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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgcc/] [config/] [sh/] [crt1.S] - Blame information for rev 849

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1 734 jeremybenn
/* Copyright (C) 2000, 2001, 2003, 2004, 2005, 2006, 2009, 2011
2
   Free Software Foundation, Inc.
3
   This file was pretty much copied from newlib.
4
 
5
This file is part of GCC.
6
 
7
GCC is free software; you can redistribute it and/or modify it
8
under the terms of the GNU General Public License as published by the
9
Free Software Foundation; either version 3, or (at your option) any
10
later version.
11
 
12
GCC is distributed in the hope that it will be useful,
13
but WITHOUT ANY WARRANTY; without even the implied warranty of
14
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15
General Public License for more details.
16
 
17
Under Section 7 of GPL version 3, you are granted additional
18
permissions described in the GCC Runtime Library Exception, version
19
3.1, as published by the Free Software Foundation.
20
 
21
You should have received a copy of the GNU General Public License and
22
a copy of the GCC Runtime Library Exception along with this program;
23
see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
24
.  */
25
 
26
 
27
#ifdef MMU_SUPPORT
28
        /* Section used for exception/timer interrupt stack area */
29
        .section .data.vbr.stack,"aw"
30
        .align 4
31
        .global __ST_VBR
32
__ST_VBR:
33
        .zero 1024 * 2          /* ; 2k for VBR handlers */
34
/* Label at the highest stack address where the stack grows from */
35
__timer_stack:
36
#endif /* MMU_SUPPORT */
37
 
38
        /* ;----------------------------------------
39
        Normal newlib crt1.S */
40
 
41
#ifdef __SH5__
42
        .section .data,"aw"
43
        .global ___data
44
___data:
45
 
46
        .section .rodata,"a"
47
        .global ___rodata
48
___rodata:
49
 
50
#define ICCR_BASE  0x01600000
51
#define OCCR_BASE  0x01e00000
52
#define MMUIR_BASE 0x00000000
53
#define MMUDR_BASE 0x00800000
54
 
55
#define PTE_ENABLED     1
56
#define PTE_DISABLED    0
57
 
58
#define PTE_SHARED (1 << 1)
59
#define PTE_NOT_SHARED  0
60
 
61
#define PTE_CB_UNCACHEABLE  0
62
#define PTE_CB_DEVICE       1
63
#define PTE_CB_CACHEABLE_WB 2
64
#define PTE_CB_CACHEABLE_WT 3
65
 
66
#define PTE_SZ_4KB   (0 << 3)
67
#define PTE_SZ_64KB  (1 << 3)
68
#define PTE_SZ_1MB   (2 << 3)
69
#define PTE_SZ_512MB (3 << 3)
70
 
71
#define PTE_PRR      (1 << 6)
72
#define PTE_PRX      (1 << 7)
73
#define PTE_PRW      (1 << 8)
74
#define PTE_PRU      (1 << 9)
75
 
76
#define SR_MMU_BIT          31
77
#define SR_BL_BIT           28
78
 
79
#define ALIGN_4KB  (0xfff)
80
#define ALIGN_1MB  (0xfffff)
81
#define ALIGN_512MB (0x1fffffff)
82
 
83
#define DYNACON_BASE               0x0f000000
84
#define DM_CB_DLINK_BASE           0x0c000000
85
#define DM_DB_DLINK_BASE           0x0b000000
86
 
87
#define FEMI_AREA_0                0x00000000
88
#define FEMI_AREA_1                0x04000000
89
#define FEMI_AREA_2                0x05000000
90
#define FEMI_AREA_3                0x06000000
91
#define FEMI_AREA_4                0x07000000
92
#define FEMI_CB                    0x08000000
93
 
94
#define EMI_BASE                   0X80000000
95
 
96
#define DMA_BASE                   0X0e000000
97
 
98
#define CPU_BASE                   0X0d000000
99
 
100
#define PERIPH_BASE                0X09000000
101
#define DMAC_BASE                  0x0e000000
102
#define INTC_BASE                  0x0a000000
103
#define CPRC_BASE                  0x0a010000
104
#define TMU_BASE                   0x0a020000
105
#define SCIF_BASE                  0x0a030000
106
#define RTC_BASE                   0x0a040000
107
 
108
 
109
 
110
#define LOAD_CONST32(val, reg) \
111
        movi    ((val) >> 16) & 65535, reg; \
112
        shori   (val) & 65535, reg
113
 
114
#define LOAD_PTEH_VAL(sym, align, bits, scratch_reg, reg) \
115
        LOAD_ADDR (sym, reg); \
116
        LOAD_CONST32 ((align), scratch_reg); \
117
        andc    reg, scratch_reg, reg; \
118
        LOAD_CONST32 ((bits), scratch_reg); \
119
        or      reg, scratch_reg, reg
120
 
121
#define LOAD_PTEL_VAL(sym, align, bits, scratch_reg, reg) \
122
        LOAD_ADDR (sym, reg); \
123
        LOAD_CONST32 ((align), scratch_reg); \
124
        andc    reg, scratch_reg, reg; \
125
        LOAD_CONST32 ((bits), scratch_reg); \
126
        or      reg, scratch_reg, reg
127
 
128
#define SET_PTE(pte_addr_reg, pteh_val_reg, ptel_val_reg) \
129
        putcfg  pte_addr_reg, 0, r63; \
130
        putcfg  pte_addr_reg, 1, ptel_val_reg; \
131
        putcfg  pte_addr_reg, 0, pteh_val_reg
132
 
133
#if __SH5__ == 64
134
        .section .text,"ax"
135
#define LOAD_ADDR(sym, reg) \
136
        movi    (sym >> 48) & 65535, reg; \
137
        shori   (sym >> 32) & 65535, reg; \
138
        shori   (sym >> 16) & 65535, reg; \
139
        shori   sym & 65535, reg
140
#else
141
        .mode   SHmedia
142
        .section .text..SHmedia32,"ax"
143
#define LOAD_ADDR(sym, reg) \
144
        movi    (sym >> 16) & 65535, reg; \
145
        shori   sym & 65535, reg
146
#endif
147
        .global start
148
start:
149
        LOAD_ADDR (_stack, r15)
150
 
151
#ifdef MMU_SUPPORT
152
        ! Set up the VM using the MMU and caches
153
 
154
        ! .vm_ep is first instruction to execute
155
        ! after VM initialization
156
        pt/l    .vm_ep, tr1
157
 
158
        ! Configure instruction cache (ICCR)
159
        movi    3, r2
160
        movi    0, r3
161
        LOAD_ADDR (ICCR_BASE, r1)
162
        putcfg  r1, 0, r2
163
        putcfg  r1, 1, r3
164
 
