/* Copyright (C) 2014-2022 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . */ #include /* Implements the functions char * [r3] strncpy (char *dst [r3], const char *src [r4], size_t n [r5]) AND char * [r3] stpncpy (char *dst [r3], const char *src [r4], size_t n [r5]) The algorithm is as follows: > if src and dest are 8 byte aligned, perform double word copy else > copy byte by byte on unaligned addresses. The aligned comparison are made using cmpb instructions. */ /* The focus on optimization for performance improvements are as follows: 1. data alignment [gain from aligned memory access on read/write] 2. POWER7 gains performance with loop unrolling/unwinding [gain by reduction of branch penalty]. 3. The final pad with null bytes is done by calling an optimized memset. */ #ifdef USE_AS_STPNCPY # ifndef STPNCPY # define FUNC_NAME __stpncpy # else # define FUNC_NAME STPNCPY # endif #else # ifndef STRNCPY # define FUNC_NAME strncpy # else # define FUNC_NAME STRNCPY # endif #endif /* !USE_AS_STPNCPY */ #define FRAMESIZE (FRAME_MIN_SIZE+16) #ifndef MEMSET /* For builds with no IFUNC support, local calls should be made to internal GLIBC symbol (created by libc_hidden_builtin_def). */ # ifdef SHARED # define MEMSET_is_local # define MEMSET __GI_memset # else # define MEMSET memset # endif #endif .machine power7 #ifdef MEMSET_is_local ENTRY_TOCLESS (FUNC_NAME, 4) #else ENTRY (FUNC_NAME, 4) #endif CALL_MCOUNT 3 or r10, r3, r4 /* to verify source and destination */ rldicl. r8, r10, 0, 61 /* is double word aligned .. ? */ std r19, -8(r1) /* save callers register , r19 */ std r18, -16(r1) /* save callers register , r18 */ cfi_offset(r19, -8) cfi_offset(r18, -16) mr r9, r3 /* save r3 into r9 for use */ mr r18, r3 /* save r3 for retCode of strncpy */ bne 0, L(unaligned) L(aligned): srdi r11, r5, 3 /* compute count for CTR ; count = n/8 */ cmpldi cr7, r11, 3 /* if count > 4 ; perform unrolling 4 times */ ble 7, L(update1) ld r10, 0(r4) /* load doubleWord from src */ cmpb r8, r10, r8 /* compare src with NULL ,we read just now */ cmpdi cr7, r8, 0 /* if cmpb returned NULL ; we continue */ bne cr7, L(update3) std r10, 0(r3) /* copy doubleword at offset=0 */ ld r10, 8(r4) /* load next doubleword from offset=8 */ cmpb r8, r10, r8 /* compare src with NULL , we read just now */ cmpdi cr7, r8, 0 /* if cmpb returned NULL ; we continue */ bne 7,L(HopBy8) addi r8, r11, -4 mr r7, r3 srdi r8, r8, 2 mr r6, r4 addi r8, r8, 1 li r12, 0 mtctr r8 b L(dwordCopy) .p2align 4 L(dWordUnroll): std r8, 16(r9) ld r8, 24(r4) /* load dword,perform loop unrolling again */ cmpb r10, r8, r10 cmpdi cr7, r10, 0 bne cr7, L(HopBy24) std r8, 24(r7) /* copy dword at offset=24 */ addi r9, r9, 32 addi r4, r4, 32 bdz L(leftDwords) /* continue with loop on counter */ ld r3, 32(r6) cmpb r8, r3, r10 cmpdi cr7, r8, 0 bne cr7, L(update2) std r3, 32(r7) ld r10, 40(r6) cmpb r8, r10, r8 cmpdi cr7, r8, 0 bne cr7, L(HopBy40) mr r6, r4 /* update values */ mr r7, r9 mr r11, r0 mr r5, r19 L(dwordCopy): std r10, 8(r9) /* copy dword at offset=8 */ addi r19, r5, -32 addi r0, r11, -4 ld r8, 16(r4) cmpb r10, r8, r12 cmpdi cr7, r10, 0 beq cr7, L(dWordUnroll) addi r9, r9, 16 /* increment dst by 16 */ addi r4, r4, 16 /* increment src by 16 */ addi r5, r5, -16 /* decrement length 'n' by 16 */ addi r0, r11, -2 /* decrement loop counter */ L(dWordUnrollOFF): ld r10, 0(r4) /* load first dword */ li r8, 0 /* load mask */ cmpb r8, r10, r8 cmpdi cr7, r8, 0 bne cr7, L(byte_by_byte) mtctr r0 li r7, 0 b L(CopyDword) .p2align 4 