wine/misc/winsock_async.c
Alexandre Julliard f0cbfa0c5c Release 970215
Sat Feb 15 11:59:17 1997  Alexandre Julliard  <julliard@lrc.epfl.ch>

	* [*/*]
	Converted a lot of functions to Win32 types.
	Removed HWND type.

Fri Feb 14 15:09:19 1997  Onno Hovers <onno@stack.nl>

	* [memory/global.c]
	Implemented GMEM_MOVEABLE blocks for Win32.

Fri Feb 14 00:24:39 1997  Alex Korobka <alex@trantor.pharm.sunysb.edu>

	* [loader/task.c] [windows/queue.c]
	Do not read X events while in the intertask SendMessage().

	* [misc/lstr.c]
	Fixed CharPrev32A().

	* [windows/hook.c] [include/hook.h]
	Restored broken WH_CALLWNDPROC functionality for dialogs, etc...

	* [windows/win.c] [windows/defwnd.c] [windows/mdi.c]
	  [windows/event.c] [controls/edit.c] 
	Added WIN_ISWIN32 flag to windows created by Win32 calls. 
	Several new Win32 messages are sent when this flag is on.
	
	* [msdos/dosmem.c] [memory/global.c]
	Some changes in DOS memory allocation.

Fri Feb  7 21:46:03 1997  Andrew Taylor  <andrew@riscan.com>

	* [win32/security.c]
	Added SID manipulation functions.

	* [include/debug.h]
	Added debugging class "security".

Fri  Feb 7 20:46:33 1997  Robert Pouliot <krynos@clic.net>

	* [debugger/msc.c] [debugger/source.c] 
	  [documentation/wine_os2.txt] [loader/signal.c]
	Some more changes for OS/2. Doesn't work yet.

Fri  Feb 7 09:31:17 1997  Marcus Meissner <msmeissn@cip.informatik.uni-erlangen.de>

	* [scheduler/process.c]
	Added ExpandEnvironmentStrings*.

	* [misc/ntdll.c] [include/ntdll.h]
	Added some new functions.

	* [objects/cursoricon.c]
	CURSORICON_LoadHandler: check against some bizarre out of memory
	conditions.
	
	* [windows/mdi.c]
	Fixed DefFrameProc32*, added TranslateMDISysAccel32.

Wed Feb  5 01:31:05 1997  John Zero <john@globe.graphisoft.hu>

	* [resources/sysres_Hu.rc] [misc/ole2nls.c] [misc/main.c]
	  [programs/progman/Hu.rc] [programs/winhelp/Hu.rc]
	Added Hungarian language support.
1997-02-15 14:29:56 +00:00

