一個封裝好的使用完成埠的socket通訊類
阿新 • • 發佈:2019-02-10
//*********************************************************************************** //檔案說明:TSocket.h //功能: 檔案傳輸客戶端實現標頭檔案 //使用說明:使用TCP的IOCP實現,可以傳送大訊息包、檔案,同一客戶端可以同時傳送多個檔案 // 1、用TClients建立一個物件,pClients // 2、呼叫pClients->CreateClient(...)函式,引數1、2是要連線的服務端IP和埠, // 3服務端返回訊息的事件回撥處理函式,4是服務端斷開連線的事件回撥處理函式 // 3、呼叫pClients->SendMsg(...)給對端發訊息 // 4、呼叫pClients->SendFile(...)給對端發文件 // 5、呼叫pClients->Disconnet(...)主動斷開連線 // 6、銷燬pClients物件 //時間: 2010.5.1 23:13:56 //作者: 廢人 //留待實現: // bool SendFileToAll(const char * filename); // bool SendFileToServers(SOCKETS sClients,const char * filename); // bool SendFileToOther(SOCKET ExceptSocket,char * pData,ULONG Length); // bool SendMsgToAll(char * pData,ULONG Length); // bool SendMsgToServers(SOCKETS sClients,char * pData,ULONG Length); // bool SendMsgToOther(SOCKET ExceptSocket,char * pData,ULONG Length); //*********************************************************************************** #if !defined(AFX_TSOCKET_H__46FFF420_23C3_4356_A88D_AEBDA61EA186__INCLUDED_) #define AFX_TSOCKET_H__46FFF420_23C3_4356_A88D_AEBDA61EA186__INCLUDED_ #if _MSC_VER > 1000 #pragma once #endif // _MSC_VER > 1000 #include <list> #include <afxtempl.h> #include <winsock2.h> #include <vector> #include <queue> #include <string> #include <algorithm> #include <map> #pragma comment(lib,"ws2_32.lib") using namespace std; #pragma warning(disable:4786) //服務埠 #define SVRPORT 10012 //緩衝區大小 #define BUFFER_SIZE 4096 //接收資料 #define RECV_POSTED 0 //傳送資料 #define SEND_POSTED 1 class TClient; class TClients; struct TPack; //單控制代碼資料 typedef struct _PER_HANDLE_DATA { TClient *client; }PER_HANDLE_DATA,*LPPER_HANDLE_DATA; //IO操作資料 typedef struct _PER_IO_OPERATION_DATA { //重疊結構 OVERLAPPED OverLapped; //資料緩衝區 WSABUF RecvDataBuf; WSABUF SendDataBuf; char RecvBuf[BUFFER_SIZE]; char SendBuf[BUFFER_SIZE]; //操作型別表示 bool OperType; }PER_IO_OPERATION_DATA,*PPER_IO_OPERATION_DATA; typedef map<SOCKET,TClient*> TSortClients; //排序的客戶端 typedef map<ULONG,TPack *> TPacks; //有些資料包需要重組才能合成大資料包回撥ProcessRecvData函式,佔時儲存結構 typedef vector<SOCKET> SOCKETS; //回撥處理資料函式原型 typedef void __stdcall ProcessRecvData(char * pData,ULONG DataLength); typedef void __stdcall ProcessPeerClose(); typedef void __stdcall ProcessFileTransfer(char *filename,double speed); DWORD WINAPI ServerWorkerProc(LPVOID lParam); //工作執行緒 DWORD WINAPI ListenProc(LPVOID lParam); ULONG ULSize=sizeof(ULONG); ULONG cSize=sizeof(char); class TData { public: char *data; ULONG totalLen; char *Cur; void AddType(char type); void AddInt(ULONG len); void AddData(char *buf,ULONG len); char GetType(); ULONG GetInt(); char* GetData(ULONG &retlen); }; struct TPack { char *data; char *CurPack; ULONG totalLen; void clear() { CurPack=data; totalLen=0; } void AddData(char*d,ULONG len) { memcpy(CurPack,d,len); CurPack+=len; totalLen+=len; } }; struct