165
        ! movi  7, r2 ! write through
166
        ! Configure operand cache (OCCR)
167
        LOAD_ADDR (OCCR_BASE, r1)
168
        putcfg  r1, 0, r2
169
        putcfg  r1, 1, r3
170
 
171
        ! Disable all PTE translations
172
        LOAD_ADDR (MMUIR_BASE, r1)
173
        LOAD_ADDR (MMUDR_BASE, r2)
174
        movi    64, r3
175
        pt/l    .disable_ptes_loop, tr0
176
.disable_ptes_loop:
177
        putcfg  r1, 0, r63
178
        putcfg  r2, 0, r63
179
        addi    r1, 16, r1
180
        addi    r2, 16, r2
181
        addi    r3, -1, r3
182
        bgt     r3, r63, tr0
183
 
184
        LOAD_ADDR (MMUIR_BASE, r1)
185
 
186
        ! FEMI instruction mappings
187
        !   Area 0 - 1Mb cacheable at 0x00000000
188
        !   Area 1 - None
189
        !   Area 2 - 1Mb cacheable at 0x05000000
190
        !          - 1Mb cacheable at 0x05100000
191
        !   Area 3 - None
192
        !   Area 4 - None
193
 
194
        ! Map a 1Mb page for instructions at 0x00000000
195
        LOAD_PTEH_VAL (FEMI_AREA_0, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
196
        LOAD_PTEL_VAL (FEMI_AREA_0, ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRX | PTE_PRU, r25, r3)
197
        SET_PTE (r1, r2, r3)
198
 
199
        ! Map a 1Mb page for instructions at 0x05000000
200
        addi    r1, 16, r1
201
        LOAD_PTEH_VAL (FEMI_AREA_2, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
202
        LOAD_PTEL_VAL (FEMI_AREA_2, ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRX | PTE_PRU, r25, r3)
203
        SET_PTE (r1, r2, r3)
204
 
205
        ! Map a 1Mb page for instructions at 0x05100000
206
        addi    r1, 16, r1
207
        LOAD_PTEH_VAL ((FEMI_AREA_2+0x100000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
208
        LOAD_PTEL_VAL ((FEMI_AREA_2+0x100000), ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRX | PTE_PRU, r25, r3)
209
        SET_PTE (r1, r2, r3)
210
 
211
        ! Map a 512M page for instructions at EMI base
212
        addi    r1, 16, r1
213
        LOAD_PTEH_VAL (EMI_BASE, ALIGN_512MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
214
        LOAD_PTEL_VAL (EMI_BASE, ALIGN_512MB, PTE_CB_CACHEABLE_WB | PTE_SZ_512MB | PTE_PRX | PTE_PRU, r25, r3)
215
        SET_PTE (r1, r2, r3)
216
 
217
        ! Map a 4K page for instructions at DM_DB_DLINK_BASE
218
        addi    r1, 16, r1
219
        LOAD_PTEH_VAL (DM_DB_DLINK_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
220
        LOAD_PTEL_VAL (DM_DB_DLINK_BASE, ALIGN_4KB, PTE_CB_CACHEABLE_WB | PTE_SZ_4KB | PTE_PRX | PTE_PRU, r25, r3)
221
        SET_PTE (r1, r2, r3)
222
 
223
        LOAD_ADDR (MMUDR_BASE, r1)
224
 
225
        ! FEMI data mappings
226
        !   Area 0 - 1Mb cacheable at 0x00000000
227
        !   Area 1 - 1Mb device at 0x04000000
228
        !   Area 2 - 1Mb cacheable at 0x05000000
229
        !          - 1Mb cacheable at 0x05100000
230
        !   Area 3 - None
231
        !   Area 4 - None
232
        !   CB     - 1Mb device at 0x08000000
233
 
234
        ! Map a 1Mb page for data at 0x00000000
235
        LOAD_PTEH_VAL (FEMI_AREA_0, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
236
        LOAD_PTEL_VAL (FEMI_AREA_0, ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
237
        SET_PTE (r1, r2, r3)
238
 
239
        ! Map a 1Mb page for data at 0x04000000
240
        addi    r1, 16, r1
241
        LOAD_PTEH_VAL (FEMI_AREA_1, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
242
        LOAD_PTEL_VAL (FEMI_AREA_1, ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
243
        SET_PTE (r1, r2, r3)
244
 
245
        ! Map a 1Mb page for data at 0x05000000
246
        addi    r1, 16, r1
247
        LOAD_PTEH_VAL (FEMI_AREA_2, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
248
        LOAD_PTEL_VAL (FEMI_AREA_2, ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
249
        SET_PTE (r1, r2, r3)
250
 
251
        ! Map a 1Mb page for data at 0x05100000
252
        addi    r1, 16, r1
253
        LOAD_PTEH_VAL ((FEMI_AREA_2+0x100000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
254
        LOAD_PTEL_VAL ((FEMI_AREA_2+0x100000), ALIGN_1MB, PTE_CB_CACHEABLE_WB | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
255
        SET_PTE (r1, r2, r3)
256
 
257
        ! Map a 4K page for registers at 0x08000000
258
        addi    r1, 16, r1
259
        LOAD_PTEH_VAL (FEMI_CB, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
260
        LOAD_PTEL_VAL (FEMI_CB, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
261
        SET_PTE (r1, r2, r3)
262
 
263
        ! Map a 512M page for data at EMI
264
        addi    r1, 16, r1
265
        LOAD_PTEH_VAL (EMI_BASE, ALIGN_512MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
266
        LOAD_PTEL_VAL (EMI_BASE, ALIGN_512MB, PTE_CB_CACHEABLE_WB | PTE_SZ_512MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
267
        SET_PTE (r1, r2, r3)
268
 
269
        ! Map a 4K page for DYNACON at DYNACON_BASE
270
        addi    r1, 16, r1
271
        LOAD_PTEH_VAL (DYNACON_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
272
        LOAD_PTEL_VAL (DYNACON_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
273
        SET_PTE (r1, r2, r3)
274
 
275
        ! Map a 4K page for instructions at DM_DB_DLINK_BASE
276
        addi    r1, 16, r1
277
        LOAD_PTEH_VAL (DM_DB_DLINK_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
278
        LOAD_PTEL_VAL (DM_DB_DLINK_BASE, ALIGN_4KB, PTE_CB_CACHEABLE_WB | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
279
        SET_PTE (r1, r2, r3)
280
 
281
        ! Map a 4K page for data at DM_DB_DLINK_BASE+0x1000
282
        addi    r1, 16, r1
283
        LOAD_PTEH_VAL ((DM_DB_DLINK_BASE+0x1000), ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
284
        LOAD_PTEL_VAL ((DM_DB_DLINK_BASE+0x1000), ALIGN_4KB, PTE_CB_UNCACHEABLE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
285
        SET_PTE (r1, r2, r3)
286
 
