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|
#if defined(__linux__) || defined(__FreeBSD__)
/*********************************************************************
*
* Filename: smapidev.c
* Description: IBM SMAPI (System Management API) interface functions
* Author: Bill Mair, Thomas Hood
* Created: 19 July 1999
*
* Please report bugs to the author ASAP.
*
* Copyright (c) 1999 J.D. Thomas Hood and Bill Mair,
* All rights reserved
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* To receive a copy of the GNU General Public License, please write
* to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA
*
********************************************************************/
#include <fcntl.h>
#include <stdlib.h>
#ifdef __linux__
#include <linux/unistd.h>
#else
#include <unistd.h>
#endif
#include <getopt.h>
#include <sys/ioctl.h>
#include <errno.h>
#ifdef __linux__
#include <linux/types.h>
#else
#include <sys/types.h>
#endif
#include <stdio.h>
#include <string.h>
#ifndef __linux__
typedef uint8_t __u8 ;
typedef uint16_t __u16 ;
typedef uint32_t __u32 ;
#endif
#include "thinkpad_common.h"
/*#include "thinkpad.h" */
#include "smapi.h"
#include "smapidev.h"
/****** defines ******/
#define SZ_SMAPIDEV_VERSION "2.0"
#define SZ_SMAPIDEV_NAME "smapidev"
/*
* The structures may need to be extended if more
* functionality is added to the SMAPI by IBM.
*
* To cover this, future releases can check the size
* defined in sizeStruct, and reduce the amount of
* information put into the structure accordingly.
*/
#define SIZE_BIOSINFO_V1 ((size_t)24)
#define SIZE_CPUINFO_V1 ((size_t)16)
#define SIZE_DISPLAYINFO_V1 ((size_t) 8)
#define SIZE_DOCKINGINFO_V1 ((size_t)12)
#define SIZE_ULTRABAYINFO_V1 ((size_t) 8)
#define SIZE_SLAVEINFO_V1 ((size_t)12)
#define SIZE_SENSORINFO_V1 ((size_t) 8)
#define SIZE_SCREENREFRESHINFO_V1 ((size_t)12)
#define SIZE_DISPLAYCAP_V1 ((size_t)12)
/****** variables ******/
char szSmapidevName[] = SZ_SMAPIDEV_NAME;
/****** utility functions ******/
/*
* This function returns the binary value of a two-digit bcd number
* If the bcd8 value is 0xFF, as it may be if a location has never been
* initialized in the ThinkPad CMOS RAM, then 0xFF is returned as the
* binary equivalent.
*/
byte byte_of_bcd8( bcd8_t bcd8The )
{
byte bTens, bUnits;
/* catch uninitialized values: simply return them */
if ( bcd8The == 0xFF ) return 0xFF;
bUnits = (byte)bcd8The & 0xF;
bTens = (byte)(bcd8The & 0xF0) >> 4;
if ( bUnits > 9 || bTens > 9 ) {
printf( "%s: Warning: value 0x%x which is supposed to be in BCD format is not; not converting.\n", szSmapidevName, bcd8The );
return (byte)bcd8The;
}
return bUnits + (bTens * 10);
}
bcd8_t bcd8_of_byte( byte bThe )
{
byte bTens, bUnits;
if ( bThe > 99 ) {
printf( "%s: the value %d being converted to BCD format will be limited to 99.\n", szSmapidevName, bThe );
bThe = 99;
}
bTens = bThe / (byte)10;
bUnits = bThe - (bTens * (byte)10);
return (bTens << 4) | bUnits;
}
/*
* This function returns the SMAPI BIOS error code if there is one,
