mirror of
https://github.com/reactos/reactos.git
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c501d8112c
svn path=/branches/aicom-network-fixes/; revision=34994
291 lines
6.7 KiB
C
291 lines
6.7 KiB
C
/*
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* PROJECT: ReactOS HAL
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* LICENSE: GPL - See COPYING in the top level directory
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* FILE: hal/halx86/generic/cmos.c
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* PURPOSE: CMOS Access Routines (Real Time Clock and LastKnownGood)
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* PROGRAMMERS: Alex Ionescu (alex.ionescu@reactos.org)
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* Eric Kohl (ekohl@abo.rhein-zeitung.de)
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*/
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/* INCLUDES ******************************************************************/
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#include <hal.h>
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#define NDEBUG
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#include <debug.h>
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/* GLOBALS *******************************************************************/
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KSPIN_LOCK HalpSystemHardwareLock;
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/* PRIVATE FUNCTIONS *********************************************************/
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UCHAR
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FORCEINLINE
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HalpReadCmos(IN UCHAR Reg)
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{
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/* Select the register */
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WRITE_PORT_UCHAR(CMOS_CONTROL_PORT, Reg);
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/* Query the value */
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return READ_PORT_UCHAR(CMOS_DATA_PORT);
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}
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VOID
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FORCEINLINE
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HalpWriteCmos(IN UCHAR Reg,
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IN UCHAR Value)
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{
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/* Select the register */
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WRITE_PORT_UCHAR(CMOS_CONTROL_PORT, Reg);
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/* Write the value */
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WRITE_PORT_UCHAR(CMOS_DATA_PORT, Value);
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}
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ULONG
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NTAPI
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HalpGetCmosData(IN ULONG BusNumber,
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IN ULONG SlotNumber,
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IN PVOID Buffer,
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IN ULONG Length)
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{
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PUCHAR Ptr = (PUCHAR)Buffer;
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ULONG Address = SlotNumber;
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ULONG Len = Length;
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/* FIXME: Acquire CMOS Lock */
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/* Do nothing if we don't have a length */
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if (!Length) return 0;
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/* Check if this is simple CMOS */
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if (!BusNumber)
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{
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/* Loop the buffer up to 0xFF */
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while ((Len > 0) && (Address < 0x100))
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{
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/* Read the data */
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*Ptr = HalpReadCmos((UCHAR)Address);
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/* Update position and length */
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Ptr++;
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Address++;
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Len--;
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}
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}
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else if (BusNumber == 1)
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{
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/* Loop the buffer up to 0xFFFF */
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while ((Len > 0) && (Address < 0x10000))
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{
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/* Write the data */
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*Ptr = HalpReadCmos((UCHAR)Address);
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/* Update position and length */
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Ptr++;
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Address++;
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Len--;
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}
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}
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/* FIXME: Release the CMOS Lock */
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/* Return length read */
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return Length - Len;
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}
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ULONG
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NTAPI
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HalpSetCmosData(IN ULONG BusNumber,
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IN ULONG SlotNumber,
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IN PVOID Buffer,
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IN ULONG Length)
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{
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PUCHAR Ptr = (PUCHAR)Buffer;
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ULONG Address = SlotNumber;
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ULONG Len = Length;
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/* FIXME: Acquire CMOS Lock */
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/* Do nothing if we don't have a length */
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if (!Length) return 0;
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/* Check if this is simple CMOS */
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if (!BusNumber)
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{
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/* Loop the buffer up to 0xFF */
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while ((Len > 0) && (Address < 0x100))
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{
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/* Write the data */
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HalpWriteCmos((UCHAR)Address, *Ptr);
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/* Update position and length */
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Ptr++;
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Address++;
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Len--;
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}
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}
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else if (BusNumber == 1)
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{
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/* Loop the buffer up to 0xFFFF */
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while ((Len > 0) && (Address < 0x10000))
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{
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/* Write the data */
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HalpWriteCmos((UCHAR)Address, *Ptr);
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/* Update position and length */
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Ptr++;
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Address++;
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Len--;
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}
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}
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/* FIXME: Release the CMOS Lock */
