libp2p

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Published: Jul 1, 2023 License: MIT Imports: 42 Imported by: 0

README

libp2p hex logo

The Go implementation of the libp2p Networking Stack.

Go Reference

Table of Contents

Background

libp2p is a networking stack and library modularized out of The IPFS Project, and bundled separately for other tools to use.

libp2p is the product of a long, and arduous quest of understanding -- a deep dive into the internet's network stack, and plentiful peer-to-peer protocols from the past. Building large-scale peer-to-peer systems has been complex and difficult in the last 15 years, and libp2p is a way to fix that. It is a "network stack" -- a protocol suite -- that cleanly separates concerns, and enables sophisticated applications to only use the protocols they absolutely need, without giving up interoperability and upgradeability. libp2p grew out of IPFS, but it is built so that lots of people can use it, for lots of different projects.

To learn more, check out the following resources:

Roadmap

Our roadmap for go-libp2p can be found here: https://github.com/mikelsr/go-libp2p/blob/master/ROADMAP.md This document represents current projects the go-libp2p team is focused on and provides an estimation of completion targets. It is a completementary roadmap to the overarching libp2p project roadmap: https://github.com/libp2p/specs/blob/master/ROADMAP.md

Usage

This repository (go-libp2p) serves as the entrypoint to the universe of packages that compose the Go implementation of the libp2p stack.

You can start using go-libp2p in your Go application simply by adding imports from our repos, e.g.:

import "github.com/mikelsr/go-libp2p"
Examples

Examples can be found in the examples folder.

Contribute

go-libp2p is part of The IPFS Project, and is MIT-licensed open source software. We welcome contributions big and small! Take a look at the community contributing notes. Please make sure to check the issues. Search the closed ones before reporting things, and help us with the open ones.

Guidelines:

  • read the libp2p spec
  • ask questions or talk about things in our discussion forums, or open an issue for bug reports, or #libp2p on freenode.
  • ensure you are able to contribute (no legal issues please -- we use the DCO)
  • get in touch with @marten-seemann about how best to contribute
  • have fun!

There's a few things you can do right now to help out:

  • Go through the modules below and check out existing issues. This would be especially useful for modules in active development. Some knowledge of IPFS/libp2p may be required, as well as the infrasture behind it - for instance, you may need to read up on p2p and more complex operations like muxing to be able to help technically.
  • Perform code reviews.
  • Add tests. There can never be enough tests.

Supported Go Versions

We test against and support the two most recent major releases of Go. This is informed by Go's own security policy.

Notable Users

Some notable users of go-libp2p are:

  • Kubo - The original Go implementation of IPFS
  • Lotus - An implementation of the Filecoin protocol
  • Drand - A distributed random beacon daemon
  • Prysm - An Ethereum Beacon Chain consensus client built by Prysmatic Labs
  • Berty - An open, secure, offline-first, peer-to-peer and zero trust messaging app.
  • Wasp - A node that runs IOTA Smart Contracts built by the IOTA Foundation
  • Mina - A lightweight, constant-sized blockchain that runs zero-knowledge smart contracts
  • Polygon Edge - A modular, extensible framework for building Ethereum compatible networks
  • Celestia Node - The Go implementation of Celestia's data availability nodes
  • Status go - Status bindings for go-ethereum, built by Status.im
  • Flow - A blockchain built to support games, apps, and digital assets built by Dapper Labs
  • Swarm Bee - A client for connecting to the Swarm network
  • Elrond Go - The Go implementation of the the Elrond network protocol
  • Sonr - A platform to integrate DID Documents, WebAuthn, and IPFS and manage digital identity and assets.
  • EdgeVPN - A decentralized, immutable, portable VPN and reverse proxy over p2p.
  • Kairos - A Kubernetes-focused, Cloud Native Linux meta-distribution.
  • Oasis Core - The consensus and runtime layers of the Oasis protocol.

Please open a pull request if you want your project to be added here.

Documentation

Index

Constants

This section is empty.

