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Merge tag 'pull-crypto-20230915' of https://gitlab.com/rth7680/qemu into staging

Unify implementation of carry-less multiply.
Accelerate carry-less multiply for 64x64->128.

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# aGVuZGVyc29uQGxpbmFyby5vcmcACgkQZN846K9+IV/akgf/XkiIeErWJr1YXSbS
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# jqzAtg==
# =8nnk
# -----END PGP SIGNATURE-----
# gpg: Signature made Fri 15 Sep 2023 12:40:26 EDT
# gpg:                using RSA key 7A481E78868B4DB6A85A05C064DF38E8AF7E215F
# gpg:                issuer "richard.henderson@linaro.org"
# gpg: Good signature from "Richard Henderson <richard.henderson@linaro.org>" [full]
# Primary key fingerprint: 7A48 1E78 868B 4DB6 A85A  05C0 64DF 38E8 AF7E 215F

* tag 'pull-crypto-20230915' of https://gitlab.com/rth7680/qemu:
  host/include/aarch64: Implement clmul.h
  host/include/i386: Implement clmul.h
  target/ppc: Use clmul_64
  target/s390x: Use clmul_64
  target/i386: Use clmul_64
  target/arm: Use clmul_64
  crypto: Add generic 64-bit carry-less multiply routine
  target/ppc: Use clmul_32* routines
  target/s390x: Use clmul_32* routines
  target/arm: Use clmul_32* routines
  crypto: Add generic 32-bit carry-less multiply routines
  target/ppc: Use clmul_16* routines
  target/s390x: Use clmul_16* routines
  target/arm: Use clmul_16* routines
  crypto: Add generic 16-bit carry-less multiply routines
  target/ppc: Use clmul_8* routines
  target/s390x: Use clmul_8* routines
  target/arm: Use clmul_8* routines
  crypto: Add generic 8-bit carry-less multiply routines

Signed-off-by: Stefan Hajnoczi <stefanha@redhat.com>
Stefan Hajnoczi 1 year ago
parent
005ad32358 055c99015a
commit
13d6b16081
18 changed files with 434 additions and 286 deletions
Split View Show Diff Stats
  1. 111 0
      crypto/clmul.c
  2. 6 3
      crypto/meson.build
  3. 1 0
      host/include/aarch64/host/cpuinfo.h
  4. 41 0
      host/include/aarch64/host/crypto/clmul.h
  5. 15 0
      host/include/generic/host/crypto/clmul.h
  6. 1 0
      host/include/i386/host/cpuinfo.h
  7. 29 0
      host/include/i386/host/crypto/clmul.h
  8. 1 0
      host/include/x86_64/host/crypto/clmul.h
  9. 83 0
      include/crypto/clmul.h
  10. 3 0
      include/qemu/cpuid.h
  11. 5 11
      target/arm/tcg/mve_helper.c
  12. 11 91
      target/arm/tcg/vec_helper.c
  13. 0 11
      target/arm/tcg/vec_internal.h
  14. 9 31
      target/i386/ops_sse.h
  15. 30 36
      target/ppc/int_helper.c
  16. 84 102
      target/s390x/tcg/vec_int_helper.c
  17. 3 1
      util/cpuinfo-aarch64.c
  18. 1 0
      util/cpuinfo-i386.c

+ 111 - 0
crypto/clmul.c
View File 

@@ -0,0 +1,111 @@
 
+/*
 
+ * Carry-less multiply operations.
 
+ * SPDX-License-Identifier: GPL-2.0-or-later
 
+ *
 
+ * Copyright (C) 2023 Linaro, Ltd.
 
+ */
 
+
 
+#include "qemu/osdep.h"
 
+#include "crypto/clmul.h"
 
+
 
+uint64_t clmul_8x8_low(uint64_t n, uint64_t m)
 
+{
 
+    uint64_t r = 0;
 
+
 
+    for (int i = 0; i < 8; ++i) {
 
+        uint64_t mask = (n & 0x0101010101010101ull) * 0xff;
 
+        r ^= m & mask;
 
+        m = (m << 1) & 0xfefefefefefefefeull;
 
+        n >>= 1;
 
+    }
 
+    return r;
 
+}
 
+
 
+static uint64_t clmul_8x4_even_int(uint64_t n, uint64_t m)
 
+{
 
+    uint64_t r = 0;
 
+
 
+    for (int i = 0; i < 8; ++i) {
 
+        uint64_t mask = (n & 0x0001000100010001ull) * 0xffff;
 
+        r ^= m & mask;
 
+        n >>= 1;
 
+        m <<= 1;
 
+    }
 
+    return r;
 
+}
 
+
 
+uint64_t clmul_8x4_even(uint64_t n, uint64_t m)
 
+{
 
+    n &= 0x00ff00ff00ff00ffull;
 
+    m &= 0x00ff00ff00ff00ffull;
 
+    return clmul_8x4_even_int(n, m);
 
+}
 
+
 
+uint64_t clmul_8x4_odd(uint64_t n, uint64_t m)
 
+{
 
+    return clmul_8x4_even(n >> 8, m >> 8);
 
+}
 
+
 
+static uint64_t unpack_8_to_16(uint64_t x)
 
+{
 
+    return  (x & 0x000000ff)
 
+         | ((x & 0x0000ff00) << 8)
 
+         | ((x & 0x00ff0000) << 16)
 
