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Linux/arch/hexagon/lib/memcpy.S

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Diff markup

Differences between /arch/hexagon/lib/memcpy.S (Version linux-6.12-rc7) and /arch/m68k/lib/memcpy.S (Version linux-2.4.37.11)


  1 /* SPDX-License-Identifier: GPL-2.0-only */       
  2 /*                                                
  3  * Copyright (c) 2010-2011, The Linux Foundati    
  4  */                                               
  5                                                   
  6 /*                                                
  7  * Description                                    
  8  *                                                
  9  *   library function for memcpy where length     
 10  *   ptr_in to ptr_out. ptr_out is returned un    
 11  *   Allows any combination of alignment on in    
 12  *   and length from 0 to 2^32-1                  
 13  *                                                
 14  * Restrictions                                   
 15  *   The arrays should not overlap, the progra    
 16  *   if they do.                                  
 17  *   For blocks less than 16 bytes a byte by b    
 18  *   8byte alignments, and length multiples, a    
 19  *   96bytes                                      
 20  * History                                        
 21  *                                                
 22  *   DJH  5/15/09 Initial version 1.0             
 23  *   DJH  6/ 1/09 Version 1.1 modified ABI to     
 24  *   DJH  7/12/09 Version 1.2 optimized codesi    
 25  *   DJH 10/14/09 Version 1.3 added special lo    
 26  *                            overreading bloa    
 27  *   DJH  4/20/10 Version 1.4 fixed Ldword_loo    
 28  *                            occurring if onl    
 29  *                            # 3888, correcte    
 30  *                            1 32byte chunk f    
 31  *                            loop at end to s    
 32  *                            over read.  Fixe    
 33  *                            overread for blo    
 34  *                            codesize to 752     
 35  *   DJH  4/21/10 version 1.5 1.4 fix broke co    
 36  *                            aligned to dword    
 37  *                            byte, added dete    
 38  *                            little bloat.       
 39  *   DJH  4/23/10 version 1.6 corrected stack     
 40  *                            always, fixed th    
 41  *                            before it was be    
 42  * Natural c model                                
 43  * ===============                                
 44  * void * memcpy(char * ptr_out, char * ptr_in    
 45  *   int i;                                       
 46  *   if(length) for(i=0; i < length; i++) { pt    
 47  *   return(ptr_out);                             
 48  * }                                              
 49  *                                                
 50  * Optimized memcpy function                      
 51  * =========================                      
 52  * void * memcpy(char * ptr_out, char * ptr_in    
 53  *   int i, prolog, kernel, epilog, mask;         
 54  *   u8 offset;                                   
 55  *   s64 data0, dataF8, data70;                   
 56  *                                                
 57  *   s64 * ptr8_in;                               
 58  *   s64 * ptr8_out;                              
 59  *   s32 * ptr4;                                  
 60  *   s16 * ptr2;                                  
 61  *                                                
 62  *   offset = ((int) ptr_in) & 7;                 
 63  *   ptr8_in = (s64 *) &ptr_in[-offset];   //r    
 64  *                                                
 65  *   data70 = *ptr8_in++;                         
 66  *   dataF8 = *ptr8_in++;                         
 67  *                                                
 68  *   data0 = HEXAGON_P_valignb_PPp(dataF8, dat    
 69  *                                                
 70  *   prolog = 32 - ((int) ptr_out);               
 71  *   mask  = 0x7fffffff >> HEXAGON_R_cl0_R(len    
 72  *   prolog = prolog & mask;                      
 73  *   kernel = len - prolog;                       
 74  *   epilog = kernel & 0x1F;                      
 75  *   kernel = kernel>>5;                          
 76  *                                                
 77  *   if (prolog & 1) { ptr_out[0] = (u8) data0    
 78  *   ptr2 = (s16 *) &ptr_out[0];                  
 79  *   if (prolog & 2) { ptr2[0] = (u16) data0;     
 80  *   ptr4 = (s32 *) &ptr_out[0];                  
 81  *   if (prolog & 4) { ptr4[0] = (u32) data0;     
 82  *                                                
 83  *   offset = offset + (prolog & 7);              
 84  *   if (offset >= 8) {                           
