overleaf/libraries/metrics/memory.js

/*
 * decaffeinate suggestions:
 * DS102: Remove unnecessary code created because of implicit returns
 * DS207: Consider shorter variations of null checks
 * Full docs: https://github.com/decaffeinate/decaffeinate/blob/master/docs/suggestions.md
 */
// record memory usage each minute and run a periodic gc(), keeping cpu
// usage within allowable range of 1ms per minute. Also, dynamically
// adjust the period between gc()'s to reach a target of the gc saving
// 4 megabytes each time.

let MemoryMonitor;
const oneMinute = 60 * 1000;
const oneMegaByte = 1024 * 1024;

let CpuTimeBucket = 100; // current cpu time allowance in milliseconds
const CpuTimeBucketMax = 100; // maximum amount of cpu time allowed in bucket
const CpuTimeBucketRate = 10; // add this many milliseconds per minute

let gcInterval = 1; // how many minutes between gc (parameter is dynamically adjusted)
let countSinceLastGc = 0; // how many minutes since last gc
const MemoryChunkSize = 4; // how many megabytes we need to free to consider gc worth doing

const readyToGc = function() {
	// update allowed cpu time
	CpuTimeBucket = CpuTimeBucket + CpuTimeBucketRate;
	CpuTimeBucket = CpuTimeBucket < CpuTimeBucketMax ? CpuTimeBucket : CpuTimeBucketMax;
	// update counts since last gc
	countSinceLastGc = countSinceLastGc + 1;
	// check there is enough time since last gc and we have enough cpu
	return (countSinceLastGc > gcInterval) && (CpuTimeBucket > 0);
};

const executeAndTime = function(fn) {
	// time the execution of fn() and subtract from cpu allowance
	const t0 = process.hrtime();
	fn();
	const dt = process.hrtime(t0);
	const timeTaken = (dt[0] + (dt[1]*1e-9)) * 1e3; // in milliseconds
	CpuTimeBucket -= Math.ceil(timeTaken);
	return timeTaken;
};

const inMegaBytes = function(obj) {
	// convert process.memoryUsage hash {rss,heapTotal,heapFreed} into megabytes
	const result = {};
	for (let k in obj) {
		const v = obj[k];
		result[k] = (v / oneMegaByte).toFixed(2);
	}
	return result;
};

const updateMemoryStats = function(oldMem, newMem) {
	countSinceLastGc = 0;
	const delta = {};
	for (let k in newMem) {
		delta[k] = (newMem[k] - oldMem[k]).toFixed(2);
	}
	// take the max of all memory measures
	const savedMemory = Math.max(-delta.rss, -delta.heapTotal, -delta.heapUsed);
	delta.megabytesFreed = savedMemory;
	// did it do any good?
	if (savedMemory < MemoryChunkSize) {
		gcInterval = gcInterval + 1; // no, so wait longer next time
	} else {
		gcInterval = Math.max(gcInterval - 1, 1); // yes, wait less time
	}
	return delta;
};

module.exports = (MemoryMonitor = {
	monitor(logger) {
		const interval = setInterval(() => MemoryMonitor.Check(logger)
		, oneMinute);
		const Metrics = require("./metrics");
		return Metrics.registerDestructor(() => clearInterval(interval));
	},

	Check(logger) {
		let mem;
		const Metrics = require("./metrics");
		const memBeforeGc = (mem = inMegaBytes(process.memoryUsage()));
		Metrics.gauge("memory.rss", mem.rss);
		Metrics.gauge("memory.heaptotal", mem.heapTotal);
		Metrics.gauge("memory.heapused", mem.heapUsed);
		Metrics.gauge("memory.gc-interval", gcInterval);
		//Metrics.gauge("memory.cpu-time-bucket", CpuTimeBucket)

		logger.log(mem, "process.memoryUsage()");

		if ((global.gc != null) && readyToGc()) {
			const gcTime = (executeAndTime(global.gc)).toFixed(2);
			const memAfterGc = inMegaBytes(process.memoryUsage());
			const deltaMem = updateMemoryStats(memBeforeGc, memAfterGc);
			logger.log({gcTime, memBeforeGc, memAfterGc, deltaMem, gcInterval, CpuTimeBucket}, "global.gc() forced");
			//Metrics.timing("memory.gc-time", gcTime)
			Metrics.gauge("memory.gc-rss-freed", -deltaMem.rss);
			Metrics.gauge("memory.gc-heaptotal-freed", -deltaMem.heapTotal);
			return Metrics.gauge("memory.gc-heapused-freed",  -deltaMem.heapUsed);
		}
	}
});
decaffeinate 2020-07-17 11:01:58 -04:00			`/*`
			`* decaffeinate suggestions:`
			`* DS102: Remove unnecessary code created because of implicit returns`
			`* DS207: Consider shorter variations of null checks`
			`* Full docs: https://github.com/decaffeinate/decaffeinate/blob/master/docs/suggestions.md`
			`*/`
			`// record memory usage each minute and run a periodic gc(), keeping cpu`
			`// usage within allowable range of 1ms per minute. Also, dynamically`
			`// adjust the period between gc()'s to reach a target of the gc saving`
			`// 4 megabytes each time.`

