holy refactor

started out as me making a service abstraction..

- db.Player exists again, and entity.Player uses it as an embedded struct
- chunk.ForEachEntity() lets you add/remove entities during iteration now
- removed account related fields from CNPeer
- protocol/pool has been merged with protocol.
use protocol.GetBuffer() and protocol.PutBuffer().
- new protocol/internal/service!
service.Service is an abstraction layer to handle multiple CNPeer*
connections and allows you to associate each with an interface{} uData.
In the future it might also handle a task queue for jobs that
modify/interact with the player's uData, called from service.handleEvents()
- PacketHandler callback type has a new param! uData is passed as well now
- much of loginserver/shardserver is now handled by the shared service
abstraction
- SHARD: NPC_ENTER packets are now sent on player loading complete
rather than on enter.
This commit is contained in:
CPunch 2023-11-27 21:23:28 -06:00
parent d8277ea89c
commit 1f66acfd25
12 changed files with 378 additions and 358 deletions

View File

@ -4,11 +4,41 @@ import (
"database/sql" "database/sql"
"github.com/CPunch/gopenfusion/config" "github.com/CPunch/gopenfusion/config"
"github.com/CPunch/gopenfusion/internal/entity"
"github.com/CPunch/gopenfusion/internal/protocol" "github.com/CPunch/gopenfusion/internal/protocol"
"github.com/blockloop/scan" "github.com/blockloop/scan"
) )
type Player struct {
PlayerID int
AccountID int
AccountLevel int
Slot int
PCStyle protocol.SPCStyle
PCStyle2 protocol.SPCStyle2
EquippedNanos [3]int
Nanos [config.NANO_COUNT]protocol.SNano
Equip [config.AEQUIP_COUNT]protocol.SItemBase
Inven [config.AINVEN_COUNT]protocol.SItemBase
Bank [config.ABANK_COUNT]protocol.SItemBase
SkywayLocationFlag []byte
FirstUseFlag []byte
Quests []byte
HP int
Level int
Taros int
FusionMatter int
Mentor int
X, Y, Z int
Angle int
BatteryN int
BatteryW int
WarpLocationFlag int
ActiveNanoSlotNum int
Fatigue int
CurrentMissionID int
IPCState int8
}
// returns PlayerID, error // returns PlayerID, error
func (db *DBHandler) NewPlayer(AccountID int, FirstName, LastName string, slot int) (int, error) { func (db *DBHandler) NewPlayer(AccountID int, FirstName, LastName string, slot int) (int, error) {
nameCheck := 1 // for now, we approve all names nameCheck := 1 // for now, we approve all names
@ -121,8 +151,8 @@ const (
INNER JOIN Accounts as acc ON p.AccountID = acc.AccountID ` INNER JOIN Accounts as acc ON p.AccountID = acc.AccountID `
) )
func (db *DBHandler) readPlayer(rows *sql.Rows) (*entity.Player, error) { func (db *DBHandler) readPlayer(rows *sql.Rows) (*Player, error) {
plr := entity.Player{ActiveNanoSlotNum: 0} plr := Player{ActiveNanoSlotNum: 0}
if err := rows.Scan( if err := rows.Scan(
&plr.PlayerID, &plr.AccountID, &plr.Slot, &plr.PCStyle.SzFirstName, &plr.PCStyle.SzLastName, &plr.PlayerID, &plr.AccountID, &plr.Slot, &plr.PCStyle.SzFirstName, &plr.PCStyle.SzLastName,
@ -162,13 +192,13 @@ func (db *DBHandler) readPlayer(rows *sql.Rows) (*entity.Player, error) {
return &plr, nil return &plr, nil
} }
func (db *DBHandler) GetPlayer(PlayerID int) (*entity.Player, error) { func (db *DBHandler) GetPlayer(PlayerID int) (*Player, error) {
rows, err := db.Query(QUERY_PLAYERS+"WHERE p.PlayerID = $1", PlayerID) rows, err := db.Query(QUERY_PLAYERS+"WHERE p.PlayerID = $1", PlayerID)
if err != nil { if err != nil {
return nil, err return nil, err
} }
var plr *entity.Player var plr *Player
for rows.Next() { for rows.Next() {
plr, err = db.readPlayer(rows) plr, err = db.readPlayer(rows)
if err != nil { if err != nil {
@ -179,13 +209,13 @@ func (db *DBHandler) GetPlayer(PlayerID int) (*entity.Player, error) {
return plr, nil return plr, nil
} }
func (db *DBHandler) GetPlayers(AccountID int) ([]entity.Player, error) { func (db *DBHandler) GetPlayers(AccountID int) ([]Player, error) {
rows, err := db.Query(QUERY_PLAYERS+"WHERE p.AccountID = $1", AccountID) rows, err := db.Query(QUERY_PLAYERS+"WHERE p.AccountID = $1", AccountID)
if err != nil { if err != nil {
return nil, err return nil, err
} }
var plrs []entity.Player var plrs []Player
for rows.Next() { for rows.Next() {
plr, err := db.readPlayer(rows) plr, err := db.readPlayer(rows)
if err != nil { if err != nil {

View File

@ -38,11 +38,17 @@ func (c *Chunk) SendPacket(typeID uint32, pkt ...interface{}) {
} }
// calls f for each entity in this chunk, if f returns true, stop iterating // calls f for each entity in this chunk, if f returns true, stop iterating
// f can safely add/remove entities from the chunk
func (c *Chunk) ForEachEntity(f func(entity Entity) bool) { func (c *Chunk) ForEachEntity(f func(entity Entity) bool) {
// copy entities to avoid locking for the entire iteration
entities := make(map[Entity]struct{})
c.lock.Lock() c.lock.Lock()
defer c.lock.Unlock()
for entity := range c.entities { for entity := range c.entities {
entities[entity] = struct{}{}
}
c.lock.Unlock()
for entity := range entities {
if f(entity) { if f(entity) {
break break
} }

