繁体   English   中英

如果客户端无法应付(缓冲区++),如何停止写套接字(AF_LOCAL / UNIX,SOCK_STREAM)?

[英]How to stop writing to socket (AF_LOCAL/UNIX, SOCK_STREAM) if client can't cope (buffer++)?

我有一个小型应用程序,它使用Unix域套接字将数据传递给客户端。 套接字的类型为SOCK_STREAM,并且设置为阻止模式(默认)。 当客户端很懒并且无法处理我正在向套接字写入的数据时,我遇到了一个特殊情况的麻烦—缓冲区趋于充满,并且我将阻塞write() ,我想避免的事情。

我尝试通过在write()之前调用它来使用select / pselect,以查看是否可以执行write()。 事情只进行了一半,从某种意义上来说,我被告知我无法再写()(当缓冲区达到一定大小时,select返回0),但是之后,当客户端能够再次读取时,select / pselect不再起作用。 t通知这一点(我原本希望返回1,然后可以执行write())。

您对此事有什么想法吗?

谢谢!

编辑:

服务器:

#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/ioctl.h>
#include <unistd.h>
#include <errno.h>
#define SV_SOCK_PATH "/tmp/srv_sk_stream"
#define BACKLOG 1
#define MAXWRITE 1000
#define TOMSEC 1000

int main(int argc, char* argv[]) {
    struct sockaddr_un addr;
    int sfd, cfd = -1;
    ssize_t numRead;
    char buffer[30];
    int i = 0;
    ssize_t retValWrite = -1;
    numRead = sizeof(buffer);
    if(argc !=2 ) {printf("Give the sleep value argument (msec)!\n"); return EXIT_FAILURE;}
    int sleepTime = atoi(argv[1]) * TOMSEC;
    fd_set writeFdSet;
    struct timeval tv;
    tv.tv_sec = 0;
    tv.tv_usec = 0;
    struct timespec ts;
    ts.tv_sec = 0;
    ts.tv_nsec = 0;

    /* create socket */
    sfd = socket(AF_UNIX, SOCK_STREAM, 0);
    if (sfd == -1) {perror("FAILED creating a socket!"); return EXIT_FAILURE;}
    if (remove(SV_SOCK_PATH) == -1 && errno != ENOENT) {perror("FAILED removing old socket fd! - "); return EXIT_FAILURE;}

    /* prepare it */
    memset(&addr, 0, sizeof(struct sockaddr_un));
    addr.sun_family = AF_UNIX;
    strncpy(addr.sun_path, SV_SOCK_PATH, sizeof(addr.sun_path) - 1);

    /* bind it */
    if (bind(sfd, (struct sockaddr *) &addr, sizeof(struct sockaddr_un)) == -1) {perror("FAILED bind! - "); return EXIT_FAILURE;}

    /* start to listen */
    if (listen(sfd, BACKLOG) == -1) {perror("FAILED listen! - "); return EXIT_FAILURE;}

    while(i<MAXWRITE) {
        int bytesToRead = 0;
        retValWrite = -13;


        /* block in accept until a client connects (only one) */
        if (-1 == cfd) {
            cfd = accept(sfd, NULL, NULL);
            if (cfd == -1) {perror("FAILED accept! - "); return EXIT_FAILURE;}
            FD_ZERO(&writeFdSet);
            FD_SET(cfd, &writeFdSet);
        }

        //ioctl(cfd,FIONREAD,&bytesToRead);
        //printf("---------> SND_BUFF has %d bytes left to be read\n", bytesToRead);

        sprintf(buffer, "PING FROM SERVER %d", i);
        /* write to the client's socket */
        int retValSelect = 0;
        errno = 0;
        retValSelect = select(cfd+1, NULL, &writeFdSet, NULL, &tv);
        //perror("ERRNO from pselect: ");
        if (retValSelect > 0) {
            int retValFdIsSet = 0;
            retValFdIsSet = FD_ISSET(cfd, &writeFdSet);
            //perror("FD_ISSET - ");
            if(retValFdIsSet) {
                retValWrite = write(cfd, buffer, numRead);
                if (retValWrite == 0 ) {
                    printf("Written 0 bytes\n");
                } else if (retValWrite < 0) {
                    perror("Error writiing to socket!\n");
                }

