Loweynet
| Rev. | 2bf85c03c1e059a2f75dbd48ef73be5961e12414 |
|---|---|
| Tamaño | 21,021 octetos |
| Tiempo | 2011-09-01 13:44:19 |
| Autor | hylom |
| Log Message | initial commit from 1.97b zip archive
|
amalsyah1
Fork/*=============================================================================
*
* \Pbg
*
===============================================================================
/ Copyright (C) 1997-2007 Sota. All rights reserved.
/
/ Redistribution and use in source and binary forms, with or without
/ modification, are permitted provided that the following conditions
/ are met:
/
/ 1. Redistributions of source code must retain the above copyright
/ notice, this list of conditions and the following disclaimer.
/ 2. Redistributions in binary form must reproduce the above copyright
/ notice, this list of conditions and the following disclaimer in the
/ documentation and/or other materials provided with the distribution.
/
/ THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
/ IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
/ OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
/ IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
/ INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
/ BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
/ USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
/ ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
/ (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
/ THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
/============================================================================*/
#define STRICT
#include <windows.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <windowsx.h>
#include <commctrl.h>
#include "common.h"
#include "resource.h"
#define USE_THIS 1
#define DBG_MSG 0
#define FD_CONNECT_BIT 0x0001
#define FD_CLOSE_BIT 0x0002
#define FD_ACCEPT_BIT 0x0004
#define FD_READ_BIT 0x0008
#define FD_WRITE_BIT 0x0010
typedef struct {
SOCKET Socket;
int FdConnect;
int FdClose;
int FdAccept;
int FdRead;
int FdWrite;
int Error;
} ASYNCSIGNAL;
typedef struct {
HANDLE Async;
int Done;
int ErrorDb;
} ASYNCSIGNALDATABASE;
#define MAX_SIGNAL_ENTRY 10
#define MAX_SIGNAL_ENTRY_DBASE 5
/*===== vg^Cv =====*/
static LRESULT CALLBACK SocketWndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam);
static int AskAsyncDone(SOCKET s, int *Error, int Mask);
static int AskAsyncDoneDbase(HANDLE Async, int *Error);
static int RegistAsyncTable(SOCKET s);
static int RegistAsyncTableDbase(HANDLE Async);
static int UnRegistAsyncTable(SOCKET s);
static int UnRegistAsyncTableDbase(HANDLE Async);
/*===== OQÆ =====*/
extern int TimeOut;
/*===== [JÈ[N =====*/
static const char SocketWndClass[] = "FFFTPSocketWnd";
static HWND hWndSocket;
static ASYNCSIGNAL Signal[MAX_SIGNAL_ENTRY];
static ASYNCSIGNALDATABASE SignalDbase[MAX_SIGNAL_ENTRY_DBASE];
//static HANDLE hAsyncTblAccMutex;
/*-----
*
* Parameter
*
* Return Value
* int Xe[^X
* SUCCESS/FAIL
*----------------------------------------------------------------------------*/
