lbcd/addrmanager.go

// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.

package main

import (
	"github.com/conformal/btcwire"
	"net"
	"strconv"
	"sync"
	"time"
)

const (
	// maxAddresses identifies the maximum number of addresses that the
	// address manager will track.
	maxAddresses         = 2500
	newAddressBufferSize = 50
	dumpAddressInterval  = time.Minute * 2
)

// updateAddress is a helper function to either update an address already known
// to the address manager, or to add the address if not already known.
func updateAddress(a *AddrManager, netAddr *btcwire.NetAddress) {
	// Protect concurrent access.
	a.addrCacheLock.Lock()
	defer a.addrCacheLock.Unlock()

	// Update address if it already exists.
	addr := NetAddressKey(netAddr)
	if na, ok := a.addrCache[addr]; ok {
		// Update the last seen time.
		if netAddr.Timestamp.After(na.Timestamp) {
			na.Timestamp = netAddr.Timestamp
		}

		// Update services.
		na.AddService(na.Services)

		log.Tracef("[AMGR] Updated address manager address %s", addr)
		return
	}

	// Enforce max addresses.
	if len(a.addrCache)+1 > maxAddresses {
		log.Tracef("[AMGR] Max addresses of %d reached", maxAddresses)
		return
	}

	a.addrCache[addr] = netAddr
	log.Tracef("[AMGR] Added new address %s for a total of %d addresses",
		addr, len(a.addrCache))
}

// AddrManager provides a concurrency safe address manager for caching potential
// peers on the bitcoin network.
type AddrManager struct {
	addrCache       map[string]*btcwire.NetAddress
	addrCacheLock   sync.Mutex
	started         bool
	shutdown        bool
	newAddresses    chan []*btcwire.NetAddress
	removeAddresses chan []*btcwire.NetAddress
	wg              sync.WaitGroup
	quit            chan bool
}

// addressHandler is the main handler for the address manager.  It must be run
// as a goroutine.
func (a *AddrManager) addressHandler() {
	dumpAddressTicker := time.NewTicker(dumpAddressInterval)
out:
	for !a.shutdown {
		select {
		case addrs := <-a.newAddresses:
			for _, na := range addrs {
				updateAddress(a, na)
			}

		case <-dumpAddressTicker.C:
			if !a.shutdown {
				// TODO: Dump addresses to database.
			}

		case <-a.quit:
			// TODO: Dump addresses to database.
			break out
		}
	}
	dumpAddressTicker.Stop()
	a.wg.Done()
	log.Trace("[AMGR] Address handler done")
}

// Start begins the core address handler which manages a pool of known
// addresses, timeouts, and interval based writes.
func (a *AddrManager) Start() {
	// Already started?
	if a.started {
		return
	}

	log.Trace("[AMGR] Starting address manager")

	go a.addressHandler()
	a.wg.Add(1)
	a.started = true
}

// Stop gracefully shuts down the address manager by stopping the main handler.
func (a *AddrManager) Stop() error {
	if a.shutdown {
		log.Warnf("[AMGR] Address manager is already in the process of " +
			"shutting down")
		return nil
	}

	log.Infof("[AMGR] Address manager shutting down")
	a.shutdown = true
	a.quit <- true
	a.wg.Wait()
	return nil
}

// AddAddresses adds new addresses to the address manager.  It enforces a max
// number of addresses and silently ignores duplicate addresses.  It is
// safe for concurrent access.
func (a *AddrManager) AddAddresses(addrs []*btcwire.NetAddress) {
	a.newAddresses <- addrs
}

// AddAddress adds a new address to the address manager.  It enforces a max
// number of addresses and silently ignores duplicate addresses.  It is
// safe for concurrent access.
func (a *AddrManager) AddAddress(addr *btcwire.NetAddress) {
	addrs := []*btcwire.NetAddress{addr}
	a.newAddresses <- addrs
}

