libgcrypt/SOURCES/libgcrypt-1.8.5-ppc-crc32.patch
2021-10-08 12:41:17 +00:00

795 lines
23 KiB
Diff

diff --git a/cipher/Makefile.am b/cipher/Makefile.am
index cb41c251..1728e9f9 100644
--- a/cipher/Makefile.am
+++ b/cipher/Makefile.am
@@ -67,7 +67,7 @@ cast5.c cast5-amd64.S cast5-arm.S \
chacha20.c chacha20-sse2-amd64.S chacha20-ssse3-amd64.S chacha20-avx2-amd64.S \
chacha20-armv7-neon.S \
crc.c \
- crc-intel-pclmul.c \
+ crc-intel-pclmul.c crc-ppc.c \
des.c des-amd64.S \
dsa.c \
elgamal.c \
@@ -159,3 +159,9 @@ sha512-ppc.o: $(srcdir)/sha512-ppc.c Makefile
sha512-ppc.lo: $(srcdir)/sha512-ppc.c Makefile
`echo $(LTCOMPILE) $(ppc_vcrypto_cflags) -c $< `
+
+crc-ppc.o: $(srcdir)/crc-ppc.c Makefile
+ `echo $(COMPILE) $(ppc_vcrypto_cflags) -c $< `
+
+crc-ppc.lo: $(srcdir)/crc-ppc.c Makefile
+ `echo $(LTCOMPILE) $(ppc_vcrypto_cflags) -c $< `
diff --git a/cipher/crc-ppc.c b/cipher/crc-ppc.c
new file mode 100644
index 00000000..4d7f0add
--- /dev/null
+++ b/cipher/crc-ppc.c
@@ -0,0 +1,619 @@
+/* crc-ppc.c - POWER8 vpmsum accelerated CRC implementation
+ * Copyright (C) 2019-2020 Jussi Kivilinna <jussi.kivilinna@iki.fi>
+ *
+ * This file is part of Libgcrypt.
+ *
+ * Libgcrypt 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.
+ *
+ * Libgcrypt 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 this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
+ *
+ */
+
+#include <config.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "g10lib.h"
+
+#include "bithelp.h"
+#include "bufhelp.h"
+
+
+#if defined(ENABLE_PPC_CRYPTO_SUPPORT) && \
+ defined(HAVE_COMPATIBLE_CC_PPC_ALTIVEC) && \
+ defined(HAVE_GCC_INLINE_ASM_PPC_ALTIVEC) && \
+ __GNUC__ >= 4
+
+#include <altivec.h>
+#include "bufhelp.h"
+
+
+#define ALWAYS_INLINE inline __attribute__((always_inline))
+#define NO_INLINE __attribute__((noinline))
+#define NO_INSTRUMENT_FUNCTION __attribute__((no_instrument_function))
+
+#define ASM_FUNC_ATTR NO_INSTRUMENT_FUNCTION
+#define ASM_FUNC_ATTR_INLINE ASM_FUNC_ATTR ALWAYS_INLINE
+#define ASM_FUNC_ATTR_NOINLINE ASM_FUNC_ATTR NO_INLINE
+
+#define ALIGNED_64 __attribute__ ((aligned (64)))
+
+
+typedef vector unsigned char vector16x_u8;
+typedef vector unsigned int vector4x_u32;
+typedef vector unsigned long long vector2x_u64;
+
+
+/* Constants structure for generic reflected/non-reflected CRC32 PMULL
+ * functions. */
+struct crc32_consts_s
+{
+ /* k: { x^(32*17), x^(32*15), x^(32*5), x^(32*3), x^(32*2), 0 } mod P(x) */
+ unsigned long long k[6];
+ /* my_p: { floor(x^64 / P(x)), P(x) } */
+ unsigned long long my_p[2];
+};
+