287
        ! Map a 4K page for stack DM_DB_DLINK_BASE+0x2000
288
        addi    r1, 16, r1
289
        LOAD_PTEH_VAL ((DM_DB_DLINK_BASE+0x2000), ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
290
        LOAD_PTEL_VAL ((DM_DB_DLINK_BASE+0x2000), ALIGN_4KB, PTE_CB_CACHEABLE_WB | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
291
        SET_PTE (r1, r2, r3)
292
 
293
        ! Map a 1M page for DM_CB_BASE2 at DM_CB_DLINK
294
        ! 0x0c000000 - 0x0c0fffff
295
        addi    r1, 16, r1
296
        LOAD_PTEH_VAL (DM_CB_DLINK_BASE, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
297
        LOAD_PTEL_VAL (DM_CB_DLINK_BASE, ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
298
        SET_PTE (r1, r2, r3)
299
 
300
        ! Map a 1M page for DM_CB_BASE2 at DM_CB_DLINK
301
        ! 0x0c100000 - 0x0c1fffff
302
        addi    r1, 16, r1
303
        LOAD_PTEH_VAL ((DM_CB_DLINK_BASE+0x100000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
304
        LOAD_PTEL_VAL ((DM_CB_DLINK_BASE+0x100000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
305
        SET_PTE (r1, r2, r3)
306
 
307
        ! Map a 1M page for DM_CB_BASE2 at DM_CB_DLINK
308
        ! 0x0c200000 - 0x0c2fffff
309
        addi    r1, 16, r1
310
        LOAD_PTEH_VAL ((DM_CB_DLINK_BASE+0x200000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
311
        LOAD_PTEL_VAL ((DM_CB_DLINK_BASE+0x200000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
312
        SET_PTE (r1, r2, r3)
313
 
314
        ! Map a 1M page for DM_CB_BASE2 at DM_CB_DLINK
315
        ! 0x0c400000 - 0x0c4fffff
316
        addi    r1, 16, r1
317
        LOAD_PTEH_VAL ((DM_CB_DLINK_BASE+0x400000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
318
        LOAD_PTEL_VAL ((DM_CB_DLINK_BASE+0x400000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
319
        SET_PTE (r1, r2, r3)
320
 
321
        ! Map a 1M page for DM_CB_BASE2 at DM_CB_DLINK
322
        ! 0x0c800000 - 0x0c8fffff
323
        addi    r1, 16, r1
324
        LOAD_PTEH_VAL ((DM_CB_DLINK_BASE+0x800000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
325
        LOAD_PTEL_VAL ((DM_CB_DLINK_BASE+0x800000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
326
        SET_PTE (r1, r2, r3)
327
 
328
        ! Map a 4K page for DMA control registers
329
        addi    r1, 16, r1
330
        LOAD_PTEH_VAL (DMA_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
331
        LOAD_PTEL_VAL (DMA_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
332
        SET_PTE (r1, r2, r3)
333
 
334
        ! Map lots of 4K pages for peripherals
335
 
336
        ! /* peripheral */
337
        addi    r1, 16, r1
338
        LOAD_PTEH_VAL (PERIPH_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
339
        LOAD_PTEL_VAL (PERIPH_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
340
        SET_PTE (r1, r2, r3)
341
        ! /* dmac */
342
        addi    r1, 16, r1
343
        LOAD_PTEH_VAL (DMAC_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
344
        LOAD_PTEL_VAL (DMAC_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
345
        SET_PTE (r1, r2, r3)
346
        ! /* intc */
347
        addi    r1, 16, r1
348
        LOAD_PTEH_VAL (INTC_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
349
        LOAD_PTEL_VAL (INTC_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
350
        SET_PTE (r1, r2, r3)
351
        ! /* rtc */
352
        addi    r1, 16, r1
353
        LOAD_PTEH_VAL (RTC_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
354
        LOAD_PTEL_VAL (RTC_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
355
        SET_PTE (r1, r2, r3)
356
        ! /* dmac */
357
        addi    r1, 16, r1
358
        LOAD_PTEH_VAL (TMU_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
359
        LOAD_PTEL_VAL (TMU_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
360
        SET_PTE (r1, r2, r3)
361
        ! /* scif */
362
        addi    r1, 16, r1
363
        LOAD_PTEH_VAL (SCIF_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
364
        LOAD_PTEL_VAL (SCIF_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
365
        SET_PTE (r1, r2, r3)
366
        ! /* cprc */
367
        addi    r1, 16, r1
368
        LOAD_PTEH_VAL (CPRC_BASE, ALIGN_4KB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
369
        LOAD_PTEL_VAL (CPRC_BASE, ALIGN_4KB, PTE_CB_DEVICE | PTE_SZ_4KB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
370
        SET_PTE (r1, r2, r3)
371
 
372
        ! Map CPU WPC registers
373
        addi    r1, 16, r1
374
        LOAD_PTEH_VAL (CPU_BASE, ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
375
        LOAD_PTEL_VAL (CPU_BASE, ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
376
        SET_PTE (r1, r2, r3)
377
        addi    r1, 16, r1
378
 
379
        LOAD_PTEH_VAL ((CPU_BASE+0x100000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
380
        LOAD_PTEL_VAL ((CPU_BASE+0x100000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
381
        SET_PTE (r1, r2, r3)
382
 
383
        addi    r1, 16, r1
384
        LOAD_PTEH_VAL ((CPU_BASE+0x200000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
385
        LOAD_PTEL_VAL ((CPU_BASE+0x200000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
386
        SET_PTE (r1, r2, r3)
387
 
388
        addi    r1, 16, r1
389
        LOAD_PTEH_VAL ((CPU_BASE+0x400000), ALIGN_1MB, PTE_ENABLED | PTE_NOT_SHARED, r25, r2)
390
        LOAD_PTEL_VAL ((CPU_BASE+0x400000), ALIGN_1MB, PTE_CB_DEVICE | PTE_SZ_1MB | PTE_PRR | PTE_PRW | PTE_PRU, r25, r3)
391
        SET_PTE (r1, r2, r3)
392
 
393
        ! Switch over to virtual addressing and enabled cache
394
        getcon  sr, r1
395
        movi    1, r2
396
        shlli   r2, SR_BL_BIT, r2
397
        or      r1, r2, r1
398
        putcon  r1, ssr
399
        getcon  sr, r1
400
        movi    1, r2
401
        shlli   r2, SR_MMU_BIT, r2
402
        or      r1, r2, r1
403
        putcon  r1, ssr
404
        gettr   tr1, r1
405
        putcon  r1, spc
406
        synco
407
        rte
408
 
