标签:linux sockets kernel nonblocking aio
我正在移植构建在ACE Proactor框架之上的应用程序.该应用程序适用于VxWorks和Windows,但在使用librt的内核2.6.X.X的Linux(CentOS 5.5,WindRiver Linux 1.4和3.0)上无法运行.
我把问题缩小到一个非常基本的问题:
应用程序在套接字上开始异步(通过aio_read)读取操作,然后在同一个套接字上开始异步(通过aio_write)写入.由于协议是从应用程序结束初始化的,因此无法实现读取操作.
– 当套接字处于阻塞模式时,永远不会写入并且协议“挂起”.
– 使用O_NONBLOCK套接字时,写入成功,但读取无限期地返回“EWOULDBLOCK / EAGAIN”错误,永远不会恢复(即使重新启动AIO操作).
我经历了多个论坛,无法找到一个明确的答案,说明这是否应该可行(而且我做错了)或Linux AIO不可能.是否可以放弃AIO并寻求不同的实现(通过epoll / poll / select等)?
附件是一个示例代码,可以在非阻塞套接字上快速重现问题:
#include <aio.h>
#include <stdio.h>
#include <stdlib.h>
#include <netdb.h>
#include <string.h>
#include <netinet/in.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <assert.h>
#include <errno.h>
#define BUFSIZE (100)
// Global variables
struct aiocb *cblist[2];
int theSocket;
void InitializeAiocbData(struct aiocb* pAiocb, char* pBuffer)
{
bzero( (char *)pAiocb, sizeof(struct aiocb) );
pAiocb->aio_fildes = theSocket;
pAiocb->aio_nbytes = BUFSIZE;
pAiocb->aio_offset = 0;
pAiocb->aio_buf = pBuffer;
}
void IssueReadOperation(struct aiocb* pAiocb, char* pBuffer)
{
InitializeAiocbData(pAiocb, pBuffer);
int ret = aio_read( pAiocb );
assert (ret >= 0);
}
void IssueWriteOperation(struct aiocb* pAiocb, char* pBuffer)
{
InitializeAiocbData(pAiocb, pBuffer);
int ret = aio_write( pAiocb );
assert (ret >= 0);
}
int main()
{
int ret;
int nPort = 11111;
char* szServer = "10.10.9.123";
// Connect to the remote server
theSocket = socket(AF_INET, SOCK_STREAM, 0);
assert (theSocket >= 0);
struct hostent *pServer;
struct sockaddr_in serv_addr;
pServer = gethostbyname(szServer);
bzero((char *) &serv_addr, sizeof(serv_addr));
serv_addr.sin_family = AF_INET;
serv_addr.sin_port = htons(nPort);
bcopy((char *)pServer->h_addr, (char *)&serv_addr.sin_addr.s_addr, pServer->h_length);
assert (connect(theSocket, (const sockaddr*)(&serv_addr), sizeof(serv_addr)) >= 0);
// Set the socket to be non-blocking
int oldFlags = fcntl(theSocket, F_GETFL) ;
int newFlags = oldFlags | O_NONBLOCK;
fcntl(theSocket, F_SETFL, newFlags);
printf("Socket flags: before=%o, after=%o\n", oldFlags, newFlags);
// Construct the AIO callbacks array
struct aiocb my_aiocb1, my_aiocb2;
char* pBuffer = new char[BUFSIZE+1];
bzero( (char *)cblist, sizeof(cblist) );
cblist[0] = &my_aiocb1;
cblist[1] = &my_aiocb2;
// Start the read and write operations on the same socket
IssueReadOperation(&my_aiocb1, pBuffer);
IssueWriteOperation(&my_aiocb2, pBuffer);
// Wait for I/O completion on both operations
int nRound = 1;
printf("\naio_suspend round #%d:\n", nRound++);
ret = aio_suspend( cblist, 2, NULL );
assert (ret == 0);
// Check the error status for the read and write operations
ret = aio_error(&my_aiocb1);
assert (ret == EWOULDBLOCK);
// Get the return code for the read
{
ssize_t retcode = aio_return(&my_aiocb1);
printf("First read operation results: aio_error=%d, aio_return=%d - That's the first EWOULDBLOCK\n", ret, retcode);
}
ret = aio_error(&my_aiocb2);
assert (ret == EINPROGRESS);
printf("Write operation is still \"in progress\"\n");
// Re-issue the read operation
IssueReadOperation(&my_aiocb1, pBuffer);
// Wait for I/O completion on both operations
printf("\naio_suspend round #%d:\n", nRound++);
ret = aio_suspend( cblist, 2, NULL );
assert (ret == 0);
// Check the error status for the read and write operations for the second time
ret = aio_error(&my_aiocb1);
assert (ret == EINPROGRESS);
printf("Second read operation request is suddenly marked as \"in progress\"\n");
ret = aio_error(&my_aiocb2);
assert (ret == 0);
// Get the return code for the write
{
ssize_t retcode = aio_return(&my_aiocb2);
printf("Write operation has completed with results: aio_error=%d, aio_return=%d\n", ret, retcode);
}
// Now try waiting for the read operation to complete - it'll just busy-wait, receiving "EWOULDBLOCK" indefinitely
do
{
printf("\naio_suspend round #%d:\n", nRound++);
ret = aio_suspend( cblist, 1, NULL );
assert (ret == 0);
// Check the error of the read operation and re-issue if needed
ret = aio_error(&my_aiocb1);
if (ret == EWOULDBLOCK)
{
IssueReadOperation(&my_aiocb1, pBuffer);
printf("EWOULDBLOCK again on the read operation!\n");
}
}
while (ret == EWOULDBLOCK);
}
提前致谢,
Yotam.