+/* PMULL constants for CRC32 and CRC32RFC1510. */
+static const struct crc32_consts_s crc32_consts ALIGNED_64 =
+{
+ { /* k[6] = reverse_33bits( x^(32*y) mod P(x) ) */
+ U64_C(0x154442bd4), U64_C(0x1c6e41596), /* y = { 17, 15 } */
+ U64_C(0x1751997d0), U64_C(0x0ccaa009e), /* y = { 5, 3 } */
+ U64_C(0x163cd6124), 0 /* y = 2 */
+ },
+ { /* my_p[2] = reverse_33bits ( { floor(x^64 / P(x)), P(x) } ) */
+ U64_C(0x1f7011641), U64_C(0x1db710641)
+ }
+};
+
+/* PMULL constants for CRC24RFC2440 (polynomial multiplied with x⁸). */
+static const struct crc32_consts_s crc24rfc2440_consts ALIGNED_64 =
+{
+ { /* k[6] = x^(32*y) mod P(x) << 32*/
+ U64_C(0x08289a00) << 32, U64_C(0x74b44a00) << 32, /* y = { 17, 15 } */
+ U64_C(0xc4b14d00) << 32, U64_C(0xfd7e0c00) << 32, /* y = { 5, 3 } */
+ U64_C(0xd9fe8c00) << 32, 0 /* y = 2 */
+ },
+ { /* my_p[2] = { floor(x^64 / P(x)), P(x) } */
+ U64_C(0x1f845fe24), U64_C(0x1864cfb00)
+ }
+};
+
+
+static ASM_FUNC_ATTR_INLINE vector2x_u64
+asm_vpmsumd(vector2x_u64 a, vector2x_u64 b)
+{
+ __asm__("vpmsumd %0, %1, %2"
+ : "=v" (a)
+ : "v" (a), "v" (b));
+ return a;
+}
+
+
+static ASM_FUNC_ATTR_INLINE vector2x_u64
+asm_swap_u64(vector2x_u64 a)
+{
+ __asm__("xxswapd %x0, %x1"
+ : "=wa" (a)
+ : "wa" (a));
+ return a;
+}
+
+
+static ASM_FUNC_ATTR_INLINE vector4x_u32
+vec_sld_u32(vector4x_u32 a, vector4x_u32 b, unsigned int idx)
+{
+ return vec_sld (a, b, (4 * idx) & 15);
+}
+
+
+static const byte crc32_partial_fold_input_mask[16 + 16] ALIGNED_64 =
+ {
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
+ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
+ };
+static const byte crc32_shuf_shift[3 * 16] ALIGNED_64 =
+ {
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x0f, 0x0e, 0x0d, 0x0c, 0x0b, 0x0a, 0x09, 0x08,
+ 0x07, 0x06, 0x05, 0x04, 0x03, 0x02, 0x01, 0x00,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ };
+static const byte crc32_refl_shuf_shift[3 * 16] ALIGNED_64 =
+ {
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
+ 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f,
+ };
+static const vector16x_u8 bswap_const ALIGNED_64 =
+ { 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 };
+
+
+#define CRC_VEC_SWAP(v) ({ vector2x_u64 __vecu64 = (v); \
+ vec_perm(__vecu64, __vecu64, bswap_const); })
+
+#ifdef WORDS_BIGENDIAN
+# define CRC_VEC_U64_DEF(lo, hi) { (hi), (lo) }
+# define CRC_VEC_U64_LOAD(offs, ptr) \
+ asm_swap_u64(vec_vsx_ld((offs), (const unsigned long long *)(ptr)))
+# define CRC_VEC_U64_LOAD_LE(offs, ptr) \
+ CRC_VEC_SWAP(vec_vsx_ld((offs), (const unsigned long long *)(ptr)))
