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js-libp2p/tests/swarm-test.js
David Dias b83e5dd8dc complete
2016-03-15 09:57:06 +00:00

448 lines
11 KiB
JavaScript
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/* eslint-env mocha */
const expect = require('chai').expect
// const async = require('async')
const multiaddr = require('multiaddr')
// const Id = require('peer-id')
const Peer = require('peer-info')
const Swarm = require('../src')
const TCP = require('libp2p-tcp')
const bl = require('bl')
const spdy = require('libp2p-spdy')
describe('basics', () => {
it('throws on missing peerInfo', (done) => {
expect(Swarm).to.throw(Error)
done()
})
})
describe('transport - tcp', function () {
this.timeout(10000)
var swarmA
var swarmB
var peerA = new Peer()
var peerB = new Peer()
before((done) => {
peerA.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9888'))
peerB.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9999'))
swarmA = new Swarm(peerA)
swarmB = new Swarm(peerB)
done()
})
it('add', (done) => {
swarmA.transport.add('tcp', new TCP())
expect(Object.keys(swarmA.transports).length).to.equal(1)
swarmB.transport.add('tcp', new TCP(), () => {
expect(Object.keys(swarmB.transports).length).to.equal(1)
done()
})
})
it('listen', (done) => {
var count = 0
swarmA.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
swarmB.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
function ready () {
if (++count === 2) {
expect(peerA.multiaddrs.length).to.equal(1)
expect(peerA.multiaddrs[0]).to.deep.equal(multiaddr('/ip4/127.0.0.1/tcp/9888'))
expect(peerB.multiaddrs.length).to.equal(1)
expect(peerB.multiaddrs[0]).to.deep.equal(multiaddr('/ip4/127.0.0.1/tcp/9999'))
done()
}
}
})
it('dial to a multiaddr', (done) => {
const conn = swarmA.transport.dial('tcp', multiaddr('/ip4/127.0.0.1/tcp/9999'), (err, conn) => {
expect(err).to.not.exist
})
conn.pipe(bl((err, data) => {
expect(err).to.not.exist
done()
}))
conn.write('hey')
conn.end()
})
it('dial to set of multiaddr, only one is available', (done) => {
const conn = swarmA.transport.dial('tcp', [
multiaddr('/ip4/127.0.0.1/tcp/9910/websockets'), // not valid on purpose
multiaddr('/ip4/127.0.0.1/tcp/9910'),
multiaddr('/ip4/127.0.0.1/tcp/9999'),
multiaddr('/ip4/127.0.0.1/tcp/9309')
], (err, conn) => {
expect(err).to.not.exist
})
conn.pipe(bl((err, data) => {
expect(err).to.not.exist
done()
}))
conn.write('hey')
conn.end()
})
it('close', (done) => {
var count = 0
swarmA.transport.close('tcp', closed)
swarmB.transport.close('tcp', closed)
function closed () {
if (++count === 2) {
done()
}
}
})
it('support port 0', (done) => {
var swarm
var peer = new Peer()
peer.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/0'))
swarm = new Swarm(peer)
swarm.transport.add('tcp', new TCP())
swarm.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
function ready () {
expect(peer.multiaddrs.length).to.equal(1)
expect(peer.multiaddrs[0]).to.not.deep.equal(multiaddr('/ip4/127.0.0.1/tcp/0'))
swarm.close(done)
}
})
it('support addr /ip4/0.0.0.0/tcp/9050', (done) => {
var swarm
var peer = new Peer()
peer.multiaddr.add(multiaddr('/ip4/0.0.0.0/tcp/9050'))
swarm = new Swarm(peer)
swarm.transport.add('tcp', new TCP())
swarm.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
function ready () {
expect(peer.multiaddrs.length).to.equal(1)
expect(peer.multiaddrs[0]).to.deep.equal(multiaddr('/ip4/0.0.0.0/tcp/9050'))
