/* Optimized memmove implementation for PowerPC64/POWER7. Copyright (C) 2014-2015 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 /* void* [r3] memmove (void *dest [r3], const void *src [r4], size_t len [r5]) This optimization check if memory 'dest' overlaps with 'src'. If it does not then it calls an optimized memcpy call (similar to memcpy for POWER7, embedded here to gain some cycles). If source and destiny overlaps, a optimized backwards memcpy is used instead. */ .machine power7 EALIGN (memmove, 5, 0) CALL_MCOUNT 3 L(_memmove): subf r9,r4,r3 cmpld cr7,r9,r5 blt cr7,L(memmove_bwd) cmpldi cr1,r5,31 neg 0,3 ble cr1, L(copy_LT_32) /* If move < 32 bytes use short move code. */ andi. 10,3,15 clrldi 11,4,60 cmpld cr6,10,11 /* SRC and DST alignments match? */ mr r11,3 bne cr6,L(copy_GE_32_unaligned) beq L(aligned_copy) mtocrf 0x01,0 clrldi 0,0,60 /* Get the DST and SRC aligned to 8 bytes (16 for little-endian). */ 1: bf 31,2f lbz 6,0(r4) addi r4,r4,1 stb 6,0(r11) addi r11,r11,1 2: bf 30,4f lhz 6,0(r4) addi r4,r4,2 sth 6,0(r11) addi r11,r11,2 4: bf 29,8f lwz 6,0(r4) addi r4,r4,4 stw 6,0(r11) addi r11,r11,4 8: bf 28,16f ld 6,0(r4) addi r4,r4,8 std 6,0(r11) addi r11,r11,8 16: subf r5,0,r5 /* Main aligned copy loop. Copies 128 bytes at a time. */ L(aligned_copy): li 6,16 li 7,32 li 8,48 mtocrf 0x02,r5 srdi 12,r5,7 cmpdi 12,0 beq L(aligned_tail) lxvd2x 6,0,r4 lxvd2x 7,r4,6 mtctr 12 b L(aligned_128loop) .align 4 L(aligned_128head): /* for the 2nd + iteration of this loop. */ lxvd2x 6,0,r4 lxvd2x 7,r4,6 L(aligned_128loop): lxvd2x 8,r4,7 lxvd2x 9,r4,8 stxvd2x 6,0,r11 addi r4,r4,64 stxvd2x 7,r11,6 stxvd2x 8,r11,7 stxvd2x 9,r11,8 lxvd2x 6,0,r4 lxvd2x 7,r4,6 addi r11,r11,64 lxvd2x 8,r4,7 lxvd2x 9,r4,8 addi r4,r4,64 stxvd2x 6,0,r11 stxvd2x 7,r11,6 stxvd2x 8,r11,7 stxvd2x 9,r11,8 addi r11,r11,64 bdnz L(aligned_128head) L(aligned_tail): mtocrf 0x01,r5 bf 25,32f lxvd2x 6,0,r4 lxvd2x 7,r4,6 lxvd2x 8,r4,7 lxvd2x 9,r4,8 addi r4,r4,64 stxvd2x 6,0,r11 stxvd2x 7,r11,6 stxvd2x 8,r11,7 stxvd2x 9,r11,8 addi r11,r11,64 32: bf 26,16f lxvd2x 6,0,r4 lxvd2x 7,r4,6 addi r4,r4,32 stxvd2x 6,0,r11 stxvd2x 7,r11,6 addi r11,r11,32 16: bf 27,8f lxvd2x 6,0,r4 addi r4,r4,16 stxvd2x 6,0,r11 addi r11,r11,16 8: bf 28,4f ld 6,0(r4) addi r4,r4,8 std 6,0(r11) addi r11,r11,8 4: /* Copies 4~7 bytes. */ bf 29,L(tail2) lwz 6,0(r4) stw 6,0(r11) bf 30,L(tail5) lhz 7,4(r4) sth 7,4(r11) bflr 31 lbz 8,6(r4) stb 8,6(r11) /* Return original DST pointer. */ blr /* Handle copies of 0~31 bytes. */ .align 4 L(copy_LT_32): mr r11,3 cmpldi cr6,r5,8 mtocrf 0x01,r5 ble cr6,L(copy_LE_8) /* At least 9 bytes to go. */ neg 8,4 andi. 0,8,3 cmpldi cr1,r5,16 beq L(copy_LT_32_aligned) /* Force 4-byte alignment for SRC. */ mtocrf 0x01,0 subf r5,0,r5 2: bf 30,1f lhz 6,0(r4) addi r4,r4,2 sth 