* otherwise the ioctl errno as a negative number
*/
int ioctl_smapi( int intFiledesc, smapi_ioparm_t *pioparmThe )
{
int intRtn;
intRtn = ioctl( intFiledesc, IOCTL_SMAPI_REQUEST, pioparmThe );
if ( intRtn && errno == ETHINKPAD_SUBDRIVER ) return pioparmThe->out.bRc;
if ( intRtn ) return -errno;
return 0;
}
/****** functions ******/
int smapidev_GetInfo( smapidev_info_t *pinfoThe )
{
strncpy( pinfoThe->szVersion, SZ_SMAPIDEV_VERSION, LEN_VERSION_MAX );
/*** Make sure that the returned string is terminated ***/
pinfoThe->szVersion[LEN_VERSION_MAX] = '\0';
return 0;
}
/*** smapi-module-access functions ***/
/*
* The Technical Reference fails to mention that the returned
* BIOS revision values are in BCD format
*/
int smapidev_GetBiosInfo(
int intFiledesc,
smapidev_biosinfo_t *pbiosinfoThe
) {
bcd8_t bcd8SysHigh, bcd8SysLow;
bcd8_t bcd8SysMgmtHigh, bcd8SysMgmtLow;
bcd8_t bcd8SMAPIIfaceHigh, bcd8SMAPIIfaceLow;
bcd8_t bcd8VideoHigh, bcd8VideoLow;
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pbiosinfoThe->sizeStruct != SIZE_BIOSINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetBiosInfo\n" , pbiosinfoThe->sizeStruct, SIZE_BIOSINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 0;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pbiosinfoThe->wSysId = ioparmThe.out.wParm1;
pbiosinfoThe->wCountryCode = ioparmThe.out.wParm2;
bcd8SysHigh = (bcd8_t)( ioparmThe.out.wParm3 >> 8 );
bcd8SysLow = (bcd8_t)( ioparmThe.out.wParm3 & 0xFF );
pbiosinfoThe->wSysBiosRevMajor = (word) byte_of_bcd8( bcd8SysHigh );
pbiosinfoThe->wSysBiosRevMinor = (word) byte_of_bcd8( bcd8SysLow );
bcd8SysMgmtHigh = (bcd8_t)( (ioparmThe.out.dwParm4 >> 8) & 0xFF );
bcd8SysMgmtLow = (bcd8_t)( ioparmThe.out.dwParm4 & 0xFF );
pbiosinfoThe->wSysMgmtBiosRevMajor = (word) byte_of_bcd8( bcd8SysMgmtHigh );
pbiosinfoThe->wSysMgmtBiosRevMinor = (word) byte_of_bcd8( bcd8SysMgmtLow );
bcd8SMAPIIfaceHigh = (bcd8_t)( (ioparmThe.out.dwParm5 >> 8) & 0xFF );
bcd8SMAPIIfaceLow = (bcd8_t)( ioparmThe.out.dwParm5 & 0xFF );
pbiosinfoThe->wSmapiBiosIfaceRevMajor = (word) byte_of_bcd8( bcd8SMAPIIfaceHigh );
pbiosinfoThe->wSmapiBiosIfaceRevMinor = (word) byte_of_bcd8( bcd8SMAPIIfaceLow );
/*** Video BIOS info ***/
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 8;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
bcd8VideoHigh = (bcd8_t)( (ioparmThe.out.wParm1 >> 8) );
bcd8VideoLow = (bcd8_t)( ioparmThe.out.wParm1 & 0xFF );
pbiosinfoThe->wVideoBiosRevMajor = (word) byte_of_bcd8( bcd8VideoHigh );
pbiosinfoThe->wVideoBiosRevMinor = (word) byte_of_bcd8( bcd8VideoLow );
return 0;
}
int smapidev_GetCpuInfo(
int intFiledesc,
smapidev_cpuinfo_t *pcpuinfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pcpuinfoThe->sizeStruct != SIZE_CPUINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetCpuInfo\n" , pcpuinfoThe->sizeStruct, SIZE_CPUINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 1;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pcpuinfoThe->wManufacturer = (word)( 0xFF & ioparmThe.out.wParm1 );
