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https://github.com/reactos/reactos.git
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Fixed HalQueryRealTimeClock and HalSetRealTimeClock.
Thanks to Adam Polanski. svn path=/trunk/; revision=841
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1 changed files with 75 additions and 81 deletions
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@ -7,16 +7,6 @@
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/* INCLUDES *****************************************************************/
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#include <ddk/ntddk.h>
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#include <internal/stddef.h>
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#include <internal/ntoskrnl.h>
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#include <internal/ke.h>
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#include <internal/bitops.h>
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#include <internal/linkage.h>
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#include <string.h>
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#include <internal/string.h>
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#include <internal/i386/segment.h>
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#include <internal/halio.h>
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#define NDEBUG
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@ -34,93 +24,97 @@
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#define RTC_REGISTER_A 0x0A
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#define RTC_REG_A_UIP 0x80 /* Update In Progress bit */
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#define RTC_REGISTER_CENTURY 0x32
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/* FUNCTIONS *****************************************************************/
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VOID
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HalQueryRealTimeClock(PTIME_FIELDS pTime)
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static BYTE
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HalQueryCMOS (BYTE Reg)
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{
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//FIXME : wait RTC ok?
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UCHAR uip; // Update In Progress
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#if 0
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do
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{
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outb(0x70,0);
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pTime->Second=BCD_INT(inb(0x71));
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} while(pTime->Second>60);
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#endif
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BYTE Val;
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do
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{
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outb(0x70, RTC_REGISTER_A);
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uip = inb(0x71) & RTC_REG_A_UIP;
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} while(uip);
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Reg |= 0x80;
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__asm__("cli\n"); // AP unsure as to whether to do this here
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outb (0x70, Reg);
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Val=inb (0x71);
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outb (0x70, 0);
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__asm__("sti\n"); // AP unsure about this too..
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outb(0x70,0);
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pTime->Second=BCD_INT(inb(0x71));
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return(Val);
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}
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outb(0x70,2);
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pTime->Minute=BCD_INT(inb(0x71));
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outb(0x70,4);
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pTime->Hour=BCD_INT(inb(0x71));
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outb(0x70,6);
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pTime->Weekday=BCD_INT(inb(0x71));
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outb(0x70,7);
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pTime->Day=BCD_INT(inb(0x71));
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outb(0x70,8);
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pTime->Month=BCD_INT(inb(0x71));
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outb_p(0x70,9);
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pTime->Year=BCD_INT(inb_p(0x71));
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if(pTime->Year>80) pTime->Year +=1900;
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else pTime->Year +=2000;
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#if 0
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/* Century */
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outb_p(0x70,0x32);
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pTime->Year += BCD_INT(inb_p(0x71)) * 100;
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#endif
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pTime->Milliseconds=0;
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static VOID
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HalSetCMOS (BYTE Reg, BYTE Val)
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{
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Reg |= 0x80;
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__asm__("cli\n"); // AP unsure as to whether to do this here
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outb (0x70, Reg);
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outb (0x71, Val);
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outb (0x70, 0);
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__asm__("sti\n"); // AP unsure about this too..
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}
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VOID
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HalSetRealTimeClock(PTIME_FIELDS pTime)
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HalQueryRealTimeClock (PTIME_FIELDS pTime)
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{
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UCHAR uip; // Update In Progress
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/* check 'Update In Progress' bit */
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while (HalQueryCMOS (RTC_REGISTER_A) & RTC_REG_A_UIP)
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;
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do
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{
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outb(0x70,0xA);
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uip = inb(0x71) & RTC_REG_A_UIP;
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} while(uip);
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pTime->Second = BCD_INT(HalQueryCMOS (0));
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pTime->Minute = BCD_INT(HalQueryCMOS (2));
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pTime->Hour = BCD_INT(HalQueryCMOS (4));
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pTime->Weekday = BCD_INT(HalQueryCMOS (6));
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pTime->Day = BCD_INT(HalQueryCMOS (7));
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pTime->Month = BCD_INT(HalQueryCMOS (8));
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pTime->Year = BCD_INT(HalQueryCMOS (9));
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if (pTime->Year > 80)
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pTime->Year += 1900;
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else
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pTime->Year += 2000;
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outb(0x70,0);
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outb(0x71, INT_BCD(pTime->Second));
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outb(0x70,2);
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outb(0x71, INT_BCD(pTime->Minute));
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outb(0x70,4);
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outb(0x71, INT_BCD(pTime->Hour));
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outb(0x70,6);
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outb(0x71, INT_BCD(pTime->Weekday));
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outb(0x70,7);
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outb(0x71, INT_BCD(pTime->Day));
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outb(0x70,8);
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outb(0x71, INT_BCD(pTime->Month));
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outb_p(0x70,9);
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outb(0x71, INT_BCD(pTime->Year % 100));
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/* Century */
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#if 0
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outb_p(0x70,0x32);
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outb(0x71, INT_BCD(pTime->Year / 100));
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/* Century */
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pTime->Year += BCD_INT(HalQueryCMOS (RTC_REGISTER_CENTURY)) * 100;
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#endif
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#ifndef NDEBUG
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DbgPrint ("HalQueryRealTimeClock() %d:%d:%d %d/%d/%d\n",
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pTime->Hour,
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pTime->Minute,
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pTime->Second,
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pTime->Day,
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pTime->Month,
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pTime->Year
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);
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#endif
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pTime->Milliseconds = 0;
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}
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VOID
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HalSetRealTimeClock (PTIME_FIELDS pTime)
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{
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/* check 'Update In Progress' bit */
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while (HalQueryCMOS (RTC_REGISTER_A) & RTC_REG_A_UIP)
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;
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HalSetCMOS (0, INT_BCD(pTime->Second));
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HalSetCMOS (2, INT_BCD(pTime->Minute));
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HalSetCMOS (4, INT_BCD(pTime->Hour));
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HalSetCMOS (6, INT_BCD(pTime->Weekday));
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HalSetCMOS (7, INT_BCD(pTime->Day));
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HalSetCMOS (8, INT_BCD(pTime->Month));
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HalSetCMOS (9, INT_BCD(pTime->Year % 100));
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#if 0
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/* Century */
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HalSetCMOS (RTC_REGISTER_CENTURY, INT_BCD(pTime->Year / 100));
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#endif
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}
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