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[/] [openrisc/] [trunk/] [or1ksim/] [cpu/] [or1k/] [sprs.c] - Rev 193

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/* sprs.c -- Simulation of OR1K special-purpose registers
 
   Copyright (C) 1999 Damjan Lampret, lampret@opencores.org
   Copyright (C) 2008 Embecosm Limited
 
   Contributor Jeremy Bennett <jeremy.bennett@embecosm.com>
 
   This file is part of Or1ksim, the OpenRISC 1000 Architectural Simulator.
 
   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 3 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.
 
   You should have received a copy of the GNU General Public License along
   with this program.  If not, see <http://www.gnu.org/licenses/>.  */
 
/* This program is commented throughout in a fashion suitable for processing
   with Doxygen. */
 
 
/* Autoconf and/or portability configuration */
#include "config.h"
#include "port.h"
 
/* System includes */
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
 
/* Package includes */
#include "sprs.h"
#include "sim-config.h"
#include "debug.h"
#include "execute.h"
#include "spr-defs.h"
#include "tick.h"
#include "dcache-model.h"
#include "icache-model.h"
#include "dmmu.h"
#include "immu.h"
#include "toplevel-support.h"
#include "pic.h"
 
 
DECLARE_DEBUG_CHANNEL(immu);
 
/* Set a specific SPR with a value. */
void mtspr(uint16_t regno, const uorreg_t value)
{
  uorreg_t prev_val;
 
  prev_val = cpu_state.sprs[regno];
  cpu_state.sprs[regno] = value;
 
  /* MM: Register hooks.  */
  switch (regno) {
  case SPR_TTCR:
    spr_write_ttcr (value);
    break;
  case SPR_TTMR:
    spr_write_ttmr (prev_val);
    break;
  /* Data cache simulateing stuff */
  case SPR_DCBPR:
    /* FIXME: This is not correct.  The arch. manual states: "Memory accesses
     * are not recorded (Unlike load or store instructions) and cannot invoke
     * any exception".  If the physical address is invalid a bus error will be
     * generated.  Also if the effective address is not resident in the mmu
     * the read will happen from address 0, which is naturally not correct. */
    dc_simulate_read(peek_into_dtlb(value, 0, 1), value, 4);
    cpu_state.sprs[SPR_DCBPR] = 0;
    break;
  case SPR_DCBFR:
    dc_inv(value);
    cpu_state.sprs[SPR_DCBFR] = -1;
    break;
  case SPR_DCBIR:
    dc_inv(value);
    cpu_state.sprs[SPR_DCBIR] = 0;
    break;
  case SPR_DCBWR:
    cpu_state.sprs[SPR_DCBWR] = 0;
    break;
  case SPR_DCBLR:
    cpu_state.sprs[SPR_DCBLR] = 0;
    break;
  /* Instruction cache simulateing stuff */
  case SPR_ICBPR:
    /* FIXME: The arch manual does not say what happens when an invalid memory
     * location is specified.  I guess the same as for the DCBPR register */
    ic_simulate_fetch(peek_into_itlb(value), value);
    cpu_state.sprs[SPR_ICBPR] = 0;
    break;
  case SPR_ICBIR:
    ic_inv(value);
    cpu_state.sprs[SPR_ICBIR] = 0;
    break;
  case SPR_ICBLR:
    cpu_state.sprs[SPR_ICBLR] = 0;
    break;
  case SPR_SR:
    cpu_state.sprs[regno] |= SPR_SR_FO;
    if((value & SPR_SR_IEE) && !(prev_val & SPR_SR_IEE))
      pic_ints_en();
#if DYNAMIC_EXECUTION
    if((value & SPR_SR_IME) && !(prev_val & SPR_SR_IME)) {
      TRACE_(immu)("IMMU just became enabled (%lli).\n", runtime.sim.cycles);
      recheck_immu(IMMU_GOT_ENABLED);
    } else if(!(value & SPR_SR_IME) && (prev_val & SPR_SR_IME)) {
      TRACE_(immu)("Remove counting of mmu hit delay with cycles (%lli)\n",
                   runtime.sim.cycles);
      recheck_immu(IMMU_GOT_DISABLED);
    }
#endif
    break;
  case SPR_NPC:
    {
      /* The debugger has redirected us to a new address */
      /* This is usually done to reissue an instruction
         which just caused a breakpoint exception. */
 
      /* JPB patch. When GDB stepi, this may be used to set the PC to the
         value it is already at. If this is the case, then we do nothing (in
         particular we do not trash a delayed branch) */
 
      if (value != cpu_state.pc)
	{
	  cpu_state.pc = value;
 
	  if(!value && config.sim.verbose)
	    PRINTF("WARNING: PC just set to 0!\n");
 
	  /* Clear any pending delay slot jumps also */
	  cpu_state.delay_insn = 0;
	  pcnext = value + 4;
 
