Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Linus Torvalds (pre-git) | 481 | 98.16% | 5 | 71.43% |
Al Viro | 8 | 1.63% | 1 | 14.29% |
Greg Kroah-Hartman | 1 | 0.20% | 1 | 14.29% |
Total | 490 | 7 |
// SPDX-License-Identifier: GPL-2.0 /* * linux/arch/alpha/lib/memcpy.c * * Copyright (C) 1995 Linus Torvalds */ /* * This is a reasonably optimized memcpy() routine. */ /* * Note that the C code is written to be optimized into good assembly. However, * at this point gcc is unable to sanely compile "if (n >= 0)", resulting in a * explicit compare against 0 (instead of just using the proper "blt reg, xx" or * "bge reg, xx"). I hope alpha-gcc will be fixed to notice this eventually.. */ #include <linux/types.h> #include <linux/export.h> /* * This should be done in one go with ldq_u*2/mask/stq_u. Do it * with a macro so that we can fix it up later.. */ #define ALIGN_DEST_TO8_UP(d,s,n) \ while (d & 7) { \ if (n <= 0) return; \ n--; \ *(char *) d = *(char *) s; \ d++; s++; \ } #define ALIGN_DEST_TO8_DN(d,s,n) \ while (d & 7) { \ if (n <= 0) return; \ n--; \ d--; s--; \ *(char *) d = *(char *) s; \ } /* * This should similarly be done with ldq_u*2/mask/stq. The destination * is aligned, but we don't fill in a full quad-word */ #define DO_REST_UP(d,s,n) \ while (n > 0) { \ n--; \ *(char *) d = *(char *) s; \ d++; s++; \ } #define DO_REST_DN(d,s,n) \ while (n > 0) { \ n--; \ d--; s--; \ *(char *) d = *(char *) s; \ } /* * This should be done with ldq/mask/stq. The source and destination are * aligned, but we don't fill in a full quad-word */ #define DO_REST_ALIGNED_UP(d,s,n) DO_REST_UP(d,s,n) #define DO_REST_ALIGNED_DN(d,s,n) DO_REST_DN(d,s,n) /* * This does unaligned memory copies. We want to avoid storing to * an unaligned address, as that would do a read-modify-write cycle. * We also want to avoid double-reading the unaligned reads. * * Note the ordering to try to avoid load (and address generation) latencies. */ static inline void __memcpy_unaligned_up (unsigned long d, unsigned long s, long n) { ALIGN_DEST_TO8_UP(d,s,n); n -= 8; /* to avoid compare against 8 in the loop */ if (n >= 0) { unsigned long low_word, high_word; __asm__("ldq_u %0,%1":"=r" (low_word):"m" (*(unsigned long *) s)); do { unsigned long tmp; __asm__("ldq_u %0,%1":"=r" (high_word):"m" (*(unsigned long *)(s+8))); n -= 8; __asm__("extql %1,%2,%0" :"=r" (low_word) :"r" (low_word), "r" (s)); __asm__("extqh %1,%2,%0" :"=r" (tmp) :"r" (high_word), "r" (s)); s += 8; *(unsigned long *) d = low_word | tmp; d += 8; low_word = high_word; } while (n >= 0); } n += 8; DO_REST_UP(d,s,n); } static inline void __memcpy_unaligned_dn (unsigned long d, unsigned long s, long n) { /* I don't understand AXP assembler well enough for this. -Tim */ s += n; d += n; while (n--) * (char *) --d = * (char *) --s; } /* * Hmm.. Strange. The __asm__ here is there to make gcc use an integer register * for the load-store. I don't know why, but it would seem that using a floating * point register for the move seems to slow things down (very small difference, * though). * * Note the ordering to try to avoid load (and address generation) latencies. */ static inline void __memcpy_aligned_up (unsigned long d, unsigned long s, long n) { ALIGN_DEST_TO8_UP(d,s,n); n -= 8; while (n >= 0) { unsigned long tmp; __asm__("ldq %0,%1":"=r" (tmp):"m" (*(unsigned long *) s)); n -= 8; s += 8; *(unsigned long *) d = tmp; d += 8; } n += 8; DO_REST_ALIGNED_UP(d,s,n); } static inline void __memcpy_aligned_dn (unsigned long d, unsigned long s, long n) { s += n; d += n; ALIGN_DEST_TO8_DN(d,s,n); n -= 8; while (n >= 0) { unsigned long tmp; s -= 8; __asm__("ldq %0,%1":"=r" (tmp):"m" (*(unsigned long *) s)); n -= 8; d -= 8; *(unsigned long *) d = tmp; } n += 8; DO_REST_ALIGNED_DN(d,s,n); } void * memcpy(void * dest, const void *src, size_t n) { if (!(((unsigned long) dest ^ (unsigned long) src) & 7)) { __memcpy_aligned_up ((unsigned long) dest, (unsigned long) src, n); return dest; } __memcpy_unaligned_up ((unsigned long) dest, (unsigned long) src, n); return dest; } EXPORT_SYMBOL(memcpy);
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