use legacy ssha algorithm, new one is incompatible

2023-03-26 09:35:28 +02:00 · 2023-03-26 09:35:28 +02:00 · a2be316d91
parent 9cab98d2ce
commit a2be316d91
2 changed files with 66 additions and 5 deletions
--- a/.gitignore
+++ b/.gitignore
@ -3,3 +3,4 @@ bottin.static
 config.json
 test/test
 result
+ldap.json
--- a/ssha.go
+++ b/ssha.go
@ -2,8 +2,16 @@ package main

 import (
 	"errors"
+	"strings"

-	"github.com/jsimonetti/pwscheme/ssha"
+	"bytes"
+	"crypto/rand"
+	"crypto/sha1"
+	"encoding/base64"
+	"fmt"
+	log "github.com/sirupsen/logrus"
+
+	//"github.com/jsimonetti/pwscheme/ssha"
 	"github.com/jsimonetti/pwscheme/ssha256"
 	"github.com/jsimonetti/pwscheme/ssha512"
 )
@ -26,9 +34,12 @@ func SSHAMatches(encodedPassPhrase string, rawPassPhrase string) (bool, error) {
 		return false, errors.New("invalid password hash stored")
 	}

+	var is_ok bool
 	switch hashType {
 	case SSHA:
-		return ssha.Validate(rawPassPhrase, encodedPassPhrase)
+		is_ok = LegacySSHAMatches(encodedPassPhrase, []byte(rawPassPhrase))
+		return is_ok, nil
+		//return ssha.Validate(rawPassPhrase, encodedPassPhrase)
 	case SSHA256:
 		return ssha256.Validate(rawPassPhrase, encodedPassPhrase)
 	case SSHA512:
@ -39,15 +50,64 @@ func SSHAMatches(encodedPassPhrase string, rawPassPhrase string) (bool, error) {
 }

 func determineHashType(hash string) (string, error) {
-	if len(hash) >= 7 && string(hash[0:6]) == SSHA {
+	if len(hash) >= 7 && strings.ToUpper(string(hash[0:6])) == SSHA {
 		return SSHA, nil
 	}
-	if len(hash) >= 10 && string(hash[0:9]) == SSHA256 {
+	if len(hash) >= 10 && strings.ToUpper(string(hash[0:9])) == SSHA256 {
 		return SSHA256, nil
 	}
-	if len(hash) >= 10 && string(hash[0:9]) == SSHA512 {
+	if len(hash) >= 10 && strings.ToUpper(string(hash[0:9])) == SSHA512 {
 		return SSHA512, nil
 	}

 	return "", errors.New("no valid hash found")
 }
+
+// --- legacy
+
+// Encode encodes the []byte of raw password
+func LegacySSHAEncode(rawPassPhrase []byte) string {
+	hash := legacyMakeSSHAHash(rawPassPhrase, legacyMakeSalt())
+	b64 := base64.StdEncoding.EncodeToString(hash)
+	return fmt.Sprintf("{ssha}%s", b64)
+}
+
+// Matches matches the encoded password and the raw password
+func LegacySSHAMatches(encodedPassPhrase string, rawPassPhrase []byte) bool {
+	if !strings.EqualFold(encodedPassPhrase[:6], "{ssha}") {
+		return false
+	}
+
+	bhash, err := base64.StdEncoding.DecodeString(encodedPassPhrase[6:])
+	if err != nil {
+		return false
+	}
+	salt := bhash[20:]
+
+	newssha := legacyMakeSSHAHash(rawPassPhrase, salt)
+
+	if bytes.Compare(newssha, bhash) != 0 {
+		return false
+	}
+	return true
+}
+
+// makeSalt make a 32 byte array containing random bytes.
+func legacyMakeSalt() []byte {
+	sbytes := make([]byte, 32)
+	_, err := rand.Read(sbytes)
+	if err != nil {
+		log.Panicf("Could not read random bytes: %s", err)
+	}
+	return sbytes
+}
+
+// makeSSHAHash make hasing using SHA-1 with salt. This is not the final output though. You need to append {SSHA} string with base64 of this hash.
+func legacyMakeSSHAHash(passphrase, salt []byte) []byte {
+	sha := sha1.New()
+	sha.Write(passphrase)
+	sha.Write(salt)
+
+	h := sha.Sum(nil)
+	return append(h, salt...)
+}