neoneo-go/pkg/network/discovery.go

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package network
import (
"sync"
"time"
"github.com/nspcc-dev/neo-go/pkg/network/capability"
)
const (
maxPoolSize = 200
connRetries = 3
)
// Discoverer is an interface that is responsible for maintaining
// a healthy connection pool.
type Discoverer interface {
BackFill(...string)
Close()
PoolCount() int
RequestRemote(int)
RegisterBadAddr(string)
RegisterGoodAddr(string, capability.Capabilities)
RegisterConnectedAddr(string)
UnregisterConnectedAddr(string)
UnconnectedPeers() []string
BadPeers() []string
GoodPeers() []AddressWithCapabilities
}
// AddressWithCapabilities represents a node address with its capabilities.
type AddressWithCapabilities struct {
Address string
Capabilities capability.Capabilities
}
// DefaultDiscovery default implementation of the Discoverer interface.
type DefaultDiscovery struct {
seeds []string
transport Transporter
lock sync.RWMutex
closeMtx sync.RWMutex
dialTimeout time.Duration
badAddrs map[string]bool
connectedAddrs map[string]bool
goodAddrs map[string]capability.Capabilities
unconnectedAddrs map[string]int
attempted map[string]bool
isDead bool
requestCh chan int
pool chan string
runExit chan struct{}
}
// NewDefaultDiscovery returns a new DefaultDiscovery.
func NewDefaultDiscovery(addrs []string, dt time.Duration, ts Transporter) *DefaultDiscovery {
d := &DefaultDiscovery{
seeds: addrs,
transport: ts,
dialTimeout: dt,
badAddrs: make(map[string]bool),
connectedAddrs: make(map[string]bool),
goodAddrs: make(map[string]capability.Capabilities),
unconnectedAddrs: make(map[string]int),
attempted: make(map[string]bool),
requestCh: make(chan int),
pool: make(chan string, maxPoolSize),
runExit: make(chan struct{}),
}
go d.run()
return d
}
func newDefaultDiscovery(addrs []string, dt time.Duration, ts Transporter) Discoverer {
return NewDefaultDiscovery(addrs, dt, ts)
}
// BackFill implements the Discoverer interface and will backfill
// the pool with the given addresses.
func (d *DefaultDiscovery) BackFill(addrs ...string) {
d.lock.Lock()
for _, addr := range addrs {
if d.badAddrs[addr] || d.connectedAddrs[addr] ||
d.unconnectedAddrs[addr] > 0 {
continue
}
d.unconnectedAddrs[addr] = connRetries
d.pushToPoolOrDrop(addr)
}
d.lock.Unlock()
}
// PoolCount returns the number of the available node addresses.
func (d *DefaultDiscovery) PoolCount() int {
return len(d.pool)
}
// pushToPoolOrDrop tries to push the address given into the pool, but if the pool
// is already full, it just drops it.
func (d *DefaultDiscovery) pushToPoolOrDrop(addr string) {
select {
case d.pool <- addr:
updatePoolCountMetric(d.PoolCount())
// ok, queued
default:
// whatever
}
}
2019-10-22 14:56:03 +00:00
// RequestRemote tries to establish a connection with n nodes.
func (d *DefaultDiscovery) RequestRemote(n int) {
d.closeMtx.RLock()
if !d.isDead {
d.requestCh <- n
}
d.closeMtx.RUnlock()
}
// RegisterBadAddr registers the given address as a bad address.
func (d *DefaultDiscovery) RegisterBadAddr(addr string) {
d.lock.Lock()
d.unconnectedAddrs[addr]--
if d.unconnectedAddrs[addr] > 0 {
d.pushToPoolOrDrop(addr)
} else {
d.badAddrs[addr] = true
delete(d.unconnectedAddrs, addr)
delete(d.goodAddrs, addr)
}
d.lock.Unlock()
}
// UnconnectedPeers returns all addresses of unconnected addrs.
