@@ -2,6 +2,7 @@ ifeq ($(subdir),string)
sysdep_routines += memcpy_generic memcpy_advsimd memcpy_thunderx memcpy_thunderx2 \
memcpy_falkor memcpy_a64fx \
memset_generic memset_falkor memset_emag memset_kunpeng \
+ memset_a64fx \
memchr_generic memchr_nosimd \
strlen_mte strlen_asimd
endif
@@ -37,7 +37,7 @@ __libc_ifunc_impl_list (const char *name, struct libc_ifunc_impl *array,
INIT_ARCH ();
- /* Support sysdeps/aarch64/multiarch/memcpy.c and memmove.c. */
+ /* Support sysdeps/aarch64/multiarch/memcpy.c, memmove.c and memset.c. */
IFUNC_IMPL (i, name, memcpy,
IFUNC_IMPL_ADD (array, i, memcpy, 1, __memcpy_thunderx)
IFUNC_IMPL_ADD (array, i, memcpy, !bti, __memcpy_thunderx2)
@@ -62,6 +62,9 @@ __libc_ifunc_impl_list (const char *name, struct libc_ifunc_impl *array,
IFUNC_IMPL_ADD (array, i, memset, (zva_size == 64), __memset_falkor)
IFUNC_IMPL_ADD (array, i, memset, (zva_size == 64), __memset_emag)
IFUNC_IMPL_ADD (array, i, memset, 1, __memset_kunpeng)
+#if HAVE_AARCH64_SVE_ASM
+ IFUNC_IMPL_ADD (array, i, memset, sve, __memset_a64fx)
+#endif
IFUNC_IMPL_ADD (array, i, memset, 1, __memset_generic))
IFUNC_IMPL (i, name, memchr,
IFUNC_IMPL_ADD (array, i, memchr, !mte, __memchr_nosimd)
@@ -31,16 +31,25 @@ extern __typeof (__redirect_memset) __libc_memset;
extern __typeof (__redirect_memset) __memset_falkor attribute_hidden;
extern __typeof (__redirect_memset) __memset_emag attribute_hidden;
extern __typeof (__redirect_memset) __memset_kunpeng attribute_hidden;
+# if HAVE_AARCH64_SVE_ASM
+extern __typeof (__redirect_memset) __memset_a64fx attribute_hidden;
+# endif
extern __typeof (__redirect_memset) __memset_generic attribute_hidden;
libc_ifunc (__libc_memset,
IS_KUNPENG920 (midr)
?__memset_kunpeng
: ((IS_FALKOR (midr) || IS_PHECDA (midr)) && zva_size == 64
- ? __memset_falkor
- : (IS_EMAG (midr) && zva_size == 64
- ? __memset_emag
- : __memset_generic)));
+ ? __memset_falkor
+ : (IS_EMAG (midr) && zva_size == 64
+ ? __memset_emag
+# if HAVE_AARCH64_SVE_ASM
+ : (IS_A64FX (midr)
+ ? __memset_a64fx
+ : __memset_generic))));
+# else
+ : __memset_generic)));
+# endif
# undef memset
strong_alias (__libc_memset, memset);
new file mode 100644
@@ -0,0 +1,268 @@
+/* Optimized memset for Fujitsu A64FX processor.