409
        ! VM entry point.  From now on, we are in VM mode.
410
.vm_ep:
411
 
412
        ! Install the trap handler, by seeding vbr with the
413
        ! correct value, and by assigning sr.bl = 0.
414
 
415
        LOAD_ADDR (vbr_start, r1)
416
        putcon  r1, vbr
417
        movi    ~(1<<28), r1
418
        getcon  sr, r2
419
        and     r1, r2, r2
420
        putcon  r2, sr
421
#endif /* MMU_SUPPORT */
422
 
423
        pt/l    .Lzero_bss_loop, tr0
424
        pt/l    _init, tr5
425
        pt/l    ___setup_argv_and_call_main, tr6
426
        pt/l    _exit, tr7
427
 
428
        ! zero out bss
429
        LOAD_ADDR (_edata, r0)
430
        LOAD_ADDR (_end, r1)
431
.Lzero_bss_loop:
432
        stx.q   r0, r63, r63
433
        addi    r0, 8, r0
434
        bgt/l   r1, r0, tr0
435
 
436
        LOAD_ADDR (___data, r26)
437
        LOAD_ADDR (___rodata, r27)
438
 
439
#ifdef __SH_FPU_ANY__
440
        getcon  sr, r0
441
        ! enable the FP unit, by resetting SR.FD
442
        ! also zero out SR.FR, SR.SZ and SR.PR, as mandated by the ABI
443
        movi    0, r1
444
        shori   0xf000, r1
445
        andc    r0, r1, r0
446
        putcon  r0, sr
447
#if __SH5__ == 32
448
        pt/l ___set_fpscr, tr0
449
        movi    0, r4
450
        blink   tr0, r18
451
#endif
452
#endif
453
 
454
        ! arrange for exit to call fini
455
        pt/l    _atexit, tr1
456
        LOAD_ADDR (_fini, r2)
457
        blink   tr1, r18
458
 
459
        ! call init
460
        blink   tr5, r18
461
 
462
        ! call the mainline
463
        blink   tr6, r18
464
 
465
        ! call exit
466
        blink   tr7, r18
467
        ! We should never return from _exit but in case we do we would enter the
468
        ! the following tight loop. This avoids executing any data that might follow.
469
limbo:
470
        pt/l limbo, tr0
471
        blink tr0, r63
472
 
473
#ifdef MMU_SUPPORT
474
        ! All these traps are handled in the same place.
475
        .balign 256
476
vbr_start:
477
        pt/l handler, tr0       ! tr0 trashed.
478
        blink tr0, r63
479
        .balign 256
480
vbr_100:
481
        pt/l handler, tr0       ! tr0 trashed.
482
        blink tr0, r63
483
vbr_100_end:
484
        .balign 256
485
vbr_200:
486
        pt/l handler, tr0       ! tr0 trashed.
487
        blink tr0, r63
488
        .balign 256
489
vbr_300:
490
        pt/l handler, tr0       ! tr0 trashed.
491
        blink tr0, r63
492
        .balign 256
493
vbr_400:        ! Should be at vbr+0x400
494
handler:
495
        /* If the trap handler is there call it */
496
        LOAD_ADDR (__superh_trap_handler, r2)
497
        pta chandler,tr2
498
        beq r2, r63, tr2 /* If zero, ie not present branch around to chandler */
499
        /* Now call the trap handler with as much of the context unchanged as possible.
500
           Move trapping address into R18 to make it look like the trap point */
501
        getcon spc, r18
502
        pt/l __superh_trap_handler, tr0
503
        blink tr0, r7
504
chandler:
505
        getcon  spc, r62
506
        getcon expevt, r2
507
        pt/l    _exit, tr0
508
        blink   tr0, r63
509
 
510
        /* Simulated trap handler */
511
        .section        .text..SHmedia32,"ax"
512
gcc2_compiled.:
513
        .section        .debug_abbrev
514
.Ldebug_abbrev0:
515
        .section        .text..SHmedia32
516
.Ltext0:
517
        .section        .debug_info
518
.Ldebug_info0:
519
        .section        .debug_line
520
.Ldebug_line0:
521
        .section        .text..SHmedia32,"ax"
522
        .align 5
523
        .global __superh_trap_handler
524
        .type   __superh_trap_handler,@function
525
__superh_trap_handler:
526
.LFB1:
527
        ptabs   r18, tr0
528
        addi.l  r15, -8, r15
529
        st.l    r15, 4, r14
530
        addi.l  r15, -8, r15
531
        add.l   r15, r63, r14
532
        st.l    r14, 0, r2
533
         ptabs r7, tr0
534
        addi.l  r14, 8, r14
535
        add.l   r14, r63, r15
536
        ld.l    r15, 4, r14
537
        addi.l  r15, 8, r15
538
        blink   tr0, r63
539
.LFE1:
540
.Lfe1:
541
        .size   __superh_trap_handler,.Lfe1-__superh_trap_handler
542
 
543
        .section        .text..SHmedia32
544
.Letext0:
545
 
546
        .section        .debug_info
547
        .ualong 0xa7
548
        .uaword 0x2
549
        .ualong .Ldebug_abbrev0
550
        .byte   0x4
551
        .byte   0x1
552
        .ualong .Ldebug_line0
553
        .ualong .Letext0
554
        .ualong .Ltext0
555
        .string "trap_handler.c"
556
 
557
        .string "xxxxxxxxxxxxxxxxxxxxxxxxxxxx"
558
 
559
        .string "GNU C 2.97-sh5-010522"
560
 
561
        .byte   0x1
562
        .byte   0x2
563
        .ualong 0x9a
564
        .byte   0x1
565
        .string "_superh_trap_handler"
566
 
567
        .byte   0x1
568
        .byte   0x2
569
        .byte   0x1
570
        .ualong .LFB1
571
        .ualong .LFE1
572
        .byte   0x1
573
        .byte   0x5e
574
        .byte   0x3
575
        .string "trap_reason"
576
 
577
        .byte   0x1
578
        .byte   0x1
579
        .ualong 0x9a
580
        .byte   0x2
581
        .byte   0x91
582
        .byte   0x0
583
        .byte   0x0
584
        .byte   0x4
585
        .string "unsigned int"
586
 
