README
¶
Keys API
The Keybase interface
The Keybase interface defines the methods that a type needs to implement to be used as key storage backend. This package provides few implementations out-of-the-box.
Constructors
New
The New constructor returns
an on-disk implementation backed by LevelDB storage that has been the default implementation used by the SDK until v0.38.0.
Due to security concerns, we recommend to drop
it in favor of the NewKeyring or NewKeyringFile constructors. We strongly advise to migrate away from this function as it may be removed in a future
release.
NewInMemory
The NewInMemory constructor returns an implementation backed by an in-memory, goroutine-safe map that we've historically used for testing purposes or on-the-fly key generation and we consider safe for the aforementioned use cases since the generated keys are discarded when the process terminates or the type instance is garbage collected.
NewKeyring
The NewKeyring constructor returns an implementation backed by the Keyring library, whose aim is to provide a common abstraction and uniform interface between secret stores available for Windows, macOS, and most GNU/Linux distributions. The instance returned by this constructor will use the operating system's default credentials store, which will then handle keys storage operations securely.
NewKeyringFile, NewTestKeyring
Both NewKeyringFile and
NewTestKeyring constructors return
on-disk implementations backed by the Keyring file backend.
Whilst NewKeyringFile returns a secure, encrypted file-based type that requires user's password in order to
function correctly, the implementation returned by NewTestKeyring stores keys information in clear text and must be used
only for testing purposes.
NewKeyringFile and NewTestKeyring store key files in the client home directory's keyring
and keyring-test subdirectories respectively.
Documentation
¶
Index ¶
- Constants
- Variables
- func CreateHDPath(account uint32, index uint32) *hd.BIP44Params
- func CreateHDPathEx(cointype, account, index uint32) *hd.BIP44Params
- func IsSupportedAlgorithm(supported []SigningAlgo, algo SigningAlgo) bool
- func RegisterCodec(cdc *codec.Codec)
- func SecpDeriveKey(mnemonic string, bip39Passphrase, hdPath string) ([]byte, error)
- func SecpPrivKeyGen(bz []byte) tmcrypto.PrivKey
- func StdDeriveKey(mnemonic string, bip39Passphrase, hdPath string, algo SigningAlgo) ([]byte, error)
- func StdPrivKeyGen(bz []byte, algo SigningAlgo) (tmcrypto.PrivKey, error)
- type DeriveKeyFunc
- type Info
- type KeyOutput
- type KeyType
- type Keybase
- type KeybaseOption
- type Language
- type PrivKeyGenFunc
- type SigningAlgo
Examples ¶
Constants ¶
const ( BackendFile = "file" BackendFileForRPC = "file4rpc" BackendOS = "os" BackendKWallet = "kwallet" BackendPass = "pass" BackendTest = "test" BackendMemory = "memory" )
const ( // MultiAlgo implies that a pubkey is a multisignature MultiAlgo = SigningAlgo("multi") // Secp256k1 uses the Bitcoin secp256k1 ECDSA parameters. Secp256k1 = SigningAlgo("secp256k1") // Ed25519 represents the Ed25519 signature system. // It is currently not supported for end-user keys (wallets/ledgers). Ed25519 = SigningAlgo("ed25519") // Sr25519 represents the Sr25519 signature system. Sr25519 = SigningAlgo("sr25519") )
const (
// used for deriving seed from mnemonic
DefaultBIP39Passphrase = ""
)
Variables ¶
var ( // ErrUnsupportedSigningAlgo is raised when the caller tries to use a // different signing scheme than secp256k1. ErrUnsupportedSigningAlgo = errors.New("unsupported signing algo") // ErrUnsupportedLanguage is raised when the caller tries to use a // different language than english for creating a mnemonic sentence. ErrUnsupportedLanguage = errors.New("unsupported language: only english is supported") )
var CryptoCdc *codec.Codec
CryptoCdc defines the codec required for keys and info
Functions ¶
func CreateHDPath ¶
func CreateHDPath(account uint32, index uint32) *hd.BIP44Params
CreateHDPath returns BIP 44 object from account and index parameters.
func CreateHDPathEx ¶
func CreateHDPathEx(cointype, account, index uint32) *hd.BIP44Params
CreateHDPath returns BIP 44 object from account and index parameters.
func IsSupportedAlgorithm ¶
func IsSupportedAlgorithm(supported []SigningAlgo, algo SigningAlgo) bool
IsSupportedAlgorithm returns whether the signing algorithm is in the passed-in list of supported algorithms.
func RegisterCodec ¶
RegisterCodec registers concrete types and interfaces on the given codec.
func SecpDeriveKey ¶
SecpDeriveKey derives and returns the secp256k1 private key for the given seed and HD path.