+# define CRC_VEC_U64_LOAD_BE(offs, ptr) \
+ vec_vsx_ld((offs), (const unsigned long long *)(ptr))
+# define CRC_VEC_SWAP_TO_LE(v) CRC_VEC_SWAP(v)
+# define CRC_VEC_SWAP_TO_BE(v) (v)
+# define VEC_U64_LO 1
+# define VEC_U64_HI 0
+#else
+# define CRC_VEC_U64_DEF(lo, hi) { (lo), (hi) }
+# define CRC_VEC_U64_LOAD(offs, ptr) \
+ vec_vsx_ld((offs), (const unsigned long long *)(ptr))
+# define CRC_VEC_U64_LOAD_LE(offs, ptr) CRC_VEC_U64_LOAD((offs), (ptr))
+# define CRC_VEC_U64_LOAD_BE(offs, ptr) asm_vec_u64_load_be(offs, ptr)
+# define CRC_VEC_SWAP_TO_LE(v) (v)
+# define CRC_VEC_SWAP_TO_BE(v) CRC_VEC_SWAP(v)
+# define VEC_U64_LO 0
+# define VEC_U64_HI 1
+
+static ASM_FUNC_ATTR_INLINE vector2x_u64
+asm_vec_u64_load_be(unsigned int offset, const void *ptr)
+{
+ static const vector16x_u8 vec_load_le_const =
+ { ~7, ~6, ~5, ~4, ~3, ~2, ~1, ~0, ~15, ~14, ~13, ~12, ~11, ~10, ~9, ~8 };
+ vector2x_u64 vecu64;
+
+#if __GNUC__ >= 4
+ if (__builtin_constant_p (offset) && offset == 0)
+ __asm__ ("lxvd2x %%vs32,0,%1\n\t"
+ "vperm %0,%%v0,%%v0,%2\n\t"
+ : "=v" (vecu64)
+ : "r" ((uintptr_t)(ptr)), "v" (vec_load_le_const)
+ : "memory", "v0");
+#endif
+ else
+ __asm__ ("lxvd2x %%vs32,%1,%2\n\t"
+ "vperm %0,%%v0,%%v0,%3\n\t"
+ : "=v" (vecu64)
+ : "r" (offset), "r" ((uintptr_t)(ptr)),
+ "v" (vec_load_le_const)
+ : "memory", "r0", "v0");
+
+ return vecu64;
+}
+#endif
+
+
+static ASM_FUNC_ATTR_INLINE void
+crc32r_ppc8_ce_bulk (u32 *pcrc, const byte *inbuf, size_t inlen,
+ const struct crc32_consts_s *consts)
+{
+ vector4x_u32 zero = { 0, 0, 0, 0 };
+ vector2x_u64 low_64bit_mask = CRC_VEC_U64_DEF((u64)-1, 0);
+ vector2x_u64 low_32bit_mask = CRC_VEC_U64_DEF((u32)-1, 0);
+ vector2x_u64 my_p = CRC_VEC_U64_LOAD(0, &consts->my_p[0]);
+ vector2x_u64 k1k2 = CRC_VEC_U64_LOAD(0, &consts->k[1 - 1]);
+ vector2x_u64 k3k4 = CRC_VEC_U64_LOAD(0, &consts->k[3 - 1]);
+ vector2x_u64 k4lo = CRC_VEC_U64_DEF(k3k4[VEC_U64_HI], 0);
+ vector2x_u64 k5lo = CRC_VEC_U64_LOAD(0, &consts->k[5 - 1]);
+ vector2x_u64 crc = CRC_VEC_U64_DEF(*pcrc, 0);
+ vector2x_u64 crc0, crc1, crc2, crc3;
+ vector2x_u64 v0;
+
+ if (inlen >= 8 * 16)
+ {
+ crc0 = CRC_VEC_U64_LOAD_LE(0 * 16, inbuf);
+ crc0 ^= crc;
+ crc1 = CRC_VEC_U64_LOAD_LE(1 * 16, inbuf);
+ crc2 = CRC_VEC_U64_LOAD_LE(2 * 16, inbuf);
+ crc3 = CRC_VEC_U64_LOAD_LE(3 * 16, inbuf);
+
+ inbuf += 4 * 16;
+ inlen -= 4 * 16;
+
+ /* Fold by 4. */
+ while (inlen >= 4 * 16)
+ {
+ v0 = CRC_VEC_U64_LOAD_LE(0 * 16, inbuf);
+ crc0 = asm_vpmsumd(crc0, k1k2) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_LE(1 * 16, inbuf);
