source: rtems/cpukit/score/cpu/powerpc/rtems/powerpc/registers.h @ f801bf2

/*
 * This file contains some powerpc MSR and registers access definitions.
 *
 * Copyright (C) 1999  Eric Valette (valette@crf.canon.fr)
 *                     Canon Centre Recherche France.
 *
 *  Added MPC8260 Andy Dachs <a.dachs@sstl.co.uk>
 *  Surrey Satellite Technology Limited
 *
 *
 *  The license and distribution terms for this file may be
 *  found in found in the file LICENSE in this distribution or at
 *  http://www.rtems.com/license/LICENSE.
 *
 *  $Id$
 */

#ifndef __rtems_powerpc_registers_h
#define __rtems_powerpc_registers_h

#ifdef __cplusplus
extern "C" {
#endif

/* Bit encodings for Machine State Register (MSR) */
#define MSR_POW         (1<<18)         /* Enable Power Management */
#define MSR_TGPR        (1<<17)         /* TLB Update registers in use */
#define MSR_ILE         (1<<16)         /* Interrupt Little-Endian enable */
#define MSR_EE          (1<<15)         /* External Interrupt enable */
#define MSR_PR          (1<<14)         /* Supervisor/User privilege */
#define MSR_FP          (1<<13)         /* Floating Point enable */
#define MSR_ME          (1<<12)         /* Machine Check enable */
#define MSR_FE0         (1<<11)         /* Floating Exception mode 0 */
#define MSR_SE          (1<<10)         /* Single Step */
#define MSR_BE          (1<<9)          /* Branch Trace */
#define MSR_FE1         (1<<8)          /* Floating Exception mode 1 */
#define MSR_IP          (1<<6)          /* Exception prefix 0x000/0xFFF */
#define MSR_IR          (1<<5)          /* Instruction MMU enable */
#define MSR_DR          (1<<4)          /* Data MMU enable */
#define MSR_RI          (1<<1)          /* Recoverable Exception */
#define MSR_LE          (1<<0)          /* Little-Endian enable */

#define MSR_            MSR_ME|MSR_RI
#define MSR_KERNEL      MSR_|MSR_IR|MSR_DR
#define MSR_USER        MSR_KERNEL|MSR_PR|MSR_EE

/* Bit encodings for Hardware Implementation Register (HID0)
   on PowerPC 603, 604, etc. processors (not 601). */
#define HID0_EMCP       (1<<31)         /* Enable Machine Check pin */
#define HID0_EBA        (1<<29)         /* Enable Bus Address Parity */
#define HID0_EBD        (1<<28)         /* Enable Bus Data Parity */
#define HID0_SBCLK      (1<<27)
#define HID0_EICE       (1<<26)
#define HID0_ECLK       (1<<25)
#define HID0_PAR        (1<<24)
#define HID0_DOZE       (1<<23)
#define HID0_NAP        (1<<22)
#define HID0_SLEEP      (1<<21)
#define HID0_DPM        (1<<20)
#define HID0_ICE        (1<<15)         /* Instruction Cache Enable */
#define HID0_DCE        (1<<14)         /* Data Cache Enable */
#define HID0_ILOCK      (1<<13)         /* Instruction Cache Lock */
#define HID0_DLOCK      (1<<12)         /* Data Cache Lock */
#define HID0_ICFI       (1<<11)         /* Instruction Cache Flash Invalidate */
#define HID0_DCI        (1<<10)         /* Data Cache Invalidate */
#define HID0_SIED       (1<<7)          /* Serial Instruction Execution [Disable] */
#define HID0_BTIC       (1<<5)          /* Branch Target Instruction Cache [Enable] */
#define HID0_BHTE       (1<<2)          /* Branch History Table Enable */
#define HID0_BTCD       (1<<1)          /* Branch target cache disable */

/* fpscr settings */
#define FPSCR_FX        (1<<31)
#define FPSCR_FEX       (1<<30)

#define _MACH_prep     1
#define _MACH_Pmac     2 /* pmac or pmac clone (non-chrp) */
#define _MACH_chrp     4 /* chrp machine */
#define _MACH_mbx      8 /* Motorola MBX board */
#define _MACH_apus    16 /* amiga with phase5 powerup */
#define _MACH_fads    32 /* Motorola FADS board */

