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/* strcpy/stpcpy - copy a string returning pointer to start/end.
   Copyright (C) 2013-2019 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
   <https://www.gnu.org/licenses/>.  */

/* To build as stpcpy, define BUILD_STPCPY before compiling this file.

   To test the page crossing code path more thoroughly, compile with
   -DSTRCPY_TEST_PAGE_CROSS - this will force all unaligned copies through
   the slower entry path.  This option is not intended for production use.  */

#include <sysdep.h>

/* Assumptions:
 *
 * ARMv8-a, AArch64, unaligned accesses, min page size 4k.
 */

/* Arguments and results.  */
#define dstin		x0
#define srcin		x1

/* Locals and temporaries.  */
#define src		x2
#define dst		x3
#define data1		x4
#define data1w		w4
#define data2		x5
#define data2w		w5
#define has_nul1	x6
#define has_nul2	x7
#define tmp1		x8
#define tmp2		x9
#define tmp3		x10
#define tmp4		x11
#define zeroones	x12
#define data1a		x13
#define data2a		x14
#define pos		x15
#define len		x16
#define to_align	x17

/* NEON register */
#define dataq		q2
#define datav		v2
#define datab2		b3
#define datav2		v3

#ifdef BUILD_STPCPY
#define STRCPY __stpcpy
#else
#define STRCPY strcpy
#endif

	/* NUL detection works on the principle that (X - 1) & (~X) & 0x80
	   (=> (X - 1) & ~(X | 0x7f)) is non-zero iff a byte is zero, and
	   can be done in parallel across the entire word.  */

#define REP8_01 0x0101010101010101
#define REP8_7f 0x7f7f7f7f7f7f7f7f
#define REP8_80 0x8080808080808080

	/* AArch64 systems have a minimum page size of 4k.  We can do a quick
	   page size check for crossing this boundary on entry and if we
	   do not, then we can short-circuit much of the entry code.  We
	   expect early page-crossing strings to be rare (probability of
	   16/MIN_PAGE_SIZE ~= 0.4%), so the branch should be quite
	   predictable, even with random strings.

	   We don't bother checking for larger page sizes, the cost of setting
	   up the correct page size is just not worth the extra gain from
	   a small reduction in the cases taking the slow path.  Note that
	   we only care about whether the first fetch, which may be
	   misaligned, crosses a page boundary - after that we move to aligned
	   fetches for the remainder of the string.  */

#ifdef STRCPY_TEST_PAGE_CROSS
	/* Make everything that isn't Qword aligned look like a page cross.  */
#define MIN_PAGE_P2 4
#else
#define MIN_PAGE_P2 12
#endif

#define MIN_PAGE_SIZE (1 << MIN_PAGE_P2)

ENTRY_ALIGN (STRCPY, 6)
	DELOUSE (0)
	DELOUSE (1)
	/* For moderately short strings, the fastest way to do the copy is to
	   calculate the length of the string in the same way as strlen, then
	   essentially do a memcpy of the result.  This avoids the need for
	   multiple byte copies and further means that by the time we
	   reach the bulk copy loop we know we can always use DWord
	   accesses.  We expect strcpy to rarely be called repeatedly
	   with the same source string, so branch prediction is likely to
	   always be difficult - we mitigate against this by preferring
	   conditional select operations over branches whenever this is
	   feasible.  */
	and	tmp2, srcin, #(MIN_PAGE_SIZE - 1)
	mov	zeroones, #REP8_01
	and	to_align, srcin, #15
	cmp	tmp2, #(MIN_PAGE_SIZE - 16)
	neg	tmp1, to_align
	/* The first fetch will straddle a (possible) page boundary iff
	   srcin + 15 causes bit[MIN_PAGE_P2] to change value.  A 16-byte
	   aligned string will never fail the page align check, so will
	   always take the fast path.  */
	b.gt	L(page_cross)

L(page_cross_ok):
	ldp	data1, data2, [srcin]
#ifdef __AARCH64EB__
	/* Because we expect the end to be found within 16 characters
	   (profiling shows this is the most common case), it's worth
	   swapping the bytes now to save having to recalculate the
	   termination syndrome later.  We preserve data1 and data2
	   so that we can re-use the values later on.  */
	rev	tmp2, data1
	sub	tmp1, tmp2, zeroones
	orr	tmp2, tmp2, #REP8_7f
	bics	has_nul1, tmp1, tmp2
	b.ne	L(fp_le8)
	rev	tmp4, data2
	sub	tmp3, tmp4, zeroones
	orr	tmp4, tmp4, #REP8_7f
#else
	sub	tmp1, data1, zeroones
	orr	tmp2, data1, #REP8_7f
	bics	has_nul1, tmp1, tmp2
	b.ne	L(fp_le8)
	sub	tmp3, data2, zeroones
	orr	tmp4, data2, #REP8_7f
#endif
	bics	has_nul2, tmp3, tmp4
	b.eq	L(bulk_entry)

	/* The string is short (<=16 bytes).  We don't know exactly how
	   short though, yet.  Work out the exact length so that we can
	   quickly select the optimal copy strategy.  */
L(fp_gt8):
	rev	has_nul2, has_nul2
	clz	pos, has_nul2
	mov	tmp2, #56
	add	dst, dstin, pos, lsr #3		/* Bits to bytes.  */
	sub	pos, tmp2, pos
#ifdef __AARCH64EB__
	lsr	data2, data2, pos
#else
	lsl	data2, data2, pos
#endif
	str	data2, [dst, #1]
	str	data1, [dstin]
#ifdef BUILD_STPCPY
	add	dstin, dst, #8
#endif
	ret

