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/* sprs.c -- Simulation of OR1K special-purpose registers
   Copyright (C) 1999 Damjan Lampret, lampret@opencores.org
 
This file is part of 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 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.
 
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
 
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
 
#include "config.h"
 
#ifdef HAVE_INTTYPES_H
#include <inttypes.h>
#endif
 
#include "port.h"
#include "arch.h"
#include "abstract.h"
#include "sim-config.h"
#include "except.h"
#include "opcode/or32.h"
#include "spr_defs.h"
#include "execute.h"
#include "sprs.h"
#include "dcache_model.h"
#include "icache_model.h"
#include "tick.h"
#include "dmmu.h"
#include "immu.h"
#include "pic.h"
#include "debug.h"
 
DEFAULT_DEBUG_CHANNEL(spr);
DECLARE_DEBUG_CHANNEL(immu);
 
static int audio_cnt = 0;
 
static FILE *fo = 0;
 
/* 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;
 
  TRACE("%s\n", dump_spr(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. */
      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;
    }
    break;
  case SPR_PICSR:
    if(!pic_state->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 0xFFFD:
    fo = fopen ("audiosim.pcm", "wb+");
    if (!fo) PRINTF("Cannot open audiosim.pcm\n");
    PRINTF("Audio opened.\n");
    break;
  case 0xFFFE:
    if (!fo) PRINTF("audiosim.pcm not opened\n");
    fputc (value & 0xFF, fo);
    if ((audio_cnt % 1024) == 0)
      PRINTF("%i\n", audio_cnt);
    audio_cnt++;
    break;
  case 0xFFFF:
    fclose(fo);
    PRINTF("Audio closed.\n");
    sim_done();
    break;
  case SPR_PMR:
    /* PMR[SDF] and PMR[DCGE] are ignored completely. */
    if (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))) {
      TRACE_(immu)("Writting to an mmu way (reg: %"PRIx16", value: %"PRIx32")\n",
                   regno, value);
      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:
    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];
  }
 
  TRACE("%s\n", dump_spr(regno, ret));
 
