'use strict'; var common = require('../common'); var assert = require('assert'); var Readable = require('stream').Readable; test1(); test2(); function test1() { var r = new Readable(); // should not end when we get a Buffer(0) or '' as the _read result // that just means that there is *temporarily* no data, but to go // ahead and try again later. // // note that this is very unusual. it only works for crypto streams // because the other side of the stream will call read(0) to cycle // data through openssl. that's why we set the timeouts to call // r.read(0) again later, otherwise there is no more work being done // and the process just exits. var buf = new Buffer(5); buf.fill('x'); var reads = 5; r._read = function(n) { switch (reads--) { case 0: return r.push(null); // EOF case 1: return r.push(buf); case 2: setTimeout(r.read.bind(r, 0), 50); return r.push(new Buffer(0)); // Not-EOF! case 3: setTimeout(r.read.bind(r, 0), 50); return process.nextTick(function() { return r.push(new Buffer(0)); }); case 4: setTimeout(r.read.bind(r, 0), 50); return setTimeout(function() { return r.push(new Buffer(0)); }); case 5: return setTimeout(function() { return r.push(buf); }); default: throw new Error('unreachable'); } }; var results = []; function flow() { var chunk; while (null !== (chunk = r.read())) results.push(chunk + ''); } r.on('readable', flow); r.on('end', function() { results.push('EOF'); }); flow(); process.on('exit', function() { assert.deepEqual(results, [ 'xxxxx', 'xxxxx', 'EOF' ]); console.log('ok'); }); } function test2() { var r = new Readable({ encoding: 'base64' }); var reads = 5; r._read = function(n) { if (!reads--) return r.push(null); // EOF else return r.push(new Buffer('x')); }; var results = []; function flow() { var chunk; while (null !== (chunk = r.read())) results.push(chunk + ''); } r.on('readable', flow); r.on('end', function() { results.push('EOF'); }); flow(); process.on('exit', function() { assert.deepEqual(results, [ 'eHh4', 'eHg=', 'EOF' ]); console.log('ok'); }); }