/* * (c) Copyright 1986 HEWLETT-PACKARD COMPANY * * To anyone who acknowledges that this file is provided "AS IS" * without any express or implied warranty: * permission to use, copy, modify, and distribute this file * for any purpose is hereby granted without fee, provided that * the above copyright notice and this notice appears in all * copies, and that the name of Hewlett-Packard Company not be * used in advertising or publicity pertaining to distribution * of the software without specific, written prior permission. * Hewlett-Packard Company makes no representations about the * suitability of this software for any purpose. */ /* HPUX_ID: @(#) $Revision$ */ /* * strncpy(s1, s2, n) * * Copy s2 to s1, truncating or null-padding to always copy n bytes * return s1 */ #include "DEFS.h" #define d_addr r26 #define s_addr r25 #define count r24 #define tmp1 r19 #define tmp2 r20 #define tmp3 r21 #define tmp4 r22 #define tmp5 arg3 #define save r1 ENTRY(strncpy) combt,= s_addr,r0,pad_null_bytes1 /* if s2==NULL then pad nulls and exit */ copy d_addr,ret0 /* The return value is defined to be the value of d_addr. DELAY SLOT*/ addibt,<,n -4,count,byteloop /* If count is <= 4 don't get fancy.*/ extru s_addr,31,2,tmp1 /* Extract the low two bits of the source address.*/ extru d_addr,31,2,tmp5 /* Extract the low two bits of the destination address.*/ add count,tmp5,count /* pre increment the count by the byte address so that the count is*/ comb,<> tmp5,tmp1,not_aligned /* branch if tmp5<>tmp1. */ dep 0,31,2,s_addr /* Compute the word address of the source. DELAY SLOT.*/ /* aligned*/ combt,= tmp5,r0,skip_mask ldwm 4(0,s_addr),tmp1 /* tmp1 = *s_addr s_addr += 4 (DELAY SLOT)*/ sh3add tmp5,r0,save /* compute mask in save*/ mtctl save,11 zvdepi -2,32,save b skip_mask /* don't reload tmp1*/ or save,tmp1,tmp1 /* or mask with data*/ chunks: ldwm 4(0,s_addr),tmp1 /* get a word*/ skip_mask: uxor,nbz tmp1,r0,save /* check for null*/ b,n null1 addibf,< -4,count,chunks stbys,b,m tmp1,4(0,d_addr) /* store word (delay slot)*/ /* back_porch last word to store*/ addibt,=,n 4,count,done /* if count = 0 we're, of course, done !*/ ldws 0(s_addr),tmp1 /* load up the back_porch*/ add d_addr,count,d_addr/* final store address is +1 too high !*/ sh3add count,r0, save /* setup right mask based on count*/ mtctl save,r11 zvdepi -2,32,save /*save now has left-hand mask*/ uaddcm r0,save,save /*form right hand mask */ or tmp1,save,tmp1 /*and insert data*/ uxor,nbz tmp1,r0,save /* check for null*/ b,n null2 bv 0(r2) stbys,e tmp1,0(d_addr) /* done */ /* Begin non_aligned code. */ not_aligned: sub,>= tmp5,tmp1,tmp3 /* compute the shift amt.and skip load if tmp5 > tmp1.*/ ldwm 4(0,s_addr),tmp1 /* load up the first word from the source. tmp1 = *s_addr++*/ zdep tmp3,28,29,tmp4 /* compute the number of bits to shift */ mtctl tmp4,11 /* load the shift count into cr11 = shift count register.*/ addibt,<,n -4,count,chkchnk2 /* first step in pre adjustment of count for looping.*/ ldwm 4(0,s_addr),tmp2 /* get either first or second word from source. */ combt,= tmp5,r0,skip_mask2 /* don't mask if whole word is valid*/ vshd tmp1,tmp2,tmp3 /* position data ! (delay slot)*/ sh3add tmp5,r0,save /* setup r1*/ mtctl save,r11 /* setup mask in save*/ zvdepi -2,32,save or save, tmp3, tmp3 mtctl tmp4,11 /* re-load the shift count into cr11 */ b skip_mask2 copy r0, tmp5 /* zero out tmp5 so we don't try to mask again*/ chunk2: ldwm 4(0,s_addr),tmp2 vshd tmp1,tmp2,tmp3 skip_mask2: uxor,nbz tmp3, r0, save b,n null3 stbys,b,m tmp3,4(0,d_addr) /* store ! */ ldwm 4(0,s_addr),tmp1 /* get 2nd word ! */ vshd tmp2,tmp1,tmp3 /* position data ! */ uxor,nbz tmp3, r0, save b,n null4 addibf,< -8,count,chunk2 /* If count is still >= 8 do another loop.*/ stbys,b,m tmp3,4(0,d_addr) /* store !*/ chkchnk2: addibt,<,n 4,count,bp_0 /* if we don't have 4 bytes left then do the back porch (bp_0)*/ subchnk2: /* we have less than 8 chars to copy*/ ldwm 4(0,s_addr),tmp2 /* get next word !