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[/] [openrisc/] [trunk/] [gnu-src/] [newlib-1.18.0/] [newlib/] [libc/] [sys/] [a29khif/] [signal.S] - Blame information for rev 357

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1 207 jeremybenn
;@(#)signal.s   2.15 90/10/14 21:57:55, AMD
2
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; Copyright 1990 Advanced Micro Devices, Inc.
4
;
5
; This software is the property of Advanced Micro Devices, Inc  (AMD)  which
6
; specifically  grants the user the right to modify, use and distribute this
7
; software provided this notice is not removed or altered.  All other rights
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; are reserved by AMD.
9
;
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; AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS
11
; SOFTWARE.  IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL
12
; DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR
13
; USE OF THIS SOFTWARE.
14
;
15
; So that all may benefit from your experience, please report  any  problems
16
; or  suggestions about this software to the 29K Technical Support Center at
17
; 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131  in  the  UK,  or
18
; 0031-11-1129 in Japan, toll free.  The direct dial number is 512-462-4118.
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;
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; Advanced Micro Devices, Inc.
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; 29K Support Products
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; Mail Stop 573
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; 5900 E. Ben White Blvd.
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; Austin, TX 78741
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; 800-292-9263
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
27
        .file   "signal.s"
28
 
29
; SigEntry is the address of an array of C-level user code signal handlers.
30
; They must return to the top-level before doing a sigret() return function.
31
; Nested signals are supported.
32
 
33
        .extern V_SPILL, V_FILL
34
        .extern fill            ; In crt0.s
35
 
36
        .align  4
37
        .comm   WindowSize, 4
38
        .data
39
SigEntry:
40
        .word   0                ; reserved
41
        .word   0                ; adds. of #2 SIGINT handler
42
        .word   0                ; reserved
43
        .word   0                ; reserved
44
        .word   0                ; reserved
45
        .word   0                ; reserved
46
        .word   0                ; reserved
47
        .word   0                ; adds. of #8 SIGFPE handler
48
 
49
        .text
50
 
51
        .reg    v0,     gr96
52
        .reg    v1,     gr97
53
        .reg    v2,     gr98
54
        .reg    v3,     gr99
55
 
56
        .reg    tav,    gr121
57
        .reg    tpc,    gr122
58
        .reg    lrp,    gr123
59
        .reg    slp,    gr124
60
        .reg    msp,    gr125
61
        .reg    rab,    gr126
62
        .reg    rfb,    gr127
63
 
64
;=================================================================== setjmp()
65
; int
66
; setjmp(label_t jmpbuf)
67
; {
68
;       *jmpbuf = {gr1, msp, lr0, lr1};
69
;       return 0;
70
; }
71
;
72
        .global _setjmp
73
_setjmp:
74
        store   0, 0, gr1, lr2
75
        add     lr2, lr2, 4
76
        store   0, 0, msp, lr2
77
        add     lr2, lr2, 4
78
        store   0, 0, lr0, lr2
79
        add     lr2, lr2, 4
80
        store   0, 0, lr1, lr2
81
        jmpi    lr0
82
         const  v0, 0
83
;
84
;==================================================================== longjmp()
85
; int
86
; longjmp(label_t jmpbuf, int value)
87
; {
88
;       /* BUG: check for this
89
;         if (msp > jmpbuf->msp || gr1 > jmpbuf->gr1)
90
;               longjmperror();
91
;        */
92
;
93
;       gr1 = jmpbuf->gr1;
94
;       lr2addr = jmpbuf->gr1 + 8;
95
;       msp = jmpbuf->msp;
96
;
97
;       /* saved lr1 is invalid if saved lr2addr > rfb */
98
;       if (lr2addr > rfb) {
99
;               /*
100
;                * None of the registers are useful.
101
;                * Set rfb to lr2addr - 512 & rab to rfb - 512.
102
;                * the FILL assert will take care of filling
103
;                */
104
;               lr1 = jmpbuf->lr1;
105
;               rab = lr2addr - windowsize;
106
;               rfb = lr2addr;
107
;       }
108
;
109
;       lr0 = jmpbuf->lr0;
110
;       if (rfb < lr1)
111
;               raise V_FILL;
112
;       return value;
113
; }
114
;
115
        .global _longjmp
116
_longjmp:
117
        load    0, 0, tav, lr2          ; copy in gr1
118
        add     v1, lr2, 4              ; v1 points to msp
119
        ; make sure we return a non-zero value
120
        cpeq    v0, lr3, 0
121
        srl     v0, v0, 31
122
        or      v0, lr3, v0
123
 
