libp2p-switch
Advanced tools
libp2p-switch is a dialer machine, it leverages the multiple libp2p transports, stream muxers, crypto channels and other connection upgrades to dial to peers in the libp2p network. It also supports Protocol Multiplexing through a multicodec and multistream-select handshake.
libp2p-switch is used by libp2p but it can be also used as a standalone module.
> npm install libp2p-switch --save
const switch = require('libp2p-switch')
const sw = new switch(peerInfo , peerBook [, options])
If defined, options should be an object with the following keys and respective values:
stats: an object with the following keys and respective values:
maxOldPeersRetention: maximum old peers retention. For when peers disconnect and keeping the stats around in case they reconnect. Defaults to 100.computeThrottleMaxQueueSize: maximum queue size to perform stats computation throttling. Defaults to 1000.computeThrottleTimeout: Throttle timeout, in miliseconds. Defaults to 2000,movingAverageIntervals: Array containin the intervals, in miliseconds, for which moving averages are calculated. Defaults to:[
60 * 1000, // 1 minute
5 * 60 * 1000, // 5 minutes
15 * 60 * 1000 // 15 minutes
]
libp2p-switch supports private networking. In order to enabled private networks, the switch.protector must be
set and must contain a protect method. You can see an example of this in the private network
tests.
switch.connectionswitch.connection.addUpgrade()A connection upgrade must be able to receive and return something that implements the interface-connection specification.
WIP
switch.connection.addStreamMuxer(muxer)Upgrading a connection to use a stream muxer is still considered an upgrade, but a special case since once this connection is applied, the returned obj will implement the interface-stream-muxer spec.
muxerswitch.connection.reuse()Enable the identify protocol.
switch.connection.crypto([tag, encrypt])Enable a specified crypto protocol. By default no encryption is used, aka plaintext. If called with no arguments it resets to use plaintext.
You can use for example libp2p-secio like this
const secio = require('libp2p-secio')
switch.connection.crypto(secio.tag, secio.encrypt)
switch.connection.enableCircuitRelay(options, callback)Enable circuit relaying.
options
callbackswitch.dial(peer, protocol, callback)dial uses the best transport (whatever works first, in the future we can have some criteria), and jump starts the connection until the point where we have to negotiate the protocol. If a muxer is available, then drop the muxer onto that connection. Good to warm up connections or to check for connectivity. If we have already a muxer for that peerInfo, then do nothing.
peer: can be an instance of [PeerInfo][], [PeerId][] or [multiaddr][]protocolcallbackswitch.dialFSM(peer, protocol, callback)works like dial, but calls back with a Connection State Machine
peer: can be an instance of [PeerInfo][], [PeerId][] or [multiaddr][]protocol: String that defines the protocol (e.g '/ipfs/bitswap/1.1.0') to be usedcallback: Function with signature function (err, connFSM) {} where connFSM is a Connection State MachineConnection state machines emit a number of events that can be used to determine the current state of the connection and to received the underlying connection that can be used to transfer data.
error: emitted whenever a fatal error occurs with the connection; the error will be emitted.error:upgrade_failed: emitted whenever the connection fails to upgrade with a muxer, this is not fatal.error:connection_attempt_failed: emitted whenever a dial attempt fails for a given transport. An array of errors is emitted.connection: emitted whenever a useable connection has been established; the underlying Connection will be emitted.close: emitted when the connection has closed.switch.handle(protocol, handlerFunc, matchFunc)Handle a new protocol.
protocolhandlerFunc - function called when we receive a dial on protocol. Signature must be function (protocol, conn) {}`matchFunc - matchFunc for multistream-selectswitch.hangUp(peer, callback)Hang up the muxed connection we have with the peer.
peer: can be an instance of [PeerInfo][], [PeerId][] or [multiaddr][]callbackswitch.on('error', (err) => {})Emitted when the switch encounters an error.
err: instance of [Error][]switch.on('peer-mux-established', (peer) => {})peer: is instance of [PeerInfo][] that has info of the peer we have just established a muxed connection with.switch.on('peer-mux-closed', (peer) => {})peer: is instance of [PeerInfo][] that has info of the peer we have just closed a muxed connection.switch.on('start', () => {})Emitted when the switch has successfully started.
switch.on('stop', () => {})Emitted when the switch has successfully stopped.
switch.start(callback)Start listening on all added transports that are available on the current peerInfo.
switch.stop(callback)Close all the listeners and muxers.
callbackswitch.stats.emit('update')Every time any stat value changes, this object emits an update event.
switch.stats.global.snapshotShould return a stats snapshot, which is an object containing the following keys and respective values:
switch.stats.global.movingAveragesReturns an object containing the following keys:
Each one of them contains an object that has a key for each interval (60000, 300000 and 900000 miliseconds).