View File

@ -1,41 +1,22 @@
package entity package entity
import ( import (
"github.com/CPunch/gopenfusion/config" "github.com/CPunch/gopenfusion/internal/db"
"github.com/CPunch/gopenfusion/internal/protocol" "github.com/CPunch/gopenfusion/internal/protocol"
) )
type Player struct { type Player struct {
Peer *protocol.CNPeer db.Player
Chunk ChunkPosition Peer *protocol.CNPeer
PlayerID int Chunk ChunkPosition
AccountID int }
AccountLevel int
Slot int func NewPlayer(peer *protocol.CNPeer, player *db.Player) *Player {
PCStyle protocol.SPCStyle return &Player{
PCStyle2 protocol.SPCStyle2 Player: *player,
EquippedNanos [3]int Peer: peer,
Nanos [config.NANO_COUNT]protocol.SNano Chunk: MakeChunkPosition(player.X, player.Y),
Equip [config.AEQUIP_COUNT]protocol.SItemBase }
Inven [config.AINVEN_COUNT]protocol.SItemBase
Bank [config.ABANK_COUNT]protocol.SItemBase
SkywayLocationFlag []byte
FirstUseFlag []byte
Quests []byte
HP int
Level int
Taros int
FusionMatter int
Mentor int
X, Y, Z int
Angle int
BatteryN int
BatteryW int
WarpLocationFlag int
ActiveNanoSlotNum int
Fatigue int
CurrentMissionID int
IPCState int8
} }
// ==================== Entity interface ==================== // ==================== Entity interface ====================

View File

@ -6,9 +6,8 @@ import (
"io" "io"
"log" "log"
"net" "net"
"sync/atomic"
"time" "time"
"github.com/CPunch/gopenfusion/internal/protocol/pool"
) )
const ( const (
@ -18,15 +17,16 @@ const (
// CNPeer is a simple wrapper for net.Conn connections to send/recv packets over the Fusionfall packet protocol. // CNPeer is a simple wrapper for net.Conn connections to send/recv packets over the Fusionfall packet protocol.
type CNPeer struct { type CNPeer struct {
conn net.Conn conn net.Conn
eRecv chan *Event eRecv chan *Event
SzID string whichKey int
E_key []byte alive *atomic.Bool
FE_key []byte
AccountID int // May not be set while Send() or Handler() are concurrently running.
PlayerID int32 E_key []byte
whichKey int
alive bool // May not be set while Send() or Handler() are concurrently running.
FE_key []byte
} }
func GetTime() uint64 { func GetTime() uint64 {
@ -34,22 +34,23 @@ func GetTime() uint64 {
} }
func NewCNPeer(eRecv chan *Event, conn net.Conn) *CNPeer { func NewCNPeer(eRecv chan *Event, conn net.Conn) *CNPeer {
return &CNPeer{ p := &CNPeer{
conn: conn, conn: conn,
eRecv: eRecv, eRecv: eRecv,
SzID: "", whichKey: USE_E,
E_key: []byte(DEFAULT_KEY), alive: &atomic.Bool{},
FE_key: nil,
AccountID: -1, E_key: []byte(DEFAULT_KEY),
whichKey: USE_E, FE_key: nil,
alive: true,
} }
return p
} }
func (peer *CNPeer) Send(typeID uint32, data ...interface{}) error { func (peer *CNPeer) Send(typeID uint32, data ...interface{}) error {
// grab buffer from pool // grab buffer from pool
buf := pool.Get() buf := GetBuffer()
defer pool.Put(buf) defer PutBuffer(buf)
// allocate space for packet size // allocate space for packet size
buf.Write(make([]byte, 4)) buf.Write(make([]byte, 4))
@ -73,12 +74,14 @@ func (peer *CNPeer) Send(typeID uint32, data ...interface{}) error {
binary.LittleEndian.PutUint32(buf.Bytes()[:4], uint32(buf.Len()-4)) binary.LittleEndian.PutUint32(buf.Bytes()[:4], uint32(buf.Len()-4))
// encrypt body // encrypt body
var key []byte
switch peer.whichKey { switch peer.whichKey {
case USE_E: case USE_E:
EncryptData(buf.Bytes()[4:], peer.E_key) key = peer.E_key
case USE_FE: case USE_FE:
EncryptData(buf.Bytes()[4:], peer.FE_key) key = peer.FE_key
} }
EncryptData(buf.Bytes()[4:], key)
// send full packet // send full packet
log.Printf("Sending %#v, sizeof: %d, buffer: %v", data, buf.Len(), buf.Bytes()) log.Printf("Sending %#v, sizeof: %d, buffer: %v", data, buf.Len(), buf.Bytes())
@ -94,11 +97,12 @@ func (peer *CNPeer) SetActiveKey(whichKey int) {
func (peer *CNPeer) Kill() { func (peer *CNPeer) Kill() {
log.Printf("Killing peer %p", peer) log.Printf("Killing peer %p", peer)
if !peer.alive {
if !peer.alive.Load() {
return return
} }
peer.alive.Store(false)
peer.alive = false
peer.conn.Close() peer.conn.Close()
peer.eRecv <- &Event{Type: EVENT_CLIENT_DISCONNECT, Peer: peer} peer.eRecv <- &Event{Type: EVENT_CLIENT_DISCONNECT, Peer: peer}
} }
@ -107,6 +111,7 @@ func (peer *CNPeer) Kill() {
func (peer *CNPeer) Handler() { func (peer *CNPeer) Handler() {
defer peer.Kill() defer peer.Kill()
peer.alive.Store(true)
for { for {
// read packet size, the goroutine spends most of it's time parked here // read packet size, the goroutine spends most of it's time parked here
var sz uint32 var sz uint32
@ -123,7 +128,7 @@ func (peer *CNPeer) Handler() {
// grab buffer && read packet body // grab buffer && read packet body
if err := func() error { if err := func() error {
buf := pool.Get() buf := GetBuffer()
if _, err := buf.ReadFrom(io.LimitReader(peer.conn, int64(sz))); err != nil { if _, err := buf.ReadFrom(io.LimitReader(peer.conn, int64(sz))); err != nil {
return fmt.Errorf("failed to read packet body! %v", err) return fmt.Errorf("failed to read packet body! %v", err)
} }

View File

@ -1,4 +1,4 @@
package pool package protocol
import ( import (
"bytes" "bytes"
@ -9,11 +9,13 @@ var allocator = &sync.Pool{
New: func() any { return new(bytes.Buffer) }, New: func() any { return new(bytes.Buffer) },
} }
func Get() *bytes.Buffer { // grabs a *bytes.Buffer from the pool
func GetBuffer() *bytes.Buffer {
return allocator.Get().(*bytes.Buffer) return allocator.Get().(*bytes.Buffer)
} }
func Put(buf *bytes.Buffer) { // returns a *bytes.Buffer to the pool
func PutBuffer(buf *bytes.Buffer) {
buf.Reset() buf.Reset()
allocator.Put(buf) allocator.Put(buf)
} }