L(loadDWordandCompare): ld r10, 0(r4) cmpb r8, r10, r7 cmpdi cr7, r8, 0 bne cr7, L(byte_by_byte) L(CopyDword): addi r9, r9, 8 std r10, -8(r9) addi r4, r4, 8 addi r5, r5, -8 bdnz L(loadDWordandCompare) L(byte_by_byte): cmpldi cr7, r5, 3 ble cr7, L(verifyByte) srdi r10, r5, 2 mr r19, r9 mtctr r10 b L(firstByteUnroll) .p2align 4 L(bytes_unroll): lbz r10, 1(r4) /* load byte from src */ cmpdi cr7, r10, 0 /* compare for NULL */ stb r10, 1(r19) /* store byte to dst */ beq cr7, L(updtDestComputeN2ndByte) addi r4, r4, 4 /* advance src */ lbz r10, -2(r4) /* perform loop unrolling for byte r/w */ cmpdi cr7, r10, 0 stb r10, 2(r19) beq cr7, L(updtDestComputeN3rdByte) lbz r10, -1(r4) /* perform loop unrolling for byte r/w */ addi r19, r19, 4 cmpdi cr7, r10, 0 stb r10, -1(r19) beq cr7, L(ComputeNByte) bdz L(update0) L(firstByteUnroll): lbz r10, 0(r4) /* perform loop unrolling for byte r/w */ cmpdi cr7, 10, 0 stb r10, 0(r19) bne cr7, L(bytes_unroll) addi r19, r19, 1 L(ComputeNByte): subf r9, r19, r9 /* compute 'n'n bytes to fill */ add r8, r9, r5 L(zeroFill): cmpdi cr7, r8, 0 /* compare if length is zero */ beq cr7, L(update3return) mflr r0 /* load link register LR to r0 */ std r0, 16(r1) /* store the link register */ stdu r1, -FRAMESIZE(r1) /* create the stack frame */ cfi_adjust_cfa_offset(FRAMESIZE) cfi_offset(lr, 16) mr r3, r19 /* fill buffer with */ li r4, 0 /* zero fill buffer */ mr r5, r8 /* how many bytes to fill buffer with */ bl MEMSET /* call optimized memset */ #ifndef MEMSET_is_local nop #endif ld r0, FRAMESIZE+16(r1) /* read the saved link register */ addi r1, r1, FRAMESIZE /* restore stack pointer */ cfi_adjust_cfa_offset(-FRAMESIZE) mtlr r0 cfi_restore(lr) L(update3return): #ifdef USE_AS_STPNCPY addi r3, r19, -1 /* update return value */ #endif L(hop2return): #ifndef USE_AS_STPNCPY mr r3, r18 /* set return value */ #endif ld r18, -16(r1) /* restore callers save register, r18 */ ld r19, -8(r1) /* restore callers save register, r19 */ blr /* return */ .p2align 4 L(update0): mr r9, r19 .p2align 4 L(verifyByte): rldicl. r8, r5, 0, 62 #ifdef USE_AS_STPNCPY mr r3, r9 #endif beq cr0, L(hop2return) mtctr r8 addi r4, r4, -1 mr r19, r9 b L(oneBYone) .p2align 4 L(proceed): bdz L(done) L(oneBYone): lbzu r10, 1(r4) /* copy byte */ addi r19, r19, 1 addi r8, r8, -1 cmpdi cr7, r10, 0 stb r10, -1(r19) bne cr7, L(proceed) b L(zeroFill) .p2align 4 L(done): #ifdef USE_AS_STPNCPY mr r3, r19 /* set the return value */ #else mr r3, r18 /* set the return value */ #endif ld r18, -16(r1) /* restore callers save register, r18 */ ld r19, -8(r1) /* restore callers save register, r19 */ blr /* return */ L(update1): mr r0, r11 mr r19, r5 .p2align 4 L(leftDwords): cmpdi cr7, r0, 0 mr r5, r19 bne cr7, L(dWordUnrollOFF) b L(byte_by_byte) .p2align 4 L(updtDestComputeN2ndByte): addi r19, r19, 2 /* update dst by 2 */ subf r9, r19, r9 /* compute distance covered */ add r8, r9, r5 b L(zeroFill) .p2align 4 L(updtDestComputeN3rdByte): addi r19, r19, 3 /* update dst by 3 */ subf r9, r19, r9 /* compute distance covered */ add r8, r9, r5 b L(zeroFill) .p2align 4 L(HopBy24): addi r9, r9, 24 /* increment dst by 24 */ addi r4, r4, 24 /* increment src by 24 */ addi r5, r5, -24 /* decrement length 'n' by 24 */ addi r0, r11, -3 /* decrement loop counter */ b L(dWordUnrollOFF) .p2align 4 L(update2): mr r5, r19 b L(dWordUnrollOFF) .p2align 4 L(HopBy40): addi r9, r7, 40 /* increment dst by 40 */ addi r4, r6, 40 /* increment src by 40 */ addi r5, r5, -40 /* decrement length 'n' by 40 */ addi r0, r11, -5 /* decrement loop counter */ b L(dWordUnrollOFF) L(update3): mr r0, r11 b L(dWordUnrollOFF) L(HopBy8): addi r9, r3, 8 /* increment dst by 8 */ addi r4, r4, 8 /* increment src by 8 */ addi r5, r5, -8 /* decrement length 'n' by 8 */ addi r0, r11, -1 /* decrement loop counter */ b L(dWordUnrollOFF) L(unaligned): cmpdi r5, 16 /* Proceed byte by byte for less than 16 */ ble L(byte_by_byte) rldicl r7, r3, 0, 61 rldicl r6, r4, 0, 61 cmpdi r6, 0 /* Check src alignment */ beq L(srcaligndstunalign) /* src is unaligned */ rlwinm r10, r4, 3,26,28 /* Calculate padding. */ clrrdi r4, r4, 3 /* Align the addr to dw boundary */ ld r8, 0(r4) /* Load doubleword from memory. */ li r0, 0 /* Discard bits not part of the string */ #ifdef __LITTLE_ENDIAN__ srd r7, r8, r10 #else sld r7, r8, r10 #endif cmpb r0, r7, r0 /* Compare each byte against null */ /* Discard bits not part of the string */ #ifdef __LITTLE_ENDIAN__ sld r0, r0, r10 #else srd r0, r0, r10 #endif cmpdi r0, 0 bne L(bytebybyte) /* if it has null, copy byte by byte */ subfic r6, r6, 8 rlwinm r12, r3, 3,26,28 /* Calculate padding in bits. */ rldicl r9, r3, 0, 61 /* Calculate padding in bytes. */ addi r3, r3, -1 cmpdi r12, 0 /* check dest alignment */ beq L(srcunaligndstalign) /* both src and dst unaligned */ #ifdef __LITTLE_ENDIAN__ sld r8, r7, r10 mr r11, r10 addi r11, r11, -8 /* Adjust byte pointer on loaded dw */ #else srd r8, r7, r10 subfic r11, r10, 64 #endif /* dst alignment is greater then src alignment? */ cmpd cr7, r12, r10 ble cr7, L(dst_align_small) /* src alignment is less than dst */ /* Calculate the dst alignment difference */ subfic r7, r9, 8 mtctr r7 /* Write until dst is aligned */ cmpdi r0, r7, 4 blt L(storebyte1) /* less than 4, store byte by byte */ beq L(equal1) /* if its 4, store word */ addi r0, r7, -4 /* greater than 4, so stb and stw */ mtctr r0 L(storebyte1): #ifdef __LITTLE_ENDIAN__ addi r11, r11, 8 /* Adjust byte pointer on loaded dw */ #else addi r11, r11, -8 #endif srd r7, r8, r11 stbu r7, 1(r3) addi r5, r5, -1 bdnz L(storebyte1) subfic r7, r9, 8 /* Check the remaining bytes */ cmpdi r0, r7, 4 blt L(proceed1) .align 4 L(equal1): #ifdef __LITTLE_ENDIAN__ addi r11, r11, 8 /* Adjust byte pointer on loaded dw */ srd r7, r8, r11 #else subfic r11, r11, 64 sld r7, r8, r11 srdi r7, r7, 32 #endif stw r7, 1(r3) addi r3, r3, 4 addi r5, r5, -4 L(proceed1): mr r7, r8 /* calculate the Left over bytes to be written */ subfic r11, r10, 64 subfic r12, r12, 64 subf r12, r12, r11 /* remaining bytes on second dw */ subfic r10, r12, 64 /* remaining bytes on first dw */ subfic r9, r9, 8 subf r6, r9, r6 /* recalculate padding */ L(srcunaligndstalign): addi r3, r3, 1 subfic r12, r10, 64 /* remaining bytes on second dw */ addi r4, r4, 8 li r0,0 b L(storedouble) .align 4 L(dst_align_small): mtctr r6 /* Write until src is aligned */ L(storebyte2): #ifdef __LITTLE_ENDIAN__ addi r11, r11, 8 /* Adjust byte pointer on dw */ #else addi r11, r11, -8 #endif srd r7, r8, r11 stbu r7, 1(r3) addi r5, r5, -1 bdnz L(storebyte2) addi r4, r4, 8 /* Increment src pointer */ addi r3, r3, 1 /* Increment dst pointer */ mr r9, r3 li r8, 0 cmpd cr7, r12, r10 beq cr7, L(aligned) rldicl r6, r3, 0, 61 /* Recalculate padding */ mr r7, r6 /* src is algined */ L(srcaligndstunalign): mr r9, r3 mr r6, r7 ld r8, 0(r4) subfic r10, r7, 8 mr r7, r8 li r0, 0 /* Check null */ cmpb r0, r8, r0 cmpdi r0, 0 bne L(byte_by_byte) /* Do byte by byte if there is NULL */ rlwinm r12, r3, 3,26,28 /* Calculate padding */ addi r3, r3, -1 /* write byte by