 85  *     data70 = dataF8;                           
 86  *     dataF8 = *ptr8_in++;                       
 87  *   }                                            
 88  *   offset = offset & 0x7;                       
 89  *                                                
 90  *   prolog = prolog >> 3;                        
 91  *   if (prolog) for (i=0; i < prolog; i++) {     
 92  *       data0 = HEXAGON_P_valignb_PPp(dataF8,    
 93  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
 94  *       data70 = dataF8;                         
 95  *       dataF8 = *ptr8_in++;                     
 96  *   }                                            
 97  *   if(kernel) { kernel -= 1; epilog += 32; }    
 98  *   if(kernel) for(i=0; i < kernel; i++) {       
 99  *       data0 = HEXAGON_P_valignb_PPp(dataF8,    
100  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
101  *       data70 = *ptr8_in++;                     
102  *                                                
103  *       data0 = HEXAGON_P_valignb_PPp(data70,    
104  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
105  *       dataF8 = *ptr8_in++;                     
106  *                                                
107  *       data0 = HEXAGON_P_valignb_PPp(dataF8,    
108  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
109  *       data70 = *ptr8_in++;                     
110  *                                                
111  *       data0 = HEXAGON_P_valignb_PPp(data70,    
112  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
113  *       dataF8 = *ptr8_in++;                     
114  *   }                                            
115  *   epilogdws = epilog >> 3;                     
116  *   if (epilogdws) for (i=0; i < epilogdws; i    
117  *       data0 = HEXAGON_P_valignb_PPp(dataF8,    
118  *       ptr8_out = (s64 *) &ptr_out[0]; *ptr8    
119  *       data70 = dataF8;                         
120  *       dataF8 = *ptr8_in++;                     
121  *   }                                            
122  *   data0 = HEXAGON_P_valignb_PPp(dataF8, dat    
123  *                                                
124  *   ptr4 = (s32 *) &ptr_out[0];                  
125  *   if (epilog & 4) { ptr4[0] = (u32) data0;     
126  *   ptr2 = (s16 *) &ptr_out[0];                  
127  *   if (epilog & 2) { ptr2[0] = (u16) data0;     
128  *   if (epilog & 1) { *ptr_out++ = (u8) data0    
129  *                                                
130  *   return(ptr_out - length);                    
131  * }                                              
132  *                                                
133  * Codesize : 784 bytes                           
134  */                                               
135                                                   
136                                                   
137 #define ptr_out         R0      /*  destinatio    
138 #define ptr_in          R1      /*  source poi    
139 #define len             R2      /*  length of     
140                                                   
141 #define data70          R13:12  /*  lo 8 bytes    
142 #define dataF8          R11:10  /*  hi 8 bytes    
143 #define ldata0          R7:6    /*  even 8 byt    
144 #define ldata1          R25:24  /*  odd 8 byte    
145 #define data1           R7      /*  lower 8 by    
146 #define data0           R6      /*  lower 8 by    
147                                                   
148 #define ifbyte          p0      /*  if transfe    
149 #define ifhword         p0      /*  if transfe    
150 #define ifword          p0      /*  if transfe    
151 #define noprolog        p0      /*  no prolog,    
152 #define nokernel        p1      /*  no 32byte     
153 #define noepilog        p0      /*  no epilog,    
154 #define align           p2      /*  alignment     
155 #define kernel1         p0      /*  kernel cou    
156                                                   
157 #define dalign          R25     /*  rel alignm    
158 #define star3           R16     /*  number byt    
159 #define rest            R8      /*  length - p    
160 #define back            R7      /*  nr bytes >    
161 #define epilog          R3      /*  bytes in e    
162 #define inc             R15:14  /*  inc kernel    
163 #define kernel          R4      /*  number of     
164 #define ptr_in_p_128    R5      /*  pointer fo    
165 #define mask            R8      /*  mask used     
166 #define shift           R8      /*  used to wo    
167 #define shift2          R5      /*  in epilog     
168 #define prolog          R15     /*  bytes in      
169 #define epilogdws       R15     /*  number dwo    
170 #define shiftb          R14     /*  used to ex    
171 #define offset          R9      /*  same as al    
172 #define ptr_out_p_32    R17     /*  pointer to    
173 #define align888        R14     /*  if simple     