6,0(r11) addi r11,r11,2 1: bf 31,L(end_4bytes_alignment) lbz 6,0(r4) addi r4,r4,1 stb 6,0(r11) addi r11,r11,1 .align 4 L(end_4bytes_alignment): cmpldi cr1,r5,16 mtocrf 0x01,r5 L(copy_LT_32_aligned): /* At least 6 bytes to go, and SRC is word-aligned. */ blt cr1,8f /* Copy 16 bytes. */ lwz 6,0(r4) lwz 7,4(r4) stw 6,0(r11) lwz 8,8(r4) stw 7,4(r11) lwz 6,12(r4) addi r4,r4,16 stw 8,8(r11) stw 6,12(r11) addi r11,r11,16 8: /* Copy 8 bytes. */ bf 28,L(tail4) lwz 6,0(r4) lwz 7,4(r4) addi r4,r4,8 stw 6,0(r11) stw 7,4(r11) addi r11,r11,8 .align 4 /* Copies 4~7 bytes. */ L(tail4): bf 29,L(tail2) lwz 6,0(r4) stw 6,0(r11) bf 30,L(tail5) lhz 7,4(r4) sth 7,4(r11) bflr 31 lbz 8,6(r4) stb 8,6(r11) /* Return original DST pointer. */ blr .align 4 /* Copies 2~3 bytes. */ L(tail2): bf 30,1f lhz 6,0(r4) sth 6,0(r11) bflr 31 lbz 7,2(r4) stb 7,2(r11) blr .align 4 L(tail5): bflr 31 lbz 6,4(r4) stb 6,4(r11) blr .align 4 1: bflr 31 lbz 6,0(r4) stb 6,0(r11) /* Return original DST pointer. */ blr /* Handles copies of 0~8 bytes. */ .align 4 L(copy_LE_8): bne cr6,L(tail4) /* Though we could've used ld/std here, they are still slow for unaligned cases. */ lwz 6,0(r4) lwz 7,4(r4) stw 6,0(r11) stw 7,4(r11) blr /* Handle copies of 32+ bytes where DST is aligned (to quadword) but SRC is not. Use aligned quadword loads from SRC, shifted to realign the data, allowing for aligned DST stores. */ .align 4 L(copy_GE_32_unaligned): clrldi 0,0,60 /* Number of bytes until the 1st r11 quadword. */ srdi 9,r5,4 /* Number of full quadwords remaining. */ beq L(copy_GE_32_unaligned_cont) /* DST is not quadword aligned, get it aligned. */ mtocrf 0x01,0 subf r5,0,r5 /* Vector instructions work best when proper alignment (16-bytes) is present. Move 0~15 bytes as needed to get DST quadword-aligned. */ 1: bf 31,2f lbz 6,0(r4) addi r4,r4,1 stb 6,0(r11) addi r11,r11,1 2: bf 30,4f lhz 6,0(r4) addi r4,r4,2 sth 6,0(r11) addi r11,r11,2 4: bf 29,8f lwz 6,0(r4) addi r4,r4,4 stw 6,0(r11) addi r11,r11,4 8: bf 28,0f ld 6,0(r4) addi r4,r4,8 std 6,0(r11) addi r11,r11,8 0: srdi 9,r5,4 /* Number of full quadwords remaining. */ /* The proper alignment is present, it is OK to copy the bytes now. */ L(copy_GE_32_unaligned_cont): /* Setup two indexes to speed up the indexed vector operations. */ clrldi 10,r5,60 li 6,16 /* Index for 16-bytes offsets. */ li 7,32 /* Index for 32-bytes offsets. */ cmpldi cr1,10,0 srdi 8,r5,5 /* Setup the loop counter. */ mtocrf 0x01,9 cmpldi cr6,9,1 #ifdef __LITTLE_ENDIAN__ lvsr 5,0,r4 #else lvsl 5,0,r4 #endif lvx 3,0,r4 li 0,0 bf 31,L(setup_unaligned_loop) /* Copy another 16 bytes to align to 32-bytes due to the loop. */ lvx 4,r4,6 #ifdef __LITTLE_ENDIAN__ vperm 6,4,3,5 #else vperm 6,3,4,5 #endif addi r4,r4,16 stvx 6,0,r11 addi r11,r11,16 vor 3,4,4 clrrdi 0,r4,60 