TDataMod //用於傳輸的模型,用malloc和free,大小不超過BUFFER_SIZE { char type; //0單獨資料包,1連續訊息資料包頭,2檔案資料包頭,3連續包的訊息體,4檔案包的訊息體,5是否需要銷燬本指標 ULONG Len; ULONG Channel; char data; //1、連續訊息第一個包的 Len是長度,Channel是Send的傳輸號,以後Len就是Send的傳輸號 //2、檔案訊息第一個包的 Len是長度,Channel是Send的傳輸號,以後Len就是Send的傳輸號 //3、單獨包是隻有Len長度,Index是資料內容 }; struct TFileDataHead { char type; ULONG Channel; TCHAR szFileTitle[128]; //檔案的標題名 DWORD dwFileAttributes; //檔案的屬性 FILETIME ftCreationTime; //檔案的建立時間 FILETIME ftLastAccessTime; //檔案的最後訪問時間 FILETIME ftLastWriteTime; //檔案的最後修改時間 DWORD nFileSizeHigh; //檔案大小的高位雙字 DWORD nFileSizeLow; //檔案大小的低位雙字 DWORD dwReserved0; //保留,為0 DWORD dwReserved1; //保留,為0 TCHAR cAlternateFileName; TCHAR cFileName; }; //訊息包的型別: //1、單獨資料包(TData),type==0,Len為長度,data開始儲存的是資料 (MinDataLen) //2、連續訊息資料包頭,type==1,Len為訊息體總長度,Channel是當前通道號,data資訊資料(MinDataHeadLen) //3、連續訊息中間資料包,type==3,Len為Channel號,data資訊資料(MinDataLen) //4、檔案頭TFileDataHead,type==2 //5、檔案中間資料包,type==4,Len為Channel號,data資訊資料(MinDataLen) ULONG MinDataLen=ULSize+cSize; ULONG MinDataHeadLen=MinDataLen+ULSize; ULONG MinFileHeadLen=sizeof(TFileDataHead); class TClient //用於中間實現的類,不能直接使用 { public: TClient(); ~TClient(); void OnReceive(char *data,ULONG len);//data是一個全域性指標 private: void clear(); ProcessPeerClose *m_pfPeerClose; //客戶端訊息回撥函式 ProcessRecvData *m_pfRecvData; //本端管理者指標 TClients *m_ClientManager; //臨時存放分塊資料包進行組裝 TPacks m_Receivepacks; //本端的SOCKET號 SOCKET m_Sock; //對端的IP char m_RemoteIP[16]; //對端的埠 ULONG m_RemotePort; //臨時存放不足一幀的資料 TPack m_tempDta; friend DWORD WINAPI ServerWorkerProc(LPVOID lParam); friend class TClients; }; class TClients //外部介面類,可以用其公有方法介面 { public: TClients(LPCTSTR strLogPath="TClientsLog.log"); ~TClients(); SOCKET CreateClient(const char *pSerIp,ULONG iSvrPort=SVRPORT, ProcessRecvData* OnProcessRecvData=NULL,ProcessPeerClose* OnProcessPeerClose=NULL); bool Disconnet(SOCKET sClient); bool DisconnetAll(); bool SendMsg(SOCKET sClient,char * pData,ULONG Length); bool SendFile(SOCKET sClient,const char * filename,ProcessFileTransfer *OnFileTrans=NULL){return true;} bool GetRemoteAddress(SOCKET sClient,char * IP,ULONG &port); bool GetLocalIP(char *&IP); private: //完成控制代碼 HANDLE CompletionPort; //客戶資訊臨界保護量 CRITICAL_SECTION cClientSection; //當前傳送的通道號 ULONG Channel; //客戶資訊列表 TSortClients m_clients; //寫日誌檔案 char m_LogPath[MAX_PATH]; void WriteLogString(const char *format,...); void InitNetWork(); void UnInit(); private: friend class TClient; friend DWORD WINAPI ServerWorkerProc(LPVOID lParam); }; #endif // !defined(AFX_TSOCKET_H__46FFF420_23C3_4356_A88D_AEBDA61EA186__INCLUDED_)
//***********************************************************************************
//檔案說明:TSocket.cpp
//功能: 檔案傳輸客戶端實現標頭檔案
//使用說明:使用TCP的IOCP實現,可以傳送大訊息包、檔案,執行緒安全同一客戶端可以同時傳送訊息、檔案
// 1、用TClients建立一個物件,pClients
// 2、呼叫pClients->CreateClient(...)函式,引數1、2是要連線的服務端IP和埠,