pcpuinfoThe->wType = (word)( 0xFF & (ioparmThe.out.wParm2 >> 8) );
pcpuinfoThe->wStepping = (word)( 0xFF & ioparmThe.out.wParm2 );
pcpuinfoThe->wClock = (word)( 0xFF & (ioparmThe.out.wParm3 >> 8) );
if ( pcpuinfoThe->wClock == 0xfe )
pcpuinfoThe->wClock = (word) ioparmThe.out.dwParm4;
pcpuinfoThe->wInternalClock = (word)( 0xFF & ioparmThe.out.wParm3 );
if ( pcpuinfoThe->wInternalClock == 0xfe )
pcpuinfoThe->wInternalClock = (word) ioparmThe.out.dwParm5;
return 0;
}
int smapidev_GetDisplayInfo(
int intFiledesc,
smapidev_displayinfo_t *pdisplayinfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pdisplayinfoThe->sizeStruct != SIZE_DISPLAYINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetDisplayInfo\n" , pdisplayinfoThe->sizeStruct, SIZE_DISPLAYINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 2;
ioparmThe.in.wParm1 = (word) 0x300;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pdisplayinfoThe->bPanelType = (byte)(ioparmThe.out.wParm1 >> 8);
pdisplayinfoThe->bPanelDim = (byte)(ioparmThe.out.wParm1 & 0xFF);
pdisplayinfoThe->bCrtType = (byte)(ioparmThe.out.wParm2 >> 8);
pdisplayinfoThe->bCrtFeatures = (byte)(ioparmThe.out.wParm2 & 0xFF);
return 0;
}
int smapidev_GetDockingInfo(
int intFiledesc,
smapidev_dockinginfo_t *pdockinginfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pdockinginfoThe->sizeStruct != SIZE_DOCKINGINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetDockingInfo\n" , pdockinginfoThe->sizeStruct, SIZE_DOCKINGINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 3;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pdockinginfoThe->wID = ioparmThe.out.wParm1;
pdockinginfoThe->fDocked = (flag_t)( ioparmThe.out.bSubRc & 1);
pdockinginfoThe->fKeyUnlocked = (flag_t)((ioparmThe.out.bSubRc >> 6) & 1);
pdockinginfoThe->fBusConnected = (flag_t)((ioparmThe.out.bSubRc >> 7) & 1);
return 0;
}
int smapidev_GetUltrabayInfo(
int intFiledesc,
smapidev_ultrabayinfo_t *pultrabayinfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pultrabayinfoThe->sizeStruct != SIZE_ULTRABAYINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetUltrabayInfo\n" , pultrabayinfoThe->sizeStruct, SIZE_ULTRABAYINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 4;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pultrabayinfoThe->bType = (byte)(ioparmThe.out.wParm2 >> 8);
pultrabayinfoThe->bID = (byte)(ioparmThe.out.wParm2 & 0xFF);
return 0;
}
/*
* The ThinkPad 560Z Technical Reference describes function 0:6 as
* "Get Power Management Module Information" while the ThinkPad 600
* describes it as "Get Slave Micro Control Unit Information"
*/
int smapidev_GetSlaveControllerInfo(
int intFiledesc,
smapidev_slaveinfo_t *pslaveinfoThe
) {
smapi_ioparm_t ioparmThe;
bcd8_t bcd8High = 0, bcd8Low = 0;
flag_t fInvalidID;
int intRtn;
/* Check structure size */
