类型==SOCK\u流) { cbRemoteAddrSize=sizeof(ssRemoteAddr); getpeername(sock,(SOCKADDR*)和ssRemoteAddr,以及cbRemoteAddrSize); } if(getnameinfo((SOCKADDR*)&ssRemoteAddr、cbRemoteAddrSize、, szRemoteAddrString,sizeof(szRemoteAddrString),NULL,0,NI_numericost)!=0) strcpy(szRemoteAddrString,“”); 打印(文本(“成功-从客户端%hs收到%d字节\r\n”)、cbTotalRecvd、szRemoteAddrString; // //将数据回显到客户端 // cbXfer=0; cbXfer=sendto(sock、pBuf、cbTotalRecvd、0、(SOCKADDR*)和ssRemoteAddr、cbRemoteAddrSize); 如果(cbXfer!=cbTotalRecvd) 打印(文本(“错误:无法发送数据!错误=%d\r\n”),WSAGetLastError(); 其他的 打印(文本(“成功-将%d字节回显到客户端\r\n”)、cbXfer; 清理: 对于(i=0;i
在POSIX上类型==SOCK\u流) { cbRemoteAddrSize=sizeof(ssRemoteAddr); getpeername(sock,(SOCKADDR*)和ssRemoteAddr,以及cbRemoteAddrSize); } if(getnameinfo((SOCKADDR*)&ssRemoteAddr、cbRemoteAddrSize、, szRemoteAddrString,sizeof(szRemoteAddrString),NULL,0,NI_numericost)!=0) strcpy(szRemoteAddrString,“”); 打印(文本(“成功-从客户端%hs收到%d字节\r\n”)、cbTotalRecvd、szRemoteAddrString; // //将数据回显到客户端 // cbXfer=0; cbXfer=sendto(sock、pBuf、cbTotalRecvd、0、(SOCKADDR*)和ssRemoteAddr、cbRemoteAddrSize); 如果(cbXfer!=cbTotalRecvd) 打印(文本(“错误:无法发送数据!错误=%d\r\n”),WSAGetLastError(); 其他的 打印(文本(“成功-将%d字节回显到客户端\r\n”)、cbXfer; 清理: 对于(i=0;i,c,windows,linux,sockets,C,Windows,Linux,Sockets,在POSIX上select()将在超时时返回,或者当其中一个描述符准备好时返回,或者如果被信号中断,则返回设置为EINTR的errno 因此,您可以使用EINTR行为。只需安装一个带有sigaction()函数的信号处理程序,而不带SA_RESTART(由信号中断的重新启动系统调用)标志。(系统之间,signal()的行为有所不同,在某些系统上,可以通过#defines进行更改) 或者,您可以使用自管道技巧:向管道写入信号以表示您要退出。如果select()选择该管道的读取描述符,它将返回 为什
select()errnoEINTRsigaction()SA_RESTARTsignal()#defines或者,您可以使用自管道技巧:向管道写入信号以表示您要退出。如果
select()选择后检查是否需要退出
如果需要几秒钟来启动退出过程,这有关系吗?您应该减少示例,因为它太长了。只给出最小的(但完整的!)段代码,演示您感兴趣的问题的答案。@Perry:我相信我的问题很清楚。代码是供人们测试的,它不是像我明确指出的那样通读的。您是否尝试过使用timeout
参数?您可以使用它定期检查终止条件(如果它还不正确,请重新启动选择。@acidzombie24:没有人会“测试”您的代码,他们会尝试阅读它来回答您的问题。它太长了,不容易阅读,所以在一个小时的大部分时间里你几乎没有得到答案。@EmilioSilva我怀疑有一种方法可以使select返回一个错误。我只是不知道怎么做。如果没有办法做到这一点,那么select(没有超时)将是无用的(或不安全的),因为您无法解开堆栈,您应该使用“自我管道技巧”。信号太不安全了。嗯,sigaction看起来像它的posix。我不能在窗户上做这件事。我想我可以做自我管道技巧,但这增加了复杂性(我需要跟踪套接字数据,如端口或路径)+1如果我使用超时,问题就不那么严重了。这更像是如果我没有超时,是否可以退出这个过程?我猜他说的是:与其使用一个没有超时的select,不如使用一个无限循环,调用select,比如说,1秒超时。每次选择后,检查是否设置了一些外部标志,如果是,则中止。这可以很好地包装到一个函数select_abortable中,该函数封装了检查abort标志的逻辑。@pezcode-完全正确。一个不需要管道的简单解决方案。只需一个简单的信号处理程序就可以将布尔值设置为true。选择后,只需测试该布尔值。关机也是干净的。如果它是任务关键型的,您也可以让它心跳。@EdHeal:这会不必要地唤醒CPU,浪费能量。@ninjalj在调用选择之间,代码最多会花费一毫秒。如果您担心能源消耗会增加0.1%(假设能源会随着时间线性增长),那么您应该首先研究异步套接字。编程是关于权衡的,如果你的基本假设一开始就错了,那么就没有完美的解决方案。
#pragma comment(lib, "Ws2_32.lib")
#include <winsock2.h>
#include <ws2tcpip.h>
#include <windows.h>
#include <tchar.h>
#include <strsafe.h>
#define DEFAULT_FAMILY AF_UNSPEC
#define DEFAULT_SOCKTYPE SOCK_STREAM
#define DEFAULT_PORT "1234"
#define BUFFER_SIZE 23 // length of "WinCE Echo Test Packet"
void Print(TCHAR *pFormat, ...)