124
        add     gr1, tav, 0             ; now update gr1
125
        add     tav, tav, 8             ; calculate lr2addr
126
        load    0, 0, msp, v1           ; update msp from jmpbuf
127
        cpleu   v3, tav, rfb            ; if (lr2addr > rfb)
128
        jmpt    v3, $1                  ; {
129
         add    v1, v1, 4               ; v1 points to lr0
130
        add     v2, v1, 4               ;       v2 points to lr1
131
        load    0, 0, lr1, v2           ;       lr1 = value from jmpbuf
132
        sub     v3, rfb, rab            ;
133
        sub     rab, tav, v3            ;       rab = lr2addr - windowsize
134
        add     rfb, tav, 0             ;       rfb = lr2addr
135
$1:     ; }
136
        load    0, 0, lr0, v1
137
        jmpi    lr0
138
         asgeu   V_FILL, rfb, lr1       ; may fill from rfb to lr1
139
;
140
;================================================================== sigcode
141
; About to deliver a signal to a user mode signal handler.
142
;       msp+(15*4) = signal_number
143
;       msp+(14*4) = gr1
144
;       msp+(13*4) = rab
145
;       msp+(12*4) = PC0
146
;       msp+(11*4) = PC1
147
;       msp+(10*4) = PC2
148
;       msp+( 9*4) = CHA
149
;       msp+( 8*4) = CHD
150
;       msp+( 7*4) = CHC
151
;       msp+( 6*4) = ALU
152
;       msp+( 5*4) = OPS
153
;       msp+( 4*4) = gr121
154
;       msp+( 3*4) = gr99
155
;       msp+( 2*4) = gr98
156
;       msp+( 1*4) = gr97
157
;       msp        = gr96
158
; The state of all the registers (except for msp, chc and rab)
159
; is the same as when the process was interrupted.
160
;
161
; We must make the stack and window consistent before calling the handler
162
; The orignal rab value is on the stack. The interrupt handler placed
163
; rfb-Windowsize in rab. This is required to support nested interrupts.
164
;
165
; Note that the window becomes incosistent only during certain
166
; critical sections in spill, fill, longjmp and sigcode.
167
;       rfb - rab > windowsize => we are in spill
168
;       rfb - rab < windowsize => we are in fill
169
;       gr1 + 8   > rfb        => we are in long-longjmp case
170
; In case of spill, fill and lonjmp; rab is modified first,
171
; so if we are in one of these critical sections,
172
; we set rab to rfb - WINDOWSIZE.
173
;
174
        .equ    SIGCTX_SIZE,            (16)*4
175
        .equ    SIGCTX_SIGNUMB,         (15)*4
176
        .equ    SIGCTX_GR1_OFFSET,      (14)*4
177
        .equ    SIGCTX_RAB_OFFSET,      (13)*4
178
        .equ    SIGCTX_PC0_OFFSET,      (12)*4
179
        .equ    SIGCTX_PC1_OFFSET,      (11)*4
180
        .equ    SIGCTX_PC2_OFFSET,      (10)*4
181
        .equ    SIGCTX_CHC_OFFSET,      (7)*4
182
        .equ    SIGCTX_OPS_OFFSET,      (5)*4
183
        .equ    SIGCTX_TAV_OFFSET,      (4)*4
184
        .global sigcode
185
sigcode:
186
; --------------------------------------------------------  R-Stack fixup
187
        const   v0, WindowSize          ; get register cache size
188
        consth  v0, WindowSize
189
        load    0, 0, v0, v0
190
        add     v2, msp, SIGCTX_RAB_OFFSET
191
        load    0, 0, v2, v2            ; get interrupted rab value
192
        sub     v1, rfb, v2             ; determine if  rfb-rab <= WINDOW_SIZE
193
        cpgeu   v1, v1, v0              ;
194
        jmpt    v1, nfill               ; jmp if spill or 'normal' interrupt
195
        add     v1, gr1, 8
196
         cpgt   v1, v1, rfb             ; interrupted longjmp can look like fill
197
        jmpf    v1, nfill               ; test for long-longjmp interruption
198
         nop                            ; jmp if gr1+8 <= rfb
199
; Fixup signal stack to re-start interrupted fill
200
; backup pc1 -- this is needed for the partial fill case.
201
; Clear chc so an interrupted load/store does not restart.
202
; Reset rab to a window distance below rfb, rab shall be
203
; decremented again on re-starting the interrupted fill.
204
; The interrupt handler set rab=rfb-WindowSize.
205
;
206
        add     v0, msp, SIGCTX_RAB_OFFSET
207
        store   0, 0, rab, v0           ; re-store (rfb-WindowSize) for rab
208
        const   v2, fill
209
        consth  v2, fill
210
        add     v0, msp, SIGCTX_PC1_OFFSET
211
        store   0, 0, v2, v0
212
        sub     v2, v2, 4               ; determine pc0
213
        add     v0, msp, SIGCTX_PC0_OFFSET
214
        store   0, 0, v2, v0
215
        const   v2, 0                   ; clear chc
216
        add     v0, msp, SIGCTX_CHC_OFFSET
217
        store   0, 0, v2, v0
218
 