174 #define len8            R9      /*  number of     
175 #define over            R20     /*  nr of byte    
176                                                   
177 #define ptr_in_p_128kernel      R5:4    /*  pa    
178                                                   
179         .section .text                            
180         .p2align 4                                
181         .global memcpy                            
182         .type memcpy, @function                   
183 memcpy:                                           
184 {                                                 
185         p2 = cmp.eq(len, #0);           /*  =0    
186         align888 = or(ptr_in, ptr_out); /*  %8    
187         p0 = cmp.gtu(len, #23);         /*  %1    
188         p1 = cmp.eq(ptr_in, ptr_out);   /*  at    
189 }                                                 
190 {                                                 
191         p1 = or(p2, p1);                          
192         p3 = cmp.gtu(len, #95);         /*  %8    
193         align888 = or(align888, len);   /*  %8    
194         len8 = lsr(len, #3);            /*  %8    
195 }                                                 
196 {                                                 
197         dcfetch(ptr_in);                /*  ze    
198         p2 = bitsclr(align888, #7);     /*  %8    
199         if(p1) jumpr r31;               /*  =0    
200 }                                                 
201 {                                                 
202         p2 = and(p2,!p3);                         
203         if (p2.new) len = add(len, #-8);          
204         if (p2.new) jump:NT .Ldwordaligned;       
205 }                                                 
206 {                                                 
207         if(!p0) jump .Lbytes23orless;   /*  %1    
208         mask.l = #LO(0x7fffffff);                 
209         /*  all bytes before line multiples of    
210         prolog = sub(#0, ptr_out);                
211 }                                                 
212 {                                                 
213         /*  save r31 on stack, decrement sp by    
214         allocframe(#24);                          
215         mask.h = #HI(0x7fffffff);                 
216         ptr_in_p_128 = add(ptr_in, #32);          
217         back = cl0(len);                          
218 }                                                 
219 {                                                 
220         memd(sp+#0) = R17:16;           /*  sa    
221         r31.l = #LO(.Lmemcpy_return);   /*  se    
222         prolog &= lsr(mask, back);                
223         offset = and(ptr_in, #7);                 
224 }                                                 
225 {                                                 
226         memd(sp+#8) = R25:24;           /*  sa    
227         dalign = sub(ptr_out, ptr_in);            
228         r31.h = #HI(.Lmemcpy_return);   /*  se    
229 }                                                 
230 {                                                 
231         /*  see if there if input buffer end i    
232         over = add(len, ptr_in);                  
233         back = add(len, offset);                  
234         memd(sp+#16) = R21:20;          /*  sa    
235 }                                                 
236 {                                                 
237         noprolog = bitsclr(prolog, #7);           
238         prolog = and(prolog, #31);                
239         dcfetch(ptr_in_p_128);                    
240         ptr_in_p_128 = add(ptr_in_p_128, #32);    
241 }                                                 
242 {                                                 
243         kernel = sub(len, prolog);                
244         shift = asl(prolog, #3);                  
245         star3 = and(prolog, #7);                  
246         ptr_in = and(ptr_in, #-8);                
247 }                                                 
248 {                                                 
249         prolog = lsr(prolog, #3);                 
250         epilog = and(kernel, #31);                
251         ptr_out_p_32 = add(ptr_out, prolog);      
252         over = and(over, #7);                     
253 }                                                 
254 {                                                 
255         p3 = cmp.gtu(back, #8);                   
256         kernel = lsr(kernel, #5);                 
257         dcfetch(ptr_in_p_128);                    
258         ptr_in_p_128 = add(ptr_in_p_128, #32);    
259 }                                                 
260 {                                                 
261         p1 = cmp.eq(prolog, #0);                  
262         if(!p1.new) prolog = add(prolog, #1);     
263         dcfetch(ptr_in_p_128);  /*  reserve th    
