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matterbridge/vendor/github.com/Philipp15b/go-steam/client.go

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2017-06-21 23:00:27 +00:00
package steam
import (
"bytes"
"compress/gzip"
"crypto/rand"
"encoding/binary"
"fmt"
"hash/crc32"
"io/ioutil"
"net"
"sync"
"sync/atomic"
"time"
"github.com/Philipp15b/go-steam/cryptoutil"
"github.com/Philipp15b/go-steam/netutil"
. "github.com/Philipp15b/go-steam/protocol"
. "github.com/Philipp15b/go-steam/protocol/protobuf"
. "github.com/Philipp15b/go-steam/protocol/steamlang"
. "github.com/Philipp15b/go-steam/steamid"
)
// Represents a client to the Steam network.
// Always poll events from the channel returned by Events() or receiving messages will stop.
// All access, unless otherwise noted, should be threadsafe.
//
// When a FatalErrorEvent is emitted, the connection is automatically closed. The same client can be used to reconnect.
// Other errors don't have any effect.
type Client struct {
// these need to be 64 bit aligned for sync/atomic on 32bit
sessionId int32
_ uint32
steamId uint64
currentJobId uint64
Auth *Auth
Social *Social
Web *Web
Notifications *Notifications
Trading *Trading
GC *GameCoordinator
events chan interface{}
handlers []PacketHandler
handlersMutex sync.RWMutex
tempSessionKey []byte
ConnectionTimeout time.Duration
mutex sync.RWMutex // guarding conn and writeChan
conn connection
writeChan chan IMsg
writeBuf *bytes.Buffer
heartbeat *time.Ticker
}
type PacketHandler interface {
HandlePacket(*Packet)
}
func NewClient() *Client {
client := &Client{
events: make(chan interface{}, 3),
writeBuf: new(bytes.Buffer),
}
client.Auth = &Auth{client: client}
client.RegisterPacketHandler(client.Auth)
client.Social = newSocial(client)
client.RegisterPacketHandler(client.Social)
client.Web = &Web{client: client}
client.RegisterPacketHandler(client.Web)
client.Notifications = newNotifications(client)
client.RegisterPacketHandler(client.Notifications)
client.Trading = &Trading{client: client}
client.RegisterPacketHandler(client.Trading)
client.GC = newGC(client)
client.RegisterPacketHandler(client.GC)
return client
}
// Get the event channel. By convention all events are pointers, except for errors.
// It is never closed.
func (c *Client) Events() <-chan interface{} {
return c.events
}
func (c *Client) Emit(event interface{}) {
c.events <- event
}
// Emits a FatalErrorEvent formatted with fmt.Errorf and disconnects.
func (c *Client) Fatalf(format string, a ...interface{}) {
c.Emit(FatalErrorEvent(fmt.Errorf(format, a...)))
c.Disconnect()
}
// Emits an error formatted with fmt.Errorf.
func (c *Client) Errorf(format string, a ...interface{}) {
c.Emit(fmt.Errorf(format, a...))
}
// Registers a PacketHandler that receives all incoming packets.
func (c *Client) RegisterPacketHandler(handler PacketHandler) {
c.handlersMutex.Lock()
defer c.handlersMutex.Unlock()
c.handlers = append(c.handlers, handler)
}
func (c *Client) GetNextJobId() JobId {
return JobId(atomic.AddUint64(&c.currentJobId, 1))
}
func (c *Client) SteamId() SteamId {
return SteamId(atomic.LoadUint64(&c.steamId))
}
func (c *Client) SessionId() int32 {
return atomic.LoadInt32(&c.sessionId)
}
func (c *Client) Connected() bool {
c.mutex.RLock()
defer c.mutex.RUnlock()
return c.conn != nil
}
// Connects to a random Steam server and returns its address.
// If this client is already connected, it is disconnected first.
// This method tries to use an address from the Steam Directory and falls
// back to the built-in server list if the Steam Directory can't be reached.
// If you want to connect to a specific server, use `ConnectTo`.
func (c *Client) Connect() *netutil.PortAddr {
var server *netutil.PortAddr
if steamDirectoryCache.IsInitialized() {
server = steamDirectoryCache.GetRandomCM()
} else {
server = GetRandomCM()
}
c.ConnectTo(server)
return server
}
// Connects to a specific server.
// You may want to use one of the `GetRandom*CM()` functions in this package.
// If this client is already connected, it is disconnected first.
func (c *Client) ConnectTo(addr *netutil.PortAddr) {
c.ConnectToBind(addr, nil)
}
// Connects to a specific server, and binds to a specified local IP
// If this client is already connected, it is disconnected first.
func (c *Client) ConnectToBind(addr *netutil.PortAddr, local *net.TCPAddr) {
c.Disconnect()
conn, err := dialTCP(local, addr.ToTCPAddr())
if err != nil {
c.Fatalf("Connect failed: %v", err)
return
}
c.conn = conn
c.writeChan = make(chan IMsg, 5)
go c.readLoop()
go c.writeLoop()
}
func (c *Client) Disconnect() {
c.mutex.Lock()
defer c.mutex.Unlock()
if c.conn == nil {
return
}
c.conn.Close()
c.conn = nil
if c.heartbeat != nil {
c.heartbeat.Stop()
}
close(c.writeChan)
c.Emit(&DisconnectedEvent{})
}
// Adds a message to the send queue. Modifications to the given message after
// writing are not allowed (possible race conditions).
