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TOMOYO Linux Cross Reference
Linux/arch/alpha/lib/ev6-memset.S

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Diff markup

Differences between /arch/alpha/lib/ev6-memset.S (Version linux-6.12-rc7) and /arch/i386/lib/ev6-memset.S (Version linux-5.11.22)


  1 /* SPDX-License-Identifier: GPL-2.0 */            
  2 /*                                                
  3  * arch/alpha/lib/ev6-memset.S                    
  4  *                                                
  5  * This is an efficient (and relatively small)    
  6  * "memset()" function for the 21264 implement    
  7  *                                                
  8  * 21264 version  contributed by Rick Gorton <r    
  9  *                                                
 10  * Much of the information about 21264 schedul    
 11  *      Compiler Writer's Guide for the Alpha     
 12  *      abbreviated as 'CWG' in other comments    
 13  *      ftp.digital.com/pub/Digital/info/semic    
 14  * Scheduling notation:                           
 15  *      E       - either cluster                  
 16  *      U       - upper subcluster; U0 - subcl    
 17  *      L       - lower subcluster; L0 - subcl    
 18  * The algorithm for the leading and trailing     
 19  * however the loop has been unrolled to enabl    
 20  * and the code has been replicated for each o    
 21  * and __memset16 to permit better scheduling     
 22  * encountered during the mask replication.       
 23  * A future enhancement might be to put in a b    
 24  * small (say < 32 bytes) memset()s.  Whether     
 25  * a win in the kernel would depend upon the c    
 26  * WARNING: Maintaining this is going to be mo    
 27  * as fixes will need to be made in multiple p    
 28  * is worth it.                                   
 29  */                                               
 30 #include <linux/export.h>                         
 31         .set noat                                 
 32         .set noreorder                            
 33 .text                                             
 34         .globl memset                             
 35         .globl __memset                           
 36         .globl ___memset                          
 37         .globl __memset16                         
 38         .globl __constant_c_memset                
 39                                                   
 40         .ent ___memset                            
 41 .align 5                                          
 42 ___memset:                                        
 43         .frame $30,0,$26,0                        
 44         .prologue 0                               
 45                                                   
 46         /*                                        
 47          * Serious stalling happens.  The only    
 48          * undertake a major re-write to inter    
 49          * with other parts of the fall-throug    
 50          * though it makes maintenance tougher    
 51          * Do this later.                         
 52          */                                       
 53         and $17,255,$1          # E : 00000000    
 54         insbl $17,1,$2          # U : 00000000    
 55         bis $16,$16,$0          # E : return v    
 56         ble $18,end_b           # U : zero len    
 57                                                   
 58         addq $18,$16,$6         # E : max addr    
 59         bis     $1,$2,$17       # E : 00000000    
 60         insbl   $1,2,$3         # U : 00000000    
 61         insbl   $1,3,$4         # U : 00000000    
 62                                                   
 63         or      $3,$4,$3        # E : 00000000    
 64         inswl   $17,4,$5        # U : 0000chch    
 65         xor     $16,$6,$1       # E : will com    
 66         inswl   $17,6,$2        # U : chch0000    
 67                                                   
 68         or      $17,$3,$17      # E : 00000000    
 69         or      $2,$5,$2        # E : chchchch    
 70         bic     $1,7,$1         # E : fit with    
 71         and     $16,7,$3        # E : Target a    
 72                                                   
 73         or      $17,$2,$17      # E : chchchch    
 74         beq     $1,within_quad_b # U :            
 75         nop                     # E :             
 76         beq     $3,aligned_b    # U : target i    
 77                                                   
 78         /*                                        
 79          * Target address is misaligned, and w    
 80          */                                       
 81         ldq_u $4,0($16)         # L : Fetch fi    
 82         bis $16,$16,$5          # E : Save the    
 83         insql $17,$16,$2        # U : Insert n    
 84         subq $3,8,$3            # E : Invert (    
 85                                                   
 86         addq $18,$3,$18         # E : $18 is n    
 87         mskql $4,$16,$4         # U : clear re    
 88         subq $16,$3,$16         # E : $16 is n    
 89         bis $2,$4,$1            # E : Final by    
 90                                                   
 91         nop                                       
 92         stq_u $1,0($5)          # L : Store re    
 93         nop                                       
 94         nop                                       
 95                                                   
 96 .align 4                                          
 97 aligned_b:                                        
 98         /*                                        
 99          * We are now guaranteed to be quad al    
100          * one partial quad to write.             
