var expect = require("chai").expect; var allTests = typeof window === "undefined" ? !!process.env.ALL_TESTS : window.ALL_TESTS; var bitmessage = require("./lib"); var Int64 = bitmessage.Int64; var Address = bitmessage.Address; var varint = require("./lib/varint"); var bmcrypto = require("./lib/crypto"); describe("var_int", function() { it("should decode", function() { var res; expect(varint.decode.bind(null, Buffer([]))).to.throw(Error); expect(varint.decode.bind(null, Buffer("fd00", "hex"))).to.throw(Error); res = varint.decode(Buffer([123])); expect(res.value).to.equal(123); expect(res.length).to.equal(1); expect(res.rest.toString("hex")).to.equal("") res = varint.decode(Buffer("fd123456", "hex")); expect(res.value).to.equal(0x1234); expect(res.length).to.equal(3); expect(res.rest.toString("hex")).to.equal("56"); res = varint.decode(Buffer("fe1234567890", "hex")); expect(res.value).to.equal(0x12345678); expect(res.length).to.equal(5); expect(res.rest.toString("hex")).to.equal("90"); res = varint.decode(Buffer("ff0000001234567890", "hex")); expect(res.value == 0x1234567890).to.be.true; expect(res.length).to.equal(9); expect(res.rest.length).to.equal(0); }); it("should check for lowest length on decode", function() { expect(varint.decode.bind(null, Buffer("fd00fc", "hex"))).to.throw(Error); expect(varint.decode.bind(null, Buffer("fe0000ffff", "hex"))).to.throw(Error); expect(varint.decode.bind(null, Buffer("ff00000000ffffffff", "hex"))).to.throw(Error); }); it("should encode", function() { expect(varint.encode(123).toString("hex")).to.equal("7b"); expect(varint.encode(0x1234).toString("hex")).to.equal("fd1234"); expect(varint.encode(0x12345678).toString("hex")).to.equal("fe12345678"); expect(varint.encode(0x1234567890).toString("hex")).to.equal("ff0000001234567890"); expect(varint.encode(new Int64("0xffffffffffffffff")).toString("hex")).to.equal("ffffffffffffffffff"); expect(varint.encode(Buffer("1234567890", "hex")).toString("hex")).to.equal("ff0000001234567890"); expect(varint.encode.bind(null, -123)).to.throw(Error); expect(varint.encode.bind(null, Buffer("123456789012345678", "hex"))).to.throw(Error); expect(varint.encode.bind(null, "test")).to.throw(Error); }); }); describe("Crypto", function() { it("should implement SHA-512 hash", function() { return bmcrypto.sha512(Buffer("test")).then(function(res) { expect(res.toString("hex")).to.equal("ee26b0dd4af7e749aa1a8ee3c10ae9923f618980772e473f8819a5d4940e0db27ac185f8a0e1d5f84f88bc887fd67b143732c304cc5fa9ad8e6f57f50028a8ff"); }); }); it("should implement SHA-256 hash", function() { return bmcrypto.sha256(Buffer("test")).then(function(res) { expect(res.toString("hex")).to.equal("9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08"); }); }); it("should implement RIPEMD-160 hash", function() { return bmcrypto.ripemd160(Buffer("test")).then(function(res) { expect(res.toString("hex")).to.equal("5e52fee47e6b070565f74372468cdc699de89107"); }); }); it("should implement cryptographically secure PRNG", function() { var size = 100; var rnd = bmcrypto.randomBytes(size); expect(Buffer.isBuffer(rnd)).to.be.true; expect(rnd.length).to.equal(size); // Very simple statistical test. var bytes = {}; var sum = 0; var value; for (var i = 0; i < size; i++) { value = rnd[i]; sum += value; if (!bytes[value]) { bytes[value] = 0; } bytes[value]++; expect(bytes[value]).to.be.below(7); } // Ideal sum = (255 / 2) * size = 12750 expect(sum).to.be.above(10000); expect(sum).to.be.below(15000); }); }); describe("Address", function() { it("should decode Bitmessage address", function() { return Address.decode("BM-2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z") .then(function(addr) { expect(addr.version).to.equal(4); expect(addr.stream).to.equal(1); expect(addr.ripe.toString("hex")).to.equal("003ab6655de4bd8c603eba9b00dd5970725fdd56"); }); }); it("should decode Bitmessage address badly formatted", function() { return Address.decode(" 2cTux3PGRqHTEH6wyUP2sWeT4LrsGgy63z ") .then(function(addr) { expect(addr.version).to.equal(4); expect(addr.stream).to.equal(1); expect(addr.ripe.toString("hex")).to.equal("003ab6655de4bd8c603eba9b00dd5970725fdd56"); }); }); it("should allow to generate new Bitmessage address", function() { this.timeout(10000); return Address.getRandom().then(function(addr) { expect(addr.version).to.equal(4); expect(addr.stream).to.equal(1); expect(addr.signPrivateKey.length).to.equal(32); expect(addr.encPrivateKey.length).to.equal(32); return Address.encode(addr).then(function(str) { expect(str.slice(0, 3)).to.equal("BM-"); return Address.decode(str).then(function(addr2) { expect(addr2.version).to.equal(4); expect(addr2.stream).to.equal(1); expect(addr2.ripe.length).to.equal(20); expect(addr2.ripe[0]).to.equal(0); }); }); }); }); if (allTests) { it("should allow to generate shorter address", function() { this.timeout(60000); return Address.getRandom({ripelen: 18}).then(function(addr) { return Address.getRipe(addr, {short: true}).then(function(ripe) { expect(ripe.length).to.be.at.most(18); }); }); }); } });