zolfa
/
tendermint


								package p2p


								import (

									"context"

									"encoding/hex"

									"errors"

									"fmt"

									"net"

									"net/url"

									"regexp"

									"strconv"

									"strings"


									"github.com/tendermint/tendermint/crypto"

								)


								const (

									// NodeIDByteLength is the length of a crypto.Address. Currently only 20.

									// FIXME: support other length addresses?

									NodeIDByteLength = crypto.AddressSize

								)


								var (

									// reNodeID is a regexp for valid node IDs.

									reNodeID = regexp.MustCompile(`^[0-9a-f]{40}$`)


									// reHasScheme tries to detect URLs with schemes. It looks for a : before a / (if any).

									reHasScheme = regexp.MustCompile(`^[^/]+:`)


									// reSchemeIsHost tries to detect URLs where the scheme part is instead a

									// hostname, i.e. of the form "host:80/path" where host: is a hostname.

									reSchemeIsHost = regexp.MustCompile(`^[^/:]+:\d+(/|$)`)

								)


								// NodeID is a hex-encoded crypto.Address. It must be lowercased

								// (for uniqueness) and of length 2*NodeIDByteLength.

								type NodeID string


								// NewNodeID returns a lowercased (normalized) NodeID, or errors if the

								// node ID is invalid.

								func NewNodeID(nodeID string) (NodeID, error) {

									n := NodeID(strings.ToLower(nodeID))

									return n, n.Validate()

								}


								// NodeIDFromPubKey creates a node ID from a given PubKey address.

								func NodeIDFromPubKey(pubKey crypto.PubKey) NodeID {

									return NodeID(hex.EncodeToString(pubKey.Address()))

								}


								// Bytes converts the node ID to its binary byte representation.

								func (id NodeID) Bytes() ([]byte, error) {

									bz, err := hex.DecodeString(string(id))

									if err != nil {

										return nil, fmt.Errorf("invalid node ID encoding: %w", err)

									}

									return bz, nil

								}


								// Validate validates the NodeID.

								func (id NodeID) Validate() error {

									switch {

									case len(id) == 0:

										return errors.New("empty node ID")


									case len(id) != 2*NodeIDByteLength:

										return fmt.Errorf("invalid node ID length %d, expected %d", len(id), 2*NodeIDByteLength)


									case !reNodeID.MatchString(string(id)):

										return fmt.Errorf("node ID can only contain lowercased hex digits")


									default:

										return nil

									}

								}


								// NodeAddress is a node address URL. It differs from a transport Endpoint in

								// that it contains the node's ID, and that the address hostname may be resolved

								// into multiple IP addresses (and thus multiple endpoints).

								//

								// If the URL is opaque, i.e. of the form "scheme:opaque", then the opaque part

								// is expected to contain a node ID.

								type NodeAddress struct {

									NodeID   NodeID

									Protocol Protocol

									Hostname string

									Port     uint16

									Path     string

								}


								// ParseNodeAddress parses a node address URL into a NodeAddress, normalizing

								// and validating it.

								func ParseNodeAddress(urlString string) (NodeAddress, error) {

									// url.Parse requires a scheme, so if it fails to parse a scheme-less URL

									// we try to apply a default scheme.

									url, err := url.Parse(urlString)

									if (err != nil || url.Scheme == "") &&

										(!reHasScheme.MatchString(urlString) || reSchemeIsHost.MatchString(urlString)) {

										url, err = url.Parse(string(defaultProtocol) + "://" + urlString)

									}

									if err != nil {

										return NodeAddress{}, fmt.Errorf("invalid node address %q: %w", urlString, err)

									}


									address := NodeAddress{

										Protocol: Protocol(strings.ToLower(url.Scheme)),

									}


									// Opaque URLs are expected to contain only a node ID, also used as path.

									if url.Opaque != "" {

										address.NodeID = NodeID(url.Opaque)

										address.Path = url.Opaque

										return address, address.Validate()

									}


									// Otherwise, just parse a normal networked URL.

									if url.User != nil {

										address.NodeID = NodeID(strings.ToLower(url.User.Username()))

									}


									address.Hostname = strings.ToLower(url.Hostname())


									if portString := url.Port(); portString != "" {

										port64, err := strconv.ParseUint(portString, 10, 16)

										if err != nil {

											return NodeAddress{}, fmt.Errorf("invalid port %q: %w", portString, err)

										}

										address.Port = uint16(port64)

									}


									address.Path = url.Path

									if url.RawQuery != "" {

										address.Path += "?" + url.RawQuery

									}

									if url.Fragment != "" {

										address.Path += "#" + url.Fragment

									}

									if address.Path != "" {

										switch address.Path[0] {

										case '/', '#', '?':

										default:

											address.Path = "/" + address.Path

										}

									}


									return address, address.Validate()

								}


								// Resolve resolves a NodeAddress into a set of Endpoints, by expanding

								// out a DNS hostname to IP addresses.

								func (a NodeAddress) Resolve(ctx context.Context) ([]Endpoint, error) {

									if a.Protocol == "" {

										return nil, errors.New("address has no protocol")

									}


									// If there is no hostname, this is an opaque URL in the form

									// "scheme:opaque", and the opaque part is assumed to be node ID used as

									// Path.

									if a.Hostname == "" {

										if a.NodeID == "" {

											return nil, errors.New("local address has no node ID")

										}

										return []Endpoint{{

											Protocol: a.Protocol,

											Path:     string(a.NodeID),

										}}, nil

									}


									ips, err := net.DefaultResolver.LookupIP(ctx, "ip", a.Hostname)

									if err != nil {

										return nil, err

									}

									endpoints := make([]Endpoint, len(ips))

									for i, ip := range ips {

										endpoints[i] = Endpoint{

											Protocol: a.Protocol,

											IP:       ip,

											Port:     a.Port,

											Path:     a.Path,

										}

									}

									return endpoints, nil

								}


								// String formats the address as a URL string.

								func (a NodeAddress) String() string {

									u := url.URL{Scheme: string(a.Protocol)}

									if a.NodeID != "" {

										u.User = url.User(string(a.NodeID))

									}

									switch {

									case a.Hostname != "":

										if a.Port > 0 {

											u.Host = net.JoinHostPort(a.Hostname, strconv.Itoa(int(a.Port)))

										} else {

											u.Host = a.Hostname

										}

										u.Path = a.Path


									case a.Protocol != "" && (a.Path == "" || a.Path == string(a.NodeID)):

										u.User = nil

										u.Opaque = string(a.NodeID) // e.g. memory:id


									case a.Path != "" && a.Path[0] != '/':

										u.Path = "/" + a.Path // e.g. some/path


									default:

										u.Path = a.Path // e.g. /some/path

									}

									return strings.TrimPrefix(u.String(), "//")

								}


								// Validate validates a NodeAddress.

								func (a NodeAddress) Validate() error {

									if a.Protocol == "" {

										return errors.New("no protocol")

									}

									if a.NodeID == "" {

										return errors.New("no peer ID")

									} else if err := a.NodeID.Validate(); err != nil {

										return fmt.Errorf("invalid peer ID: %w", err)

									}

									if a.Port > 0 && a.Hostname == "" {

										return errors.New("cannot specify port without hostname")

									}

									return nil

								}