package keys import ( "bufio" "bytes" "errors" "fmt" "sort" etherminthd "github.com/evmos/ethermint/crypto/hd" bip39 "github.com/cosmos/go-bip39" "github.com/spf13/cobra" "github.com/cosmos/cosmos-sdk/client" "github.com/cosmos/cosmos-sdk/client/flags" "github.com/cosmos/cosmos-sdk/client/input" "github.com/cosmos/cosmos-sdk/client/keys" "github.com/cosmos/cosmos-sdk/crypto/hd" "github.com/cosmos/cosmos-sdk/crypto/keyring" "github.com/cosmos/cosmos-sdk/crypto/keys/multisig" cryptotypes "github.com/cosmos/cosmos-sdk/crypto/types" sdk "github.com/cosmos/cosmos-sdk/types" ) const ( flagInteractive = "interactive" flagRecover = "recover" flagNoBackup = "no-backup" flagCoinType = "coin-type" flagAccount = "account" flagIndex = "index" flagMultisig = "multisig" flagMultiSigThreshold = "multisig-threshold" flagNoSort = "nosort" flagHDPath = "hd-path" mnemonicEntropySize = 256 ) /* RunAddCmd input - bip39 mnemonic - bip39 passphrase - bip44 path - local encryption password output - armor encrypted private key (saved to file) */ func RunAddCmd(ctx client.Context, cmd *cobra.Command, args []string, inBuf *bufio.Reader) error { var err error name := args[0] interactive, _ := cmd.Flags().GetBool(flagInteractive) noBackup, _ := cmd.Flags().GetBool(flagNoBackup) showMnemonic := !noBackup kb := ctx.Keyring outputFormat := ctx.OutputFormat keyringAlgos, _ := kb.SupportedAlgorithms() algoStr, _ := cmd.Flags().GetString(flags.FlagKeyAlgorithm) algo, err := keyring.NewSigningAlgoFromString(algoStr, keyringAlgos) if err != nil { return err } if dryRun, _ := cmd.Flags().GetBool(flags.FlagDryRun); dryRun { // use in memory keybase kb = keyring.NewInMemory(ctx.Codec, etherminthd.EthSecp256k1Option()) } else { _, err = kb.Key(name) if err == nil { // account exists, ask for user confirmation response, err2 := input.GetConfirmation(fmt.Sprintf("override the existing name %s", name), inBuf, cmd.ErrOrStderr()) if err2 != nil { return err2 } if !response { return errors.New("aborted") } err2 = kb.Delete(name) if err2 != nil { return err2 } } multisigKeys, _ := cmd.Flags().GetStringSlice(flagMultisig) if len(multisigKeys) != 0 { pks := make([]cryptotypes.PubKey, len(multisigKeys)) multisigThreshold, _ := cmd.Flags().GetInt(flagMultiSigThreshold) if err := validateMultisigThreshold(multisigThreshold, len(multisigKeys)); err != nil { return err } for i, keyname := range multisigKeys { k, err := kb.Key(keyname) if err != nil { return err } key, err := k.GetPubKey() if err != nil { return err } pks[i] = key } if noSort, _ := cmd.Flags().GetBool(flagNoSort); !noSort { sort.Slice(pks, func(i, j int) bool { return bytes.Compare(pks[i].Address(), pks[j].Address()) < 0 }) } pk := multisig.NewLegacyAminoPubKey(multisigThreshold, pks) k, err := kb.SaveMultisig(name, pk) if err != nil { return err } return printCreate(cmd, k, false, "", outputFormat) } } pubKey, _ := cmd.Flags().GetString(keys.FlagPublicKey) if pubKey != "" { var pk cryptotypes.PubKey if err = ctx.Codec.UnmarshalInterfaceJSON([]byte(pubKey), &pk); err != nil { return err } k, err := kb.SaveOfflineKey(name, pk) if err != nil { return err } return printCreate(cmd, k, false, "", outputFormat) } coinType, _ := cmd.Flags().GetUint32(flagCoinType) account, _ := cmd.Flags().GetUint32(flagAccount) index, _ := cmd.Flags().GetUint32(flagIndex) hdPath, _ := cmd.Flags().GetString(flagHDPath) useLedger, _ := cmd.Flags().GetBool(flags.FlagUseLedger) if len(hdPath) == 0 { hdPath = hd.CreateHDPath(coinType, account, index).String() } else if useLedger { return errors.New("cannot set custom bip32 path with ledger") } // If we're using ledger, only thing we need is the path and the bech32 prefix. if useLedger { bech32PrefixAccAddr := sdk.GetConfig().GetBech32AccountAddrPrefix() k, err := kb.SaveLedgerKey(name, hd.Secp256k1, bech32PrefixAccAddr, coinType, account, index) if err != nil { return err } return printCreate(cmd, k, false, "", outputFormat) } // Get bip39 mnemonic var mnemonic, bip39Passphrase string recover, _ := cmd.Flags().GetBool(flagRecover) if recover { mnemonic, err = input.GetString("Enter your bip39 mnemonic", inBuf) if err != nil { return err } if !bip39.IsMnemonicValid(mnemonic) { return errors.New("invalid mnemonic") } } else if interactive { mnemonic, err = input.GetString("Enter your bip39 mnemonic, or hit enter to generate one.", inBuf) if err != nil { return err } if !bip39.IsMnemonicValid(mnemonic) && mnemonic != "" { return errors.New("invalid mnemonic") } } if len(mnemonic) == 0 { // read entropy seed straight from tmcrypto.Rand and convert to mnemonic entropySeed, err := bip39.NewEntropy(mnemonicEntropySize) if err != nil { return err } mnemonic, err = bip39.NewMnemonic(entropySeed) if err != nil { return err } } // override bip39 passphrase if interactive { bip39Passphrase, err = input.GetString( "Enter your bip39 passphrase. This is combined with the mnemonic to derive the seed. "+ "Most users should just hit enter to use the default, \"\"", inBuf) if err != nil { return err } // if they use one, make them re-enter it if len(bip39Passphrase) != 0 { p2, err := input.GetString("Repeat the passphrase:", inBuf) if err != nil { return err } if bip39Passphrase != p2 { return errors.New("passphrases don't match") } } } k, err := kb.NewAccount(name, mnemonic, bip39Passphrase, hdPath, algo) if err != nil { return err } // Recover key from seed passphrase if recover { // Hide mnemonic from output showMnemonic = false mnemonic = "" } return printCreate(cmd, k, showMnemonic, mnemonic, outputFormat) } func printCreate(cmd *cobra.Command, k *keyring.Record, showMnemonic bool, mnemonic, outputFormat string) error { switch outputFormat { case OutputFormatText: cmd.PrintErrln() if err := printKeyringRecord(cmd.OutOrStdout(), k, keyring.MkAccKeyOutput, outputFormat); err != nil { return err } // print mnemonic unless requested not to. if showMnemonic { if _, err := fmt.Fprintf(cmd.ErrOrStderr(), "\n**Important** write this mnemonic phrase in a safe place.\nIt is the only way to recover your account if you ever forget your password.\n\n%s\n\n", mnemonic); err != nil { return fmt.Errorf("failed to print mnemonic: %v", err) } } case OutputFormatJSON: out, err := keyring.MkAccKeyOutput(k) if err != nil { return err } if showMnemonic { out.Mnemonic = mnemonic } jsonString, err := keys.KeysCdc.MarshalJSON(out) if err != nil { return err } cmd.Println(string(jsonString)) default: return fmt.Errorf("invalid output format %s", outputFormat) } return nil } func validateMultisigThreshold(k, nKeys int) error { if k <= 0 { return fmt.Errorf("threshold must be a positive integer") } if nKeys < k { return fmt.Errorf( "threshold k of n multisignature: %d < %d", nKeys, k) } return nil }