closed-social
/
gitea

package base
import (	"os"	"testing"	"time"
	"code.gitea.io/gitea/modules/setting"	"github.com/Unknwon/i18n"	macaroni18n "github.com/go-macaron/i18n"	"github.com/stretchr/testify/assert")
var BaseDate time.Time
// time durations
const (	DayDur   = 24 * time.Hour	WeekDur  = 7 * DayDur	MonthDur = 30 * DayDur	YearDur  = 12 * MonthDur)
func TestMain(m *testing.M) {	// setup
	macaroni18n.I18n(macaroni18n.Options{		Directory:   "../../options/locale/",		DefaultLang: "en-US",		Langs:       []string{"en-US"},		Names:       []string{"english"},	})	BaseDate = time.Date(2000, time.January, 1, 0, 0, 0, 0, time.UTC)
	// run the tests
	retVal := m.Run()
	os.Exit(retVal)}
func TestEncodeMD5(t *testing.T) {	assert.Equal(t,		"3858f62230ac3c915f300c664312c63f",		EncodeMD5("foobar"),	)}
func TestEncodeSha1(t *testing.T) {	assert.Equal(t,		"8843d7f92416211de9ebb963ff4ce28125932878",		EncodeSha1("foobar"),	)}
func TestShortSha(t *testing.T) {	assert.Equal(t, "veryverylo", ShortSha("veryverylong"))}
func TestDetectEncoding(t *testing.T) {	testSuccess := func(b []byte, expected string) {		encoding, err := DetectEncoding(b)		assert.NoError(t, err)		assert.Equal(t, expected, encoding)	}	// utf-8
	b := []byte("just some ascii")	testSuccess(b, "UTF-8")
	// utf-8-sig: "hey" (with BOM)
	b = []byte{0xef, 0xbb, 0xbf, 0x68, 0x65, 0x79}	testSuccess(b, "UTF-8")
	// utf-16: "hey<accented G>"
	b = []byte{0xff, 0xfe, 0x68, 0x00, 0x65, 0x00, 0x79, 0x00, 0xf4, 0x01}	testSuccess(b, "UTF-16LE")
	// iso-8859-1: d<accented e>cor<newline>
	b = []byte{0x44, 0xe9, 0x63, 0x6f, 0x72, 0x0a}	encoding, err := DetectEncoding(b)	assert.NoError(t, err)	// due to a race condition in `chardet` library, it could either detect
	// "ISO-8859-1" or "IS0-8859-2" here. Technically either is correct, so
	// we accept either.
	assert.Contains(t, encoding, "ISO-8859")
	setting.Repository.AnsiCharset = "placeholder"	testSuccess(b, "placeholder")
	// invalid bytes
	b = []byte{0xfa}	_, err = DetectEncoding(b)	assert.Error(t, err)}
func TestBasicAuthDecode(t *testing.T) {	_, _, err := BasicAuthDecode("?")	assert.Equal(t, "illegal base64 data at input byte 0", err.Error())
	user, pass, err := BasicAuthDecode("Zm9vOmJhcg==")	assert.NoError(t, err)	assert.Equal(t, "foo", user)	assert.Equal(t, "bar", pass)}
func TestBasicAuthEncode(t *testing.T) {	assert.Equal(t, "Zm9vOmJhcg==", BasicAuthEncode("foo", "bar"))}
func TestGetRandomString(t *testing.T) {	randomString, err := GetRandomString(4)	assert.NoError(t, err)	assert.Len(t, randomString, 4)}
// TODO: Test PBKDF2()
// TODO: Test VerifyTimeLimitCode()
// TODO: Test CreateTimeLimitCode()

func TestHashEmail(t *testing.T) {	assert.Equal(t,		"d41d8cd98f00b204e9800998ecf8427e",		HashEmail(""),	)	assert.Equal(t,		"353cbad9b58e69c96154ad99f92bedc7",		HashEmail("gitea@example.com"),	)}
func TestAvatarLink(t *testing.T) {	setting.EnableFederatedAvatar = false	setting.LibravatarService = nil	setting.DisableGravatar = true
	assert.Equal(t, "/img/avatar_default.png", AvatarLink(""))
	setting.DisableGravatar = false	assert.Equal(t,		"353cbad9b58e69c96154ad99f92bedc7?d=identicon",		AvatarLink("gitea@example.com"),	)}
func TestComputeTimeDiff(t *testing.T) {	// test that for each offset in offsets,
	// computeTimeDiff(base + offset) == (offset, str)
	test := func(base int64, str string, offsets ...int64) {		for _, offset := range offsets {			diff, diffStr := computeTimeDiff(base+offset, "en")			assert.Equal(t, offset, diff)			assert.Equal(t, str, diffStr)		}	}	test(0, "now", 0)	test(1, "1 second", 0)	test(2, "2 seconds", 0)	test(Minute, "1 minute", 0, 1, 30, Minute-1)	test(2*Minute, "2 minutes", 0, Minute-1)	test(Hour, "1 hour", 0, 1, Hour-1)	test(5*Hour, "5 hours", 0, Hour-1)	test(Day, "1 day", 0, 1, Day-1)	test(5*Day, "5 days", 0, Day-1)	test(Week, "1 week", 0, 1, Week-1)	test(3*Week, "3 weeks", 0, 4*Day+25000)	test(Month, "1 month", 0, 1, Month-1)	test(10*Month, "10 months", 0, Month-1)	test(Year, "1 year", 0, Year-1)	test(3*Year, "3 years", 0, Year-1)}