// NeedMoreAddresses returns whether or not the address manager needs more
// addresses.
func (a *AddrManager) NeedMoreAddresses() bool {
	// Protect concurrent access.
	a.addrCacheLock.Lock()
	defer a.addrCacheLock.Unlock()

	return len(a.addrCache)+1 <= maxAddresses
}

// NumAddresses returns the number of addresses known to the address manager.
func (a *AddrManager) NumAddresses() int {
	// Protect concurrent access.
	a.addrCacheLock.Lock()
	defer a.addrCacheLock.Unlock()

	return len(a.addrCache)
}

// AddressCache returns the current address cache.  It must be treated as
// read-only.
func (a *AddrManager) AddressCache() map[string]*btcwire.NetAddress {
	return a.addrCache
}

// New returns a new bitcoin address manager.
// Use Start to begin processing asynchronous address updates.
func NewAddrManager() *AddrManager {
	am := AddrManager{
		addrCache:    make(map[string]*btcwire.NetAddress),
		newAddresses: make(chan []*btcwire.NetAddress, newAddressBufferSize),
		quit:         make(chan bool),
	}
	return &am
}

// NetAddressKey returns a string key in the form of ip:port for IPv4 addresses
// or [ip]:port for IPv6 addresses.
func NetAddressKey(na *btcwire.NetAddress) string {
	port := strconv.FormatUint(uint64(na.Port), 10)
	addr := net.JoinHostPort(na.IP.String(), port)
	return addr
}
Initial import. 2013-08-06 23:55:22 +02:00			`// Copyright (c) 2013 Conformal Systems LLC.`
			`// Use of this source code is governed by an ISC`
			`// license that can be found in the LICENSE file.`

			`package main`

			`import (`
			`"github.com/conformal/btcwire"`
			`"net"`
			`"strconv"`
			`"sync"`
			`"time"`
			`)`

			`const (`
			`// maxAddresses identifies the maximum number of addresses that the`
			`// address manager will track.`
			`maxAddresses = 2500`
			`newAddressBufferSize = 50`
			`dumpAddressInterval = time.Minute * 2`
			`)`

			`// updateAddress is a helper function to either update an address already known`
			`// to the address manager, or to add the address if not already known.`
			`func updateAddress(a AddrManager, netAddr btcwire.NetAddress) {`
			`// Protect concurrent access.`
			`a.addrCacheLock.Lock()`
			`defer a.addrCacheLock.Unlock()`

			`// Update address if it already exists.`
			`addr := NetAddressKey(netAddr)`
			`if na, ok := a.addrCache[addr]; ok {`
			`// Update the last seen time.`
			`if netAddr.Timestamp.After(na.Timestamp) {`
			`na.Timestamp = netAddr.Timestamp`
			`}`

			`// Update services.`
			`na.AddService(na.Services)`

			`log.Tracef("[AMGR] Updated address manager address %s", addr)`
			`return`
			`}`

			`// Enforce max addresses.`
			`if len(a.addrCache)+1 > maxAddresses {`
			`log.Tracef("[AMGR] Max addresses of %d reached", maxAddresses)`
			`return`
			`}`

			`a.addrCache[addr] = netAddr`
			`log.Tracef("[AMGR] Added new address %s for a total of %d addresses",`
			`addr, len(a.addrCache))`
			`}`

			`// AddrManager provides a concurrency safe address manager for caching potential`
			`// peers on the bitcoin network.`
			`type AddrManager struct {`
			`addrCache map[string]*btcwire.NetAddress`
			`addrCacheLock sync.Mutex`
			`started bool`
			`shutdown bool`
			`newAddresses chan []*btcwire.NetAddress`
			`removeAddresses chan []*btcwire.NetAddress`
			`wg sync.WaitGroup`
			`quit chan bool`
			`}`