			`let MemoryMonitor;`
			`const oneMinute = 60 * 1000;`
			`const oneMegaByte = 1024 * 1024;`

			`let CpuTimeBucket = 100; // current cpu time allowance in milliseconds`
			`const CpuTimeBucketMax = 100; // maximum amount of cpu time allowed in bucket`
			`const CpuTimeBucketRate = 10; // add this many milliseconds per minute`

			`let gcInterval = 1; // how many minutes between gc (parameter is dynamically adjusted)`
			`let countSinceLastGc = 0; // how many minutes since last gc`
			`const MemoryChunkSize = 4; // how many megabytes we need to free to consider gc worth doing`

			`const readyToGc = function() {`
			`// update allowed cpu time`
			`CpuTimeBucket = CpuTimeBucket + CpuTimeBucketRate;`
			`CpuTimeBucket = CpuTimeBucket < CpuTimeBucketMax ? CpuTimeBucket : CpuTimeBucketMax;`
			`// update counts since last gc`
			`countSinceLastGc = countSinceLastGc + 1;`
			`// check there is enough time since last gc and we have enough cpu`
			`return (countSinceLastGc > gcInterval) && (CpuTimeBucket > 0);`
			`};`

			`const executeAndTime = function(fn) {`
			`// time the execution of fn() and subtract from cpu allowance`
			`const t0 = process.hrtime();`
			`fn();`
			`const dt = process.hrtime(t0);`
			`const timeTaken = (dt[0] + (dt[1]1e-9)) 1e3; // in milliseconds`
			`CpuTimeBucket -= Math.ceil(timeTaken);`
			`return timeTaken;`
			`};`

			`const inMegaBytes = function(obj) {`
			`// convert process.memoryUsage hash {rss,heapTotal,heapFreed} into megabytes`
			`const result = {};`
			`for (let k in obj) {`
			`const v = obj[k];`
			`result[k] = (v / oneMegaByte).toFixed(2);`
			`}`
			`return result;`
			`};`

			`const updateMemoryStats = function(oldMem, newMem) {`
			`countSinceLastGc = 0;`
			`const delta = {};`
			`for (let k in newMem) {`
			`delta[k] = (newMem[k] - oldMem[k]).toFixed(2);`
			`}`
			`// take the max of all memory measures`
			`const savedMemory = Math.max(-delta.rss, -delta.heapTotal, -delta.heapUsed);`
			`delta.megabytesFreed = savedMemory;`
			`// did it do any good?`
			`if (savedMemory < MemoryChunkSize) {`
			`gcInterval = gcInterval + 1; // no, so wait longer next time`
			`} else {`
			`gcInterval = Math.max(gcInterval - 1, 1); // yes, wait less time`
			`}`
			`return delta;`
			`};`

			`module.exports = (MemoryMonitor = {`
			`monitor(logger) {`
			`const interval = setInterval(() => MemoryMonitor.Check(logger)`
			`, oneMinute);`
			`const Metrics = require("./metrics");`
			`return Metrics.registerDestructor(() => clearInterval(interval));`
			`},`

			`Check(logger) {`
			`let mem;`
			`const Metrics = require("./metrics");`
			`const memBeforeGc = (mem = inMegaBytes(process.memoryUsage()));`
			`Metrics.gauge("memory.rss", mem.rss);`
			`Metrics.gauge("memory.heaptotal", mem.heapTotal);`
			`Metrics.gauge("memory.heapused", mem.heapUsed);`
			`Metrics.gauge("memory.gc-interval", gcInterval);`
			`//Metrics.gauge("memory.cpu-time-bucket", CpuTimeBucket)`

			`logger.log(mem, "process.memoryUsage()");`

			`if ((global.gc != null) && readyToGc()) {`
			`const gcTime = (executeAndTime(global.gc)).toFixed(2);`
			`const memAfterGc = inMegaBytes(process.memoryUsage());`
			`const deltaMem = updateMemoryStats(memBeforeGc, memAfterGc);`
			`logger.log({gcTime, memBeforeGc, memAfterGc, deltaMem, gcInterval, CpuTimeBucket}, "global.gc() forced");`
			`//Metrics.timing("memory.gc-time", gcTime)`
			`Metrics.gauge("memory.gc-rss-freed", -deltaMem.rss);`
			`Metrics.gauge("memory.gc-heaptotal-freed", -deltaMem.heapTotal);`
			`return Metrics.gauge("memory.gc-heapused-freed", -deltaMem.heapUsed);`
			`}`
			`}`
			`});`