int MakeSocketWin(HWND hWnd, HINSTANCE hInst)
{
int i;
int Sts;
WNDCLASSEX wClass;
wClass.cbSize = sizeof(WNDCLASSEX);
wClass.style = 0;
wClass.lpfnWndProc = SocketWndProc;
wClass.cbClsExtra = 0;
wClass.cbWndExtra = 0;
wClass.hInstance = hInst;
wClass.hIcon = NULL;
wClass.hCursor = NULL;
wClass.hbrBackground = (HBRUSH)CreateSolidBrush(GetSysColor(COLOR_INFOBK));
wClass.lpszMenuName = NULL;
wClass.lpszClassName = SocketWndClass;
wClass.hIconSm = NULL;
RegisterClassEx(&wClass);
Sts = FAIL;
hWndSocket = CreateWindowEx(0, SocketWndClass, NULL,
WS_BORDER | WS_POPUP,
0, 0, 0, 0,
hWnd, NULL, hInst, NULL);
if(hWndSocket != NULL)
{
// hAsyncTblAccMutex = CreateMutex(NULL, FALSE, NULL);
for(i = 0; i < MAX_SIGNAL_ENTRY; i++)
Signal[i].Socket = INVALID_SOCKET;
for(i = 0; i < MAX_SIGNAL_ENTRY_DBASE; i++)
SignalDbase[i].Async = 0;
Sts = SUCCESS;
}
return(Sts);
}
/*-----
*
* Parameter
* ȵ
*
* Return Value
* ȵ
*----------------------------------------------------------------------------*/
void DeleteSocketWin(void)
{
// CloseHandle(hAsyncTblAccMutex);
if(hWndSocket != NULL)
DestroyWindow(hWndSocket);
return;
}
/*-----
*
* Parameter
* HWND hWnd : EChEnh
* UINT message : bZ[WÔ
* WPARAM wParam : bZ[WÌ WPARAM ø
* LPARAM lParam : bZ[WÌ LPARAM ø
*
* Return Value
* BOOL TRUE/FALSE
*----------------------------------------------------------------------------*/
static LRESULT CALLBACK SocketWndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
int Pos;
switch(message)
{
case WM_ASYNC_SOCKET :
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(Signal[Pos].Socket == (SOCKET)wParam)
{
Signal[Pos].Error = WSAGETSELECTERROR(lParam);
#if DBG_MSG
if(WSAGETSELECTERROR(lParam) != 0)
DoPrintf("####### Signal: error (%d)", WSAGETSELECTERROR(lParam));
#endif
switch(WSAGETSELECTEVENT(lParam))
{
case FD_CONNECT :
Signal[Pos].FdConnect = 1;
#if DBG_MSG
DoPrintf("####### Signal: connect (S=%x)", Signal[Pos].Socket);
#endif
break;
case FD_CLOSE :
Signal[Pos].FdClose = 1;
#if DBG_MSG
DoPrintf("####### Signal: close (S=%x)", Signal[Pos].Socket);
#endif
//SetTaskMsg("####### Signal: close (%d) (S=%x)", Pos, Signal[Pos].Socket);
break;
case FD_ACCEPT :
Signal[Pos].FdAccept = 1;
#if DBG_MSG
DoPrintf("####### Signal: accept (S=%x)", Signal[Pos].Socket);
#endif
break;
case FD_READ :
Signal[Pos].FdRead = 1;
#if DBG_MSG
DoPrintf("####### Signal: read (S=%x)", Signal[Pos].Socket);
#endif
break;
case FD_WRITE :
Signal[Pos].FdWrite = 1;
#if DBG_MSG
DoPrintf("####### Signal: write (S=%x)", Signal[Pos].Socket);
#endif
break;
}
break;
}
}
break;
case WM_ASYNC_DBASE :
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY_DBASE; Pos++)
{
if(SignalDbase[Pos].Async == (HANDLE)wParam)
{
if(HIWORD(lParam) != 0)
{
SignalDbase[Pos].ErrorDb = 1;
#if DBG_MSG
DoPrintf("##### SignalDatabase: error");
#endif
}
SignalDbase[Pos].Done = 1;
#if DBG_MSG
DoPrintf("##### SignalDatabase: Done");
#endif
break;
}
}
break;
default :
return(DefWindowProc(hWnd, message, wParam, lParam));
}
