const { ipcRenderer } = require('electron'); const fs = require('fs'); const path = require('path'); const { expect } = require('chai'); describe('process module', () => { describe('process.getCreationTime()', () => { it('returns a creation time', () => { const creationTime = process.getCreationTime(); expect(creationTime).to.be.a('number').and.be.at.least(0); }); }); describe('process.getCPUUsage()', () => { it('returns a cpu usage object', () => { const cpuUsage = process.getCPUUsage(); expect(cpuUsage.percentCPUUsage).to.be.a('number'); expect(cpuUsage.idleWakeupsPerSecond).to.be.a('number'); }); }); describe('process.getIOCounters()', () => { before(function () { if (process.platform === 'darwin') { this.skip(); } }); it('returns an io counters object', () => { const ioCounters = process.getIOCounters(); expect(ioCounters.readOperationCount).to.be.a('number'); expect(ioCounters.writeOperationCount).to.be.a('number'); expect(ioCounters.otherOperationCount).to.be.a('number'); expect(ioCounters.readTransferCount).to.be.a('number'); expect(ioCounters.writeTransferCount).to.be.a('number'); expect(ioCounters.otherTransferCount).to.be.a('number'); }); }); describe('process.getBlinkMemoryInfo()', () => { it('returns blink memory information object', () => { const heapStats = process.getBlinkMemoryInfo(); expect(heapStats.allocated).to.be.a('number'); expect(heapStats.total).to.be.a('number'); }); }); describe('process.getProcessMemoryInfo()', async () => { it('resolves promise successfully with valid data', async () => { const memoryInfo = await process.getProcessMemoryInfo(); expect(memoryInfo).to.be.an('object'); if (process.platform === 'linux' || process.platform === 'windows') { expect(memoryInfo.residentSet).to.be.a('number').greaterThan(0); } expect(memoryInfo.private).to.be.a('number').greaterThan(0); // Shared bytes can be zero expect(memoryInfo.shared).to.be.a('number').greaterThan(-1); }); }); describe('process.getSystemMemoryInfo()', () => { it('returns system memory info object', () => { const systemMemoryInfo = process.getSystemMemoryInfo(); expect(systemMemoryInfo.free).to.be.a('number'); expect(systemMemoryInfo.total).to.be.a('number'); }); }); describe('process.getSystemVersion()', () => { it('returns a string', () => { expect(process.getSystemVersion()).to.be.a('string'); }); }); describe('process.getHeapStatistics()', () => { it('returns heap statistics object', () => { const heapStats = process.getHeapStatistics(); expect(heapStats.totalHeapSize).to.be.a('number'); expect(heapStats.totalHeapSizeExecutable).to.be.a('number'); expect(heapStats.totalPhysicalSize).to.be.a('number'); expect(heapStats.totalAvailableSize).to.be.a('number'); expect(heapStats.usedHeapSize).to.be.a('number'); expect(heapStats.heapSizeLimit).to.be.a('number'); expect(heapStats.mallocedMemory).to.be.a('number'); expect(heapStats.peakMallocedMemory).to.be.a('number'); expect(heapStats.doesZapGarbage).to.be.a('boolean'); }); }); describe('process.takeHeapSnapshot()', () => { it('returns true on success', async () => { const filePath = path.join(await ipcRenderer.invoke('get-temp-dir'), 'test.heapsnapshot'); const cleanup = () => { try { fs.unlinkSync(filePath); } catch (e) { // ignore error } }; try { const success = process.takeHeapSnapshot(filePath); expect(success).to.be.true(); const stats = fs.statSync(filePath); expect(stats.size).not.to.be.equal(0); } finally { cleanup(); } }); it('returns false on failure', () => { const success = process.takeHeapSnapshot(''); expect(success).to.be.false(); }); }); describe('process.contextId', () => { it('is a string', () => { expect(process.contextId).to.be.a('string'); }); }); });