// 3服務端返回訊息的事件回撥處理函式,4是服務端斷開連線的事件回撥處理函式
// 3、呼叫pClients->SendMsg(...)給對端發訊息
// 4、呼叫pClients->SendFile(...)給對端發文件
// 5、呼叫pClients->Disconnet(...)主動斷開連線
// 6、銷燬pClients物件
//時間: 2010.5.1 23:13:56
//作者: 廢人
//***********************************************************************************
#include "stdafx.h"
#include "TSocket.h"
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#define new DEBUG_NEW
#endif
#pragma warning(disable:4800)
DWORD WINAPI ServerWorkerProc(LPVOID lParam)
{
TClients* clientManager=(TClients*)lParam;
HANDLE CompletionPort=clientManager->CompletionPort;
DWORD ByteTransferred;
LPPER_HANDLE_DATA PerHandleData;
PPER_IO_OPERATION_DATA PerIoData;
DWORD RecvByte;
while(true)
{
bool bSuccess=GetQueuedCompletionStatus(CompletionPort,
&ByteTransferred,
(LPDWORD)&PerHandleData,
(LPOVERLAPPED* )&PerIoData,
INFINITE);
//退出訊號到達,退出執行緒
if(ByteTransferred==-1 && PerIoData==NULL)
{
return 1L;
}
//客戶機已經斷開連線或者連接出現錯誤
if(ByteTransferred==0 && (PerIoData->OperType==RECV_POSTED || PerIoData->OperType==SEND_POSTED))
{
//將該客戶端資料刪除
::EnterCriticalSection(&clientManager->cClientSection);
clientManager->m_clients.erase(PerHandleData->client->m_Sock);
::LeaveCriticalSection(&clientManager->cClientSection);
//記錄退出日誌
clientManager->WriteLogString("Ip: %s,port:%d,Socket : %d Disconneted",PerHandleData->client->m_RemoteIP,
PerHandleData->client->m_RemotePort,PerHandleData->client->m_Sock);
TRACE("\nSocket : %d Disconneted",PerHandleData->client->m_Sock);
//呼叫回撥函式,通知上層該客戶端已經斷開
PerHandleData->client->OnReceive(NULL,0);
//關閉套介面
closesocket(PerHandleData->client->m_Sock);
GlobalFree(PerHandleData);
GlobalFree(PerIoData);
continue;
}
//為讀操作完成,處理資料
if(PerIoData->OperType==RECV_POSTED)
{
//呼叫回撥函式,處理資料
PerHandleData->client->OnReceive(PerIoData->RecvBuf,ByteTransferred);
//將源資料置空
memset(PerIoData->RecvBuf,0,BUFFER_SIZE);
ByteTransferred=0;
//重置IO操作資料
unsigned long Flag=0;
ZeroMemory(&(PerIoData->OverLapped),sizeof(OVERLAPPED));
PerIoData->RecvDataBuf.buf=PerIoData->RecvBuf;
PerIoData->RecvDataBuf.len=BUFFER_SIZE;
PerIoData->OperType=RECV_POSTED;
//提交另一個Recv請求
WSARecv(PerHandleData->client->m_Sock,&(PerIoData->RecvDataBuf),1,&RecvByte,&Flag,&(PerIoData->OverLapped),NULL);
}
//傳送完成,置空緩衝區,釋放緩衝區
if(PerIoData->OperType==SEND_POSTED)
{
memset(PerIoData,0,sizeof(PER_IO_OPERATION_DATA));
GlobalFree(PerIoData);
ByteTransferred=0;
}
}
return 0L;
}
TClients::TClients(LPCTSTR strLogPath)
{
if (NULL==strLogPath||strlen(strLogPath)>=MAX_PATH)
{
strcpy(m_LogPath,"TClientsLog.log");
}else
{
strcpy(m_LogPath,strLogPath);
}
InitNetWork();
}
TClients::~TClients()
{
UnInit();
}
void TClients::UnInit()
{
//1、關閉所有連線
DisconnetAll();
//2、退出工作執行緒
SYSTEM_INFO sys_Info;
GetSystemInfo(&sys_Info);
for(int i=0;i<sys_Info.dwNumberOfProcessors*2+2;i++)
{
//寄出退出訊息
PostQueuedCompletionStatus(CompletionPort,-1,-1,NULL);
}
//3、刪除所有的物件