264         ptr_in_p_128 = add(ptr_in_p_128, #32);    
265 }                                                 
266 {                                                 
267         nokernel = cmp.eq(kernel,#0);             
268         dcfetch(ptr_in_p_128);  /* reserve the    
269         ptr_in_p_128 = add(ptr_in_p_128, #32);    
270         shiftb = and(shift, #8);                  
271 }                                                 
272 {                                                 
273         dcfetch(ptr_in_p_128);          /*  re    
274         ptr_in_p_128 = add(ptr_in_p_128, #32);    
275         if(nokernel) jump .Lskip64;               
276         p2 = cmp.eq(kernel, #1);        /*  sk    
277 }                                                 
278 {                                                 
279         dczeroa(ptr_out_p_32);                    
280         /*  don't advance pointer  */             
281         if(!p2) ptr_out_p_32 = add(ptr_out_p_3    
282 }                                                 
283 {                                                 
284         dalign = and(dalign, #31);                
285         dczeroa(ptr_out_p_32);                    
286 }                                                 
287 .Lskip64:                                         
288 {                                                 
289         data70 = memd(ptr_in++#16);               
290         if(p3) dataF8 = memd(ptr_in+#8);          
291         if(noprolog) jump .Lnoprolog32;           
292         align = offset;                           
293 }                                                 
294 /*  upto initial 7 bytes  */                      
295 {                                                 
296         ldata0 = valignb(dataF8, data70, align    
297         ifbyte = tstbit(shift,#3);                
298         offset = add(offset, star3);              
299 }                                                 
300 {                                                 
301         if(ifbyte) memb(ptr_out++#1) = data0;     
302         ldata0 = lsr(ldata0, shiftb);             
303         shiftb = and(shift, #16);                 
304         ifhword = tstbit(shift,#4);               
305 }                                                 
306 {                                                 
307         if(ifhword) memh(ptr_out++#2) = data0;    
308         ldata0 = lsr(ldata0, shiftb);             
309         ifword = tstbit(shift,#5);                
310         p2 = cmp.gtu(offset, #7);                 
311 }                                                 
312 {                                                 
313         if(ifword) memw(ptr_out++#4) = data0;     
314         if(p2) data70 = dataF8;                   
315         if(p2) dataF8 = memd(ptr_in++#8);         
316         align = offset;                           
317 }                                                 
318 .Lnoprolog32:                                     
319 {                                                 
320         p3 = sp1loop0(.Ldword_loop_prolog, pro    
321         rest = sub(len, star3); /*  whats left    
322         p0 = cmp.gt(over, #0);                    
323 }                                                 
324         if(p0) rest = add(rest, #16);             
325 .Ldword_loop_prolog:                              
326 {                                                 
327         if(p3) memd(ptr_out++#8) = ldata0;        
328         ldata0 = valignb(dataF8, data70, align    
329         p0 = cmp.gt(rest, #16);                   
330 }                                                 
331 {                                                 
332         data70 = dataF8;                          
333         if(p0) dataF8 = memd(ptr_in++#8);         
334         rest = add(rest, #-8);                    
335 }:endloop0                                        
336 .Lkernel:                                         
337 {                                                 
338         /*  kernel is at least 32bytes  */        
339         p3 = cmp.gtu(kernel, #0);                 
340         /*  last itn. remove edge effects  */     
341         if(p3.new) kernel = add(kernel, #-1);     
342         /*  dealt with in last dword loop  */     
343         if(p3.new) epilog = add(epilog, #32);     
344 }                                                 
345 {                                                 
346         nokernel = cmp.eq(kernel, #0);            
347         if(nokernel.new) jump:NT .Lepilog;        
348         inc = combine(#32, #-1);                  
349         p3 = cmp.gtu(dalign, #24);                
350 }                                                 
351 {                                                 
352         if(p3) jump .Lodd_alignment;              