{
va_list ArgList;
TCHAR Buffer[256];
va_start (ArgList, pFormat);
(void)StringCchPrintf(Buffer, 256, pFormat, ArgList);
#ifndef UNDER_CE
_putts(Buffer);
#else
printf("%s",Buffer);
#endif
va_end(ArgList);
}
int main2 ()
{
SOCKET sock, SockServ[FD_SETSIZE];
int nFamily = DEFAULT_FAMILY;
int nSockType = DEFAULT_SOCKTYPE;
char *szPort = DEFAULT_PORT;
SOCKADDR_STORAGE ssRemoteAddr;
int i, nNumSocks, cbRemoteAddrSize, cbXfer, cbTotalRecvd;
WSADATA wsaData;
ADDRINFO Hints, *AddrInfo = NULL, *AI;
fd_set fdSockSet;
char pBuf[BUFFER_SIZE];
char szRemoteAddrString[128];
if(WSAStartup(MAKEWORD(2,2), &wsaData))
{
// WSAStartup failed
return 1;
}
sock = INVALID_SOCKET;
for(i = 0; i < FD_SETSIZE; i++)
SockServ[i] = INVALID_SOCKET;
//
// Get a list of available addresses to serve on
//
memset(&Hints, 0, sizeof(Hints));
Hints.ai_family = nFamily;
Hints.ai_socktype = nSockType;
Hints.ai_flags = AI_NUMERICHOST | AI_PASSIVE;
if(getaddrinfo(NULL, szPort, &Hints, &AddrInfo))
{
Print(TEXT("ERROR: getaddrinfo failed with error %d\r\n"), WSAGetLastError());
goto Cleanup;
}
//
// Create a list of serving sockets, one for each address
//
i = 0;
for(AI = AddrInfo; AI != NULL; AI = AI->ai_next)
{
if (i == FD_SETSIZE)
{
// getaddrinfo returned more addresses than we could use
break;
}
if((AI->ai_family == PF_INET) || (AI->ai_family == PF_INET6)) // only want PF_INET or PF_INET6
{
SockServ[i] = socket(AI->ai_family, AI->ai_socktype, AI->ai_protocol);
if (SockServ[i] != INVALID_SOCKET)
{
if (bind(SockServ[i], AI->ai_addr, AI->ai_addrlen) == SOCKET_ERROR)
closesocket(SockServ[i]);
else
{
if(nSockType == SOCK_STREAM)
{
if (listen(SockServ[i], 5) == SOCKET_ERROR)
{
closesocket(SockServ[i]);
continue;
}
}
Print(
TEXT("Socket 0x%08x ready for connection with %hs family, %hs type, on port %hs\r\n"),
SockServ[i],
(AI->ai_family == AF_INET) ? "AF_INET" : ((AI->ai_family == AF_INET6) ? "AF_INET6" : "UNKNOWN"),
(AI->ai_socktype == SOCK_STREAM) ? "TCP" : ((AI->ai_socktype == SOCK_DGRAM) ? "UDP" : "UNKNOWN"),
szPort);
i++;
}
}
}
}
freeaddrinfo(AddrInfo);
if (i == 0)
{
Print(TEXT("ERROR: Unable to serve on any address. Error = %d\r\n"), WSAGetLastError());
goto Cleanup;
}
//
// Wait for incomming data/connections
//
nNumSocks = i;
FD_ZERO(&fdSockSet);
for (i = 0; i < nNumSocks; i++) // want to check all available sockets
FD_SET(SockServ[i], &fdSockSet);
if (select(nNumSocks, &fdSockSet, 0, 0, NULL) == SOCKET_ERROR)
{
Print(TEXT("ERROR: select() failed with error = %d\r\n"), WSAGetLastError());
goto Cleanup;
}