func TestMinutesToFriendly(t *testing.T) {	// test that a number of minutes yields the expected string
	test := func(expected string, minutes int) {		actual := MinutesToFriendly(minutes, "en")		assert.Equal(t, expected, actual)	}	test("1 minute", 1)	test("2 minutes", 2)	test("1 hour", 60)	test("1 hour, 1 minute", 61)	test("1 hour, 2 minutes", 62)	test("2 hours", 120)}
func TestTimeSince(t *testing.T) {	assert.Equal(t, "now", timeSince(BaseDate, BaseDate, "en"))
	// test that each diff in `diffs` yields the expected string
	test := func(expected string, diffs ...time.Duration) {		for _, diff := range diffs {			actual := timeSince(BaseDate, BaseDate.Add(diff), "en")			assert.Equal(t, i18n.Tr("en", "tool.ago", expected), actual)			actual = timeSince(BaseDate.Add(diff), BaseDate, "en")			assert.Equal(t, i18n.Tr("en", "tool.from_now", expected), actual)		}	}	test("1 second", time.Second, time.Second+50*time.Millisecond)	test("2 seconds", 2*time.Second, 2*time.Second+50*time.Millisecond)	test("1 minute", time.Minute, time.Minute+30*time.Second)	test("2 minutes", 2*time.Minute, 2*time.Minute+30*time.Second)	test("1 hour", time.Hour, time.Hour+30*time.Minute)	test("2 hours", 2*time.Hour, 2*time.Hour+30*time.Minute)	test("1 day", DayDur, DayDur+12*time.Hour)	test("2 days", 2*DayDur, 2*DayDur+12*time.Hour)	test("1 week", WeekDur, WeekDur+3*DayDur)	test("2 weeks", 2*WeekDur, 2*WeekDur+3*DayDur)	test("1 month", MonthDur, MonthDur+15*DayDur)	test("2 months", 2*MonthDur, 2*MonthDur+15*DayDur)	test("1 year", YearDur, YearDur+6*MonthDur)	test("2 years", 2*YearDur, 2*YearDur+6*MonthDur)}
func TestTimeSincePro(t *testing.T) {	assert.Equal(t, "now", timeSincePro(BaseDate, BaseDate, "en"))
	// test that a difference of `diff` yields the expected string
	test := func(expected string, diff time.Duration) {		actual := timeSincePro(BaseDate, BaseDate.Add(diff), "en")		assert.Equal(t, expected, actual)		assert.Equal(t, "future", timeSincePro(BaseDate.Add(diff), BaseDate, "en"))	}	test("1 second", time.Second)	test("2 seconds", 2*time.Second)	test("1 minute", time.Minute)	test("1 minute, 1 second", time.Minute+time.Second)	test("1 minute, 59 seconds", time.Minute+59*time.Second)	test("2 minutes", 2*time.Minute)	test("1 hour", time.Hour)	test("1 hour, 1 second", time.Hour+time.Second)	test("1 hour, 59 minutes, 59 seconds", time.Hour+59*time.Minute+59*time.Second)	test("2 hours", 2*time.Hour)	test("1 day", DayDur)	test("1 day, 23 hours, 59 minutes, 59 seconds",		DayDur+23*time.Hour+59*time.Minute+59*time.Second)	test("2 days", 2*DayDur)	test("1 week", WeekDur)	test("2 weeks", 2*WeekDur)	test("1 month", MonthDur)	test("3 months", 3*MonthDur)	test("1 year", YearDur)	test("2 years, 3 months, 1 week, 2 days, 4 hours, 12 minutes, 17 seconds",		2*YearDur+3*MonthDur+WeekDur+2*DayDur+4*time.Hour+			12*time.Minute+17*time.Second)}
func TestHtmlTimeSince(t *testing.T) {	setting.TimeFormat = time.UnixDate	// test that `diff` yields a result containing `expected`
	test := func(expected string, diff time.Duration) {		actual := htmlTimeSince(BaseDate, BaseDate.Add(diff), "en")		assert.Contains(t, actual, `title="Sat Jan  1 00:00:00 UTC 2000"`)		assert.Contains(t, actual, expected)	}	test("1 second", time.Second)	test("3 minutes", 3*time.Minute+5*time.Second)	test("1 day", DayDur+18*time.Hour)	test("1 week", WeekDur+6*DayDur)	test("3 months", 3*MonthDur+3*WeekDur)	test("2 years", 2*YearDur)	test("3 years", 3*YearDur+11*MonthDur+4*WeekDur)}