+ crc1 = asm_vpmsumd(crc1, k1k2) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_LE(2 * 16, inbuf);
+ crc2 = asm_vpmsumd(crc2, k1k2) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_LE(3 * 16, inbuf);
+ crc3 = asm_vpmsumd(crc3, k1k2) ^ v0;
+
+ inbuf += 4 * 16;
+ inlen -= 4 * 16;
+ }
+
+ /* Fold 4 to 1. */
+ crc1 ^= asm_vpmsumd(crc0, k3k4);
+ crc2 ^= asm_vpmsumd(crc1, k3k4);
+ crc3 ^= asm_vpmsumd(crc2, k3k4);
+ crc = crc3;
+ }
+ else
+ {
+ v0 = CRC_VEC_U64_LOAD_LE(0, inbuf);
+ crc ^= v0;
+
+ inbuf += 16;
+ inlen -= 16;
+ }
+
+ /* Fold by 1. */
+ while (inlen >= 16)
+ {
+ v0 = CRC_VEC_U64_LOAD_LE(0, inbuf);
+ crc = asm_vpmsumd(k3k4, crc);
+ crc ^= v0;
+
+ inbuf += 16;
+ inlen -= 16;
+ }
+
+ /* Partial fold. */
+ if (inlen)
+ {
+ /* Load last input and add padding zeros. */
+ vector2x_u64 mask = CRC_VEC_U64_LOAD_LE(inlen, crc32_partial_fold_input_mask);
+ vector2x_u64 shl_shuf = CRC_VEC_U64_LOAD_LE(inlen, crc32_refl_shuf_shift);
+ vector2x_u64 shr_shuf = CRC_VEC_U64_LOAD_LE(inlen + 16, crc32_refl_shuf_shift);
+
+ v0 = CRC_VEC_U64_LOAD_LE(inlen - 16, inbuf);
+ v0 &= mask;
+
+ crc = CRC_VEC_SWAP_TO_LE(crc);
+ v0 |= (vector2x_u64)vec_perm((vector16x_u8)crc, (vector16x_u8)zero,
+ (vector16x_u8)shr_shuf);
+ crc = (vector2x_u64)vec_perm((vector16x_u8)crc, (vector16x_u8)zero,
+ (vector16x_u8)shl_shuf);
+ crc = asm_vpmsumd(k3k4, crc);
+ crc ^= v0;
+
+ inbuf += inlen;
+ inlen -= inlen;
+ }
+
+ /* Final fold. */
+
+ /* reduce 128-bits to 96-bits */
+ v0 = asm_swap_u64(crc);
+ v0 &= low_64bit_mask;
+ crc = asm_vpmsumd(k4lo, crc);
+ crc ^= v0;
+
+ /* reduce 96-bits to 64-bits */
+ v0 = (vector2x_u64)vec_sld_u32((vector4x_u32)crc,
+ (vector4x_u32)crc, 3); /* [x0][x3][x2][x1] */
+ v0 &= low_64bit_mask; /* [00][00][x2][x1] */
+ crc = crc & low_32bit_mask; /* [00][00][00][x0] */
+ crc = v0 ^ asm_vpmsumd(k5lo, crc); /* [00][00][xx][xx] */
+
+ /* barrett reduction */
+ v0 = crc << 32; /* [00][00][x0][00] */
+ v0 = asm_vpmsumd(my_p, v0);
+ v0 = asm_swap_u64(v0);
+ v0 = asm_vpmsumd(my_p, v0);
+ crc = (vector2x_u64)vec_sld_u32((vector4x_u32)crc,
+ zero, 1); /* [00][x1][x0][00] */
+ crc ^= v0;
+
+ *pcrc = (u32)crc[VEC_U64_HI];
+}
+
+
+static ASM_FUNC_ATTR_INLINE u32
+crc32r_ppc8_ce_reduction_4 (u32 data, u32 crc,
+ const struct crc32_consts_s *consts)
+{
+ vector4x_u32 zero = { 0, 0, 0, 0 };
+ vector2x_u64 my_p = CRC_VEC_U64_LOAD(0, &consts->my_p[0]);
+ vector2x_u64 v0 = CRC_VEC_U64_DEF((u64)data, 0);
+ v0 = asm_vpmsumd(v0, my_p); /* [00][00][xx][xx] */
+ v0 = (vector2x_u64)vec_sld_u32((vector4x_u32)v0,
+ zero, 3); /* [x0][00][00][00] */
+ v0 = (vector2x_u64)vec_sld_u32((vector4x_u32)v0,