101          */                                       
102                                                   
103         sra $18,3,$3            # U : Number o    
104         and $18,7,$18           # E : Number o    
105         bis $16,$16,$5          # E : Save des    
106         beq $3,no_quad_b        # U : tail stu    
107                                                   
108         /*                                        
109          * it's worth the effort to unroll thi    
110          * Lifted a bunch of code from clear_u    
111          * At this point, entry values are:       
112          * $16  Current destination address       
113          * $5   A copy of $16                     
114          * $6   The max quadword address to wr    
115          * $18  Number trailer bytes              
116          * $3   Number quads to write             
117          */                                       
118                                                   
119         and     $16, 0x3f, $2   # E : Forward     
120         subq    $3, 16, $4      # E : Only try    
121         subq    $2, 0x40, $1    # E : bias cou    
122         blt     $4, loop_b      # U :             
123                                                   
124         /*                                        
125          * We know we've got at least 16 quads    
126          * through unrolled loop.  Do a quad a    
127          * aligned.                               
128          */                                       
129                                                   
130         nop                     # E :             
131         nop                     # E :             
132         nop                     # E :             
133         beq     $1, $bigalign_b # U :             
134                                                   
135 $alignmod64_b:                                    
136         stq     $17, 0($5)      # L :             
137         subq    $3, 1, $3       # E : For cons    
138         addq    $1, 8, $1       # E : Incremen    
139         addq    $5, 8, $4       # E : Initial     
140                                                   
141         nop                                       
142         nop                                       
143         addq    $5, 8, $5       # E : Inc addr    
144         blt     $1, $alignmod64_b # U :           
145                                                   
146 $bigalign_b:                                      
147         /*                                        
148          * $3 - number quads left to go           
149          * $5 - target address (aligned 0mod64    
150          * $17 - mask of stuff to store           
151          * Scratch registers available: $7, $2    
152          * we know that we'll be taking a mini    
153          * CWG Section 3.7.6: do not expect a     
154          * Assumes the wh64 needs to be for 2     
155          * The wh64 is issued on for the start    
156          * through the loop, and if there are     
157          * address will be for the current tri    
158          */                                       
159                                                   
160 $do_wh64_b:                                       
161         wh64    ($4)            # L1 : memory     
162         subq    $3, 24, $2      # E : For dete    
163         stq     $17, 0($5)      # L :             
164         nop                     # E :             
165                                                   
166         addq    $5, 128, $4     # E : speculat    
167         stq     $17, 8($5)      # L :             
168         stq     $17, 16($5)     # L :             
169         addq    $5, 64, $7      # E : Fallback    
170                                                   
171         stq     $17, 24($5)     # L :             
172         stq     $17, 32($5)     # L :             
173         cmovlt  $2, $7, $4      # E : Latency     
174         nop                                       
175                                                   
176         stq     $17, 40($5)     # L :             
177         stq     $17, 48($5)     # L :             
178         subq    $3, 16, $2      # E : Repeat t    
179         nop                                       
180                                                   
181         stq     $17, 56($5)     # L :             
182         addq    $5, 64, $5      # E :             
183         subq    $3, 8, $3       # E :             
184         bge     $2, $do_wh64_b  # U :             
185                                                   
186         nop                                       
187         nop                                       
188         nop                                       
189         beq     $3, no_quad_b   # U : Might ha    
190                                                   
191 .align 4                                          
192         /*                                        
193          * Simple loop for trailing quadwords,    
194          * of data (where we can't use an unro    
195          */                                       
196 loop_b:                                           
197         stq $17,0($5)           # L :             
198         subq $3,1,$3            # E : Decremen    
199         addq $5,8,$5            # E : Inc addr    
200         bne $3,loop_b           # U : more?       