for (TSortClients::iterator it=m_clients.begin();it!=m_clients.end();it++)
{
delete it->second;
}
DeleteCriticalSection(&cClientSection);
}
void TClients::InitNetWork()
{
WSADATA wsaData;
//1、Net Start Up
WSAStartup(MAKEWORD(0x02,0x02),&wsaData);
if(WSAStartup(MAKEWORD(0x02,0x02),&wsaData)!=0)WriteLogString("WSAStartUp Faild With Error: %d",WSAGetLastError());
//2、建立完成埠
CompletionPort=CreateIoCompletionPort(INVALID_HANDLE_VALUE,NULL,0,0);
if(CompletionPort==INVALID_HANDLE_VALUE)
{
WriteLogString("CreateIoCompletionPort faild with Error: %d",GetLastError());
return;
}
//3、建立工作執行緒池
SYSTEM_INFO sys_Info;
GetSystemInfo(&sys_Info);
for(int i=0;i<sys_Info.dwNumberOfProcessors*2+2;i++)
{
HANDLE ThreadHandle;
DWORD ThreadID;
ThreadHandle=CreateThread(NULL,0,ServerWorkerProc,this,0,&ThreadID);
if(ThreadHandle==NULL)
{
WriteLogString("Create Server Work Thread faild with Error: %d",WSAGetLastError());
return ;
}
CloseHandle(ThreadHandle);
}
InitializeCriticalSection(&cClientSection);
}
bool TClients::GetRemoteAddress(SOCKET sClient,char * IP,ULONG &port)
{
TClient *client=NULL;
EnterCriticalSection(&cClientSection);
TSortClients::iterator it=m_clients.find(sClient);
if (it!=m_clients.end())
{
client=it->second;
}
LeaveCriticalSection(&cClientSection);
if (!client)return false;
strcpy(IP,client->m_RemoteIP);
port=client->m_RemotePort;
return true;
}
bool TClients::GetLocalIP(char *&IP)
{
char Name[100];
hostent *pHostEntry;
in_addr rAddr;
if( 0 == gethostname ( Name, 100 ) )
{
pHostEntry = gethostbyname( Name );
if( pHostEntry != NULL )
{
memcpy( &rAddr, pHostEntry->h_addr_list[0], sizeof(struct in_addr) );
sprintf(IP,"%s",inet_ntoa( rAddr ));
return true;
}
else
{
WriteLogString("GetHostIp faild with Error: %d",WSAGetLastError());
}
}
return false;
}
SOCKET TClients::CreateClient(const char *pSerIp,ULONG iSvrPort,
ProcessRecvData* OnProcessRecvData,ProcessPeerClose* OnProcessPeerClose)
{
int Error=0;
//Socket Create
SOCKET sock;
if((sock=WSASocket(AF_INET,SOCK_STREAM,0,NULL,0,WSA_FLAG_OVERLAPPED))==INVALID_SOCKET)
{
Error = WSAGetLastError();
WriteLogString("WSASocket Faild With Error: %d",Error);
return INVALID_SOCKET;
}
struct sockaddr_in inAddr;
inAddr.sin_family=AF_INET;
inAddr.sin_port=htons(iSvrPort);
inAddr.sin_addr.S_un.S_addr=inet_addr(pSerIp);
if (connect(sock,(PSOCKADDR)&inAddr,sizeof(inAddr))==SOCKET_ERROR )
{
Error=WSAGetLastError();
WriteLogString("connect Server Socket Faild :%d",Error);
return INVALID_SOCKET;
}
TClient *client=new TClient;
client->m_ClientManager=this;
client->m_pfPeerClose=OnProcessPeerClose;
client->m_pfRecvData=OnProcessRecvData;
strcpy(client->m_RemoteIP,pSerIp);
client->m_RemotePort=iSvrPort;
client->m_Sock=sock;
//申請新的控制代碼操作資料
LPPER_HANDLE_DATA PerHandleData=(LPPER_HANDLE_DATA) GlobalAlloc(GPTR,sizeof(PER_HANDLE_DATA));
//控制代碼資料
PerHandleData->client=client;