+         | ((x & 0xff000000) << 24);
 
+}
 
+
 
+uint64_t clmul_8x4_packed(uint32_t n, uint32_t m)
 
+{
 
+    return clmul_8x4_even_int(unpack_8_to_16(n), unpack_8_to_16(m));
 
+}
 
+
 
+uint64_t clmul_16x2_even(uint64_t n, uint64_t m)
 
+{
 
+    uint64_t r = 0;
 
+
 
+    n &= 0x0000ffff0000ffffull;
 
+    m &= 0x0000ffff0000ffffull;
 
+
 
+    for (int i = 0; i < 16; ++i) {
 
+        uint64_t mask = (n & 0x0000000100000001ull) * 0xffffffffull;
 
+        r ^= m & mask;
 
+        n >>= 1;
 
+        m <<= 1;
 
+    }
 
+    return r;
 
+}
 
+
 
+uint64_t clmul_16x2_odd(uint64_t n, uint64_t m)
 
+{
 
+    return clmul_16x2_even(n >> 16, m >> 16);
 
+}
 
+
 
+uint64_t clmul_32(uint32_t n, uint32_t m32)
 
+{
 
+    uint64_t r = 0;
 
+    uint64_t m = m32;
 
+
 
+    for (int i = 0; i < 32; ++i) {
 
+        r ^= n & 1 ? m : 0;
 
+        n >>= 1;
 
+        m <<= 1;
 
+    }
 
+    return r;
 
+}
 
+
 
+Int128 clmul_64_gen(uint64_t n, uint64_t m)
 
+{
 
+    uint64_t rl = 0, rh = 0;
 
+
 
+    /* Bit 0 can only influence the low 64-bit result.  */
 
+    if (n & 1) {
 
+        rl = m;
 
+    }
 
+
 
+    for (int i = 1; i < 64; ++i) {
 
+        uint64_t mask = -((n >> i) & 1);
 
+        rl ^= (m << i) & mask;
 
+        rh ^= (m >> (64 - i)) & mask;
 
+    }
 
+    return int128_make128(rl, rh);
 
+}

+ 6 - 3
crypto/meson.build
View File 

@@ -48,9 +48,12 @@ if have_afalg
 
 endif
 
 crypto_ss.add(when: gnutls, if_true: files('tls-cipher-suites.c'))
 
 
-util_ss.add(files('sm4.c'))
 
-util_ss.add(files('aes.c'))
 
-util_ss.add(files('init.c'))
 
+util_ss.add(files(
 
+  'aes.c',
 
+  'clmul.c',
 
+  'init.c',
 
+  'sm4.c',
 
+))
 
 if gnutls.found()
 
   util_ss.add(gnutls)
 
 endif

+ 1 - 0
host/include/aarch64/host/cpuinfo.h
View File 

@@ -10,6 +10,7 @@
 
 #define CPUINFO_LSE             (1u << 1)
 
 #define CPUINFO_LSE2            (1u << 2)
 
 #define CPUINFO_AES             (1u << 3)
 
+#define CPUINFO_PMULL           (1u << 4)
 
 
 /* Initialized with a constructor. */
 
 extern unsigned cpuinfo;

+ 41 - 0
host/include/aarch64/host/crypto/clmul.h
View File 

@@ -0,0 +1,41 @@
 
+/*
 
+ * AArch64 specific clmul acceleration.
 
+ * SPDX-License-Identifier: GPL-2.0-or-later
 
+ */
 
+
 
+#ifndef AARCH64_HOST_CRYPTO_CLMUL_H
 
+#define AARCH64_HOST_CRYPTO_CLMUL_H
 
+
 
+#include "host/cpuinfo.h"
 
+#include <arm_neon.h>
 
+
 
+/*
 
+ * 64x64->128 pmull is available with FEAT_PMULL.
 
+ * Both FEAT_AES and FEAT_PMULL are covered under the same macro.
 
+ */
 
+#ifdef __ARM_FEATURE_AES
 
+# define HAVE_CLMUL_ACCEL  true
 
+#else
 
+# define HAVE_CLMUL_ACCEL  likely(cpuinfo & CPUINFO_PMULL)
 
+#endif
 
+#if !defined(__ARM_FEATURE_AES) && defined(CONFIG_ARM_AES_BUILTIN)
 
+# define ATTR_CLMUL_ACCEL  __attribute__((target("+crypto")))
 
+#else
 
+# define ATTR_CLMUL_ACCEL
 
+#endif
 
+
 
+static inline Int128 ATTR_CLMUL_ACCEL
 
+clmul_64_accel(uint64_t n, uint64_t m)
 
+{
 
+    union { poly128_t v; Int128 s; } u;
 
+
 
+#ifdef CONFIG_ARM_AES_BUILTIN
 
+    u.v = vmull_p64((poly64_t)n, (poly64_t)m);
 
+#else
 
+    asm(".arch_extension aes\n\t"
 
+        "pmull %0.1q, %1.1d, %2.1d" : "=w"(u.v) : "w"(n), "w"(m));
 
+#endif
 
+    return u.s;
 
+}
 
+
 
+#endif /* AARCH64_HOST_CRYPTO_CLMUL_H */

+ 15 - 0
host/include/generic/host/crypto/clmul.h
View File 

@@ -0,0 +1,15 @@
 
+/*
 
+ * No host specific carry-less multiply acceleration.
 