  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]);
}

Line No.	Rev	Author	Line
1	28	lampret	`/* sprs.c -- Simulation of OR1K special-purpose registers`
2	23	lampret	`Copyright (C) 1999 Damjan Lampret, lampret@opencores.org`
3
4			`This file is part of OpenRISC 1000 Architectural Simulator.`
5
6			`This program is free software; you can redistribute it and/or modify`
7			`it under the terms of the GNU General Public License as published by`
8			`the Free Software Foundation; either version 2 of the License, or`
9			`(at your option) any later version.`
10
11			`This program is distributed in the hope that it will be useful,`
12			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
14			`GNU General Public License for more details.`
15
16			`You should have received a copy of the GNU General Public License`
17			`along with this program; if not, write to the Free Software`
18			`Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */`
19
20			`#include <stdlib.h>`
21			`#include <stdio.h>`
22			`#include <string.h>`
23	167	markom	`#include <errno.h>`
24	23	lampret
25	1350	nogj	`#include "config.h"`
26
27			`#ifdef HAVE_INTTYPES_H`
28			`#include <inttypes.h>`
29			`#endif`
30
31			`#include "port.h"`
32	23	lampret	`#include "arch.h"`
33	1350	nogj	`#include "abstract.h"`
34	479	markom	`#include "sim-config.h"`
35	1308	phoenix	`#include "except.h"`
36	1432	nogj	`#include "opcode/or32.h"`
37			`#include "spr_defs.h"`
38	1350	nogj	`#include "execute.h"`
39	1432	nogj	`#include "sprs.h"`
40	1402	nogj	`#include "dcache_model.h"`
41	1404	nogj	`#include "icache_model.h"`
42	1557	nogj	`#include "tick.h"`
43			`#include "dmmu.h"`
44			`#include "immu.h"`
45	1715	nogj	`#include "pic.h"`
46	1452	nogj	`#include "debug.h"`
47	23	lampret
48	1532	nogj	`DEFAULT_DEBUG_CHANNEL(spr);`
49	1452	nogj	`DECLARE_DEBUG_CHANNEL(immu);`
50	1432	nogj
51	1550	nogj	`static int audio_cnt = 0;`
52	123	markom
53	133	markom	`static FILE *fo = 0;`
54	1532	nogj
55	23	lampret	`/* Set a specific SPR with a value. */`
56	1532	nogj	`void mtspr(uint16_t regno, const uorreg_t value)`
57	30	lampret	`{`
58	1508	nogj	`uorreg_t prev_val;`
59	1452	nogj
60			`prev_val = cpu_state.sprs[regno];`
61	1432	nogj	`cpu_state.sprs[regno] = value;`
62	1532	nogj
63			`TRACE("%s\n", dump_spr(regno, value));`
64	133	markom
65			`/* MM: Register hooks. */`
66			`switch (regno) {`
67			`case SPR_TTCR:`
68	728	markom	`spr_write_ttcr (value);`
69	133	markom	`break;`
70	728	markom	`case SPR_TTMR:`
71	1540	nogj	`spr_write_ttmr (prev_val);`
72	728	markom	`break;`
73	1402	nogj	`/* Data cache simulateing stuff */`
74			`case SPR_DCBPR:`
75	1529	nogj	`/* FIXME: This is not correct. The arch. manual states: "Memory accesses`
76			`* are not recorded (Unlike load or store instructions) and cannot invoke`
77			`* any exception". If the physical address is invalid a bus error will be`
78			`* generated. Also if the effective address is not resident in the mmu`
79			`* the read will happen from address 0, which is naturally not correct. */`
80			`dc_simulate_read(peek_into_dtlb(value, 0, 1), value, 4);`
81			`cpu_state.sprs[SPR_DCBPR] = 0;`
82	1402	nogj	`break;`
83			`case SPR_DCBFR:`
84	1529	nogj	`dc_inv(value);`
85			`cpu_state.sprs[SPR_DCBFR] = -1;`
86	1402	nogj	`break;`
87			`case SPR_DCBIR:`
88	1529	nogj	`dc_inv(value);`
89			`cpu_state.sprs[SPR_DCBIR] = 0;`
90	1402	nogj	`break;`
91			`case SPR_DCBWR:`
92	1432	nogj	`cpu_state.sprs[SPR_DCBWR] = 0;`
93	1402	nogj	`break;`
94			`case SPR_DCBLR:`