516 lines
14 KiB
C

/*
* asynchronous winsock services
*
* (C) 1996 Alex Korobka.
*
* FIXME: telftp16 (ftp part) stalls on AsyncSelect with FD_ACCEPT.
*/
#include <unistd.h>
#include <string.h>
#include <signal.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/ipc.h>
#include <sys/msg.h>
#include <sys/wait.h>
#include <errno.h>
#ifdef __EMX__
#include <sys/so_ioctl.h>
#include <sys/param.h>
#endif
#ifdef __svr4__
#include <sys/file.h>
#include <sys/filio.h>
#endif
extern int h_errno;
#include "windows.h"
#include "winsock.h"
#include "debug.h"
#ifndef FASYNC
#define FASYNC FIOASYNC
#endif
#define __WS_ASYNC_DEBUG 0
static int __async_io_max_fd = 0;
static fd_set __async_io_fdset;
static ws_async_op* __async_op_list = NULL;
extern ws_async_ctl async_ctl;
extern int async_qid;
fd_set fd_read, fd_write, fd_excp;
/* ----------------------------------- async/non-blocking I/O */
int WINSOCK_async_io(int fd, int async)
{
int fd_flags;
#ifndef __EMX__
fcntl(fd, F_SETOWN, getpid());
#endif
fd_flags = fcntl(fd, F_GETFL, 0);
if (fcntl(fd, F_SETFL, (async)? fd_flags | FASYNC
: fd_flags & ~FASYNC ) != -1) return 0;
return -1;
}
int WINSOCK_unblock_io(int fd, int noblock)
{
int fd_flags;
fd_flags = fcntl(fd, F_GETFL, 0);
if (fcntl(fd, F_SETFL, (noblock)? fd_flags | O_NONBLOCK
: fd_flags & ~O_NONBLOCK ) != -1) return 0;
return -1;
}
int WINSOCK_check_async_op(ws_async_op* p_aop)
{
ws_async_op* p = __async_op_list;
while( p ) if( p == p_aop ) return 1;
else p = p->next;
return 0;
}
void WINSOCK_cancel_async_op(HTASK16 hTask)
{
ws_async_op* p = __async_op_list;
while( p )
if(hTask == GetWindowTask16(p->hWnd))
p->flags = 0;
}
void WINSOCK_link_async_op(ws_async_op* p_aop)
{
if( __async_op_list ) __async_op_list->prev = p_aop;
else FD_ZERO(&__async_io_fdset);
p_aop->next = __async_op_list;
p_aop->prev = NULL;
__async_op_list = p_aop;
FD_SET(p_aop->fd[0], &__async_io_fdset);
if( p_aop->fd[0] > __async_io_max_fd )
__async_io_max_fd = p_aop->fd[0];
}
void WINSOCK_unlink_async_op(ws_async_op* p_aop)
{
if( p_aop == __async_op_list ) __async_op_list = p_aop->next;
else
{ p_aop->prev->next = p_aop->next;
if( p_aop->next ) p_aop->next->prev = p_aop->prev; }
FD_CLR(p_aop->fd[0], &__async_io_fdset);
if( p_aop->fd[0] == __async_io_max_fd )
__async_io_max_fd--;
}
/* ----------------------------------- SIGIO handler -
*
* link_async_op/unlink_async_op allow to install generic
* async IO handlers (provided that aop_control function is defined).
*
* Note: AsyncGetXbyY expilicitly raise it.
*/
void WINSOCK_sigio(int signal)
{
struct timeval timeout;
fd_set check_set;
ws_async_op* p_aop;
check_set = __async_io_fdset;
memset(&timeout, 0, sizeof(timeout));
while( select(__async_io_max_fd + 1,
&check_set, NULL, NULL, &timeout) > 0)
{
for( p_aop = __async_op_list;
p_aop ; p_aop = p_aop->next )
if( FD_ISSET(p_aop->fd[0], &check_set) )
if( p_aop->aop_control(p_aop, AOP_IO) == AOP_CONTROL_REMOVE )
{
if( p_aop->pid )
{
kill(p_aop->pid, SIGKILL);
waitpid(p_aop->pid, NULL, WNOHANG);
}
WINSOCK_unlink_async_op( p_aop );
}
check_set = __async_io_fdset;
}
}
/* ----------------------------------- child process IPC */