138
internal/service/service.go Normal file
View File

@ -0,0 +1,138 @@
package service
import (
"fmt"
"log"
"net"
"sync"
"github.com/CPunch/gopenfusion/config"
"github.com/CPunch/gopenfusion/internal/protocol"
)
type PacketHandler func(peer *protocol.CNPeer, uData interface{}, pkt protocol.Packet) error
func StubbedPacket(_ *protocol.CNPeer, _ interface{}, _ protocol.Packet) error {
return nil
}
type Service struct {
listener net.Listener
port int
Name string
eRecv chan *protocol.Event
packetHandlers map[uint32]PacketHandler
peers *sync.Map
// OnDisconnect is called when a peer disconnects from the service.
// uData is the stored value of the key/value pair in the peer map.
// It may not be set while the service is running. (eg. srvc.Start() has been called)
OnDisconnect func(peer *protocol.CNPeer, uData interface{})
// OnConnect is called when a peer connects to the service.
// return value is used as the value in the peer map.
// It may not be set while the service is running. (eg. srvc.Start() has been called)
OnConnect func(peer *protocol.CNPeer) (uData interface{})
}
func NewService(name string, port int) (*Service, error) {
listener, err := net.Listen("tcp", fmt.Sprintf(":%d", port))
if err != nil {
return nil, err
}
service := &Service{
listener: listener,
port: port,
Name: name,
eRecv: make(chan *protocol.Event),
packetHandlers: make(map[uint32]PacketHandler),
peers: &sync.Map{},
}
return service, nil
}
// may not be called while the service is running (eg. srvc.Start() has been called)
func (service *Service) AddPacketHandler(pktID uint32, handler PacketHandler) {
service.packetHandlers[pktID] = handler
}
func (service *Service) Start() {
log.Printf("%s service hosted on %s:%d\n", service.Name, config.GetAnnounceIP(), service.port)
go service.handleEvents()
for {
conn, err := service.listener.Accept()
if err != nil {
log.Println("Connection error: ", err)
return
}
peer := protocol.NewCNPeer(service.eRecv, conn)
service.connect(peer)
}
}
func (service *Service) handleEvents() {
for event := range service.eRecv {
switch event.Type {
case protocol.EVENT_CLIENT_DISCONNECT:
service.disconnect(event.Peer)
case protocol.EVENT_CLIENT_PACKET:
if err := service.handlePacket(event.Peer, event.PktID, protocol.NewPacket(event.Pkt)); err != nil {
log.Printf("Error handling packet: %v", err)
event.Peer.Kill()
}
// the packet buffer is given to us by the event, so we'll need to make sure to return it to the pool
protocol.PutBuffer(event.Pkt)
}
}
}
func (service *Service) handlePacket(peer *protocol.CNPeer, typeID uint32, pkt protocol.Packet) error {
uData, _ := service.peers.Load(peer)
if hndlr, ok := service.packetHandlers[typeID]; ok {
if err := hndlr(peer, uData, pkt); err != nil {
return err
}
} else {
log.Printf("[WARN] unknown packet ID: %x\n", typeID)
}
return nil
}
func (service *Service) disconnect(peer *protocol.CNPeer) {
if service.OnDisconnect != nil {
uData, _ := service.peers.Load(peer)
service.OnDisconnect(peer, uData)
}
log.Printf("Peer %p disconnected from %s\n", peer, service.Name)
service.peers.Delete(peer)
}
func (service *Service) connect(peer *protocol.CNPeer) {
// default uData to nil, but if the service has an OnConnect
// handler, use the result from that
uData := interface{}(nil)
if service.OnConnect != nil {
uData = service.OnConnect(peer)
}
log.Printf("New peer %p connected to %s\n", peer, service.Name)
service.peers.Store(peer, uData)
go peer.Handler()
}
func (service *Service) SetPeerData(peer *protocol.CNPeer, uData interface{}) {
service.peers.Store(peer, uData)
}
func (service *Service) RangePeers(f func(peer *protocol.CNPeer, uData interface{}) bool) {
service.peers.Range(func(key, value any) bool {
return f(key.(*protocol.CNPeer), value)
})
}

