/
memory_usage.js
342 lines (300 loc) · 15.3 KB
/
memory_usage.js
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/* eslint-disable no-console */
const assert = require('assert');
const path = require('path');
const { writeFileSync, unlinkSync } = require('fs');
const { fork } = require('child_process');
const openpgp = require('../..');
/**
* Benchmark max memory usage recorded during execution of the given function.
* This spawns a new v8 instance and runs the code there in isolation, to avoid interference between tests.
* @param {Funtion} function to benchmark (can be async)
* @returns {NodeJS.MemoryUsage} memory usage snapshot with max RSS (sizes in bytes)
*/
const benchmark = async function(fn) {
const tmpFileName = path.join(__dirname, 'tmp.js');
// the code to execute must be written to a file
writeFileSync(tmpFileName, `
const assert = require('assert');
const openpgp = require('../..');
let maxMemoryComsumption;
let activeSampling = false;
function sampleOnce() {
const memUsage = process.memoryUsage();
if (!maxMemoryComsumption || memUsage.rss > maxMemoryComsumption.rss) {
maxMemoryComsumption = memUsage;
}
}
function samplePeriodically() {
setImmediate(() => {
sampleOnce();
activeSampling && samplePeriodically();
});
}
// main body
(async () => {
maxMemoryComsumption = null;
activeSampling = true;
samplePeriodically();
await (${fn.toString()})();
// setImmediate is run at the end of the event loop, so we need to manually collect the latest sample
sampleOnce();
process.send(maxMemoryComsumption);
process.exit(); // child process doesn't exit otherwise
})();
`);
const maxMemoryComsumption = await new Promise((resolve, reject) => {
const child = fork(tmpFileName);
child.on('message', function (message) {
resolve(message);
});
child.on('error', function (err) {
reject(err);
});
});
unlinkSync(tmpFileName);
return maxMemoryComsumption;
};
const onError = err => {
console.error('The memory benchmark tests failed by throwing the following error:');
console.error(err);
// eslint-disable-next-line no-process-exit
process.exit(1);
};
class MemoryBenchamrkSuite {
constructor() {
this.tests = [];
}
add(name, fn) {
this.tests.push({ name, fn });
}
async run() {
const stats = [];
for (const { name, fn } of this.tests) {
const memoryUsage = await benchmark(fn).catch(onError);
// convert values to MB
Object.entries(memoryUsage).forEach(([name, value]) => {
memoryUsage[name] = (value / 1024 / 1024).toFixed(2);
});
const { rss, ...usageDetails } = memoryUsage;
// raw entry format accepted by github-action-pull-request-benchmark
stats.push({
name,
value: rss,
range: Object.entries(usageDetails).map(([name, value]) => `${name}: ${value}`).join(', '),
unit: 'MB',
biggerIsBetter: false
});
}
return stats;
}
}
/**
* Memory usage tests.
* All the necessary variables must be declared inside the test function.
*/
(async () => {
const suite = new MemoryBenchamrkSuite();
suite.add('empty test (baseline)', () => {});
suite.add('openpgp.encrypt/decrypt (CFB, binary)', async () => {
const ONE_MEGABYTE = 1000000;
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const plaintextMessage = await openpgp.createMessage({ binary: new Uint8Array(ONE_MEGABYTE) });
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
await openpgp.decrypt({ message: encryptedMessage, passwords, config });
});
suite.add('openpgp.encrypt/decrypt (CFB, text)', async () => {
const ONE_MEGABYTE = 1000000;
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const plaintextMessage = await openpgp.createMessage({ text: 'a'.repeat(ONE_MEGABYTE / 2) }); // two bytes per character
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
await openpgp.decrypt({ message: encryptedMessage, passwords, config });
});
suite.add('openpgp.encrypt/decrypt (AEAD, binary)', async () => {
const ONE_MEGABYTE = 1000000;
const passwords = 'password';
const config = { aeadProtect: true, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const plaintextMessage = await openpgp.createMessage({ binary: new Uint8Array(ONE_MEGABYTE) });
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.AEADEncryptedDataPacket);
await openpgp.decrypt({ message: encryptedMessage, passwords, config });
});
suite.add('openpgp.encrypt/decrypt (AEAD, text)', async () => {
const ONE_MEGABYTE = 1000000;
const passwords = 'password';
const config = { aeadProtect: true, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const plaintextMessage = await openpgp.createMessage({ text: 'a'.repeat(ONE_MEGABYTE / 2) }); // two bytes per character
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.AEADEncryptedDataPacket);
await openpgp.decrypt({ message: encryptedMessage, passwords, config });
});
// streaming tests
suite.add('openpgp.encrypt/decrypt (CFB, binary, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: new Uint8Array(ONE_MEGABYTE), numberOfChunks: 1 }));
const plaintextMessage = await openpgp.createMessage({ binary: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (CFB, text, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: 'a'.repeat(ONE_MEGABYTE / 2), numberOfChunks: 1 }));
const plaintextMessage = await openpgp.createMessage({ text: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (AEAD, binary, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: true, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: new Uint8Array(ONE_MEGABYTE), numberOfChunks: 1 }));
const plaintextMessage = await openpgp.createMessage({ binary:inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.AEADEncryptedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (AEAD, text, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: true, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: 'a'.repeat(ONE_MEGABYTE / 2), numberOfChunks: 1 }));
const plaintextMessage = await openpgp.createMessage({ text: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.AEADEncryptedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (CFB, text @ 10MB, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: 'a'.repeat(ONE_MEGABYTE / 2), numberOfChunks: 20 }));
const plaintextMessage = await openpgp.createMessage({ text: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (CFB, text @ 10MB, with unauthenticated streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: false, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: 'a'.repeat(ONE_MEGABYTE / 2), numberOfChunks: 20 }));
const plaintextMessage = await openpgp.createMessage({ text: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.SymEncryptedIntegrityProtectedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({
message: encryptedMessage,
passwords,
config: { ...config, allowUnauthenticatedStream: true }
});
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
suite.add('openpgp.encrypt/decrypt (AEAD, text @ 10MB, with streaming)', async () => {
const ONE_MEGABYTE = 1000000;
function* largeDataGenerator({ chunk, numberOfChunks }) {
for (let chunkNumber = 0; chunkNumber < numberOfChunks; chunkNumber++) {
yield chunk;
}
}
const passwords = 'password';
const config = { aeadProtect: true, preferredCompressionAlgorithm: openpgp.enums.compression.uncompressed };
const inputStream = require('stream').Readable.from(largeDataGenerator({ chunk: 'a'.repeat(ONE_MEGABYTE / 2), numberOfChunks: 20 }));
const plaintextMessage = await openpgp.createMessage({ text: inputStream });
assert(plaintextMessage.fromStream);
const armoredEncryptedMessage = await openpgp.encrypt({ message: plaintextMessage, passwords, config });
const encryptedMessage = await openpgp.readMessage({ armoredMessage: armoredEncryptedMessage });
assert.ok(encryptedMessage.packets[1] instanceof openpgp.AEADEncryptedDataPacket);
const { data: decryptedData } = await openpgp.decrypt({ message: encryptedMessage, passwords, config });
// read out output stream to trigger decryption
await new Promise(resolve => {
decryptedData.pipe(require('fs').createWriteStream('/dev/null'));
decryptedData.on('end', resolve);
});
});
const stats = await suite.run();
// Print JSON stats to stdout
console.log(JSON.stringify(stats, null, 4));
})();