grafana/pkg/util/encoding_test.go

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package util
import (
"math"
"strings"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func TestGetBasicAuthHeader_Encoding(t *testing.T) {
t.Run("generating base64 header", func(t *testing.T) {
result := GetBasicAuthHeader("grafana", "1234")
assert.Equal(t, "Basic Z3JhZmFuYToxMjM0", result)
})
t.Run("decoding basic auth header", func(t *testing.T) {
header := GetBasicAuthHeader("grafana", "1234")
username, password, err := DecodeBasicAuthHeader(header)
require.NoError(t, err)
assert.Equal(t, "grafana", username)
assert.Equal(t, "1234", password)
})
}
func TestEncodePassword(t *testing.T) {
encodedPassword, err := EncodePassword("iamgod", "pepper")
require.NoError(t, err)
assert.Equal(
t,
"e59c568621e57756495a468f47c74e07c911b037084dd464bb2ed72410970dc849cabd71b48c394faf08a5405dae53741ce9",
encodedPassword,
)
}
func TestDecodeQuotedPrintable(t *testing.T) {
t.Run("should return not encoded string as is", func(t *testing.T) {
testStrings := []struct {
in string
out string
}{
{"", ""},
{"munich", "munich"},
{" munich", " munich"},
{"munich gothenburg", "munich gothenburg"},
{"München", "München"},
{"München Göteborg", "München Göteborg"},
}
for _, str := range testStrings {
val := DecodeQuotedPrintable(str.in)
assert.Equal(t, str.out, val)
}
})
t.Run("should decode encoded string", func(t *testing.T) {
testStrings := []struct {
in string
out string
}{
{"M=C3=BCnchen", "München"},
{"M=C3=BCnchen G=C3=B6teborg", "München Göteborg"},
{"=E5=85=AC=E5=8F=B8", "公司"},
}
for _, str := range testStrings {
val := DecodeQuotedPrintable(str.in)
assert.Equal(t, str.out, val)
}
})
t.Run("should preserve meaningful whitespace", func(t *testing.T) {
testStrings := []struct {
in string
out string
}{
{" ", ""},
{" =", " "},
{" munich gothenburg", " munich gothenburg"},
{" munich gothenburg ", " munich gothenburg"},
{" munich gothenburg =", " munich gothenburg "},
{" munich\tgothenburg\t \t", " munich\tgothenburg"},
{" munich\t gothenburg\t \t=", " munich\t gothenburg\t \t"},
}
for _, str := range testStrings {
val := DecodeQuotedPrintable(str.in)
assert.Equal(t, str.out, val)
}
})
t.Run("should gracefully ignore invalid encoding sequences", func(t *testing.T) {
testStrings := []struct {
in string
out string
}{
{"=XY=ZZ", "=XY=ZZ"},
{"==58", "=X"},
{"munich = gothenburg", "munich = gothenburg"},
{"munich == tromso", "munich == tromso"},
}
for _, str := range testStrings {
val := DecodeQuotedPrintable(str.in)
assert.Equal(t, str.out, val)
}
})
t.Run("should return invalid UTF-8 sequences as is", func(t *testing.T) {
testStrings := []struct {
in string
out string
}{
{"=E5 =85=AC =E5=8F =B8", "\xE5 \x85\xAC \xE5\x8F \xB8"},
{"=00=00munich=FF=FF", "\x00\x00munich\xFF\xFF"},
}
for _, str := range testStrings {
val := DecodeQuotedPrintable(str.in)
assert.Equal(t, str.out, val)
}
})
t.Run("should support long strings", func(t *testing.T) {
str_in := strings.Repeat(" M=C3=BCnchen", 128)
str_out := strings.Repeat(" München", 128)
val := DecodeQuotedPrintable(str_in)
assert.Equal(t, str_out, val)
})
}
func TestGetRandomString(t *testing.T) {
charset := "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"
chars := len(charset)
length := 20
rounds := 50_000
// Generate random strings and count the frequency of each character
m := make(map[string]int)
for i := 0; i < rounds; i++ {
r, err := GetRandomString(length)
require.NoError(t, err)
for _, c := range r {
m[string(c)]++
}
}
// Find lowest and highest frequencies
min := rounds * length
max := 0
// Calculate chi-squared statistic
expected := float64(rounds) * float64(length) / float64(chars)
chiSquared := 0.0
for _, char := range charset {
if m[string(char)] < min {
min = m[string(char)]
}
if m[string(char)] > max {
max = m[string(char)]
}
chiSquared += math.Pow(float64(m[string(char)])-expected, 2) / expected
}
// Ensure there is no more than 10% variance between lowest and highest frequency characters
assert.LessOrEqual(t, float64(max-min)/float64(min), 0.1, "Variance between lowest and highest frequency characters must be no more than 10%")
// Ensure chi-squared value is lower than the critical bound
// 99.99% probability for 61 degrees of freedom
assert.Less(t, chiSquared, 110.8397, "Chi squared value must be less than the 99.99% critical bound")
}
func TestGetRandomDigits(t *testing.T) {
charset := "0123456789"
chars := len(charset)
length := 20
rounds := 50_000
// Generate random strings and count the frequency of each character
m := make(map[string]int)
for i := 0; i < rounds; i++ {
r, err := GetRandomString(length, []byte(charset)...)
require.NoError(t, err)
for _, c := range r {
m[string(c)]++
}
}
// Find lowest and highest frequencies
min := rounds * length
max := 0
// Calculate chi-squared statistic
expected := float64(rounds) * float64(length) / float64(chars)
chiSquared := 0.0
for _, char := range charset {
if m[string(char)] < min {
min = m[string(char)]
}
if m[string(char)] > max {
max = m[string(char)]
}
chiSquared += math.Pow(float64(m[string(char)])-expected, 2) / expected
}
// Ensure there is no more than 10% variance between lowest and highest frequency characters
assert.LessOrEqual(t, float64(max-min)/float64(min), 0.1, "Variance between lowest and highest frequency characters must be no more than 10%")
// Ensure chi-squared value is lower than the critical bound
// 99.99% probability for 9 degrees of freedom
assert.Less(t, chiSquared, 33.7199, "Chi squared value must be less than the 99.99% critical bound")
}