+ Copyright (C) 2021 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/>. */
+
+#include <sysdep.h>
+#include <sysdeps/aarch64/memset-reg.h>
+
+/* Assumptions:
+ *
+ * ARMv8.2-a, AArch64, unaligned accesses, sve
+ *
+ */
+
+#define L1_SIZE (64*1024) // L1 64KB
+#define L2_SIZE (8*1024*1024) // L2 8MB - 1MB
+#define CACHE_LINE_SIZE 256
+#define PF_DIST_L1 (CACHE_LINE_SIZE * 16) // Prefetch distance L1
+#define ZF_DIST (CACHE_LINE_SIZE * 21) // Zerofill distance
+#define rest x8
+#define vector_length x9
+#define vl_remainder x10 // vector_length remainder
+#define cl_remainder x11 // CACHE_LINE_SIZE remainder
+
+#if HAVE_AARCH64_SVE_ASM
+# if IS_IN (libc)
+# define MEMSET __memset_a64fx
+
+ .arch armv8.2-a+sve
+
+ .macro dc_zva times
+ dc zva, tmp1
+ add tmp1, tmp1, CACHE_LINE_SIZE
+ .if \times-1
+ dc_zva "(\times-1)"
+ .endif
+ .endm
+
+ .macro st1b_unroll first=0, last=7
+ st1b z0.b, p0, [dst, #\first, mul vl]
+ .if \last-\first
+ st1b_unroll "(\first+1)", \last
+ .endif
+ .endm
+
+ .macro shortcut_for_small_size exit
+ // if rest <= vector_length * 2
+ whilelo p0.b, xzr, count
+ whilelo p1.b, vector_length, count
+ b.last 1f
+ st1b z0.b, p0, [dstin, #0, mul vl]
+ st1b z0.b, p1, [dstin, #1, mul vl]
+ ret
+1: // if rest > vector_length * 8
+ cmp count, vector_length, lsl 3 // vector_length * 8
+ b.hi \exit
+ // if rest <= vector_length * 4
+ lsl tmp1, vector_length, 1 // vector_length * 2
+ whilelo p2.b, tmp1, count
+ incb tmp1
+ whilelo p3.b, tmp1, count
+ b.last 1f
+ st1b z0.b, p0, [dstin, #0, mul vl]
+ st1b z0.b, p1, [dstin, #1, mul vl]
+ st1b z0.b, p2, [dstin, #2, mul vl]
+ st1b z0.b, p3, [dstin, #3, mul vl]
+ ret
+1: // if rest <= vector_length * 8
+ lsl tmp1, vector_length, 2 // vector_length * 4
+ whilelo p4.b, tmp1, count
+ incb tmp1
+ whilelo p5.b, tmp1, count
+ b.last 1f
+ st1b z0.b, p0, [dstin, #0, mul vl]
+ st1b z0.b, p1, [dstin, #1, mul vl]
+ st1b z0.b, p2, [dstin, #2, mul vl]
+ st1b z0.b, p3, [dstin, #3, mul vl]
+ st1b z0.b, p4, [dstin, #4, mul vl]
+ st1b z0.b, p5, [dstin, #5, mul vl]
+ ret
+1: lsl tmp1, vector_length, 2 // vector_length * 4
+ incb tmp1 // vector_length * 5
+ incb tmp1 // vector_length * 6
+ whilelo p6.b, tmp1, count
+ incb tmp1
+ whilelo p7.b, tmp1, count
+ st1b z0.b, p0, [dstin, #0, mul vl]
+ st1b z0.b, p1, [dstin, #1, mul vl]
+ st1b z0.b, p2, [dstin, #2, mul vl]
+ st1b z0.b, p3, [dstin, #3, mul vl]
+ st1b z0.b, p4, [dstin, #4, mul vl]
+ st1b z0.b, p5, [dstin, #5, mul vl]
+ st1b z0.b, p6, [dstin, #6, mul vl]
+ st1b z0.b, p7, [dstin, #7, mul vl]
+ ret
+ .endm
+
+ENTRY (MEMSET)
+
+ PTR_ARG (0)
+ SIZE_ARG (2)
+
+ cbnz count, 1f
+ ret
+1: dup z0.b, valw
+ cntb vector_length
+ // shortcut for less than vector_length * 8
+ // gives a free ptrue to p0.b for n >= vector_length
+ shortcut_for_small_size L(vl_agnostic)
+ // end of shortcut
+
+L(vl_agnostic): // VL Agnostic
+ mov rest, count
+ mov dst, dstin
+ add dstend, dstin, count
+ // if rest >= L2_SIZE && vector_length == 64 then L(L2)
+ mov tmp1, 64
+ cmp rest, L2_SIZE
+ ccmp vector_length, tmp1, 0, cs
+ b.eq L(L2)
+ // if rest >= L1_SIZE && vector_length == 64 then L(L1_prefetch)
+ cmp rest, L1_SIZE
+ ccmp vector_length, tmp1, 0, cs