Each one of these values is an exponential moving-average instance.
switch.stats.transports()Returns an array containing the tags (string) for each observed transport.
switch.stats.forTransport(transportTag).snapshotShould return a stats snapshot, which is an object containing the following keys and respective values:
switch.stats.forTransport(transportTag).movingAveragesReturns an object containing the following keys:
dataSent dataReceived
Each one of them contains an object that has a key for each interval (60000, 300000 and 900000 miliseconds).
Each one of these values is an exponential moving-average instance.
switch.stats.protocols()Returns an array containing the tags (string) for each observed protocol.
switch.stats.forProtocol(protocolTag).snapshotShould return a stats snapshot, which is an object containing the following keys and respective values:
switch.stats.forProtocol(protocolTag).movingAveragesReturns an object containing the following keys:
Each one of them contains an object that has a key for each interval (60000, 300000 and 900000 miliseconds).
Each one of these values is an exponential moving-average instance.
switch.stats.peers()Returns an array containing the peerIDs (B58-encoded string) for each observed peer.
switch.stats.forPeer(peerId:String).snapshotShould return a stats snapshot, which is an object containing the following keys and respective values:
switch.stats.forPeer(peerId:String).movingAveragesReturns an object containing the following keys:
Each one of them contains an object that has a key for each interval (60000, 300000 and 900000 miliseconds).
Each one of these values is an exponential moving-average instance.
Stats are not updated in real-time. Instead, measurements are buffered and stats are updated at an interval. The maximum interval can be defined through the Switch constructor option stats.computeThrottleTimeout, defined in miliseconds.
switch.unhandle(protocol)Unhandle a protocol.
protocolswitch.transport.add(key, transport, options)libp2p-switch expects transports that implement interface-transport. For example libp2p-tcp.
key - the transport identifier.transport -options -switch.transport.dial(key, multiaddrs, callback)Dial to a peer on a specific transport.
keymultiaddrscallbackswitch.transport.listen(key, options, handler, callback)Set a transport to start listening mode.
keyoptionshandlercallbackswitch.transport.close(key, callback)Close the listeners of a given transport.
keycallbacklibp2p is designed to support multiple transports at the same time. While peers are identified by their ID (which are generated from their public keys), the addresses of each pair may vary, depending the device where they are being run or the network in which they are accessible through.
In order for a transport to be supported, it has to follow the interface-transport spec.
Each connection in libp2p follows the interface-connection spec. This design decision enables libp2p to have upgradable transports.
We think of upgrade as a very important notion when we are talking about connections, we can see mechanisms like: stream multiplexing, congestion control, encrypted channels, multipath, simulcast, etc, as upgrades to a connection. A connection can be a simple and with no guarantees, drop a packet on the network with a destination thing, a transport in the other hand can be a connection and or a set of different upgrades that are mounted on top of each other, giving extra functionality to that connection and therefore upgrading it.
Types of upgrades to a connection:
We also want to enable flexibility when it comes to upgrading a connection, for example, we might that all dialed transports pass through the encrypted channel upgrade, but not the congestion flow, specially when a transport might have already some underlying properties (UDP vs TCP vs WebRTC vs every other transport protocol)
Identify is a protocol that switchs mounts on top of itself, to identify the connections between any two peers. E.g:
In addition to this, we also share the "observed addresses" by the other peer, which is extremely useful information for different kinds of network topologies.
To avoid the confusion between connection, stream, transport, and other names that represent an abstraction of data flow between two points, we use terms as:
pull-streamsWe expose a streaming interface based on pull-streams, rather then on the Node.js core streams implementation (aka Node.js streams). pull-streams offers us a better mechanism for error handling and flow control guarantees. If you would like to know more about why we did this, see the discussion at this issue.
You can learn more about pull-streams at:
pull-streams to Node.js StreamsIf you are a Node.js streams user, you can convert a pull-stream to a Node.js stream using the module pull-stream-to-stream, giving you an instance of a Node.js stream that is linked to the pull-stream. For example:
const pullToStream = require('pull-stream-to-stream')
const nodeStreamInstance = pullToStream(pullStreamInstance)
// nodeStreamInstance is an instance of a Node.js Stream
To learn more about this utility, visit https://pull-stream.github.io/#pull-stream-to-stream.
This module is actively under development. Please check out the issues and submit PRs!
MIT © Protocol Labs
FAQs
libp2p switch implementation in JavaScript
We found that libp2p-switch demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 2 open source maintainers collaborating on the project.
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