package zxcvbn import ( "testing" "math" "strconv" "fmt" ) /** Use these test to see how close to feature parity the library is. */ const ( allowableError = float64(0.01) ) type failedTest struct { Password string Expect float64 Actual float64 PError float64 } var failedTests []failedTest var numTestRan int func TestPasswordStrength(t *testing.T) { //Expected calculated by running zxcvbn-python runTest(t, "zxcvbn", float64(6.845490050944376)) runTest(t, "Tr0ub4dour&3",float64(17.296) ) runTest(t,"qwER43@!", float64(26.44) ) runTest(t,"correcthorsebatterystaple", float64(45.212) ) runTest(t,"coRrecth0rseba++ery9.23.2007staple$", float64(66.018) ) runTest(t,"D0g..................", float64(20.678) ) runTest(t, "abcdefghijk987654321", float64(11.951)) runTest(t, "neverforget13/3/1997", float64(32.628)) runTest(t, "1qaz2wsx3edc", float64(19.314)) runTest(t, "temppass22", float64(22.179)) runTest(t, "briansmith", float64(4.322)) runTest(t, "briansmith4mayor", float64(18.64)) runTest(t, "password1", float64(2.0)) runTest(t, "viking", float64(7.531)) runTest(t, "thx1138", float64(7.426)) runTest(t, "ScoRpi0ns", float64(20.621)) runTest(t, "do you know", float64(4.585)) runTest(t, "ryanhunter2000", float64(14.506)) runTest(t, "rianhunter2000", float64(21.734)) runTest(t, "asdfghju7654rewq", float64(29.782)) runTest(t, "AOEUIDHG&*()LS_", float64(33.254)) runTest(t, "12345678", float64(1.585)) runTest(t, "defghi6789", float64(12.607)) runTest(t, "rosebud", float64(7.937)) runTest(t, "Rosebud", float64(8.937)) runTest(t, "ROSEBUD", float64(8.937)) runTest(t, "rosebuD", float64(8.937)) runTest(t, "ros3bud99", float64(19.276)) runTest(t, "r0s3bud99", float64(19.276)) runTest(t, "R0$38uD99", float64(34.822)) runTest(t, "verlineVANDERMARK", float64(26.293)) runTest(t, "eheuczkqyq", float64(42.813)) runTest(t, "rWibMFACxAUGZmxhVncy", float64(104.551)) runTest(t, "Ba9ZyWABu99[BK#6MBgbH88Tofv)vs$", float64(161.278)) formatString := "%s : error should be less than %.2f \t Acctual error was: %.4f \t Expected entropy %.4f \t Actual entropy %.4f \n" for _, test := range failedTests { fmt.Printf(formatString, test.Password, allowableError, test.PError, test.Expect, test.Actual) } pTestPassed := (float64(numTestRan - len(failedTests))/ float64(numTestRan))* float64(100) fmt.Println("\n % of the test passed " + strconv.FormatFloat(pTestPassed, 'f', -1, 64) ) } func runTest(t *testing.T, password string, pythonEntropy float64) { //Calculated by running it through python-zxcvbn goEntropy := GoPasswordStrength(password, nil) perror := math.Abs(goEntropy-pythonEntropy)/pythonEntropy numTestRan++ if perror > allowableError { failedTests = append(failedTests, failedTest{Password:password, Expect:pythonEntropy, Actual:goEntropy,PError:perror}) } } func GoPasswordStrength(password string, userInputs []string) float64 { return PasswordStrength(password, userInputs).Entropy }