mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-26 01:25:40 +07:00
86effd0dc6
This uses a new set of annoations viz. ENTRY_CFI/END_CFI to enabel cfi ops generation. Note that we didn't change the normal ENTRY/EXIT as we don't actually want unwind info in the trap/exception/interrutp handlers which use these, as unwinder then gets confused (it keeps recursing vs. stopping). Semantically these are leaf routines and unwinding should stop when it hits those routines. Before ------ 28.52% 1.19% 9929 hackbench libuClibc-1.0.17.so [.] __write_nocancel | ---__write_nocancel |--8.95%--EV_Trap | --8.25%--sys_write | |--3.93%--sock_write_iter ... |--2.62%--memset <==== [LEAF entry as no unwind info] ^^^^^^ After ----- 29.46% 1.24% 13622 hackbench libuClibc-1.0.17.so [.] __write_nocancel | ---__write_nocancel |--9.31%--EV_Trap | --8.62%--sys_write | |--4.17%--sock_write_iter ... |--6.19%--sys_write | --6.19%--sock_write_iter | unix_stream_sendmsg | |--1.62%--sock_alloc_send_pskb | |--0.89%--sock_def_readable | |--0.88%--_raw_spin_unlock_irqrestore | |--0.69%--memset | | ^^^^^^ <==== [now in proper callframe] | | | --0.52%--skb_copy_datagram_from_iter Signed-off-by: Vineet Gupta <vgupta@synopsys.com>
237 lines
5.1 KiB
ArmAsm
237 lines
5.1 KiB
ArmAsm
/*
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* Copyright (C) 2014-15 Synopsys, Inc. (www.synopsys.com)
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*/
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#include <linux/linkage.h>
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#ifdef __LITTLE_ENDIAN__
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# define SHIFT_1(RX,RY,IMM) asl RX, RY, IMM ; <<
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# define SHIFT_2(RX,RY,IMM) lsr RX, RY, IMM ; >>
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# define MERGE_1(RX,RY,IMM) asl RX, RY, IMM
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# define MERGE_2(RX,RY,IMM)
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# define EXTRACT_1(RX,RY,IMM) and RX, RY, 0xFFFF
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# define EXTRACT_2(RX,RY,IMM) lsr RX, RY, IMM
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#else
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# define SHIFT_1(RX,RY,IMM) lsr RX, RY, IMM ; >>
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# define SHIFT_2(RX,RY,IMM) asl RX, RY, IMM ; <<
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# define MERGE_1(RX,RY,IMM) asl RX, RY, IMM ; <<
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# define MERGE_2(RX,RY,IMM) asl RX, RY, IMM ; <<
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# define EXTRACT_1(RX,RY,IMM) lsr RX, RY, IMM
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# define EXTRACT_2(RX,RY,IMM) lsr RX, RY, 0x08
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#endif
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#ifdef CONFIG_ARC_HAS_LL64
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# define PREFETCH_READ(RX) prefetch [RX, 56]
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# define PREFETCH_WRITE(RX) prefetchw [RX, 64]
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# define LOADX(DST,RX) ldd.ab DST, [RX, 8]
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# define STOREX(SRC,RX) std.ab SRC, [RX, 8]
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# define ZOLSHFT 5
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# define ZOLAND 0x1F
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#else
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# define PREFETCH_READ(RX) prefetch [RX, 28]
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# define PREFETCH_WRITE(RX) prefetchw [RX, 32]
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# define LOADX(DST,RX) ld.ab DST, [RX, 4]
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# define STOREX(SRC,RX) st.ab SRC, [RX, 4]
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# define ZOLSHFT 4
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# define ZOLAND 0xF
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#endif
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ENTRY_CFI(memcpy)
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prefetch [r1] ; Prefetch the read location
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prefetchw [r0] ; Prefetch the write location
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mov.f 0, r2
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;;; if size is zero
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jz.d [blink]
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mov r3, r0 ; don;t clobber ret val
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;;; if size <= 8
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cmp r2, 8
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bls.d @.Lsmallchunk
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mov.f lp_count, r2
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and.f r4, r0, 0x03
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rsub lp_count, r4, 4
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lpnz @.Laligndestination
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;; LOOP BEGIN
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ldb.ab r5, [r1,1]
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sub r2, r2, 1
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stb.ab r5, [r3,1]
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.Laligndestination:
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;;; Check the alignment of the source
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and.f r4, r1, 0x03
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bnz.d @.Lsourceunaligned
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;;; CASE 0: Both source and destination are 32bit aligned
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;;; Convert len to Dwords, unfold x4
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lsr.f lp_count, r2, ZOLSHFT
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lpnz @.Lcopy32_64bytes
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;; LOOP START
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LOADX (r6, r1)
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PREFETCH_READ (r1)
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PREFETCH_WRITE (r3)
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LOADX (r8, r1)
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LOADX (r10, r1)
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LOADX (r4, r1)
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STOREX (r6, r3)
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STOREX (r8, r3)
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STOREX (r10, r3)
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STOREX (r4, r3)
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.Lcopy32_64bytes:
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and.f lp_count, r2, ZOLAND ;Last remaining 31 bytes
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.Lsmallchunk:
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lpnz @.Lcopyremainingbytes
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;; LOOP START
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ldb.ab r5, [r1,1]
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stb.ab r5, [r3,1]
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.Lcopyremainingbytes:
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j [blink]
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;;; END CASE 0
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.Lsourceunaligned:
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cmp r4, 2
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beq.d @.LunalignedOffby2
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sub r2, r2, 1
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bhi.d @.LunalignedOffby3
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ldb.ab r5, [r1, 1]
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;;; CASE 1: The source is unaligned, off by 1
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;; Hence I need to read 1 byte for a 16bit alignment