//儲存客戶資訊
::EnterCriticalSection(&cClientSection);
m_clients[sock]=client;
::LeaveCriticalSection(&cClientSection);
//轉儲資訊
WriteLogString("Ip: %s,port:%d,Socket : %d Conneted",client->m_RemoteIP,client->m_RemotePort,client->m_Sock);
//關聯客戶埠到完成埠,控制代碼資料在此時被繫結到完成埠
CreateIoCompletionPort((HANDLE)sock,CompletionPort,(DWORD)PerHandleData,0);
//Io操作資料標誌
PPER_IO_OPERATION_DATA PerIoData=(PPER_IO_OPERATION_DATA) GlobalAlloc(GPTR,sizeof(PER_IO_OPERATION_DATA));
unsigned long Flag=0;
DWORD RecvByte;
ZeroMemory(&(PerIoData->OverLapped),sizeof(OVERLAPPED));
PerIoData->RecvDataBuf.buf=PerIoData->RecvBuf;
PerIoData->RecvDataBuf.len=BUFFER_SIZE;
PerIoData->OperType=RECV_POSTED;
//提交首個接收資料請求
//這時
//如果客戶端斷開連線
//則也可以以接收資料時得到通知
WSARecv(sock,&(PerIoData->RecvDataBuf),1,&RecvByte,&Flag,&(PerIoData->OverLapped),NULL);
return sock;
}
void TClients::WriteLogString(const char *format,...)
{
char buf[1025]={0};
try
{
SYSTEMTIME sysTm;
::GetLocalTime(&sysTm);
sprintf(buf,"%d-%d-%d %d:%d:%d:%3d\t%s\n",sysTm.wYear,sysTm.wMonth,sysTm.wDay,sysTm.wHour,
sysTm.wMinute,sysTm.wSecond,sysTm.wMilliseconds,buf);
int len=strlen(buf);
va_list arg;
va_start(arg,format);
_vsntprintf(buf+len,1024-len, format,arg);
va_end(arg);
FILE *fp=fopen(m_LogPath,"a");
if (!fp)return;
fwrite(buf,strlen(buf),1,fp);
fclose(fp);
}
catch (...)
{
}
}
bool TClients::Disconnet(SOCKET sClient)
{
TClient *client=NULL;
::EnterCriticalSection(&cClientSection);
TSortClients::iterator it=m_clients.find(sClient);
if (it!=m_clients.end())
{
client=it->second;
m_clients.erase(sClient);
}
::LeaveCriticalSection(&cClientSection);
if (client)
{
delete client;
shutdown(sClient,1);
return closesocket(sClient)==SOCKET_ERROR?false:true;
}
return false;
}
bool TClients::DisconnetAll()
{
::EnterCriticalSection(&cClientSection);
for (TSortClients::iterator it=m_clients.begin();it!=m_clients.end();it++)
{
shutdown(it->first,1);
closesocket(it->first);
delete it->second;
}
m_clients.clear();
::LeaveCriticalSection(&cClientSection);
return true;
}
bool TClients::SendMsg(SOCKET sClient,char * pData,ULONG Length)
{
if (sClient==INVALID_SOCKET||pData==NULL||Length==0)return false;
int head=0;
ULONG packlen=BUFFER_SIZE-MinDataLen;
if (Length>packlen)//需要分包
{
head=1;
}
//申請操作鍵
PPER_IO_OPERATION_DATA PerIoData;
ULONG left=Length;
TData dat;
while (left>0)
{
PerIoData=(PPER_IO_OPERATION_DATA)GlobalAlloc(GPTR,sizeof(PER_IO_OPERATION_DATA));
//準備緩衝
unsigned long Flag=0;
DWORD SendByte;
ZeroMemory(&(PerIoData->OverLapped),sizeof(OVERLAPPED));
dat.data=PerIoData->SendBuf;
if (0==head)
{
dat.AddType(0);
dat.AddInt(Length);
dat.AddData(pData,Length);
left=0;
}else if(1==head)
{
dat.AddType(1);
dat.AddInt(Length);
if (0==++Channel)Channel=1;
dat.AddInt(Channel);
dat.AddData(pData,BUFFER_SIZE-MinFileHeadLen);
pData+=BUFFER_SIZE-MinFileHeadLen;
head=2;
left=Length-packlen;
}else