func TestFileSize(t *testing.T) {	var size int64	size = 512	assert.Equal(t, "512B", FileSize(size))	size = size * 1024	assert.Equal(t, "512KB", FileSize(size))	size = size * 1024	assert.Equal(t, "512MB", FileSize(size))	size = size * 1024	assert.Equal(t, "512GB", FileSize(size))	size = size * 1024	assert.Equal(t, "512TB", FileSize(size))	size = size * 1024	assert.Equal(t, "512PB", FileSize(size))	size = size * 4	assert.Equal(t, "2.0EB", FileSize(size))}
func TestSubtract(t *testing.T) {	toFloat64 := func(n interface{}) float64 {		switch n.(type) {		case int:			return float64(n.(int))		case int8:			return float64(n.(int8))		case int16:			return float64(n.(int16))		case int32:			return float64(n.(int32))		case int64:			return float64(n.(int64))		case float32:			return float64(n.(float32))		case float64:			return n.(float64)		default:			return 0.0		}	}	values := []interface{}{		int(-3),		int8(14),		int16(81),		int32(-156),		int64(1528),		float32(3.5),		float64(-15.348),	}	for _, left := range values {		for _, right := range values {			expected := toFloat64(left) - toFloat64(right)			sub := Subtract(left, right)			assert.InDelta(t, expected, sub, 1e-3)		}	}}
func TestEllipsisString(t *testing.T) {	assert.Equal(t, "...", EllipsisString("foobar", 0))	assert.Equal(t, "...", EllipsisString("foobar", 1))	assert.Equal(t, "...", EllipsisString("foobar", 2))	assert.Equal(t, "...", EllipsisString("foobar", 3))	assert.Equal(t, "f...", EllipsisString("foobar", 4))	assert.Equal(t, "fo...", EllipsisString("foobar", 5))	assert.Equal(t, "foobar", EllipsisString("foobar", 6))	assert.Equal(t, "foobar", EllipsisString("foobar", 10))}
func TestTruncateString(t *testing.T) {	assert.Equal(t, "", TruncateString("foobar", 0))	assert.Equal(t, "f", TruncateString("foobar", 1))	assert.Equal(t, "fo", TruncateString("foobar", 2))	assert.Equal(t, "foo", TruncateString("foobar", 3))	assert.Equal(t, "foob", TruncateString("foobar", 4))	assert.Equal(t, "fooba", TruncateString("foobar", 5))	assert.Equal(t, "foobar", TruncateString("foobar", 6))	assert.Equal(t, "foobar", TruncateString("foobar", 7))}
func TestStringsToInt64s(t *testing.T) {	testSuccess := func(input []string, expected []int64) {		result, err := StringsToInt64s(input)		assert.NoError(t, err)		assert.Equal(t, expected, result)	}	testSuccess([]string{}, []int64{})	testSuccess([]string{"-1234"}, []int64{-1234})	testSuccess([]string{"1", "4", "16", "64", "256"},		[]int64{1, 4, 16, 64, 256})
	_, err := StringsToInt64s([]string{"-1", "a", "$"})	assert.Error(t, err)}
func TestInt64sToStrings(t *testing.T) {	assert.Equal(t, []string{}, Int64sToStrings([]int64{}))	assert.Equal(t,		[]string{"1", "4", "16", "64", "256"},		Int64sToStrings([]int64{1, 4, 16, 64, 256}),	)}
func TestInt64sToMap(t *testing.T) {	assert.Equal(t, map[int64]bool{}, Int64sToMap([]int64{}))	assert.Equal(t,		map[int64]bool{1: true, 4: true, 16: true},		Int64sToMap([]int64{1, 4, 16}),	)}
func TestIsLetter(t *testing.T) {	assert.True(t, IsLetter('a'))	assert.True(t, IsLetter('e'))	assert.True(t, IsLetter('q'))	assert.True(t, IsLetter('z'))	assert.True(t, IsLetter('A'))	assert.True(t, IsLetter('E'))	assert.True(t, IsLetter('Q'))	assert.True(t, IsLetter('Z'))	assert.True(t, IsLetter('_'))	assert.False(t, IsLetter('-'))	assert.False(t, IsLetter('1'))	assert.False(t, IsLetter('$'))}
func TestIsTextFile(t *testing.T) {	assert.True(t, IsTextFile([]byte{}))	assert.True(t, IsTextFile([]byte("lorem ipsum")))}
// TODO: IsImageFile(), currently no idea how to test
// TODO: IsPDFFile(), currently no idea how to test