status-go/vendor/github.com/libp2p/go-libp2p-swarm/limiter.go

package swarm

import (
	"context"
	"sync"
	"time"

	addrutil "github.com/libp2p/go-addr-util"
	peer "github.com/libp2p/go-libp2p-peer"
	transport "github.com/libp2p/go-libp2p-transport"
	ma "github.com/multiformats/go-multiaddr"
)

type dialResult struct {
	Conn transport.Conn
	Addr ma.Multiaddr
	Err  error
}

type dialJob struct {
	addr ma.Multiaddr
	peer peer.ID
	ctx  context.Context
	resp chan dialResult
}

func (dj *dialJob) cancelled() bool {
	select {
	case <-dj.ctx.Done():
		return true
	default:
		return false
	}
}

func (dj *dialJob) dialTimeout() time.Duration {
	timeout := transport.DialTimeout
	if lowTimeoutFilters.AddrBlocked(dj.addr) {
		timeout = DialTimeoutLocal
	}

	return timeout
}

type dialLimiter struct {
	lk sync.Mutex

	fdConsuming int
	fdLimit     int
	waitingOnFd []*dialJob

	dialFunc dialfunc

	activePerPeer      map[peer.ID]int
	perPeerLimit       int
	waitingOnPeerLimit map[peer.ID][]*dialJob
}

type dialfunc func(context.Context, peer.ID, ma.Multiaddr) (transport.Conn, error)

func newDialLimiter(df dialfunc) *dialLimiter {
	return newDialLimiterWithParams(df, ConcurrentFdDials, DefaultPerPeerRateLimit)
}

func newDialLimiterWithParams(df dialfunc, fdLimit, perPeerLimit int) *dialLimiter {
	return &dialLimiter{
		fdLimit:            fdLimit,
		perPeerLimit:       perPeerLimit,
		waitingOnPeerLimit: make(map[peer.ID][]*dialJob),
		activePerPeer:      make(map[peer.ID]int),
		dialFunc:           df,
	}
}

// freeFDToken frees FD token and if there are any schedules another waiting dialJob
// in it's place
func (dl *dialLimiter) freeFDToken() {
	dl.fdConsuming--

	if len(dl.waitingOnFd) > 0 {
		next := dl.waitingOnFd[0]
		dl.waitingOnFd[0] = nil // clear out memory
		dl.waitingOnFd = dl.waitingOnFd[1:]
		if len(dl.waitingOnFd) == 0 {
			dl.waitingOnFd = nil // clear out memory
		}
		dl.fdConsuming++

		// we already have activePerPeer token at this point so we can just dial
		go dl.executeDial(next)
	}
}

func (dl *dialLimiter) freePeerToken(dj *dialJob) {
	// release tokens in reverse order than we take them
	dl.activePerPeer[dj.peer]--
	if dl.activePerPeer[dj.peer] == 0 {
		delete(dl.activePerPeer, dj.peer)
	}

	waitlist := dl.waitingOnPeerLimit[dj.peer]
	if len(waitlist) > 0 {
		next := waitlist[0]
		if len(waitlist) == 1 {
			delete(dl.waitingOnPeerLimit, next.peer)
		} else {
			waitlist[0] = nil // clear out memory
			dl.waitingOnPeerLimit[next.peer] = waitlist[1:]
		}

		dl.activePerPeer[next.peer]++ // just kidding, we still want this token

		dl.addCheckFdLimit(next)
	}
}

func (dl *dialLimiter) finishedDial(dj *dialJob) {
	dl.lk.Lock()
	defer dl.lk.Unlock()

	if addrutil.IsFDCostlyTransport(dj.addr) {
		dl.freeFDToken()
	}

	dl.freePeerToken(dj)
}

func (dl *dialLimiter) addCheckFdLimit(dj *dialJob) {
	if addrutil.IsFDCostlyTransport(dj.addr) {
		if dl.fdConsuming >= dl.fdLimit {
			dl.waitingOnFd = append(dl.waitingOnFd, dj)
			return
		}