95	1432	nogj	`cpu_state.sprs[SPR_DCBLR] = 0;`
96	1402	nogj	`break;`
97	1404	nogj	`/* Instruction cache simulateing stuff */`
98			`case SPR_ICBPR:`
99	1529	nogj	`/* FIXME: The arch manual does not say what happens when an invalid memory`
100			`* location is specified. I guess the same as for the DCBPR register */`
101	1557	nogj	`ic_simulate_fetch(peek_into_itlb(value), value);`
102	1529	nogj	`cpu_state.sprs[SPR_ICBPR] = 0;`
103	1404	nogj	`break;`
104			`case SPR_ICBIR:`
105	1529	nogj	`ic_inv(value);`
106			`cpu_state.sprs[SPR_ICBIR] = 0;`
107	1404	nogj	`break;`
108			`case SPR_ICBLR:`
109	1432	nogj	`cpu_state.sprs[SPR_ICBLR] = 0;`
110	1404	nogj	`break;`
111	167	markom	`case SPR_SR:`
112	1432	nogj	`cpu_state.sprs[regno] \|= SPR_SR_FO;`
113	1715	nogj	`if((value & SPR_SR_IEE) && !(prev_val & SPR_SR_IEE))`
114			`pic_ints_en();`
115	1452	nogj	`#if DYNAMIC_EXECUTION`
116			`if((value & SPR_SR_IME) && !(prev_val & SPR_SR_IME)) {`
117			`TRACE_(immu)("IMMU just became enabled (%lli).\n", runtime.sim.cycles);`
118			`recheck_immu(IMMU_GOT_ENABLED);`
119			`} else if(!(value & SPR_SR_IME) && (prev_val & SPR_SR_IME)) {`
120			`TRACE_(immu)("Remove counting of mmu hit delay with cycles (%lli)\n",`
121			`runtime.sim.cycles);`
122			`recheck_immu(IMMU_GOT_DISABLED);`
123			`}`
124			`#endif`
125	167	markom	`break;`
126	378	markom	`case SPR_NPC:`
127	139	chris	`{`
128	242	markom	`/* The debugger has redirected us to a new address */`
129			`/* This is usually done to reissue an instruction`
130			`which just caused a breakpoint exception. */`
131	1432	nogj	`cpu_state.pc = value;`
132	242	markom
133	479	markom	`if(!value && config.sim.verbose)`
134	997	markom	`PRINTF("WARNING: PC just set to 0!\n");`
135	242	markom
136			`/* Clear any pending delay slot jumps also */`
137	1432	nogj	`cpu_state.delay_insn = 0;`
138	479	markom	`pcnext = value + 4;`
139	139	chris	`}`
140	242	markom	`break;`
141	1715	nogj	`case SPR_PICSR:`
142			`if(!pic_state->edge_trigger)`
143			`cpu_state.sprs[SPR_PICSR] = prev_val;`
144			`break;`
145			`case SPR_PICMR:`
146			`if(cpu_state.sprs[SPR_SR] & SPR_SR_IEE)`
147			`pic_ints_en();`
148			`break;`
149	728	markom	`case 0xFFFD:`
150			`fo = fopen ("audiosim.pcm", "wb+");`
151	997	markom	`if (!fo) PRINTF("Cannot open audiosim.pcm\n");`
152			`PRINTF("Audio opened.\n");`
153	728	markom	`break;`
154			`case 0xFFFE:`
155	997	markom	`if (!fo) PRINTF("audiosim.pcm not opened\n");`
156	728	markom	`fputc (value & 0xFF, fo);`
157			`if ((audio_cnt % 1024) == 0)`
158	997	markom	`PRINTF("%i\n", audio_cnt);`
159	728	markom	`audio_cnt++;`
160			`break;`
161			`case 0xFFFF:`
162			`fclose(fo);`
163	997	markom	`PRINTF("Audio closed.\n");`
164	1471	nogj	`sim_done();`
165	728	markom	`break;`
166	1446	nogj	`case SPR_PMR:`
167			`/* PMR[SDF] and PMR[DCGE] are ignored completely. */`
168			`if (value & SPR_PMR_SUME) {`
169			`PRINTF ("SUSPEND: PMR[SUME] bit was set.\n");`
170	1471	nogj	`sim_done();`
171	1446	nogj	`}`
172			`break;`
173	479	markom	`default:`
174	1549	nogj	`/* Mask reserved bits in DTLBMR and DTLBMR registers */`
175	886	simons	`if ( (regno >= SPR_DTLBMR_BASE(0)) && (regno < SPR_DTLBTR_LAST(3))) {`
176			`if((regno & 0xff) < 0x80)`
177	1652	nogj	`cpu_state.sprs[regno] = DADDR_PAGE(value) \|`
178	886	simons	`(value & (SPR_DTLBMR_V \| SPR_DTLBMR_PL1 \| SPR_DTLBMR_CID \| SPR_DTLBMR_LRU));`
179			`else`
180	1652	nogj	`cpu_state.sprs[regno] = DADDR_PAGE(value) \|`
181	886	simons	`(value & (SPR_DTLBTR_CC \| SPR_DTLBTR_CI \| SPR_DTLBTR_WBC \| SPR_DTLBTR_WOM \|`