                ++i;
                printf("Written: %d \n", i);

                usleep(sleepTime);
            }
        } else  {
            printf("Wait for it... %d\n", count);
        }
    }

    /* close client socket */
    if (close(cfd) == -1) {perror("FAILED close srv socket! - "); return EXIT_FAILURE;}
    if (remove(SV_SOCK_PATH) == -1 && errno != ENOENT) {perror("FAILED removing old socket fd! - "); return EXIT_FAILURE;}

    return EXIT_SUCCESS;
}

客户:

#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/ioctl.h>
#include <unistd.h>
#include <errno.h>
#define SV_SOCK_PATH "/tmp/srv_sk_stream"
#define MAXREAD 1000
#define TOMSEC 1000

int main(int argc, char** argv)
{
    struct sockaddr_un addr;
    int sfd;
    ssize_t numRead;
    char pingStr[30];
    numRead = sizeof(pingStr);
    int readCount = 0;
    if(argc !=2 ) {printf("Give the sleep value argument (msec)!\n"); return EXIT_FAILURE;}
    int sleepTime = atoi(argv[1]) * TOMSEC;

    /* create socket */
    sfd = socket(AF_UNIX, SOCK_STREAM, 0);

    if(sfd == -1) {perror("FAILED creating a socket! - "); return EXIT_FAILURE;}

    /* prepare it */
    memset(&addr, 0, sizeof(struct sockaddr_un));
    addr.sun_family = AF_UNIX;
    strncpy(addr.sun_path, SV_SOCK_PATH, sizeof(addr.sun_path) - 1);

    /* connect */
    if (connect(sfd, (struct sockaddr *) &addr, sizeof(struct sockaddr_un)) == -1) {perror("FAILED connecting to socket! - "); return EXIT_FAILURE;}

    while (readCount < MAXREAD) {
        char strRead[numRead];
        int bytesRead=0;
        int bytesToRead=0;

        ioctl(sfd,FIONREAD, &bytesToRead);
        printf("---------> RCV_BUFF has %d bytes left to be read\n", bytesToRead);

        /* read */
        bytesRead = read(sfd, &strRead, numRead);
        if(bytesRead == 0) {
            perror("Read 0 bytes from socket! - ");
        }
        else if (bytesRead < 0) {
            perror("FAILED reading from socket! - ");
        }
        ++readCount;
        printf("%d - READ: %s\n", readCount, strRead);
        usleep(sleepTime);
    }

    /* close */
    if (close(sfd) == -1) {perror("FAILED close clt socket! - "); return EXIT_FAILURE;}

    return EXIT_SUCCESS;
}

服务器的输出(以100毫秒的速度写入)

./srvstream 100
Written: 1 
Written: 2 
Written: 3 
Written: 4 
Written: 5 
Written: 6 
Written: 7 
Written: 8 
Written: 9 
Written: 10 
Written: 11 
Written: 12 
Written: 13 
Written: 14 
Written: 15 
Written: 16 
Written: 17 
Written: 18 
Written: 19 
Written: 20 
Written: 21 
Written: 22 
Written: 23 
Written: 24 
Written: 25 
Written: 26 
Written: 27 
Written: 28 
Written: 29 
Written: 30 
Written: 31 
Written: 32 
Written: 33 
Written: 34 
Written: 35 
Written: 36 
Written: 37 
Written: 38 
Written: 39 
Written: 40 
Written: 41 
Written: 42 
Written: 43 
Written: 44 
Written: 45 
Written: 46 
Written: 47 
Written: 48 
Written: 49 
Written: 50 
Written: 51 
Written: 52 
Written: 53 
Written: 54 
Written: 55 
Written: 56 
Written: 57 
Written: 58 
Written: 59 
Written: 60 
Written: 61 
Written: 62 
Written: 63 
Written: 64 
Written: 65 
Written: 66 
Written: 67 
Written: 68 
Written: 69 
Written: 70 
Written: 71 
Written: 72 
Written: 73 
Written: 74 
Written: 75 
Written: 76 
Written: 77 
Written: 78 
Wait for it... 0
Wait for it... 0
Wait for it... 0
Wait for it... 0
Wait for it... 0
------->8-------- stays this way even after the client reports consumes the whole buffer