+ (vector4x_u32)v0, 3); /* [00][x0][00][00] */
+ v0 = asm_vpmsumd(v0, my_p); /* [00][00][xx][xx] */
+ return (v0[VEC_U64_LO] >> 32) ^ crc;
+}
+
+
+static ASM_FUNC_ATTR_INLINE void
+crc32r_less_than_16 (u32 *pcrc, const byte *inbuf, size_t inlen,
+ const struct crc32_consts_s *consts)
+{
+ u32 crc = *pcrc;
+ u32 data;
+
+ while (inlen >= 4)
+ {
+ data = buf_get_le32(inbuf);
+ data ^= crc;
+
+ inlen -= 4;
+ inbuf += 4;
+
+ crc = crc32r_ppc8_ce_reduction_4 (data, 0, consts);
+ }
+
+ switch (inlen)
+ {
+ case 0:
+ break;
+ case 1:
+ data = inbuf[0];
+ data ^= crc;
+ data <<= 24;
+ crc >>= 8;
+ crc = crc32r_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ case 2:
+ data = inbuf[0] << 0;
+ data |= inbuf[1] << 8;
+ data ^= crc;
+ data <<= 16;
+ crc >>= 16;
+ crc = crc32r_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ case 3:
+ data = inbuf[0] << 0;
+ data |= inbuf[1] << 8;
+ data |= inbuf[2] << 16;
+ data ^= crc;
+ data <<= 8;
+ crc >>= 24;
+ crc = crc32r_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ }
+
+ *pcrc = crc;
+}
+
+
+static ASM_FUNC_ATTR_INLINE void
+crc32_ppc8_ce_bulk (u32 *pcrc, const byte *inbuf, size_t inlen,
+ const struct crc32_consts_s *consts)
+{
+ vector4x_u32 zero = { 0, 0, 0, 0 };
+ vector2x_u64 low_96bit_mask = CRC_VEC_U64_DEF(~0, ~((u64)(u32)-1 << 32));
+ vector2x_u64 p_my = asm_swap_u64(CRC_VEC_U64_LOAD(0, &consts->my_p[0]));
+ vector2x_u64 p_my_lo, p_my_hi;
+ vector2x_u64 k2k1 = asm_swap_u64(CRC_VEC_U64_LOAD(0, &consts->k[1 - 1]));
+ vector2x_u64 k4k3 = asm_swap_u64(CRC_VEC_U64_LOAD(0, &consts->k[3 - 1]));
+ vector2x_u64 k4hi = CRC_VEC_U64_DEF(0, consts->k[4 - 1]);
+ vector2x_u64 k5hi = CRC_VEC_U64_DEF(0, consts->k[5 - 1]);
+ vector2x_u64 crc = CRC_VEC_U64_DEF(0, _gcry_bswap64(*pcrc));
+ vector2x_u64 crc0, crc1, crc2, crc3;
+ vector2x_u64 v0;
+
+ if (inlen >= 8 * 16)
+ {
+ crc0 = CRC_VEC_U64_LOAD_BE(0 * 16, inbuf);
+ crc0 ^= crc;
+ crc1 = CRC_VEC_U64_LOAD_BE(1 * 16, inbuf);
+ crc2 = CRC_VEC_U64_LOAD_BE(2 * 16, inbuf);
+ crc3 = CRC_VEC_U64_LOAD_BE(3 * 16, inbuf);
+
+ inbuf += 4 * 16;
+ inlen -= 4 * 16;
+
+ /* Fold by 4. */
+ while (inlen >= 4 * 16)
+ {
+ v0 = CRC_VEC_U64_LOAD_BE(0 * 16, inbuf);
+ crc0 = asm_vpmsumd(crc0, k2k1) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_BE(1 * 16, inbuf);
+ crc1 = asm_vpmsumd(crc1, k2k1) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_BE(2 * 16, inbuf);
+ crc2 = asm_vpmsumd(crc2, k2k1) ^ v0;
+
+ v0 = CRC_VEC_U64_LOAD_BE(3 * 16, inbuf);
+ crc3 = asm_vpmsumd(crc3, k2k1) ^ v0;
+
+ inbuf += 4 * 16;
+ inlen -= 4 * 16;
+ }
+