/* see residual.h for these */
#define _PREP_Motorola 0x01  /* motorola prep */
#define _PREP_Firm     0x02  /* firmworks prep */
#define _PREP_IBM      0x00  /* ibm prep */
#define _PREP_Bull     0x03  /* bull prep */

/* these are arbitrary */
#define _CHRP_Motorola 0x04  /* motorola chrp, the cobra */
#define _CHRP_IBM     0x05   /* IBM chrp, the longtrail and longtrail 2 */

#define _GLOBAL(n)\
        .globl n;\
n:

#define TBRU    269     /* Time base Upper/Lower (Reading) */
#define TBRL    268
#define TBWU    284     /* Time base Upper/Lower (Writing) */
#define TBWL    285
#define XER     1
#define LR      8
#define CTR     9
#define HID0    1008    /* Hardware Implementation */
#define HID1    1009    /* Hardware Implementation */
#define DABR    1013    /* Data Access Breakpoint  */
#define PVR     287     /* Processor Version */
#define IBAT0U  528     /* Instruction BAT #0 Upper/Lower */
#define IBAT0L  529
#define IBAT1U  530     /* Instruction BAT #1 Upper/Lower */
#define IBAT1L  531
#define IBAT2U  532     /* Instruction BAT #2 Upper/Lower */
#define IBAT2L  533
#define IBAT3U  534     /* Instruction BAT #3 Upper/Lower */
#define IBAT3L  535
#define DBAT0U  536     /* Data BAT #0 Upper/Lower */
#define DBAT0L  537
#define DBAT1U  538     /* Data BAT #1 Upper/Lower */
#define DBAT1L  539
#define DBAT2U  540     /* Data BAT #2 Upper/Lower */
#define DBAT2L  541
#define DBAT3U  542     /* Data BAT #3 Upper/Lower */
#define DBAT3L  543
#define DMISS   976     /* TLB Lookup/Refresh registers */
#define DCMP    977
#define HASH1   978
#define HASH2   979
#define IMISS   980
#define ICMP    981
#define RPA     982
#define SDR1    25      /* MMU hash base register */
#define DAR     19      /* Data Address Register */
#define SPR0    272     /* Supervisor Private Registers */
#define SPRG0   272
#define SPR1    273
#define SPRG1   273
#define SPR2    274
#define SPRG2   274
#define SPR3    275
#define SPRG3   275
#define DSISR   18
#define SRR0    26      /* Saved Registers (exception) */
#define SRR1    27
#define IABR    1010    /* Instruction Address Breakpoint */
#define DEC     22      /* Decrementer */
#define EAR     282     /* External Address Register */
#define L2CR    1017    /* PPC 750 L2 control register */

#define THRM1   1020
#define THRM2   1021
#define THRM3   1022
#define THRM1_TIN (1<<(31-0))
#define THRM1_TIV (1<<(31-1))
#define THRM1_THRES (0x7f<<(31-8))
#define THRM1_TID (1<<(31-29))
#define THRM1_TIE (1<<(31-30))
#define THRM1_V   (1<<(31-31))
#define THRM3_SITV (0x1fff << (31-30))
#define THRM3_E   (1<<(31-31))

/* Segment Registers */
#define SR0     0
#define SR1     1
#define SR2     2
#define SR3     3
#define SR4     4
#define SR5     5
#define SR6     6
#define SR7     7
#define SR8     8
#define SR9     9
#define SR10    10
#define SR11    11
#define SR12    12
#define SR13    13
#define SR14    14
#define SR15    15

