9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"); "71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex");
var encPrivateKey = Buffer.from(
"9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex");
it("should decode", function() { it("should decode", function() {
var key1 = WIF.decode(wifSign); var key1 = WIF.decode(wifSign);
@ -1167,15 +1178,15 @@ describe("POW", function() {
}); });
it("should check a POW", function() { it("should check a POW", function() {
expect(POW.check({nonce: 21997550, target: 297422525267, initialHash: Buffer("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.true; expect(POW.check({nonce: 21997550, target: 297422525267, initialHash: Buffer.from("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.true;
expect(POW.check({nonce: 3122437, target: 4864647698763, initialHash: Buffer("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.true; expect(POW.check({nonce: 3122437, target: 4864647698763, initialHash: Buffer.from("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.true;
expect(POW.check({nonce: 3122436, target: 4864647698763, initialHash: Buffer("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.false; expect(POW.check({nonce: 3122436, target: 4864647698763, initialHash: Buffer.from("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex")})).to.be.false;
}); });
it("should reject promise on bad POW arguments", function(done) { it("should reject promise on bad POW arguments", function(done) {
POW.doAsync({target: 123, initialHash: {}}).catch(function() { POW.doAsync({target: 123, initialHash: {}}).catch(function() {
POW.doAsync({target: 123, initialHash: Buffer("test")}).catch(function() { POW.doAsync({target: 123, initialHash: Buffer.from("test")}).catch(function() {
POW.doAsync({poolSize: -1, target: 123, initialHash: Buffer(64)}) POW.doAsync({poolSize: -1, target: 123, initialHash: Buffer.alloc(64)})
.catch(function() { .catch(function() {
done(); done();
}); });
@ -1187,7 +1198,7 @@ describe("POW", function() {
it("should do a POW", function() { it("should do a POW", function() {
this.timeout(300000); this.timeout(300000);
var target = typeof window === "undefined" ? 297422525267 : 10688385392246; var target = typeof window === "undefined" ? 297422525267 : 10688385392246;
var initialHash = Buffer("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex"); var initialHash = Buffer.from("8ff2d685db89a0af2e3dbfd3f700ae96ef4d9a1eac72fd778bbb368c7510cddda349e03207e1c4965bd95c6f7265e8f1a481a08afab3874eaafb9ade09a10880", "hex");
return POW.doAsync({target: target, initialHash: initialHash}) return POW.doAsync({target: target, initialHash: initialHash})
.then(function(nonce) { .then(function(nonce) {
// FIXME(Kagami): Chromium behaves very strangely on Travis CI: // FIXME(Kagami): Chromium behaves very strangely on Travis CI:
@ -1316,14 +1327,17 @@ describe("High-level classes", function() {
it("should provide setters for keys and ripe", function() { it("should provide setters for keys and ripe", function() {
var addr = Address(); var addr = Address();
expect(function(){addr.ripe}).to.throw(Error); expect(function(){addr.ripe}).to.throw(Error);
addr.signPrivateKey = Buffer("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex"); addr.signPrivateKey = Buffer.from(
"71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex");
expect(addr.signPublicKey.toString("hex")).to.equal("042d391543f574608cbcdfd12a37cc4c74dd36e54510b13a6a1d8b7b1498fb96c92873d33ca17586dace7f5ad0f4532a954061ac06bc5230aed9c8374072546571"); expect(addr.signPublicKey.toString("hex")).to.equal("042d391543f574608cbcdfd12a37cc4c74dd36e54510b13a6a1d8b7b1498fb96c92873d33ca17586dace7f5ad0f4532a954061ac06bc5230aed9c8374072546571");
expect(function(){addr.ripe}).to.throw(Error); expect(function(){addr.ripe}).to.throw(Error);
addr.encPrivateKey = Buffer("9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"); addr.encPrivateKey = Buffer.from(
"9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex");
expect(addr.encPublicKey.toString("hex")).to.equal("04c6ed1b56f2da97fec1b762d43364566faf082c1e4918ae1dbb41757cad41b03b2cc5087f341414e63f6eee72a1fbf0b5f346a1bb3ba944cad204ca597db2bfc8"); expect(addr.encPublicKey.toString("hex")).to.equal("04c6ed1b56f2da97fec1b762d43364566faf082c1e4918ae1dbb41757cad41b03b2cc5087f341414e63f6eee72a1fbf0b5f346a1bb3ba944cad204ca597db2bfc8");
expect(addr.ripe.toString("hex")).to.equal("003ab6655de4bd8c603eba9b00dd5970725fdd56"); expect(addr.ripe.toString("hex")).to.equal("003ab6655de4bd8c603eba9b00dd5970725fdd56");
expect(addr.getShortRipe().toString("hex")).to.equal("3ab6655de4bd8c603eba9b00dd5970725fdd56"); expect(addr.getShortRipe().toString("hex")).to.equal("3ab6655de4bd8c603eba9b00dd5970725fdd56");
addr.encPrivateKey = Buffer("009969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"); addr.encPrivateKey = Buffer.from(
"009969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex");
expect(addr.getShortRipe().toString("hex")).to.equal("69617ddb1946dc327cadffcf33889fed587fc1e7"); expect(addr.getShortRipe().toString("hex")).to.equal("69617ddb1946dc327cadffcf33889fed587fc1e7");
}); });
@ -1347,8 +1361,10 @@ describe("High-level classes", function() {
expect(addr2.getTag().toString("hex")).to.equal("d6487aaea3d2d022d80abbce2605089523ba2b516b81c03545f19a5c85f15fa2"); expect(addr2.getTag().toString("hex")).to.equal("d6487aaea3d2d022d80abbce2605089523ba2b516b81c03545f19a5c85f15fa2");
var addr3 = Address({ var addr3 = Address({
signPrivateKey: Buffer("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex"), signPrivateKey: Buffer.from(
encPrivateKey: Buffer("9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"), "71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f", "hex"),
encPrivateKey: Buffer.from(
"9f9969c93c2d186787a7653f70e49be34c03c4a853e6ad0c867db0946bc433c6", "hex"),
}); });
var addr4 = addr3.clone(); var addr4 = addr3.clone();
expect(addr4.signPrivateKey.toString("hex")).to.equal("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f"); expect(addr4.signPrivateKey.toString("hex")).to.equal("71c95d26c716a5e85e9af9efe26fb5f744dc98005a13d05d23ee92c77e038d9f");
@ -1396,7 +1412,7 @@ describe("High-level classes", function() {
}); });
it("should encode bitmessage's user agent", function() { it("should encode bitmessage's user agent", function() {
var res = UserAgent.decode(UserAgent.encodeSelf()) var res = UserAgent.decode(UserAgent.encodeSelf());
var software = UserAgent.parse(res.str); var software = UserAgent.parse(res.str);
expect(software[0].name).to.equal("bitmessage"); expect(software[0].name).to.equal("bitmessage");
expect(software[0]).to.have.property("version"); expect(software[0]).to.have.property("version");