package crypto import ( "fmt" secp256k1 "github.com/btcsuite/btcd/btcec" ledger "github.com/zondax/ledger-goclient" ) func pubkeyLedgerSecp256k1(device *ledger.Ledger, path DerivationPath) (pub PubKey, err error) { key, err := device.GetPublicKeySECP256K1(path) if err != nil { return nil, fmt.Errorf("error fetching public key: %v", err) } var p PubKeySecp256k1 // Reserialize in the 33-byte compressed format cmp, err := secp256k1.ParsePubKey(key[:], secp256k1.S256()) copy(p[:], cmp.SerializeCompressed()) pub = p return } func signLedgerSecp256k1(device *ledger.Ledger, path DerivationPath, msg []byte) (sig Signature, err error) { bsig, err := device.SignSECP256K1(path, msg) if err != nil { return sig, err } sig = SignatureSecp256k1FromBytes(bsig) return } // PrivKeyLedgerSecp256k1 implements PrivKey, calling the ledger nano // we cache the PubKey from the first call to use it later type PrivKeyLedgerSecp256k1 struct { // PubKey should be private, but we want to encode it via go-amino // so we can view the address later, even without having the ledger // attached CachedPubKey PubKey Path DerivationPath } // NewPrivKeyLedgerSecp256k1 will generate a new key and store the // public key for later use. func NewPrivKeyLedgerSecp256k1(path DerivationPath) (PrivKey, error) { var pk PrivKeyLedgerSecp256k1 pk.Path = path // getPubKey will cache the pubkey for later use, // this allows us to return an error early if the ledger // is not plugged in _, err := pk.getPubKey() return &pk, err } // ValidateKey allows us to verify the sanity of a key // after loading it from disk func (pk PrivKeyLedgerSecp256k1) ValidateKey() error { // getPubKey will return an error if the ledger is not // properly set up... pub, err := pk.forceGetPubKey() if err != nil { return err } // verify this matches cached address if !pub.Equals(pk.CachedPubKey) { return fmt.Errorf("cached key does not match retrieved key") } return nil } // AssertIsPrivKeyInner fulfils PrivKey Interface func (pk *PrivKeyLedgerSecp256k1) AssertIsPrivKeyInner() {} // Bytes fulfils PrivKey Interface - but it stores the cached pubkey so we can verify // the same key when we reconnect to a ledger func (pk PrivKeyLedgerSecp256k1) Bytes() []byte { bin, err := cdc.MarshalBinaryBare(pk) if err != nil { panic(err) } return bin } // Sign calls the ledger and stores the PubKey for future use // // Communication is checked on NewPrivKeyLedger and PrivKeyFromBytes, // returning an error, so this should only trigger if the privkey is held // in memory for a while before use. func (pk PrivKeyLedgerSecp256k1) Sign(msg []byte) Signature { // oh, I wish there was better error handling dev, err := getLedger() if err != nil { panic(err) } sig, err := signLedgerSecp256k1(dev, pk.Path, msg) if err != nil { panic(err) } pub, err := pubkeyLedgerSecp256k1(dev, pk.Path) if err != nil { panic(err) } // if we have no pubkey yet, store it for future queries if pk.CachedPubKey == nil { pk.CachedPubKey = pub } else if !pk.CachedPubKey.Equals(pub) { panic("stored key does not match signing key") } return sig } // PubKey returns the stored PubKey func (pk PrivKeyLedgerSecp256k1) PubKey() PubKey { key, err := pk.getPubKey() if err != nil { panic(err) } return key } // getPubKey reads the pubkey from cache or from the ledger itself // since this involves IO, it may return an error, which is not exposed // in the PubKey interface, so this function allows better error handling func (pk PrivKeyLedgerSecp256k1) getPubKey() (key PubKey, err error) { // if we have no pubkey, set it if pk.CachedPubKey == nil { pk.CachedPubKey, err = pk.forceGetPubKey() } return pk.CachedPubKey, err } // forceGetPubKey is like getPubKey but ignores any cached key // and ensures we get it from the ledger itself. func (pk PrivKeyLedgerSecp256k1) forceGetPubKey() (key PubKey, err error) { dev, err := getLedger() if err != nil { return key, fmt.Errorf("cannot connect to Ledger device - error: %v", err) } key, err = pubkeyLedgerSecp256k1(dev, pk.Path) if err != nil { return key, fmt.Errorf("please open Cosmos app on the Ledger device - error: %v", err) } return key, err } // Equals fulfils PrivKey Interface - makes sure both keys refer to the // same func (pk PrivKeyLedgerSecp256k1) Equals(other PrivKey) bool { if ledger, ok := other.(*PrivKeyLedgerSecp256k1); ok { return pk.CachedPubKey.Equals(ledger.CachedPubKey) } return false }