View File

@ -25,8 +25,6 @@ const (
) )
func (server *LoginServer) AcceptLogin(peer *protocol.CNPeer, SzID string, IClientVerC int32, ISlotNum int8, data []protocol.SP_LS2CL_REP_CHAR_INFO) error { func (server *LoginServer) AcceptLogin(peer *protocol.CNPeer, SzID string, IClientVerC int32, ISlotNum int8, data []protocol.SP_LS2CL_REP_CHAR_INFO) error {
peer.SzID = SzID
resp := protocol.SP_LS2CL_REP_LOGIN_SUCC{ resp := protocol.SP_LS2CL_REP_LOGIN_SUCC{
SzID: SzID, SzID: SzID,
ICharCount: int8(len(data)), ICharCount: int8(len(data)),
@ -62,7 +60,7 @@ func (server *LoginServer) AcceptLogin(peer *protocol.CNPeer, SzID string, IClie
return nil return nil
} }
func (server *LoginServer) Login(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) Login(peer *protocol.CNPeer, _account interface{}, pkt protocol.Packet) error {
var loginPkt protocol.SP_CL2LS_REQ_LOGIN var loginPkt protocol.SP_CL2LS_REQ_LOGIN
pkt.Decode(&loginPkt) pkt.Decode(&loginPkt)
@ -74,9 +72,9 @@ func (server *LoginServer) Login(peer *protocol.CNPeer, pkt protocol.Packet) err
} }
// client is resending a login packet?? // client is resending a login packet??
if peer.AccountID != -1 { if _account != nil {
SendError(LOGIN_ERROR) SendError(LOGIN_ERROR)
return fmt.Errorf("out of order P_CL2LS_REQ_LOGIN") return fmt.Errorf("out of order P_CL2LS_REQ_LOGIN: %v", _account)
} }
// attempt login // attempt login
@ -99,7 +97,7 @@ func (server *LoginServer) Login(peer *protocol.CNPeer, pkt protocol.Packet) err
} }
// grab player data // grab player data
peer.AccountID = account.AccountID server.service.SetPeerData(peer, account)
plrs, err := server.dbHndlr.GetPlayers(account.AccountID) plrs, err := server.dbHndlr.GetPlayers(account.AccountID)
if err != nil { if err != nil {
SendError(LOGIN_DATABASE_ERROR) SendError(LOGIN_DATABASE_ERROR)
@ -138,7 +136,7 @@ func (server *LoginServer) Login(peer *protocol.CNPeer, pkt protocol.Packet) err
return server.AcceptLogin(peer, loginPkt.SzID, loginPkt.IClientVerC, 1, charInfo[:len(plrs)]) return server.AcceptLogin(peer, loginPkt.SzID, loginPkt.IClientVerC, 1, charInfo[:len(plrs)])
} }
func (server *LoginServer) CheckCharacterName(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) CheckCharacterName(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var charPkt protocol.SP_CL2LS_REQ_CHECK_CHAR_NAME var charPkt protocol.SP_CL2LS_REQ_CHECK_CHAR_NAME
pkt.Decode(&charPkt) pkt.Decode(&charPkt)
@ -149,17 +147,17 @@ func (server *LoginServer) CheckCharacterName(peer *protocol.CNPeer, pkt protoco
}) })
} }
func (server *LoginServer) SaveCharacterName(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) SaveCharacterName(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var charPkt protocol.SP_CL2LS_REQ_SAVE_CHAR_NAME var charPkt protocol.SP_CL2LS_REQ_SAVE_CHAR_NAME
pkt.Decode(&charPkt) pkt.Decode(&charPkt)
if peer.AccountID == -1 { if account == nil {
peer.Send(protocol.P_LS2CL_REP_SAVE_CHAR_NAME_FAIL, protocol.SP_LS2CL_REP_SAVE_CHAR_NAME_FAIL{}) peer.Send(protocol.P_LS2CL_REP_SAVE_CHAR_NAME_FAIL, protocol.SP_LS2CL_REP_SAVE_CHAR_NAME_FAIL{})
return fmt.Errorf("out of order P_LS2CL_REP_SAVE_CHAR_NAME_FAIL") return fmt.Errorf("out of order P_LS2CL_REP_SAVE_CHAR_NAME_FAIL")
} }
// TODO: sanity check SzFirstName && SzLastName // TODO: sanity check SzFirstName && SzLastName
PlayerID, err := server.dbHndlr.NewPlayer(peer.AccountID, charPkt.SzFirstName, charPkt.SzLastName, int(charPkt.ISlotNum)) PlayerID, err := server.dbHndlr.NewPlayer(account.(*db.Account).AccountID, charPkt.SzFirstName, charPkt.SzLastName, int(charPkt.ISlotNum))
if err != nil { if err != nil {
peer.Send(protocol.P_LS2CL_REP_SAVE_CHAR_NAME_FAIL, protocol.SP_LS2CL_REP_SAVE_CHAR_NAME_FAIL{}) peer.Send(protocol.P_LS2CL_REP_SAVE_CHAR_NAME_FAIL, protocol.SP_LS2CL_REP_SAVE_CHAR_NAME_FAIL{})
return err return err
@ -211,16 +209,20 @@ func SendFail(peer *protocol.CNPeer) error {
return nil return nil
} }
func (server *LoginServer) CharacterCreate(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) CharacterCreate(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var charPkt protocol.SP_CL2LS_REQ_CHAR_CREATE var charPkt protocol.SP_CL2LS_REQ_CHAR_CREATE
pkt.Decode(&charPkt) pkt.Decode(&charPkt)
if account == nil {
return SendFail(peer)
}
if !validateCharacterCreation(&charPkt) { if !validateCharacterCreation(&charPkt) {
log.Printf("Invalid character creation packet: %+v", charPkt) log.Printf("Invalid character creation packet: %+v", charPkt)
return SendFail(peer) return SendFail(peer)
} }
if err := server.dbHndlr.FinishPlayer(&charPkt, peer.AccountID); err != nil { if err := server.dbHndlr.FinishPlayer(&charPkt, account.(*db.Account).AccountID); err != nil {
log.Printf("Error finishing player: %v", err) log.Printf("Error finishing player: %v", err)
return SendFail(peer) return SendFail(peer)
} }
@ -239,11 +241,15 @@ func (server *LoginServer) CharacterCreate(peer *protocol.CNPeer, pkt protocol.P
}) })
} }
func (server *LoginServer) CharacterDelete(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) CharacterDelete(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var charPkt protocol.SP_CL2LS_REQ_CHAR_DELETE var charPkt protocol.SP_CL2LS_REQ_CHAR_DELETE
pkt.Decode(&charPkt) pkt.Decode(&charPkt)
slot, err := server.dbHndlr.DeletePlayer(int(charPkt.IPC_UID), peer.AccountID) if account == nil {
return SendFail(peer)
}
slot, err := server.dbHndlr.DeletePlayer(int(charPkt.IPC_UID), account.(*db.Account).AccountID)
if err != nil { if err != nil {
return SendFail(peer) return SendFail(peer)
} }
@ -253,10 +259,14 @@ func (server *LoginServer) CharacterDelete(peer *protocol.CNPeer, pkt protocol.P
}) })
} }
func (server *LoginServer) ShardSelect(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) ShardSelect(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var selection protocol.SP_CL2LS_REQ_CHAR_SELECT var selection protocol.SP_CL2LS_REQ_CHAR_SELECT
pkt.Decode(&selection) pkt.Decode(&selection)
if account == nil {
return SendFail(peer)
}
shards := server.redisHndlr.GetShards() shards := server.redisHndlr.GetShards()
if len(shards) == 0 { if len(shards) == 0 {
SendFail(peer) SendFail(peer)
@ -278,9 +288,10 @@ func (server *LoginServer) ShardSelect(peer *protocol.CNPeer, pkt protocol.Packe
log.Printf("Error getting player: %v", err) log.Printf("Error getting player: %v", err)
return SendFail(peer) return SendFail(peer)
} }
accountID := account.(*db.Account).AccountID
if plr.AccountID != peer.AccountID { if plr.AccountID != accountID {
log.Printf("HACK: player %d tried to join shard as player %d", peer.AccountID, plr.AccountID) log.Printf("HACK: player %d tried to join shard as player %d", accountID, plr.AccountID)
return SendFail(peer) return SendFail(peer)
} }
@ -288,7 +299,7 @@ func (server *LoginServer) ShardSelect(peer *protocol.CNPeer, pkt protocol.Packe
server.redisHndlr.QueueLogin(key, redis.LoginMetadata{ server.redisHndlr.QueueLogin(key, redis.LoginMetadata{
FEKey: peer.FE_key, FEKey: peer.FE_key,
PlayerID: int32(selection.IPC_UID), PlayerID: int32(selection.IPC_UID),
AccountID: peer.AccountID, AccountID: accountID,
}) })
// craft response // craft response
@ -303,11 +314,15 @@ func (server *LoginServer) ShardSelect(peer *protocol.CNPeer, pkt protocol.Packe
return peer.Send(protocol.P_LS2CL_REP_SHARD_SELECT_SUCC, resp) return peer.Send(protocol.P_LS2CL_REP_SHARD_SELECT_SUCC, resp)
} }
func (server *LoginServer) FinishTutorial(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *LoginServer) FinishTutorial(peer *protocol.CNPeer, account interface{}, pkt protocol.Packet) error {
var charPkt protocol.SP_CL2LS_REQ_SAVE_CHAR_TUTOR var charPkt protocol.SP_CL2LS_REQ_SAVE_CHAR_TUTOR
pkt.Decode(&charPkt) pkt.Decode(&charPkt)
if err := server.dbHndlr.FinishTutorial(int(charPkt.IPC_UID), peer.AccountID); err != nil { if account == nil {
return SendFail(peer)
}
if err := server.dbHndlr.FinishTutorial(int(charPkt.IPC_UID), account.(*db.Account).AccountID); err != nil {
return SendFail(peer) return SendFail(peer)
} }

