goext/cryptext/passHash.go

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package cryptext
import (
"crypto/rand"
"crypto/sha256"
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"crypto/sha512"
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"encoding/base64"
"encoding/hex"
"errors"
"fmt"
"gogs.mikescher.com/BlackForestBytes/goext/langext"
"gogs.mikescher.com/BlackForestBytes/goext/totpext"
"golang.org/x/crypto/bcrypt"
"strconv"
"strings"
)
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const LatestPassHashVersion = 5
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// PassHash
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// - [v0]: plaintext password ( `0|...` ) // simple, used to write PW's directly in DB
// - [v1]: sha256(plaintext) // simple hashing
// - [v2]: seed | sha256<seed>(plaintext) // add seed
// - [v3]: seed | sha256<seed>(plaintext) | [hex(totp)] // add TOTP support
// - [v4]: bcrypt(plaintext) | [hex(totp)] // use proper bcrypt
// - [v5]: bcrypt(sha512(plaintext)) | [hex(totp)] // hash pw before bcrypt (otherwise max pw-len = 72)
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type PassHash string
func (ph PassHash) Valid() bool {
_, _, _, _, _, valid := ph.Data()
return valid
}
func (ph PassHash) HasTOTP() bool {
_, _, _, otp, _, _ := ph.Data()
return otp
}
func (ph PassHash) Data() (_version int, _seed []byte, _payload []byte, _totp bool, _totpsecret []byte, _valid bool) {
split := strings.Split(string(ph), "|")
if len(split) == 0 {
return -1, nil, nil, false, nil, false
}
version, err := strconv.ParseInt(split[0], 10, 32)
if err != nil {
return -1, nil, nil, false, nil, false
}
if version == 0 {
if len(split) != 2 {
return -1, nil, nil, false, nil, false
}
return int(version), nil, []byte(split[1]), false, nil, true
}
if version == 1 {
if len(split) != 2 {
return -1, nil, nil, false, nil, false
}
payload, err := base64.RawStdEncoding.DecodeString(split[1])
if err != nil {
return -1, nil, nil, false, nil, false
}
return int(version), nil, payload, false, nil, true
}
//
if version == 2 {
if len(split) != 3 {
return -1, nil, nil, false, nil, false
}
seed, err := base64.RawStdEncoding.DecodeString(split[1])
if err != nil {
return -1, nil, nil, false, nil, false
}
payload, err := base64.RawStdEncoding.DecodeString(split[2])
if err != nil {
return -1, nil, nil, false, nil, false
}
return int(version), seed, payload, false, nil, true
}
if version == 3 {
if len(split) != 4 {
return -1, nil, nil, false, nil, false
}
seed, err := base64.RawStdEncoding.DecodeString(split[1])
if err != nil {
return -1, nil, nil, false, nil, false
}
payload, err := base64.RawStdEncoding.DecodeString(split[2])
if err != nil {
return -1, nil, nil, false, nil, false
}
totp := false
totpsecret := make([]byte, 0)
if split[3] != "0" {
totpsecret, err = hex.DecodeString(split[3])
totp = true
}
return int(version), seed, payload, totp, totpsecret, true
}
if version == 4 {
if len(split) != 3 {
return -1, nil, nil, false, nil, false
}
payload := []byte(split[1])
totp := false
totpsecret := make([]byte, 0)
if split[2] != "0" {
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totpsecret, err = hex.DecodeString(split[2])
totp = true
}
return int(version), nil, payload, totp, totpsecret, true
}
if version == 5 {
if len(split) != 3 {
return -1, nil, nil, false, nil, false
}
payload := []byte(split[1])
totp := false
totpsecret := make([]byte, 0)
if split[2] != "0" {
totpsecret, err = hex.DecodeString(split[2])
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totp = true
}
return int(version), nil, payload, totp, totpsecret, true
}
return -1, nil, nil, false, nil, false
}
func (ph PassHash) Verify(plainpass string, totp *string) bool {
version, seed, payload, hastotp, totpsecret, valid := ph.Data()
if !valid {
return false
}
if hastotp && totp == nil {
return false
}
if version == 0 {
return langext.ArrEqualsExact([]byte(plainpass), payload)
}
if version == 1 {
return langext.ArrEqualsExact(hash256(plainpass), payload)
}
if version == 2 {
return langext.ArrEqualsExact(hash256Seeded(plainpass, seed), payload)
}
if version == 3 {
if !hastotp {
return langext.ArrEqualsExact(hash256Seeded(plainpass, seed), payload)
} else {
return langext.ArrEqualsExact(hash256Seeded(plainpass, seed), payload) && totpext.Validate(totpsecret, *totp)
}
}
if version == 4 {
if !hastotp {
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return bcrypt.CompareHashAndPassword(payload, []byte(plainpass)) == nil
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} else {
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return bcrypt.CompareHashAndPassword(payload, []byte(plainpass)) == nil && totpext.Validate(totpsecret, *totp)
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}
}
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if version == 5 {
if !hastotp {
return bcrypt.CompareHashAndPassword(payload, hash512(plainpass)) == nil
} else {
return bcrypt.CompareHashAndPassword(payload, hash512(plainpass)) == nil && totpext.Validate(totpsecret, *totp)
}
}
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return false
}
func (ph PassHash) NeedsPasswordUpgrade() bool {
version, _, _, _, _, valid := ph.Data()
return valid && version < LatestPassHashVersion
}
func (ph PassHash) Upgrade(plainpass string) (PassHash, error) {
version, _, _, hastotp, totpsecret, valid := ph.Data()
if !valid {
return "", errors.New("invalid password")
}
