package vault import ( "errors" "strings" "sync" "github.com/quexten/goldwarden/agent/bitwarden/crypto" "github.com/quexten/goldwarden/agent/bitwarden/models" "github.com/quexten/goldwarden/logging" "golang.org/x/exp/slices" ) var vaultLog = logging.GetLogger("Goldwarden", "Vault") type Vault struct { Keyring *crypto.Keyring logins map[string]models.Cipher secureNotes map[string]models.Cipher sshKeyNoteIDs []string envCredentials map[string]string lastSynced int64 websockedConnected bool mu sync.Mutex } func NewVault(keyring *crypto.Keyring) *Vault { return &Vault{ Keyring: keyring, logins: make(map[string]models.Cipher), secureNotes: make(map[string]models.Cipher), sshKeyNoteIDs: make([]string, 0), envCredentials: make(map[string]string), lastSynced: 0, websockedConnected: false, } } func (vault *Vault) lockMutex() { vault.mu.Lock() } func (vault *Vault) unlockMutex() { vault.mu.Unlock() } func (vault *Vault) Clear() { vault.lockMutex() vault.logins = make(map[string]models.Cipher) vault.secureNotes = make(map[string]models.Cipher) vault.sshKeyNoteIDs = make([]string, 0) vault.envCredentials = make(map[string]string) vault.lastSynced = 0 vault.unlockMutex() } func (vault *Vault) AddOrUpdateLogin(cipher models.Cipher) { vault.lockMutex() vault.logins[cipher.ID.String()] = cipher vault.unlockMutex() } func (vault *Vault) DeleteCipher(uuid string) { vault.lockMutex() delete(vault.logins, uuid) delete(vault.envCredentials, uuid) newSecureNotes := make(map[string]models.Cipher) for _, noteID := range vault.sshKeyNoteIDs { if noteID != uuid { newSecureNotes[noteID] = vault.secureNotes[noteID] } } vault.secureNotes = newSecureNotes vault.unlockMutex() } func (vault *Vault) AddOrUpdateSecureNote(cipher models.Cipher) { vault.lockMutex() vault.secureNotes[cipher.ID.String()] = cipher if vault.isSSHKey(cipher) { if !slices.Contains(vault.sshKeyNoteIDs, cipher.ID.String()) { vault.sshKeyNoteIDs = append(vault.sshKeyNoteIDs, cipher.ID.String()) } } else if executableName, isEnv := vault.isEnv(cipher); isEnv { vault.envCredentials[executableName] = cipher.ID.String() } vault.unlockMutex() } func (vault *Vault) isEnv(cipher models.Cipher) (string, bool) { if cipher.Type != models.CipherNote { return "", false } if !cipher.DeletedDate.IsZero() { return "", false } key, err := cipher.GetKeyForCipher(*vault.Keyring) if err != nil { vaultLog.Error("Failed to get key for cipher "+cipher.ID.String(), err.Error()) return "", false } isEnv := false executableName := "" for _, field := range cipher.Fields { fieldName, err := crypto.DecryptWith(field.Name, key) if err != nil { continue } fieldValue, err := crypto.DecryptWith(field.Value, key) if err != nil { continue } if string(fieldName) == "custom-type" && string(fieldValue) == "env" { isEnv = true } else if string(fieldName) == "executable" { executableName = string(fieldValue) } } return executableName, isEnv } func (vault *Vault) isSSHKey(cipher models.Cipher) bool { if cipher.Type != models.CipherNote { return false } if !cipher.DeletedDate.IsZero() { return false } key, err := cipher.GetKeyForCipher(*vault.Keyring) if err != nil { vaultLog.Error("Failed to get key for cipher "+cipher.ID.String(), err.Error()) return false } for _, field := range cipher.Fields { fieldName, err := crypto.DecryptWith(field.Name, key) if err != nil { cipherID := cipher.ID.String() if cipher.OrganizationID != nil { orgID := cipher.OrganizationID.String() vaultLog.Error("Failed to decrypt field name with on cipher "+cipherID+" in organization "+orgID, err.Error()) } else { vaultLog.Error("Failed to decrypt field name with on cipher "+cipherID, err.Error()) } continue } fieldValue, err := crypto.DecryptWith(field.Value, key) if err != nil { continue } if string(fieldName) == "custom-type" && string(fieldValue) == "ssh-key" { return true } } return false } type SSHKey struct { Name string Key string PublicKey string } func (vault *Vault) GetSSHKeys() []SSHKey { vault.lockMutex() defer vault.unlockMutex() var sshKeys []SSHKey for _, id := range vault.sshKeyNoteIDs { privateKey := "" publicKey := "" key, err := vault.secureNotes[id].GetKeyForCipher(*vault.Keyring) if err != nil { continue } for _, field := range vault.secureNotes[id].Fields { fieldName, err := crypto.DecryptWith(field.Name, key) if err != nil { continue } if string(fieldName) == "private-key" { pk, err := crypto.DecryptWith(field.Value, key) if err != nil { continue } else { privateKey = string(pk) } } if string(fieldName) == "public-key" { pk, err := crypto.DecryptWith(field.Value, key) if err != nil { continue } else { publicKey = string(pk) } } } privateKey = strings.Replace(privateKey, "-----BEGIN OPENSSH PRIVATE KEY-----", "", 1) privateKey = strings.Replace(privateKey, "-----END OPENSSH PRIVATE KEY-----", "", 1) pkParts := strings.Join(strings.Split(privateKey, " "), "\n") privateKeyString := "-----BEGIN OPENSSH PRIVATE KEY-----" + pkParts + "-----END OPENSSH PRIVATE KEY-----" decryptedTitle, err := crypto.DecryptWith(vault.secureNotes[id].Name, key) if err != nil { continue } sshKeys = append(sshKeys, SSHKey{ Name: string(decryptedTitle), Key: string(privateKeyString), PublicKey: string(publicKey), }) } return sshKeys } func (vault *Vault) GetEnvCredentialForExecutable(executableName string) (map[string]string, bool) { vault.lockMutex() defer vault.unlockMutex() env := make(map[string]string) if id, ok := vault.envCredentials[executableName]; ok { key, err := vault.secureNotes[id].GetKeyForCipher(*vault.Keyring) if err != nil { vaultLog.Error("Failed to get key for cipher " + id) return make(map[string]string), false } for _, field := range vault.secureNotes[id].Fields { fieldName, err := crypto.DecryptWith(field.Name, key) if err != nil { continue } fieldValue, err := crypto.DecryptWith(field.Value, key) if err != nil { continue } if string(fieldName) == "custom-type" || string(fieldName) == "executable" { continue } env[string(fieldName)] = string(fieldValue) } return env, true } return make(map[string]string), false } func (vault *Vault) GetLogins() []models.Cipher { vault.lockMutex() defer vault.unlockMutex() var logins []models.Cipher for _, cipher := range vault.logins { if cipher.Type != models.CipherLogin { continue } if !cipher.DeletedDate.IsZero() { continue } logins = append(logins, cipher) } return logins } func (vault *Vault) GetNotes() []models.Cipher { vault.lockMutex() defer vault.unlockMutex() var notes []models.Cipher for _, cipher := range vault.secureNotes { if cipher.Type != models.CipherNote { continue } if !cipher.DeletedDate.IsZero() { continue } notes = append(notes, cipher) } return notes } func (vault *Vault) GetLoginByFilter(uuid string, orgId string, name string, username string) (models.Cipher, error) { vault.lockMutex() defer vault.unlockMutex() for _, cipher := range vault.logins { if uuid != "" && cipher.ID.String() != uuid { continue } if orgId != "" && cipher.OrganizationID.String() != orgId { continue } key, err := cipher.GetKeyForCipher(*vault.Keyring) if err != nil { vaultLog.Error("Failed to get key for cipher " + cipher.ID.String()) continue } if name != "" { if cipher.Name.IsNull() { continue } decryptedName, err := crypto.DecryptWith(cipher.Name, key) if err != nil { vaultLog.Error("Failed to decrypt name for cipher " + cipher.ID.String()) continue } if name != "" && string(decryptedName) != name { continue } } if username != "" { if cipher.Login.Username.IsNull() { continue } decryptedUsername, err := crypto.DecryptWith(cipher.Login.Username, key) if err != nil { vaultLog.Error("Failed to decrypt username for cipher " + cipher.ID.String()) continue } if username != "" && string(decryptedUsername) != username { continue } } return cipher, nil } return models.Cipher{}, errors.New("cipher not found") } func (vault *Vault) GetNoteByFilter(uuid string, orgId string, name string) (models.Cipher, error) { vault.lockMutex() defer vault.unlockMutex() for _, cipher := range vault.secureNotes { if uuid != "" && cipher.ID.String() != uuid { continue } if orgId != "" && cipher.OrganizationID.String() != orgId { continue } key, err := cipher.GetKeyForCipher(*vault.Keyring) if err != nil { vaultLog.Error("Failed to get key for cipher "+cipher.ID.String(), err.Error()) continue } decryptedName, err := crypto.DecryptWith(cipher.Name, key) if err != nil { vaultLog.Error("Failed to decrypt name for cipher "+cipher.ID.String(), err.Error()) continue } if name != "" && string(decryptedName) != name { continue } return cipher, nil } return models.Cipher{}, errors.New("cipher not found") } func (vault *Vault) GetLogin(uuid string) (models.Cipher, error) { vault.lockMutex() defer vault.unlockMutex() for _, cipher := range vault.logins { if cipher.ID.String() == uuid { return cipher, nil } } return models.Cipher{}, errors.New("cipher not found") } func (vault *Vault) GetSecureNote(uuid string) (models.Cipher, error) { vault.lockMutex() defer vault.unlockMutex() for _, cipher := range vault.secureNotes { if cipher.ID.String() == uuid { return cipher, nil } } return models.Cipher{}, errors.New("cipher not found") } func (vault *Vault) SetLastSynced(lastSynced int64) { vault.lockMutex() vault.lastSynced = lastSynced vault.unlockMutex() } func (vault *Vault) GetLastSynced() int64 { vault.lockMutex() defer vault.unlockMutex() return vault.lastSynced } func (vault *Vault) SetWebsocketConnected(connected bool) { vault.lockMutex() vault.websockedConnected = connected vault.unlockMutex() } func (vault *Vault) IsWebsocketConnected() bool { vault.lockMutex() defer vault.unlockMutex() return vault.websockedConnected }