201                                                   
202 no_quad_b:                                        
203         /*                                        
204          * Write 0..7 trailing bytes.             
205          */                                       
206         nop                     # E :             
207         beq $18,end_b           # U : All done    
208         ldq $7,0($5)            # L :             
209         mskqh $7,$6,$2          # U : Mask fin    
210                                                   
211         insqh $17,$6,$4         # U : New bits    
212         bis $2,$4,$1            # E : Put it a    
213         stq $1,0($5)            # L : And back    
214         ret $31,($26),1         # L0 :            
215                                                   
216 within_quad_b:                                    
217         ldq_u $1,0($16)         # L :             
218         insql $17,$16,$2        # U : New bits    
219         mskql $1,$16,$4         # U : Clear ol    
220         bis $2,$4,$2            # E : New resu    
221                                                   
222         mskql $2,$6,$4          # U :             
223         mskqh $1,$6,$2          # U :             
224         bis $2,$4,$1            # E :             
225         stq_u $1,0($16)         # L :             
226                                                   
227 end_b:                                            
228         nop                                       
229         nop                                       
230         nop                                       
231         ret $31,($26),1         # L0 :            
232         .end ___memset                            
233         EXPORT_SYMBOL(___memset)                  
234                                                   
235         /*                                        
236          * This is the original body of code,     
237          * rescheduling.  Leave it here, as th    
238          * entry point.                           
239          */                                       
240 .align 4                                          
241         .ent __constant_c_memset                  
242 __constant_c_memset:                              
243         .frame $30,0,$26,0                        
244         .prologue 0                               
245                                                   
246         addq $18,$16,$6         # E : max addr    
247         bis $16,$16,$0          # E : return v    
248         xor $16,$6,$1           # E : will com    
249         ble $18,end             # U : zero len    
250                                                   
251         bic $1,7,$1             # E : fit with    
252         beq $1,within_one_quad  # U :             
253         and $16,7,$3            # E : Target a    
254         beq $3,aligned          # U : target i    
255                                                   
256         /*                                        
257          * Target address is misaligned, and w    
258          */                                       
259         ldq_u $4,0($16)         # L : Fetch fi    
260         bis $16,$16,$5          # E : Save the    
261         insql $17,$16,$2        # U : Insert n    
262         subq $3,8,$3            # E : Invert (    
263                                                   
264         addq $18,$3,$18         # E : $18 is n    
265         mskql $4,$16,$4         # U : clear re    
266         subq $16,$3,$16         # E : $16 is n    
267         bis $2,$4,$1            # E : Final by    
268                                                   
269         nop                                       
270         stq_u $1,0($5)          # L : Store re    
271         nop                                       
272         nop                                       
273                                                   
274 .align 4                                          
275 aligned:                                          
276         /*                                        
277          * We are now guaranteed to be quad al    
278          * one partial quad to write.             
279          */                                       
280                                                   
281         sra $18,3,$3            # U : Number o    
282         and $18,7,$18           # E : Number o    
283         bis $16,$16,$5          # E : Save des    
284         beq $3,no_quad          # U : tail stu    
285                                                   
286         /*                                        
287          * it's worth the effort to unroll thi    
288          * Lifted a bunch of code from clear_u    
289          * At this point, entry values are:       
290          * $16  Current destination address       
291          * $5   A copy of $16                     
292          * $6   The max quadword address to wr    
293          * $18  Number trailer bytes              
294          * $3   Number quads to write             
295          */                                       
296                                                   
297         and     $16, 0x3f, $2   # E : Forward     
298         subq    $3, 16, $4      # E : Only try    
299         subq    $2, 0x40, $1    # E : bias cou    
300         blt     $4, loop        # U :             
301                                                   
302         /*                                        
303          * We know we've got at least 16 quads    
304          * through unrolled loop.  Do a quad a    
305          * aligned.                               