if( pslaveinfoThe->sizeStruct != SIZE_SLAVEINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetSlaveControllerInfo\n" , pslaveinfoThe->sizeStruct, SIZE_SLAVEINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 6;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
if ( ioparmThe.out.wParm2 == 0xFFFF ) {
fInvalidID = 1;
} else {
fInvalidID = 0;
bcd8High = (bcd8_t)( ioparmThe.out.wParm2 >> 8 );
bcd8Low = (bcd8_t)( ioparmThe.out.wParm2 & 0xFF );
}
pslaveinfoThe->fAscii = (ioparmThe.out.bSubRc == 0);
if ( fInvalidID ) {
pslaveinfoThe->wIDMajor = 0xFFFF;
pslaveinfoThe->wIDMinor = 0xFFFF;
} else {
pslaveinfoThe->wIDMajor = byte_of_bcd8( bcd8High );
pslaveinfoThe->wIDMinor = byte_of_bcd8( bcd8Low );
}
pslaveinfoThe->szID[0] = (char)(0xFF&(ioparmThe.out.wParm2>>8));
pslaveinfoThe->szID[1] = (char)(0xFF&ioparmThe.out.wParm2);
pslaveinfoThe->szID[2] = '\0'; /* Add zero termination */
return 0;
}
int smapidev_GetSensorInfo(
int intFiledesc,
smapidev_sensorinfo_t *psensorinfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( psensorinfoThe->sizeStruct != SIZE_SENSORINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetSensorInfo\n" , psensorinfoThe->sizeStruct, SIZE_SENSORINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 7;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
psensorinfoThe->fLidClosed = (ioparmThe.out.wParm2 >> 8) & 1;
psensorinfoThe->fKeyboardOpen = (ioparmThe.out.wParm2 >> 9) & 1;
psensorinfoThe->fACAdapterAttached = (ioparmThe.out.wParm2 >> 10) & 1;
return 0;
}
int smapidev_GetScreenRefreshInfo(
int intFiledesc,
word wMode,
smapidev_screenrefreshinfo_t *pscreenrefreshinfoThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pscreenrefreshinfoThe->sizeStruct != SIZE_SCREENREFRESHINFO_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetScreenRefreshInfo\n" , pscreenrefreshinfoThe->sizeStruct, SIZE_SCREENREFRESHINFO_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0;
ioparmThe.in.bSubFunc = (byte) 9;
ioparmThe.in.wParm1 = wMode;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pscreenrefreshinfoThe->f43i = (ioparmThe.out.wParm2 >> 3) & 1;
pscreenrefreshinfoThe->f48i = (ioparmThe.out.wParm2 >> 7) & 1;
pscreenrefreshinfoThe->f56 = (ioparmThe.out.wParm2 >> 4) & 1;
pscreenrefreshinfoThe->f60 = ioparmThe.out.wParm2 & 1;
pscreenrefreshinfoThe->f70 = (ioparmThe.out.wParm2 >> 5) & 1;
pscreenrefreshinfoThe->f72 = (ioparmThe.out.wParm2 >> 1) & 1;
pscreenrefreshinfoThe->f75 = (ioparmThe.out.wParm2 >> 2) & 1;
pscreenrefreshinfoThe->f85 = (ioparmThe.out.wParm2 >> 6) & 1;
return 0;
}
int smapidev_GetDisplayCapability(
int intFiledesc,
smapidev_stateplace_t stateplace,
smapidev_displaycap_t *pdisplaycapThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
/* Check structure size */
if( pdisplaycapThe->sizeStruct != SIZE_DISPLAYCAP_V1 ) {
# if DEBUG_STRUCT_SIZES
printf( "Declared size %d does not match expected size %d in GetDisplayCapability\n" , pdisplaycapThe->sizeStruct, SIZE_DISPLAYCAP_V1 );
# endif
return ERR_SMAPIDEV_STRUCTURE_SIZE_INVALID;
}
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0x10;
ioparmThe.in.bSubFunc = (byte) 0;