L(setup_unaligned_loop): mtctr 8 ble cr6,L(end_unaligned_loop) /* Copy 32 bytes at a time using vector instructions. */ .align 4 L(unaligned_loop): /* Note: vr6/vr10 may contain data that was already copied, but in order to get proper alignment, we may have to copy some portions again. This is faster than having unaligned vector instructions though. */ lvx 4,r4,6 #ifdef __LITTLE_ENDIAN__ vperm 6,4,3,5 #else vperm 6,3,4,5 #endif lvx 3,r4,7 #ifdef __LITTLE_ENDIAN__ vperm 10,3,4,5 #else vperm 10,4,3,5 #endif addi r4,r4,32 stvx 6,0,r11 stvx 10,r11,6 addi r11,r11,32 bdnz L(unaligned_loop) clrrdi 0,r4,60 .align 4 L(end_unaligned_loop): /* Check for tail bytes. */ mtocrf 0x01,r5 beqlr cr1 add r4,r4,0 /* We have 1~15 tail bytes to copy, and DST is quadword aligned. */ /* Copy 8 bytes. */ bf 28,4f lwz 6,0(r4) lwz 7,4(r4) addi r4,r4,8 stw 6,0(r11) stw 7,4(r11) addi r11,r11,8 4: /* Copy 4~7 bytes. */ bf 29,L(tail2) lwz 6,0(r4) stw 6,0(r11) bf 30,L(tail5) lhz 7,4(r4) sth 7,4(r11) bflr 31 lbz 8,6(r4) stb 8,6(r11) /* Return original DST pointer. */ blr /* Start to memcpy backward implementation: the algorith first check if src and dest have the same alignment and if it does align both to 16 bytes and copy using VSX instructions. If does not, align dest to 16 bytes and use VMX (altivec) instruction to read two 16 bytes at time, shift/permute the bytes read and write aligned to dest. */ L(memmove_bwd): cmpldi cr1,r5,31 /* Copy is done backwards: update the pointers and check alignment. */ add r11,r3,r5 add r4,r4,r5 mr r0,r11 ble cr1, L(copy_LT_32_bwd) /* If move < 32 bytes use short move code. */ andi. r10,r11,15 /* Check if r11 is aligned to 16 bytes */ clrldi r9,r4,60 /* Check if r4 is aligned to 16 bytes */ cmpld cr6,r10,r9 /* SRC and DST alignments match? */ bne cr6,L(copy_GE_32_unaligned_bwd) beq L(aligned_copy_bwd) mtocrf 0x01,r0 clrldi r0,r0,60 /* Get the DST and SRC aligned to 16 bytes. */ 1: bf 31,2f lbz r6,-1(r4) subi r4,r4,1 stb r6,-1(r11) subi r11,r11,1 2: bf 30,4f lhz r6,-2(r4) subi r4,r4,2 sth r6,-2(r11) subi r11,r11,2 4: bf 29,8f lwz r6,-4(r4) subi r4,r4,4 stw r6,-4(r11) subi r11,r11,4 8: bf 28,16f ld r6,-8(r4) subi r4,r4,8 std r6,-8(r11) subi r11,r11,8 16: subf r5,0,r5 /* Main aligned copy loop. Copies 128 bytes at a time. */ L(aligned_copy_bwd): li r6,-16 li r7,-32 li r8,-48 li r9,-64 mtocrf 0x02,r5 srdi r12,r5,7 cmpdi r12,0 beq L(aligned_tail_bwd) lxvd2x v6,r4,r6 lxvd2x v7,r4,r7 mtctr 12 b L(aligned_128loop_bwd) .align 4 L(aligned_128head_bwd): /* for the 2nd + iteration of this loop. */ lxvd2x v6,r4,r6 lxvd2x v7,r4,r7 L(aligned_128loop_bwd): lxvd2x v8,r4,r8 lxvd2x v9,r4,r9 stxvd2x v6,r11,r6 subi r4,r4,64 stxvd2x v7,r11,r7 stxvd2x v8,r11,r8 stxvd2x v9,r11,r9 lxvd2x v6,r4,r6 lxvd2x v7,r4,7 subi r11,r11,64 lxvd2x v8,r4,r8 