closesocket(一般不会立即关闭而经历TIME_WAIT的过程)后想继续重用该socket
BOOL bReuseaddr=TRUE;
setsockopt (s,SOL_SOCKET ,SO_REUSEADDR,(const char*)&bReuseaddr,sizeof(BOOL));如果要已经处于连接状态的soket在调用closesocket后强制关闭,不经历TIME_WAIT的过程
BOOL bDontLinger = FALSE;
setsockopt (s,SOL_SOCKET,SO_DONTLINGER,(const char*)&bDontLinger,sizeof(BOOL));在send(),recv()过程中有时由于网络状况等原因,发收不能预期进行,而设置收发时限
int nNetTimeout=1000; //1秒
//发送时限
setsockopt (socket,SOL_S0CKET,SO_SNDTIMEO,(char *)&nNetTimeout,sizeof(int));
//接收时限
setsockopt (socket,SOL_S0CKET,SO_RCVTIMEO,(char *)&nNetTimeout,sizeof(int));在send()的时候,返回的是实际发送出去的字节(同步)或发送到socket缓冲区的字节(异步);系统默认的状态发送和接收一次为8688字节(约为8.5K);在实际的过程中发送数据和接收数据量比较大,可以设置socket缓冲区,而避免了send(),recv()不断的循环收发
// 接收缓冲区
int nRecvBuf=32*1024; //设置为32K
setsockopt (s,SOL_SOCKET,SO_RCVBUF,(const char*)&nRecvBuf,sizeof(int));
//发送缓冲区
int nSendBuf=32*1024; //设置为32K
setsockopt (s,SOL_SOCKET,SO_SNDBUF,(const char*)&nSendBuf,sizeof(int));如果在发送数据的时,希望不经历由系统缓冲区到socket缓冲区的拷贝而影响程序的性能
int nZero=0;
setsockopt (socket,SOL_S0CKET,SO_SNDBUF,(char *)&nZero,sizeof(nZero));同上在recv()完成上述功能(默认情况是将socket缓冲区的内容拷贝到系统缓冲区)
int nZero=0;
setsockopt (socket,SOL_S0CKET,SO_RCVBUF,(char *)&nZero,sizeof(int));一般在发送UDP数据报的时候,希望该socket发送的数据具有广播特性
BOOL bBroadcast=TRUE;
setsockopt (s,SOL_SOCKET,SO_BROADCAST,(const char*)&bBroadcast,sizeof(BOOL));在client连接服务器过程中,如果处于非阻塞模式下的socket在connect()的过程中可以设置connect()延时,直到accpet()被呼叫(本函数设置只有在非阻塞的过程中有显著的作用,在阻塞的函数调用中作用不大)
BOOL bConditionalAccept=TRUE;
setsockopt (s,SOL_SOCKET,SO_CONDITIONAL_ACCEPT,(const char*)&bConditionalAccept,sizeof(BOOL));如果在发送数据的过程中(send()没有完成,还有数据没发送)而调用了closesocket(),以前我们一般采取的措施是”从容关闭”shutdown(s,SD_BOTH),但是数据是肯定丢失了,如何设置让程序满足具体应用的要求(即让没发完的数据发送出去后在关闭socket)
struct linger
{
u_short l_onoff;
u_short l_linger;
};
linger m_sLinger;
m_sLinger.l_onoff=1; //(在closesocket()调用,但是还有数据没发送完毕的时候容许逗留)
// 如果m_sLinger.l_onoff=0;则功能和2.)作用相同;
m_sLinger.l_linger=5; //(容许逗留的时间为5秒)
setsockopt (s,SOL_SOCKET,SO_LINGER,(const char*)&m_sLinger,sizeof(linger)); SO_KEEPALIVE 保持连接检测对方主机是否崩溃,避免(服务器)永远阻塞于TCP连接的输入
设置该选项后,如果2小时内在此套接口的任一方向都没有数据交换,TCP就自动给对方 发一个保持存活探测分节(keepalive probe)。这是一个对方必须响应的TCP分节。它会导致以下三种情况:
- 对方接收一切正常:以期望的ACK响应。2小时后,TCP将发出另一个探测分节
- 对方已崩溃且已重新启动:以RST响应。套接口的待处理错误被置为ECONNRESET,套接口本身则被关闭
- 对方无任何响应:源自berkeley的TCP发送另外8个探测分节,相隔75秒一个,试图得到一个响应。在发出第一个探测分节11分钟 15秒后若仍无响应就放弃。套接口的待处理错误被置为ETIMEOUT,套接口本身则被关闭。如ICMP错误是“host unreachable(主机不可达)”,说明对方主机并没有崩溃,但是不可达,这种情况下待处理错误被置为 EHOSTUNREACH
keepAlive = 1;
Setsockopt(listenfd, SOL_SOCKET, SO_KEEPALIVE, (void*)&keepAlive, sizeof(keepAlive)); 如果我们不能接受如此之长的等待时间,从TCP-Keepalive-HOWTO上可以知道一共有两种方式可以设置,一种是修改内核关于网络方面的 配置参数,另外一种就是SOL_TCP字段的TCP_KEEPIDLE, TCP_KEEPINTVL, TCP_KEEPCNT三个选项。
1) The tcp_keepidle parameter specifies the interval of inactivity that causes TCP to generate a KEEPALIVE transmission for an application that requests them. tcp_keepidle defaults to 14400 (two hours).
开始首次KeepAlive探测前的TCP空闭时间
2) The tcp_keepintvl parameter specifies the interval between the nine retries that are attempted if a KEEPALIVE transmission is not acknowledged. tcp_keepintvl defaults to 150 (75 seconds).
两次KeepAlive探测间的时间间隔
3) The tcp_keepcnt option specifies the maximum number of keepalive probes to be sent. The value of TCP_KEEPCNT is an integer value between 1 and n, where n is the value of the systemwide tcp_keepcnt parameter.
判定断开前的KeepAlive探测次数
int keepIdle = 1000;
int keepInterval = 10;
int keepCount = 10;
Setsockopt(listenfd, SOL_TCP, TCP_KEEPIDLE, (void *)&keepIdle, sizeof(keepIdle));
Setsockopt(listenfd, SOL_TCP,TCP_KEEPINTVL, (void *)&keepInterval, sizeof(keepInterval));
Setsockopt(listenfd,SOL_TCP, TCP_KEEPCNT, (void *)&keepCount, sizeof(keepCount));