func clearExpiredClient() {
// 处理内部未处理的异常,以免导致主线程退出,从而导致系统崩溃
defer func() {
if r := recover(); r != nil {
logUtil.LogUnknownError(r)
}
}()
for {
// 休眠指定的时间(单位:秒)(放在此处是因为程序刚启动时并没有过期的客户端,所以先不用占用资源;)
time.Sleep(CheckExpiredInterval() * time.Second)
// 清理之前的客户端数量和玩家数量
beforeClientCount := len(clientList)
beforePlayerCount := len(playerList)
// 获取本次清理的客户端数量
expiredClientCount := 0
// 开始清理
for _, item := range clientList {
if item.HasExpired() {
expiredClientCount++
item.Quit()
}
}
// 记录日志
if expiredClientCount > 0 {
logUtil.Log(fmt.Sprintf("清理前的客户端数量为:%d, 清理前的玩家数量为:%d, 本次清理不活跃的数量为:%d", beforeClientCount, beforePlayerCount, expiredClientCount), logUtil.Debug, true)
}
}
}
// 打开数据库连接
// connectionString:数据库连接字符串
// 返回值:
// 数据库对象
func OpenMysqlConnection(connectionString string) (*sql.DB, error) {
connectionSlice := strings.Split(connectionString, "||")
if len(connectionSlice) != 3 {
return nil, fmt.Errorf("数据库连接配置不完整,当前的为:%s", connectionString)
}
// 建立数据库连接
db, err := sql.Open("mysql", connectionSlice[0])
if err != nil {
return nil, fmt.Errorf("打开游戏数据库失败,连接字符串为:%s", connectionString)
}
// 设置连接池相关
maxOpenConns_string := strings.Replace(connectionSlice[1], "MaxOpenConns=", "", 1)
maxOpenCons, err := strconv.Atoi(maxOpenConns_string)
if err != nil {
return nil, fmt.Errorf("MaxOpenConns必须为int型,连接字符串为:%s", connectionString)
}
maxIdleConns_string := strings.Replace(connectionSlice[2], "MaxIdleConns=", "", 1)
maxIdleConns, err := strconv.Atoi(maxIdleConns_string)
if err != nil {
return nil, fmt.Errorf("MaxIdleConns必须为int型,连接字符串为:%s", connectionString)
}
if maxOpenCons > 0 && maxIdleConns > 0 {
db.SetMaxOpenConns(maxOpenCons)
db.SetMaxIdleConns(maxIdleConns)
go func() {
// 处理内部未处理的异常,以免导致主线程退出,从而导致系统崩溃
defer func() {
if r := recover(); r != nil {
logUtil.LogUnknownError(r)
}
}()
for {
// 每分钟ping一次数据库
time.Sleep(time.Minute)
if err := db.Ping(); err != nil {
logUtil.Log(fmt.Sprintf("Ping数据库失败,连接字符串为:%s,错误信息为:%s", connectionString, err), logUtil.Error, true)
}
}
}()
}
if err := db.Ping(); err != nil {
return nil, fmt.Errorf("Ping数据库失败,连接字符串为:%s,错误信息为:%s", connectionString, err)
}
return db, nil
}
func handleConn(conn net.Conn) {
// 处理内部未处理的异常,以免导致主线程退出,从而导致系统崩溃
defer func() {
if r := recover(); r != nil {
logUtil.LogUnknownError(r)
}
}()
// 创建客户端对象
clientObj := NewClient(conn)
// 将客户端对象添加到客户端增加的channel中
registerClient(clientObj)
// 将客户端对象添加到客户端移除的channel中
defer func() {
unRegisterClient(clientObj)
}()
// 无限循环,不断地读取数据,解析数据,处理数据
for {
// 先读取数据,每次读取1024个字节
readBytes := make([]byte, 1024)
// Read方法会阻塞,所以不用考虑异步的方式
n, err := conn.Read(readBytes)
if err != nil {
var errMsg string
// 判断是连接关闭错误,还是普通错误
if err == io.EOF {
errMsg = fmt.Sprintf("另一端关闭了连接:%s", err)
} else {
errMsg = fmt.Sprintf("读取数据错误:%s", err)
}
logUtil.Log(errMsg, logUtil.Error, true)
break
}
// 将读取到的数据追加到已获得的数据的末尾
clientObj.AppendContent(readBytes[:n])
// 处理数据
handleClientContent(clientObj)
}
}
func handleChannel() {
// 处理内部未处理的异常,以免导致主线程退出,从而导致系统崩溃
defer func() {
if r := recover(); r != nil {
logUtil.LogUnknownError(r)
}
}()
for {
select {
case clientAndPlayerPairObj := <-clientAddChan:
addClient(clientAndPlayerPairObj.Client)
case clientAndPlayerPairObj := <-clientRemoveChan:
removeClient(clientAndPlayerPairObj.Client)
case clientAndPlayerPairObj := <-playerAddChan:
addPlayer(clientAndPlayerPairObj.Client, clientAndPlayerPairObj.Player)
case clientAndPlayerPairObj := <-playerRemoveChan:
removePlayer(clientAndPlayerPairObj.Client, clientAndPlayerPairObj.Player)
default:
// 休眠一下,防止CPU过高
time.Sleep(50 * time.Millisecond)
}
}
}
// 调用方法
// clientObj:客户端对象
// requestObj:请求对象
func callFunction(clientObj *Client, requestObj *RequestObject) {
responseObj := GetInitResponseObj()
// 处理内部未处理的异常,以免导致主线程退出,从而导致系统崩溃
defer func() {
if r := recover(); r != nil {
logUtil.LogUnknownError(r, requestObj.ModuleName, requestObj.MethodName)
// 并且发送一个数据异常的返回结果
ResponseResult(clientObj, requestObj, GetDataErrorReponseObj())
}
}()
// 根据传入的ModuleName和MethodName找到对应的方法对象
key := combineStructAndMethodName(constructFullModuleName(requestObj.ModuleName), constructFullMethodName(requestObj.MethodName))
var methodAndInOutTypes *MethodAndInOutTypes
var ok bool
if methodAndInOutTypes, ok = mMethodMap[key]; !ok {
logUtil.Log(fmt.Sprintf("找不到指定的方法:%s", key), logUtil.Error, true)
ResponseResult(clientObj, requestObj, getSystemResultStatusResponseObj(responseObj, NoTargetMethod))
return
}
// 判断参数数量是否相同
inTypesLength := len(methodAndInOutTypes.InTypes)
paramLength := len(requestObj.Parameters)
if paramLength != inTypesLength {
logUtil.Log(fmt.Sprintf("传入的参数数量不符,本地方法的参数数量:%d,传入的数量为:%d", inTypesLength, paramLength), logUtil.Error, true)
ResponseResult(clientObj, requestObj, getSystemResultStatusResponseObj(responseObj, ParamNotMatch))
return
}
// 构造参数
in := make([]reflect.Value, inTypesLength)
for i := 0; i < inTypesLength; i++ {