L(fp_le8):
	rev	has_nul1, has_nul1
	clz	pos, has_nul1
	add	dst, dstin, pos, lsr #3		/* Bits to bytes.  */
	subs	tmp2, pos, #24			/* Pos in bits. */
	b.lt	L(fp_lt4)
#ifdef __AARCH64EB__
	mov	tmp2, #56
	sub	pos, tmp2, pos
	lsr	data2, data1, pos
	lsr	data1, data1, #32
#else
	lsr	data2, data1, tmp2
#endif
	/* 4->7 bytes to copy.  */
	str	data2w, [dst, #-3]
	str	data1w, [dstin]
#ifdef BUILD_STPCPY
	mov	dstin, dst
#endif
	ret
L(fp_lt4):
	cbz	pos, L(fp_lt2)
	/* 2->3 bytes to copy.  */
#ifdef __AARCH64EB__
	lsr	data1, data1, #48
#endif
	strh	data1w, [dstin]
	/* Fall-through, one byte (max) to go.  */
L(fp_lt2):
	/* Null-terminated string.  Last character must be zero!  */
	strb	wzr, [dst]
#ifdef BUILD_STPCPY
	mov	dstin, dst
#endif
	ret

	/* Aligning here ensures that the entry code and main loop all lies
	   within one 64-byte cache line.  */
L(bulk_entry):
	sub	to_align, to_align, #16
	stp	data1, data2, [dstin]
	sub	src, srcin, to_align
	sub	dst, dstin, to_align
	b	L(entry_no_page_cross)

	/* The inner loop deals with two Dwords at a time.  This has a
	   slightly higher start-up cost, but we should win quite quickly,
	   especially on cores with a high number of issue slots per
	   cycle, as we get much better parallelism out of the operations.  */
L(main_loop):
	str	dataq, [dst], #16
L(entry_no_page_cross):
	ldr	dataq, [src], #16
	uminv	datab2, datav.16b
	mov	tmp3, datav2.d[0]
	cbnz	tmp3, L(main_loop)

	/* Since we know we are copying at least 16 bytes, the fastest way
	   to deal with the tail is to determine the location of the
	   trailing NUL, then (re)copy the 16 bytes leading up to that.  */
#ifdef __AARCH64EB__
	rev64	datav.16b, datav.16b
#endif
	/* calculate the loc value */
	cmeq	datav.16b, datav.16b, #0
	mov	data1, datav.d[0]
	mov	data2, datav.d[1]
	cmp	data1, 0
	csel	data1, data1, data2, ne
	mov	pos, 8
	rev	data1, data1
	clz	tmp1, data1
	csel	pos, xzr, pos, ne
	add	pos, pos, tmp1, lsr 3
	add	src, src, pos
	add	dst, dst, pos
	ldr	dataq,[src, #-31]
	str	dataq,[dst, #-15]
#ifdef BUILD_STPCPY
	mov	dstin, dst
#endif
	ret

L(page_cross):
	bic	src, srcin, #15
	/* Start by loading two words at [srcin & ~15], then forcing the
	   bytes that precede srcin to 0xff.  This means they never look
	   like termination bytes.  */
	ldp	data1, data2, [src]
	lsl	tmp1, tmp1, #3	/* Bytes beyond alignment -> bits.  */
	tst	to_align, #7
	csetm	tmp2, ne
#ifdef __AARCH64EB__
	lsl	tmp2, tmp2, tmp1	/* Shift (tmp1 & 63).  */
#else
	lsr	tmp2, tmp2, tmp1	/* Shift (tmp1 & 63).  */
#endif
	orr	data1, data1, tmp2
	orr	data2a, data2, tmp2
	cmp	to_align, #8
	csinv	data1, data1, xzr, lt
	csel	data2, data2, data2a, lt
	sub	tmp1, data1, zeroones
	orr	tmp2, data1, #REP8_7f
	sub	tmp3, data2, zeroones
	orr	tmp4, data2, #REP8_7f
	bic	has_nul1, tmp1, tmp2
	bics	has_nul2, tmp3, tmp4
	ccmp	has_nul1, #0, #0, eq	/* NZCV = 0000  */
	b.eq	L(page_cross_ok)
	/* We now need to make data1 and data2 look like they've been
	   loaded directly from srcin.  Do a rotate on the 128-bit value.  */
	lsl	tmp1, to_align, #3	/* Bytes->bits.  */
	neg	tmp2, to_align, lsl #3
#ifdef __AARCH64EB__
	lsl	data1a, data1, tmp1
	lsr	tmp4, data2, tmp2
	lsl	data2, data2, tmp1
	orr	tmp4, tmp4, data1a
	cmp	to_align, #8
	csel	data1, tmp4, data2, lt
	rev	tmp2, data1
	rev	tmp4, data2
	sub	tmp1, tmp2, zeroones
	orr	tmp2, tmp2, #REP8_7f
	sub	tmp3, tmp4, zeroones
	orr	tmp4, tmp4, #REP8_7f
#else
	lsr	data1a, data1, tmp1
	lsl	tmp4, data2, tmp2
	lsr	data2, data2, tmp1
	orr	tmp4, tmp4, data1a
	cmp	to_align, #8
	csel	data1, tmp4, data2, lt
	sub	tmp1, data1, zeroones
	orr	tmp2, data1, #REP8_7f
	sub	tmp3, data2, zeroones
	orr	tmp4, data2, #REP8_7f
#endif
	bic	has_nul1, tmp1, tmp2
	cbnz	has_nul1, L(fp_le8)
	bic	has_nul2, tmp3, tmp4
	b	L(fp_gt8)
END (STRCPY)

#ifdef BUILD_STPCPY
weak_alias (__stpcpy, stpcpy)
libc_hidden_def (__stpcpy)
libc_hidden_builtin_def (stpcpy)
#else
libc_hidden_builtin_def (strcpy)
#endif