+ * SPDX-License-Identifier: GPL-2.0-or-later
 
+ */
 
+
 
+#ifndef GENERIC_HOST_CRYPTO_CLMUL_H
 
+#define GENERIC_HOST_CRYPTO_CLMUL_H
 
+
 
+#define HAVE_CLMUL_ACCEL  false
 
+#define ATTR_CLMUL_ACCEL
 
+
 
+Int128 clmul_64_accel(uint64_t, uint64_t)
 
+    QEMU_ERROR("unsupported accel");
 
+
 
+#endif /* GENERIC_HOST_CRYPTO_CLMUL_H */

+ 1 - 0
host/include/i386/host/cpuinfo.h
View File 

@@ -27,6 +27,7 @@
 
 #define CPUINFO_ATOMIC_VMOVDQA  (1u << 16)
 
 #define CPUINFO_ATOMIC_VMOVDQU  (1u << 17)
 
 #define CPUINFO_AES             (1u << 18)
 
+#define CPUINFO_PCLMUL          (1u << 19)
 
 
 /* Initialized with a constructor. */
 
 extern unsigned cpuinfo;

+ 29 - 0
host/include/i386/host/crypto/clmul.h
View File 

@@ -0,0 +1,29 @@
 
+/*
 
+ * x86 specific clmul acceleration.
 
+ * SPDX-License-Identifier: GPL-2.0-or-later
 
+ */
 
+
 
+#ifndef X86_HOST_CRYPTO_CLMUL_H
 
+#define X86_HOST_CRYPTO_CLMUL_H
 
+
 
+#include "host/cpuinfo.h"
 
+#include <immintrin.h>
 
+
 
+#if defined(__PCLMUL__)
 
+# define HAVE_CLMUL_ACCEL  true
 
+# define ATTR_CLMUL_ACCEL
 
+#else
 
+# define HAVE_CLMUL_ACCEL  likely(cpuinfo & CPUINFO_PCLMUL)
 
+# define ATTR_CLMUL_ACCEL  __attribute__((target("pclmul")))
 
+#endif
 
+
 
+static inline Int128 ATTR_CLMUL_ACCEL
 
+clmul_64_accel(uint64_t n, uint64_t m)
 
+{
 
+    union { __m128i v; Int128 s; } u;
 
+
 
+    u.v = _mm_clmulepi64_si128(_mm_set_epi64x(0, n), _mm_set_epi64x(0, m), 0);
 
+    return u.s;
 
+}
 
+
 
+#endif /* X86_HOST_CRYPTO_CLMUL_H */

+ 1 - 0
host/include/x86_64/host/crypto/clmul.h
View File 

@@ -0,0 +1 @@
 
+#include "host/include/i386/host/crypto/clmul.h"

+ 83 - 0
include/crypto/clmul.h
View File 

@@ -0,0 +1,83 @@
 
+/*
 
+ * Carry-less multiply operations.
 
+ * SPDX-License-Identifier: GPL-2.0-or-later
 
+ *
 
+ * Copyright (C) 2023 Linaro, Ltd.
 
+ */
 
+
 
+#ifndef CRYPTO_CLMUL_H
 
+#define CRYPTO_CLMUL_H
 
+
 
+#include "qemu/int128.h"
 
+#include "host/crypto/clmul.h"
 
+
 
+/**
 
+ * clmul_8x8_low:
 
+ *
 
+ * Perform eight 8x8->8 carry-less multiplies.
 
+ */
 
+uint64_t clmul_8x8_low(uint64_t, uint64_t);
 
+
 
+/**
 
+ * clmul_8x4_even:
 
+ *
 
+ * Perform four 8x8->16 carry-less multiplies.
 
+ * The odd bytes of the inputs are ignored.
 
+ */
 
+uint64_t clmul_8x4_even(uint64_t, uint64_t);
 
+
 
+/**
 
+ * clmul_8x4_odd:
 
+ *
 
+ * Perform four 8x8->16 carry-less multiplies.
 
+ * The even bytes of the inputs are ignored.
 
+ */
 
+uint64_t clmul_8x4_odd(uint64_t, uint64_t);
 
+
 
+/**
 
+ * clmul_8x4_packed:
 
+ *
 
+ * Perform four 8x8->16 carry-less multiplies.
 
+ */
 
+uint64_t clmul_8x4_packed(uint32_t, uint32_t);
 
+
 
+/**
 
+ * clmul_16x2_even:
 
+ *
 
+ * Perform two 16x16->32 carry-less multiplies.
 
+ * The odd words of the inputs are ignored.
 
+ */
 
+uint64_t clmul_16x2_even(uint64_t, uint64_t);
 
+
 
+/**
 
+ * clmul_16x2_odd:
 
+ *
 
+ * Perform two 16x16->32 carry-less multiplies.
 
+ * The even words of the inputs are ignored.
 
+ */
 
+uint64_t clmul_16x2_odd(uint64_t, uint64_t);
 
+
 
+/**
 
+ * clmul_32:
 
+ *
 
+ * Perform a 32x32->64 carry-less multiply.
 
+ */
 
+uint64_t clmul_32(uint32_t, uint32_t);
 
+
 
+/**
 
+ * clmul_64:
 
+ *
 
+ * Perform a 64x64->128 carry-less multiply.
 