#ifndef ASM
/*
 *  Routines to access the time base register
 */

static inline unsigned long long PPC_Get_timebase_register( void )
{
  unsigned long tbr_low;
  unsigned long tbr_high;
  unsigned long tbr_high_old;
  unsigned long long tbr;

  do {
    asm volatile( "mftbu %0" : "=r" (tbr_high_old));
    asm volatile( "mftb  %0" : "=r" (tbr_low));
    asm volatile( "mftbu %0" : "=r" (tbr_high));
  } while ( tbr_high_old != tbr_high );

  tbr = tbr_high;
  tbr <<= 32;
  tbr |= tbr_low;
  return tbr;
}

static inline  void PPC_Set_timebase_register (unsigned long long tbr)
{
  unsigned long tbr_low;
  unsigned long tbr_high;

  tbr_low = (tbr & 0xffffffff) ;
  tbr_high = (tbr >> 32) & 0xffffffff;
  asm volatile( "mtspr 284, %0" : : "r" (tbr_low));
  asm volatile( "mtspr 285, %0" : : "r" (tbr_high));
  
}
#endif

#define _CPU_MSR_GET( _msr_value ) \
  do { \
    _msr_value = 0; \
    asm volatile ("mfmsr %0" : "=&r" ((_msr_value)) : "0" ((_msr_value))); \
  } while (0)

#define _CPU_MSR_SET( _msr_value ) \
{ asm volatile ("mtmsr %0" : "=&r" ((_msr_value)) : "0" ((_msr_value))); }

#define _CPU_ISR_Disable( _isr_cookie ) \
  { register unsigned int _disable_mask = MSR_EE; \
    _isr_cookie = 0; \
    asm volatile ( \
        "mfmsr %0; andc %1,%0,%1; mtmsr %1" : \
        "=&r" ((_isr_cookie)), "=&r" ((_disable_mask)) : \
        "0" ((_isr_cookie)), "1" ((_disable_mask)) \
        ); \
  }


/*
 *  Enable interrupts to the previous level (returned by _CPU_ISR_Disable).
 *  This indicates the end of an RTEMS critical section.  The parameter
 *  _isr_cookie is not modified.
 */

#define _CPU_ISR_Enable( _isr_cookie )  \
  { \
     asm volatile ( "mtmsr %0" : \
                   "=r" ((_isr_cookie)) : \
                   "0" ((_isr_cookie))); \
  }

/*
 *  This temporarily restores the interrupt to _isr_cookie before immediately
 *  disabling them again.  This is used to divide long RTEMS critical
 *  sections into two or more parts.  The parameter _isr_cookie is not
 *  modified.
 *
 *  NOTE:  The version being used is not very optimized but it does
 *         not trip a problem in gcc where the disable mask does not
 *         get loaded.  Check this for future (post 10/97 gcc versions.
 */

#define _CPU_ISR_Flash( _isr_cookie ) \
  { register unsigned int _disable_mask = MSR_EE; \
    asm volatile ( \
      "mtmsr %0; andc %1,%0,%1; mtmsr %1" : \
      "=r" ((_isr_cookie)), "=r" ((_disable_mask)) : \
      "0" ((_isr_cookie)), "1" ((_disable_mask)) \
    ); \
  }


/* end of ISR handler macros */

/*
 *  Simple spin delay in microsecond units for device drivers.
 *  This is very dependent on the clock speed of the target.
 */

#define CPU_Get_timebase_low( _value ) \
    asm volatile( "mftb  %0" : "=r" (_value) )

#define rtems_bsp_delay( _microseconds ) \
  do { \
    uint32_t   start, ticks, now; \
    CPU_Get_timebase_low( start ) ; \
    ticks = (_microseconds) * rtems_cpu_configuration_get_clicks_per_usec(); \
    do \
      CPU_Get_timebase_low( now ) ; \
    while (now - start < ticks); \
  } while (0)

#define rtems_bsp_delay_in_bus_cycles( _cycles ) \
  do { \
    uint32_t   start, now; \
    CPU_Get_timebase_low( start ); \
    do \
      CPU_Get_timebase_low( now ); \
    while (now - start < (_cycles)); \
  } while (0)

#define PPC_Set_decrementer( _clicks ) \
  do { \
    asm volatile( "mtdec %0" : : "r" ((_clicks)) ); \
  } while (0)

#define PPC_Get_decrementer( _clicks ) \
    asm volatile( "mfdec  %0" : "=r" (_clicks) )

#ifdef __cplusplus
}
#endif

#endif /* __rtems_powerpc_registers_h */