View File

@ -1,126 +1,52 @@
package login package login
import ( import (
"fmt"
"log"
"net"
"sync"
"github.com/CPunch/gopenfusion/config"
"github.com/CPunch/gopenfusion/internal/db" "github.com/CPunch/gopenfusion/internal/db"
"github.com/CPunch/gopenfusion/internal/protocol" "github.com/CPunch/gopenfusion/internal/protocol"
"github.com/CPunch/gopenfusion/internal/protocol/pool"
"github.com/CPunch/gopenfusion/internal/redis" "github.com/CPunch/gopenfusion/internal/redis"
"github.com/CPunch/gopenfusion/internal/service"
) )
type PacketHandler func(peer *protocol.CNPeer, pkt protocol.Packet) error
func stubbedPacket(_ *protocol.CNPeer, _ protocol.Packet) error { /* stubbed */ return nil }
type LoginServer struct { type LoginServer struct {
listener net.Listener service *service.Service
port int dbHndlr *db.DBHandler
dbHndlr *db.DBHandler redisHndlr *redis.RedisHandler
redisHndlr *redis.RedisHandler
eRecv chan *protocol.Event
peers map[*protocol.CNPeer]bool
packetHandlers map[uint32]PacketHandler
peerLock sync.Mutex
} }
func NewLoginServer(dbHndlr *db.DBHandler, redisHndlr *redis.RedisHandler, port int) (*LoginServer, error) { func NewLoginServer(dbHndlr *db.DBHandler, redisHndlr *redis.RedisHandler, port int) (*LoginServer, error) {
listener, err := net.Listen("tcp", fmt.Sprintf(":%d", port)) srvc, err := service.NewService("LOGIN", port)
if err != nil { if err != nil {
return nil, err return nil, err
} }
server := &LoginServer{ server := &LoginServer{
listener: listener, service: srvc,
port: port,
dbHndlr: dbHndlr, dbHndlr: dbHndlr,
redisHndlr: redisHndlr, redisHndlr: redisHndlr,
peers: make(map[*protocol.CNPeer]bool),
eRecv: make(chan *protocol.Event),
} }
server.packetHandlers = map[uint32]PacketHandler{ srvc.AddPacketHandler(protocol.P_CL2LS_REQ_LOGIN, server.Login)
protocol.P_CL2LS_REQ_LOGIN: server.Login, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_CHECK_CHAR_NAME, server.CheckCharacterName)
protocol.P_CL2LS_REQ_CHECK_CHAR_NAME: server.CheckCharacterName, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_SAVE_CHAR_NAME, server.SaveCharacterName)
protocol.P_CL2LS_REQ_SAVE_CHAR_NAME: server.SaveCharacterName, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_CHAR_CREATE, server.CharacterCreate)
protocol.P_CL2LS_REQ_CHAR_CREATE: server.CharacterCreate, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_CHAR_SELECT, server.ShardSelect)
protocol.P_CL2LS_REQ_CHAR_SELECT: server.ShardSelect, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_CHAR_DELETE, server.CharacterDelete)
protocol.P_CL2LS_REQ_CHAR_DELETE: server.CharacterDelete, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_SHARD_SELECT, service.StubbedPacket)
protocol.P_CL2LS_REQ_SHARD_SELECT: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_SHARD_LIST_INFO, service.StubbedPacket)
protocol.P_CL2LS_REQ_SHARD_LIST_INFO: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_CHECK_NAME_LIST, service.StubbedPacket)
protocol.P_CL2LS_CHECK_NAME_LIST: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_SAVE_CHAR_TUTOR, server.FinishTutorial)
protocol.P_CL2LS_REQ_SAVE_CHAR_TUTOR: server.FinishTutorial, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_PC_EXIT_DUPLICATE, service.StubbedPacket)
protocol.P_CL2LS_REQ_PC_EXIT_DUPLICATE: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_REP_LIVE_CHECK, service.StubbedPacket)
protocol.P_CL2LS_REP_LIVE_CHECK: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_CHANGE_CHAR_NAME, service.StubbedPacket)
protocol.P_CL2LS_REQ_CHANGE_CHAR_NAME: stubbedPacket, srvc.AddPacketHandler(protocol.P_CL2LS_REQ_SERVER_SELECT, service.StubbedPacket)
protocol.P_CL2LS_REQ_SERVER_SELECT: stubbedPacket,
srvc.OnConnect = func(peer *protocol.CNPeer) interface{} {
return nil
} }
return server, nil return server, nil
} }
func (server *LoginServer) Start() { func (server *LoginServer) Start() {
log.Printf("Login service hosted on %s:%d\n", config.GetAnnounceIP(), server.port) server.service.Start()
go server.handleEvents()
for {
conn, err := server.listener.Accept()
if err != nil {
log.Println("Connection error: ", err)
return
}
client := protocol.NewCNPeer(server.eRecv, conn)
server.connect(client)
go client.Handler()
}
}
func (server *LoginServer) handleEvents() {
for event := range server.eRecv {
switch event.Type {
case protocol.EVENT_CLIENT_DISCONNECT:
server.disconnect(event.Peer)
case protocol.EVENT_CLIENT_PACKET:
if err := server.handlePacket(event.Peer, event.PktID, protocol.NewPacket(event.Pkt)); err != nil {
log.Printf("Error handling packet: %v", err)
event.Peer.Kill()
}
// the packet is given to us by the event, so we'll need to make sure to return it to the pool
pool.Put(event.Pkt)
}
}
}
func (server *LoginServer) handlePacket(peer *protocol.CNPeer, typeID uint32, pkt protocol.Packet) error {
if hndlr, ok := server.packetHandlers[typeID]; ok {
if err := hndlr(peer, pkt); err != nil {
return err
}
} else {
log.Printf("[WARN] unknown packet ID: %x\n", typeID)
}
return nil
}
func (server *LoginServer) disconnect(peer *protocol.CNPeer) {
server.peerLock.Lock()
defer server.peerLock.Unlock()
log.Printf("Peer %p disconnected from LOGIN\n", peer)
delete(server.peers, peer)
}
func (server *LoginServer) connect(peer *protocol.CNPeer) {
server.peerLock.Lock()
defer server.peerLock.Unlock()
log.Printf("New peer %p connected to LOGIN\n", peer)
server.peers[peer] = true
} }