switch ( stateplace ) {
case SMAPIDEV_STATEPLACE_CMOS: ioparmThe.in.wParm1 = (word) 1; break;
case SMAPIDEV_STATEPLACE_CURR: ioparmThe.in.wParm1 = (word) 0; break;
case SMAPIDEV_STATEPLACE_CMOS_AND_CURR:
default: return ERR_SMAPIDEV_PARM_INVALID;
}
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
pdisplaycapThe->fSupported = (flag_t)(ioparmThe.out.wParm2 & 1);
switch ( ioparmThe.out.wParm2 & 0xFF ) {
case 0:
pdisplaycapThe->tv = SMAPIDEV_DISPLAYCAPTV_NONE;
break;
case 1:
pdisplaycapThe->tv = SMAPIDEV_DISPLAYCAPTV_NONSIMULTANEOUS;
break;
default:
pdisplaycapThe->tv = SMAPIDEV_DISPLAYCAPTV_OTHER;
return ERR_SMAPIDEV_SMAPI_RESULT_NOT_UNDERSTOOD;
}
return 0;
}
int smapidev_GetDisplayState(
int intFiledesc,
smapidev_stateplace_t stateplace,
smapidev_dispmode_t dispmodeThe,
smapidev_ablestate_t *pablestateThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0x10;
ioparmThe.in.bSubFunc = (byte) 0;
switch ( stateplace ) {
case SMAPIDEV_STATEPLACE_CMOS: ioparmThe.in.wParm1 = (word) 1; break;
case SMAPIDEV_STATEPLACE_CURR: ioparmThe.in.wParm1 = (word) 0; break;
case SMAPIDEV_STATEPLACE_CMOS_AND_CURR:
default: return ERR_SMAPIDEV_PARM_INVALID;
}
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
switch( dispmodeThe )
{
case SMAPIDEV_DISPMODE_INTERNAL :
*pablestateThe = ( ioparmThe.out.wParm2 & 0x100 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
case SMAPIDEV_DISPMODE_CRT :
*pablestateThe = ( ioparmThe.out.wParm2 & 0x200 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
case SMAPIDEV_DISPMODE_TV :
*pablestateThe = ( ioparmThe.out.wParm2 & 0x400 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
case SMAPIDEV_DISPMODE_CRT_DETECTION_IGNORE :
*pablestateThe = ( ioparmThe.out.wParm2 & 0x4000 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
case SMAPIDEV_DISPMODE_DUAL :
*pablestateThe = ( ioparmThe.out.wParm2 & 0x8000 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
case SMAPIDEV_DISPMODE_SELECT_TV :
*pablestateThe = ( ioparmThe.out.dwParm4 & 1 ) ? SMAPIDEV_ABLESTATE_ENABLED : SMAPIDEV_ABLESTATE_DISABLED ;
break;
default:
return ERR_SMAPIDEV_PARM_INVALID;
}
return 0;
}
int smapidev_SetDisplayState(
int intFiledesc,
smapidev_stateplace_t stateplace,
smapidev_dispmode_t dispmodeThe,
smapidev_ablestate_t ablestateThe
) {
smapi_ioparm_t ioparmGet;
smapi_ioparm_t ioparmSet;
int intRtn;
/* We can only update CMOS and current state together */
if ( stateplace != SMAPIDEV_STATEPLACE_CMOS_AND_CURR )
return ERR_SMAPIDEV_PARM_INVALID;
/* No SMAPIDEV_STATE_AUTO or other invalid values are allowed here */
if( ablestateThe != SMAPIDEV_ABLESTATE_DISABLED && ablestateThe != SMAPIDEV_ABLESTATE_ENABLED )
{
return ERR_SMAPIDEV_PARM_INVALID;
}
/* Get the current CMOS state */
memset( &ioparmGet, 0, sizeof( ioparmGet ) );
ioparmGet.in.bFunc = (byte) 0x10;
ioparmGet.in.bSubFunc = (byte) 0;
ioparmGet.in.wParm1 = (word) 1;
intRtn = ioctl_smapi( intFiledesc, &ioparmGet );
if ( intRtn ) return intRtn;
memset( &ioparmSet, 0, sizeof( ioparmSet ) );
