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分享Socket服务端接收数据的处理,求指导~~~~!
大概的内容需求:服务端是有多个客户端连接,其中一个客户端A会一直主动发数据,其他的是在服务端发送指令后才回数据。所以,我需要建个线程处理A客户端发送的数据。
接收函数现在如下:
然后线程函数:
我的问题: 该向线程传递什么参数比较合适??socket?还是接收到的ndata数组?然后线程里面的处理。。。。求知道的大神指导~~~~!不胜感激。
接收函数现在如下:
void CPaneClient::OnReceive(int nErrorCode) //接收和解析客户端协议
{
// TODO: 在此添加专用代码和/或调用基类
int ncmd = 0;
CPaneClient* pSock = new CPaneClient;
//byte ndata[700]={0};
//Sleep(100);
//if((paramdata.IsLiBed && theApp.Bedsocket !=this) || !paramdata.IsLiBed)
nLen = Receive(&ndata,sizeof(ndata)-1);
if(nLen<=0)
return;
byte SendTemp_R[12]={0}; //保存外罩返回的温度,发给理疗床
byte SendTemp_L[12]={0}; //保存只有左外罩返回的温度,发给理疗床
//m_dlg = (CServerDlg*)GetParent();
for(int i=0;i<nLen;i++)
{
if(ndata[i] == 0xff && ndata[i+1] == 0xaa)
{
if(ndata[i+2] == 0x01) //理疗床
{
//theApp.m_IDlist[0].AddTail(this);
theApp.Bedsocket = this;
paramdata.IsLiBed = true;
// if(ndata[i+4] == 0x11) //接收到数据
{
if(nLen > 5)
{
//CServerDlg *pDlg = (CServerDlg*)AfxGetMainWnd();
//pDlg->Receive(ndata);
//AfxBeginThread(pDlg->Receive,(LPVOID)ndata);
// SOCKET hSocket = this->Detach(); //此处想建一个线程处理对应客户端的数据
LPVOID p[2];
// p[0] = ndata;
// p[1] = nLen;
//DWORD *pParam2 =new DWORD[2];//保存线程所需要的2个参数
CreateThread(NULL,0,HData,LPVOID(ndata),0,0); //
// this->Attach(hSocket);
break;
}
//m_pDlg->onReceive(this);
}
/* if(ndata[i+4] == 0x12 && (i+9) < nLen) // 接收到温度
{
int TmpValue;
TmpValue = ndata[i+6] | (ndata[i+7] << 8 ); //腔内最高温度
paramdata.MaxTmp = double(TmpValue) * 0.01;
TmpValue = ndata[i+8] | (ndata[i+9] << 8 ); //腔内平均温度
paramdata.AvgTmp = double(TmpValue) * 0.01;
} */
}
if(ndata[i+2] == 0x02) //推杆
{
theApp.Tuisocket = this;
paramdata.IsTuiGan = true;
}
if(ndata[i+2] == 0x03) //左外罩
{
theApp.LZhaosocket = this;
paramdata.IsLeZhao = true;
if(ndata[i+4] == 0x38) //收到主动返回的左外罩状态
{
if(ndata[i+6] == 0x00) //外罩为开状态
paramdata.LZhaoIsOpen = true;
else
paramdata.LZhaoIsOpen = false;
SendToLZ();
}
if(ndata[i+4] == 0x3a && (i+9) < nLen) //收到返回的温度值
{
LZtemp = true;
int TmpValue;
TmpValue = ndata[i+6] | (ndata[i+7] << 8 );
paramdata.LZ_FeK = double(TmpValue) * 0.01;
TmpValue = ndata[i+8] | (ndata[i+9] << 8 );
paramdata.LZ_ReS = double(TmpValue) * 0.01;
SendTemp_L[6] = ndata[i+6]; SendTemp_L[7] = ndata[i+7];
SendTemp_L[8] = ndata[i+8]; SendTemp_L[9] = ndata[i+9];
i+=11;
}
}
if(ndata[i+2] == 0x04) //右外罩
{
theApp.RZhaosocket = this;
paramdata.IsRiZhao = true;
if(ndata[i+4] == 0x48) //收到主动返回的右外罩状态
{
if(ndata[i+6] == 0x00) //外罩为开状态
paramdata.RZhaoIsOpen = true;
else
paramdata.RZhaoIsOpen = false;
SendToRZ();
}
if(ndata[i+4] == 0x4a && (i+9) < nLen) //收到返回的温度值
{
int TmpValue;
RZtemp = true;
TmpValue = ndata[i+6] | (ndata[i+7] << 8 );
paramdata.RZ_FeK = double(TmpValue) * 0.01;
TmpValue = ndata[i+8] | (ndata[i+9] << 8 );