swarm.close(done)
}
})
it('support addr /ip4/0.0.0.0/tcp/0', (done) => {
var swarm
var peer = new Peer()
peer.multiaddr.add(multiaddr('/ip4/0.0.0.0/tcp/0'))
swarm = new Swarm(peer)
swarm.transport.add('tcp', new TCP())
swarm.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
function ready () {
expect(peer.multiaddrs.length).to.equal(1)
expect(peer.multiaddrs[0]).to.not.deep.equal(multiaddr('/ip4/0.0.0.0/tcp/0'))
swarm.close(done)
}
})
it('listen in several addrs', (done) => {
var swarm
var peer = new Peer()
peer.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9001'))
peer.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9002'))
peer.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9003'))
swarm = new Swarm(peer)
swarm.transport.add('tcp', new TCP())
swarm.transport.listen('tcp', {}, (conn) => {
conn.pipe(conn)
}, ready)
function ready () {
expect(peer.multiaddrs.length).to.equal(3)
swarm.close(done)
}
})
})
describe('transport - udt', function () {
this.timeout(10000)
before((done) => { done() })
it.skip('add', (done) => {})
it.skip('listen', (done) => {})
it.skip('dial', (done) => {})
it.skip('close', (done) => {})
})
describe('transport - websockets', function () {
this.timeout(10000)
before((done) => { done() })
it.skip('add', (done) => {})
it.skip('listen', (done) => {})
it.skip('dial', (done) => {})
it.skip('close', (done) => {})
})
describe('high level API - 1st without stream multiplexing (on TCP)', function () {
this.timeout(20000)
var swarmA
var peerA
var swarmB
var peerB
before((done) => {
peerA = new Peer()
peerB = new Peer()
peerA.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9001'))
peerB.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9002'))
swarmA = new Swarm(peerA)
swarmB = new Swarm(peerB)
swarmA.transport.add('tcp', new TCP())
swarmA.transport.listen('tcp', {}, null, ready)
swarmB.transport.add('tcp', new TCP())
swarmB.transport.listen('tcp', {}, null, ready)
var counter = 0
function ready () {
if (++counter === 2) {
done()
}
}
})
after((done) => {
var counter = 0
swarmA.close(closed)
swarmB.close(closed)
function closed () {
if (++counter === 2) {
done()
}
}
})
it('handle a protocol', (done) => {
swarmB.handle('/bananas/1.0.0', (conn) => {
conn.pipe(conn)
})
expect(Object.keys(swarmB.protocols).length).to.equal(1)
done()
})
it('dial on protocol', (done) => {
swarmB.handle('/pineapple/1.0.0', (conn) => {
conn.pipe(conn)
})
swarmA.dial(peerB, '/pineapple/1.0.0', (err, conn) => {
expect(err).to.not.exist
conn.end()
conn.on('data', () => {}) // let it flow.. let it flooooow
conn.on('end', done)
})
})
it('dial to warm a conn', (done) => {
swarmA.dial(peerB, (err) => {
expect(err).to.not.exist
done()
})
})
it('dial on protocol, reuse warmed conn', (done) => {
swarmA.dial(peerB, '/bananas/1.0.0', (err, conn) => {
expect(err).to.not.exist
conn.end()
conn.on('data', () => {}) // let it flow.. let it flooooow
conn.on('end', done)
})
})
})
describe('stream muxing (on TCP)', function () {
this.timeout(20000)
describe('multiplex', () => {
before((done) => { done() })
after((done) => { done() })
it.skip('add', (done) => {})
it.skip('handle + dial on protocol', (done) => {})
it.skip('dial to warm conn', (done) => {})
it.skip('dial on protocol, reuse warmed conn', (done) => {})
it.skip('enable identify to reuse incomming muxed conn', (done) => {})
})