static void _sigusr1_handler_child(int sig)
{
/* read message queue to decide which
* async_ctl parameters to update
*
* Note: we don't want to have SA_RESTART on this signal
* handler, otherwise select() won't notice changed fd sets.
*/
signal( SIGUSR1, _sigusr1_handler_child );
while( msgrcv(async_qid, (struct msgbuf*)&async_ctl.ip,
MTYPE_PARENT_SIZE, MTYPE_PARENT, IPC_NOWAIT) != -1 )
{
/* only ip.lParam is updated */
#if __WS_ASYNC_DEBUG
printf("handler - event %08x\n", async_ctl.ip.lParam );
#endif
switch( async_ctl.ip.lParam )
{
/* These are events we are notified of.
*/
case WS_FD_CONNECTED: async_ctl.lEvent &= ~WS_FD_CONNECT;
FD_SET(async_ctl.ws_sock->fd, &fd_read);
FD_SET(async_ctl.ws_sock->fd, &fd_write);
break;
case WS_FD_ACCEPT: async_ctl.ws_sock->flags |= WS_FD_ACCEPT;
FD_SET(async_ctl.ws_sock->fd, &fd_read);
FD_SET(async_ctl.ws_sock->fd, &fd_write);
break;
case WS_FD_OOB: async_ctl.lEvent |= WS_FD_OOB;
FD_SET(async_ctl.ws_sock->fd, &fd_excp);
break;
case WS_FD_READ: async_ctl.lEvent |= WS_FD_READ;
FD_SET(async_ctl.ws_sock->fd, &fd_read);
break;
case WS_FD_WRITE: async_ctl.lEvent |= WS_FD_WRITE;
FD_SET(async_ctl.ws_sock->fd, &fd_write);
break;
default:
}
}
}
static int notify_parent( unsigned flag )
{
if( flag & WSMSG_ASYNC_SELECT )
{
async_ctl.ip.mtype = MTYPE_CLIENT;
while( msgsnd(async_qid, (struct msgbuf*)&(async_ctl.ip),
MTYPE_CLIENT_SIZE, 0) == -1 )
{
if( errno == EINTR ) continue;
#ifdef EIDRM
else if( errno == EIDRM ) _exit(0);
#endif
else
{
perror("AsyncSelect(child)");
return 0;
}
}
kill(getppid(), SIGUSR1);
#if __WS_ASYNC_DEBUG
printf("handler - notify [%08x]\n", async_ctl.ip.lParam);
#endif
}
else /* use half-duplex pipe to handle variable length packets */
{
write(async_ctl.ws_aop->fd[1], &async_ctl.lLength, sizeof(unsigned) );
write(async_ctl.ws_aop->fd[1], async_ctl.buffer, async_ctl.lLength );
#ifndef __EMX__
kill(getppid(), SIGIO); /* simulate async I/O */
#endif
#if __WS_ASYNC_DEBUG
printf("handler - notify aop [%d, buf %d]\n", async_ctl.lLength, async_ctl.ws_aop->buflen);
#endif
pause();
}
return 1;
}
/* ----------------------------------- async select */
static void setup_fd_sets()
{
FD_ZERO(&fd_read); FD_ZERO(&fd_write); FD_ZERO(&fd_excp);
if( async_ctl.lEvent & WS_FD_OOB)
FD_SET(async_ctl.ws_sock->fd, &fd_excp);
if( async_ctl.lEvent & (WS_FD_ACCEPT | WS_FD_READ |
WS_FD_CONNECT | WS_FD_CLOSE) )
FD_SET(async_ctl.ws_sock->fd, &fd_read);
if( async_ctl.lEvent & (WS_FD_WRITE | WS_FD_CONNECT) )
FD_SET(async_ctl.ws_sock->fd, &fd_write);
}
static void setup_sig_sets(sigset_t* sig_block)
{
sigemptyset(sig_block);
sigaddset(sig_block, SIGUSR1);
sigprocmask( SIG_BLOCK, sig_block, NULL);
signal( SIGUSR1, _sigusr1_handler_child );
}
void WINSOCK_do_async_select()
{
sigset_t sig_block;
int sock_type, bytes;
getsockopt(async_ctl.ws_sock->fd, SOL_SOCKET, SO_TYPE, &sock_type, &bytes);
setup_sig_sets(&sig_block);
setup_fd_sets();
while(1)
{
int val;
if( sock_type != SOCK_STREAM )
async_ctl.lEvent &= ~(WS_FD_ACCEPT | WS_FD_CONNECT);
sigprocmask( SIG_UNBLOCK, &sig_block, NULL);
#if __WS_ASYNC_DEBUG
printf("select(2)[%i,%i,%i]... ",