Variables

View Source
var DefaultConnectionManager = func(cfg *Config) error {
	mgr, err := connmgr.NewConnManager(160, 192)
	if err != nil {
		return err
	}

	return cfg.Apply(ConnectionManager(mgr))
}

DefaultConnectionManager creates a default connection manager

View Source
var DefaultEnableRelay = func(cfg *Config) error {
	return cfg.Apply(EnableRelay())
}

DefaultEnableRelay enables relay dialing and listening by default.

View Source
var DefaultListenAddrs = func(cfg *Config) error {
	addrs := []string{
		"/ip4/0.0.0.0/tcp/0",
		"/ip4/0.0.0.0/udp/0/quic",
		"/ip4/0.0.0.0/udp/0/quic-v1",
		"/ip4/0.0.0.0/udp/0/quic-v1/webtransport",
		"/ip6/::/tcp/0",
		"/ip6/::/udp/0/quic",
		"/ip6/::/udp/0/quic-v1",
		"/ip6/::/udp/0/quic-v1/webtransport",
	}
	listenAddrs := make([]multiaddr.Multiaddr, 0, len(addrs))
	for _, s := range addrs {
		addr, err := multiaddr.NewMultiaddr(s)
		if err != nil {
			return err
		}
		listenAddrs = append(listenAddrs, addr)
	}
	return cfg.Apply(ListenAddrs(listenAddrs...))
}

DefaultListenAddrs configures libp2p to use default listen address.

View Source
var DefaultMultiaddrResolver = func(cfg *Config) error {
	return cfg.Apply(MultiaddrResolver(madns.DefaultResolver))
}

DefaultMultiaddrResolver creates a default connection manager

DefaultMuxers configures libp2p to use the stream connection multiplexers.

Use this option when you want to *extend* the set of multiplexers used by libp2p instead of replacing them.

View Source
var DefaultPrivateTransports = ChainOptions(
	Transport(tcp.NewTCPTransport),
	Transport(ws.New),
)

DefaultPrivateTransports are the default libp2p transports when a PSK is supplied.

Use this option when you want to *extend* the set of transports used by libp2p instead of replacing them.

View Source
var DefaultPrometheusRegisterer = func(cfg *Config) error {
	return cfg.Apply(PrometheusRegisterer(prometheus.DefaultRegisterer))
}

DefaultPrometheusRegisterer configures libp2p to use the default registerer

View Source
var DefaultResourceManager = func(cfg *Config) error {

	limits := rcmgr.DefaultLimits
	SetDefaultServiceLimits(&limits)
	mgr, err := rcmgr.NewResourceManager(rcmgr.NewFixedLimiter(limits.AutoScale()))
	if err != nil {
		return err
	}

	return cfg.Apply(ResourceManager(mgr))
}
View Source
var DefaultSecurity = ChainOptions(
	Security(noise.ID, noise.New),
	Security(tls.ID, tls.New),
)

DefaultSecurity is the default security option.

Useful when you want to extend, but not replace, the supported transport security protocols.

DefaultTransports are the default libp2p transports.

Use this option when you want to *extend* the set of transports used by libp2p instead of replacing them.

View Source
var NoListenAddrs = func(cfg *Config) error {
	cfg.ListenAddrs = []ma.Multiaddr{}
	if !cfg.RelayCustom {
		cfg.RelayCustom = true
		cfg.Relay = false
	}
	return nil
}

NoListenAddrs will configure libp2p to not listen by default.

This will both clear any configured listen addrs and prevent libp2p from applying the default listen address option. It also disables relay, unless the user explicitly specifies with an option, as the transport creates an implicit listen address that would make the node dialable through any relay it was connected to.

View Source
var NoTransports = func(cfg *Config) error {
	cfg.Transports = []fx.Option{}
	return nil
}

NoTransports will configure libp2p to not enable any transports.

This will both clear any configured transports (specified in prior libp2p options) and prevent libp2p from applying the default transports.