paramdata.RZ_ReS = double(TmpValue) * 0.01;
SendTemp_R[6] = ndata[i+6]; SendTemp_R[7] = ndata[i+7];
SendTemp_R[8] = ndata[i+8]; SendTemp_R[9] = ndata[i+9];
i+=11;
}
}
}
CSocket::OnReceive(nErrorCode);
}
然后线程函数:
DWORD WINAPI CPaneClient::HData(LPVOID lpParam)
{
byte *ndata = new byte;
CPaneClient sock;
ndata = (byte*)lpParam; //线程里面处理,不知该传啥值过来?直接传ndata ?如果传socket会出现两线程之间变量冲突问题
// CPaneClient *pThis = new CPaneClient;
// pThis->Attach((SOCKET)lpParam); //(SOCKET)
int nLen=500;
int k=0;
//while(1)
{
// nLen = pThis->Receive(&ndata,sizeof(ndata)-1);
// if(nLen>0)
{
// byte nData[700] = (byte)pParam;
for(k=0; k<nLen; k++)
{
if(ndata[k] == 0xff && ndata[k+1] == 0xaa && ndata[k+2] == 0x01 && ndata[k+3] == 0x00 && ndata[k+4] == 0x11)
k +=5;
if(ndata[k] == 0xff && ndata[k+1] == 0xff && ndata[k+2] == 0xff)
break;
if(ndata[k] == 0xcc && ndata[k+1] == 0xcc && ndata[k+2] == 0xcc)
break;
if(ndata[k]==0xff && ndata[k+1] == 0xaa && ndata[k+2] == 0x01 && ndata[k+3] == 0x00 && ndata[k+4] == 0x12 ) // 接收到温度
{
int TmpValue;
TmpValue = ndata[k+6] | (ndata[k+7] << 8 ); //腔内最高温度
paramdata.MaxTmp = double(TmpValue) * 0.01;
TmpValue = ndata[k+8] | (ndata[k+9] << 8 ); //腔内平均温度
paramdata.AvgTmp = double(TmpValue) * 0.01;
k+=11;
}
if((ndata[k] == 0xff) && (ndata[k+1] != 0xaa && ndata[k+1] != 0xff && ndata[k+1] != 0x01 && ndata[k+1] != 0x00) &&
(ndata[k+2] != 0x01 && ndata[k+2] != 0xaa && ndata[k+2] != 0xff) && ((k+7) < nLen))
{
if((ndata[k+1] & 0x0f) == 0 ) //保证血氧探头连接
{
if(ndata[k+6] != 204 && ndata[k+6] != 0xff && ndata[k+6] != 0x01 && ndata[k+6] != 0x11)
paramdata.nvHeartbeat = ndata[k+6]; //获取心率值
if( ndata[k+7] != 204&& ndata[k+7] != 0xff && ndata[k+7] != 0x01 && ndata[k+7] != 0x11)
paramdata.nvTempre = double(ndata[k+7]) * 0.1+20; //获取体温
}
else if((ndata[k+1] & 0x0f) == 1)
{
if(ndata[k+7] != 204&& ndata[k+7] != 0xff && ndata[k+7] != 0x01 && ndata[k+7] != 0x11)
paramdata.nvSpO2 = ndata[k+7]; //获取血氧浓度
if(ndata[k+6] != 204&& ndata[k+6] != 0xff && ndata[k+6] != 0x01 && ndata[k+6] != 0x11)
paramdata.nHuXi = ndata[k+6]; //获取呼吸率
}
else if((ndata[k+1] & 0x0f) == 4)
{
paramdata.nXueYa = ndata[k+7]; //获取血压脉搏值
if( ndata[k+6] != 0xaa&& ndata[k+6] != 0xff && ndata[k+6] != 0x01 && ndata[k+6] != 0x11)
paramdata.nAvgYa = ndata[k+6]; //获取平均压数值
}
else if((ndata[k+1] & 0x0f) == 2)
{
if( ndata[k+6] != 204&& ndata[k+6] != 0xff && ndata[k+6] != 0x01 && ndata[k+6] != 0x11)
paramdata.nMai = ndata[k+6]; //获取脉率值
}
if(paramdata.onum >= 300)
{
paramdata.onum = 0;
paramdata.Paint = true;
//::SendMessage(AfxGetApp()->GetMainWnd()->m_hWnd, AfxGetMainWnd()->WM_DISPLAY_CHANGE, 0, 0);
}
else if(paramdata.Paint)
paramdata.Paint = false;
if( ndata[k+2] != 204&& ndata[k+2] != 0xff && ndata[k+2] != 0x01 && ndata[k+2] != 0x11 &&
(ndata[k+2] <= 100) && ndata[k+3] != 204&& ndata[k+3] != 0xff && ndata[k+3] != 0x01 &&