	  /* Further JPB patch. If the processor is stalled, then subsequent
	     reads of the NPC should return 0 until the processor is
	     unstalled. If the processor is stalled, note that the NPC has
	     been updated while the processor was stalled. */
 
	  if (runtime.cpu.stalled)
	    {
	      cpu_state.npc_not_valid = 1;
	    }
	}
    }
    break;
  case SPR_PICSR:
    if(!config.pic.edge_trigger)
      cpu_state.sprs[SPR_PICSR] = prev_val;
    break;
  case SPR_PICMR:
    if(cpu_state.sprs[SPR_SR] & SPR_SR_IEE)
      pic_ints_en();
    break;
  case SPR_PMR:
    /* PMR[SDF] and PMR[DCGE] are ignored completely. */
    if (config.pm.enabled && (value & SPR_PMR_SUME)) {
      PRINTF ("SUSPEND: PMR[SUME] bit was set.\n");
      sim_done();
    }
    break;
  default:
    /* Mask reserved bits in DTLBMR and DTLBMR registers */
    if ( (regno >= SPR_DTLBMR_BASE(0)) && (regno < SPR_DTLBTR_LAST(3))) {
      if((regno & 0xff) < 0x80)
        cpu_state.sprs[regno] = DADDR_PAGE(value) | 
                              (value & (SPR_DTLBMR_V | SPR_DTLBMR_PL1 | SPR_DTLBMR_CID | SPR_DTLBMR_LRU));
      else
        cpu_state.sprs[regno] = DADDR_PAGE(value) |
                              (value & (SPR_DTLBTR_CC | SPR_DTLBTR_CI | SPR_DTLBTR_WBC | SPR_DTLBTR_WOM |
                              SPR_DTLBTR_A | SPR_DTLBTR_D | SPR_DTLBTR_URE | SPR_DTLBTR_UWE | SPR_DTLBTR_SRE |
                              SPR_DTLBTR_SWE));
    }
 
    /* Mask reseved bits in ITLBMR and ITLBMR registers */
    if ( (regno >= SPR_ITLBMR_BASE(0)) && (regno < SPR_ITLBTR_LAST(3))) {
      if((regno & 0xff) < 0x80)
        cpu_state.sprs[regno] = IADDR_PAGE(value) | 
                              (value & (SPR_ITLBMR_V | SPR_ITLBMR_PL1 | SPR_ITLBMR_CID | SPR_ITLBMR_LRU));
      else
        cpu_state.sprs[regno] = IADDR_PAGE(value) |
                              (value & (SPR_ITLBTR_CC | SPR_ITLBTR_CI | SPR_ITLBTR_WBC | SPR_ITLBTR_WOM |
                              SPR_ITLBTR_A | SPR_ITLBTR_D | SPR_ITLBTR_SXE | SPR_ITLBTR_UXE));
 
#if DYNAMIC_EXECUTION
      if(cpu_state.sprs[SPR_SR] & SPR_SR_IME) {
        /* The immu got reconfigured.  Recheck if the current page in execution
         * is resident in the immu ways.  This check would be done during the
         * instruction fetch but since the dynamic execution model does not do
         * instruction fetchs, do it now. */
        recheck_immu(0);
      }
#endif
    }
 
    /* Links to GPRS */
    if(regno >= 0x0400 && regno < 0x0420) {
      cpu_state.reg[regno - 0x0400] = value;
    }
    break;
  }
}
 
/* Get a specific SPR. */
uorreg_t mfspr(const uint16_t regno)
{
  uorreg_t ret;
 
  ret = cpu_state.sprs[regno];
 
  switch (regno) {
  case SPR_NPC:
 
    /* The NPC is the program counter UNLESS the NPC has been changed and we
       are stalled, which will have flushed the pipeline, so the value is
       zero. Currently this is optional behavior, since it breaks GDB.
    */
 
    if (config.sim.strict_npc && cpu_state.npc_not_valid)
      {
	ret = 0;
      }
    else
      {
	ret = cpu_state.pc;
      }
    break;
 
  case SPR_TTCR:
    ret = spr_read_ttcr();
    break;
  default:
    /* Links to GPRS */
    if(regno >= 0x0400 && regno < 0x0420)
      ret = cpu_state.reg[regno - 0x0400];
  }
 
  return ret;
}
 
/* Show status of important SPRs. */
void sprs_status(void)
{
  PRINTF("VR   : 0x%"PRIxREG"  UPR  : 0x%"PRIxREG"\n", cpu_state.sprs[SPR_VR],
         cpu_state.sprs[SPR_UPR]);
  PRINTF("SR   : 0x%"PRIxREG"\n", cpu_state.sprs[SPR_SR]);
  PRINTF("MACLO: 0x%"PRIxREG"  MACHI: 0x%"PRIxREG"\n",
         cpu_state.sprs[SPR_MACLO], cpu_state.sprs[SPR_MACHI]);
  PRINTF("EPCR0: 0x%"PRIxADDR"  EPCR1: 0x%"PRIxADDR"\n",
         cpu_state.sprs[SPR_EPCR_BASE], cpu_state.sprs[SPR_EPCR_BASE+1]);
  PRINTF("EEAR0: 0x%"PRIxADDR"  EEAR1: 0x%"PRIxADDR"\n",
         cpu_state.sprs[SPR_EEAR_BASE], cpu_state.sprs[SPR_EEAR_BASE+1]);
  PRINTF("ESR0 : 0x%"PRIxREG"  ESR1 : 0x%"PRIxREG"\n",
         cpu_state.sprs[SPR_ESR_BASE], cpu_state.sprs[SPR_ESR_BASE+1]);
  PRINTF("TTMR : 0x%"PRIxREG"  TTCR : 0x%"PRIxREG"\n",
         cpu_state.sprs[SPR_TTMR], cpu_state.sprs[SPR_TTCR]);
  PRINTF("PICMR: 0x%"PRIxREG"  PICSR: 0x%"PRIxREG"\n",
         cpu_state.sprs[SPR_PICMR], cpu_state.sprs[SPR_PICSR]);
  PRINTF("PPC:   0x%"PRIxADDR"  NPC   : 0x%"PRIxADDR"\n",
         cpu_state.sprs[SPR_PPC], cpu_state.sprs[SPR_NPC]);
}
 

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