182			`SPR_DTLBTR_A \| SPR_DTLBTR_D \| SPR_DTLBTR_URE \| SPR_DTLBTR_UWE \| SPR_DTLBTR_SRE \|`
183			`SPR_DTLBTR_SWE));`
184			`}`
185
186			`/* Mask reseved bits in ITLBMR and ITLBMR registers */`
187			`if ( (regno >= SPR_ITLBMR_BASE(0)) && (regno < SPR_ITLBTR_LAST(3))) {`
188	1452	nogj	`TRACE_(immu)("Writting to an mmu way (reg: %"PRIx16", value: %"PRIx32")\n",`
189			`regno, value);`
190	886	simons	`if((regno & 0xff) < 0x80)`
191	1652	nogj	`cpu_state.sprs[regno] = IADDR_PAGE(value) \|`
192	886	simons	`(value & (SPR_ITLBMR_V \| SPR_ITLBMR_PL1 \| SPR_ITLBMR_CID \| SPR_ITLBMR_LRU));`
193			`else`
194	1652	nogj	`cpu_state.sprs[regno] = IADDR_PAGE(value) \|`
195	886	simons	`(value & (SPR_ITLBTR_CC \| SPR_ITLBTR_CI \| SPR_ITLBTR_WBC \| SPR_ITLBTR_WOM \|`
196			`SPR_ITLBTR_A \| SPR_ITLBTR_D \| SPR_ITLBTR_SXE \| SPR_ITLBTR_UXE));`
197	1452	nogj
198			`#if DYNAMIC_EXECUTION`
199			`if(cpu_state.sprs[SPR_SR] & SPR_SR_IME) {`
200			`/* The immu got reconfigured. Recheck if the current page in execution`
201			`* is resident in the immu ways. This check would be done during the`
202			`* instruction fetch but since the dynamic execution model does not do`
203			`* instruction fetchs, do it now. */`
204			`recheck_immu(0);`
205			`}`
206			`#endif`
207	886	simons	`}`
208	1432	nogj
209	479	markom	`/* Links to GPRS */`
210	728	markom	`if(regno >= 0x0400 && regno < 0x0420) {`
211	1432	nogj	`cpu_state.reg[regno - 0x0400] = value;`
212	728	markom	`}`
213	479	markom	`break;`
214	378	markom	`}`
215	23	lampret	`}`
216
217	1508	nogj	`/* Get a specific SPR. */`
218			`uorreg_t mfspr(const uint16_t regno)`
219			`{`
220	1531	nogj	`uorreg_t ret;`
221	1508	nogj
222	1531	nogj	`ret = cpu_state.sprs[regno];`
223
224	1508	nogj	`switch (regno) {`
225			`case SPR_NPC:`
226	1531	nogj	`ret = cpu_state.pc;`
227	1579	nogj	`break;`
228	1508	nogj	`case SPR_TTCR:`
229	1531	nogj	`ret = spr_read_ttcr();`
230	1579	nogj	`break;`
231	1508	nogj	`default:`
232			`/* Links to GPRS */`
233			`if(regno >= 0x0400 && regno < 0x0420)`
234	1531	nogj	`ret = cpu_state.reg[regno - 0x0400];`
235	1508	nogj	`}`
236	1531	nogj
237	1532	nogj	`TRACE("%s\n", dump_spr(regno, ret));`
238
239	1531	nogj	`return ret;`
240	1508	nogj	`}`
241
242	30	lampret	`/* Show status of important SPRs. */`
243	1508	nogj	`void sprs_status(void)`
244	30	lampret	`{`
245	1508	nogj	`PRINTF("VR : 0x%"PRIxREG" UPR : 0x%"PRIxREG"\n", cpu_state.sprs[SPR_VR],`
246			`cpu_state.sprs[SPR_UPR]);`
247			`PRINTF("SR : 0x%"PRIxREG"\n", cpu_state.sprs[SPR_SR]);`
248			`PRINTF("MACLO: 0x%"PRIxREG" MACHI: 0x%"PRIxREG"\n",`
249			`cpu_state.sprs[SPR_MACLO], cpu_state.sprs[SPR_MACHI]);`
250			`PRINTF("EPCR0: 0x%"PRIxADDR" EPCR1: 0x%"PRIxADDR"\n",`
251			`cpu_state.sprs[SPR_EPCR_BASE], cpu_state.sprs[SPR_EPCR_BASE+1]);`
252			`PRINTF("EEAR0: 0x%"PRIxADDR" EEAR1: 0x%"PRIxADDR"\n",`
253			`cpu_state.sprs[SPR_EEAR_BASE], cpu_state.sprs[SPR_EEAR_BASE+1]);`
254			`PRINTF("ESR0 : 0x%"PRIxREG" ESR1 : 0x%"PRIxREG"\n",`
255			`cpu_state.sprs[SPR_ESR_BASE], cpu_state.sprs[SPR_ESR_BASE+1]);`
256			`PRINTF("TTMR : 0x%"PRIxREG" TTCR : 0x%"PRIxREG"\n",`
257			`cpu_state.sprs[SPR_TTMR], cpu_state.sprs[SPR_TTCR]);`
258			`PRINTF("PICMR: 0x%"PRIxREG" PICSR: 0x%"PRIxREG"\n",`
259			`cpu_state.sprs[SPR_PICMR], cpu_state.sprs[SPR_PICSR]);`
260			`PRINTF("PPC: 0x%"PRIxADDR" NPC : 0x%"PRIxADDR"\n",`
261			`cpu_state.sprs[SPR_PPC], cpu_state.sprs[SPR_NPC]);`
262	133	markom	`}`

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