{
dat.AddType(3);
dat.AddInt(Channel);
if (left>packlen)
{
dat.AddData(pData,packlen);
left-=packlen;
}else
{
dat.AddData(pData,left);
left=0;
}
}
PerIoData->SendDataBuf.buf=dat.data;
PerIoData->SendDataBuf.len=dat.totalLen;
PerIoData->OperType=SEND_POSTED;
int bRet=WSASend(sClient,&(PerIoData->SendDataBuf),1,&SendByte,Flag,&(PerIoData->OverLapped),NULL);
if(bRet==SOCKET_ERROR && GetLastError()!=WSA_IO_PENDING)
{
WriteLogString("WSASend With Error : %d",GetLastError());
return false;
}
}
return true;
}
/************************************************************************************************************/
/************************************************************************************************************/
TClient::TClient()
{
m_tempDta.data=new char[2*BUFFER_SIZE];
m_tempDta.CurPack=m_tempDta.data;
m_tempDta.totalLen=0;
}
TClient::~TClient()
{
clear();
delete[] m_tempDta.data;
}
void TClient::clear()
{
for (TPacks::iterator it=m_Receivepacks.begin();it!=m_Receivepacks.end();it++)
{
delete[] it->second->data;
delete it->second;
}
}
void TClient::OnReceive(char *data,ULONG len)//data是一個全域性指標
{
//1、已經斷開連線
if (0==len&&m_pfPeerClose)
{
m_pfPeerClose();
clear();
return;
}
//2、先處理以前遺留的資料,有資料就合起來
lb1: if(m_tempDta.totalLen==0)//上面沒有遺留資料,不用拷貝直接使用data指標
{
if (len<=MinDataLen)//兩個資料包相加都不滿足最小需求,繼續等待
{
m_tempDta.AddData(data,len);
return;
}
TData dat;
dat.data=data;
dat.totalLen=len;
char type=dat.GetType();
ULONG ilen=dat.GetInt();
switch(type)
{
case 1:
{
ULONG Channel=dat.GetInt();
if (0==Channel||len!=BUFFER_SIZE)//不足一幀,交由m_tempDta去等待
{
m_tempDta.AddData(data,len);
return;
}
TPack *pack=new TPack;
pack->data=new char[ilen];
pack->CurPack=pack->data;
pack->totalLen=ilen;
pack->AddData(data+MinDataHeadLen,len-MinDataHeadLen);
m_Receivepacks[Channel]=pack;
break;
}
case 2:
{
break;
}
case 3:
{
TPack *pack=m_Receivepacks[ilen];
ULONG curlen=pack->CurPack-pack->data;
if (pack->totalLen==len-MinDataLen+curlen)//已經完成了資料包的接收
{
pack->AddData(data+MinDataHeadLen,len-MinDataHeadLen);
m_pfRecvData(pack->data,pack->totalLen);
delete[] pack->data;
delete pack;
m_Receivepacks.erase(ilen);
}else if (pack->totalLen>len-MinDataLen+curlen)
{
if (len!=BUFFER_SIZE)//不滿一幀,交由m_tempDta繼續等待
{
m_tempDta.AddData(data,len);
}else //滿一幀,直接加入快取
{
pack->AddData(data+MinDataHeadLen,len-MinDataHeadLen);
}
}else //已經滿一幀,並附帶了多餘的其他幀
{
pack->AddData(data+MinDataHeadLen,pack->totalLen-curlen);
m_pfRecvData(pack->data,pack->totalLen);
ULONG tlen=MinDataHeadLen+pack->totalLen-curlen;
data+=tlen;
len-=tlen;
delete[] pack->data;
delete pack;
m_Receivepacks.erase(ilen);
goto lb1;//重新計算
}
break;
}
case 4:
{
break;
}
default:
{
ULONG tlen=MinDataLen+ilen;
if (tlen==len)
{
m_pfRecvData(dat.Cur,ilen);
}else if (tlen>len)
{
m_tempDta.AddData(data,len);
}else
{
m_pfRecvData(dat.Cur,ilen);
data+=tlen;
len-=tlen;
goto lb1;//重新計算