return(0);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int AskAsyncDone(SOCKET s, int *Error, int Mask)
{
int Sts;
int Pos;
Sts = NO;
*Error = 0;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(Signal[Pos].Socket == s)
{
*Error = Signal[Pos].Error;
if(Signal[Pos].Error != 0)
Sts = YES;
if((Mask & FD_CONNECT_BIT) && (Signal[Pos].FdConnect != 0))
{
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: connect (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
if((Mask & FD_CLOSE_BIT) && (Signal[Pos].FdClose != 0))
// if(Mask & FD_CLOSE_BIT)
{
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: close (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
if((Mask & FD_ACCEPT_BIT) && (Signal[Pos].FdAccept != 0))
{
Signal[Pos].FdAccept = 0;
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: accept (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
if((Mask & FD_READ_BIT) && (Signal[Pos].FdRead != 0))
{
Signal[Pos].FdRead = 0;
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: read (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
if((Mask & FD_WRITE_BIT) && (Signal[Pos].FdWrite != 0))
{
Signal[Pos].FdWrite = 0;
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: write (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY)
{
if(Mask & FD_CLOSE_BIT)
{
Sts = YES;
}
else
{
MessageBox(GetMainHwnd(), "AskAsyncDone called with unregisterd socket.", "FFFTP inner error", MB_OK);
exit(1);
}
}
return(Sts);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int AskAsyncDoneDbase(HANDLE Async, int *Error)
{
int Sts;
int Pos;
Sts = NO;
*Error = 0;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY_DBASE; Pos++)
{
if(SignalDbase[Pos].Async == Async)
{
if(SignalDbase[Pos].Done != 0)
{
*Error = SignalDbase[Pos].ErrorDb;
Sts = YES;
#if DBG_MSG
DoPrintf("### Ask: Dbase (Sts=%d, Error=%d)", Sts, *Error);
#endif
}
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY_DBASE)
{
MessageBox(GetMainHwnd(), "AskAsyncDoneDbase called with unregisterd handle.", "FFFTP inner error", MB_OK);
exit(1);
}
return(Sts);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int RegistAsyncTable(SOCKET s)
{
int Sts;
int Pos;
Sts = NO;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(Signal[Pos].Socket == s)
{
MessageBox(GetMainHwnd(), "Async socket already registerd.", "FFFTP inner error", MB_OK);
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY)
{
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(Signal[Pos].Socket == INVALID_SOCKET)
{
//SetTaskMsg("############### Regist socket (%d)", Pos);
Signal[Pos].Socket = s;
Signal[Pos].Error = 0;
Signal[Pos].FdConnect = 0;
Signal[Pos].FdClose = 0;
Signal[Pos].FdAccept = 0;
Signal[Pos].FdRead = 0;
Signal[Pos].FdWrite = 0;
Sts = YES;
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY)
{
MessageBox(GetMainHwnd(), "No more async regist space.", "FFFTP inner error", MB_OK);
exit(1);
}
}
return(Sts);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int RegistAsyncTableDbase(HANDLE Async)
{
int Sts;
int Pos;