587
        .byte   0x4
588
        .byte   0x7
589
        .byte   0x0
590
 
591
        .section        .debug_abbrev
592
        .byte   0x1
593
        .byte   0x11
594
        .byte   0x1
595
        .byte   0x10
596
        .byte   0x6
597
        .byte   0x12
598
        .byte   0x1
599
        .byte   0x11
600
        .byte   0x1
601
        .byte   0x3
602
        .byte   0x8
603
        .byte   0x1b
604
        .byte   0x8
605
        .byte   0x25
606
        .byte   0x8
607
        .byte   0x13
608
        .byte   0xb
609
        .byte   0,0
610
        .byte   0x2
611
        .byte   0x2e
612
        .byte   0x1
613
        .byte   0x1
614
        .byte   0x13
615
        .byte   0x3f
616
        .byte   0xc
617
        .byte   0x3
618
        .byte   0x8
619
        .byte   0x3a
620
        .byte   0xb
621
        .byte   0x3b
622
        .byte   0xb
623
        .byte   0x27
624
        .byte   0xc
625
        .byte   0x11
626
        .byte   0x1
627
        .byte   0x12
628
        .byte   0x1
629
        .byte   0x40
630
        .byte   0xa
631
        .byte   0,0
632
        .byte   0x3
633
        .byte   0x5
634
        .byte   0x0
635
        .byte   0x3
636
        .byte   0x8
637
        .byte   0x3a
638
        .byte   0xb
639
        .byte   0x3b
640
        .byte   0xb
641
        .byte   0x49
642
        .byte   0x13
643
        .byte   0x2
644
        .byte   0xa
645
        .byte   0,0
646
        .byte   0x4
647
        .byte   0x24
648
        .byte   0x0
649
        .byte   0x3
650
        .byte   0x8
651
        .byte   0xb
652
        .byte   0xb
653
        .byte   0x3e
654
        .byte   0xb
655
        .byte   0,0
656
        .byte   0
657
 
658
        .section        .debug_pubnames
659
        .ualong 0x27
660
        .uaword 0x2
661
        .ualong .Ldebug_info0
662
        .ualong 0xab
663
        .ualong 0x5b
664
        .string "_superh_trap_handler"
665
 
666
        .ualong 0x0
667
 
668
        .section        .debug_aranges
669
        .ualong 0x1c
670
        .uaword 0x2
671
        .ualong .Ldebug_info0
672
        .byte   0x4
673
        .byte   0x0
674
        .uaword 0x0,0
675
        .ualong .Ltext0
676
        .ualong .Letext0-.Ltext0
677
        .ualong 0x0
678
        .ualong 0x0
679
        .ident  "GCC: (GNU) 2.97-sh5-010522"
680
#endif /* MMU_SUPPORT */
681
#else /* ! __SH5__ */
682
 
683
        ! make a place to keep any previous value of the vbr register
684
        ! this will only have a value if it has been set by redboot (for example)
685
        .section .bss
686
old_vbr:
687
        .long 0
688
#ifdef PROFILE
689
profiling_enabled:
690
        .long 0
691
#endif
692
 
693
 
694
        .section .text
695
        .global start
696
        .import ___rtos_profiler_start_timer
697
        .weak   ___rtos_profiler_start_timer
698
start:
699
        mov.l   stack_k,r15
700
 
701
#if defined (__SH3__) || (defined (__SH_FPU_ANY__) && ! defined (__SH2A__)) || defined (__SH4_NOFPU__)
702
#define VBR_SETUP
703
        ! before zeroing the bss ...
704
        ! if the vbr is already set to vbr_start then the program has been restarted
705
        ! (i.e. it is not the first time the program has been run since reset)
706
        ! reset the vbr to its old value before old_vbr (in bss) is wiped
707
        ! this ensures that the later code does not create a circular vbr chain
708
        stc     vbr, r1
709
        mov.l   vbr_start_k, r2
710
        cmp/eq  r1, r2
711
        bf      0f
712
        ! reset the old vbr value
713
        mov.l   old_vbr_k, r1
714
        mov.l   @r1, r2
715
        ldc     r2, vbr
716
0:
717
#endif /* VBR_SETUP */
718
 
719
        ! zero out bss
720
        mov.l   edata_k,r0
721
        mov.l   end_k,r1
722
        mov     #0,r2
723
start_l:
724
        mov.l   r2,@r0
725
        add     #4,r0
726
        cmp/ge  r0,r1
727
        bt      start_l
728
 
729
#if defined (__SH_FPU_ANY__)
730
        mov.l set_fpscr_k, r1
731
        mov #4,r4
732
        jsr @r1
733
        shll16 r4       ! Set DN bit (flush denormal inputs to zero)
734
        lds r3,fpscr    ! Switch to default precision
735
#endif /* defined (__SH_FPU_ANY__) */
736
 
737
#ifdef VBR_SETUP
738
        ! save the existing contents of the vbr
739
        ! there will only be a prior value when using something like redboot
740
        ! otherwise it will be zero
741
        stc     vbr, r1
742
        mov.l   old_vbr_k, r2
743
        mov.l   r1, @r2
744
        ! setup vbr
745
        mov.l   vbr_start_k, r1
746
        ldc     r1,vbr
747
#endif /* VBR_SETUP */
748
 
749
        ! if an rtos is exporting a timer start fn,
750
        ! then pick up an SR which does not enable ints
751
        ! (the rtos will take care of this)
752
        mov.l rtos_start_fn, r0
753
        mov.l sr_initial_bare, r1
754
        tst     r0, r0
755
        bt      set_sr
756
 
757
        mov.l sr_initial_rtos, r1
758
 
759
set_sr:
760
        ! Set status register (sr)
761
        ldc     r1, sr
762
 
763
        ! arrange for exit to call fini
764
        mov.l   atexit_k,r0
765
        mov.l   fini_k,r4
766
        jsr     @r0
767
        nop
768
 
769
#ifdef PROFILE
770
        ! arrange for exit to call _mcleanup (via stop_profiling)
771
        mova    stop_profiling,r0
772
        mov.l   atexit_k,r1
773
        jsr     @r1
774
        mov     r0, r4
775
 
776
        ! Call profiler startup code
777
        mov.l monstartup_k, r0
778
        mov.l start_k, r4
779
        mov.l etext_k, r5
780
        jsr @r0
781
        nop
782
 
783
        ! enable profiling trap
784
        ! until now any trap 33s will have been ignored
785
        ! This means that all library functions called before this point
786
        ! (directly or indirectly) may have the profiling trap at the start.
787
        ! Therefore, only mcount itself may not have the extra header.
788
        mov.l   profiling_enabled_k2, r0
789
        mov     #1, r1
790
        mov.l   r1, @r0
791
#endif /* PROFILE */
792
 
793
        ! call init
794
        mov.l   init_k,r0
795
        jsr     @r0
796
        nop
797
 
798
        ! call the mainline
799
        mov.l   main_k,r0
800
        jsr     @r0
801
        nop
802
 
803
        ! call exit
804
        mov     r0,r4
805
        mov.l   exit_k,r0
806
        jsr     @r0
807
        nop
808
 
809
                .balign 4
810
#ifdef PROFILE
811
stop_profiling:
812
        # stop mcount counting
813
        mov.l   profiling_enabled_k2, r0
814
        mov     #0, r1
815
        mov.l   r1, @r0
816
 