解决方法:
首先,O_NONBLOCK和AIO不混合.当相应的读或写不会被阻塞时,AIO将报告异步操作完成 – 并且使用O_NONBLOCK,它们永远不会阻塞,因此aio请求将始终立即完成(使用aio_return()给出EWOULDBLOCK).
其次,不要为两个同时发生的未完成的aio请求使用相同的缓冲区.在发出aio请求的时间和aio_error()告诉你已完成的时间之间,缓冲区应被视为完全禁止.
第三,AIO对同一文件描述符的请求排队,以便给出明智的结果.这意味着在读取完成之前不会发生写入 – 如果您需要先写入数据,则需要以相反的顺序发出AIO.以下工作正常,无需设置O_NONBLOCK:
struct aiocb my_aiocb1, my_aiocb2;
char pBuffer1[BUFSIZE+1], pBuffer2[BUFSIZE+1] = "Some test message";
const struct aiocb *cblist[2] = { &my_aiocb1, &my_aiocb2 };
// Start the read and write operations on the same socket
IssueWriteOperation(&my_aiocb2, pBuffer2);
IssueReadOperation(&my_aiocb1, pBuffer1);
// Wait for I/O completion on both operations
int nRound = 1;
int aio_status1, aio_status2;
do {
printf("\naio_suspend round #%d:\n", nRound++);
ret = aio_suspend( cblist, 2, NULL );
assert (ret == 0);
// Check the error status for the read and write operations
aio_status1 = aio_error(&my_aiocb1);
if (aio_status1 == EINPROGRESS)
puts("aio1 still in progress.");
else
puts("aio1 completed.");
aio_status2 = aio_error(&my_aiocb2);
if (aio_status2 == EINPROGRESS)
puts("aio2 still in progress.");
else
puts("aio2 completed.");
} while (aio_status1 == EINPROGRESS || aio_status2 == EINPROGRESS);
// Get the return code for the read
ssize_t retcode;
retcode = aio_return(&my_aiocb1);
printf("First operation results: aio_error=%d, aio_return=%d\n", aio_status1, retcode);
retcode = aio_return(&my_aiocb1);
printf("Second operation results: aio_error=%d, aio_return=%d\n", aio_status1, retcode);
或者,如果您不关心相互之间的读取和写入,您可以使用dup()为套接字创建两个文件描述符,并使用一个用于读取而另一个用于写入 – 每个都将具有AIO操作单独排队.
标签:linux,sockets,kernel,nonblocking,aio 来源: https://codeday.me/bug/20190630/1340573.html
本站声明: 1. iCode9 技术分享网(下文简称本站)提供的所有内容,仅供技术学习、探讨和分享; 2. 关于本站的所有留言、评论、转载及引用,纯属内容发起人的个人观点,与本站观点和立场无关; 3. 关于本站的所有言论和文字,纯属内容发起人的个人观点,与本站观点和立场无关; 4. 本站文章均是网友提供,不完全保证技术分享内容的完整性、准确性、时效性、风险性和版权归属;如您发现该文章侵犯了您的权益,可联系我们第一时间进行删除; 5. 本站为非盈利性的个人网站,所有内容不会用来进行牟利,也不会利用任何形式的广告来间接获益,纯粹是为了广大技术爱好者提供技术内容和技术思想的分享性交流网站。