219
nfill:
220
        cpgt    v0, gr1, rfb            ; if gr1 > rfb then gr1 = rfb
221
        jmpt    v0, lower
222
         cplt   v0, gr1, rab            ; if gr1 < rab then gr1 = rab
223
        jmpt    v0, raise
224
         nop
225
; -------------------------------------------------------- save_regs
226
sig1:   sub     msp, msp, (4+2+25)*4    ; reserve space for regs
227
        mfsr    gr96, ipc
228
        mfsr    gr97, ipa
229
        mfsr    gr98, ipb
230
        mfsr    gr99, q
231
        mtsrim  cr, 4-1
232
        storem  0, 0, gr96, msp
233
;                                        "push" registers stack support
234
        add     gr96, lr1, 0
235
        add     gr97, rfb, 0
236
        mtsrim  cr, 2-1
237
        add     gr99, msp, 2*4
238
        storem  0, 0, gr96, gr99
239
;                                         "push" remaining global registers
240
        mtsrim  cr, 25-1                ; gr100-gr124
241
        add     gr96, msp, (4+2)*4
242
        storem  0, 0, gr100, gr96
243
;
244
; -------------------------------------------------------- Dummy Call
245
        .equ    RALLOC, 4*4             ; make space for function calls
246
        add     v0, rfb, 0              ; store original rfb
247
        sub     gr1, gr1, RALLOC
248
        asgeu   V_SPILL, gr1, rab
249
        add     lr1, v0, 0              ; set lr1 = original rfb
250
        add     v1, msp, (4+2+25)*4 + SIGCTX_SIGNUMB
251
        load    0, 0, lr2, v1           ; restore signal number
252
        sub     v1, lr2, 1              ; get handler index
253
        sll     v1, v1, 2               ; point to addresses
254
;
255
; -------------------------------------------------------- call C-level
256
; Handler must not use HIF services other than the _sigret() type.
257
        const   v0, SigEntry
258
        consth  v0, SigEntry
259
        add     v0, v0, v1
260
        load    0, 0, v0, v0            ; determine if handler registered
261
        cpeq    v1, v0, 0
262
        jmpt    v1, NoHandler
263
         nop
264
        calli   lr0, v0                 ; call C-level signal handler
265
         nop
266
;
267
; -------------------------------------------------------- default return
268
NoHandler:
269
        jmp     __sigdfl
270
         nop
271
 
