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/*
* hopf_PCI_io.c
* Read data from a hopf PCI clock using the ATLSoft WinNT driver.
*
* Date: 21.03.2000 Revision: 01.10
*
* Copyright (C) 1999, 2000 by Bernd Altmeier altmeier@ATLSoft.de
*
*/
/*
* Ignore nonstandard extension warning.
* This happens when including winioctl.h
*/
#pragma warning(disable: 4201)
#define _FILESYSTEMFSCTL_
#include <config.h>
#include <windows.h>
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <winioctl.h>
#include "ntp_stdlib.h"
#include "hopf_PCI_io.h"
#define ATL_PASSTHROUGH_READ_TOSIZE (3 * sizeof(ULONG))
#define ATL_PASSTHROUGH_READ_FROMSIZE 0
#define IOCTL_ATLSOFT_PASSTHROUGH_READ CTL_CODE( \
FILE_DEVICE_UNKNOWN, \
0x805, \
METHOD_BUFFERED, \
FILE_ANY_ACCESS)
HANDLE hDevice = NULL; // this is the handle to the PCI Device
HANDLE hRdEvent;
OVERLAPPED Rdoverlapped;
OVERLAPPED * pRdOverlapped;
ULONG iobuffer[256];
DWORD cbReturned;
BOOL HaveBoard = FALSE;
struct {
ULONG region;
ULONG offset;
ULONG count;
} io_params;
BOOL
OpenHopfDevice(void)
{
OSVERSIONINFO VersionInfo;
ULONG deviceNumber;
CHAR deviceName[255];
VersionInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
GetVersionEx(&VersionInfo);
switch (VersionInfo.dwPlatformId) {
case VER_PLATFORM_WIN32_WINDOWS: // Win95/98
return FALSE; // "NTP does not support Win 95-98."
break;
case VER_PLATFORM_WIN32_NT: // WinNT
deviceNumber = 0;
snprintf(deviceName, sizeof(deviceName),
"\\\\.\\hclk6039%d", deviceNumber + 1);
hDevice = CreateFile(
deviceName,
GENERIC_WRITE | GENERIC_READ,
FILE_SHARE_WRITE | FILE_SHARE_READ,
NULL,
OPEN_EXISTING,
FILE_FLAG_DELETE_ON_CLOSE | FILE_FLAG_OVERLAPPED,
NULL);
break;
default:
hDevice = INVALID_HANDLE_VALUE;
break;
} // end switch
if (INVALID_HANDLE_VALUE == hDevice) // the system didn't return a handle
return FALSE; //"A handle to the driver could not be obtained properly"
// an event to be used for async transfers
hRdEvent = CreateEvent(
NULL,
TRUE,
FALSE,
NULL);
if (INVALID_HANDLE_VALUE == hRdEvent)
return FALSE; // the system didn't return a handle
pRdOverlapped = &Rdoverlapped;
pRdOverlapped->hEvent = hRdEvent;
HaveBoard = TRUE; // board installed and we have access
return TRUE;
} // end of OpenHopfDevice()
BOOL
CloseHopfDevice(void)
{
CloseHandle(hRdEvent);// When done, close the handle to the driver
return CloseHandle(hDevice);
} // end of CloseHopfDevice()
void
ReadHopfDevice(void)
{
if (!HaveBoard)
return;
DeviceIoControl(
hDevice,
IOCTL_ATLSOFT_PASSTHROUGH_READ,
&io_params,
ATL_PASSTHROUGH_READ_TOSIZE,
iobuffer,
ATL_PASSTHROUGH_READ_FROMSIZE
+ io_params.count * sizeof(ULONG),
&cbReturned,
pRdOverlapped
);
}
#ifdef NOTUSED
void
GetHardwareData(
LPDWORD Data32,
WORD Ofs
)
{
io_params.region = 1;
io_params.offset = Ofs;
io_params.count = 1;
ReadHopfDevice();
*Data32 = iobuffer[0];
}
#endif /* NOTUSED */
void
GetHopfTime(
LPHOPFTIME Data,
DWORD Offset
)
{
io_params.region = 1;
io_params.offset = Offset;
io_params.count = 4;
ReadHopfDevice();
Data->wHour = 0;
Data->wMinute = 0;
Data->wSecond = 0;
while (iobuffer[0] >= 60 * 60 * 1000) {
