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123 lines
4.5 KiB
123 lines
4.5 KiB
'use strict';
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const common = require('../common');
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const assert = require('assert');
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if (!common.hasCrypto) {
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common.skip('missing crypto');
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return;
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}
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if (!common.enoughTestMem) {
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common.skip('memory-intensive test');
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return;
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}
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const crypto = require('crypto');
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const BENCHMARK_FUNC_PATH =
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`${common.fixturesDir}/crypto-timing-safe-equal-benchmark-func`;
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function runOneBenchmark(...args) {
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const benchmarkFunc = require(BENCHMARK_FUNC_PATH);
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const result = benchmarkFunc(...args);
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// Don't let the comparison function get cached. This avoid a timing
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// inconsistency due to V8 optimization where the function would take
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// less time when called with a specific set of parameters.
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delete require.cache[require.resolve(BENCHMARK_FUNC_PATH)];
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return result;
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}
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function getTValue(compareFunc) {
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const numTrials = 1e5;
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const bufSize = 10000;
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// Perform benchmarks to verify that timingSafeEqual is actually timing-safe.
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const rawEqualBenches = Array(numTrials);
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const rawUnequalBenches = Array(numTrials);
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for (let i = 0; i < numTrials; i++) {
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if (Math.random() < 0.5) {
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// First benchmark: comparing two equal buffers
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rawEqualBenches[i] = runOneBenchmark(compareFunc, 'A', 'A', bufSize);
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// Second benchmark: comparing two unequal buffers
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rawUnequalBenches[i] = runOneBenchmark(compareFunc, 'B', 'C', bufSize);
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} else {
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// Flip the order of the benchmarks half of the time.
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rawUnequalBenches[i] = runOneBenchmark(compareFunc, 'B', 'C', bufSize);
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rawEqualBenches[i] = runOneBenchmark(compareFunc, 'A', 'A', bufSize);
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}
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}
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const equalBenches = filterOutliers(rawEqualBenches);
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const unequalBenches = filterOutliers(rawUnequalBenches);
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// Use a two-sample t-test to determine whether the timing difference between
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// the benchmarks is statistically significant.
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// https://wikipedia.org/wiki/Student%27s_t-test#Independent_two-sample_t-test
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const equalMean = mean(equalBenches);
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const unequalMean = mean(unequalBenches);
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const equalLen = equalBenches.length;
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const unequalLen = unequalBenches.length;
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const combinedStd = combinedStandardDeviation(equalBenches, unequalBenches);
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const standardErr = combinedStd * Math.sqrt(1 / equalLen + 1 / unequalLen);
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return (equalMean - unequalMean) / standardErr;
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}
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// Returns the mean of an array
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function mean(array) {
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return array.reduce((sum, val) => sum + val, 0) / array.length;
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}
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// Returns the sample standard deviation of an array
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function standardDeviation(array) {
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const arrMean = mean(array);
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const total = array.reduce((sum, val) => sum + Math.pow(val - arrMean, 2), 0);
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return Math.sqrt(total / (array.length - 1));
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}
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// Returns the common standard deviation of two arrays
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function combinedStandardDeviation(array1, array2) {
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const sum1 = Math.pow(standardDeviation(array1), 2) * (array1.length - 1);
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const sum2 = Math.pow(standardDeviation(array2), 2) * (array2.length - 1);
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return Math.sqrt((sum1 + sum2) / (array1.length + array2.length - 2));
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}
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// Filter large outliers from an array. A 'large outlier' is a value that is at
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// least 50 times larger than the mean. This prevents the tests from failing
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// due to the standard deviation increase when a function unexpectedly takes
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// a very long time to execute.
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function filterOutliers(array) {
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const arrMean = mean(array);
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return array.filter((value) => value / arrMean < 50);
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}
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// t_(0.99995, ∞)
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// i.e. If a given comparison function is indeed timing-safe, the t-test result
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// has a 99.99% chance to be below this threshold. Unfortunately, this means
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// that this test will be a bit flakey and will fail 0.01% of the time even if
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// crypto.timingSafeEqual is working properly.
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// t-table ref: http://www.sjsu.edu/faculty/gerstman/StatPrimer/t-table.pdf
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// Note that in reality there are roughly `2 * numTrials - 2` degrees of
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// freedom, not ∞. However, assuming `numTrials` is large, this doesn't
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// significantly affect the threshold.
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const T_THRESHOLD = 3.892;
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const t = getTValue(crypto.timingSafeEqual);
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assert(
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Math.abs(t) < T_THRESHOLD,
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`timingSafeEqual should not leak information from its execution time (t=${t})`
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);
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// As a sanity check to make sure the statistical tests are working, run the
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// same benchmarks again, this time with an unsafe comparison function. In this
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// case the t-value should be above the threshold.
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const unsafeCompare = (bufA, bufB) => bufA.equals(bufB);
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const t2 = getTValue(unsafeCompare);
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assert(
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Math.abs(t2) > T_THRESHOLD,
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`Buffer#equals should leak information from its execution time (t=${t2})`
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);
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