View File

@ -1,16 +1,20 @@
package shard package shard
import "github.com/CPunch/gopenfusion/internal/protocol" import (
"fmt"
func (server *ShardServer) freeChat(peer *protocol.CNPeer, pkt protocol.Packet) error { "github.com/CPunch/gopenfusion/internal/entity"
"github.com/CPunch/gopenfusion/internal/protocol"
)
func (server *ShardServer) freeChat(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var chat protocol.SP_CL2FE_REQ_SEND_FREECHAT_MESSAGE var chat protocol.SP_CL2FE_REQ_SEND_FREECHAT_MESSAGE
pkt.Decode(&chat) pkt.Decode(&chat)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("freeChat: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// spread message // spread message
return server.sendAllPacket(plr, protocol.P_FE2CL_REP_SEND_FREECHAT_MESSAGE_SUCC, protocol.SP_FE2CL_REP_SEND_FREECHAT_MESSAGE_SUCC{ return server.sendAllPacket(plr, protocol.P_FE2CL_REP_SEND_FREECHAT_MESSAGE_SUCC, protocol.SP_FE2CL_REP_SEND_FREECHAT_MESSAGE_SUCC{
@ -20,15 +24,14 @@ func (server *ShardServer) freeChat(peer *protocol.CNPeer, pkt protocol.Packet)
}) })
} }
func (server *ShardServer) menuChat(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) menuChat(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var chat protocol.SP_CL2FE_REQ_SEND_MENUCHAT_MESSAGE var chat protocol.SP_CL2FE_REQ_SEND_MENUCHAT_MESSAGE
pkt.Decode(&chat) pkt.Decode(&chat)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("menuChat: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// spread message // spread message
return server.sendAllPacket(plr, protocol.P_FE2CL_REP_SEND_MENUCHAT_MESSAGE_SUCC, protocol.SP_FE2CL_REP_SEND_MENUCHAT_MESSAGE_SUCC{ return server.sendAllPacket(plr, protocol.P_FE2CL_REP_SEND_MENUCHAT_MESSAGE_SUCC, protocol.SP_FE2CL_REP_SEND_MENUCHAT_MESSAGE_SUCC{
@ -38,15 +41,14 @@ func (server *ShardServer) menuChat(peer *protocol.CNPeer, pkt protocol.Packet)
}) })
} }
func (server *ShardServer) emoteChat(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) emoteChat(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var chat protocol.SP_CL2FE_REQ_PC_AVATAR_EMOTES_CHAT var chat protocol.SP_CL2FE_REQ_PC_AVATAR_EMOTES_CHAT
pkt.Decode(&chat) pkt.Decode(&chat)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("emoteChat: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// spread message // spread message
return server.sendAllPacket(plr, protocol.P_FE2CL_REP_PC_AVATAR_EMOTES_CHAT, protocol.SP_FE2CL_REP_PC_AVATAR_EMOTES_CHAT{ return server.sendAllPacket(plr, protocol.P_FE2CL_REP_PC_AVATAR_EMOTES_CHAT, protocol.SP_FE2CL_REP_PC_AVATAR_EMOTES_CHAT{