func SecpPrivKeyGen ¶
SecpPrivKeyGen generates a secp256k1 private key from the given bytes
func StdDeriveKey ¶
func StdDeriveKey(mnemonic string, bip39Passphrase, hdPath string, algo SigningAlgo) ([]byte, error)
StdDeriveKey is the default DeriveKey function in the keybase. For now, it only supports Secp256k1
func StdPrivKeyGen ¶
func StdPrivKeyGen(bz []byte, algo SigningAlgo) (tmcrypto.PrivKey, error)
StdPrivKeyGen is the default PrivKeyGen function in the keybase. For now, it only supports Secp256k1
Types ¶
type DeriveKeyFunc ¶
type DeriveKeyFunc func(mnemonic string, bip39Passphrase, hdPath string, algo SigningAlgo) ([]byte, error)
DeriveKeyFunc defines the function to derive a new key from a seed and hd path
type Info ¶
type Info interface {
// Human-readable type for key listing
GetType() KeyType
// Name of the key
GetName() string
// Public key
GetPubKey() crypto.PubKey
// Address
GetAddress() types.AccAddress
// Bip44 Path
GetPath() (*hd.BIP44Params, error)
// Algo
GetAlgo() SigningAlgo
}
Info is the publicly exposed information about a keypair
type KeyOutput ¶
type KeyOutput struct {
Name string `json:"name" yaml:"name"`
Type string `json:"type" yaml:"type"`
Address string `json:"address" yaml:"address"`
EthAddress string `json:"eth_address" yaml:"eth_address"`
OperAddress string `json:"oper_address" yaml:"oper_address"`
PubKey string `json:"pubkey" yaml:"pubkey"`
Mnemonic string `json:"mnemonic,omitempty" yaml:"mnemonic"`
Threshold uint `json:"threshold,omitempty" yaml:"threshold"`
PubKeys []multisigPubKeyOutput `json:"pubkeys,omitempty" yaml:"pubkeys"`
}
KeyOutput defines a structure wrapping around an Info object used for output functionality.
func Bech32ConsKeyOutput ¶
Bech32ConsKeyOutput create a KeyOutput in with "cons" Bech32 prefixes.
func Bech32KeyOutput ¶
Bech32KeyOutput create a KeyOutput in with "acc" Bech32 prefixes. If the public key is a multisig public key, then the threshold and constituent public keys will be added.
func Bech32KeysOutput ¶
Bech32KeysOutput returns a slice of KeyOutput objects, each with the "acc" Bech32 prefixes, given a slice of Info objects. It returns an error if any call to Bech32KeyOutput fails.
func Bech32ValKeyOutput ¶
Bech32ValKeyOutput create a KeyOutput in with "val" Bech32 prefixes.
func NewKeyOutput ¶
NewKeyOutput creates a default KeyOutput instance without Mnemonic, Threshold and PubKeys
type KeyType ¶
type KeyType uint
KeyType reflects a human-readable type for key listing.
type Keybase ¶
type Keybase interface {
// CRUD on the keystore
List() ([]Info, error)
// Get returns the public information about one key.
Get(name string) (Info, error)
// Get performs a by-address lookup and returns the public
// information about one key if there's any.
GetByAddress(address types.AccAddress) (Info, error)
// Delete removes a key.
Delete(name, passphrase string, skipPass bool) error
// Sign bytes, looking up the private key to use.
Sign(name, passphrase string, msg []byte) ([]byte, crypto.PubKey, error)
// CreateMnemonic generates a new mnemonic, derives a hierarchical deterministic
// key from that. and persists it to storage, encrypted using the provided password.
// It returns the generated mnemonic and the key Info. It returns an error if it fails to
// generate a key for the given algo type, or if another key is already stored under the
// same name.
CreateMnemonic(name string, language Language, passwd string, algo SigningAlgo, mnemonic string) (info Info, seed string, err error)
// CreateAccount converts a mnemonic to a private key and BIP 32 HD Path
// and persists it, encrypted with the given password.
CreateAccount(name, mnemonic, bip39Passwd, encryptPasswd, hdPath string, algo SigningAlgo) (Info, error)
// CreateLedger creates, stores, and returns a new Ledger key reference
CreateLedger(name string, algo SigningAlgo, hrp string, account, index uint32) (info Info, err error)
// CreateOffline creates, stores, and returns a new offline key reference
CreateOffline(name string, pubkey crypto.PubKey, algo SigningAlgo) (info Info, err error)
// CreateMulti creates, stores, and returns a new multsig (offline) key reference
CreateMulti(name string, pubkey crypto.PubKey) (info Info, err error)
// The following operations will *only* work on locally-stored keys
Update(name, oldpass string, getNewpass func() (string, error)) error
// Import imports ASCII armored Info objects.
Import(name string, armor string) (err error)
// ImportPrivKey imports a private key in ASCII armor format.
// It returns an error if a key with the same name exists or a wrong encryption passphrase is
// supplied.
ImportPrivKey(name, armor, passphrase string) error
// ImportPubKey imports ASCII-armored public keys.
// Store a new Info object holding a public key only, i.e. it will
// not be possible to sign with it as it lacks the secret key.
ImportPubKey(name string, armor string) (err error)
// Export exports an Info object in ASCII armored format.
Export(name string) (armor string, err error)
// ExportPubKey returns public keys in ASCII armored format.
// Retrieve a Info object by its name and return the public key in
// a portable format.