lxvd2x v9,r4,r9 subi r4,r4,64 stxvd2x v6,r11,r6 stxvd2x v7,r11,r7 stxvd2x v8,r11,r8 stxvd2x v9,r11,r9 subi r11,r11,64 bdnz L(aligned_128head_bwd) L(aligned_tail_bwd): mtocrf 0x01,r5 bf 25,32f lxvd2x v6,r4,r6 lxvd2x v7,r4,r7 lxvd2x v8,r4,r8 lxvd2x v9,r4,r9 subi r4,r4,64 stxvd2x v6,r11,r6 stxvd2x v7,r11,r7 stxvd2x v8,r11,r8 stxvd2x v9,r11,r9 subi r11,r11,64 32: bf 26,16f lxvd2x v6,r4,r6 lxvd2x v7,r4,r7 subi r4,r4,32 stxvd2x v6,r11,r6 stxvd2x v7,r11,r7 subi r11,r11,32 16: bf 27,8f lxvd2x v6,r4,r6 subi r4,r4,16 stxvd2x v6,r11,r6 subi r11,r11,16 8: bf 28,4f ld r6,-8(r4) subi r4,r4,8 std r6,-8(r11) subi r11,r11,8 4: /* Copies 4~7 bytes. */ bf 29,L(tail2_bwd) lwz r6,-4(r4) stw r6,-4(r11) bf 30,L(tail5_bwd) lhz r7,-6(r4) sth r7,-6(r11) bflr 31 lbz r8,-7(r4) stb r8,-7(r11) /* Return original DST pointer. */ blr /* Handle copies of 0~31 bytes. */ .align 4 L(copy_LT_32_bwd): cmpldi cr6,r5,8 mtocrf 0x01,r5 ble cr6,L(copy_LE_8_bwd) /* At least 9 bytes to go. */ neg r8,r4 andi. r0,r8,3 cmpldi cr1,r5,16 beq L(copy_LT_32_aligned_bwd) /* Force 4-byte alignment for SRC. */ mtocrf 0x01,0 subf r5,0,r5 2: bf 30,1f lhz r6,-2(r4) subi r4,r4,2 sth r6,-2(r11) subi r11,r11,2 1: bf 31,L(end_4bytes_alignment_bwd) lbz 6,-1(r4) subi r4,r4,1 stb 6,-1(r11) subi r11,r11,1 .align 4 L(end_4bytes_alignment_bwd): cmpldi cr1,r5,16 mtocrf 0x01,r5 L(copy_LT_32_aligned_bwd): /* At least 6 bytes to go, and SRC is word-aligned. */ blt cr1,8f /* Copy 16 bytes. */ lwz r6,-4(r4) lwz r7,-8(r4) stw r6,-4(r11) lwz r8,-12(r4) stw r7,-8(r11) lwz r6,-16(r4) subi r4,r4,16 stw r8,-12(r11) stw r6,-16(r11) subi r11,r11,16 8: /* Copy 8 bytes. */ bf 28,L(tail4_bwd) lwz r6,-4(r4) lwz r7,-8(r4) subi r4,r4,8 stw r6,-4(r11) stw r7,-8(r11) subi r11,r11,8 .align 4 /* Copies 4~7 bytes. */ L(tail4_bwd): bf 29,L(tail2_bwd) lwz 6,-4(r4) stw 6,-4(r11) bf 30,L(tail5_bwd) lhz 7,-6(r4) sth 7,-6(r11) bflr 31 lbz 8,-7(r4) stb 8,-7(r11) /* Return original DST pointer. */ blr .align 4 /* Copies 2~3 bytes. */ L(tail2_bwd): bf 30,1f lhz 6,-2(r4) sth 6,-2(r11) bflr 31 lbz 7,-3(r4) stb 7,-3(r11) blr .align 4 L(tail5_bwd): bflr 31 lbz 6,-5(r4) stb 6,-5(r11) blr .align 4 1: bflr 31 lbz 6,-1(r4) stb 6,-1(r11) /* Return original DST pointer. */ blr /* Handles copies of 0~8 bytes. */ .align 4 L(copy_LE_8_bwd): bne cr6,L(tail4_bwd) /* Though we could've used ld/std here, they are still slow for unaligned cases. */ lwz 6,-8(r4) lwz 7,-4(r4) stw 6,-8(r11) stw 7,-4(r11) blr /* Handle copies of 32+ bytes where DST is aligned (to quadword) but SRC is not. Use aligned quadword loads from SRC, shifted to realign the data, allowing for aligned DST stores. */ .align 4 L(copy_GE_32_unaligned_bwd): andi. r10,r11,15 /* Check alignment of DST against 16 bytes.. */ srdi r9,r5,4 /* Number of full quadwords remaining. */ beq L(copy_GE_32_unaligned_cont_bwd) /* DST is not quadword aligned and r10 holds the address masked to compare alignments. */ mtocrf 0x01,r10 subf r5,r10,r5 /* Vector instructions work best when proper alignment (16-bytes) is present. Move 0~15 bytes as needed to get DST quadword-aligned. */ 1: bf 31,2f lbz r6,-1(r4) subi r4,r4,1 stb r6,-1(r11) subi r11,r11,1 2: bf 30,4f lhz r6,-2(r4) subi r4,r4,2 sth r6,-2(r11) subi r11,r11,2 4: bf 29,8f lwz r6,-4(r4) subi r4,r4,4 stw r6,-4(r11) subi r11,r11,4 8: bf 28,0f ld r6,-8(r4) subi r4,r4,8 std r6,-8(r11) subi r11,r11,8 0: srdi r9,r5,4 /* Number of full quadwords remaining. */ /* The proper alignment is present, it is OK to copy the bytes now. */ L(copy_GE_32_unaligned_cont_bwd): /* Setup two indexes to speed up the indexed vector operations. */ clrldi r10,r5,60 li r6,-16 /* Index for 16-bytes offsets. */ li r7,-32 /* Index for 32-bytes offsets. */ cmpldi cr1,10,0 srdi r8,r5,5 /* Setup the loop counter. */ mtocrf 0x01,9 cmpldi cr6,r9,1 #ifdef __LITTLE_ENDIAN__ lvsr v5,r0,r4 #else lvsl v5,r0,r4 #endif lvx v3,0,r4 li r0,0 bf 31,L(setup_unaligned_loop_bwd) /* Copy another 16 bytes to align to 32-bytes due to the loop. */ lvx v4,r4,r6 #ifdef __LITTLE_ENDIAN__ vperm v6,v3,v4,v5 #else vperm v6,v4,v3,v5 #endif subi r4,r4,16 stvx v6,r11,r6 subi r11,r11,16 vor v3,v4,v4 clrrdi r0,r4,60 L(setup_unaligned_loop_bwd): mtctr r8 ble cr6,L(end_unaligned_loop_bwd) /* Copy 32 bytes at a time using vector instructions. */ .align 4 L(unaligned_loop_bwd): /* Note: vr6/vr10 may contain data that was already copied, but in order to get proper alignment, we may have to copy some portions again. This is faster than having unaligned vector instructions though. */ lvx v4,r4,r6 #ifdef __LITTLE_ENDIAN__ vperm v6,v3,v4,v5 #else vperm v6,v4,v3,v5 #endif lvx v3,r4,r7 #ifdef __LITTLE_ENDIAN__ vperm v10,v4,v3,v5 #else vperm v10,v3,v4,v5 #endif subi r4,r4,32 stvx v6,r11,r6 stvx v10,r11,r7 subi r11,r11,32 bdnz L(unaligned_loop_bwd) clrrdi r0,r4,60 .align 4 L(end_unaligned_loop_bwd): /* Check for tail bytes. */ mtocrf 0x01,r5 beqlr cr1 add r4,r4,0 /* We have 1~15 tail bytes to copy, and DST is quadword aligned. */ /* Copy 8 bytes. */ bf 28,4f lwz r6,-4(r4) lwz r7,-8(r4) subi r4,r4,8 stw r6,-4(r11) stw r7,-8(r11) subi r11,r11,8 4: /* Copy 4~7 bytes. */ bf 29,L(tail2_bwd) lwz r6,-4(r4) stw r6,-4(r11) bf 30,L(tail5_bwd) lhz r7,-6(r4) sth r7,-6(r11) bflr 31 lbz r8,-7(r4) stb r8,-7(r11) /* Return original DST pointer. */ blr END_GEN_TB (memmove, TB_TOCLESS) libc_hidden_builtin_def (memmove) /* void bcopy(const void *src [r3], void *dest [r4], size_t n [r5]) Implemented in this file to avoid linker create a stub function call in the branch to '_memmove'. */ ENTRY (bcopy) mr r6,r3 mr r3,r4 mr r4,r6 b L(_memmove) END (bcopy)