View File

@ -10,27 +10,29 @@ import (
) )
func (server *ShardServer) attachPlayer(peer *protocol.CNPeer, meta redis.LoginMetadata) (*entity.Player, error) { func (server *ShardServer) attachPlayer(peer *protocol.CNPeer, meta redis.LoginMetadata) (*entity.Player, error) {
// resending a shard enter packet? dbPlr, err := server.dbHndlr.GetPlayer(int(meta.PlayerID))
old, _ := server.getPlayer(peer)
if old != nil {
return nil, fmt.Errorf("resent enter packet")
}
// attach player
plr, err := server.dbHndlr.GetPlayer(int(meta.PlayerID))
if err != nil { if err != nil {
return nil, err return nil, err
} }
plr.Peer = peer plr := entity.NewPlayer(peer, dbPlr)
server.setPlayer(peer, plr) // once we create the player, it's memory address is owned by the
// server.Start() goroutine. the only functions allowed to access
// it are the packet handlers as no other goroutines will be
// concurrently accessing it.
server.service.SetPeerData(peer, plr)
return plr, nil return plr, nil
} }
func (server *ShardServer) RequestEnter(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) RequestEnter(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var enter protocol.SP_CL2FE_REQ_PC_ENTER var enter protocol.SP_CL2FE_REQ_PC_ENTER
pkt.Decode(&enter) pkt.Decode(&enter)
// resending a shard enter packet?
if _plr != nil {
return fmt.Errorf("resent enter packet")
}
loginData, err := server.redisHndlr.GetLogin(enter.IEnterSerialKey) loginData, err := server.redisHndlr.GetLogin(enter.IEnterSerialKey)
if err != nil { if err != nil {
// the error codes for P_FE2CL_REP_PC_ENTER_FAIL aren't referenced in the client :( // the error codes for P_FE2CL_REP_PC_ENTER_FAIL aren't referenced in the client :(
@ -52,29 +54,35 @@ func (server *ShardServer) RequestEnter(peer *protocol.CNPeer, pkt protocol.Pack
// setup peer // setup peer
peer.E_key = protocol.CreateNewKey(resp.UiSvrTime, uint64(resp.IID+1), uint64(resp.PCLoadData2CL.IFusionMatter+1)) peer.E_key = protocol.CreateNewKey(resp.UiSvrTime, uint64(resp.IID+1), uint64(resp.PCLoadData2CL.IFusionMatter+1))
peer.FE_key = loginData.FEKey peer.FE_key = loginData.FEKey
peer.PlayerID = loginData.PlayerID
peer.AccountID = loginData.AccountID
peer.SetActiveKey(protocol.USE_FE) peer.SetActiveKey(protocol.USE_FE)
log.Printf("Player %d (AccountID %d) entered\n", resp.IID, loginData.AccountID) log.Printf("Player %d (AccountID %d) entered\n", resp.IID, loginData.AccountID)
if err := peer.Send(protocol.P_FE2CL_REP_PC_ENTER_SUCC, resp); err != nil { if err := peer.Send(protocol.P_FE2CL_REP_PC_ENTER_SUCC, resp); err != nil {
return err return err
} }
// we send the chunk updates (PC_NEW, NPC_NEW, etc.) after the enter packet
server.updatePlayerPosition(plr, int(plr.X), int(plr.Y), int(plr.Z), int(plr.Angle))
return nil return nil
} }
func (server *ShardServer) LoadingComplete(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) LoadingComplete(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var loadComplete protocol.SP_CL2FE_REQ_PC_LOADING_COMPLETE var loadComplete protocol.SP_CL2FE_REQ_PC_LOADING_COMPLETE
pkt.Decode(&loadComplete) pkt.Decode(&loadComplete)
plr, err := server.getPlayer(peer) // was the peer attached to a player?
if _plr == nil {
return fmt.Errorf("loadingComplete: plr is nil")
}
plr := _plr.(*entity.Player)
err := peer.Send(protocol.P_FE2CL_REP_PC_LOADING_COMPLETE_SUCC, protocol.SP_FE2CL_REP_PC_LOADING_COMPLETE_SUCC{IPC_ID: int32(plr.PlayerID)})
if err != nil { if err != nil {
return err return err
} }
return peer.Send(protocol.P_FE2CL_REP_PC_LOADING_COMPLETE_SUCC, protocol.SP_FE2CL_REP_PC_LOADING_COMPLETE_SUCC{IPC_ID: int32(plr.PlayerID)}) // we send the chunk updates (PC_NEW, NPC_NEW, etc.) after the enter packet
chunkPos := entity.MakeChunkPosition(plr.X, plr.Y)
viewableChunks := server.getViewableChunks(chunkPos)
plr.SetChunkPos(chunkPos)
server.addEntityToChunks(plr, viewableChunks)
return nil
} }

View File

@ -1,6 +1,8 @@
package shard package shard
import ( import (
"fmt"
"github.com/CPunch/gopenfusion/internal/entity" "github.com/CPunch/gopenfusion/internal/entity"
"github.com/CPunch/gopenfusion/internal/protocol" "github.com/CPunch/gopenfusion/internal/protocol"
) )
@ -13,15 +15,14 @@ func (server *ShardServer) updatePlayerPosition(plr *entity.Player, X, Y, Z, Ang
server.updateEntityChunk(plr, plr.GetChunkPos(), entity.MakeChunkPosition(X, Y)) server.updateEntityChunk(plr, plr.GetChunkPos(), entity.MakeChunkPosition(X, Y))
} }
func (server *ShardServer) playerMove(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) playerMove(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var move protocol.SP_CL2FE_REQ_PC_MOVE var move protocol.SP_CL2FE_REQ_PC_MOVE
pkt.Decode(&move) pkt.Decode(&move)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("playerMove: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// update chunking // update chunking
server.updatePlayerPosition(plr, int(move.IX), int(move.IY), int(move.IZ), int(move.IAngle)) server.updatePlayerPosition(plr, int(move.IX), int(move.IY), int(move.IZ), int(move.IAngle))
@ -42,15 +43,14 @@ func (server *ShardServer) playerMove(peer *protocol.CNPeer, pkt protocol.Packet
}) })
} }
func (server *ShardServer) playerStop(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) playerStop(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var stop protocol.SP_CL2FE_REQ_PC_STOP var stop protocol.SP_CL2FE_REQ_PC_STOP
pkt.Decode(&stop) pkt.Decode(&stop)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("playerStop: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// update chunking // update chunking
server.updatePlayerPosition(plr, int(stop.IX), int(stop.IY), int(stop.IZ), plr.Angle) server.updatePlayerPosition(plr, int(stop.IX), int(stop.IY), int(stop.IZ), plr.Angle)
@ -65,15 +65,14 @@ func (server *ShardServer) playerStop(peer *protocol.CNPeer, pkt protocol.Packet
}) })
} }
func (server *ShardServer) playerJump(peer *protocol.CNPeer, pkt protocol.Packet) error { func (server *ShardServer) playerJump(peer *protocol.CNPeer, _plr interface{}, pkt protocol.Packet) error {
var jump protocol.SP_CL2FE_REQ_PC_JUMP var jump protocol.SP_CL2FE_REQ_PC_JUMP
pkt.Decode(&jump) pkt.Decode(&jump)
// sanity check if _plr == nil {
plr, err := server.getPlayer(peer) return fmt.Errorf("playerJump: _plr is nil")
if err != nil {
return err
} }
plr := _plr.(*entity.Player)
// update chunking // update chunking
server.updatePlayerPosition(plr, int(jump.IX), int(jump.IY), int(jump.IZ), plr.Angle) server.updatePlayerPosition(plr, int(jump.IX), int(jump.IY), int(jump.IZ), plr.Angle)

