Documentation ¶
Index ¶
Examples ¶
Constants ¶
View Source
const ( // 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") )
Variables ¶
View Source
var ( // ErrUnsupportedSigningAlgo is raised when the caller tries to use a // different signing scheme than secp256k1. ErrUnsupportedSigningAlgo = errors.New("unsupported signing algo: only secp256k1 is supported") // 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") // ErrTssUnsupported is raised when the caller tries to use TSS, which is not supported. ErrTssUnsupported = errors.New("tss unsupported: tss is not supported") )
Functions ¶
This section is empty.
Types ¶
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 }
Info is the publicly exposed information about a keypair
type KeyType ¶
type KeyType uint
KeyType reflects a human-readable type for key listing.
Info KeyTypes
type Keybase ¶
type Keybase interface { // CRUD on the keystore List() ([]Info, error) Get(name string) (Info, error) GetByAddress(address types.AccAddress) (Info, error) Delete(name, passphrase string) error // Sign some bytes, looking up the private key to use Sign(name, passphrase string, msg []byte) ([]byte, crypto.PubKey, error) // CreateMnemonic creates a new mnemonic, and derives a hierarchical deterministic // key from that. CreateMnemonic(name string, language Language, passwd string, algo SigningAlgo) (info Info, seed string, err error) // CreateKey takes a mnemonic and derives, a password. This method is temporary CreateKey(name, mnemonic, passwd string) (info Info, err error) // CreateFundraiserKey takes a mnemonic and derives, a password CreateFundraiserKey(name, mnemonic, passwd string) (info Info, err error) // Compute a BIP39 seed from th mnemonic and bip39Passwd. // Derive private key from the seed using the BIP44 params. // Encrypt the key to disk using encryptPasswd. // See https://github.com/cosmos/cosmos-sdk/issues/2095 Derive(name, mnemonic, bip39Passwd, encryptPasswd string, params hd.BIP44Params) (Info, error) // Create, store, and return a new Ledger key reference CreateLedger(name string, path ccrypto.DerivationPath, algo SigningAlgo) (info Info, err error) CreateTss(name, home, vault string, pubkey crypto.PubKey) (info Info, err error) // Create, store, and return a new offline key reference CreateOffline(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(name string, armor string) (err error) ImportPubKey(name string, armor string) (err error) Export(name string) (armor string, err error) ExportPubKey(name string) (armor string, err error) // *only* works on locally-stored keys. Temporary method until we redo the exporting API ExportPrivateKeyObject(name string, passphrase string) (crypto.PrivKey, error) // Close closes the database. CloseDB() }
Keybase exposes operations on a generic keystore
func New ¶
New creates a new keybase instance using the passed DB for reading and writing keys.
Example ¶
// Select the encryption and storage for your cryptostore cstore := New( dbm.NewMemDB(), ) 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
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 )
type SigningAlgo ¶
type SigningAlgo string
SigningAlgo defines an algorithm to derive key-pairs which can be used for cryptographic signing.
Directories ¶
Path | Synopsis |
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Package bcrypt implements Provos and Mazières's bcrypt adaptive hashing algorithm.
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Package bcrypt implements Provos and Mazières's bcrypt adaptive hashing algorithm. |
Package hd provides basic functionality Hierarchical Deterministic Wallets.
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Package hd provides basic functionality Hierarchical Deterministic Wallets. |
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