+ */
 
+Int128 clmul_64_gen(uint64_t, uint64_t);
 
+
 
+static inline Int128 clmul_64(uint64_t a, uint64_t b)
 
+{
 
+    if (HAVE_CLMUL_ACCEL) {
 
+        return clmul_64_accel(a, b);
 
+    } else {
 
+        return clmul_64_gen(a, b);
 
+    }
 
+}
 
+
 
+#endif /* CRYPTO_CLMUL_H */

+ 3 - 0
include/qemu/cpuid.h
View File 

@@ -25,6 +25,9 @@
 
 #endif
 
 
 /* Leaf 1, %ecx */
 
+#ifndef bit_PCLMUL
 
+#define bit_PCLMUL      (1 << 1)
 
+#endif
 
 #ifndef bit_SSE4_1
 
 #define bit_SSE4_1      (1 << 19)
 
 #endif

+ 5 - 11
target/arm/tcg/mve_helper.c
View File 

@@ -26,6 +26,7 @@
 
 #include "exec/exec-all.h"
 
 #include "tcg/tcg.h"
 
 #include "fpu/softfloat.h"
 
+#include "crypto/clmul.h"
 
 
 static uint16_t mve_eci_mask(CPUARMState *env)
 
 {
 
@@ -984,17 +985,10 @@ DO_2OP_L(vmulltuw, 1, 4, uint32_t, 8, uint64_t, DO_MUL)
 
  * Polynomial multiply. We can always do this generating 64 bits
 
  * of the result at a time, so we don't need to use DO_2OP_L.
 
  */
 
-#define VMULLPH_MASK 0x00ff00ff00ff00ffULL
 
-#define VMULLPW_MASK 0x0000ffff0000ffffULL
 
-#define DO_VMULLPBH(N, M) pmull_h((N) & VMULLPH_MASK, (M) & VMULLPH_MASK)
 
-#define DO_VMULLPTH(N, M) DO_VMULLPBH((N) >> 8, (M) >> 8)
 
-#define DO_VMULLPBW(N, M) pmull_w((N) & VMULLPW_MASK, (M) & VMULLPW_MASK)
 
-#define DO_VMULLPTW(N, M) DO_VMULLPBW((N) >> 16, (M) >> 16)
 
-
 
-DO_2OP(vmullpbh, 8, uint64_t, DO_VMULLPBH)
 
-DO_2OP(vmullpth, 8, uint64_t, DO_VMULLPTH)
 
-DO_2OP(vmullpbw, 8, uint64_t, DO_VMULLPBW)
 
-DO_2OP(vmullptw, 8, uint64_t, DO_VMULLPTW)
 
+DO_2OP(vmullpbh, 8, uint64_t, clmul_8x4_even)
 
+DO_2OP(vmullpth, 8, uint64_t, clmul_8x4_odd)
 
+DO_2OP(vmullpbw, 8, uint64_t, clmul_16x2_even)
 
+DO_2OP(vmullptw, 8, uint64_t, clmul_16x2_odd)
 
 
 /*
 
  * Because the computation type is at least twice as large as required,

+ 11 - 91
target/arm/tcg/vec_helper.c
View File 

@@ -23,6 +23,7 @@
 
 #include "tcg/tcg-gvec-desc.h"
 
 #include "fpu/softfloat.h"
 
 #include "qemu/int128.h"
 
+#include "crypto/clmul.h"
 
 #include "vec_internal.h"
 
 
 /*
 
@@ -1986,21 +1987,11 @@ void HELPER(gvec_ushl_h)(void *vd, void *vn, void *vm, uint32_t desc)
 
  */
 
 void HELPER(gvec_pmul_b)(void *vd, void *vn, void *vm, uint32_t desc)
 
 {
 
-    intptr_t i, j, opr_sz = simd_oprsz(desc);
 
+    intptr_t i, opr_sz = simd_oprsz(desc);
 
     uint64_t *d = vd, *n = vn, *m = vm;
 
 
     for (i = 0; i < opr_sz / 8; ++i) {
 
-        uint64_t nn = n[i];
 
-        uint64_t mm = m[i];
 
-        uint64_t rr = 0;
 
-
 
-        for (j = 0; j < 8; ++j) {
 
-            uint64_t mask = (nn & 0x0101010101010101ull) * 0xff;
 
-            rr ^= mm & mask;
 
-            mm = (mm << 1) & 0xfefefefefefefefeull;
 
-            nn >>= 1;
 
-        }
 
-        d[i] = rr;
 
+        d[i] = clmul_8x8_low(n[i], m[i]);
 
     }
 
     clear_tail(d, opr_sz, simd_maxsz(desc));
 
 }
 
@@ -2012,84 +2003,28 @@ void HELPER(gvec_pmul_b)(void *vd, void *vn, void *vm, uint32_t desc)
 
  */
 
 void HELPER(gvec_pmull_q)(void *vd, void *vn, void *vm, uint32_t desc)
 
 {
 
-    intptr_t i, j, opr_sz = simd_oprsz(desc);
 
+    intptr_t i, opr_sz = simd_oprsz(desc);
 
     intptr_t hi = simd_data(desc);
 
     uint64_t *d = vd, *n = vn, *m = vm;
 
 
     for (i = 0; i < opr_sz / 8; i += 2) {
 
-        uint64_t nn = n[i + hi];
 
-        uint64_t mm = m[i + hi];
 
-        uint64_t rhi = 0;
 