*/ combt,= tmp5,r0,skip_mask3 vshd tmp1,tmp2,tmp3 /* position data !*/ sh3add tmp5,r0,save /* setup r1*/ mtctl save,r11 /* setup mask in save*/ zvdepi -2,32,save or save, tmp3, tmp3 mtctl tmp4,11 /* restore shift value again */ copy r0, tmp5 /* zero out tmp5 so we don't try to mask again*/ skip_mask3: uxor,nbz tmp3,r0,save b,n null4 b bp_1 /* we now have less than 4 bytes to move*/ stbys,b,m tmp3,4(0,d_addr) /* store !*/ bp_0: copy tmp1,tmp2 /* switch registers used in the shift process.*/ addibt,<=,n 4,count,done /* if count = -4 this implies that count = 0 -> done */ bp_1: ldwm 4(0,s_addr),tmp1 /* get final word ! */ vshd tmp2,tmp1,tmp3 /* position data !*/ uxor,sbz tmp3,r0,save /* if some-byte-zero */ b no_null /* don't goto no_null-find which null instead */ add d_addr,count,d_addr /* get d_addr ready for stbys,e */ extru,<> save,7,8,r0 b found_null5 copy r0, tmp5 extru,<> save,15,8,r0 b found_null5 ldil 0x1FE000,tmp5 /* setup mask (FF000000)*/ extru,<> save,23,8,r0 b found_null5 ldil 0x1FFFE0,tmp5 /* setup mask (FFFF0000)*/ ldo -1(r0),tmp5 /* setup mask (FFFFFFFF)*/ found_null5: and tmp3,tmp5,tmp3 /* zero out tmp5 based on mask in tmp5*/ no_null: bv 0(r2) /* were done*/ stbys,e tmp3,0(0,d_addr) /* store the data !*/ /* here we do ye old byte-at-a-time moves.*/ byteloop: addibt,=,n 4,count,done comb,= 0,s_addr,done stbs r0,0(d_addr) /* store null in case s_addr == NULL */ ldbs,ma 1(s_addr),tmp1 encore: combt,=,n tmp1,r0, pad_null_bytes1 stbs,ma tmp1,1(d_addr) addibf,=,n -1,count,encore ldbs,ma 1(s_addr),tmp1 b,n done pnb_1: addibt,=,n 4,count,done /* if count was already 0 then we're done*/ pad_null_bytes1: combt,=,n count,r0,done /* if count==0 then exit */ pad_null_bytes2: addibf,= -1,count,pad_null_bytes2 stbs,ma r0,1(d_addr) b,n done pad_nulls: addibf,<=,n -4,count,pad_nulls stwm r0,4(d_addr) b,n pnb_1 null1: extru,<> save,7,8,r0 b found_null1 copy r0, tmp5 extru,<> save,15,8,r0 b found_null1 ldil 0x1FE000,tmp5 /* setup mask (FF000000)*/ extru,<> save,23,8,r0 b found_null1 ldil 0x1FFFE0,tmp5 /* setup mask (FFFF0000)*/ ldo -1(r0),tmp5 /* setup mask (FFFFFFFF)*/ found_null1: and tmp1,tmp5,tmp1 /*zero out tmp1 according to mask*/ b pad_nulls /* nullify remaining count bytes*/ stbys,b,m tmp1,4(0,d_addr) /* first word (account for alignment)*/ null2: /* back porch case. We have less than 4 bytes to go.*/ extru,<> save,7,8,r0 /* is null in 1st byte? */ b found_null2 copy r0, tmp5 extru,<> save,15,8,r0 /* is null in 2nd byte? */ b found_null2 ldil 0x1FE000,tmp5 /* setup mask (FF000000)*/ b found_null2 /* null must be in 3rd byte */ ldil 0x1FFFE0,tmp5 /* setup mask (FFFF0000)*/ found_null2: and tmp1,tmp5,tmp1 /*zero out tmp1 according to mask*/ bv 0(r2) /* we're done*/ stbys,e tmp1,0(0,d_addr) /* last word (back porch)*/ null3: /* not_aligned case where null is found in first of two words--adjust count*/ extru,<> save,7,8,r0 b found_null3 copy r0, tmp5 extru,<> save,15,8,r0 b found_null3 ldil 0x1FE000,tmp5 /* setup mask (FF000000)*/ extru,<> save,23,8,r0 b found_null3 ldil 0x1FFFE0,tmp5 /* setup mask (FFFF0000)*/ ldo -1(r0),tmp5 /* setup mask (FFFFFFFF)*/ found_null3: addi 4,count,count /* fix count since null is in first of two words*/ and tmp3,tmp5,tmp3 /*zero out tmp3 according to mask*/ b pad_nulls /* nullify remaining count bytes*/ stbys,b,m tmp3,4(d_addr) null4: /* not_aligned case where null is found in second of two words*/ extru,<> save,7,8,r0 b found_null4 copy r0, tmp5 extru,<> save,15,8,r0 b found_null4 ldil 0x1FE000,tmp5 /* setup mask (FF000000)*/ extru,<> save,23,8,r0 b found_null4 ldil 0x1FFFE0,tmp5 /* setup mask (FFFF0000)*/ ldo -1(r0),tmp5 /* setup mask (FFFFFFFF)*/ found_null4: and tmp3,tmp5,tmp3 /*zero out tmp4 according to mask*/ b pad_nulls /* nullify remaining count bytes*/ stbys,b,m tmp3,4(d_addr) done: EXIT(strncpy)