		// take token
		dl.fdConsuming++
	}

	go dl.executeDial(dj)
}

func (dl *dialLimiter) addCheckPeerLimit(dj *dialJob) {
	if dl.activePerPeer[dj.peer] >= dl.perPeerLimit {
		wlist := dl.waitingOnPeerLimit[dj.peer]
		dl.waitingOnPeerLimit[dj.peer] = append(wlist, dj)
		return
	}
	dl.activePerPeer[dj.peer]++

	dl.addCheckFdLimit(dj)
}

// AddDialJob tries to take the needed tokens for starting the given dial job.
// If it acquires all needed tokens, it immediately starts the dial, otherwise
// it will put it on the waitlist for the requested token.
func (dl *dialLimiter) AddDialJob(dj *dialJob) {
	dl.lk.Lock()
	defer dl.lk.Unlock()

	dl.addCheckPeerLimit(dj)
}

func (dl *dialLimiter) clearAllPeerDials(p peer.ID) {
	dl.lk.Lock()
	defer dl.lk.Unlock()
	delete(dl.waitingOnPeerLimit, p)
	// NB: the waitingOnFd list doesn't need to be cleaned out here, we will
	// remove them as we encounter them because they are 'cancelled' at this
	// point
}

// executeDial calls the dialFunc, and reports the result through the response
// channel when finished. Once the response is sent it also releases all tokens
// it held during the dial.
func (dl *dialLimiter) executeDial(j *dialJob) {
	defer dl.finishedDial(j)
	if j.cancelled() {
		return
	}

	dctx, cancel := context.WithTimeout(j.ctx, j.dialTimeout())
	defer cancel()

	con, err := dl.dialFunc(dctx, j.peer, j.addr)
	select {
	case j.resp <- dialResult{Conn: con, Addr: j.addr, Err: err}:
	case <-j.ctx.Done():
		if err == nil {
			con.Close()
		}
	}
}
Add rendezvous implementation for discovery interface Update vendor Integrate rendezvous into status node Add a test with failover using rendezvous Use multiple servers in client Use discovery V5 by default and test that node can be started with rendezvous discovet Fix linter Update rendezvous client to one with instrumented stream Address feedback Fix test with updated topic limits Apply several suggestions Change log to debug for request errors because we continue execution Remove web3js after rebase Update rendezvous package 2018-07-04 10:51:47 +00:00			`package swarm`

			`import (`
			`"context"`
			`"sync"`
			`"time"`

			`addrutil "github.com/libp2p/go-addr-util"`
			`peer "github.com/libp2p/go-libp2p-peer"`
			`transport "github.com/libp2p/go-libp2p-transport"`
			`ma "github.com/multiformats/go-multiaddr"`
			`)`

			`type dialResult struct {`
			`Conn transport.Conn`
			`Addr ma.Multiaddr`
			`Err error`
			`}`

			`type dialJob struct {`
			`addr ma.Multiaddr`
			`peer peer.ID`
			`ctx context.Context`
			`resp chan dialResult`
			`}`

			`func (dj *dialJob) cancelled() bool {`
			`select {`
			`case <-dj.ctx.Done():`
			`return true`
			`default:`
			`return false`
			`}`
			`}`

			`func (dj *dialJob) dialTimeout() time.Duration {`
			`timeout := transport.DialTimeout`
			`if lowTimeoutFilters.AddrBlocked(dj.addr) {`
			`timeout = DialTimeoutLocal`
			`}`

			`return timeout`
			`}`

			`type dialLimiter struct {`
			`lk sync.Mutex`

			`fdConsuming int`
			`fdLimit int`
			`waitingOnFd []*dialJob`

			`dialFunc dialfunc`

			`activePerPeer map[peer.ID]int`
			`perPeerLimit int`
			`waitingOnPeerLimit map[peer.ID][]*dialJob`
			`}`

			`type dialfunc func(context.Context, peer.ID, ma.Multiaddr) (transport.Conn, error)`

			`func newDialLimiter(df dialfunc) *dialLimiter {`
			`return newDialLimiterWithParams(df, ConcurrentFdDials, DefaultPerPeerRateLimit)`
			`}`

			`func newDialLimiterWithParams(df dialfunc, fdLimit, perPeerLimit int) *dialLimiter {`
			`return &dialLimiter{`
			`fdLimit: fdLimit,`
			`perPeerLimit: perPeerLimit,`
			`waitingOnPeerLimit: make(map[peer.ID][]*dialJob),`
			`activePerPeer: make(map[peer.ID]int),`
			`dialFunc: df,`
			`}`
			`}`