View Source
var RandomIdentity = func(cfg *Config) error {
	priv, _, err := crypto.GenerateEd25519Key(rand.Reader)
	if err != nil {
		return err
	}
	return cfg.Apply(Identity(priv))
}

RandomIdentity generates a random identity. (default behaviour)

Functions

func New

func New(opts ...Option) (host.Host, error)

New constructs a new libp2p node with the given options, falling back on reasonable defaults. The defaults are:

- If no transport and listen addresses are provided, the node listens to the multiaddresses "/ip4/0.0.0.0/tcp/0" and "/ip6/::/tcp/0";

- If no transport options are provided, the node uses TCP, websocket and QUIC transport protocols;

- If no multiplexer configuration is provided, the node is configured by default to use yamux;

- If no security transport is provided, the host uses the go-libp2p's noise and/or tls encrypted transport to encrypt all traffic;

- If no peer identity is provided, it generates a random RSA 2048 key-pair and derives a new identity from it;

- If no peerstore is provided, the host is initialized with an empty peerstore.

To stop/shutdown the returned libp2p node, the user needs to cancel the passed context and call `Close` on the returned Host.

func NewWithoutDefaults

func NewWithoutDefaults(opts ...Option) (host.Host, error)

NewWithoutDefaults constructs a new libp2p node with the given options but *without* falling back on reasonable defaults.

Warning: This function should not be considered a stable interface. We may choose to add required services at any time and, by using this function, you opt-out of any defaults we may provide.

func SetDefaultServiceLimits

func SetDefaultServiceLimits(config *rcmgr.ScalingLimitConfig)

SetDefaultServiceLimits sets the default limits for bundled libp2p services

Types

type Config

type Config = config.Config

Config describes a set of settings for a libp2p node.

type Option

type Option = config.Option

Option is a libp2p config option that can be given to the libp2p constructor (`libp2p.New`).

var DefaultPeerstore Option = func(cfg *Config) error {
	ps, err := pstoremem.NewPeerstore()
	if err != nil {
		return err
	}
	return cfg.Apply(Peerstore(ps))
}

DefaultPeerstore configures libp2p to use the default peerstore.

var Defaults Option = func(cfg *Config) error {
	for _, def := range defaults {
		if err := cfg.Apply(def.opt); err != nil {
			return err
		}
	}
	return nil
}

Defaults configures libp2p to use the default options. Can be combined with other options to *extend* the default options.

var FallbackDefaults Option = func(cfg *Config) error {
	for _, def := range defaults {
		if !def.fallback(cfg) {
			continue
		}
		if err := cfg.Apply(def.opt); err != nil {
			return err
		}
	}
	return nil
}

FallbackDefaults applies default options to the libp2p node if and only if no other relevant options have been applied. will be appended to the options passed into New.

var NoSecurity Option = func(cfg *Config) error {
	if len(cfg.SecurityTransports) > 0 {
		return fmt.Errorf("cannot use security transports with an insecure libp2p configuration")
	}
	cfg.Insecure = true
	return nil
}

NoSecurity is an option that completely disables all transport security. It's incompatible with all other transport security protocols.

func AddrsFactory

func AddrsFactory(factory config.AddrsFactory) Option

AddrsFactory configures libp2p to use the given address factory.

func AutoNATServiceRateLimit

func AutoNATServiceRateLimit(global, perPeer int, interval time.Duration) Option

AutoNATServiceRateLimit changes the default rate limiting configured in helping other peers determine their reachability status. When set, the host will limit the number of requests it responds to in each 60 second period to the set numbers. A value of '0' disables throttling.

func BandwidthReporter

func BandwidthReporter(rep metrics.Reporter) Option

BandwidthReporter configures libp2p to use the given bandwidth reporter.

func ChainOptions

func ChainOptions(opts ...Option) Option

ChainOptions chains multiple options into a single option.

func ConnectionGater

func ConnectionGater(cg connmgr.ConnectionGater) Option

ConnectionGater configures libp2p to use the given ConnectionGater to actively reject inbound/outbound connections based on the lifecycle stage of the connection.