Sts = NO;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY_DBASE; Pos++)
{
if(SignalDbase[Pos].Async == Async)
{
MessageBox(GetMainHwnd(), "Async handle already registerd.", "FFFTP inner error", MB_OK);
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY_DBASE)
{
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(SignalDbase[Pos].Async == 0)
{
//SetTaskMsg("############### Regist dbase (%d)", Pos);
SignalDbase[Pos].Async = Async;
SignalDbase[Pos].Done = 0;
SignalDbase[Pos].ErrorDb = 0;
Sts = YES;
break;
}
}
if(Pos == MAX_SIGNAL_ENTRY_DBASE)
{
MessageBox(GetMainHwnd(), "No more async dbase regist space.", "FFFTP inner error", MB_OK);
exit(1);
}
}
return(Sts);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int UnRegistAsyncTable(SOCKET s)
{
int Sts;
int Pos;
Sts = NO;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY; Pos++)
{
if(Signal[Pos].Socket == s)
{
//SetTaskMsg("############### UnRegist socket (%d)", Pos);
Signal[Pos].Socket = INVALID_SOCKET;
Sts = YES;
break;
}
}
return(Sts);
}
/*-----
*
* Parameter
*
*
* Return Value
*
*----------------------------------------------------------------------------*/
static int UnRegistAsyncTableDbase(HANDLE Async)
{
int Sts;
int Pos;
Sts = NO;
for(Pos = 0; Pos < MAX_SIGNAL_ENTRY_DBASE; Pos++)
{
if(SignalDbase[Pos].Async == Async)
{
//SetTaskMsg("############### UnRegist dbase (%d)", Pos);
SignalDbase[Pos].Async = 0;
Sts = YES;
break;
}
}
return(Sts);
}
struct hostent *do_gethostbyname(const char *Name, char *Buf, int Len, int *CancelCheckWork)
{
#if USE_THIS
struct hostent *Ret;
HANDLE hAsync;
int Error;
#if DBG_MSG
DoPrintf("# Start gethostbyname");
#endif
Ret = NULL;
*CancelCheckWork = NO;
hAsync = WSAAsyncGetHostByName(hWndSocket, WM_ASYNC_DBASE, Name, Buf, Len);
if(hAsync != NULL)
{
RegistAsyncTableDbase(hAsync);
while((*CancelCheckWork == NO) && (AskAsyncDoneDbase(hAsync, &Error) != YES))
{
Sleep(1);
if(BackgrndMessageProc() == YES)
*CancelCheckWork = YES;
}
if(*CancelCheckWork == YES)
{
WSACancelAsyncRequest(hAsync);
}
else if(Error == 0)
{
Ret = (struct hostent *)Buf;
}
UnRegistAsyncTableDbase(hAsync);
}
return(Ret);
#else
return(gethostbyname(Name));
#endif
}
SOCKET do_socket(int af, int type, int protocol)
{
SOCKET Ret;
Ret = socket(af, type, protocol);
if(Ret != INVALID_SOCKET)
{
RegistAsyncTable(Ret);
}
#if DBG_MSG
DoPrintf("# do_socket (S=%x)", Ret);
#endif
return(Ret);
}
int do_closesocket(SOCKET s)
{
#if USE_THIS
int Ret;
int Error;
int CancelCheckWork;
#if DBG_MSG
DoPrintf("# Start close (S=%x)", s);
#endif
CancelCheckWork = NO;
Ret = closesocket(s);
if(Ret == SOCKET_ERROR)
{
Error = 0;
while((CancelCheckWork == NO) && (AskAsyncDone(s, &Error, FD_CLOSE_BIT) != YES))
{
Sleep(1);
if(BackgrndMessageProc() == YES)
CancelCheckWork = YES;
}
if((CancelCheckWork == NO) && (Error == 0))
Ret = 0;
}
WSAAsyncSelect(s, hWndSocket, WM_ASYNC_SOCKET, 0);
if(BackgrndMessageProc() == YES)
CancelCheckWork = YES;
UnRegistAsyncTable(s);
#if DBG_MSG
DoPrintf("# Exit close");
#endif
return(Ret);
#else
return(closesocket(s));