ndata[k+3] != 0x11 && (ndata[k+3] <= 100))
{
paramdata.m_Array[paramdata.onum++] = ndata[k+2];
paramdata.m_Array[paramdata.onum] = ndata[k+3];
paramdata.onum++;
}
//k+=7;
}
}
}
}
// if(k >= nLen)
// pThis->Detach();
return 1;
}我的问题: 该向线程传递什么参数比较合适??socket?还是接收到的ndata数组?然后线程里面的处理。。。。求知道的大神指导~~~~!不胜感激。
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赵4老师 2017-08-31
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任何收发两端速度不一致的通讯,都需要在它们之间使用一个足够大的FIFO缓冲区。
对任何FIFO缓冲区的使用,都需要仔细考虑接收端接收时超时无数据和发送端发送时FIFO缓冲区已满这两种情况下该如何做。
这些概念都在这段经典代码中有所体现。
这段经典代码还包括以下必须考虑的因素:
◆跨Windows和Linux平台
◆多线程锁
◆多线程日志
◆日志文件占用的磁盘空间可控
◆日志中的时间包括毫秒
◆传输的数据对应的每个字节到底是几
◆如何退出多线程程序
◆……
chen_JADE 2017-08-31
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看不懂
赵4老师 2017-08-31
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仅供参考:
//循环向a函数每次发送200个字节长度(这个是固定的)的buffer,
//a函数中需要将循环传进来的buffer,组成240字节(也是固定的)的新buffer进行处理,
//在处理的时候每次从新buffer中取两个字节打印
#ifdef _MSC_VER
#pragma warning(disable:4996)
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef _MSC_VER
#include <windows.h>
#include <process.h>
#include <io.h>
#define MYVOID void
#define vsnprintf _vsnprintf
#else
#include <unistd.h>
#include <sys/time.h>
#include <pthread.h>
#define CRITICAL_SECTION pthread_mutex_t
#define MYVOID void *
#endif
//Log{
#define MAXLOGSIZE 20000000
#define MAXLINSIZE 16000
#include <time.h>
#include <sys/timeb.h>
#include <stdarg.h>
char logfilename1[]="MyLog1.log";
char logfilename2[]="MyLog2.log";
static char logstr[MAXLINSIZE+1];
char datestr[16];
char timestr[16];
char mss[4];
CRITICAL_SECTION cs_log;
FILE *flog;
#ifdef _MSC_VER
void Lock(CRITICAL_SECTION *l) {
EnterCriticalSection(l);
}
void Unlock(CRITICAL_SECTION *l) {
LeaveCriticalSection(l);
}
void sleep_ms(int ms) {
Sleep(ms);
}
#else
void Lock(CRITICAL_SECTION *l) {
pthread_mutex_lock(l);
}
void Unlock(CRITICAL_SECTION *l) {
pthread_mutex_unlock(l);
}
void sleep_ms(int ms) {
usleep(ms*1000);
}
#endif
void LogV(const char *pszFmt,va_list argp) {
struct tm *now;
struct timeb tb;
if (NULL==pszFmt||0==pszFmt[0]) return;
vsnprintf(logstr,MAXLINSIZE,pszFmt,argp);
ftime(&tb);
now=localtime(&tb.time);
sprintf(datestr,"%04d-%02d-%02d",now->tm_year+1900,now->tm_mon+1,now->tm_mday);
sprintf(timestr,"%02d:%02d:%02d",now->tm_hour ,now->tm_min ,now->tm_sec );
sprintf(mss,"%03d",tb.millitm);
printf("%s %s.%s %s",datestr,timestr,mss,logstr);
flog=fopen(logfilename1,"a");
if (NULL!=flog) {
fprintf(flog,"%s %s.%s %s",datestr,timestr,mss,logstr);
if (ftell(flog)>MAXLOGSIZE) {
fclose(flog);
if (rename(logfilename1,logfilename2)) {
remove(logfilename2);
rename(logfilename1,logfilename2);
}
} else {
fclose(flog);
}
}
}
void Log(const char *pszFmt,...) {
va_list argp;
Lock(&cs_log);
va_start(argp,pszFmt);