817
        # call mcleanup
818
        mov.l   mcleanup_k, r0
819
        jmp     @r0
820
        nop
821
 
822
                .balign 4
823
mcleanup_k:
824
        .long __mcleanup
825
monstartup_k:
826
        .long ___monstartup
827
profiling_enabled_k2:
828
        .long profiling_enabled
829
start_k:
830
        .long _start
831
etext_k:
832
        .long __etext
833
#endif /* PROFILE */
834
 
835
        .align 2
836
#if defined (__SH_FPU_ANY__)
837
set_fpscr_k:
838
        .long   ___set_fpscr
839
#endif /*  defined (__SH_FPU_ANY__) */
840
 
841
stack_k:
842
        .long   _stack
843
edata_k:
844
        .long   _edata
845
end_k:
846
        .long   _end
847
main_k:
848
        .long   ___setup_argv_and_call_main
849
exit_k:
850
        .long   _exit
851
atexit_k:
852
        .long   _atexit
853
init_k:
854
        .long   _init
855
fini_k:
856
        .long   _fini
857
#ifdef VBR_SETUP
858
old_vbr_k:
859
        .long   old_vbr
860
vbr_start_k:
861
        .long   vbr_start
862
#endif /* VBR_SETUP */
863
 
864
sr_initial_rtos:
865
        ! Privileged mode RB 1 BL 0. Keep BL 0 to allow default trap handlers to work.
866
        ! Whether profiling or not, keep interrupts masked,
867
        ! the RTOS will enable these if required.
868
        .long 0x600000f1
869
 
870
rtos_start_fn:
871
        .long ___rtos_profiler_start_timer
872
 
873
#ifdef PROFILE
874
sr_initial_bare:
875
        ! Privileged mode RB 1 BL 0. Keep BL 0 to allow default trap handlers to work.
876
        ! For bare machine, we need to enable interrupts to get profiling working
877
        .long 0x60000001
878
#else
879
 
880
sr_initial_bare:
881
        ! Privileged mode RB 1 BL 0. Keep BL 0 to allow default trap handlers to work.
882
        ! Keep interrupts disabled - the application will enable as required.
883
        .long 0x600000f1
884
#endif
885
 
886
        ! supplied for backward compatibility only, in case of linking
887
        ! code whose main() was compiled with an older version of GCC.
888
        .global ___main
889
___main:
890
        rts
891
        nop
892
#ifdef VBR_SETUP
893
! Exception handlers
894
        .section .text.vbr, "ax"
895
vbr_start:
896
 
897
        .org 0x100
898
vbr_100:
899
#ifdef PROFILE
900
        ! Note on register usage.
901
        ! we use r0..r3 as scratch in this code. If we are here due to a trapa for profiling
902
        ! then this is OK as we are just before executing any function code.
903
        ! The other r4..r7 we save explicityl on the stack
904
        ! Remaining registers are saved by normal ABI conventions and we assert we do not
905
        ! use floating point registers.
906
        mov.l expevt_k1, r1
907
        mov.l @r1, r1
908
        mov.l event_mask, r0
909
        and r0,r1
910
        mov.l trapcode_k, r2
911
        cmp/eq r1,r2
912
        bt 1f
913
        bra handler_100   ! if not a trapa, go to default handler
914
        nop
915
1:
916
        mov.l trapa_k, r0
917
        mov.l @r0, r0
918
        shlr2 r0      ! trapa code is shifted by 2.
919
        cmp/eq #33, r0
920
        bt 2f
921
        bra handler_100
922
        nop
923
2:
924
 
925
        ! If here then it looks like we have trap #33
926
        ! Now we need to call mcount with the following convention
927
        ! Save and restore r4..r7
928
        mov.l   r4,@-r15
929
        mov.l   r5,@-r15
930
        mov.l   r6,@-r15
931
        mov.l   r7,@-r15
932
        sts.l   pr,@-r15
933
 
934
        ! r4 is frompc.
935
        ! r5 is selfpc
936
        ! r0 is the branch back address.
937
        ! The code sequence emitted by gcc for the profiling trap is
938
        ! .align 2
939
        ! trapa #33
940
        ! .align 2
941
        ! .long lab Where lab is planted by the compiler. This is the address
942
        ! of a datum that needs to be incremented.
943
        sts pr,  r4     ! frompc
944
        stc spc, r5     ! selfpc
945
        mov #2, r2
946
        not r2, r2      ! pattern to align to 4
947
        and r2, r5      ! r5 now has aligned address
948
!       add #4, r5      ! r5 now has address of address
949
        mov r5, r2      ! Remember it.
950
!       mov.l @r5, r5   ! r5 has value of lable (lab in above example)
951
        add #8, r2
952
        ldc r2, spc     ! our return address avoiding address word
953
 
954
        ! only call mcount if profiling is enabled
955
        mov.l profiling_enabled_k, r0
956
        mov.l @r0, r0
957
        cmp/eq #0, r0
958
        bt 3f
959
        ! call mcount
960
        mov.l mcount_k, r2
961
        jsr @r2
962
        nop
963
3:
964
        lds.l @r15+,pr
965
        mov.l @r15+,r7
966
        mov.l @r15+,r6
967
        mov.l @r15+,r5
968
        mov.l @r15+,r4
969
        rte
970
        nop
971
        .balign 4
972
event_mask:
973
        .long 0xfff
974
trapcode_k:
975
        .long 0x160
976
expevt_k1:
977
        .long 0xff000024 ! Address of expevt
978
trapa_k:
979
        .long 0xff000020
980
mcount_k:
981
        .long __call_mcount
982
profiling_enabled_k:
983
        .long profiling_enabled
984
#endif
985
        ! Non profiling case.
986
handler_100:
987
        mov.l 2f, r0     ! load the old vbr setting (if any)
988
        mov.l @r0, r0
989
        cmp/eq #0, r0
990
        bf 1f
991
        ! no previous vbr - jump to own generic handler
992
        bra handler
993
        nop
994
1:      ! there was a previous handler - chain them
995
        add #0x7f, r0    ! 0x7f
996
        add #0x7f, r0    ! 0xfe
997
        add #0x2, r0     ! add 0x100 without corrupting another register
998
        jmp @r0
999
        nop
1000
        .balign 4
1001
2:
1002
        .long old_vbr
1003
 