inTypeItem := methodAndInOutTypes.InTypes[i]
paramItem := requestObj.Parameters[i]
// 已支持类型:Client,IPlayer(非基本类型)
// 已支持类型:Bool,Int,Int8,Int16,Int32,Int64,Uint,Uint8,Uint16,Uint32,Uint64,Float32,Float64,String
// 已支持类型:以及上面所列出类型的Slice类型
// 未支持类型:Uintptr,Complex64,Complex128,Array,Chan,Func,Interface,Map,Ptr,Struct,UnsafePointer
// 由于byte与int8同义,rune与int32同义,所以并不需要单独处理
// 枚举参数的类型,并进行类型转换
switch inTypeItem.Kind() {
case reflect.Interface:
if param_player, ok := paramItem.(IPlayer); ok {
in[i] = reflect.ValueOf(param_player)
}
case reflect.Ptr:
if param_client, ok := paramItem.(*Client); ok {
in[i] = reflect.ValueOf(param_client)
}
case reflect.Bool:
if param_bool, ok := paramItem.(bool); ok {
in[i] = reflect.ValueOf(param_bool)
}
case reflect.Int:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(int(param_float64))
}
case reflect.Int8:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(int8(param_float64))
}
case reflect.Int16:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(int16(param_float64))
}
case reflect.Int32:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(int32(param_float64))
}
case reflect.Int64:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(int64(param_float64))
}
case reflect.Uint:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(uint(param_float64))
}
case reflect.Uint8:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(uint8(param_float64))
}
case reflect.Uint16:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(uint16(param_float64))
}
case reflect.Uint32:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(uint32(param_float64))
}
case reflect.Uint64:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(uint64(param_float64))
}
case reflect.Float32:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(float32(param_float64))
}
case reflect.Float64:
if param_float64, ok := paramItem.(float64); ok {
in[i] = reflect.ValueOf(param_float64)
}
case reflect.String:
if param_string, ok := paramItem.(string); ok {
in[i] = reflect.ValueOf(param_string)
}
case reflect.Slice:
// 如果是Slice类型,则需要对其中的项再次进行类型判断及类型转换
if param_interface, ok := paramItem.([]interface{}); ok {
switch inTypeItem.String() {
case "[]bool":
params_inner := make([]bool, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_bool, ok := param_interface[i].(bool); ok {
params_inner[i] = param_bool
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]int":
params_inner := make([]int, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = int(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]int8":
params_inner := make([]int8, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = int8(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]int16":
params_inner := make([]int16, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = int16(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]int32":
params_inner := make([]int32, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = int32(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]int64":
params_inner := make([]int64, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = int64(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]uint":
params_inner := make([]uint, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = uint(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
// case "[]uint8": 特殊处理
case "[]uint16":
params_inner := make([]uint16, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = uint16(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]uint32":
params_inner := make([]uint32, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = uint32(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]uint64":
params_inner := make([]uint64, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = uint64(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]float32":
params_inner := make([]float32, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = float32(param_float64)
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]float64":
params_inner := make([]float64, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_float64, ok := param_interface[i].(float64); ok {
params_inner[i] = param_float64
}
}
in[i] = reflect.ValueOf(params_inner)
case "[]string":
params_inner := make([]string, len(param_interface))
for i := 0; i < len(param_interface); i++ {
if param_string, ok := param_interface[i].(string); ok {
params_inner[i] = param_string
}
}
in[i] = reflect.ValueOf(params_inner)
}
} else if inTypeItem.String() == "[]uint8" { // 由于[]uint8在传输过程中会被转化成字符串,所以单独处理;
if param_string, ok := paramItem.(string); ok {
param_uint8 := ([]uint8)(param_string)
in[i] = reflect.ValueOf(param_uint8)
}
}
}
}
// 传入参数,调用方法
out := methodAndInOutTypes.Method.Call(in)
// 并输出结果到客户端(由于只有一个返回值,所以取out[0])
ResponseResult(clientObj, requestObj, (&out[0]).Interface())
}