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gosora/common/utils.go
Azareal b32e8d6c21 You can now disable slugs. 
Split ops.log into ops.log and requests.log
Moved the logs into the logs directory.
Moved more password validation logic in the registration route into WeakPassword().
Tweaked the WeakPassword algorithm to cover more cases and to reduce the number of false positives.
Fixed the error grammer in WeakPassword now that the linter isn't bothering me about that anymore.
Fixed BuildGuildURL().
Removed some commented logging logic.
Bad requests are no longer logged to the console.
All bad routes are logged now.
We now track the instance uptime on the Control Panel Debug Page.
Added the executables for Linux to the .gitignore file.
Added GopherJS as a dependency.

Began work on transpiling WeakPassword to JavaScript in use in the client-side logic.
2018-04-03 05:34:07 +01:00

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/*
*
* Utility Functions And Stuff
* Copyright Azareal 2017 - 2018
*
*/
package common
import (
"crypto/rand"
"encoding/base64"
"errors"
"fmt"
"math"
"os"
"strconv"
"strings"
"time"
"unicode"
)
// Version stores a Gosora version
type Version struct {
Major int
Minor int
Patch int
Tag string
TagID int
}
// TODO: Write a test for this
func (version *Version) String() (out string) {
out = strconv.Itoa(version.Major) + "." + strconv.Itoa(version.Minor) + "." + strconv.Itoa(version.Patch)
if version.Tag != "" {
out += "-" + version.Tag
if version.TagID != 0 {
out += strconv.Itoa(version.TagID)
}
}
return
}
// GenerateSafeString is for generating a cryptographically secure set of random bytes...
// TODO: Write a test for this
func GenerateSafeString(length int) (string, error) {
rb := make([]byte, length)
_, err := rand.Read(rb)
if err != nil {
return "", err
}
return base64.URLEncoding.EncodeToString(rb), nil
}
// TODO: Write a test for this
func RelativeTimeFromString(in string) (string, error) {
if in == "" {
return "", nil
}
t, err := time.Parse("2006-01-02 15:04:05", in)
if err != nil {
return "", err
}
return RelativeTime(t), nil
}
// TODO: Write a test for this
func RelativeTime(t time.Time) string {
diff := time.Since(t)
hours := diff.Hours()
seconds := diff.Seconds()
weeks := int(hours / 24 / 7)
months := int(hours / 24 / 31)
switch {
case months > 3:
if t.Year() != time.Now().Year() {
//return t.Format("Mon Jan 2 2006")
return t.Format("Jan 2 2006")
}
return t.Format("Jan 2")
case months > 1:
return fmt.Sprintf("%d months ago", months)
case months == 1:
return "a month ago"
case weeks > 1:
return fmt.Sprintf("%d weeks ago", weeks)
case int(hours/24) == 7:
return "a week ago"
case int(hours/24) == 1:
return "1 day ago"
case int(hours/24) > 1:
return fmt.Sprintf("%d days ago", int(hours/24))
case seconds <= 1:
return "a moment ago"
case seconds < 60:
return fmt.Sprintf("%d seconds ago", int(seconds))
case seconds < 120:
return "a minute ago"
case seconds < 3600:
return fmt.Sprintf("%d minutes ago", int(seconds/60))
case seconds < 7200:
return "an hour ago"
default:
return fmt.Sprintf("%d hours ago", int(seconds/60/60))
}
}
// TODO: Write a test for this
func ConvertByteUnit(bytes float64) (float64, string) {
switch {
case bytes >= float64(Petabyte):
return bytes / float64(Petabyte), "PB"
case bytes >= float64(Terabyte):
return bytes / float64(Terabyte), "TB"
case bytes >= float64(Gigabyte):
return bytes / float64(Gigabyte), "GB"
case bytes >= float64(Megabyte):
return bytes / float64(Megabyte), "MB"
case bytes >= float64(Kilobyte):
return bytes / float64(Kilobyte), "KB"
default:
return bytes, " bytes"
}
}
// TODO: Write a test for this
func ConvertByteInUnit(bytes float64, unit string) (count float64) {
switch unit {
case "PB":
count = bytes / float64(Petabyte)
case "TB":
count = bytes / float64(Terabyte)
case "GB":
count = bytes / float64(Gigabyte)
case "MB":
count = bytes / float64(Megabyte)
case "KB":
count = bytes / float64(Kilobyte)
default:
count = 0.1
}
if count < 0.1 {
count = 0.1
}
return
}
// TODO: Write a test for this
func ConvertUnit(num int) (int, string) {
switch {
case num >= 1000000000000:
return num / 1000000000000, "T"
case num >= 1000000000:
return num / 1000000000, "B"
case num >= 1000000:
return num / 1000000, "M"
case num >= 1000:
return num / 1000, "K"
default:
return num, ""
}
}
// TODO: Write a test for this
func ConvertFriendlyUnit(num int) (int, string) {
switch {
case num >= 1000000000000000:
return 0, " quadrillion"
case num >= 1000000000000:
return 0, " trillion"
case num >= 1000000000:
return num / 1000000000, " billion"
case num >= 1000000:
return num / 1000000, " million"
case num >= 1000:
return num / 1000, " thousand"
default:
return num, ""
}
}
// TODO: Make slugs optional for certain languages across the entirety of Gosora?