}
break;
}
}
}else //上面有遺留資料,
{
m_tempDta.AddData(data,len);
lb2: if (m_tempDta.totalLen<=MinDataLen)return;//兩個資料包相加都不滿足最小需求,繼續等待
TData dat;
dat.data=m_tempDta.data;
dat.totalLen=m_tempDta.totalLen;
char type=dat.GetType();
ULONG ilen=dat.GetInt();
switch(type)
{
case 1:
{
ULONG Channel=dat.GetInt();
if (0==Channel||m_tempDta.totalLen<BUFFER_SIZE)//一幀都不夠,繼續等待
{
return;
}
TPack *pack=new TPack;
pack->data=new char[ilen];
pack->CurPack=pack->data;
pack->totalLen=ilen;
pack->AddData(m_tempDta.data+MinDataHeadLen,BUFFER_SIZE-MinDataHeadLen);
m_Receivepacks[Channel]=pack;
if (m_tempDta.totalLen==BUFFER_SIZE)
{
m_tempDta.clear();
}else
{
memcpy(m_tempDta.data,m_tempDta.data+BUFFER_SIZE,m_tempDta.totalLen-BUFFER_SIZE);
m_tempDta.totalLen-=BUFFER_SIZE;
goto lb2;//重新計算
}
break;
}
case 2:
{
break;
}
case 3:
{
TPack *pack=m_Receivepacks[ilen];
ULONG curlen=pack->CurPack-pack->data;
if (pack->totalLen==dat.totalLen-MinDataLen+curlen)//已經完成了資料包的接收
{
pack->AddData(dat.data+MinDataHeadLen,dat.totalLen-MinDataHeadLen);
m_pfRecvData(pack->data,pack->totalLen);
delete[] pack->data;
delete pack;
m_Receivepacks.erase(ilen);
}else if (pack->totalLen>len-MinDataLen+curlen)
{
if (dat.totalLen==BUFFER_SIZE)//不滿一幀,繼續等待
{
pack->AddData(dat.data+MinDataHeadLen,len-MinDataHeadLen);
m_tempDta.AddData(dat.data,dat.totalLen);
}else if(dat.totalLen>BUFFER_SIZE) //滿一幀,直接加入快取
{
pack->AddData(dat.data+MinDataHeadLen,BUFFER_SIZE-MinDataHeadLen);
memcpy(m_tempDta.data,dat.data+BUFFER_SIZE,dat.totalLen-BUFFER_SIZE);
m_tempDta.totalLen-=BUFFER_SIZE;
goto lb2;
}
}else
{
pack->AddData(dat.data+MinDataHeadLen,pack->totalLen-curlen);
m_pfRecvData(pack->data,pack->totalLen);
ULONG tlen=MinDataHeadLen+pack->totalLen-curlen;
memcpy(m_tempDta.data,dat.data+tlen,dat.totalLen-tlen);
data+=tlen;
m_tempDta.totalLen-=tlen;
delete[] pack->data;
delete pack;
m_Receivepacks.erase(ilen);
goto lb2;//重新計算
}
break;
}
case 4:
{
break;
}
default:
{
ULONG tlen=MinDataLen+ilen;
if (tlen==m_tempDta.totalLen)
{
m_pfRecvData(dat.Cur,ilen);
m_tempDta.clear();
}else if (tlen<m_tempDta.totalLen)
{
m_pfRecvData(dat.Cur,ilen);
memcpy(m_tempDta.data,dat.Cur+ilen,m_tempDta.totalLen-tlen);
m_tempDta.totalLen-=tlen;
goto lb2;//重新計算
}
break;
}
}
}
}
void TData::AddType(char type)
{
totalLen=cSize;
memcpy(data,&type,totalLen);
}
void TData::AddInt(ULONG len)
{
memcpy(data+totalLen,&len,ULSize);
totalLen+=ULSize;
}
void TData::AddData(char *buf,ULONG len)
{
int clen=len+totalLen>BUFFER_SIZE?BUFFER_SIZE-len:len;
memcpy(data+totalLen,buf,clen);
totalLen+=clen;
}
char TData::GetType()
{
char type;
memcpy(&type,data,cSize);
Cur=data+cSize;
return type;
}
ULONG TData::GetInt()
{
if (Cur-data+ULSize>totalLen)return 0;
ULONG l;
memcpy(&l,Cur,ULSize);
Cur+=ULSize;
return l;
}
char* TData::GetData(ULONG &retlen)
{
retlen=totalLen-(ULONG)(Cur-data);
return Cur;
}