//
// Writes to this client when not connected are ignored.
func (c *Client) Write(msg IMsg) {
if cm, ok := msg.(IClientMsg); ok {
cm.SetSessionId(c.SessionId())
cm.SetSteamId(c.SteamId())
}
c.mutex.RLock()
defer c.mutex.RUnlock()
if c.conn == nil {
return
}
c.writeChan <- msg
}
func (c *Client) readLoop() {
for {
// This *should* be atomic on most platforms, but the Go spec doesn't guarantee it
c.mutex.RLock()
conn := c.conn
c.mutex.RUnlock()
if conn == nil {
return
}
packet, err := conn.Read()
if err != nil {
c.Fatalf("Error reading from the connection: %v", err)
return
}
c.handlePacket(packet)
}
}
func (c *Client) writeLoop() {
for {
c.mutex.RLock()
conn := c.conn
c.mutex.RUnlock()
if conn == nil {
return
}
msg, ok := <-c.writeChan
if !ok {
return
}
err := msg.Serialize(c.writeBuf)
if err != nil {
c.writeBuf.Reset()
c.Fatalf("Error serializing message %v: %v", msg, err)
return
}
err = conn.Write(c.writeBuf.Bytes())
c.writeBuf.Reset()
if err != nil {
c.Fatalf("Error writing message %v: %v", msg, err)
return
}
}
}
func (c *Client) heartbeatLoop(seconds time.Duration) {
if c.heartbeat != nil {
c.heartbeat.Stop()
}
c.heartbeat = time.NewTicker(seconds * time.Second)
for {
_, ok := <-c.heartbeat.C
if !ok {
break
}
c.Write(NewClientMsgProtobuf(EMsg_ClientHeartBeat, new(CMsgClientHeartBeat)))
}
c.heartbeat = nil
}
func (c *Client) handlePacket(packet *Packet) {
switch packet.EMsg {
case EMsg_ChannelEncryptRequest:
c.handleChannelEncryptRequest(packet)
case EMsg_ChannelEncryptResult:
c.handleChannelEncryptResult(packet)
case EMsg_Multi:
c.handleMulti(packet)
case EMsg_ClientCMList:
c.handleClientCMList(packet)
}
c.handlersMutex.RLock()
defer c.handlersMutex.RUnlock()
for _, handler := range c.handlers {
handler.HandlePacket(packet)
}
}
func (c *Client) handleChannelEncryptRequest(packet *Packet) {
body := NewMsgChannelEncryptRequest()
packet.ReadMsg(body)
if body.Universe != EUniverse_Public {
c.Fatalf("Invalid univserse %v!", body.Universe)
}
c.tempSessionKey = make([]byte, 32)
rand.Read(c.tempSessionKey)
encryptedKey := cryptoutil.RSAEncrypt(GetPublicKey(EUniverse_Public), c.tempSessionKey)
payload := new(bytes.Buffer)
payload.Write(encryptedKey)
binary.Write(payload, binary.LittleEndian, crc32.ChecksumIEEE(encryptedKey))
payload.WriteByte(0)
payload.WriteByte(0)
payload.WriteByte(0)
payload.WriteByte(0)
c.Write(NewMsg(NewMsgChannelEncryptResponse(), payload.Bytes()))
}
func (c *Client) handleChannelEncryptResult(packet *Packet) {
body := NewMsgChannelEncryptResult()
packet.ReadMsg(body)
if body.Result != EResult_OK {
c.Fatalf("Encryption failed: %v", body.Result)
return
}
c.conn.SetEncryptionKey(c.tempSessionKey)
c.tempSessionKey = nil
c.Emit(&ConnectedEvent{})
}
func (c *Client) handleMulti(packet *Packet) {
body := new(CMsgMulti)
packet.ReadProtoMsg(body)
payload := body.GetMessageBody()
if body.GetSizeUnzipped() > 0 {
r, err := gzip.NewReader(bytes.NewReader(payload))
if err != nil {
c.Errorf("handleMulti: Error while decompressing: %v", err)
return
}
payload, err = ioutil.ReadAll(r)
if err != nil {
c.Errorf("handleMulti: Error while decompressing: %v", err)
return
}
}
pr := bytes.NewReader(payload)
for pr.Len() > 0 {
var length uint32
binary.Read(pr, binary.LittleEndian, &length)
packetData := make([]byte, length)
pr.Read(packetData)
p, err := NewPacket(packetData)
if err != nil {
c.Errorf("Error reading packet in Multi msg %v: %v", packet, err)
continue
}
c.handlePacket(p)
}
}
func (c *Client) handleClientCMList(packet *Packet) {
body := new(CMsgClientCMList)
packet.ReadProtoMsg(body)
l := make([]*netutil.PortAddr, 0)
for i, ip := range body.GetCmAddresses() {
l = append(l, &netutil.PortAddr{
readIp(ip),
uint16(body.GetCmPorts()[i]),
})
}
c.Emit(&ClientCMListEvent{l})
}
func readIp(ip uint32) net.IP {
r := make(net.IP, 4)
r[3] = byte(ip)
r[2] = byte(ip >> 8)
r[1] = byte(ip >> 16)
r[0] = byte(ip >> 24)
return r
}