1004
        .org 0x400
1005
vbr_400:        ! Should be at vbr+0x400
1006
        mov.l 2f, r0     ! load the old vbr setting (if any)
1007
        mov.l @r0, r0
1008
        cmp/eq #0, r0
1009
        ! no previous vbr - jump to own generic handler
1010
        bt handler
1011
        ! there was a previous handler - chain them
1012
        rotcr r0
1013
        rotcr r0
1014
        add #0x7f, r0    ! 0x1fc
1015
        add #0x7f, r0    ! 0x3f8
1016
        add #0x02, r0    ! 0x400
1017
        rotcl r0
1018
        rotcl r0         ! Add 0x400 without corrupting another register
1019
        jmp @r0
1020
        nop
1021
        .balign 4
1022
2:
1023
        .long old_vbr
1024
handler:
1025
        /* If the trap handler is there call it */
1026
        mov.l   superh_trap_handler_k, r0
1027
        cmp/eq  #0, r0       ! True if zero.
1028
        bf 3f
1029
        bra   chandler
1030
        nop
1031
3:
1032
        ! Here handler available, call it.
1033
        /* Now call the trap handler with as much of the context unchanged as possible.
1034
           Move trapping address into PR to make it look like the trap point */
1035
        stc spc, r1
1036
        lds r1, pr
1037
        mov.l expevt_k, r4
1038
        mov.l @r4, r4 ! r4 is value of expevt, first parameter.
1039
        mov r1, r5   ! Remember trapping pc.
1040
        mov r1, r6   ! Remember trapping pc.
1041
        mov.l chandler_k, r1
1042
        mov.l superh_trap_handler_k, r2
1043
        ! jmp to trap handler to avoid disturbing pr.
1044
        jmp @r2
1045
        nop
1046
 
