// Copyright (c) 2015-2016 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package prompt import ( "bufio" "bytes" "encoding/hex" "fmt" "os" "strings" "github.com/btcsuite/btcutil/hdkeychain" "github.com/btcsuite/btcwallet/internal/legacy/keystore" "github.com/btcsuite/golangcrypto/ssh/terminal" ) // ProvideSeed is used to prompt for the wallet seed which maybe required during // upgrades. func ProvideSeed() ([]byte, error) { reader := bufio.NewReader(os.Stdin) for { fmt.Print("Enter existing wallet seed: ") seedStr, err := reader.ReadString('\n') if err != nil { return nil, err } seedStr = strings.TrimSpace(strings.ToLower(seedStr)) seed, err := hex.DecodeString(seedStr) if err != nil || len(seed) < hdkeychain.MinSeedBytes || len(seed) > hdkeychain.MaxSeedBytes { fmt.Printf("Invalid seed specified. Must be a "+ "hexadecimal value that is at least %d bits and "+ "at most %d bits\n", hdkeychain.MinSeedBytes*8, hdkeychain.MaxSeedBytes*8) continue } return seed, nil } } // ProvidePrivPassphrase is used to prompt for the private passphrase which // maybe required during upgrades. func ProvidePrivPassphrase() ([]byte, error) { prompt := "Enter the private passphrase of your wallet: " for { fmt.Print(prompt) pass, err := terminal.ReadPassword(int(os.Stdin.Fd())) if err != nil { return nil, err } fmt.Print("\n") pass = bytes.TrimSpace(pass) if len(pass) == 0 { continue } return pass, nil } } // promptList prompts the user with the given prefix, list of valid responses, // and default list entry to use. The function will repeat the prompt to the // user until they enter a valid response. func promptList(reader *bufio.Reader, prefix string, validResponses []string, defaultEntry string) (string, error) { // Setup the prompt according to the parameters. validStrings := strings.Join(validResponses, "/") var prompt string if defaultEntry != "" { prompt = fmt.Sprintf("%s (%s) [%s]: ", prefix, validStrings, defaultEntry) } else { prompt = fmt.Sprintf("%s (%s): ", prefix, validStrings) } // Prompt the user until one of the valid responses is given. for { fmt.Print(prompt) reply, err := reader.ReadString('\n') if err != nil { return "", err } reply = strings.TrimSpace(strings.ToLower(reply)) if reply == "" { reply = defaultEntry } for _, validResponse := range validResponses { if reply == validResponse { return reply, nil } } } } // promptListBool prompts the user for a boolean (yes/no) with the given prefix. // The function will repeat the prompt to the user until they enter a valid // reponse. func promptListBool(reader *bufio.Reader, prefix string, defaultEntry string) (bool, error) { // Setup the valid responses. valid := []string{"n", "no", "y", "yes"} response, err := promptList(reader, prefix, valid, defaultEntry) if err != nil { return false, err } return response == "yes" || response == "y", nil } // promptPass prompts the user for a passphrase with the given prefix. The // function will ask the user to confirm the passphrase and will repeat the // prompts until they enter a matching response. func promptPass(reader *bufio.Reader, prefix string, confirm bool) ([]byte, error) { // Prompt the user until they enter a passphrase. prompt := fmt.Sprintf("%s: ", prefix) for { fmt.Print(prompt) pass, err := terminal.ReadPassword(int(os.Stdin.Fd())) if err != nil { return nil, err } fmt.Print("\n") pass = bytes.TrimSpace(pass) if len(pass) == 0 { continue } if !confirm { return pass, nil } fmt.Print("Confirm passphrase: ") confirm, err := terminal.ReadPassword(int(os.Stdin.Fd())) if err != nil { return nil, err } fmt.Print("\n") confirm = bytes.TrimSpace(confirm) if !bytes.Equal(pass, confirm) { fmt.Println("The entered passphrases do not match") continue } return pass, nil } } // PrivatePass prompts the user for a private passphrase with varying behavior // depending on whether the passed legacy keystore exists. When it does, the // user is prompted for the existing passphrase which is then used to unlock it. // On the other hand, when the legacy keystore is nil, the user is prompted for // a new private passphrase. All prompts are repeated until the user enters a // valid response. func PrivatePass(reader *bufio.Reader, legacyKeyStore *keystore.Store) ([]byte, error) { // When there is not an existing legacy wallet, simply prompt the user // for a new private passphase and return it. if legacyKeyStore == nil { return promptPass(reader, "Enter the