-        uint64_t rlo = 0;
 
-
 
-        /* Bit 0 can only influence the low 64-bit result.  */
 
-        if (nn & 1) {
 
-            rlo = mm;
 
-        }
 
-
 
-        for (j = 1; j < 64; ++j) {
 
-            uint64_t mask = -((nn >> j) & 1);
 
-            rlo ^= (mm << j) & mask;
 
-            rhi ^= (mm >> (64 - j)) & mask;
 
-        }
 
-        d[i] = rlo;
 
-        d[i + 1] = rhi;
 
+        Int128 r = clmul_64(n[i + hi], m[i + hi]);
 
+        d[i] = int128_getlo(r);
 
+        d[i + 1] = int128_gethi(r);
 
     }
 
     clear_tail(d, opr_sz, simd_maxsz(desc));
 
 }
 
 
-/*
 
- * 8x8->16 polynomial multiply.
 
- *
 
- * The byte inputs are expanded to (or extracted from) half-words.
 
- * Note that neon and sve2 get the inputs from different positions.
 
- * This allows 4 bytes to be processed in parallel with uint64_t.
 
- */
 
-
 
-static uint64_t expand_byte_to_half(uint64_t x)
 
-{
 
-    return  (x & 0x000000ff)
 
-         | ((x & 0x0000ff00) << 8)
 
-         | ((x & 0x00ff0000) << 16)
 
-         | ((x & 0xff000000) << 24);
 
-}
 
-
 
-uint64_t pmull_w(uint64_t op1, uint64_t op2)
 
-{
 
-    uint64_t result = 0;
 
-    int i;
 
-    for (i = 0; i < 16; ++i) {
 
-        uint64_t mask = (op1 & 0x0000000100000001ull) * 0xffffffff;
 
-        result ^= op2 & mask;
 
-        op1 >>= 1;
 
-        op2 <<= 1;
 
-    }
 
-    return result;
 
-}
 
-
 
-uint64_t pmull_h(uint64_t op1, uint64_t op2)
 
-{
 
-    uint64_t result = 0;
 
-    int i;
 
-    for (i = 0; i < 8; ++i) {
 
-        uint64_t mask = (op1 & 0x0001000100010001ull) * 0xffff;
 
-        result ^= op2 & mask;
 
-        op1 >>= 1;
 
-        op2 <<= 1;
 
-    }
 
-    return result;
 
-}
 
-
 
 void HELPER(neon_pmull_h)(void *vd, void *vn, void *vm, uint32_t desc)
 
 {
 
     int hi = simd_data(desc);
 
     uint64_t *d = vd, *n = vn, *m = vm;
 
     uint64_t nn = n[hi], mm = m[hi];
 
 
-    d[0] = pmull_h(expand_byte_to_half(nn), expand_byte_to_half(mm));
 
+    d[0] = clmul_8x4_packed(nn, mm);
 
     nn >>= 32;
 
     mm >>= 32;
 
-    d[1] = pmull_h(expand_byte_to_half(nn), expand_byte_to_half(mm));
 
+    d[1] = clmul_8x4_packed(nn, mm);
 
 
     clear_tail(d, 16, simd_maxsz(desc));
 
 }
 
@@ -2102,23 +2037,8 @@ void HELPER(sve2_pmull_h)(void *vd, void *vn, void *vm, uint32_t desc)
 
     uint64_t *d = vd, *n = vn, *m = vm;
 
 
     for (i = 0; i < opr_sz / 8; ++i) {
 
-        uint64_t nn = (n[i] >> shift) & 0x00ff00ff00ff00ffull;
 
-        uint64_t mm = (m[i] >> shift) & 0x00ff00ff00ff00ffull;
 
-
 
-        d[i] = pmull_h(nn, mm);
 
-    }
 
-}
 
-
 
-static uint64_t pmull_d(uint64_t op1, uint64_t op2)
 
-{
 
-    uint64_t result = 0;
 
-    int i;
 
-
 
-    for (i = 0; i < 32; ++i) {
 
-        uint64_t mask = -((op1 >> i) & 1);
 
-        result ^= (op2 << i) & mask;
 
+        d[i] = clmul_8x4_even(n[i] >> shift, m[i] >> shift);
 
     }
 
-    return result;
 
 }
 
 
 void HELPER(sve2_pmull_d)(void *vd, void *vn, void *vm, uint32_t desc)
 
@@ -2129,7 +2049,7 @@ void HELPER(sve2_pmull_d)(void *vd, void *vn, void *vm, uint32_t desc)
 
     uint64_t *d = vd;
 
 
     for (i = 0; i < opr_sz / 8; ++i) {
 
-        d[i] = pmull_d(n[2 * i + sel], m[2 * i + sel]);
 
+        d[i] = clmul_32(n[2 * i + sel], m[2 * i + sel]);
 
     }
 
 }
 
 #endif

+ 0 - 11
target/arm/tcg/vec_internal.h
View File 

@@ -219,17 +219,6 @@ int16_t do_sqrdmlah_h(int16_t, int16_t, int16_t, bool, bool, uint32_t *);
 
 int32_t do_sqrdmlah_s(int32_t, int32_t, int32_t, bool, bool, uint32_t *);
 
 int64_t do_sqrdmlah_d(int64_t, int64_t, int64_t, bool, bool);
 