272
; -------------------------------------------------------- support bits
273
lower:  sll     gr1, rfb, 0
274
        jmp     sig1
275
         nop
276
raise:  sll     gr1, rab, 0
277
        jmp     sig1
278
         nop
279
/*
280
; -------------------------------------------------------- repair_regs
281
        mtsrim  cr, 4-1
282
        loadm   0, 0, gr96, msp
283
        mtsr    ipc, gr96
284
        mtsr    ipa, gr97
285
        mtsr    ipb, gr98
286
        mtsr    Q, gr99
287
;                                        "pop" registers stack support
288
        mtsrim  cr, 2-1
289
        add     gr99, msp, 2*4
290
        loadm   0, 0, gr96, gr99
291
        add     lr1, gr96, 0
292
        add     rfb, gr97, 0
293
;                                         "pop" remaining global registers
294
        mtsrim  cr, 25-1                ; gr100-gr124
295
        add     gr96, msp, (4+2)*4
296
        loadm   0, 0, gr100, gr96
297
        add     msp, msp, (4+2+25)*4    ; repair msp to save_regs entry value
298
; -------------------------------------------------------- end repair
299
*/
300
 
301
; ======================================================== _sigret()
302
        .global __sigret
303
__sigret:
304
;       repair_regs
305
; -------------------------------------------------------- repair_regs
306
        mtsrim  cr, 4-1
307
        loadm   0, 0, gr96, msp
308
        mtsr    ipc, gr96
309
        mtsr    ipa, gr97
310
        mtsr    ipb, gr98
311
        mtsr    q, gr99
312
;                                        "pop" registers stack support
313
        mtsrim  cr, 2-1
314
        add     gr99, msp, 2*4
315
        loadm   0, 0, gr96, gr99
316
        add     lr1, gr96, 0
317
        add     rfb, gr97, 0
318
;                                         "pop" remaining global registers
319
        mtsrim  cr, 25-1                ; gr100-gr124
320
        add     gr96, msp, (4+2)*4
321
        loadm   0, 0, gr100, gr96
322
        add     msp, msp, (4+2+25)*4    ; repair msp to save_regs entry value
323
; -------------------------------------------------------- end repair
324
        const   tav, 323                ; HIF _sigret
325
        asneq   69, gr1,gr1
326
        halt                            ; commit suicide if returns
327
 
328
; ======================================================== _sigdfl()
329
        .global __sigdfl
330
__sigdfl:
331
;       repair_regs
332
; -------------------------------------------------------- repair_regs
333
        mtsrim  cr, 4-1
334
        loadm   0, 0, gr96, msp
335
        mtsr    ipc, gr96
336
        mtsr    ipa, gr97
337
        mtsr    ipb, gr98
338
        mtsr    q, gr99
339
;                                        "pop" registers stack support
340
        mtsrim  cr, 2-1
341
        add     gr99, msp, 2*4
342
        loadm   0, 0, gr96, gr99
343
        add     lr1, gr96, 0
344
        add     rfb, gr97, 0
345
;                                         "pop" remaining global registers
346
        mtsrim  cr, 25-1                ; gr100-gr124
347
        add     gr96, msp, (4+2)*4
348
        loadm   0, 0, gr100, gr96
349
        add     msp, msp, (4+2+25)*4    ; repair msp to save_regs entry value
350
; -------------------------------------------------------- end repair
351
        const   tav, 322                ; HIF _sigdfl
352
        asneq   69, gr1,gr1
353
        halt                            ; commit suicide if returns
354
 