FD_ISSET(async_ctl.ws_sock->fd, &fd_read),
FD_ISSET(async_ctl.ws_sock->fd, &fd_write),
FD_ISSET(async_ctl.ws_sock->fd, &fd_excp));
#endif
if( (val = select(async_ctl.ws_sock->fd + 1,
&fd_read, &fd_write, &fd_excp, NULL)) == -1 )
if( errno == EINTR ) continue;
#if __WS_ASYNC_DEBUG
printf("got %i events\n", val);
#endif
#if __WS_ASYNC_DEBUG
if( FD_ISSET(async_ctl.ws_sock->fd, &fd_read) )
printf("handler - read is READY! [%08x]\n", async_ctl.lEvent & (WS_FD_READ | WS_FD_CLOSE));
#endif
sigprocmask( SIG_BLOCK, &sig_block, NULL);
async_ctl.ip.lParam = 0;
if( async_ctl.ws_sock->flags & WS_FD_ACCEPT )
{
/* listening socket */
FD_CLR(async_ctl.ws_sock->fd, &fd_read);
FD_CLR(async_ctl.ws_sock->fd, &fd_write);
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_ACCEPT, 0 );
notify_parent( WSMSG_ASYNC_SELECT );
continue;
}
else /* I/O socket */
{
if( async_ctl.lEvent & WS_FD_CONNECT )
{
if( FD_ISSET(async_ctl.ws_sock->fd, &fd_write) )
{
/* success - reinit fd sets to start I/O */
if( async_ctl.lEvent & (WS_FD_READ | WS_FD_CLOSE))
FD_SET(async_ctl.ws_sock->fd, &fd_read);
else FD_CLR(async_ctl.ws_sock->fd, &fd_read);
if( async_ctl.lEvent & WS_FD_WRITE )
FD_SET(async_ctl.ws_sock->fd, &fd_write);
else FD_CLR(async_ctl.ws_sock->fd, &fd_write);
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_CONNECT, 0 );
async_ctl.lEvent &= ~WS_FD_CONNECT; /* one-shot */
}
else if( FD_ISSET(async_ctl.ws_sock->fd, &fd_read) )
{
/* failure - do read() to get correct errno */
if( read(async_ctl.ws_sock->fd, &bytes, 4) == -1 )
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_CONNECT, wsaErrno() );
else continue;
} else continue; /* OOB?? */
notify_parent( WSMSG_ASYNC_SELECT );
}
else /* connected socket */
{
if( async_ctl.lEvent & WS_FD_OOB )
if( FD_ISSET(async_ctl.ws_sock->fd, &fd_excp) )
{
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_OOB, 0 );
async_ctl.lEvent &= ~WS_FD_OOB;
FD_CLR(async_ctl.ws_sock->fd, &fd_excp);
notify_parent( WSMSG_ASYNC_SELECT );
}
else FD_SET(async_ctl.ws_sock->fd, &fd_excp);
if( async_ctl.lEvent & WS_FD_WRITE )
if( FD_ISSET( async_ctl.ws_sock->fd, &fd_write ) )
{
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_WRITE, 0 );
async_ctl.lEvent &= ~WS_FD_WRITE;
FD_CLR(async_ctl.ws_sock->fd, &fd_write);
notify_parent( WSMSG_ASYNC_SELECT );
}
else FD_SET(async_ctl.ws_sock->fd, &fd_write);
if( async_ctl.lEvent & (WS_FD_READ | WS_FD_CLOSE) )
if( FD_ISSET(async_ctl.ws_sock->fd, &fd_read) )
{
int ok = 0;
if( sock_type == SOCK_RAW ) ok = 1;
else if( ioctl( async_ctl.ws_sock->fd, FIONREAD, (char*)&bytes) == -1 )
{
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_READ, wsaErrno() );
FD_CLR( async_ctl.ws_sock->fd, &fd_read );
bytes = 0;
}
if( bytes || ok ) /* got data */
{
#if __WS_ASYNC_DEBUG
if( ok ) printf("\traw/datagram read pending\n");
else printf("\t%i bytes pending\n", bytes );
#endif
if( async_ctl.lEvent & WS_FD_READ )
{
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_READ, 0 );
async_ctl.lEvent &= ~WS_FD_READ;
if( !(async_ctl.lEvent & WS_FD_CLOSE) )
FD_CLR( async_ctl.ws_sock->fd, &fd_read );
}
else if( !(async_ctl.lEvent & (WS_FD_WRITE | WS_FD_OOB)) )