+ /* Fold 4 to 1. */
+ crc1 ^= asm_vpmsumd(crc0, k4k3);
+ crc2 ^= asm_vpmsumd(crc1, k4k3);
+ crc3 ^= asm_vpmsumd(crc2, k4k3);
+ crc = crc3;
+ }
+ else
+ {
+ v0 = CRC_VEC_U64_LOAD_BE(0, inbuf);
+ crc ^= v0;
+
+ inbuf += 16;
+ inlen -= 16;
+ }
+
+ /* Fold by 1. */
+ while (inlen >= 16)
+ {
+ v0 = CRC_VEC_U64_LOAD_BE(0, inbuf);
+ crc = asm_vpmsumd(k4k3, crc);
+ crc ^= v0;
+
+ inbuf += 16;
+ inlen -= 16;
+ }
+
+ /* Partial fold. */
+ if (inlen)
+ {
+ /* Load last input and add padding zeros. */
+ vector2x_u64 mask = CRC_VEC_U64_LOAD_LE(inlen, crc32_partial_fold_input_mask);
+ vector2x_u64 shl_shuf = CRC_VEC_U64_LOAD_LE(32 - inlen, crc32_refl_shuf_shift);
+ vector2x_u64 shr_shuf = CRC_VEC_U64_LOAD_LE(inlen + 16, crc32_shuf_shift);
+
+ v0 = CRC_VEC_U64_LOAD_LE(inlen - 16, inbuf);
+ v0 &= mask;
+
+ crc = CRC_VEC_SWAP_TO_LE(crc);
+ crc2 = (vector2x_u64)vec_perm((vector16x_u8)crc, (vector16x_u8)zero,
+ (vector16x_u8)shr_shuf);
+ v0 |= crc2;
+ v0 = CRC_VEC_SWAP(v0);
+ crc = (vector2x_u64)vec_perm((vector16x_u8)crc, (vector16x_u8)zero,
+ (vector16x_u8)shl_shuf);
+ crc = asm_vpmsumd(k4k3, crc);
+ crc ^= v0;
+
+ inbuf += inlen;
+ inlen -= inlen;
+ }
+
+ /* Final fold. */
+
+ /* reduce 128-bits to 96-bits */
+ v0 = (vector2x_u64)vec_sld_u32((vector4x_u32)crc,
+ (vector4x_u32)zero, 2);
+ crc = asm_vpmsumd(k4hi, crc);
+ crc ^= v0; /* bottom 32-bit are zero */
+
+ /* reduce 96-bits to 64-bits */
+ v0 = crc & low_96bit_mask; /* [00][x2][x1][00] */
+ crc >>= 32; /* [00][x3][00][x0] */
+ crc = asm_vpmsumd(k5hi, crc); /* [00][xx][xx][00] */
+ crc ^= v0; /* top and bottom 32-bit are zero */
+
+ /* barrett reduction */
+ p_my_hi = p_my;
+ p_my_lo = p_my;
+ p_my_hi[VEC_U64_LO] = 0;
+ p_my_lo[VEC_U64_HI] = 0;
+ v0 = crc >> 32; /* [00][00][00][x1] */
+ crc = asm_vpmsumd(p_my_hi, crc); /* [00][xx][xx][xx] */
+ crc = (vector2x_u64)vec_sld_u32((vector4x_u32)crc,
+ (vector4x_u32)crc, 3); /* [x0][00][x2][x1] */
+ crc = asm_vpmsumd(p_my_lo, crc); /* [00][xx][xx][xx] */
+ crc ^= v0;
+
+ *pcrc = _gcry_bswap32(crc[VEC_U64_LO]);
+}
+
+
+static ASM_FUNC_ATTR_INLINE u32
+crc32_ppc8_ce_reduction_4 (u32 data, u32 crc,
+ const struct crc32_consts_s *consts)
+{
+ vector2x_u64 my_p = CRC_VEC_U64_LOAD(0, &consts->my_p[0]);
+ vector2x_u64 v0 = CRC_VEC_U64_DEF((u64)data << 32, 0);
+ v0 = asm_vpmsumd(v0, my_p); /* [00][x1][x0][00] */
+ v0[VEC_U64_LO] = 0; /* [00][x1][00][00] */
+ v0 = asm_vpmsumd(v0, my_p); /* [00][00][xx][xx] */
+ return _gcry_bswap32(v0[VEC_U64_LO]) ^ crc;
+}
+
+
+static ASM_FUNC_ATTR_INLINE void
+crc32_less_than_16 (u32 *pcrc, const byte *inbuf, size_t inlen,