			`// addressHandler is the main handler for the address manager. It must be run`
			`// as a goroutine.`
			`func (a *AddrManager) addressHandler() {`
			`dumpAddressTicker := time.NewTicker(dumpAddressInterval)`
			`out:`
			`for !a.shutdown {`
			`select {`
			`case addrs := <-a.newAddresses:`
			`for _, na := range addrs {`
			`updateAddress(a, na)`
			`}`

			`case <-dumpAddressTicker.C:`
			`if !a.shutdown {`
			`// TODO: Dump addresses to database.`
			`}`

			`case <-a.quit:`
			`// TODO: Dump addresses to database.`
			`break out`
			`}`
			`}`
			`dumpAddressTicker.Stop()`
			`a.wg.Done()`
			`log.Trace("[AMGR] Address handler done")`
			`}`

			`// Start begins the core address handler which manages a pool of known`
			`// addresses, timeouts, and interval based writes.`
			`func (a *AddrManager) Start() {`
			`// Already started?`
			`if a.started {`
			`return`
			`}`

			`log.Trace("[AMGR] Starting address manager")`

			`go a.addressHandler()`
			`a.wg.Add(1)`
			`a.started = true`
			`}`

			`// Stop gracefully shuts down the address manager by stopping the main handler.`
			`func (a *AddrManager) Stop() error {`
			`if a.shutdown {`
			`log.Warnf("[AMGR] Address manager is already in the process of " +`
			`"shutting down")`
			`return nil`
			`}`

			`log.Infof("[AMGR] Address manager shutting down")`
			`a.shutdown = true`
			`a.quit <- true`
			`a.wg.Wait()`
			`return nil`
			`}`

			`// AddAddresses adds new addresses to the address manager. It enforces a max`
			`// number of addresses and silently ignores duplicate addresses. It is`
			`// safe for concurrent access.`
			`func (a AddrManager) AddAddresses(addrs []btcwire.NetAddress) {`
			`a.newAddresses <- addrs`
			`}`

			`// AddAddress adds a new address to the address manager. It enforces a max`
			`// number of addresses and silently ignores duplicate addresses. It is`
			`// safe for concurrent access.`
			`func (a AddrManager) AddAddress(addr btcwire.NetAddress) {`
			`addrs := []*btcwire.NetAddress{addr}`
			`a.newAddresses <- addrs`
			`}`

			`// NeedMoreAddresses returns whether or not the address manager needs more`
			`// addresses.`
			`func (a *AddrManager) NeedMoreAddresses() bool {`
			`// Protect concurrent access.`
			`a.addrCacheLock.Lock()`
			`defer a.addrCacheLock.Unlock()`

			`return len(a.addrCache)+1 <= maxAddresses`
			`}`

			`// NumAddresses returns the number of addresses known to the address manager.`
			`func (a *AddrManager) NumAddresses() int {`
			`// Protect concurrent access.`
			`a.addrCacheLock.Lock()`
			`defer a.addrCacheLock.Unlock()`

			`return len(a.addrCache)`
			`}`

			`// AddressCache returns the current address cache. It must be treated as`
			`// read-only.`
			`func (a AddrManager) AddressCache() map[string]btcwire.NetAddress {`
			`return a.addrCache`
			`}`

			`// New returns a new bitcoin address manager.`
			`// Use Start to begin processing asynchronous address updates.`
			`func NewAddrManager() *AddrManager {`
			`am := AddrManager{`
			`addrCache: make(map[string]*btcwire.NetAddress),`
			`newAddresses: make(chan []*btcwire.NetAddress, newAddressBufferSize),`
			`quit: make(chan bool),`
			`}`
			`return &am`
			`}`

			`// NetAddressKey returns a string key in the form of ip:port for IPv4 addresses`
			`// or [ip]:port for IPv6 addresses.`
			`func NetAddressKey(na *btcwire.NetAddress) string {`
			`port := strconv.FormatUint(uint64(na.Port), 10)`
			`addr := net.JoinHostPort(na.IP.String(), port)`
			`return addr`
			`}`