306          */                                       
307                                                   
308         nop                     # E :             
309         nop                     # E :             
310         nop                     # E :             
311         beq     $1, $bigalign   # U :             
312                                                   
313 $alignmod64:                                      
314         stq     $17, 0($5)      # L :             
315         subq    $3, 1, $3       # E : For cons    
316         addq    $1, 8, $1       # E : Incremen    
317         addq    $5, 8, $4       # E : Initial     
318                                                   
319         nop                                       
320         nop                                       
321         addq    $5, 8, $5       # E : Inc addr    
322         blt     $1, $alignmod64 # U :             
323                                                   
324 $bigalign:                                        
325         /*                                        
326          * $3 - number quads left to go           
327          * $5 - target address (aligned 0mod64    
328          * $17 - mask of stuff to store           
329          * Scratch registers available: $7, $2    
330          * we know that we'll be taking a mini    
331          * CWG Section 3.7.6: do not expect a     
332          * Assumes the wh64 needs to be for 2     
333          * The wh64 is issued on for the start    
334          * through the loop, and if there are     
335          * address will be for the current tri    
336          */                                       
337                                                   
338 $do_wh64:                                         
339         wh64    ($4)            # L1 : memory     
340         subq    $3, 24, $2      # E : For dete    
341         stq     $17, 0($5)      # L :             
342         nop                     # E :             
343                                                   
344         addq    $5, 128, $4     # E : speculat    
345         stq     $17, 8($5)      # L :             
346         stq     $17, 16($5)     # L :             
347         addq    $5, 64, $7      # E : Fallback    
348                                                   
349         stq     $17, 24($5)     # L :             
350         stq     $17, 32($5)     # L :             
351         cmovlt  $2, $7, $4      # E : Latency     
352         nop                                       
353                                                   
354         stq     $17, 40($5)     # L :             
355         stq     $17, 48($5)     # L :             
356         subq    $3, 16, $2      # E : Repeat t    
357         nop                                       
358                                                   
359         stq     $17, 56($5)     # L :             
360         addq    $5, 64, $5      # E :             
361         subq    $3, 8, $3       # E :             
362         bge     $2, $do_wh64    # U :             
363                                                   
364         nop                                       
365         nop                                       
366         nop                                       
367         beq     $3, no_quad     # U : Might ha    
368                                                   
369 .align 4                                          
370         /*                                        
371          * Simple loop for trailing quadwords,    
372          * of data (where we can't use an unro    
373          */                                       
374 loop:                                             
375         stq $17,0($5)           # L :             
376         subq $3,1,$3            # E : Decremen    
377         addq $5,8,$5            # E : Inc addr    
378         bne $3,loop             # U : more?       
379                                                   
380 no_quad:                                          
381         /*                                        
382          * Write 0..7 trailing bytes.             
