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portio.cpp
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portio.cpp
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// --------------------------------------------------------------
//
// Thinkpad Fan Control
//
// --------------------------------------------------------------
//
// This program and source code is in the public domain.
//
// The author claims no copyright, copyleft, license or
// whatsoever for the program itself (with exception of
// WinIO driver). You may use, reuse or distribute it's
// binaries or source code in any desired way or form,
// Useage of binaries or source shall be entirely and
// without exception at your own risk.
//
// --------------------------------------------------------------
#include "_prec.h"
#include "fancontrol.h"
#include "TVicPort.h"
// Registers of the embedded controller
#define EC_DATAPORT 0x1600 // EC data io-port 0x62
#define EC_CTRLPORT 0x1604 // EC control io-port 0x66
// Embedded controller status register bits
#define EC_STAT_OBF 0x01 // Output buffer full
#define EC_STAT_IBF 0x02 // Input buffer full
#define EC_STAT_CMD 0x08 // Last write was a command write (0=data)
// Embedded controller commands
// (write to EC_CTRLPORT to initiate read/write operation)
#define EC_CTRLPORT_READ (char)0x80
#define EC_CTRLPORT_WRITE (char)0x81
#define EC_CTRLPORT_QUERY (char)0x84
int verbosity= 0; // verbosity for the logbuf (0= nothing)
char lasterrorstring[256]= "",
logbuf[8192]= "";
//-------------------------------------------------------------------------
// read a byte from the embedded controller (EC) via port io
//-------------------------------------------------------------------------
int FANCONTROL::ReadByteFromEC(int offset, char *pdata)
{
char data= -1;
char data2= -1;
int iOK = false;
int iTimeout = 100;
int iTimeoutBuf = 1000;
int iTime= 0;
int iTick= 10;
for (iTime = 0; iTime < iTimeoutBuf; iTime+= iTick) { // wait for full buffers to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff; // or timeout iTimeoutBuf = 1000
if ( !(data & (EC_STAT_IBF | EC_STAT_OBF)) ) break;
::Sleep(iTick);}
if (data & EC_STAT_OBF) data2 = (char)ReadPort(EC_DATAPORT); //clear OBF if full
WritePort(EC_CTRLPORT, EC_CTRLPORT_READ); // tell 'em we want to "READ"
for (iTime = 0; iTime < iTimeout; iTime += iTick) { // wait for IBF and OBF to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff;
if ( !(data & (EC_STAT_IBF | EC_STAT_OBF)) ) {
iOK= true;
break;}
::Sleep(iTick);} // try again after a moment
if (!iOK) return 0;
iOK = false;
WritePort(EC_DATAPORT, offset); // tell 'em where we want to read from
if ( !(data & EC_STAT_OBF) ) {
for (iTime= 0; iTime<iTimeout; iTime+= iTick) { // wait for OBF
data = (char)ReadPort(EC_CTRLPORT) & 0xff;
if ( (data & EC_STAT_OBF) ) {
iOK= true;
break;}
::Sleep(iTick);} // try again after a moment
if (!iOK) return 0;}
*pdata = ReadPort(EC_DATAPORT);
if (verbosity>0) sprintf(logbuf+strlen(logbuf), "readec: offset= %x, data= %02x\n", offset, *pdata);
return 1;
}
//-------------------------------------------------------------------------
// write a byte to the embedded controller (EC) via port io
//-------------------------------------------------------------------------
int FANCONTROL::WriteByteToEC(int offset, char NewData)
{
char data= -1;
char data2= -1;
int iOK = false;
int iTimeout = 100;
int iTimeoutBuf = 1000;
int iTime= 0;
int iTick= 10;
for (iTime = 0; iTime < iTimeoutBuf; iTime+= iTick) { // wait for full buffers to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff; // or timeout iTimeoutBuf = 1000
if ( !(data & (EC_STAT_IBF | EC_STAT_OBF)) ) break;
::Sleep(iTick);}
if (data & EC_STAT_OBF) data2 = (char)ReadPort(EC_DATAPORT); //clear OBF if full
for (iTime= 0; iTime<iTimeout; iTime+= iTick) { // wait for IOBF to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff;
if ( !(data & EC_STAT_OBF) ) {
iOK= true;
break;}
::Sleep(iTick);} // try again after a moment
if (!iOK) return 0;
iOK = false;
WritePort(EC_CTRLPORT, EC_CTRLPORT_WRITE); // tell 'em we want to "WRITE"
for (iTime= 0; iTime<iTimeout; iTime+= iTick) { // wait for IBF and OBF to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff;
if ( !(data & (EC_STAT_IBF | EC_STAT_OBF)) ) {
iOK= true;
break;}
::Sleep(iTick);} // try again after a moment
if (!iOK) return 0;
iOK = false;
WritePort(EC_DATAPORT, offset); // tell 'em where we want to write to
for (iTime= 0; iTime<iTimeout; iTime+= iTick) { // wait for IBF and OBF to clear
data = (char)ReadPort(EC_CTRLPORT) & 0xff;
if ( !(data & (EC_STAT_IBF | EC_STAT_OBF)) ) {
iOK= true;
break;}
::Sleep(iTick);} // try again after a moment
if (!iOK) return 0;
iOK = false;
WritePort(EC_DATAPORT, NewData); // tell 'em what we want to write there
return 1;
}
//-------------------------------------------------------------------------
// experimental code
//-------------------------------------------------------------------------
void
FANCONTROL::Test(void)
{
/*
//
// defines from various DDK sources
//
#define IOCTL_ACPI_ASYNC_EVAL_METHOD CTL_CODE(FILE_DEVICE_ACPI, 0, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_ACPI_EVAL_METHOD CTL_CODE(FILE_DEVICE_ACPI, 1, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_ACPI_ACQUIRE_GLOBAL_LOCK CTL_CODE(FILE_DEVICE_ACPI, 4, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define IOCTL_ACPI_RELEASE_GLOBAL_LOCK CTL_CODE(FILE_DEVICE_ACPI, 5, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define FILE_DEVICE_ACPI 0x00000032
#define CTL_CODE( DeviceType, Function, Method, Access ) ( \
((DeviceType) << 16) | ((Access) << 14) | ((Function) << 2) | (Method) \
)
#define METHOD_BUFFERED 0
#define METHOD_IN_DIRECT 1
#define METHOD_OUT_DIRECT 2
#define METHOD_NEITHER 3
#define FILE_ANY_ACCESS 0
#define FILE_SPECIAL_ACCESS (FILE_ANY_ACCESS)
#define FILE_READ_ACCESS ( 0x0001 ) // file & pipe
#define FILE_WRITE_ACCESS ( 0x0002 ) // file & pipe
//
// try to communicate with the ACPI driver via IOCTL
// (doesn't work, driver won't open on CreateFile under
// any name)
//
HANDLE hDevice= ::CreateFile( "\\\\.\\DRIVER\\ACPI",
GENERIC_WRITE,
FILE_SHARE_WRITE,
NULL,
OPEN_EXISTING,
0,
NULL );
if (hDevice!=INVALID_HANDLE_VALUE) {
USHORT t[2];
ULONG howmany= 0;
ULONG ret= 0;
BOOL ioctlresult= 0;
t[0] = (USHORT)0;
t[1] = (USHORT)0;
ioctlresult= DeviceIoControl(
hDevice,
IOCTL_ACPI_ACQUIRE_GLOBAL_LOCK,
t,
sizeof(ULONG),
&ret,
sizeof(ULONG),
&howmany,
NULL );
::CloseHandle(hDevice);
}
*/
}