			`// freeFDToken frees FD token and if there are any schedules another waiting dialJob`
			`// in it's place`
			`func (dl *dialLimiter) freeFDToken() {`
			`dl.fdConsuming--`

			`if len(dl.waitingOnFd) > 0 {`
			`next := dl.waitingOnFd[0]`
			`dl.waitingOnFd[0] = nil // clear out memory`
			`dl.waitingOnFd = dl.waitingOnFd[1:]`
			`if len(dl.waitingOnFd) == 0 {`
			`dl.waitingOnFd = nil // clear out memory`
			`}`
			`dl.fdConsuming++`

			`// we already have activePerPeer token at this point so we can just dial`
			`go dl.executeDial(next)`
			`}`
			`}`

			`func (dl dialLimiter) freePeerToken(dj dialJob) {`
			`// release tokens in reverse order than we take them`
			`dl.activePerPeer[dj.peer]--`
			`if dl.activePerPeer[dj.peer] == 0 {`
			`delete(dl.activePerPeer, dj.peer)`
			`}`

			`waitlist := dl.waitingOnPeerLimit[dj.peer]`
			`if len(waitlist) > 0 {`
			`next := waitlist[0]`
			`if len(waitlist) == 1 {`
			`delete(dl.waitingOnPeerLimit, next.peer)`
			`} else {`
			`waitlist[0] = nil // clear out memory`
			`dl.waitingOnPeerLimit[next.peer] = waitlist[1:]`
			`}`

			`dl.activePerPeer[next.peer]++ // just kidding, we still want this token`

			`dl.addCheckFdLimit(next)`
			`}`
			`}`

			`func (dl dialLimiter) finishedDial(dj dialJob) {`
			`dl.lk.Lock()`
			`defer dl.lk.Unlock()`

			`if addrutil.IsFDCostlyTransport(dj.addr) {`
			`dl.freeFDToken()`
			`}`

			`dl.freePeerToken(dj)`
			`}`

			`func (dl dialLimiter) addCheckFdLimit(dj dialJob) {`
			`if addrutil.IsFDCostlyTransport(dj.addr) {`
			`if dl.fdConsuming >= dl.fdLimit {`
			`dl.waitingOnFd = append(dl.waitingOnFd, dj)`
			`return`
			`}`

			`// take token`
			`dl.fdConsuming++`
			`}`

			`go dl.executeDial(dj)`
			`}`

			`func (dl dialLimiter) addCheckPeerLimit(dj dialJob) {`
			`if dl.activePerPeer[dj.peer] >= dl.perPeerLimit {`
			`wlist := dl.waitingOnPeerLimit[dj.peer]`
			`dl.waitingOnPeerLimit[dj.peer] = append(wlist, dj)`
			`return`
			`}`
			`dl.activePerPeer[dj.peer]++`

			`dl.addCheckFdLimit(dj)`
			`}`

			`// AddDialJob tries to take the needed tokens for starting the given dial job.`
			`// If it acquires all needed tokens, it immediately starts the dial, otherwise`
			`// it will put it on the waitlist for the requested token.`
			`func (dl dialLimiter) AddDialJob(dj dialJob) {`
			`dl.lk.Lock()`
			`defer dl.lk.Unlock()`

			`dl.addCheckPeerLimit(dj)`
			`}`

			`func (dl *dialLimiter) clearAllPeerDials(p peer.ID) {`
			`dl.lk.Lock()`
			`defer dl.lk.Unlock()`
			`delete(dl.waitingOnPeerLimit, p)`
			`// NB: the waitingOnFd list doesn't need to be cleaned out here, we will`
			`// remove them as we encounter them because they are 'cancelled' at this`
			`// point`
			`}`

			`// executeDial calls the dialFunc, and reports the result through the response`
			`// channel when finished. Once the response is sent it also releases all tokens`
			`// it held during the dial.`
			`func (dl dialLimiter) executeDial(j dialJob) {`
			`defer dl.finishedDial(j)`
			`if j.cancelled() {`
			`return`
			`}`

			`dctx, cancel := context.WithTimeout(j.ctx, j.dialTimeout())`
			`defer cancel()`

			`con, err := dl.dialFunc(dctx, j.peer, j.addr)`
			`select {`
			`case j.resp <- dialResult{Conn: con, Addr: j.addr, Err: err}:`
			`case <-j.ctx.Done():`
			`if err == nil {`
			`con.Close()`
			`}`
			`}`
			`}`