private "+ "passphrase for your new wallet", true) } // At this point, there is an existing legacy wallet, so prompt the user // for the existing private passphrase and ensure it properly unlocks // the legacy wallet so all of the addresses can later be imported. fmt.Println("You have an existing legacy wallet. All addresses from " + "your existing legacy wallet will be imported into the new " + "wallet format.") for { privPass, err := promptPass(reader, "Enter the private "+ "passphrase for your existing wallet", false) if err != nil { return nil, err } // Keep prompting the user until the passphrase is correct. if err := legacyKeyStore.Unlock([]byte(privPass)); err != nil { if err == keystore.ErrWrongPassphrase { fmt.Println(err) continue } return nil, err } return privPass, nil } } // PublicPass prompts the user whether they want to add an additional layer of // encryption to the wallet. When the user answers yes and there is already a // public passphrase provided via the passed config, it prompts them whether or // not to use that configured passphrase. It will also detect when the same // passphrase is used for the private and public passphrase and prompt the user // if they are sure they want to use the same passphrase for both. Finally, all // prompts are repeated until the user enters a valid response. func PublicPass(reader *bufio.Reader, privPass []byte, defaultPubPassphrase, configPubPassphrase []byte) ([]byte, error) { pubPass := defaultPubPassphrase usePubPass, err := promptListBool(reader, "Do you want "+ "to add an additional layer of encryption for public "+ "data?", "no") if err != nil { return nil, err } if !usePubPass { return pubPass, nil } if !bytes.Equal(configPubPassphrase, pubPass) { useExisting, err := promptListBool(reader, "Use the "+ "existing configured public passphrase for encryption "+ "of public data?", "no") if err != nil { return nil, err } if useExisting { return configPubPassphrase, nil } } for { pubPass, err = promptPass(reader, "Enter the public "+ "passphrase for your new wallet", true) if err != nil { return nil, err } if bytes.Equal(pubPass, privPass) { useSamePass, err := promptListBool(reader, "Are you sure want to use the same passphrase "+ "for public and private data?", "no") if err != nil { return nil, err } if useSamePass { break } continue } break } fmt.Println("NOTE: Use the --walletpass option to configure your " + "public passphrase.") return pubPass, nil } // Seed prompts the user whether they want to use an existing wallet generation // seed. When the user answers no, a seed will be generated and displayed to // the user along with prompting them for confirmation. When the user answers // yes, a the user is prompted for it. All prompts are repeated until the user // enters a valid response. func Seed(reader *bufio.Reader) ([]byte, error) { // Ascertain the wallet generation seed. useUserSeed, err := promptListBool(reader, "Do you have an "+ "existing wallet seed you want to use?", "no") if err != nil { return nil, err } if !useUserSeed { seed, err := hdkeychain.GenerateSeed(hdkeychain.RecommendedSeedLen) if err != nil { return nil, err } fmt.Println("Your wallet generation seed is:") fmt.Printf("%x\n", seed) fmt.Println("IMPORTANT: Keep the seed in a safe place as you\n" + "will NOT be able to restore your wallet without it.") fmt.Println("Please keep in mind that anyone who has access\n" + "to the seed can also restore your wallet thereby\n" + "giving them access to all your funds, so it is\n" + "imperative that you keep it in a secure location.") for { fmt.Print(`Once you have stored the seed in a safe ` + `and secure location, enter "OK" to continue: `) confirmSeed, err := reader.ReadString('\n') if err != nil { return nil, err } confirmSeed = strings.TrimSpace(confirmSeed) confirmSeed = strings.Trim(confirmSeed, `"`) if confirmSeed == "OK" { break } } return seed, nil } for { fmt.Print("Enter existing wallet seed: ") seedStr, err := reader.ReadString('\n') if err != nil { return nil, err } seedStr = strings.TrimSpace(strings.ToLower(seedStr)) seed, err := hex.DecodeString(seedStr) if err != nil || len(seed) < hdkeychain.MinSeedBytes || len(seed) > hdkeychain.MaxSeedBytes { fmt.Printf("Invalid seed specified. Must be a "+ "hexadecimal value that is at least %d bits and "+ "at most %d bits\n", hdkeychain.MinSeedBytes*8, hdkeychain.MaxSeedBytes*8) continue } return seed, nil } }