#endif
}
int do_connect(SOCKET s, const struct sockaddr *name, int namelen, int *CancelCheckWork)
{
#if USE_THIS
int Ret;
int Error;
#if DBG_MSG
DoPrintf("# Start connect (S=%x)", s);
#endif
*CancelCheckWork = NO;
#if DBG_MSG
DoPrintf("## Async set: FD_CONNECT|FD_CLOSE|FD_ACCEPT|FD_READ|FD_WRITE");
#endif
Ret = WSAAsyncSelect(s, hWndSocket, WM_ASYNC_SOCKET, FD_CONNECT | FD_CLOSE | FD_ACCEPT | FD_READ | FD_WRITE);
if(Ret != SOCKET_ERROR)
{
Ret = connect(s, name, namelen);
if(Ret == SOCKET_ERROR)
{
do
{
Error = 0;
while((*CancelCheckWork == NO) && (AskAsyncDone(s, &Error, FD_CONNECT_BIT) != YES))
{
Sleep(1);
if(BackgrndMessageProc() == YES)
*CancelCheckWork = YES;
}
if(*CancelCheckWork == YES)
break;
if(Error == 0)
Ret = 0;
else
{
// Error = WSAGetLastError();
DoPrintf("#### Connect: Error=%d", Error);
}
}
while((Ret != 0) && (Error == WSAEWOULDBLOCK));
}
}
else
DoPrintf("#### Connect: AsyncSelect error (%d)", WSAGetLastError());
#if DBG_MSG
DoPrintf("# Exit connect (%d)", Ret);
#endif
return(Ret);
#else
return(connect(s, name, namelen));
#endif
}
int do_listen(SOCKET s, int backlog)
{
int Ret;
Ret = 1;
#if DBG_MSG
DoPrintf("# Start listen (S=%x)", s);
DoPrintf("## Async set: FD_CLOSE|FD_ACCEPT");
#endif
Ret = WSAAsyncSelect(s, hWndSocket, WM_ASYNC_SOCKET, FD_CLOSE | FD_ACCEPT);
if(Ret != SOCKET_ERROR)
Ret = listen(s, backlog);
#if DBG_MSG
DoPrintf("# Exit listen (%d)", Ret);
#endif
return(Ret);
}
SOCKET do_accept(SOCKET s, struct sockaddr *addr, int *addrlen)
{
#if USE_THIS
SOCKET Ret2;
int CancelCheckWork;
int Error;
#if DBG_MSG
DoPrintf("# Start accept (S=%x)", s);
#endif
CancelCheckWork = NO;
Ret2 = INVALID_SOCKET;
Error = 0;
while((CancelCheckWork == NO) && (AskAsyncDone(s, &Error, FD_ACCEPT_BIT) != YES))
{
if(AskAsyncDone(s, &Error, FD_CLOSE_BIT) == YES)
{
Error = 1;
break;
}
Sleep(1);
if(BackgrndMessageProc() == YES)
CancelCheckWork = YES;
}
if((CancelCheckWork == NO) && (Error == 0))
{
do
{
Ret2 = accept(s, addr, addrlen);
if(Ret2 != INVALID_SOCKET)
{
#if DBG_MSG
DoPrintf("## do_sccept (S=%x)", Ret2);
DoPrintf("## Async set: FD_CONNECT|FD_CLOSE|FD_ACCEPT|FD_READ|FD_WRITE");
#endif
RegistAsyncTable(Ret2);
if(WSAAsyncSelect(Ret2, hWndSocket, WM_ASYNC_SOCKET, FD_CONNECT | FD_CLOSE | FD_ACCEPT | FD_READ | FD_WRITE) == SOCKET_ERROR)
{
do_closesocket(Ret2);
Ret2 = INVALID_SOCKET;
}
break;
}
Error = WSAGetLastError();
Sleep(1);
if(BackgrndMessageProc() == YES)
break;
}
while(Error == WSAEWOULDBLOCK);
}
#if DBG_MSG
DoPrintf("# Exit accept");
#endif
return(Ret2);
#else
return(accept(s, addr, addrlen));
#endif
}
/*----- recvÌÖ --------------------------------------------------------
*
* Parameter
* SOCKET s : \Pbg
* char *buf : f[^ðÇÝÞobt@
* int len : ·³
* int flags : recvÉ^¦étO
* int *TimeOutErr : ^CAEgµ½©Ç¤©ðÔ·[N
*
* Return Value
* int : recvÌßèlƯ¶
*
* Note
* ^CAEgÌÍ TimeOut=YESARet=SOCKET_ERROR ÉÈé
*----------------------------------------------------------------------------*/
int do_recv(SOCKET s, char *buf, int len, int flags, int *TimeOutErr, int *CancelCheckWork)