 
-/*
 
- * 8 x 8 -> 16 vector polynomial multiply where the inputs are
 
- * in the low 8 bits of each 16-bit element
 
-*/
 
-uint64_t pmull_h(uint64_t op1, uint64_t op2);
 
-/*
 
- * 16 x 16 -> 32 vector polynomial multiply where the inputs are
 
- * in the low 16 bits of each 32-bit element
 
- */
 
-uint64_t pmull_w(uint64_t op1, uint64_t op2);
 
-
 
 /**
 
  * bfdotadd:
 
  * @sum: addend

+ 9 - 31
target/i386/ops_sse.h
View File 

@@ -20,6 +20,7 @@
 
 
 #include "crypto/aes.h"
 
 #include "crypto/aes-round.h"
 
+#include "crypto/clmul.h"
 
 
 #if SHIFT == 0
 
 #define Reg MMXReg
 
@@ -2122,41 +2123,18 @@ target_ulong helper_crc32(uint32_t crc1, target_ulong msg, uint32_t len)
 
 
 #endif
 
 
-#if SHIFT == 1
 
-static void clmulq(uint64_t *dest_l, uint64_t *dest_h,
 
-                          uint64_t a, uint64_t b)
 
-{
 
-    uint64_t al, ah, resh, resl;
 
-
 
-    ah = 0;
 
-    al = a;
 
-    resh = resl = 0;
 
-
 
-    while (b) {
 
-        if (b & 1) {
 
-            resl ^= al;
 
-            resh ^= ah;
 
-        }
 
-        ah = (ah << 1) | (al >> 63);
 
-        al <<= 1;
 
-        b >>= 1;
 
-    }
 
-
 
-    *dest_l = resl;
 
-    *dest_h = resh;
 
-}
 
-#endif
 
-
 
 void glue(helper_pclmulqdq, SUFFIX)(CPUX86State *env, Reg *d, Reg *v, Reg *s,
 
                                     uint32_t ctrl)
 
 {
 
-    uint64_t a, b;
 
-    int i;
 
+    int a_idx = (ctrl & 1) != 0;
 
+    int b_idx = (ctrl & 16) != 0;
 
 
-    for (i = 0; i < 1 << SHIFT; i += 2) {
 
-        a = v->Q(((ctrl & 1) != 0) + i);
 
-        b = s->Q(((ctrl & 16) != 0) + i);
 
-        clmulq(&d->Q(i), &d->Q(i + 1), a, b);
 
+    for (int i = 0; i < SHIFT; i++) {
 
+        uint64_t a = v->Q(2 * i + a_idx);
 
+        uint64_t b = s->Q(2 * i + b_idx);
 
+        Int128 *r = (Int128 *)&d->ZMM_X(i);
 
+
 
+        *r = clmul_64(a, b);
 
     }
 
 }

+ 30 - 36
target/ppc/int_helper.c
View File 

@@ -25,6 +25,7 @@
 
 #include "exec/helper-proto.h"
 
 #include "crypto/aes.h"
 
 #include "crypto/aes-round.h"
 
+#include "crypto/clmul.h"
 
 #include "fpu/softfloat.h"
 
 #include "qapi/error.h"
 
 #include "qemu/guest-random.h"
 
@@ -1424,46 +1425,39 @@ void helper_vbpermq(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
 #undef VBPERMQ_INDEX
 
 #undef VBPERMQ_DW
 
 
-#define PMSUM(name, srcfld, trgfld, trgtyp)                   \
 
-void helper_##name(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)  \
 
-{                                                             \
 
-    int i, j;                                                 \
 
-    trgtyp prod[sizeof(ppc_avr_t) / sizeof(a->srcfld[0])];    \
 
-                                                              \
 
-    VECTOR_FOR_INORDER_I(i, srcfld) {                         \
 
-        prod[i] = 0;                                          \
 
-        for (j = 0; j < sizeof(a->srcfld[0]) * 8; j++) {      \
 
-            if (a->srcfld[i] & (1ull << j)) {                 \
 
-                prod[i] ^= ((trgtyp)b->srcfld[i] << j);       \
 
-            }                                                 \
 
-        }                                                     \
 
-    }                                                         \
 
-                                                              \
 
-    VECTOR_FOR_INORDER_I(i, trgfld) {                         \
 
-        r->trgfld[i] = prod[2 * i] ^ prod[2 * i + 1];         \
 
-    }                                                         \
 
-}
 
-
 
-PMSUM(vpmsumb, u8, u16, uint16_t)
 
-PMSUM(vpmsumh, u16, u32, uint32_t)
 
-PMSUM(vpmsumw, u32, u64, uint64_t)
 
+/*
 
+ * There is no carry across the two doublewords, so their order does
 
+ * not matter.  Nor is there partial overlap between registers.
 