describe('spdy', () => {
var swarmA
var peerA
var swarmB
var peerB
var swarmC
var peerC
before((done) => {
peerA = new Peer()
peerB = new Peer()
peerC = new Peer()
// console.log('peer A', peerA.id.toB58String())
// console.log('peer B', peerB.id.toB58String())
// console.log('peer C', peerC.id.toB58String())
peerA.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9001'))
peerB.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9002'))
peerC.multiaddr.add(multiaddr('/ip4/127.0.0.1/tcp/9003'))
swarmA = new Swarm(peerA)
swarmB = new Swarm(peerB)
swarmC = new Swarm(peerC)
swarmA.transport.add('tcp', new TCP())
swarmA.transport.listen('tcp', {}, null, ready)
swarmB.transport.add('tcp', new TCP())
swarmB.transport.listen('tcp', {}, null, ready)
swarmC.transport.add('tcp', new TCP())
swarmC.transport.listen('tcp', {}, null, ready)
var counter = 0
function ready () {
if (++counter === 3) {
done()
}
}
})
after((done) => {
var counter = 0
swarmA.close(closed)
swarmB.close(closed)
swarmC.close(closed)
function closed () {
if (++counter === 3) {
done()
}
}
})
it('add', (done) => {
swarmA.connection.addStreamMuxer(spdy)
swarmB.connection.addStreamMuxer(spdy)
swarmC.connection.addStreamMuxer(spdy)
done()
})
it('handle + dial on protocol', (done) => {
swarmB.handle('/abacaxi/1.0.0', (conn) => {
conn.pipe(conn)
})
swarmA.dial(peerB, '/abacaxi/1.0.0', (err, conn) => {
expect(err).to.not.exist
expect(Object.keys(swarmA.muxedConns).length).to.equal(1)
conn.end()
conn.on('data', () => {}) // let it flow.. let it flooooow
conn.on('end', done)
})
})
it('dial to warm conn', (done) => {
swarmB.dial(peerA, (err) => {
expect(err).to.not.exist
expect(Object.keys(swarmB.conns).length).to.equal(0)
expect(Object.keys(swarmB.muxedConns).length).to.equal(1)
done()
})
})
it('dial on protocol, reuse warmed conn', (done) => {
swarmA.handle('/papaia/1.0.0', (conn) => {
conn.pipe(conn)
})
swarmB.dial(peerA, '/papaia/1.0.0', (err, conn) => {
expect(err).to.not.exist
expect(Object.keys(swarmB.conns).length).to.equal(0)
expect(Object.keys(swarmB.muxedConns).length).to.equal(1)
conn.end()
conn.on('data', () => {}) // let it flow.. let it flooooow
conn.on('end', done)
})
})
it('enable identify to reuse incomming muxed conn', (done) => {
swarmA.connection.reuse()
swarmC.connection.reuse()
swarmC.dial(peerA, (err) => {
expect(err).to.not.exist
setTimeout(() => {
expect(Object.keys(swarmC.muxedConns).length).to.equal(1)
expect(Object.keys(swarmA.muxedConns).length).to.equal(2)
done()
}, 500)
})
})
})
})
describe('conn upgrades', function () {
this.timeout(20000)
describe('secio on tcp', () => {
// before((done) => { done() })
// after((done) => { done() })
it.skip('add', (done) => {})
it.skip('dial', (done) => {})
it.skip('tls on a muxed stream (not the full conn)', (done) => {})
})
describe('tls on tcp', () => {
// before((done) => { done() })
// after((done) => { done() })
it.skip('add', (done) => {})
it.skip('dial', (done) => {})
it.skip('tls on a muxed stream (not the full conn)', (done) => {})
})
})
describe('high level API - with everything mixed all together!', function () {
this.timeout(20000)
// before((done) => { done() })
// after((done) => { done() })
it.skip('add tcp', (done) => {})
it.skip('add utp', (done) => {})
it.skip('add websockets', (done) => {})
it.skip('dial', (done) => {})
})
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