for (i = 0; i < nNumSocks; i++) // check which socket is ready to process
{
if (FD_ISSET(SockServ[i], &fdSockSet)) // proceed for connected socket
{
FD_CLR(SockServ[i], &fdSockSet);
if(nSockType == SOCK_STREAM)
{
cbRemoteAddrSize = sizeof(ssRemoteAddr);
sock = accept(SockServ[i], (SOCKADDR*)&ssRemoteAddr, &cbRemoteAddrSize);
if(sock == INVALID_SOCKET)
{
Print(TEXT("ERROR: accept() failed with error = %d\r\n"), WSAGetLastError());
goto Cleanup;
}
Print(TEXT("Accepted TCP connection from socket 0x%08x\r\n"), sock);
}
else
{
sock = SockServ[i];
Print(TEXT("UDP data available on socket 0x%08x\r\n"), sock);
}
break; // Only need one socket
}
}
//
// Receive data from a client
//
cbTotalRecvd = 0;
do
{
cbRemoteAddrSize = sizeof(ssRemoteAddr);
cbXfer = recvfrom(sock, pBuf + cbTotalRecvd, sizeof(pBuf) - cbTotalRecvd, 0,
(SOCKADDR *)&ssRemoteAddr, &cbRemoteAddrSize);
cbTotalRecvd += cbXfer;
} while(cbXfer > 0 && cbTotalRecvd < sizeof(pBuf));
if(cbXfer == SOCKET_ERROR)
{
Print(TEXT("ERROR: Couldn't receive the data! Error = %d\r\n"), WSAGetLastError());
goto Cleanup;
}
else if(cbXfer == 0)
{
Print(TEXT("ERROR: Didn't get all the expected data from the client!\r\n"));
goto Cleanup;
}
if(nSockType == SOCK_STREAM)
{
cbRemoteAddrSize = sizeof(ssRemoteAddr);
getpeername(sock, (SOCKADDR *)&ssRemoteAddr, &cbRemoteAddrSize);
}
if (getnameinfo((SOCKADDR *)&ssRemoteAddr, cbRemoteAddrSize,
szRemoteAddrString, sizeof(szRemoteAddrString), NULL, 0, NI_NUMERICHOST) != 0)
strcpy(szRemoteAddrString, "");
Print(TEXT("SUCCESS - Received %d bytes from client %hs\r\n"), cbTotalRecvd, szRemoteAddrString);
//
// Echo the data back to the client
//
cbXfer = 0;
cbXfer = sendto(sock, pBuf, cbTotalRecvd, 0, (SOCKADDR *)&ssRemoteAddr, cbRemoteAddrSize);
if(cbXfer != cbTotalRecvd)
Print(TEXT("ERROR: Couldn't send the data! error = %d\r\n"), WSAGetLastError());
else
Print(TEXT("SUCCESS - Echo'd %d bytes back to the client\r\n"), cbXfer);
Cleanup:
for(i = 0; i < nNumSocks && SockServ[i] != INVALID_SOCKET; i++)
closesocket(SockServ[i]);
if(sock != INVALID_SOCKET)
{
shutdown(sock, SD_BOTH);
closesocket(sock);
}
WSACleanup();
return 0;
}
#include <stdio.h>
#include <stdlib.h>
#include <signal.h>
volatile bool terminate_app=false;
void terminate (int param)
{
printf("Terminating program...\n");
terminate_app=true;
}
void important_code(bool v)
{
printf("Important code here %d\n", v);
}
int main ()
{
try{
void (*prev_fn)(int);
prev_fn = signal (SIGINT,terminate);
main2();
//while(terminate_app==false)
{
}
}
catch(...){
important_code(1);
}
important_code(0);
return 0;
}