func (d *DefaultDiscovery) UnconnectedPeers() []string {
d.lock.RLock()
addrs := make([]string, 0, len(d.unconnectedAddrs))
for addr := range d.unconnectedAddrs {
addrs = append(addrs, addr)
}
d.lock.RUnlock()
return addrs
}
// BadPeers returns all addresses of bad addrs.
func (d *DefaultDiscovery) BadPeers() []string {
d.lock.RLock()
addrs := make([]string, 0, len(d.badAddrs))
for addr := range d.badAddrs {
addrs = append(addrs, addr)
}
d.lock.RUnlock()
return addrs
}
// GoodPeers returns all addresses of known good peers (that at least once
// succeeded handshaking with us).
func (d *DefaultDiscovery) GoodPeers() []AddressWithCapabilities {
d.lock.RLock()
addrs := make([]AddressWithCapabilities, 0, len(d.goodAddrs))
for addr, cap := range d.goodAddrs {
addrs = append(addrs, AddressWithCapabilities{
Address: addr,
Capabilities: cap,
})
}
d.lock.RUnlock()
return addrs
}
// RegisterGoodAddr registers a known good connected address that has passed
// handshake successfully.
func (d *DefaultDiscovery) RegisterGoodAddr(s string, c capability.Capabilities) {
d.lock.Lock()
d.goodAddrs[s] = c
delete(d.badAddrs, s)
d.lock.Unlock()
}
// UnregisterConnectedAddr tells the discoverer that this address is no longer
// connected, but it is still considered a good one.
func (d *DefaultDiscovery) UnregisterConnectedAddr(s string) {
d.lock.Lock()
delete(d.connectedAddrs, s)
d.lock.Unlock()
}
// RegisterConnectedAddr tells discoverer that the given address is now connected.
func (d *DefaultDiscovery) RegisterConnectedAddr(addr string) {
d.lock.Lock()
delete(d.unconnectedAddrs, addr)
d.connectedAddrs[addr] = true
d.lock.Unlock()
}
func (d *DefaultDiscovery) tryAddress(addr string) {
err := d.transport.Dial(addr, d.dialTimeout)
d.lock.Lock()
delete(d.attempted, addr)
d.lock.Unlock()
if err != nil {
d.RegisterBadAddr(addr)
d.RequestRemote(1)
}
}
// Close stops discoverer pool processing, which makes the discoverer almost useless.
func (d *DefaultDiscovery) Close() {
d.closeMtx.Lock()
d.isDead = true
d.closeMtx.Unlock()
select {
case <-d.requestCh: // Drain the channel if there is anything there.
default:
}
close(d.requestCh)
<-d.runExit
}
// run is a goroutine that makes DefaultDiscovery process its queue to connect
// to other nodes.
func (d *DefaultDiscovery) run() {
var requested, oldRequest, r int
var ok bool
for {
if requested == 0 {
requested, ok = <-d.requestCh
}
oldRequest = requested
for ok && requested > 0 {
select {
case r, ok = <-d.requestCh:
if requested <= r {
requested = r
}
case addr := <-d.pool:
updatePoolCountMetric(d.PoolCount())
d.lock.Lock()
if !d.connectedAddrs[addr] && !d.attempted[addr] {
d.attempted[addr] = true
go d.tryAddress(addr)
requested--
}
d.lock.Unlock()
default: // Empty pool
var added int
d.lock.Lock()
for _, addr := range d.seeds {
if !d.connectedAddrs[addr] {
delete(d.badAddrs, addr)
d.unconnectedAddrs[addr] = connRetries
d.pushToPoolOrDrop(addr)
added++
}
}
d.lock.Unlock()
// The pool is empty, but all seed nodes are already connected,
// we can end up in an infinite loop here, so drop the request.
if added == 0 {
requested = 0
}
}
}
if !ok {
break
}
// Special case, no connections after all attempts.
d.lock.RLock()
connected := len(d.connectedAddrs)
d.lock.RUnlock()
if connected == 0 {
time.Sleep(d.dialTimeout)
requested = oldRequest
}
}
close(d.runExit)
}