For more information, refer to go-libp2p/core.ConnectionGater.

func ConnectionManager

func ConnectionManager(connman connmgr.ConnManager) Option

ConnectionManager configures libp2p to use the given connection manager.

The current "standard" connection manager lives in github.com/libp2p/go-libp2p-connmgr. See https://pkg.go.dev/github.com/libp2p/go-libp2p-connmgr?utm_source=godoc#NewConnManager.

func DialRanker

func DialRanker(d network.DialRanker) Option

DialRanker configures libp2p to use d as the dial ranker. To enable smart dialing use `swarm.DefaultDialRanker`. use `swarm.NoDelayDialRanker` to disable smart dialing.

func DisableMetrics

func DisableMetrics() Option

DisableMetrics configures libp2p to disable prometheus metrics

func DisableRelay

func DisableRelay() Option

DisableRelay configures libp2p to disable the relay transport.

func EnableAutoRelay deprecated

func EnableAutoRelay(opts ...autorelay.Option) Option

EnableAutoRelay configures libp2p to enable the AutoRelay subsystem.

Dependencies:

  • Relay (enabled by default)
  • Either: 1. A list of static relays 2. A PeerSource function that provides a chan of relays. See `autorelay.WithPeerSource`

This subsystem performs automatic address rewriting to advertise relay addresses when it detects that the node is publicly unreachable (e.g. behind a NAT).

Deprecated: Use EnableAutoRelayWithStaticRelays or EnableAutoRelayWithPeerSource

func EnableAutoRelayWithPeerSource

func EnableAutoRelayWithPeerSource(peerSource autorelay.PeerSource, opts ...autorelay.Option) Option

EnableAutoRelayWithPeerSource configures libp2p to enable the AutoRelay subsystem using the provided PeerSource callback to get more relay candidates. This subsystem performs automatic address rewriting to advertise relay addresses when it detects that the node is publicly unreachable (e.g. behind a NAT).

func EnableAutoRelayWithStaticRelays

func EnableAutoRelayWithStaticRelays(static []peer.AddrInfo, opts ...autorelay.Option) Option

EnableAutoRelayWithStaticRelays configures libp2p to enable the AutoRelay subsystem using the provided relays as relay candidates. This subsystem performs automatic address rewriting to advertise relay addresses when it detects that the node is publicly unreachable (e.g. behind a NAT).

func EnableHolePunching

func EnableHolePunching(opts ...holepunch.Option) Option

Experimental EnableHolePunching enables NAT traversal by enabling NATT'd peers to both initiate and respond to hole punching attempts to create direct/NAT-traversed connections with other peers. (default: disabled)

Dependencies:

  • Relay (enabled by default)

This subsystem performs two functions:

  1. On receiving an inbound Relay connection, it attempts to create a direct connection with the remote peer by initiating and co-ordinating a hole punch over the Relayed connection.
  2. If a peer sees a request to co-ordinate a hole punch on an outbound Relay connection, it will participate in the hole-punch to create a direct connection with the remote peer.

If the hole punch is successful, all new streams will thereafter be created on the hole-punched connection. The Relayed connection will eventually be closed after a grace period.

All existing indefinite long-lived streams on the Relayed connection will have to re-opened on the hole-punched connection by the user. Users can make use of the `Connected`/`Disconnected` notifications emitted by the Network for this purpose.

It is not mandatory but nice to also enable the `AutoRelay` option (See `EnableAutoRelay`) so the peer can discover and connect to Relay servers if it discovers that it is NATT'd and has private reachability via AutoNAT. This will then enable it to advertise Relay addresses which can be used to accept inbound Relay connections to then co-ordinate a hole punch.

If `EnableAutoRelay` is configured and the user is confident that the peer has private reachability/is NATT'd, the `ForceReachabilityPrivate` option can be configured to short-circuit reachability discovery via AutoNAT so the peer can immediately start connecting to Relay servers.