+ const struct crc32_consts_s *consts)
+{
+ u32 crc = *pcrc;
+ u32 data;
+
+ while (inlen >= 4)
+ {
+ data = buf_get_le32(inbuf);
+ data ^= crc;
+ data = _gcry_bswap32(data);
+
+ inlen -= 4;
+ inbuf += 4;
+
+ crc = crc32_ppc8_ce_reduction_4 (data, 0, consts);
+ }
+
+ switch (inlen)
+ {
+ case 0:
+ break;
+ case 1:
+ data = inbuf[0];
+ data ^= crc;
+ data = data & 0xffU;
+ crc = crc >> 8;
+ crc = crc32_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ case 2:
+ data = inbuf[0] << 0;
+ data |= inbuf[1] << 8;
+ data ^= crc;
+ data = _gcry_bswap32(data << 16);
+ crc = crc >> 16;
+ crc = crc32_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ case 3:
+ data = inbuf[0] << 0;
+ data |= inbuf[1] << 8;
+ data |= inbuf[2] << 16;
+ data ^= crc;
+ data = _gcry_bswap32(data << 8);
+ crc = crc >> 24;
+ crc = crc32_ppc8_ce_reduction_4 (data, crc, consts);
+ break;
+ }
+
+ *pcrc = crc;
+}
+
+void ASM_FUNC_ATTR
+_gcry_crc32_ppc8_vpmsum (u32 *pcrc, const byte *inbuf, size_t inlen)
+{
+ const struct crc32_consts_s *consts = &crc32_consts;
+
+ if (!inlen)
+ return;
+
+ if (inlen >= 16)
+ crc32r_ppc8_ce_bulk (pcrc, inbuf, inlen, consts);
+ else
+ crc32r_less_than_16 (pcrc, inbuf, inlen, consts);
+}
+
+void ASM_FUNC_ATTR
+_gcry_crc24rfc2440_ppc8_vpmsum (u32 *pcrc, const byte *inbuf, size_t inlen)
+{
+ const struct crc32_consts_s *consts = &crc24rfc2440_consts;
+
+ if (!inlen)
+ return;
+
+ /* Note: *pcrc in input endian. */
+
+ if (inlen >= 16)
+ crc32_ppc8_ce_bulk (pcrc, inbuf, inlen, consts);
+ else
+ crc32_less_than_16 (pcrc, inbuf, inlen, consts);
+}
+
+#endif
diff --git a/cipher/crc.c b/cipher/crc.c
index a1ce50b6..bbb159ce 100644
--- a/cipher/crc.c
+++ b/cipher/crc.c
@@ -43,11 +43,27 @@
#endif /* USE_INTEL_PCLMUL */
+/* USE_PPC_VPMSUM indicates whether to enable PowerPC vector
+ * accelerated code. */
+#undef USE_PPC_VPMSUM
+#ifdef ENABLE_PPC_CRYPTO_SUPPORT
+# if defined(HAVE_COMPATIBLE_CC_PPC_ALTIVEC) && \
+ defined(HAVE_GCC_INLINE_ASM_PPC_ALTIVEC)
+# if __GNUC__ >= 4
+# define USE_PPC_VPMSUM 1
+# endif
+# endif
+#endif /* USE_PPC_VPMSUM */
+
+
typedef struct
{
u32 CRC;
#ifdef USE_INTEL_PCLMUL
unsigned int use_pclmul:1; /* Intel PCLMUL shall be used. */
+#endif
+#ifdef USE_PPC_VPMSUM
+ unsigned int use_vpmsum:1; /* POWER vpmsum shall be used. */
#endif
byte buf[4];
}
@@ -61,6 +77,20 @@ void _gcry_crc24rfc2440_intel_pclmul (u32 *pcrc, const byte *inbuf,
size_t inlen);
#endif
+#ifdef USE_ARM_PMULL
+/*-- crc-armv8-ce.c --*/
+void _gcry_crc32_armv8_ce_pmull (u32 *pcrc, const byte *inbuf, size_t inlen);
