package keys import ( "fmt" "net/http" "path/filepath" "github.com/spf13/viper" "github.com/tendermint/tendermint/libs/cli" "github.com/cosmos/cosmos-sdk/client" "github.com/cosmos/cosmos-sdk/codec" "github.com/cosmos/cosmos-sdk/crypto/keys" sdk "github.com/cosmos/cosmos-sdk/types" ) // KeyDBName is the directory under root where we store the keys const ( KeyDBName = "keys" OutputFormatText = "text" OutputFormatJSON = "json" ) type bechKeyOutFn func(keyInfo keys.Info) (KeyOutput, error) // GetKeyInfo returns key info for a given name. An error is returned if the // keybase cannot be retrieved or getting the info fails. func GetKeyInfo(name string) (keys.Info, error) { keybase, err := NewKeyBaseFromHomeFlag() if err != nil { return nil, err } return keybase.Get(name) } // GetPassphrase returns a passphrase for a given name. It will first retrieve // the key info for that name if the type is local, it'll fetch input from // STDIN. Otherwise, an empty passphrase is returned. An error is returned if // the key info cannot be fetched or reading from STDIN fails. func GetPassphrase(name string) (string, error) { var passphrase string keyInfo, err := GetKeyInfo(name) if err != nil { return passphrase, err } // we only need a passphrase for locally stored keys // TODO: (ref: #864) address security concerns if keyInfo.GetType() == keys.TypeLocal { passphrase, err = ReadPassphraseFromStdin(name) if err != nil { return passphrase, err } } return passphrase, nil } // ReadPassphraseFromStdin attempts to read a passphrase from STDIN return an // error upon failure. func ReadPassphraseFromStdin(name string) (string, error) { buf := client.BufferStdin() prompt := fmt.Sprintf("Password to sign with '%s':", name) passphrase, err := client.GetPassword(prompt, buf) if err != nil { return passphrase, fmt.Errorf("Error reading passphrase: %v", err) } return passphrase, nil } // NewKeyBaseFromHomeFlag initializes a Keybase based on the configuration. func NewKeyBaseFromHomeFlag() (keys.Keybase, error) { rootDir := viper.GetString(cli.HomeFlag) return NewKeyBaseFromDir(rootDir) } // NewKeyBaseFromDir initializes a keybase at a particular dir. func NewKeyBaseFromDir(rootDir string) (keys.Keybase, error) { return getLazyKeyBaseFromDir(rootDir) } // NewInMemoryKeyBase returns a storage-less keybase. func NewInMemoryKeyBase() keys.Keybase { return keys.NewInMemory() } func getLazyKeyBaseFromDir(rootDir string) (keys.Keybase, error) { return keys.NewLazyKeybase(KeyDBName, filepath.Join(rootDir, "keys")), nil } // create a list of KeyOutput in bech32 format func Bech32KeysOutput(infos []keys.Info) ([]KeyOutput, error) { kos := make([]KeyOutput, len(infos)) for i, info := range infos { ko, err := Bech32KeyOutput(info) if err != nil { return nil, err } kos[i] = ko } return kos, nil } // create a KeyOutput in bech32 format func Bech32KeyOutput(info keys.Info) (KeyOutput, error) { accAddr := sdk.AccAddress(info.GetPubKey().Address().Bytes()) bechPubKey, err := sdk.Bech32ifyAccPub(info.GetPubKey()) if err != nil { return KeyOutput{}, err } return KeyOutput{ Name: info.GetName(), Type: info.GetType().String(), Address: accAddr.String(), PubKey: bechPubKey, }, nil } // Bech32ConsKeyOutput returns key output for a consensus node's key // information. func Bech32ConsKeyOutput(keyInfo keys.Info) (KeyOutput, error) { consAddr := sdk.ConsAddress(keyInfo.GetPubKey().Address().Bytes()) bechPubKey, err := sdk.Bech32ifyConsPub(keyInfo.GetPubKey()) if err != nil { return KeyOutput{}, err } return KeyOutput{ Name: keyInfo.GetName(), Type: keyInfo.GetType().String(), Address: consAddr.String(), PubKey: bechPubKey, }, nil } // Bech32ValKeyOutput returns key output for a validator's key information. func Bech32ValKeyOutput(keyInfo keys.Info) (KeyOutput, error) { valAddr := sdk.ValAddress(keyInfo.GetPubKey().Address().Bytes()) bechPubKey, err := sdk.Bech32ifyValPub(keyInfo.GetPubKey()) if err != nil { return KeyOutput{}, err } return KeyOutput{ Name: keyInfo.GetName(), Type: keyInfo.GetType().String(), Address: valAddr.String(), PubKey: bechPubKey, }, nil } func printKeyInfo(keyInfo keys.Info, bechKeyOut bechKeyOutFn) { ko, err := bechKeyOut(keyInfo) if err != nil { panic(err) } switch viper.Get(cli.OutputFlag) { case OutputFormatText: fmt.Printf("NAME:\tTYPE:\tADDRESS:\t\t\t\t\t\tPUBKEY:\n") printKeyOutput(ko) case "json": out, err := MarshalJSON(ko) if err != nil { panic(err) } fmt.Println(string(out)) } } func printInfos(infos []keys.Info) { kos, err := Bech32KeysOutput(infos) if err != nil { panic(err) } switch viper.Get(cli.OutputFlag) { case OutputFormatText: fmt.Printf("NAME:\tTYPE:\tADDRESS:\t\t\t\t\t\tPUBKEY:\n") for _, ko := range kos { printKeyOutput(ko) } case OutputFormatJSON: out, err := MarshalJSON(kos) if err != nil { panic(err) } fmt.Println(string(out)) } } func printKeyOutput(ko KeyOutput) { fmt.Printf("%s\t%s\t%s\t%s\n", ko.Name, ko.Type, ko.Address, ko.PubKey) } func printKeyAddress(info keys.Info, bechKeyOut bechKeyOutFn) { ko, err := bechKeyOut(info) if err != nil { panic(err) } fmt.Println(ko.Address) } func printPubKey(info keys.Info, bechKeyOut bechKeyOutFn) { ko, err := bechKeyOut(info) if err != nil { panic(err) } fmt.Println(ko.PubKey) } // PostProcessResponse performs post process for rest response func PostProcessResponse(w http.ResponseWriter, cdc *codec.Codec, response interface{}, indent bool) { var output []byte switch response.(type) { default: var err error if indent { output, err = cdc.MarshalJSONIndent(response, "", " ") } else { output, err = cdc.MarshalJSON(response) } if err != nil { w.WriteHeader(http.StatusInternalServerError) _, _ = w.Write([]byte(err.Error())) return } case []byte: output = response.([]byte) } w.Header().Set("Content-Type", "application/json") _, _ = w.Write(output) }