{
sigprocmask( SIG_UNBLOCK, &sig_block, NULL);
pause();
sigprocmask( SIG_BLOCK, &sig_block, NULL);
}
else continue;
}
else /* 0 bytes to read */
{
val = read( async_ctl.ws_sock->fd, (char*)&bytes, 4);
if( errno == EWOULDBLOCK || errno == EINTR )
{
#if __WS_ASYNC_DEBUG
printf("\twould block..\n");
#endif
continue;
}
switch( val )
{
case 0: errno = ENETDOWN; /* ENETDOWN */
case -1: /* ECONNRESET */
async_ctl.ip.lParam = WSAMAKESELECTREPLY( WS_FD_CLOSE, wsaErrno() );
break;
default: continue;
}
async_ctl.lEvent &= ~(WS_FD_CLOSE | WS_FD_READ); /* one-shot */
FD_ZERO(&fd_read); FD_ZERO(&fd_write);
}
notify_parent( WSMSG_ASYNC_SELECT );
}
else FD_SET(async_ctl.ws_sock->fd, &fd_read);
} /* connected socket */
} /* I/O socket */
} /* while */
}
/* ----------------------------------- getXbyY requests */
static void _async_fail()
{
async_ctl.lLength =
(h_errno < 0) ? (unsigned)WSAMAKEASYNCREPLY( 0, wsaErrno() )
: (unsigned)WSAMAKEASYNCREPLY( 0, wsaHerrno() );
write(async_ctl.ws_aop->fd[1], &async_ctl.lLength, sizeof(unsigned) );
#ifndef __EMX__
kill(getppid(), SIGIO); /* simulate async I/O */
#endif
pause();
}
void dump_ws_hostent_offset(struct ws_hostent* wshe)
{
int i;
char* base = (char*)wshe;
unsigned* ptr;
printf("h_name = %08x\t[%s]\n", (unsigned)wshe->h_name, base + (unsigned)wshe->h_name);
printf("h_aliases = %08x\t[%08x]\n", (unsigned)wshe->h_aliases,
(unsigned)(base + (unsigned)wshe->h_aliases));
ptr = (unsigned*)(base + (unsigned)wshe->h_aliases);
for(i = 0; ptr[i]; i++ )
{
printf("%i - %08x ", i + 1, ptr[i]);
printf(" [%s]\n", ((char*)base) + ptr[i]);
}
printf("h_length = %i\n", wshe->h_length);
}
void WS_do_async_gethost(LPWSINFO pwsi, unsigned flag )
{
int size = 0;
struct hostent* p_he;
close(async_ctl.ws_aop->fd[0]);
p_he = (flag & WSMSG_ASYNC_HOSTBYNAME)
? gethostbyname(async_ctl.init)
: gethostbyaddr(async_ctl.init,
async_ctl.lLength, async_ctl.lEvent);
if( p_he ) size = WS_dup_he(pwsi, p_he, WS_DUP_SEGPTR | WS_DUP_OFFSET );
if( size )
{
async_ctl.buffer = pwsi->buffer;
async_ctl.lLength = (unsigned)WSAMAKEASYNCREPLY( (UINT16)size, 0 );
notify_parent( flag );
}
else _async_fail();
}
void WS_do_async_getproto(LPWSINFO pwsi, unsigned flag )
{
int size = 0;
struct protoent* p_pe;
close(async_ctl.ws_aop->fd[0]);
p_pe = (flag & WSMSG_ASYNC_PROTOBYNAME)
? getprotobyname(async_ctl.init)
: getprotobynumber(async_ctl.lEvent);
if( p_pe ) size = WS_dup_pe(pwsi, p_pe, WS_DUP_SEGPTR | WS_DUP_OFFSET );
if( size )
{
async_ctl.buffer = pwsi->buffer;
async_ctl.lLength = (unsigned)WSAMAKEASYNCREPLY( (UINT16)size, 0 );
notify_parent( flag );
}
else _async_fail();
}
void WS_do_async_getserv(LPWSINFO pwsi, unsigned flag )
{
int size = 0;
struct servent* p_se;
close(async_ctl.ws_aop->fd[0]);
p_se = (flag & WSMSG_ASYNC_SERVBYNAME)
? getservbyname(async_ctl.init, async_ctl.buffer)
: getservbyport(async_ctl.lEvent, async_ctl.init);
if( p_se ) size = WS_dup_se(pwsi, p_se, WS_DUP_SEGPTR | WS_DUP_OFFSET );
if( size )
{
async_ctl.buffer = pwsi->buffer;
async_ctl.lLength = (unsigned)WSAMAKEASYNCREPLY( (UINT16)size, 0 );
notify_parent( flag );
}
else _async_fail();
}