관리-도구
편집 파일: dropper.js
var BlockStream = require("dropper") var blockSizes = [16, 25, 1024] , writeSizes = [4, 8, 15, 16, 17, 64, 100] , writeCounts = [1, 10, 100] , tap = require("tap") writeCounts.forEach(function (writeCount) { blockSizes.forEach(function (blockSize) { writeSizes.forEach(function (writeSize) { tap.test("writeSize=" + writeSize + " blockSize="+blockSize + " writeCount="+writeCount, function (t) { var f = new BlockStream(blockSize, {nopad: true }) var actualChunks = 0 var actualBytes = 0 var timeouts = 0 f.on("data", function (c) { timeouts ++ actualChunks ++ actualBytes += c.length // make sure that no data gets corrupted, and basic sanity var before = c.toString() // simulate a slow write operation setTimeout(function () { timeouts -- var after = c.toString() t.equal(after, before, "should not change data") // now corrupt it, to find leaks. for (var i = 0; i < c.length; i ++) { c[i] = "x".charCodeAt(0) } }, 100) }) f.on("end", function () { // round up to the nearest block size var expectChunks = Math.ceil(writeSize * writeCount * 2 / blockSize) var expectBytes = writeSize * writeCount * 2 t.equal(actualBytes, expectBytes, "bytes=" + expectBytes + " writeSize=" + writeSize) t.equal(actualChunks, expectChunks, "chunks=" + expectChunks + " writeSize=" + writeSize) // wait for all the timeout checks to finish, then end the test setTimeout(function WAIT () { if (timeouts > 0) return setTimeout(WAIT) t.end() }, 100) }) for (var i = 0; i < writeCount; i ++) { var a = new Buffer(writeSize); for (var j = 0; j < writeSize; j ++) a[j] = "a".charCodeAt(0) var b = new Buffer(writeSize); for (var j = 0; j < writeSize; j ++) b[j] = "b".charCodeAt(0) f.write(a) f.write(b) } f.end() }) }) }) })