383          */                                       
384         nop                     # E :             
385         beq $18,end             # U : All done    
386         ldq $7,0($5)            # L :             
387         mskqh $7,$6,$2          # U : Mask fin    
388                                                   
389         insqh $17,$6,$4         # U : New bits    
390         bis $2,$4,$1            # E : Put it a    
391         stq $1,0($5)            # L : And back    
392         ret $31,($26),1         # L0 :            
393                                                   
394 within_one_quad:                                  
395         ldq_u $1,0($16)         # L :             
396         insql $17,$16,$2        # U : New bits    
397         mskql $1,$16,$4         # U : Clear ol    
398         bis $2,$4,$2            # E : New resu    
399                                                   
400         mskql $2,$6,$4          # U :             
401         mskqh $1,$6,$2          # U :             
402         bis $2,$4,$1            # E :             
403         stq_u $1,0($16)         # L :             
404                                                   
405 end:                                              
406         nop                                       
407         nop                                       
408         nop                                       
409         ret $31,($26),1         # L0 :            
410         .end __constant_c_memset                  
411         EXPORT_SYMBOL(__constant_c_memset)        
412                                                   
413         /*                                        
414          * This is a replicant of the __consta    
415          * to mask stalls.  Note that entry po    
416          */                                       
417         .align 5                                  
418         .ent __memset16                           
419                                                   
420 __memset16:                                       
421         .frame $30,0,$26,0                        
422         .prologue 0                               
423                                                   
424         inswl $17,0,$5          # U : 00000000    
425         inswl $17,2,$2          # U : 00000000    
426         bis $16,$16,$0          # E : return v    
427         addq    $18,$16,$6      # E : max addr    
428                                                   
429         ble $18, end_w          # U : zero len    
430         inswl   $17,4,$3        # U : 0000c1c2    
431         inswl   $17,6,$4        # U : c1c20000    
432         xor     $16,$6,$1       # E : will com    
433                                                   
434         or      $2,$5,$2        # E : 00000000    
435         or      $3,$4,$17       # E : c1c2c1c2    
436         bic     $1,7,$1         # E : fit with    
437         and     $16,7,$3        # E : Target a    
438                                                   
439         or      $17,$2,$17      # E : c1c2c1c2    
440         beq $1,within_quad_w    # U :             
441         nop                                       
442         beq $3,aligned_w        # U : target i    
443                                                   
444         /*                                        
445          * Target address is misaligned, and w    
446          */                                       
447         ldq_u $4,0($16)         # L : Fetch fi    
448         bis $16,$16,$5          # E : Save the    
449         insql $17,$16,$2        # U : Insert n    
450         subq $3,8,$3            # E : Invert (    
451                                                   
452         addq $18,$3,$18         # E : $18 is n    
453         mskql $4,$16,$4         # U : clear re    
454         subq $16,$3,$16         # E : $16 is n    
455         bis $2,$4,$1            # E : Final by    
456                                                   
457         nop                                       
458         stq_u $1,0($5)          # L : Store re    
459         nop                                       
460         nop                                       
461                                                   
462 .align 4                                          
463 aligned_w:                                        
464         /*                                        
465          * We are now guaranteed to be quad al    
466          * one partial quad to write.             
467          */                                       
468                                                   
469         sra $18,3,$3            # U : Number o    
470         and $18,7,$18           # E : Number o    
471         bis $16,$16,$5          # E : Save des    
472         beq $3,no_quad_w        # U : tail stu    
473                                                   
474         /*                                        
475          * it's worth the effort to unroll thi    
476          * Lifted a bunch of code from clear_u    
477          * At this point, entry values are:       
478          * $16  Current destination address       
479          * $5   A copy of $16                     
480          * $6   The max quadword address to wr    
481          * $18  Number trailer bytes              
482          * $3   Number quads to write             
483          */                                       
484                                                   
485         and     $16, 0x3f, $2   # E : Forward     
486         subq    $3, 16, $4      # E : Only try    
487         subq    $2, 0x40, $1    # E : bias cou    
488         blt     $4, loop_w      # U :             
489                                                   
490         /*                                        
491          * We know we've got at least 16 quads    
492          * through unrolled loop.  Do a quad a    
493          * aligned.                               
