// Package peer implements an object used to represent peers in the libp2p network. package peer import ( "errors" "fmt" "strings" "github.com/ipfs/go-cid" ic "github.com/libp2p/go-libp2p/core/crypto" b58 "github.com/mr-tron/base58/base58" mc "github.com/multiformats/go-multicodec" mh "github.com/multiformats/go-multihash" ) var ( // ErrEmptyPeerID is an error for empty peer ID. ErrEmptyPeerID = errors.New("empty peer ID") // ErrNoPublicKey is an error for peer IDs that don't embed public keys ErrNoPublicKey = errors.New("public key is not embedded in peer ID") ) // AdvancedEnableInlining enables automatically inlining keys shorter than // 42 bytes into the peer ID (using the "identity" multihash function). // // WARNING: This flag will likely be set to false in the future and eventually // be removed in favor of using a hash function specified by the key itself. // See: https://github.com/libp2p/specs/issues/138 // // DO NOT change this flag unless you know what you're doing. // // This currently defaults to true for backwards compatibility but will likely // be set to false by default when an upgrade path is determined. var AdvancedEnableInlining = true const maxInlineKeyLength = 42 // ID is a libp2p peer identity. // // Peer IDs are derived by hashing a peer's public key and encoding the // hash output as a multihash. See IDFromPublicKey for details. type ID string // Pretty returns a base58-encoded string representation of the ID. // Deprecated: use String() instead. func (id ID) Pretty() string { return id.String() } // Loggable returns a pretty peer ID string in loggable JSON format. func (id ID) Loggable() map[string]interface{} { return map[string]interface{}{ "peerID": id.String(), } } func (id ID) String() string { return b58.Encode([]byte(id)) } // ShortString prints out the peer ID. // // TODO(brian): ensure correctness at ID generation and // enforce this by only exposing functions that generate // IDs safely. Then any peer.ID type found in the // codebase is known to be correct. func (id ID) ShortString() string { pid := id.String() if len(pid) <= 10 { return fmt.Sprintf("", pid) } return fmt.Sprintf("", pid[:2], pid[len(pid)-6:]) } // MatchesPrivateKey tests whether this ID was derived from the secret key sk. func (id ID) MatchesPrivateKey(sk ic.PrivKey) bool { return id.MatchesPublicKey(sk.GetPublic()) } // MatchesPublicKey tests whether this ID was derived from the public key pk. func (id ID) MatchesPublicKey(pk ic.PubKey) bool { oid, err := IDFromPublicKey(pk) if err != nil { return false } return oid == id } // ExtractPublicKey attempts to extract the public key from an ID. // // This method returns ErrNoPublicKey if the peer ID looks valid but it can't extract // the public key. func (id ID) ExtractPublicKey() (ic.PubKey, error) { decoded, err := mh.Decode([]byte(id)) if err != nil { return nil, err } if decoded.Code != mh.IDENTITY { return nil, ErrNoPublicKey } pk, err := ic.UnmarshalPublicKey(decoded.Digest) if err != nil { return nil, err } return pk, nil } // Validate checks if ID is empty or not. func (id ID) Validate() error { if id == ID("") { return ErrEmptyPeerID } return nil } // IDFromBytes casts a byte slice to the ID type, and validates // the value to make sure it is a multihash. func IDFromBytes(b []byte) (ID, error) { if _, err := mh.Cast(b); err != nil { return ID(""), err } return ID(b), nil } // Decode accepts an encoded peer ID and returns the decoded ID if the input is // valid. // // The encoded peer ID can either be a CID of a key or a raw multihash (identity // or sha256-256). func Decode(s string) (ID, error) { if strings.HasPrefix(s, "Qm") || strings.HasPrefix(s, "1") { // base58 encoded sha256 or identity multihash m, err := mh.FromB58String(s) if err != nil { return "", fmt.Errorf("failed to parse peer ID: %s", err) } return ID(m), nil } c, err := cid.Decode(s) if err != nil { return "", fmt.Errorf("failed to parse peer ID: %s", err) } return FromCid(c) } // Encode encodes a peer ID as a string. // // At the moment, it base58 encodes the peer ID but, in the future, it will // switch to encoding it as a CID by default. // // Deprecated: use id.String instead. func Encode(id ID) string { return id.String() } // FromCid converts a CID to a peer ID, if possible. func FromCid(c cid.Cid) (ID, error) { code := mc.Code(c.Type()) if code != mc.Libp2pKey { return "", fmt.Errorf("can't convert CID of type %q to a peer ID", code) } return ID(c.Hash()), nil } // ToCid encodes a peer ID as a CID of the public key. // // If the peer ID is invalid (e.g., empty), this will return the empty CID. func ToCid(id ID) cid.Cid { m, err := mh.Cast([]byte(id)) if err != nil { return cid.Cid{} } return cid.NewCidV1(cid.Libp2pKey, m) } // IDFromPublicKey returns the Peer ID corresponding to the public key pk. func IDFromPublicKey(pk ic.PubKey) (ID, error) { b, err := ic.MarshalPublicKey(pk) if err != nil { return "", err } var alg uint64 = mh.SHA2_256 if AdvancedEnableInlining && len(b) <= maxInlineKeyLength { alg = mh.IDENTITY } hash, _ := mh.Sum(b, alg, -1) return ID(hash), nil } // IDFromPrivateKey returns the Peer ID corresponding to the secret key sk. func IDFromPrivateKey(sk ic.PrivKey) (ID, error) { return IDFromPublicKey(sk.GetPublic()) } // IDSlice for sorting peers. type IDSlice []ID func (es IDSlice) Len() int { return len(es) } func (es IDSlice) Swap(i, j int) { es[i], es[j] = es[j], es[i] } func (es IDSlice) Less(i, j int) bool { return string(es[i]) < string(es[j]) } func (es IDSlice) String() string { peersStrings := make([]string, len(es)) for i, id := range es { peersStrings[i] = id.String() } return strings.Join(peersStrings, ", ") }