+void _gcry_crc24rfc2440_armv8_ce_pmull (u32 *pcrc, const byte *inbuf,
+ size_t inlen);
+#endif
+
+#ifdef USE_PPC_VPMSUM
+/*-- crc-ppc.c --*/
+void _gcry_crc32_ppc8_vpmsum (u32 *pcrc, const byte *inbuf, size_t inlen);
+void _gcry_crc24rfc2440_ppc8_vpmsum (u32 *pcrc, const byte *inbuf,
+ size_t inlen);
+#endif
+
/*
* Code generated by universal_crc by Danjel McGougan
@@ -361,11 +391,13 @@ static void
crc32_init (void *context, unsigned int flags)
{
CRC_CONTEXT *ctx = (CRC_CONTEXT *) context;
-#ifdef USE_INTEL_PCLMUL
u32 hwf = _gcry_get_hw_features ();
-
+#ifdef USE_INTEL_PCLMUL
ctx->use_pclmul = (hwf & HWF_INTEL_SSE4_1) && (hwf & HWF_INTEL_PCLMUL);
#endif
+#ifdef USE_PPC_VPMSUM
+ ctx->use_vpmsum = !!(hwf & HWF_PPC_ARCH_2_07);
+#endif
(void)flags;
@@ -386,6 +418,13 @@ crc32_write (void *context, const void *inbuf_arg, size_t inlen)
return;
}
#endif
+#ifdef USE_PPC_VPMSUM
+ if (ctx->use_vpmsum)
+ {
+ _gcry_crc32_ppc8_vpmsum(&ctx->CRC, inbuf, inlen);
+ return;
+ }
+#endif
if (!inbuf || !inlen)
return;
@@ -444,6 +483,10 @@ crc32rfc1510_init (void *context, unsigned int flags)
ctx->use_pclmul = (hwf & HWF_INTEL_SSE4_1) && (hwf & HWF_INTEL_PCLMUL);
#endif
+#ifdef USE_PPC_VPMSUM
+ u32 hwf = _gcry_get_hw_features ();
+ ctx->use_vpmsum = !!(hwf & HWF_PPC_ARCH_2_07);
+#endif
(void)flags;
@@ -774,6 +817,10 @@ crc24rfc2440_init (void *context, unsigned int flags)
ctx->use_pclmul = (hwf & HWF_INTEL_SSE4_1) && (hwf & HWF_INTEL_PCLMUL);
#endif
+#ifdef USE_PPC_VPMSUM
+ u32 hwf = _gcry_get_hw_features ();
+ ctx->use_vpmsum = !!(hwf & HWF_PPC_ARCH_2_07);
+#endif
(void)flags;
@@ -794,6 +841,13 @@ crc24rfc2440_write (void *context, const void *inbuf_arg, size_t inlen)
return;
}
#endif
+#ifdef USE_PPC_VPMSUM
+ if (ctx->use_vpmsum)
+ {
+ _gcry_crc24rfc2440_ppc8_vpmsum(&ctx->CRC, inbuf, inlen);
+ return;
+ }
+#endif
if (!inbuf || !inlen)
return;
diff --git a/configure.ac b/configure.ac
index 953a20e9..b6b6455a 100644
--- a/configure.ac
+++ b/configure.ac
@@ -1916,6 +1916,7 @@ AC_CACHE_CHECK([whether GCC inline assembler supports PowerPC AltiVec/VSX/crypto
"vadduwm %v0, %v1, %v22;\n"
"vshasigmaw %v0, %v1, 0, 15;\n"
"vshasigmad %v0, %v1, 0, 15;\n"
+ "vpmsumd %v11, %v11, %v11;\n"
);
]])],
[gcry_cv_gcc_inline_asm_ppc_altivec=yes])
@@ -2556,6 +2557,15 @@ if test "$found" = "1" ; then
# Build with the assembly implementation
GCRYPT_DIGESTS="$GCRYPT_DIGESTS crc-intel-pclmul.lo"
;;
+ powerpc64le-*-*)
+ GCRYPT_CIPHERS="$GCRYPT_CIPHERS crc-ppc.lo"
+ ;;
+ powerpc64-*-*)
+ GCRYPT_CIPHERS="$GCRYPT_CIPHERS crc-ppc.lo"
+ ;;
+ powerpc-*-*)
+ GCRYPT_CIPHERS="$GCRYPT_CIPHERS crc-ppc.lo"
+ ;;
esac
fi