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;; and 2bytes to reach 32bit alignment
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ldh.ab r6, [r1, 2]
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sub r2, r2, 2
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;; Convert to words, unfold x2
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lsr.f lp_count, r2, 3
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MERGE_1 (r6, r6, 8)
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MERGE_2 (r5, r5, 24)
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or r5, r5, r6
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;; Both src and dst are aligned
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lpnz @.Lcopy8bytes_1
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;; LOOP START
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ld.ab r6, [r1, 4]
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prefetch [r1, 28] ;Prefetch the next read location
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ld.ab r8, [r1,4]
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prefetchw [r3, 32] ;Prefetch the next write location
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SHIFT_1 (r7, r6, 24)
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or r7, r7, r5
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SHIFT_2 (r5, r6, 8)
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SHIFT_1 (r9, r8, 24)
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or r9, r9, r5
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SHIFT_2 (r5, r8, 8)
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st.ab r7, [r3, 4]
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st.ab r9, [r3, 4]
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.Lcopy8bytes_1:
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;; Write back the remaining 16bits
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EXTRACT_1 (r6, r5, 16)
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sth.ab r6, [r3, 2]
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;; Write back the remaining 8bits
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EXTRACT_2 (r5, r5, 16)
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stb.ab r5, [r3, 1]
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and.f lp_count, r2, 0x07 ;Last 8bytes
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lpnz @.Lcopybytewise_1
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;; LOOP START
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ldb.ab r6, [r1,1]
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stb.ab r6, [r3,1]
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.Lcopybytewise_1:
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j [blink]
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.LunalignedOffby2:
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;;; CASE 2: The source is unaligned, off by 2
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ldh.ab r5, [r1, 2]
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sub r2, r2, 1
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;; Both src and dst are aligned
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;; Convert to words, unfold x2
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lsr.f lp_count, r2, 3
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#ifdef __BIG_ENDIAN__
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asl.nz r5, r5, 16
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#endif
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lpnz @.Lcopy8bytes_2
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;; LOOP START
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ld.ab r6, [r1, 4]
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prefetch [r1, 28] ;Prefetch the next read location
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ld.ab r8, [r1,4]
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prefetchw [r3, 32] ;Prefetch the next write location
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SHIFT_1 (r7, r6, 16)
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or r7, r7, r5
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SHIFT_2 (r5, r6, 16)
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SHIFT_1 (r9, r8, 16)
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or r9, r9, r5
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SHIFT_2 (r5, r8, 16)
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st.ab r7, [r3, 4]
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st.ab r9, [r3, 4]
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.Lcopy8bytes_2:
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#ifdef __BIG_ENDIAN__
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lsr.nz r5, r5, 16
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#endif
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sth.ab r5, [r3, 2]
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and.f lp_count, r2, 0x07 ;Last 8bytes
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lpnz @.Lcopybytewise_2
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;; LOOP START
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ldb.ab r6, [r1,1]
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stb.ab r6, [r3,1]
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.Lcopybytewise_2:
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j [blink]
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.LunalignedOffby3:
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;;; CASE 3: The source is unaligned, off by 3
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;;; Hence, I need to read 1byte for achieve the 32bit alignment
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;; Both src and dst are aligned
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;; Convert to words, unfold x2
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lsr.f lp_count, r2, 3
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#ifdef __BIG_ENDIAN__
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asl.ne r5, r5, 24
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#endif
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lpnz @.Lcopy8bytes_3
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;; LOOP START
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ld.ab r6, [r1, 4]
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prefetch [r1, 28] ;Prefetch the next read location
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ld.ab r8, [r1,4]
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prefetchw [r3, 32] ;Prefetch the next write location
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SHIFT_1 (r7, r6, 8)
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or r7, r7, r5
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SHIFT_2 (r5, r6, 24)
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SHIFT_1 (r9, r8, 8)
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or r9, r9, r5
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SHIFT_2 (r5, r8, 24)
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st.ab r7, [r3, 4]
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st.ab r9, [r3, 4]
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.Lcopy8bytes_3:
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#ifdef __BIG_ENDIAN__
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lsr.nz r5, r5, 24
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#endif
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stb.ab r5, [r3, 1]
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and.f lp_count, r2, 0x07 ;Last 8bytes
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lpnz @.Lcopybytewise_3
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;; LOOP START
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ldb.ab r6, [r1,1]
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stb.ab r6, [r3,1]
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.Lcopybytewise_3:
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j [blink]
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END_CFI(memcpy)
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