If `EnableAutoRelay` is configured, the `StaticRelays` option can be used to configure a static set of Relay servers for `AutoRelay` to connect to so that it does not need to discover Relay servers via Routing.

func EnableNATService

func EnableNATService() Option

EnableNATService configures libp2p to provide a service to peers for determining their reachability status. When enabled, the host will attempt to dial back to peers, and then tell them if it was successful in making such connections.

func EnableRelay

func EnableRelay() Option

EnableRelay configures libp2p to enable the relay transport. This option only configures libp2p to accept inbound connections from relays and make outbound connections_through_ relays when requested by the remote peer. This option supports both circuit v1 and v2 connections. (default: enabled)

func EnableRelayService

func EnableRelayService(opts ...relayv2.Option) Option

EnableRelayService configures libp2p to run a circuit v2 relay, if we detect that we're publicly reachable.

func ForceReachabilityPrivate

func ForceReachabilityPrivate() Option

ForceReachabilityPrivate overrides automatic reachability detection in the AutoNAT subsystem, forceing the local node to believe it is behind a NAT and not reachable externally.

func ForceReachabilityPublic

func ForceReachabilityPublic() Option

ForceReachabilityPublic overrides automatic reachability detection in the AutoNAT subsystem, forcing the local node to believe it is reachable externally.

func Identity

func Identity(sk crypto.PrivKey) Option

Identity configures libp2p to use the given private key to identify itself.

func ListenAddrStrings

func ListenAddrStrings(s ...string) Option

ListenAddrStrings configures libp2p to listen on the given (unparsed) addresses.

func ListenAddrs

func ListenAddrs(addrs ...ma.Multiaddr) Option

ListenAddrs configures libp2p to listen on the given addresses.

func MultiaddrResolver

func MultiaddrResolver(rslv *madns.Resolver) Option

MultiaddrResolver sets the libp2p dns resolver

func Muxer

func Muxer(name string, muxer network.Multiplexer) Option

Muxer configures libp2p to use the given stream multiplexer. name is the protocol name.

func NATManager

func NATManager(nm config.NATManagerC) Option

NATManager will configure libp2p to use the requested NATManager. This function should be passed a NATManager *constructor* that takes a libp2p Network.

func NATPortMap

func NATPortMap() Option

NATPortMap configures libp2p to use the default NATManager. The default NATManager will attempt to open a port in your network's firewall using UPnP.

func Peerstore

func Peerstore(ps peerstore.Peerstore) Option

Peerstore configures libp2p to use the given peerstore.

func Ping

func Ping(enable bool) Option

Ping will configure libp2p to support the ping service; enable by default.

func PrivateNetwork

func PrivateNetwork(psk pnet.PSK) Option

PrivateNetwork configures libp2p to use the given private network protector.

func PrometheusRegisterer

func PrometheusRegisterer(reg prometheus.Registerer) Option

PrometheusRegisterer configures libp2p to use reg as the Registerer for all metrics subsystems

func ProtocolVersion

func ProtocolVersion(s string) Option

ProtocolVersion sets the protocolVersion string required by the libp2p Identify protocol.

func QUICReuse

func QUICReuse(constructor interface{}, opts ...quicreuse.Option) Option

func ResourceManager

func ResourceManager(rcmgr network.ResourceManager) Option

ResourceManager configures libp2p to use the given ResourceManager. When using the p2p/host/resource-manager implementation of the ResourceManager interface, it is recommended to set limits for libp2p protocol by calling SetDefaultServiceLimits.

func Routing

func Routing(rt config.RoutingC) Option

Routing will configure libp2p to use routing.

func Security

func Security(name string, constructor interface{}) Option

Security configures libp2p to use the given security transport (or transport constructor).

Name is the protocol name.

The transport can be a constructed security.Transport or a function taking any subset of this libp2p node's: * Public key * Private key * Peer ID * Host * Network * Peerstore

func Transport

func Transport(constructor interface{}, opts ...interface{}) Option

Transport configures libp2p to use the given transport (or transport constructor).