iobuffer[0] = iobuffer[0] - 60 * 60 * 1000;
Data->wHour++;
}
while (iobuffer[0] >= 60 * 1000) {
iobuffer[0] = iobuffer[0] - 60 * 1000;
Data->wMinute++;
}
while (iobuffer[0] >= 1000) {
iobuffer[0] = iobuffer[0] - 1000;
Data->wSecond++;
}
Data->wMilliseconds = LOWORD(iobuffer[0]);
Data->wDay = HIBYTE(HIWORD(iobuffer[1]));
Data->wMonth = LOBYTE(HIWORD(iobuffer[1]));
Data->wYear = LOWORD(iobuffer[1]);
Data->wDayOfWeek = HIBYTE(HIWORD(iobuffer[2]));
if (Data->wDayOfWeek == 7) // Dow Korrektur
Data->wDayOfWeek = 0;
io_params.region = 1;
io_params.offset += 0x08;
io_params.count = 1;
ReadHopfDevice();
Data->wStatus = LOBYTE(HIWORD(iobuffer[0]));
}
#ifdef NOTUSED
void
GetHopfLocalTime(
LPHOPFTIME Data
)
{
DWORD Offset = 0;
GetHopfTime(Data, Offset);
}
#endif /* NOTUSED */
void
GetHopfSystemTime(
LPHOPFTIME Data
)
{
DWORD Offset = 0x10;
GetHopfTime(Data,Offset);
}
#ifdef NOTUSED
void
GetSatData(
LPSATSTAT Data
)
{
io_params.region = 1;
io_params.offset = 0xb0;
io_params.count = 5;
ReadHopfDevice();
Data->wVisible = HIBYTE(HIWORD(iobuffer[0]));
Data->wMode = LOBYTE(LOWORD(iobuffer[0]));
Data->wSat0 = HIBYTE(HIWORD(iobuffer[1]));
Data->wRat0 = LOBYTE(HIWORD(iobuffer[1]));
Data->wSat1 = HIBYTE(LOWORD(iobuffer[1]));
Data->wRat1 = LOBYTE(LOWORD(iobuffer[1]));
Data->wSat2 = HIBYTE(HIWORD(iobuffer[2]));
Data->wRat2 = LOBYTE(HIWORD(iobuffer[2]));
Data->wSat3 = HIBYTE(LOWORD(iobuffer[2]));
Data->wRat3 = LOBYTE(LOWORD(iobuffer[2]));
Data->wSat4 = HIBYTE(HIWORD(iobuffer[3]));
Data->wRat4 = LOBYTE(HIWORD(iobuffer[3]));
Data->wSat5 = HIBYTE(LOWORD(iobuffer[3]));
Data->wRat5 = LOBYTE(LOWORD(iobuffer[3]));
Data->wSat6 = HIBYTE(HIWORD(iobuffer[4]));
Data->wRat6 = LOBYTE(HIWORD(iobuffer[4]));
Data->wSat7 = HIBYTE(LOWORD(iobuffer[4]));
Data->wRat7 = LOBYTE(LOWORD(iobuffer[4]));
}
void
GetDiffTime(
LPLONG Data
)
{
io_params.region = 1;
io_params.offset = 0x0c;
io_params.count = 1;
ReadHopfDevice();
*Data = iobuffer[0];
}
void
GetPosition(
LPGPSPOS Data
)
{
io_params.region = 1;
io_params.offset = 0x90; // Positionsdaten Länge
io_params.count = 1;
ReadHopfDevice();
Data->wLongitude = iobuffer[0]; //in Millisekunden
io_params.region = 1;
io_params.offset = 0xa0; // Positionsdaten Breite
io_params.count = 1;
ReadHopfDevice();
Data->wLatitude = iobuffer[0];
Data->wAltitude = 0;
}
void
GetHardwareVersion(
LPCLOCKVER Data
)
{
int i;
io_params.region = 1;
io_params.offset = 0x50;
io_params.count = 12;
ReadHopfDevice();
Data->cVersion[0] = '\0';
iobuffer[13] = 0;
for (i = 0; i < 13; i++) {
Data->cVersion[i * 4 ] = HIBYTE(HIWORD(iobuffer[i]));
Data->cVersion[i * 4 + 1] = LOBYTE(HIWORD(iobuffer[i]));
Data->cVersion[i * 4 + 2] = HIBYTE(LOWORD(iobuffer[i]));
Data->cVersion[i * 4 + 3] = LOBYTE(LOWORD(iobuffer[i]));
}
}
void
GetDCFAntenne(
LPDCFANTENNE Data
)
{
io_params.region = 1;
io_params.offset = 0xcc;
io_params.count = 1;
ReadHopfDevice();
Data->bStatus1 = HIBYTE(HIWORD(iobuffer[0]));
Data->bStatus = LOBYTE(HIWORD(iobuffer[0]));
Data->wAntValue = LOWORD(iobuffer[0]);
}
#endif /* NOTUSED */
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