LogV(pszFmt,argp);
va_end(argp);
Unlock(&cs_log);
}
//Log}
#define ASIZE 200
#define BSIZE 240
#define CSIZE 2
char Abuf[ASIZE];
char Cbuf[CSIZE];
CRITICAL_SECTION cs_HEX;
CRITICAL_SECTION cs_BBB;
struct FIFO_BUFFER {
int head;
int tail;
int size;
char data[BSIZE];
} BBB;
int No_Loop=0;
void HexDump(int cn,char *buf,int len) {
int i,j,k;
char binstr[80];
Lock(&cs_HEX);
for (i=0;i<len;i++) {
if (0==(i%16)) {
sprintf(binstr,"%03d %04x -",cn,i);
sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]);
} else if (15==(i%16)) {
sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]);
sprintf(binstr,"%s ",binstr);
for (j=i-15;j<=i;j++) {
sprintf(binstr,"%s%c",binstr,('!'<buf[j]&&buf[j]<='~')?buf[j]:'.');
}
Log("%s\n",binstr);
} else {
sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]);
}
}
if (0!=(i%16)) {
k=16-(i%16);
for (j=0;j<k;j++) {
sprintf(binstr,"%s ",binstr);
}
sprintf(binstr,"%s ",binstr);
k=16-k;
for (j=i-k;j<i;j++) {
sprintf(binstr,"%s%c",binstr,('!'<buf[j]&&buf[j]<='~')?buf[j]:'.');
}
Log("%s\n",binstr);
}
Unlock(&cs_HEX);
}
int GetFromRBuf(int cn,CRITICAL_SECTION *cs,struct FIFO_BUFFER *fbuf,char *buf,int len) {
int lent,len1,len2;
lent=0;
Lock(cs);
if (fbuf->size>=len) {
lent=len;
if (fbuf->head+lent>BSIZE) {
len1=BSIZE-fbuf->head;
memcpy(buf ,fbuf->data+fbuf->head,len1);
len2=lent-len1;
memcpy(buf+len1,fbuf->data ,len2);
fbuf->head=len2;
} else {
memcpy(buf ,fbuf->data+fbuf->head,lent);
fbuf->head+=lent;
}
fbuf->size-=lent;
}
Unlock(cs);
return lent;
}
MYVOID thdB(void *pcn) {
char *recv_buf;
int recv_nbytes;
int cn;
int wc;
int pb;
cn=(int)pcn;
Log("%03d thdB thread begin...\n",cn);
while (1) {
sleep_ms(10);
recv_buf=(char *)Cbuf;
recv_nbytes=CSIZE;
wc=0;
while (1) {
pb=GetFromRBuf(cn,&cs_BBB,&BBB,recv_buf,recv_nbytes);
if (pb) {
Log("%03d recv %d bytes\n",cn,pb);
HexDump(cn,recv_buf,pb);
sleep_ms(1);
} else {
sleep_ms(1000);
}
if (No_Loop) break;//
wc++;
if (wc>3600) Log("%03d %d==wc>3600!\n",cn,wc);
}
if (No_Loop) break;//
}
#ifndef _MSC_VER
pthread_exit(NULL);
#endif
}
int PutToRBuf(int cn,CRITICAL_SECTION *cs,struct FIFO_BUFFER *fbuf,char *buf,int len) {
int lent,len1,len2;
Lock(cs);
lent=len;
if (fbuf->size+lent>BSIZE) {
lent=BSIZE-fbuf->size;
}
if (fbuf->tail+lent>BSIZE) {
len1=BSIZE-fbuf->tail;
memcpy(fbuf->data+fbuf->tail,buf ,len1);
len2=lent-len1;
memcpy(fbuf->data ,buf+len1,len2);
fbuf->tail=len2;
} else {
memcpy(fbuf->data+fbuf->tail,buf ,lent);
fbuf->tail+=lent;
}
fbuf->size+=lent;
Unlock(cs);
return lent;
}
MYVOID thdA(void *pcn) {
char *send_buf;
int send_nbytes;
int cn;
int wc;
int a;
int pa;
cn=(int)pcn;
Log("%03d thdA thread begin...\n",cn);
a=0;
while (1) {
sleep_ms(100);
memset(Abuf,a,ASIZE);
a=(a+1)%256;
if (16==a) {No_Loop=1;break;}//去掉这句可以让程序一直循环直到按Ctrl+C或Ctrl+Break或当前目录下存在文件No_Loop