{
#if USE_THIS
int Ret;
time_t StartTime;
time_t ElapseTime;
int Error;
#if DBG_MSG
DoPrintf("# Start recv (S=%x)", s);
#endif
*TimeOutErr = NO;
*CancelCheckWork = NO;
Ret = SOCKET_ERROR;
Error = 0;
if(TimeOut != 0)
time(&StartTime);
while((*CancelCheckWork == NO) && (AskAsyncDone(s, &Error, FD_READ_BIT) != YES))
{
if(AskAsyncDone(s, &Error, FD_CLOSE_BIT) == YES)
{
Ret = 0;
break;
}
Sleep(1);
if(BackgrndMessageProc() == YES)
*CancelCheckWork = YES;
else if(TimeOut != 0)
{
time(&ElapseTime);
ElapseTime -= StartTime;
if(ElapseTime >= TimeOut)
{
DoPrintf("do_recv timed out");
*TimeOutErr = YES;
*CancelCheckWork = YES;
}
}
}
if(/*(Ret != 0) && */(Error == 0) && (*CancelCheckWork == NO) && (*TimeOutErr == NO))
{
do
{
#if DBG_MSG
DoPrintf("## recv()");
#endif
Ret = recv(s, buf, len, flags);
if(Ret != SOCKET_ERROR)
break;
Error = WSAGetLastError();
Sleep(1);
if(BackgrndMessageProc() == YES)
break;
}
while(Error == WSAEWOULDBLOCK);
}
if(BackgrndMessageProc() == YES)
Ret = SOCKET_ERROR;
#if DBG_MSG
DoPrintf("# Exit recv (%d)", Ret);
#endif
return(Ret);
#else
return(recv(s, buf, len, flags));
#endif
}
int do_send(SOCKET s, const char *buf, int len, int flags, int *TimeOutErr, int *CancelCheckWork)
{
#if USE_THIS
int Ret;
time_t StartTime;
time_t ElapseTime;
int Error;
#if DBG_MSG
DoPrintf("# Start send (S=%x)", s);
#endif
*TimeOutErr = NO;
*CancelCheckWork = NO;
Ret = SOCKET_ERROR;
Error = 0;
if(TimeOut != 0)
time(&StartTime);
#if DBG_MSG
DoPrintf("## Async set: FD_CONNECT|FD_CLOSE|FD_ACCEPT|FD_READ|FD_WRITE");
#endif
WSAAsyncSelect(s, hWndSocket, WM_ASYNC_SOCKET, FD_CONNECT | FD_CLOSE | FD_ACCEPT | FD_READ | FD_WRITE);
if(BackgrndMessageProc() == YES)
*CancelCheckWork = YES;
while((*CancelCheckWork == NO) && (AskAsyncDone(s, &Error, FD_WRITE_BIT) != YES))
{
if(AskAsyncDone(s, &Error, FD_CLOSE_BIT) == YES)
{
Error = 1;
break;
}
Sleep(1);
if(BackgrndMessageProc() == YES)
*CancelCheckWork = YES;
else if(TimeOut != 0)
{
time(&ElapseTime);
ElapseTime -= StartTime;
if(ElapseTime >= TimeOut)
{
DoPrintf("do_write timed out");
*TimeOutErr = YES;
*CancelCheckWork = YES;
}
}
}
if((Error == 0) && (*CancelCheckWork == NO) && (*TimeOutErr == NO))
{
do
{
#if DBG_MSG
DoPrintf("## send()");
#endif
Ret = send(s, buf, len, flags);
if(Ret != SOCKET_ERROR)
{
#if DBG_MSG
DoPrintf("## send() OK");
#endif
break;
}
Error = WSAGetLastError();
Sleep(1);
if(BackgrndMessageProc() == YES)
break;
}
while(Error == WSAEWOULDBLOCK);
}
if(BackgrndMessageProc() == YES)
Ret = SOCKET_ERROR;
#if DBG_MSG
DoPrintf("# Exit send (%d)", Ret);
#endif
return(Ret);
#else
return(send(s, buf, len, flags));
#endif
}
/*-----
*
* Parameter
*
* Return Value
* int Xe[^X
* SUCCESS/FAIL
*----------------------------------------------------------------------------*/
int CheckClosedAndReconnect(void)
{
int Error;
int Sts;
//SetTaskMsg("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
Sts = SUCCESS;
if(AskAsyncDone(AskCmdCtrlSkt(), &Error, FD_CLOSE_BIT) == YES)
{
Sts = ReConnectCmdSkt();
}
return(Sts);
}