'use strict'; /* * A battery of tests to help us read a series of uints */ require('../common'); const assert = require('assert'); /* * We need to check the following things: * - We are correctly resolving big endian (doesn't mean anything for 8 bit) * - Correctly resolving little endian (doesn't mean anything for 8 bit) * - Correctly using the offsets * - Correctly interpreting values that are beyond the signed range as unsigned */ function test8(clazz) { var data = new clazz(4); data.writeUInt8(23, 0); data.writeUInt8(23, 1); data.writeUInt8(23, 2); data.writeUInt8(23, 3); assert.equal(23, data[0]); assert.equal(23, data[1]); assert.equal(23, data[2]); assert.equal(23, data[3]); data.writeUInt8(23, 0); data.writeUInt8(23, 1); data.writeUInt8(23, 2); data.writeUInt8(23, 3); assert.equal(23, data[0]); assert.equal(23, data[1]); assert.equal(23, data[2]); assert.equal(23, data[3]); data.writeUInt8(255, 0); assert.equal(255, data[0]); data.writeUInt8(255, 0); assert.equal(255, data[0]); } function test16(clazz) { var value = 0x2343; var data = new clazz(4); data.writeUInt16BE(value, 0); assert.equal(0x23, data[0]); assert.equal(0x43, data[1]); data.writeUInt16BE(value, 1); assert.equal(0x23, data[1]); assert.equal(0x43, data[2]); data.writeUInt16BE(value, 2); assert.equal(0x23, data[2]); assert.equal(0x43, data[3]); data.writeUInt16LE(value, 0); assert.equal(0x23, data[1]); assert.equal(0x43, data[0]); data.writeUInt16LE(value, 1); assert.equal(0x23, data[2]); assert.equal(0x43, data[1]); data.writeUInt16LE(value, 2); assert.equal(0x23, data[3]); assert.equal(0x43, data[2]); value = 0xff80; data.writeUInt16LE(value, 0); assert.equal(0xff, data[1]); assert.equal(0x80, data[0]); data.writeUInt16BE(value, 0); assert.equal(0xff, data[0]); assert.equal(0x80, data[1]); } function test32(clazz) { var data = new clazz(6); var value = 0xe7f90a6d; data.writeUInt32BE(value, 0); assert.equal(0xe7, data[0]); assert.equal(0xf9, data[1]); assert.equal(0x0a, data[2]); assert.equal(0x6d, data[3]); data.writeUInt32BE(value, 1); assert.equal(0xe7, data[1]); assert.equal(0xf9, data[2]); assert.equal(0x0a, data[3]); assert.equal(0x6d, data[4]); data.writeUInt32BE(value, 2); assert.equal(0xe7, data[2]); assert.equal(0xf9, data[3]); assert.equal(0x0a, data[4]); assert.equal(0x6d, data[5]); data.writeUInt32LE(value, 0); assert.equal(0xe7, data[3]); assert.equal(0xf9, data[2]); assert.equal(0x0a, data[1]); assert.equal(0x6d, data[0]); data.writeUInt32LE(value, 1); assert.equal(0xe7, data[4]); assert.equal(0xf9, data[3]); assert.equal(0x0a, data[2]); assert.equal(0x6d, data[1]); data.writeUInt32LE(value, 2); assert.equal(0xe7, data[5]); assert.equal(0xf9, data[4]); assert.equal(0x0a, data[3]); assert.equal(0x6d, data[2]); } function testUint(clazz) { const data = new clazz(8); var val = 1; // Test 0 to 5 bytes. for (var i = 0; i <= 5; i++) { const errmsg = `byteLength: ${i}`; assert.throws(function() { data.writeUIntBE(val, 0, i); }, /"value" argument is out of bounds/, errmsg); assert.throws(function() { data.writeUIntLE(val, 0, i); }, /"value" argument is out of bounds/, errmsg); val *= 0x100; } } test8(Buffer); test16(Buffer); test32(Buffer); testUint(Buffer);