send_buf=(char *)Abuf;
send_nbytes=ASIZE;
Log("%03d sending %d bytes\n",cn,send_nbytes);
HexDump(cn,send_buf,send_nbytes);
wc=0;
while (1) {
pa=PutToRBuf(cn,&cs_BBB,&BBB,send_buf,send_nbytes);
Log("%03d sent %d bytes\n",cn,pa);
HexDump(cn,send_buf,pa);
send_buf+=pa;
send_nbytes-=pa;
if (send_nbytes<=0) break;//
sleep_ms(1000);
if (No_Loop) break;//
wc++;
if (wc>3600) Log("%03d %d==wc>3600!\n",cn,wc);
}
if (No_Loop) break;//
}
#ifndef _MSC_VER
pthread_exit(NULL);
#endif
}
int main() {
#ifdef _MSC_VER
InitializeCriticalSection(&cs_log);
InitializeCriticalSection(&cs_HEX);
InitializeCriticalSection(&cs_BBB);
#else
pthread_t threads[2];
int threadsN;
int rc;
pthread_mutex_init(&cs_log,NULL);
pthread_mutex_init(&cs_HEX,NULL);
pthread_mutex_init(&cs_BBB,NULL);
#endif
Log("Start===========================================================\n");
BBB.head=0;
BBB.tail=0;
BBB.size=0;
#ifdef _MSC_VER
_beginthread((void(__cdecl *)(void *))thdA,0,(void *)1);
_beginthread((void(__cdecl *)(void *))thdB,0,(void *)2);
#else
threadsN=0;
rc=pthread_create(&(threads[threadsN++]),NULL,thdA,(void *)1);if (rc) Log("%d=pthread_create %d error!\n",rc,threadsN-1);
rc=pthread_create(&(threads[threadsN++]),NULL,thdB,(void *)2);if (rc) Log("%d=pthread_create %d error!\n",rc,threadsN-1);
#endif
if (!access("No_Loop",0)) {
remove("No_Loop");
if (!access("No_Loop",0)) {
No_Loop=1;
}
}
while (1) {
sleep_ms(1000);
if (No_Loop) break;//
if (!access("No_Loop",0)) {
No_Loop=1;
}
}
sleep_ms(3000);
Log("End=============================================================\n");
#ifdef _MSC_VER
DeleteCriticalSection(&cs_BBB);
DeleteCriticalSection(&cs_HEX);
DeleteCriticalSection(&cs_log);
#else
pthread_mutex_destroy(&cs_BBB);
pthread_mutex_destroy(&cs_HEX);
pthread_mutex_destroy(&cs_log);
#endif
return 0;
}
chen_JADE 2017-08-31
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我是传了socket句柄过去给线程,意思是这个socket脱离了主线程,就不能在主线程发送了。想问的是收发都要在Attach它的线程里面进行?(这个socket的客户端会一直发送数据,服务器要一直接收,但也需要偶尔给它发送数据)
homesos 2017-08-31
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“”解析可以单开线程,也可以不开线程“,解析”??
r如果开了线程,Detach过去了,只能在Attach的线程里面对这个socket收和发了吧??可是一个线程可以同时收发socket吗?[/quote]
SOCKET是个内核对象,在程序层就是个句柄,相当于int,直接传来传去用就行了。开线程收处理,发的话你是用队列+线程统一发送?一般的通讯数据,用的时候直接发就行了,不需要单开线程发送。
chen_JADE 2017-08-31
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“”解析可以单开线程,也可以不开线程“,解析”??
r如果开了线程,Detach过去了,只能在Attach的线程里面对这个socket收和发了吧??可是一个线程可以同时收发socket吗?
homesos 2017-08-31
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多客户端,就用线程接收SOCKET数据,解析可以单开线程,也可以不开线程。
有个小错误
byte *ndata = new byte;
……
ndata = (byte*)lpParam;
改为byte *ndata = (byte*)lpParam;
这里的new是多余的,而且你只new了一个长度,干啥都不够用。
chen_JADE 2017-08-31
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已解决。散分结贴!