+ */
 
+void helper_vpmsumb(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
+{
 
+    for (int i = 0; i < 2; ++i) {
 
+        uint64_t aa = a->u64[i], bb = b->u64[i];
 
+        r->u64[i] = clmul_8x4_even(aa, bb) ^ clmul_8x4_odd(aa, bb);
 
+    }
 
+}
 
 
-void helper_VPMSUMD(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
+void helper_vpmsumh(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
 {
 
-    int i, j;
 
-    Int128 tmp, prod[2] = {int128_zero(), int128_zero()};
 
-
 
-    for (j = 0; j < 64; j++) {
 
-        for (i = 0; i < ARRAY_SIZE(r->u64); i++) {
 
-            if (a->VsrD(i) & (1ull << j)) {
 
-                tmp = int128_make64(b->VsrD(i));
 
-                tmp = int128_lshift(tmp, j);
 
-                prod[i] = int128_xor(prod[i], tmp);
 
-            }
 
-        }
 
+    for (int i = 0; i < 2; ++i) {
 
+        uint64_t aa = a->u64[i], bb = b->u64[i];
 
+        r->u64[i] = clmul_16x2_even(aa, bb) ^ clmul_16x2_odd(aa, bb);
 
+    }
 
+}
 
+
 
+void helper_vpmsumw(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
+{
 
+    for (int i = 0; i < 2; ++i) {
 
+        uint64_t aa = a->u64[i], bb = b->u64[i];
 
+        r->u64[i] = clmul_32(aa, bb) ^ clmul_32(aa >> 32, bb >> 32);
 
     }
 
+}
 
 
-    r->s128 = int128_xor(prod[0], prod[1]);
 
+void helper_VPMSUMD(ppc_avr_t *r, ppc_avr_t *a, ppc_avr_t *b)
 
+{
 
+    Int128 e = clmul_64(a->u64[0], b->u64[0]);
 
+    Int128 o = clmul_64(a->u64[1], b->u64[1]);
 
+    r->s128 = int128_xor(e, o);
 
 }
 
 
 #if HOST_BIG_ENDIAN

+ 84 - 102
target/s390x/tcg/vec_int_helper.c
View File 

@@ -14,19 +14,13 @@
 
 #include "vec.h"
 
 #include "exec/helper-proto.h"
 
 #include "tcg/tcg-gvec-desc.h"
 
+#include "crypto/clmul.h"
 
 
 static bool s390_vec_is_zero(const S390Vector *v)
 
 {
 
     return !v->doubleword[0] && !v->doubleword[1];
 
 }
 
 
-static void s390_vec_xor(S390Vector *res, const S390Vector *a,
 
-                         const S390Vector *b)
 
-{
 
-    res->doubleword[0] = a->doubleword[0] ^ b->doubleword[0];
 
-    res->doubleword[1] = a->doubleword[1] ^ b->doubleword[1];
 
-}
 
-
 
 static void s390_vec_and(S390Vector *res, const S390Vector *a,
 
                          const S390Vector *b)
 
 {
 
@@ -164,117 +158,105 @@ DEF_VCTZ(8)
 
 DEF_VCTZ(16)
 
 
 /* like binary multiplication, but XOR instead of addition */
 
-#define DEF_GALOIS_MULTIPLY(BITS, TBITS)                                       \
 
-static uint##TBITS##_t galois_multiply##BITS(uint##TBITS##_t a,                \
 
-                                             uint##TBITS##_t b)                \
 
-{                                                                              \
 
-    uint##TBITS##_t res = 0;                                                   \
 
-                                                                               \
 
-    while (b) {                                                                \
 
-        if (b & 0x1) {                                                         \
 
-            res = res ^ a;                                                     \
 
-        }                                                                      \
 
-        a = a << 1;                                                            \
 
-        b = b >> 1;                                                            \
 
-    }                                                                          \
 
-    return res;                                                                \
 
+
 
+/*
 
+ * There is no carry across the two doublewords, so their order does
 
+ * not matter.  Nor is there partial overlap between registers.
 
+ */
 
+static inline uint64_t do_gfma8(uint64_t n, uint64_t m, uint64_t a)
 
+{
 
+    return clmul_8x4_even(n, m) ^ clmul_8x4_odd(n, m) ^ a;
 
 }
 
-DEF_GALOIS_MULTIPLY(8, 16)
 
-DEF_GALOIS_MULTIPLY(16, 32)
 
-DEF_GALOIS_MULTIPLY(32, 64)
 
 
-static S390Vector galois_multiply64(uint64_t a, uint64_t b)
 
+void HELPER(gvec_vgfm8)(void *v1, const void *v2, const void *v3, uint32_t d)
 
 {
 
-    S390Vector res = {};
 
-    S390Vector va = {
 
-        .doubleword[1] = a,
 
-    };
 
-    S390Vector vb = {
 
-        .doubleword[1] = b,
 
-    };
 
-
 
-    while (!s390_vec_is_zero(&vb)) {
 
-        if (vb.doubleword[1] & 0x1) {
 
-            s390_vec_xor(&res, &res, &va);
 
-        }
 
-        s390_vec_shl(&va, &va, 1);
 
-        s390_vec_shr(&vb, &vb, 1);
 
-    }
 
-    return res;
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3;
 
+
 
+    q1[0] = do_gfma8(q2[0], q3[0], 0);
 
+    q1[1] = do_gfma8(q2[1], q3[1], 0);
 
 }
 
 
-#define DEF_VGFM(BITS, TBITS)                                                  \
 
-void HELPER(gvec_vgfm##BITS)(void *v1, const void *v2, const void *v3,         \
 
-                             uint32_t desc)                                    \
 
-{                                                                              \
 
-    int i;                                                                     \
 
-                                                                               \
 
-    for (i = 0; i < (128 / TBITS); i++) {                                      \
 
-        uint##BITS##_t a = s390_vec_read_element##BITS(v2, i * 2);             \
 
-        uint##BITS##_t b = s390_vec_read_element##BITS(v3, i * 2);             \
 