View File

@ -1,60 +1,47 @@
package shard package shard
import ( import (
"fmt"
"log"
"net"
"sync"
"github.com/CPunch/gopenfusion/config" "github.com/CPunch/gopenfusion/config"
"github.com/CPunch/gopenfusion/internal/db" "github.com/CPunch/gopenfusion/internal/db"
"github.com/CPunch/gopenfusion/internal/entity" "github.com/CPunch/gopenfusion/internal/entity"
"github.com/CPunch/gopenfusion/internal/protocol" "github.com/CPunch/gopenfusion/internal/protocol"
"github.com/CPunch/gopenfusion/internal/protocol/pool"
"github.com/CPunch/gopenfusion/internal/redis" "github.com/CPunch/gopenfusion/internal/redis"
"github.com/CPunch/gopenfusion/internal/service"
) )
type PacketHandler func(peer *protocol.CNPeer, pkt protocol.Packet) error type PacketHandler func(peer *protocol.CNPeer, pkt protocol.Packet) error
type ShardServer struct { type ShardServer struct {
listener net.Listener service *service.Service
port int dbHndlr *db.DBHandler
dbHndlr *db.DBHandler redisHndlr *redis.RedisHandler
redisHndlr *redis.RedisHandler chunks map[entity.ChunkPosition]*entity.Chunk
eRecv chan *protocol.Event
packetHandlers map[uint32]PacketHandler
peers map[*protocol.CNPeer]*entity.Player
chunks map[entity.ChunkPosition]*entity.Chunk
peerLock sync.Mutex
} }
func NewShardServer(dbHndlr *db.DBHandler, redisHndlr *redis.RedisHandler, port int) (*ShardServer, error) { func NewShardServer(dbHndlr *db.DBHandler, redisHndlr *redis.RedisHandler, port int) (*ShardServer, error) {
listener, err := net.Listen("tcp", fmt.Sprintf(":%d", port)) srvc, err := service.NewService("SHARD", port)
if err != nil { if err != nil {
return nil, err return nil, err
} }
server := &ShardServer{ server := &ShardServer{
listener: listener, service: srvc,
port: port, dbHndlr: dbHndlr,
dbHndlr: dbHndlr, redisHndlr: redisHndlr,
redisHndlr: redisHndlr, chunks: make(map[entity.ChunkPosition]*entity.Chunk),
packetHandlers: make(map[uint32]PacketHandler),
peers: make(map[*protocol.CNPeer]*entity.Player),
chunks: make(map[entity.ChunkPosition]*entity.Chunk),
eRecv: make(chan *protocol.Event),
} }
server.packetHandlers = map[uint32]PacketHandler{ srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_ENTER, server.RequestEnter)
protocol.P_CL2FE_REQ_PC_ENTER: server.RequestEnter, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_LOADING_COMPLETE, server.LoadingComplete)
protocol.P_CL2FE_REQ_PC_LOADING_COMPLETE: server.LoadingComplete, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_MOVE, server.playerMove)
protocol.P_CL2FE_REQ_PC_MOVE: server.playerMove, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_STOP, server.playerStop)
protocol.P_CL2FE_REQ_PC_STOP: server.playerStop, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_JUMP, server.playerJump)
protocol.P_CL2FE_REQ_PC_JUMP: server.playerJump, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_SEND_FREECHAT_MESSAGE, server.freeChat)
protocol.P_CL2FE_REQ_SEND_FREECHAT_MESSAGE: server.freeChat, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_SEND_MENUCHAT_MESSAGE, server.menuChat)
protocol.P_CL2FE_REQ_SEND_MENUCHAT_MESSAGE: server.menuChat, srvc.AddPacketHandler(protocol.P_CL2FE_REQ_PC_AVATAR_EMOTES_CHAT, server.emoteChat)
protocol.P_CL2FE_REQ_PC_AVATAR_EMOTES_CHAT: server.emoteChat,
} srvc.OnConnect = server.onConnect
srvc.OnDisconnect = server.onDisconnect
redisHndlr.RegisterShard(redis.ShardMetadata{ redisHndlr.RegisterShard(redis.ShardMetadata{
IP: config.GetAnnounceIP(), IP: config.GetAnnounceIP(),
@ -64,97 +51,18 @@ func NewShardServer(dbHndlr *db.DBHandler, redisHndlr *redis.RedisHandler, port
return server, nil return server, nil
} }
func (server *ShardServer) handleEvents() {
for event := range server.eRecv {
switch event.Type {
case protocol.EVENT_CLIENT_DISCONNECT:
server.disconnect(event.Peer)
case protocol.EVENT_CLIENT_PACKET:
if err := server.handlePacket(event.Peer, event.PktID, protocol.NewPacket(event.Pkt)); err != nil {
event.Peer.Kill()
}
// the packet is given to us by the event, so we'll need to make sure to return it to the pool
pool.Put(event.Pkt)
}
}
}
func (server *ShardServer) Start() { func (server *ShardServer) Start() {
server.LoadNPCs() server.LoadNPCs()
server.service.Start()
}
log.Printf("Shard service hosted on %s:%d\n", config.GetAnnounceIP(), server.port) func (server *ShardServer) onDisconnect(peer *protocol.CNPeer, _plr interface{}) {
go server.handleEvents() // remove from chunks
for { if _plr != nil {
conn, err := server.listener.Accept() server.removeEntity(_plr.(*entity.Player))
if err != nil {
log.Println("Connection error: ", err)
return
}
client := protocol.NewCNPeer(server.eRecv, conn)
server.connect(client)
go client.Handler()
} }
} }
func (server *ShardServer) GetPort() int { func (server *ShardServer) onConnect(peer *protocol.CNPeer) interface{} {
return server.port
}
func (server *ShardServer) handlePacket(peer *protocol.CNPeer, typeID uint32, pkt protocol.Packet) error {
if hndlr, ok := server.packetHandlers[typeID]; ok {
if err := hndlr(peer, pkt); err != nil {
return err
}
} else {
log.Printf("[WARN] unknown packet ID: %x\n", typeID)
}
return nil return nil
} }
func (server *ShardServer) disconnect(peer *protocol.CNPeer) {
server.peerLock.Lock()
defer server.peerLock.Unlock()
// remove from chunk(s)
plr, ok := server.peers[peer]
if ok {
log.Printf("Player %d (AccountID %d) disconnected\n", plr.PlayerID, plr.AccountID)
server.removeEntity(plr)
}
log.Printf("Peer %p disconnected from SHARD\n", peer)
delete(server.peers, peer)
}
func (server *ShardServer) connect(peer *protocol.CNPeer) {
server.peerLock.Lock()
defer server.peerLock.Unlock()
log.Printf("New peer %p connected to SHARD\n", peer)
server.peers[peer] = nil
}
func (server *ShardServer) getPlayer(peer *protocol.CNPeer) (*entity.Player, error) {
plr, ok := server.peers[peer]
if !ok {
return nil, fmt.Errorf("player not found")
}
return plr, nil
}
func (server *ShardServer) setPlayer(peer *protocol.CNPeer, plr *entity.Player) {
server.peers[peer] = plr
}
// If f returns false the iteration is stopped.
func (server *ShardServer) rangePeers(f func(peer *protocol.CNPeer, plr *entity.Player) bool) {
for peer, plr := range server.peers {
if f(peer, plr) {
return
}
}
}