355
; ======================================================== _sigrep()
356
__sigrep:
357
        .global __sigrep
358
;       repair_regs
359
; -------------------------------------------------------- repair_regs
360
        mtsrim  cr, 4-1
361
        loadm   0, 0, gr96, msp
362
        mtsr    ipc, gr96
363
        mtsr    ipa, gr97
364
        mtsr    ipb, gr98
365
        mtsr    q, gr99
366
;                                        "pop" registers stack support
367
        mtsrim  cr, 2-1
368
        add     gr99, msp, 2*4
369
        loadm   0, 0, gr96, gr99
370
        add     lr1, gr96, 0
371
        add     rfb, gr97, 0
372
;                                         "pop" remaining global registers
373
        mtsrim  cr, 25-1                ; gr100-gr124
374
        add     gr96, msp, (4+2)*4
375
        loadm   0, 0, gr100, gr96
376
        add     msp, msp, (4+2+25)*4    ; repair msp to save_regs entry value
377
; -------------------------------------------------------- end repair
378
        const   tav, 324                ; HIF _sigrep
379
        asneq   69, gr1,gr1
380
        halt                            ; commit suicide if returns
381
 
382
; ======================================================== _sigskp()
383
        .global __sigskp
384
__sigskp:
385
;       repair_regs
386
; -------------------------------------------------------- repair_regs
387
        mtsrim  cr, 4-1
388
        loadm   0, 0, gr96, msp
389
        mtsr    ipc, gr96
390
        mtsr    ipa, gr97
391
        mtsr    ipb, gr98
392
        mtsr    q, gr99
393
;                                        "pop" registers stack support
394
        mtsrim  cr, 2-1
395
        add     gr99, msp, 2*4
396
        loadm   0, 0, gr96, gr99
397
        add     lr1, gr96, 0
398
        add     rfb, gr97, 0
399
;                                         "pop" remaining global registers
400
        mtsrim  cr, 25-1                ; gr100-gr124
401
        add     gr96, msp, (4+2)*4
402
        loadm   0, 0, gr100, gr96
403
        add     msp, msp, (4+2+25)*4    ; repair msp to save_regs entry value
404
; -------------------------------------------------------- end repair
405
        const   tav, 325                ; HIF _sigskp
406
        asneq   69, gr1,gr1
407
        halt                            ; commit suicide if returns
408
 
409
; ======================================================== _sendsig()
410
; lr2 = signal number
411
        .global _raise
412
        .global __sendsig
413
_raise:
414
__sendsig:
415
        const   tav, 326                ; HIF sendsig
416
        asneq   69, gr1,gr1
417
        jmpi    lr0
418
         nop
419
 
420
;
421
; ======================================================== signal()
422
;       lr2 = signal number
423
;       lr3 = handler address
424
        .global _signal
425
_signal:
426
; the memory variable WindowSize must be initalised at the
427
; start when rfb and rab are a window size apart.
428
        const   v0, WindowSize          ; get register cache size
429
        consth  v0, WindowSize
430
        load    0, 0, v1, v0
431
        cpeq    v1, v1, 0
432
        jmpf    v1, WindowSizeOK
433
         sub    v1, rfb, rab            ; rfb-rab = WINDOW_SIZE
434
        store   0, 0, v1, v0
435
WindowSizeOK:
436
        const   v1, SigEntry
437
        consth  v1, SigEntry
438
        sub     v3, lr2, 1              ; get handler index
439
        sll     v3, v3, 2               ; pointer to addresses
440
        add     v1, v1, v3
441
        store   0,0, lr3, v1            ; save new handler
442
 
443
        const   lr2, sigcode
444
        consth  lr2, sigcode
445
        ;Fall through to __signal
446
; ======================================================== _signal()
447
        .global __signal
448
__signal:
449
        const   tav, 321                ; HIF signal
450
        asneq   69, gr1,gr1
451
        jmpi    lr0
452
         nop

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