byte until aligned */ #ifdef __LITTLE_ENDIAN__ li r11, -8 #else li r11, 64 #endif mtctr r10 cmpdi r0, r10, 4 blt L(storebyte) beq L(equal) addi r0, r10, -4 mtctr r0 L(storebyte): #ifdef __LITTLE_ENDIAN__ addi r11, r11, 8 /* Adjust byte pointer on dw */ #else addi r11, r11, -8 #endif srd r7, r8, r11 stbu r7, 1(r3) addi r5, r5, -1 bdnz L(storebyte) cmpdi r0, r10, 4 blt L(align) .align 4 L(equal): #ifdef __LITTLE_ENDIAN__ addi r11, r11, 8 srd r7, r8, r11 #else subfic r11, r11, 64 sld r7, r8, r11 srdi r7, r7, 32 #endif stw r7, 1(r3) addi r5, r5, -4 addi r3, r3, 4 L(align): addi r3, r3, 1 addi r4, r4, 8 /* Increment src pointer */ subfic r10, r12, 64 li r0, 0 /* dst addr aligned to 8 */ L(storedouble): cmpdi r5, 8 ble L(null1) ld r7, 0(r4) /* load next dw */ cmpb r0, r7, r0 cmpdi r0, 0 /* check for null on each new dw */ bne L(null) #ifdef __LITTLE_ENDIAN__ srd r9, r8, r10 /* bytes from first dw */ sld r11, r7, r12 /* bytes from second dw */ #else sld r9, r8, r10 srd r11, r7, r12 #endif or r11, r9, r11 /* make as a single dw */ std r11, 0(r3) /* store as std on aligned addr */ mr r8, r7 /* still few bytes left to be written */ addi r3, r3, 8 /* increment dst addr */ addi r4, r4, 8 /* increment src addr */ addi r5, r5, -8 b L(storedouble) /* Loop until NULL */ .align 4 /* We've hit the end of the string. Do the rest byte-by-byte. */ L(null): addi r3, r3, -1 mr r10, r12 mtctr r6 #ifdef __LITTLE_ENDIAN__ subfic r10, r10, 64 addi r10, r10, -8 #endif cmpdi r0, r5, 4 blt L(loop) cmpdi r0, r6, 4 blt L(loop) /* we can still use stw if leftover >= 4 */ #ifdef __LITTLE_ENDIAN__ addi r10, r10, 8 srd r11, r8, r10 #else subfic r10, r10, 64 sld r11, r8, r10 srdi r11, r11, 32 #endif stw r11, 1(r3) addi r5, r5, -4 addi r3, r3, 4 cmpdi r0, r5, 0 beq L(g1) cmpdi r0, r6, 4 beq L(bytebybyte1) addi r10, r10, 32 #ifdef __LITTLE_ENDIAN__ addi r10, r10, -8 #else subfic r10, r10, 64 #endif addi r0, r6, -4 mtctr r0 /* remaining byte by byte part of first dw */ L(loop): #ifdef __LITTLE_ENDIAN__ addi r10, r10, 8 #else addi r10, r10, -8 #endif srd r0, r8, r10 stbu r0, 1(r3) addi r5, r5, -1 cmpdi r0, r5, 0 beq L(g1) bdnz L(loop) L(bytebybyte1): addi r3, r3, 1 /* remaining byte by byte part of second dw */ L(bytebybyte): addi r3, r3, -8 addi r4, r4, -1 #ifdef __LITTLE_ENDIAN__ extrdi. r0, r7, 8, 56 stbu r7, 8(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 48 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 40 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 32 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 24 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 16 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 8 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi r0, r7, 8, 0 stbu r0, 1(r3) addi r5, r5, -1 b L(g2) #else extrdi. r0, r7, 8, 0 stbu r0, 8(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 8 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 16 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 24 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 32 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 40 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) extrdi. r0, r7, 8, 48 stbu r0, 1(r3) addi r5, r5, -1 beq L(g2) cmpdi r5, 0 beq L(g1) stbu r7, 1(r3) addi r5, r5, -1 b L(g2) #endif L(g1): #ifdef USE_AS_STPNCPY addi r3, r3, 1 #endif L(g2): addi r3, r3, 1 mr r19, r3 mr r8, r5 b L(zeroFill) L(null1): mr r9, r3 subf r4, r6, r4 b L(byte_by_byte) END(FUNC_NAME) #ifndef USE_AS_STPNCPY libc_hidden_builtin_def (strncpy) #endif