353 }                                                 
354 {                                                 
355         loop0(.Loword_loop_25to31, kernel);       
356         kernel1 = cmp.gtu(kernel, #1);            
357         rest = kernel;                            
358 }                                                 
359         .falign                                   
360 .Loword_loop_25to31:                              
361 {                                                 
362         dcfetch(ptr_in_p_128);  /*  prefetch 4    
363         if(kernel1) ptr_out_p_32 = add(ptr_out    
364 }                                                 
365 {                                                 
366         dczeroa(ptr_out_p_32);  /*  reserve th    
367         p3 = cmp.eq(kernel, rest);                
368 }                                                 
369 {                                                 
370         /*  kernel -= 1  */                       
371         ptr_in_p_128kernel = vaddw(ptr_in_p_12    
372         /*  kill write on first iteration  */     
373         if(!p3) memd(ptr_out++#8) = ldata1;       
374         ldata1 = valignb(dataF8, data70, align    
375         data70 = memd(ptr_in++#8);                
376 }                                                 
377 {                                                 
378         memd(ptr_out++#8) = ldata0;               
379         ldata0 = valignb(data70, dataF8, align    
380         dataF8 = memd(ptr_in++#8);                
381 }                                                 
382 {                                                 
383         memd(ptr_out++#8) = ldata1;               
384         ldata1 = valignb(dataF8, data70, align    
385         data70 = memd(ptr_in++#8);                
386 }                                                 
387 {                                                 
388         memd(ptr_out++#8) = ldata0;               
389         ldata0 = valignb(data70, dataF8, align    
390         dataF8 = memd(ptr_in++#8);                
391         kernel1 = cmp.gtu(kernel, #1);            
392 }:endloop0                                        
393 {                                                 
394         memd(ptr_out++#8) = ldata1;               
395         jump .Lepilog;                            
396 }                                                 
397 .Lodd_alignment:                                  
398 {                                                 
399         loop0(.Loword_loop_00to24, kernel);       
400         kernel1 = cmp.gtu(kernel, #1);            
401         rest = add(kernel, #-1);                  
402 }                                                 
403         .falign                                   
404 .Loword_loop_00to24:                              
405 {                                                 
406         dcfetch(ptr_in_p_128);  /*  prefetch 4    
407         ptr_in_p_128kernel = vaddw(ptr_in_p_12    
408         if(kernel1) ptr_out_p_32 = add(ptr_out    
409 }                                                 
410 {                                                 
411         dczeroa(ptr_out_p_32);  /*  reserve th    
412 }                                                 
413 {                                                 
414         memd(ptr_out++#8) = ldata0;               
415         ldata0 = valignb(dataF8, data70, align    
416         data70 = memd(ptr_in++#8);                
417 }                                                 
418 {                                                 
419         memd(ptr_out++#8) = ldata0;               
420         ldata0 = valignb(data70, dataF8, align    
421         dataF8 = memd(ptr_in++#8);                
422 }                                                 
423 {                                                 
424         memd(ptr_out++#8) = ldata0;               
425         ldata0 = valignb(dataF8, data70, align    
426         data70 = memd(ptr_in++#8);                
427 }                                                 
428 {                                                 
429         memd(ptr_out++#8) = ldata0;               
430         ldata0 = valignb(data70, dataF8, align    
431         dataF8 = memd(ptr_in++#8);                
432         kernel1 = cmp.gtu(kernel, #1);            
433 }:endloop0                                        
434 .Lepilog:                                         
435 {                                                 
436         noepilog = cmp.eq(epilog,#0);             
437         epilogdws = lsr(epilog, #3);              
438         kernel = and(epilog, #7);                 
439 }                                                 
440 {                                                 
441         if(noepilog) jumpr r31;                   
442         if(noepilog) ptr_out = sub(ptr_out, le    