ioparmSet.in.bFunc = (byte) 0x10;
ioparmSet.in.bSubFunc = (byte) 1;
ioparmSet.in.wParm1 = ioparmGet.out.wParm2 & 0xC700;
ioparmSet.in.dwParm4 = ioparmGet.out.dwParm4 & 0x0001;
switch( dispmodeThe )
{
case SMAPIDEV_DISPMODE_INTERNAL :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.wParm1 |= 0x100;
else
ioparmSet.in.wParm1 &= ~0x100;
break;
case SMAPIDEV_DISPMODE_CRT :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.wParm1 |= 0x200;
else
ioparmSet.in.wParm1 &= ~0x200;
break;
case SMAPIDEV_DISPMODE_TV :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.wParm1 |= 0x400;
else
ioparmSet.in.wParm1 &= ~0x400;
break;
case SMAPIDEV_DISPMODE_CRT_DETECTION_IGNORE :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.wParm1 |= 0x4000;
else
ioparmSet.in.wParm1 &= ~0x4000;
break;
case SMAPIDEV_DISPMODE_DUAL :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.wParm1 |= 0x8000;
else
ioparmSet.in.wParm1 &= ~0x8000;
break;
case SMAPIDEV_DISPMODE_SELECT_TV :
if( ablestateThe == SMAPIDEV_ABLESTATE_ENABLED )
ioparmSet.in.dwParm4 |= 0x1;
else
ioparmSet.in.dwParm4 &= ~0x1;
break;
default:
return ERR_SMAPIDEV_PARM_INVALID;
}
return ioctl_smapi( intFiledesc, &ioparmSet );
}
int smapidev_GetPowerExpenditureMode(
int intFiledesc,
smapidev_powersrc_t powersrcThe,
smapidev_powermode_t *ppowermodeThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
byte bModeAC, bModeBat, bModeSelected;
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0x22;
ioparmThe.in.bSubFunc = (byte) 0;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
bModeAC = (byte)(ioparmThe.out.wParm2 & 0xFF);
bModeBat = (byte)(ioparmThe.out.wParm2 >> 8);
bModeSelected = (powersrcThe == SMAPIDEV_POWERSRC_AC) ? bModeAC : bModeBat;
switch ( bModeSelected ) {
case 0: *ppowermodeThe = SMAPIDEV_POWERMODE_HIGH; break;
case 1: *ppowermodeThe = SMAPIDEV_POWERMODE_AUTO; break;
case 2: *ppowermodeThe = SMAPIDEV_POWERMODE_MANUAL; break;
default:
case 3: *ppowermodeThe = SMAPIDEV_POWERMODE_UNRECOGNIZED; break;
}
return 0;
}
int smapidev_SetPowerExpenditureMode(
int intFiledesc,
smapidev_powersrc_t powersrcThe,
smapidev_powermode_t powermodeThe
) {
smapi_ioparm_t ioparmThe;
int intRtn;
byte bMode;
bMode =
(powermodeThe == SMAPIDEV_POWERMODE_HIGH) ? 0 :
(powermodeThe == SMAPIDEV_POWERMODE_AUTO) ? 1 :
2
;
memset( &ioparmThe, 0, sizeof( ioparmThe ) );
ioparmThe.in.bFunc = (byte) 0x22;
ioparmThe.in.bSubFunc = (byte) 0;
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
ioparmThe.in.bFunc = (byte) 0x22;
ioparmThe.in.bSubFunc = (byte) 1;
ioparmThe.in.wParm1 = ioparmThe.out.wParm2;
if ( powersrcThe == SMAPIDEV_POWERSRC_AC ) {
ioparmThe.in.wParm1 &= 0xff00;
ioparmThe.in.wParm1 |= bMode;
} else { /* powersrcThe == SMAPIDEV_POWERSRC_BATTERY */
ioparmThe.in.wParm1 &= 0x00ff;
ioparmThe.in.wParm1 |= ((word)bMode) << 8;
}
intRtn = ioctl_smapi( intFiledesc, &ioparmThe );
if ( intRtn ) return intRtn;
return 0;
}
#else
int smapi_dummy(){}
#endif
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