客户(阅读时间为1秒):

./cltstream 1000
---------> RCV_BUFF has 0 bytes left to be read
1 - READ: PING FROM SERVER 0
---------> RCV_BUFF has 270 bytes left to be read
2 - READ: PING FROM SERVER 1
---------> RCV_BUFF has 540 bytes left to be read
3 - READ: PING FROM SERVER 2
---------> RCV_BUFF has 810 bytes left to be read
4 - READ: PING FROM SERVER 3
---------> RCV_BUFF has 1080 bytes left to be read
5 - READ: PING FROM SERVER 4
---------> RCV_BUFF has 1350 bytes left to be read
6 - READ: PING FROM SERVER 5
---------> RCV_BUFF has 1620 bytes left to be read
7 - READ: PING FROM SERVER 6
---------> RCV_BUFF has 1890 bytes left to be read
8 - READ: PING FROM SERVER 7
---------> RCV_BUFF has 2100 bytes left to be read
9 - READ: PING FROM SERVER 8
---------> RCV_BUFF has 2070 bytes left to be read
10 - READ: PING FROM SERVER 9
---------> RCV_BUFF has 2040 bytes left to be read
11 - READ: PING FROM SERVER 10
---------> RCV_BUFF has 2010 bytes left to be read
12 - READ: PING FROM SERVER 11
---------> RCV_BUFF has 1980 bytes left to be read
13 - READ: PING FROM SERVER 12
---------> RCV_BUFF has 1950 bytes left to be read
14 - READ: PING FROM SERVER 13
---------> RCV_BUFF has 1920 bytes left to be read
15 - READ: PING FROM SERVER 14
---------> RCV_BUFF has 1890 bytes left to be read
16 - READ: PING FROM SERVER 15
---------> RCV_BUFF has 1860 bytes left to be read
17 - READ: PING FROM SERVER 16
---------> RCV_BUFF has 1830 bytes left to be read
18 - READ: PING FROM SERVER 17
---------> RCV_BUFF has 1800 bytes left to be read
19 - READ: PING FROM SERVER 18
---------> RCV_BUFF has 1770 bytes left to be read
20 - READ: PING FROM SERVER 19
---------> RCV_BUFF has 1740 bytes left to be read
21 - READ: PING FROM SERVER 20
---------> RCV_BUFF has 1710 bytes left to be read
22 - READ: PING FROM SERVER 21
---------> RCV_BUFF has 1680 bytes left to be read
23 - READ: PING FROM SERVER 22
---------> RCV_BUFF has 1650 bytes left to be read
24 - READ: PING FROM SERVER 23
---------> RCV_BUFF has 1620 bytes left to be read
25 - READ: PING FROM SERVER 24
---------> RCV_BUFF has 1590 bytes left to be read
26 - READ: PING FROM SERVER 25
---------> RCV_BUFF has 1560 bytes left to be read
27 - READ: PING FROM SERVER 26
---------> RCV_BUFF has 1530 bytes left to be read
28 - READ: PING FROM SERVER 27
---------> RCV_BUFF has 1500 bytes left to be read
29 - READ: PING FROM SERVER 28
-----------8<------------ -- continues this way until RCV_BUFF has 0 bytes left and then blocks

如果您处于阻塞模式,则如果发送缓冲区已满,则write()和send()不会返回-1 / EAGAIN / EWOULDBLOCK。 他们会阻止。 如果要处理这些情况,则需要非阻塞模式。

暂无
暂无

声明:本站的技术帖子网页,遵循CC BY-SA 4.0协议,如果您需要转载,请注明本站网址或者原文地址。任何问题请咨询:yoyou2525@163.com.

 
粤ICP备18138465号  © 2020-2024 STACKOOM.COM