1047
        .org 0x600
1048
vbr_600:
1049
#ifdef PROFILE
1050
        ! Should be at vbr+0x600
1051
        ! Now we are in the land of interrupts so need to save more state.
1052
        ! Save register state
1053
        mov.l interrupt_stack_k, r15 ! r15 has been saved to sgr.
1054
        mov.l   r0,@-r15
1055
        mov.l   r1,@-r15
1056
        mov.l   r2,@-r15
1057
        mov.l   r3,@-r15
1058
        mov.l   r4,@-r15
1059
        mov.l   r5,@-r15
1060
        mov.l   r6,@-r15
1061
        mov.l   r7,@-r15
1062
        sts.l   pr,@-r15
1063
        sts.l   mach,@-r15
1064
        sts.l   macl,@-r15
1065
#if defined(__SH_FPU_ANY__)
1066
        ! Save fpul and fpscr, save fr0-fr7 in 64 bit mode
1067
        ! and set the pervading precision for the timer_handler
1068
        mov     #0,r0
1069
        sts.l   fpul,@-r15
1070
        sts.l   fpscr,@-r15
1071
        lds     r0,fpscr        ! Clear fpscr
1072
        fmov    fr0,@-r15
1073
        fmov    fr1,@-r15
1074
        fmov    fr2,@-r15
1075
        fmov    fr3,@-r15
1076
        mov.l   pervading_precision_k,r0
1077
        fmov    fr4,@-r15
1078
        fmov    fr5,@-r15
1079
        mov.l   @r0,r0
1080
        fmov    fr6,@-r15
1081
        fmov    fr7,@-r15
1082
        lds     r0,fpscr
1083
#endif /* __SH_FPU_ANY__ */
1084
        ! Pass interrupted pc to timer_handler as first parameter (r4).
1085
        stc    spc, r4
1086
        mov.l timer_handler_k, r0
1087
        jsr @r0
1088
        nop
1089
#if defined(__SH_FPU_ANY__)
1090
        mov     #0,r0
1091
        lds     r0,fpscr        ! Clear the fpscr
1092
        fmov    @r15+,fr7
1093
        fmov    @r15+,fr6
1094
        fmov    @r15+,fr5
1095
        fmov    @r15+,fr4
1096
        fmov    @r15+,fr3
1097
        fmov    @r15+,fr2
1098
        fmov    @r15+,fr1
1099
        fmov    @r15+,fr0
1100
        lds.l   @r15+,fpscr
1101
        lds.l   @r15+,fpul
1102
#endif /* __SH_FPU_ANY__ */
1103
        lds.l @r15+,macl
1104
        lds.l @r15+,mach
1105
        lds.l @r15+,pr
1106
        mov.l @r15+,r7
1107
        mov.l @r15+,r6
1108
        mov.l @r15+,r5
1109
        mov.l @r15+,r4
1110
        mov.l @r15+,r3
1111
        mov.l @r15+,r2
1112
        mov.l @r15+,r1
1113
        mov.l @r15+,r0
1114
        stc sgr, r15    ! Restore r15, destroyed by this sequence.
1115
        rte
1116
        nop
1117
#if defined(__SH_FPU_ANY__)
1118
        .balign 4
1119
pervading_precision_k:
1120
#define CONCAT1(A,B) A##B
1121
#define CONCAT(A,B) CONCAT1(A,B)
1122
        .long CONCAT(__USER_LABEL_PREFIX__,__fpscr_values)+4
1123
#endif
1124
#else
1125
        mov.l 2f, r0     ! Load the old vbr setting (if any).
1126
        mov.l @r0, r0
1127
        cmp/eq #0, r0
1128
        ! no previous vbr - jump to own handler
1129
        bt chandler
1130
        ! there was a previous handler - chain them
1131
        rotcr r0
1132
        rotcr r0
1133
        add #0x7f, r0    ! 0x1fc
1134
        add #0x7f, r0    ! 0x3f8
1135
        add #0x7f, r0    ! 0x5f4
1136
        add #0x03, r0    ! 0x600
1137
        rotcl r0
1138
        rotcl r0         ! Add 0x600 without corrupting another register
1139
        jmp @r0
1140
        nop
1141
        .balign 4
1142
2:
1143
        .long old_vbr
1144
#endif   /* PROFILE code */
1145
chandler:
1146
        mov.l expevt_k, r4
1147
        mov.l @r4, r4 ! r4 is value of expevt hence making this the return code
1148
        mov.l handler_exit_k,r0
1149
        jsr   @r0
1150
        nop
1151
        ! We should never return from _exit but in case we do we would enter the
1152
        ! the following tight loop
1153
limbo:
1154
        bra limbo
1155
        nop
1156
        .balign 4
1157
#ifdef PROFILE
1158
interrupt_stack_k:
1159
        .long __timer_stack     ! The high end of the stack
1160
timer_handler_k:
1161
        .long __profil_counter
1162
#endif
1163
expevt_k:
1164
        .long 0xff000024 ! Address of expevt
1165
chandler_k:
1166
        .long chandler
1167
superh_trap_handler_k:
1168
        .long   __superh_trap_handler
1169
handler_exit_k:
1170
        .long _exit
1171
        .align 2
1172
! Simulated compile of trap handler.
1173
        .section        .debug_abbrev,"",@progbits
1174
.Ldebug_abbrev0:
1175
        .section        .debug_info,"",@progbits
1176
.Ldebug_info0:
1177
        .section        .debug_line,"",@progbits
1178
.Ldebug_line0:
1179
        .text
1180
.Ltext0:
1181
        .align 5
1182
        .type   __superh_trap_handler,@function
1183
__superh_trap_handler:
1184
.LFB1:
1185
        mov.l   r14,@-r15
1186
.LCFI0:
1187
        add     #-4,r15
1188
.LCFI1:
1189
        mov     r15,r14
1190
.LCFI2:
1191
        mov.l   r4,@r14
1192
        lds     r1, pr
1193
        add     #4,r14
1194
        mov     r14,r15
1195
        mov.l   @r15+,r14
1196
        rts
1197
        nop
1198
.LFE1:
1199
.Lfe1:
1200
        .size   __superh_trap_handler,.Lfe1-__superh_trap_handler
1201
        .section        .debug_frame,"",@progbits
1202
.Lframe0:
1203
        .ualong .LECIE0-.LSCIE0
1204
.LSCIE0:
1205
        .ualong 0xffffffff
1206
        .byte   0x1
1207
        .string ""
1208
        .uleb128 0x1
1209
        .sleb128 -4
1210
        .byte   0x11
1211
        .byte   0xc
1212
        .uleb128 0xf
1213
        .uleb128 0x0
1214
        .align 2
1215
.LECIE0:
1216
.LSFDE0:
1217
        .ualong .LEFDE0-.LASFDE0
1218
.LASFDE0:
1219
        .ualong .Lframe0
1220
        .ualong .LFB1
1221
        .ualong .LFE1-.LFB1
1222
        .byte   0x4
1223
        .ualong .LCFI0-.LFB1
1224
        .byte   0xe
1225
        .uleb128 0x4
1226
        .byte   0x4
1227
        .ualong .LCFI1-.LCFI0
1228
        .byte   0xe
1229
        .uleb128 0x8
1230
        .byte   0x8e
1231
        .uleb128 0x1
1232
        .byte   0x4
1233
        .ualong .LCFI2-.LCFI1
1234
        .byte   0xd
1235
        .uleb128 0xe
1236
        .align 2
1237
.LEFDE0:
1238
        .text
1239
.Letext0:
1240
        .section        .debug_info
1241
        .ualong 0xb3
1242
        .uaword 0x2
1243
        .ualong .Ldebug_abbrev0
1244
        .byte   0x4
1245
        .uleb128 0x1
1246
        .ualong .Ldebug_line0
1247
        .ualong .Letext0
1248
        .ualong .Ltext0
1249
        .string "trap_handler.c"
1250
        .string "xxxxxxxxxxxxxxxxxxxxxxxxxxxx"
1251
        .string "GNU C 3.2 20020529 (experimental)"
1252
        .byte   0x1
1253
        .uleb128 0x2
1254
        .ualong 0xa6
1255
        .byte   0x1
1256
        .string "_superh_trap_handler"
1257
        .byte   0x1
1258
        .byte   0x2
1259
        .byte   0x1
1260
        .ualong .LFB1
1261
        .ualong .LFE1
1262
        .byte   0x1
1263
        .byte   0x5e
1264
        .uleb128 0x3
1265
        .string "trap_reason"
1266
        .byte   0x1
1267
        .byte   0x1
1268
        .ualong 0xa6
1269
        .byte   0x2
1270
        .byte   0x91
1271
        .sleb128 0
1272
        .byte   0x0
1273
        .uleb128 0x4
1274
        .string "unsigned int"
1275
        .byte   0x4
1276
        .byte   0x7
1277
        .byte   0x0
1278
        .section        .debug_abbrev
1279
        .uleb128 0x1
1280
        .uleb128 0x11
1281
        .byte   0x1
1282
        .uleb128 0x10
1283
        .uleb128 0x6
1284
        .uleb128 0x12
1285
        .uleb128 0x1
1286
        .uleb128 0x11
1287
        .uleb128 0x1
1288
        .uleb128 0x3
1289
        .uleb128 0x8
1290
        .uleb128 0x1b
1291
        .uleb128 0x8
1292
        .uleb128 0x25
1293
        .uleb128 0x8
1294
        .uleb128 0x13
1295
        .uleb128 0xb
1296
        .byte   0x0
1297
        .byte   0x0
1298
        .uleb128 0x2
1299
        .uleb128 0x2e
1300
        .byte   0x1
1301
        .uleb128 0x1
1302
        .uleb128 0x13
1303
        .uleb128 0x3f
1304
        .uleb128 0xc
1305
        .uleb128 0x3
1306
        .uleb128 0x8
1307
        .uleb128 0x3a
1308
        .uleb128 0xb
1309
        .uleb128 0x3b
1310
        .uleb128 0xb
1311
        .uleb128 0x27
1312
        .uleb128 0xc
1313
        .uleb128 0x11
1314
        .uleb128 0x1
1315
        .uleb128 0x12
1316
        .uleb128 0x1
1317
        .uleb128 0x40
1318
        .uleb128 0xa
1319
        .byte   0x0
1320
        .byte   0x0
1321
        .uleb128 0x3
1322
        .uleb128 0x5
1323
        .byte   0x0
1324
        .uleb128 0x3
1325
        .uleb128 0x8
1326
        .uleb128 0x3a
1327
        .uleb128 0xb
1328
        .uleb128 0x3b
1329
        .uleb128 0xb
1330
        .uleb128 0x49
1331
        .uleb128 0x13
1332
        .uleb128 0x2
1333
        .uleb128 0xa
1334
        .byte   0x0
1335
        .byte   0x0
1336
        .uleb128 0x4
1337
        .uleb128 0x24
1338
        .byte   0x0
1339
        .uleb128 0x3
1340
        .uleb128 0x8
1341
        .uleb128 0xb
1342
        .uleb128 0xb
1343
        .uleb128 0x3e
1344
        .uleb128 0xb
1345
        .byte   0x0
1346
        .byte   0x0
1347
        .byte   0x0
1348
        .section        .debug_pubnames,"",@progbits
1349
        .ualong 0x27
1350
        .uaword 0x2
1351
        .ualong .Ldebug_info0
1352
        .ualong 0xb7
1353
        .ualong 0x67
1354
        .string "_superh_trap_handler"
1355
        .ualong 0x0
1356
        .section        .debug_aranges,"",@progbits
1357
        .ualong 0x1c
1358
        .uaword 0x2
1359
        .ualong .Ldebug_info0
1360
        .byte   0x4
1361
        .byte   0x0
1362
        .uaword 0x0
1363
        .uaword 0x0
1364
        .ualong .Ltext0
1365
        .ualong .Letext0-.Ltext0
1366
        .ualong 0x0
1367
        .ualong 0x0
1368
#endif /* VBR_SETUP */
1369
#endif /* ! __SH5__ */

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