// TODO: Let plugins replace NameToSlug and the URL building logic with their own
func NameToSlug(name string) (slug string) {
// TODO: Do we want this reliant on config file flags? This might complicate tests and oddball uses
if !Config.BuildSlugs {
return ""
}
name = strings.TrimSpace(name)
name = strings.Replace(name, " ", " ", -1)
for _, char := range name {
if unicode.IsLower(char) || unicode.IsNumber(char) {
slug += string(char)
} else if unicode.IsUpper(char) {
slug += string(unicode.ToLower(char))
} else if unicode.IsSpace(char) {
slug += "-"
}
}
if slug == "" {
slug = "untitled"
}
return slug
}
// TODO: Write a test for this
func WeakPassword(password string, username string, email string) error {
lowPassword := strings.ToLower(password)
switch {
case password == "":
return errors.New("You didn't put in a password.")
case strings.Contains(lowPassword, strings.ToLower(username)) && len(username) > 3:
return errors.New("You can't use your username in your password.")
case strings.Contains(lowPassword, strings.ToLower(email)):
return errors.New("You can't use your email in your password.")
case len(password) < 8:
return errors.New("Your password needs to be at-least eight characters long")
}
if strings.Contains(lowPassword, "test") || /*strings.Contains(password,"123456") || */ strings.Contains(password, "123") || strings.Contains(lowPassword, "password") || strings.Contains(lowPassword, "qwerty") || strings.Contains(lowPassword, "fuck") || strings.Contains(lowPassword, "love") {
return errors.New("You may not have 'test', '123', 'password', 'qwerty', 'love' or 'fuck' in your password")
}
var charMap = make(map[rune]int)
var numbers, symbols, upper, lower int
for _, char := range password {
charItem, ok := charMap[char]
if ok {
charItem++
} else {
charItem = 1
}
charMap[char] = charItem
if unicode.IsLetter(char) {
if unicode.IsUpper(char) {
upper++
} else {
lower++
}
} else if unicode.IsNumber(char) {
numbers++
} else {
symbols++
}
}
if numbers == 0 {
return errors.New("You don't have any numbers in your password")
}
if upper == 0 {
return errors.New("You don't have any uppercase characters in your password")
}
if lower == 0 {
return errors.New("You don't have any lowercase characters in your password")
}
if len(password) < 18 {
if (len(password) / 2) > len(charMap) {
return errors.New("You don't have enough unique characters in your password")
}
} else if (len(password) / 3) > len(charMap) {
// Be a little lenient on the number of unique characters for long passwords
return errors.New("You don't have enough unique characters in your password")
}
return nil
}
// TODO: Write a test for this
func createFile(name string) error {
f, err := os.Create(name)
if err != nil {
return err
}
return f.Close()
}
// TODO: Write a test for this
func writeFile(name string, content string) (err error) {
f, err := os.Create(name)
if err != nil {
return err
}
_, err = f.WriteString(content)
if err != nil {
return err
}
err = f.Sync()
if err != nil {
return err
}
return f.Close()
}
// TODO: Write a test for this
func Stripslashes(text string) string {
text = strings.Replace(text, "/", "", -1)
return strings.Replace(text, "\\", "", -1)
}
// TODO: Write a test for this
func WordCount(input string) (count int) {
input = strings.TrimSpace(input)
if input == "" {
return 0
}
var inSpace bool
for _, value := range input {
if unicode.IsSpace(value) {
if !inSpace {
inSpace = true
}
} else if inSpace {
count++
inSpace = false
}
}
return count + 1
}
// TODO: Write a test for this
func GetLevel(score int) (level int) {
var base float64 = 25
var current, prev float64
var expFactor = 2.8
for i := 1; ; i++ {
_, bit := math.Modf(float64(i) / 10)
if bit == 0 {
expFactor += 0.1
}
current = base + math.Pow(float64(i), expFactor) + (prev / 3)
prev = current
if float64(score) < current {
break
}
level++
}
return level
}
// TODO: Write a test for this
func GetLevelScore(getLevel int) (score int) {
var base float64 = 25
var current, prev float64
var level int
expFactor := 2.8
for i := 1; ; i++ {
_, bit := math.Modf(float64(i) / 10)
if bit == 0 {
expFactor += 0.1
}
current = base + math.Pow(float64(i), expFactor) + (prev / 3)
prev = current
level++
if level <= getLevel {
break
}
}
return int(math.Ceil(current))
}
// TODO: Write a test for this
func GetLevels(maxLevel int) []float64 {
var base float64 = 25
var current, prev float64 // = 0
var expFactor = 2.8
var out []float64
out = append(out, 0)
for i := 1; i <= maxLevel; i++ {
_, bit := math.Modf(float64(i) / 10)
if bit == 0 {
expFactor += 0.1
}
current = base + math.Pow(float64(i), expFactor) + (prev / 3)
prev = current
out = append(out, current)
}
return out
}
func BuildSlug(slug string, id int) string {
if slug == "" || !Config.BuildSlugs {
return strconv.Itoa(id)
}
return slug + "." + strconv.Itoa(id)
}
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