494          */                                       
495                                                   
496         nop                     # E :             
497         nop                     # E :             
498         nop                     # E :             
499         beq     $1, $bigalign_w # U :             
500                                                   
501 $alignmod64_w:                                    
502         stq     $17, 0($5)      # L :             
503         subq    $3, 1, $3       # E : For cons    
504         addq    $1, 8, $1       # E : Incremen    
505         addq    $5, 8, $4       # E : Initial     
506                                                   
507         nop                                       
508         nop                                       
509         addq    $5, 8, $5       # E : Inc addr    
510         blt     $1, $alignmod64_w       # U :     
511                                                   
512 $bigalign_w:                                      
513         /*                                        
514          * $3 - number quads left to go           
515          * $5 - target address (aligned 0mod64    
516          * $17 - mask of stuff to store           
517          * Scratch registers available: $7, $2    
518          * we know that we'll be taking a mini    
519          * CWG Section 3.7.6: do not expect a     
520          * Assumes the wh64 needs to be for 2     
521          * The wh64 is issued on for the start    
522          * through the loop, and if there are     
523          * address will be for the current tri    
524          */                                       
525                                                   
526 $do_wh64_w:                                       
527         wh64    ($4)            # L1 : memory     
528         subq    $3, 24, $2      # E : For dete    
529         stq     $17, 0($5)      # L :             
530         nop                     # E :             
531                                                   
532         addq    $5, 128, $4     # E : speculat    
533         stq     $17, 8($5)      # L :             
534         stq     $17, 16($5)     # L :             
535         addq    $5, 64, $7      # E : Fallback    
536                                                   
537         stq     $17, 24($5)     # L :             
538         stq     $17, 32($5)     # L :             
539         cmovlt  $2, $7, $4      # E : Latency     
540         nop                                       
541                                                   
542         stq     $17, 40($5)     # L :             
543         stq     $17, 48($5)     # L :             
544         subq    $3, 16, $2      # E : Repeat t    
545         nop                                       
546                                                   
547         stq     $17, 56($5)     # L :             
548         addq    $5, 64, $5      # E :             
549         subq    $3, 8, $3       # E :             
550         bge     $2, $do_wh64_w  # U :             
551                                                   
552         nop                                       
553         nop                                       
554         nop                                       
555         beq     $3, no_quad_w   # U : Might ha    
556                                                   
557 .align 4                                          
558         /*                                        
559          * Simple loop for trailing quadwords,    
560          * of data (where we can't use an unro    
561          */                                       
562 loop_w:                                           
563         stq $17,0($5)           # L :             
564         subq $3,1,$3            # E : Decremen    
565         addq $5,8,$5            # E : Inc addr    
566         bne $3,loop_w           # U : more?       
567                                                   
568 no_quad_w:                                        
569         /*                                        
570          * Write 0..7 trailing bytes.             
571          */                                       
572         nop                     # E :             
573         beq $18,end_w           # U : All done    
574         ldq $7,0($5)            # L :             
575         mskqh $7,$6,$2          # U : Mask fin    
576                                                   
577         insqh $17,$6,$4         # U : New bits    
578         bis $2,$4,$1            # E : Put it a    
579         stq $1,0($5)            # L : And back    
580         ret $31,($26),1         # L0 :            
581                                                   
582 within_quad_w:                                    
583         ldq_u $1,0($16)         # L :             
584         insql $17,$16,$2        # U : New bits    
585         mskql $1,$16,$4         # U : Clear ol    
586         bis $2,$4,$2            # E : New resu    
587                                                   
588         mskql $2,$6,$4          # U :             
589         mskqh $1,$6,$2          # U :             
590         bis $2,$4,$1            # E :             
591         stq_u $1,0($16)         # L :             
592                                                   
593 end_w:                                            
594         nop                                       
595         nop                                       
596         nop                                       
597         ret $31,($26),1         # L0 :            
598                                                   
599         .end __memset16                           
600         EXPORT_SYMBOL(__memset16)                 
601                                                   
602 memset = ___memset                                
603 __memset = ___memset                              
604         EXPORT_SYMBOL(memset)                     
605         EXPORT_SYMBOL(__memset)                   
                                                      

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