The transport can be a constructed transport.Transport or a function taking any subset of this libp2p node's: * Transport Upgrader (*tptu.Upgrader) * Host * Stream muxer (muxer.Transport) * Security transport (security.Transport) * Private network protector (pnet.Protector) * Peer ID * Private Key * Public Key * Address filter (filter.Filter) * Peerstore

func UserAgent

func UserAgent(userAgent string) Option

UserAgent sets the libp2p user-agent sent along with the identify protocol

func WithDialTimeout

func WithDialTimeout(t time.Duration) Option

Directories

Path Synopsis
Package core provides convenient access to foundational, central go-libp2p primitives via type aliases.
Package core provides convenient access to foundational, central go-libp2p primitives via type aliases.
connmgr
Package connmgr provides connection tracking and management interfaces for libp2p.
Package connmgr provides connection tracking and management interfaces for libp2p.
crypto
Package crypto implements various cryptographic utilities used by libp2p.
Package crypto implements various cryptographic utilities used by libp2p.
discovery
Package discovery provides service advertisement and peer discovery interfaces for libp2p.
Package discovery provides service advertisement and peer discovery interfaces for libp2p.
event
Package event contains the abstractions for a local event bus, along with the standard events that libp2p subsystems may emit.
Package event contains the abstractions for a local event bus, along with the standard events that libp2p subsystems may emit.
host
Package host provides the core Host interface for libp2p.
Package host provides the core Host interface for libp2p.
metrics
Package metrics provides metrics collection and reporting interfaces for libp2p.
Package metrics provides metrics collection and reporting interfaces for libp2p.
network
Package network provides core networking abstractions for libp2p.
Package network provides core networking abstractions for libp2p.
network/mocks
Package mocknetwork is a generated GoMock package.
Package mocknetwork is a generated GoMock package.
peer
Package peer implements an object used to represent peers in the libp2p network.
Package peer implements an object used to represent peers in the libp2p network.
peerstore
Package peerstore provides types and interfaces for local storage of address information, metadata, and public key material about libp2p peers.
Package peerstore provides types and interfaces for local storage of address information, metadata, and public key material about libp2p peers.
pnet
Package pnet provides interfaces for private networking in libp2p.
Package pnet provides interfaces for private networking in libp2p.
protocol
Package protocol provides core interfaces for protocol routing and negotiation in libp2p.
Package protocol provides core interfaces for protocol routing and negotiation in libp2p.
routing
Package routing provides interfaces for peer routing and content routing in libp2p.
Package routing provides interfaces for peer routing and content routing in libp2p.
sec
Package sec provides secure connection and transport interfaces for libp2p.
Package sec provides secure connection and transport interfaces for libp2p.
sec/insecure
Package insecure provides an insecure, unencrypted implementation of the SecureConn and SecureTransport interfaces.
Package insecure provides an insecure, unencrypted implementation of the SecureConn and SecureTransport interfaces.
transport
Package transport provides the Transport interface, which represents the devices and network protocols used to send and receive data.
Package transport provides the Transport interface, which represents the devices and network protocols used to send and receive data.
examples module
pubsub/chat Module
p2p
host/resource-manager
Package rcmgr is the resource manager for go-libp2p.
Package rcmgr is the resource manager for go-libp2p.
host/resource-manager/obs
Package obs implements metrics tracing for resource manager
Package obs implements metrics tracing for resource manager
net/mock
Package mocknet provides a mock net.Network to test with.
Package mocknet provides a mock net.Network to test with.
net/reuseport
Package reuseport provides a basic transport for automatically (and intelligently) reusing TCP ports.
Package reuseport provides a basic transport for automatically (and intelligently) reusing TCP ports.
test/reconnects
Package reconnect tests connect -> disconnect -> reconnect works
Package reconnect tests connect -> disconnect -> reconnect works
transport/websocket
Package websocket implements a websocket based transport for go-libp2p.
Package websocket implements a websocket based transport for go-libp2p.

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