443         p3 = cmp.eq(epilogdws, #0);               
444         shift2 = asl(epilog, #3);                 
445 }                                                 
446 {                                                 
447         shiftb = and(shift2, #32);                
448         ifword = tstbit(epilog,#2);               
449         if(p3) jump .Lepilog60;                   
450         if(!p3) epilog = add(epilog, #-16);       
451 }                                                 
452 {                                                 
453         loop0(.Ldword_loop_epilog, epilogdws);    
454         /*  stop criteria is lsbs unless = 0 t    
455         p3 = cmp.eq(kernel, #0);                  
456         if(p3.new) kernel= #8;                    
457         p1 = cmp.gt(over, #0);                    
458 }                                                 
459         /*  if not aligned to end of buffer ex    
460         if(p1) kernel= #0;                        
461 .Ldword_loop_epilog:                              
462 {                                                 
463         memd(ptr_out++#8) = ldata0;               
464         ldata0 = valignb(dataF8, data70, align    
465         p3 = cmp.gt(epilog, kernel);              
466 }                                                 
467 {                                                 
468         data70 = dataF8;                          
469         if(p3) dataF8 = memd(ptr_in++#8);         
470         epilog = add(epilog, #-8);                
471 }:endloop0                                        
472 /* copy last 7 bytes */                           
473 .Lepilog60:                                       
474 {                                                 
475         if(ifword) memw(ptr_out++#4) = data0;     
476         ldata0 = lsr(ldata0, shiftb);             
477         ifhword = tstbit(epilog,#1);              
478         shiftb = and(shift2, #16);                
479 }                                                 
480 {                                                 
481         if(ifhword) memh(ptr_out++#2) = data0;    
482         ldata0 = lsr(ldata0, shiftb);             
483         ifbyte = tstbit(epilog,#0);               
484         if(ifbyte.new) len = add(len, #-1);       
485 }                                                 
486 {                                                 
487         if(ifbyte) memb(ptr_out) = data0;         
488         ptr_out = sub(ptr_out, len);    /*  re    
489         jumpr r31;                                
490 }                                                 
491 /*  do byte copy for small n  */                  
492 .Lbytes23orless:                                  
493 {                                                 
494         p3 = sp1loop0(.Lbyte_copy, len);          
495         len = add(len, #-1);                      
496 }                                                 
497 .Lbyte_copy:                                      
498 {                                                 
499         data0 = memb(ptr_in++#1);                 
500         if(p3) memb(ptr_out++#1) = data0;         
501 }:endloop0                                        
502 {                                                 
503         memb(ptr_out) = data0;                    
504         ptr_out = sub(ptr_out, len);              
505         jumpr r31;                                
506 }                                                 
507 /*  do dword copies for aligned in, out and le    
508 .Ldwordaligned:                                   
509 {                                                 
510         p3 = sp1loop0(.Ldword_copy, len8);        
511 }                                                 
512 .Ldword_copy:                                     
513 {                                                 
514         if(p3) memd(ptr_out++#8) = ldata0;        
515         ldata0 = memd(ptr_in++#8);                
516 }:endloop0                                        
517 {                                                 
518         memd(ptr_out) = ldata0;                   
519         ptr_out = sub(ptr_out, len);              
520         jumpr r31;      /*  return to function    
521 }                                                 
522 .Lmemcpy_return:                                  
523         r21:20 = memd(sp+#16);  /*  restore r2    
524 {                                                 
525         r25:24 = memd(sp+#8);   /*  restore r2    
526         r17:16 = memd(sp+#0);   /*  restore r1    
527 }                                                 
528         deallocframe;   /*  restore r31 and in    
529         jumpr r31                                 
                                                      

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