+ b.eq L(L1_prefetch)
+
+L(unroll32):
+ lsl tmp1, vector_length, 3 // vector_length * 8
+ lsl tmp2, vector_length, 5 // vector_length * 32
+ .p2align 3
+1: cmp rest, tmp2
+ b.cc L(unroll8)
+ st1b_unroll
+ add dst, dst, tmp1
+ st1b_unroll
+ add dst, dst, tmp1
+ st1b_unroll
+ add dst, dst, tmp1
+ st1b_unroll
+ add dst, dst, tmp1
+ sub rest, rest, tmp2
+ b 1b
+
+L(unroll8):
+ lsl tmp1, vector_length, 3
+ .p2align 3
+1: cmp rest, tmp1
+ b.cc L(last)
+ st1b_unroll
+ add dst, dst, tmp1
+ sub rest, rest, tmp1
+ b 1b
+
+L(last):
+ whilelo p0.b, xzr, rest
+ whilelo p1.b, vector_length, rest
+ b.last 1f
+ st1b z0.b, p0, [dst, #0, mul vl]
+ st1b z0.b, p1, [dst, #1, mul vl]
+ ret
+1: lsl tmp1, vector_length, 1 // vector_length * 2
+ whilelo p2.b, tmp1, rest
+ incb tmp1
+ whilelo p3.b, tmp1, rest
+ b.last 1f
+ st1b z0.b, p0, [dst, #0, mul vl]
+ st1b z0.b, p1, [dst, #1, mul vl]
+ st1b z0.b, p2, [dst, #2, mul vl]
+ st1b z0.b, p3, [dst, #3, mul vl]
+ ret
+1: lsl tmp1, vector_length, 2 // vector_length * 4
+ whilelo p4.b, tmp1, rest
+ incb tmp1
+ whilelo p5.b, tmp1, rest
+ incb tmp1
+ whilelo p6.b, tmp1, rest
+ incb tmp1
+ whilelo p7.b, tmp1, rest
+ st1b z0.b, p0, [dst, #0, mul vl]
+ st1b z0.b, p1, [dst, #1, mul vl]
+ st1b z0.b, p2, [dst, #2, mul vl]
+ st1b z0.b, p3, [dst, #3, mul vl]
+ st1b z0.b, p4, [dst, #4, mul vl]
+ st1b z0.b, p5, [dst, #5, mul vl]
+ st1b z0.b, p6, [dst, #6, mul vl]
+ st1b z0.b, p7, [dst, #7, mul vl]
+ ret
+
+L(L1_prefetch): // if rest >= L1_SIZE
+ .p2align 3
+1: st1b_unroll 0, 3
+ prfm pstl1keep, [dst, PF_DIST_L1]
+ st1b_unroll 4, 7
+ prfm pstl1keep, [dst, PF_DIST_L1 + CACHE_LINE_SIZE]
+ add dst, dst, CACHE_LINE_SIZE * 2
+ sub rest, rest, CACHE_LINE_SIZE * 2
+ cmp rest, L1_SIZE
+ b.ge 1b
+ cbnz rest, L(unroll32)
+ ret
+
+L(L2):
+ // align dst address at vector_length byte boundary
+ sub tmp1, vector_length, 1
+ ands tmp2, dst, tmp1
+ // if vl_remainder == 0
+ b.eq 1f
+ sub vl_remainder, vector_length, tmp2
+ // process remainder until the first vector_length boundary
+ whilelt p2.b, xzr, vl_remainder
+ st1b z0.b, p2, [dst]
+ add dst, dst, vl_remainder
+ sub rest, rest, vl_remainder
+ // align dstin address at CACHE_LINE_SIZE byte boundary
+1: mov tmp1, CACHE_LINE_SIZE
+ ands tmp2, dst, CACHE_LINE_SIZE - 1
+ // if cl_remainder == 0
+ b.eq L(L2_dc_zva)
+ sub cl_remainder, tmp1, tmp2
+ // process remainder until the first CACHE_LINE_SIZE boundary
+ mov tmp1, xzr // index
+2: whilelt p2.b, tmp1, cl_remainder
+ st1b z0.b, p2, [dst, tmp1]
+ incb tmp1
+ cmp tmp1, cl_remainder
+ b.lo 2b
+ add dst, dst, cl_remainder
+ sub rest, rest, cl_remainder
+
+L(L2_dc_zva):
+ // zero fill
+ mov tmp1, dst
+ dc_zva (ZF_DIST / CACHE_LINE_SIZE) - 1
+ mov zva_len, ZF_DIST
+ add tmp1, zva_len, CACHE_LINE_SIZE * 2
+ // unroll
+ .p2align 3
+1: st1b_unroll 0, 3
+ add tmp2, dst, zva_len
+ dc zva, tmp2
+ st1b_unroll 4, 7
+ add tmp2, tmp2, CACHE_LINE_SIZE
+ dc zva, tmp2
+ add dst, dst, CACHE_LINE_SIZE * 2
+ sub rest, rest, CACHE_LINE_SIZE * 2
+ cmp rest, tmp1 // ZF_DIST + CACHE_LINE_SIZE * 2
+ b.ge 1b
+ cbnz rest, L(unroll8)
+ ret
+
+END (MEMSET)
+libc_hidden_builtin_def (MEMSET)
+
+#endif /* IS_IN (libc) */
+#endif /* HAVE_AARCH64_SVE_ASM */