ExportPubKey(name string) (armor string, err error)
// ExportPrivKey returns a private key in ASCII armored format.
// It returns an error if the key does not exist or a wrong encryption passphrase is supplied.
ExportPrivKey(name, decryptPassphrase, encryptPassphrase string) (armor string, err error)
// ExportPrivateKeyObject *only* works on locally-stored keys. Temporary method until we redo the exporting API
ExportPrivateKeyObject(name string, passphrase string) (crypto.PrivKey, error)
// SupportedAlgos returns a list of signing algorithms supported by the keybase
SupportedAlgos() []SigningAlgo
// SupportedAlgosLedger returns a list of signing algorithms supported by the keybase's ledger integration
SupportedAlgosLedger() []SigningAlgo
// CloseDB closes the database.
CloseDB()
//FileDir show where keybase storage a new key
FileDir() (string, error)
}
Keybase exposes operations on a generic keystore
func New ¶
func New(name, dir string, opts ...KeybaseOption) Keybase
New creates a new instance of a lazy keybase.
Example ¶
// Select the encryption and storage for your cryptostore
customKeyGenFunc := func(bz []byte, algo SigningAlgo) (crypto.PrivKey, error) {
var bzArr [32]byte
copy(bzArr[:], bz)
return secp256k1.PrivKeySecp256k1(bzArr), nil
}
cstore := NewInMemory(WithKeygenFunc(customKeyGenFunc))
sec := Secp256k1
// Add keys and see they return in alphabetical order
bob, _, err := cstore.CreateMnemonic("Bob", English, "friend", sec, "")
if err != nil {
// this should never happen
fmt.Println(err)
} else {
// return info here just like in List
fmt.Println(bob.GetName())
}
_, _, _ = cstore.CreateMnemonic("Alice", English, "secret", sec, "")
_, _, _ = cstore.CreateMnemonic("Carl", English, "mitm", sec, "")
info, _ := cstore.List()
for _, i := range info {
fmt.Println(i.GetName())
}
// We need to use passphrase to generate a signature
tx := []byte("deadbeef")
sig, pub, err := cstore.Sign("Bob", "friend", tx)
if err != nil {
fmt.Println("don't accept real passphrase")
}
// and we can validate the signature with publicly available info
binfo, _ := cstore.Get("Bob")
if !binfo.GetPubKey().Equals(bob.GetPubKey()) {
fmt.Println("Get and Create return different keys")
}
if pub.Equals(binfo.GetPubKey()) {
fmt.Println("signed by Bob")
}
if !pub.VerifyBytes(tx, sig) {
fmt.Println("invalid signature")
}
Output: Bob Alice Bob Carl signed by Bob
func NewInMemory ¶
func NewInMemory(opts ...KeybaseOption) Keybase
NewInMemory creates a transient keybase on top of in-memory storage instance useful for testing purposes and on-the-fly key generation. Keybase options can be applied when generating this new Keybase.
func NewKeyring ¶
func NewKeyring( appName, backend, rootDir string, userInput io.Reader, opts ...KeybaseOption, ) (Keybase, error)
NewKeyring creates a new instance of a keyring. Keybase options can be applied when generating this new Keybase. Available backends are "os", "file", "test".
type KeybaseOption ¶
type KeybaseOption func(*kbOptions)
KeybaseOption overrides options for the db
func WithDeriveFunc ¶
func WithDeriveFunc(f DeriveKeyFunc) KeybaseOption
WithDeriveFunc applies an overridden key derivation function to generate the private key.
func WithKeygenFunc ¶
func WithKeygenFunc(f PrivKeyGenFunc) KeybaseOption
WithKeygenFunc applies an overridden key generation function to generate the private key.
func WithSupportedAlgos ¶
func WithSupportedAlgos(algos []SigningAlgo) KeybaseOption
WithSupportedAlgos defines the list of accepted SigningAlgos.
func WithSupportedAlgosLedger ¶
func WithSupportedAlgosLedger(algos []SigningAlgo) KeybaseOption
WithSupportedAlgosLedger defines the list of accepted SigningAlgos compatible with Ledger.
type Language ¶
type Language int
Language is a language to create the BIP 39 mnemonic in. Currently, only english is supported though. Find a list of all supported languages in the BIP 39 spec (word lists).
const ( // English is the default language to create a mnemonic. // It is the only supported language by this package. English Language = iota + 1 // Japanese is currently not supported. Japanese // Korean is currently not supported. Korean // Spanish is currently not supported. Spanish // ChineseSimplified is currently not supported. ChineseSimplified // ChineseTraditional is currently not supported. ChineseTraditional // French is currently not supported. French // Italian is currently not supported. Italian )
noinspection ALL
type PrivKeyGenFunc ¶
type PrivKeyGenFunc func(bz []byte, algo SigningAlgo) (crypto.PrivKey, error)
PrivKeyGenFunc defines the function to convert derived key bytes to a tendermint private key
type SigningAlgo ¶
type SigningAlgo string
SigningAlgo defines an algorithm to derive key-pairs which can be used for cryptographic signing.
Source Files
Directories