if version == LatestPassHashVersion {
return ph, nil
}
if hastotp {
return HashPassword(plainpass, totpsecret)
} else {
return HashPassword(plainpass, nil)
}
}
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func (ph PassHash) ClearTOTP() (PassHash, error) {
version, _, _, _, _, valid := ph.Data()
if !valid {
return "", errors.New("invalid PassHash")
}
if version == 0 {
return ph, nil
}
if version == 1 {
return ph, nil
}
if version == 2 {
return ph, nil
}
if version == 3 {
split := strings.Split(string(ph), "|")
split[3] = "0"
return PassHash(strings.Join(split, "|")), nil
}
if version == 4 {
split := strings.Split(string(ph), "|")
split[2] = "0"
return PassHash(strings.Join(split, "|")), nil
}
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if version == 5 {
split := strings.Split(string(ph), "|")
split[2] = "0"
return PassHash(strings.Join(split, "|")), nil
}
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return "", errors.New("unknown version")
}
func (ph PassHash) WithTOTP(totpSecret []byte) (PassHash, error) {
version, _, _, _, _, valid := ph.Data()
if !valid {
return "", errors.New("invalid PassHash")
}
if version == 0 {
return "", errors.New("version does not support totp, needs upgrade")
}
if version == 1 {
return "", errors.New("version does not support totp, needs upgrade")
}
if version == 2 {
return "", errors.New("version does not support totp, needs upgrade")
}
if version == 3 {
split := strings.Split(string(ph), "|")
split[3] = hex.EncodeToString(totpSecret)
return PassHash(strings.Join(split, "|")), nil
}
if version == 4 {
split := strings.Split(string(ph), "|")
split[2] = hex.EncodeToString(totpSecret)
return PassHash(strings.Join(split, "|")), nil
}
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if version == 5 {
split := strings.Split(string(ph), "|")
split[2] = hex.EncodeToString(totpSecret)
return PassHash(strings.Join(split, "|")), nil
}
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return "", errors.New("unknown version")
}
func (ph PassHash) Change(newPlainPass string) (PassHash, error) {
version, _, _, hastotp, totpsecret, valid := ph.Data()
if !valid {
return "", errors.New("invalid PassHash")
}
if version == 0 {
return HashPasswordV0(newPlainPass)
}
if version == 1 {
return HashPasswordV1(newPlainPass)
}
if version == 2 {
return HashPasswordV2(newPlainPass)
}
if version == 3 {
return HashPasswordV3(newPlainPass, langext.Conditional(hastotp, totpsecret, nil))
}
if version == 4 {
return HashPasswordV4(newPlainPass, langext.Conditional(hastotp, totpsecret, nil))
}
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if version == 5 {
return HashPasswordV5(newPlainPass, langext.Conditional(hastotp, totpsecret, nil))
}
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return "", errors.New("unknown version")
}
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func (ph PassHash) String() string {
return string(ph)
}
func HashPassword(plainpass string, totpSecret []byte) (PassHash, error) {
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return HashPasswordV5(plainpass, totpSecret)
}
func HashPasswordV5(plainpass string, totpSecret []byte) (PassHash, error) {
var strtotp string
if totpSecret == nil {
strtotp = "0"
} else {
strtotp = hex.EncodeToString(totpSecret)
}
payload, err := bcrypt.GenerateFromPassword(hash512(plainpass), bcrypt.MinCost)
if err != nil {
return "", err
}
return PassHash(fmt.Sprintf("5|%s|%s", string(payload), strtotp)), nil
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}
func HashPasswordV4(plainpass string, totpSecret []byte) (PassHash, error) {
var strtotp string
if totpSecret == nil {
strtotp = "0"
} else {
strtotp = hex.EncodeToString(totpSecret)
}
payload, err := bcrypt.GenerateFromPassword([]byte(plainpass), bcrypt.MinCost)
if err != nil {
return "", err
}
return PassHash(fmt.Sprintf("4|%s|%s", string(payload), strtotp)), nil
}
func HashPasswordV3(plainpass string, totpSecret []byte) (PassHash, error) {
var strtotp string
if totpSecret == nil {
strtotp = "0"
} else {
strtotp = hex.EncodeToString(totpSecret)
}
seed, err := newSeed()
if err != nil {
return "", err
}
checksum := hash256Seeded(plainpass, seed)
return PassHash(fmt.Sprintf("3|%s|%s|%s",
base64.RawStdEncoding.EncodeToString(seed),
base64.RawStdEncoding.EncodeToString(checksum),
strtotp)), nil
}
func HashPasswordV2(plainpass string) (PassHash, error) {
seed, err := newSeed()
if err != nil {
return "", err
}
checksum := hash256Seeded(plainpass, seed)
return PassHash(fmt.Sprintf("2|%s|%s", base64.RawStdEncoding.EncodeToString(seed), base64.RawStdEncoding.EncodeToString(checksum))), nil
}
func HashPasswordV1(plainpass string) (PassHash, error) {
return PassHash(fmt.Sprintf("1|%s", base64.RawStdEncoding.EncodeToString(hash256(plainpass)))), nil
}
func HashPasswordV0(plainpass string) (PassHash, error) {
return PassHash(fmt.Sprintf("0|%s", plainpass)), nil
}
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func hash512(s string) []byte {
h := sha512.New()
h.Write([]byte(s))
bs := h.Sum(nil)
return bs
}
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func hash256(s string) []byte {
h := sha256.New()
h.Write([]byte(s))
bs := h.Sum(nil)
return bs
}
func hash256Seeded(s string, seed []byte) []byte {
h := sha256.New()
h.Write(seed)
h.Write([]byte(s))
bs := h.Sum(nil)
return bs
}
func newSeed() ([]byte, error) {
secret := make([]byte, 32)
_, err := rand.Read(secret)
if err != nil {
return nil, err
}
return secret, nil
}