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/* Return length read */
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return Length - Len;
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}
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/* PUBLIC FUNCTIONS **********************************************************/
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/*
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* @implemented
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*/
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ARC_STATUS
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NTAPI
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HalGetEnvironmentVariable(IN PCH Name,
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IN USHORT ValueLength,
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IN PCH Value)
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{
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UCHAR Val;
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/* Only variable supported on x86 */
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if (_stricmp(Name, "LastKnownGood")) return ENOENT;
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/* FIXME: Acquire CMOS Lock */
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/* Query the current value */
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Val = HalpReadCmos(RTC_REGISTER_B) & 0x01;
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/* FIXME: Release CMOS lock */
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/* Check the flag */
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if (Val)
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{
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/* Return false */
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strncpy(Value, "FALSE", ValueLength);
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}
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else
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{
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/* Return true */
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strncpy(Value, "TRUE", ValueLength);
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}
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/* Return success */
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return ESUCCESS;
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}
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/*
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* @implemented
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*/
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ARC_STATUS
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NTAPI
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HalSetEnvironmentVariable(IN PCH Name,
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IN PCH Value)
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{
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UCHAR Val;
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/* Only variable supported on x86 */
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if (_stricmp(Name, "LastKnownGood")) return ENOMEM;
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/* Check if this is true or false */
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if (!_stricmp(Value, "TRUE"))
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{
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/* It's true, acquire CMOS lock (FIXME) */
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/* Read the current value and add the flag */
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Val = HalpReadCmos(RTC_REGISTER_B) | 1;
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}
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else if (!_stricmp(Value, "FALSE"))
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{
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/* It's false, acquire CMOS lock (FIXME) */
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/* Read the current value and mask out the flag */
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Val = HalpReadCmos(RTC_REGISTER_B) & ~1;
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}
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else
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{
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/* Fail */
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return ENOMEM;
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}
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/* Write new value */
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HalpWriteCmos(RTC_REGISTER_B, Val);
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/* Release the lock and return success */
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return ESUCCESS;
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}
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/*
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* @implemented
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*/
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BOOLEAN
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NTAPI
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HalQueryRealTimeClock(OUT PTIME_FIELDS Time)
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{
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/* FIXME: Acquire CMOS Lock */
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/* Loop while update is in progress */
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while ((HalpReadCmos(RTC_REGISTER_A)) & RTC_REG_A_UIP);
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/* Set the time data */
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Time->Second = BCD_INT(HalpReadCmos(0));
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Time->Minute = BCD_INT(HalpReadCmos(2));
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Time->Hour = BCD_INT(HalpReadCmos(4));
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Time->Weekday = BCD_INT(HalpReadCmos(6));
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Time->Day = BCD_INT(HalpReadCmos(7));
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Time->Month = BCD_INT(HalpReadCmos(8));
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Time->Year = BCD_INT(HalpReadCmos(9));
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Time->Milliseconds = 0;
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/* FIXME: Check century byte */
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/* Compensate for the century field */
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Time->Year += (Time->Year > 80) ? 1900: 2000;
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/* FIXME: Release CMOS Lock */
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/* Always return TRUE */
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return TRUE;
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}
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/*
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* @implemented
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*/
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BOOLEAN
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NTAPI
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HalSetRealTimeClock(IN PTIME_FIELDS Time)
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{
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/* FIXME: Acquire CMOS Lock */
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/* Loop while update is in progress */
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while ((HalpReadCmos(RTC_REGISTER_A)) & RTC_REG_A_UIP);
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/* Write time fields to CMOS RTC */
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HalpWriteCmos(0, INT_BCD(Time->Second));
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HalpWriteCmos(2, INT_BCD(Time->Minute));
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HalpWriteCmos(4, INT_BCD(Time->Hour));
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HalpWriteCmos(6, INT_BCD(Time->Weekday));
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HalpWriteCmos(7, INT_BCD(Time->Day));
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HalpWriteCmos(8, INT_BCD(Time->Month));
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HalpWriteCmos(9, INT_BCD(Time->Year % 100));
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/* FIXME: Set the century byte */
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/* FIXME: Release the CMOS Lock */
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/* Always return TRUE */
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return TRUE;
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}
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/* EOF */
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