-        uint##TBITS##_t d = galois_multiply##BITS(a, b);                       \
 
-                                                                               \
 
-        a = s390_vec_read_element##BITS(v2, i * 2 + 1);                        \
 
-        b = s390_vec_read_element##BITS(v3, i * 2 + 1);                        \
 
-        d = d ^ galois_multiply32(a, b);                                       \
 
-        s390_vec_write_element##TBITS(v1, i, d);                               \
 
-    }                                                                          \
 
+void HELPER(gvec_vgfma8)(void *v1, const void *v2, const void *v3,
 
+                         const void *v4, uint32_t desc)
 
+{
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3, *q4 = v4;
 
+
 
+    q1[0] = do_gfma8(q2[0], q3[0], q4[0]);
 
+    q1[1] = do_gfma8(q2[1], q3[1], q4[1]);
 
 }
 
-DEF_VGFM(8, 16)
 
-DEF_VGFM(16, 32)
 
-DEF_VGFM(32, 64)
 
 
-void HELPER(gvec_vgfm64)(void *v1, const void *v2, const void *v3,
 
-                         uint32_t desc)
 
+static inline uint64_t do_gfma16(uint64_t n, uint64_t m, uint64_t a)
 
+{
 
+    return clmul_16x2_even(n, m) ^ clmul_16x2_odd(n, m) ^ a;
 
+}
 
+
 
+void HELPER(gvec_vgfm16)(void *v1, const void *v2, const void *v3, uint32_t d)
 
 {
 
-    S390Vector tmp1, tmp2;
 
-    uint64_t a, b;
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3;
 
 
-    a = s390_vec_read_element64(v2, 0);
 
-    b = s390_vec_read_element64(v3, 0);
 
-    tmp1 = galois_multiply64(a, b);
 
-    a = s390_vec_read_element64(v2, 1);
 
-    b = s390_vec_read_element64(v3, 1);
 
-    tmp2 = galois_multiply64(a, b);
 
-    s390_vec_xor(v1, &tmp1, &tmp2);
 
+    q1[0] = do_gfma16(q2[0], q3[0], 0);
 
+    q1[1] = do_gfma16(q2[1], q3[1], 0);
 
 }
 
 
-#define DEF_VGFMA(BITS, TBITS)                                                 \
 
-void HELPER(gvec_vgfma##BITS)(void *v1, const void *v2, const void *v3,        \
 
-                              const void *v4, uint32_t desc)                   \
 
-{                                                                              \
 
-    int i;                                                                     \
 
-                                                                               \
 
-    for (i = 0; i < (128 / TBITS); i++) {                                      \
 
-        uint##BITS##_t a = s390_vec_read_element##BITS(v2, i * 2);             \
 
-        uint##BITS##_t b = s390_vec_read_element##BITS(v3, i * 2);             \
 
-        uint##TBITS##_t d = galois_multiply##BITS(a, b);                       \
 
-                                                                               \
 
-        a = s390_vec_read_element##BITS(v2, i * 2 + 1);                        \
 
-        b = s390_vec_read_element##BITS(v3, i * 2 + 1);                        \
 
-        d = d ^ galois_multiply32(a, b);                                       \
 
-        d = d ^ s390_vec_read_element##TBITS(v4, i);                           \
 
-        s390_vec_write_element##TBITS(v1, i, d);                               \
 
-    }                                                                          \
 
+void HELPER(gvec_vgfma16)(void *v1, const void *v2, const void *v3,
 
+                         const void *v4, uint32_t d)
 
+{
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3, *q4 = v4;
 
+
 
+    q1[0] = do_gfma16(q2[0], q3[0], q4[0]);
 
+    q1[1] = do_gfma16(q2[1], q3[1], q4[1]);
 
+}
 
+
 
+static inline uint64_t do_gfma32(uint64_t n, uint64_t m, uint64_t a)
 
+{
 
+    return clmul_32(n, m) ^ clmul_32(n >> 32, m >> 32) ^ a;
 
+}
 
+
 
+void HELPER(gvec_vgfm32)(void *v1, const void *v2, const void *v3, uint32_t d)
 
+{
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3;
 
+
 
+    q1[0] = do_gfma32(q2[0], q3[0], 0);
 
+    q1[1] = do_gfma32(q2[1], q3[1], 0);
 
+}
 
+
 
+void HELPER(gvec_vgfma32)(void *v1, const void *v2, const void *v3,
 
+                         const void *v4, uint32_t d)
 
+{
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3, *q4 = v4;
 
+
 
+    q1[0] = do_gfma32(q2[0], q3[0], q4[0]);
 
+    q1[1] = do_gfma32(q2[1], q3[1], q4[1]);
 
+}
 
+
 
+void HELPER(gvec_vgfm64)(void *v1, const void *v2, const void *v3,
 
+                         uint32_t desc)
 
+{
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3;
 
+    Int128 r;
 
+
 
+    r = int128_xor(clmul_64(q2[0], q3[0]), clmul_64(q2[1], q3[1]));
 
+    q1[0] = int128_gethi(r);
 
+    q1[1] = int128_getlo(r);
 
 }
 
-DEF_VGFMA(8, 16)
 
-DEF_VGFMA(16, 32)
 
-DEF_VGFMA(32, 64)
 
 
 void HELPER(gvec_vgfma64)(void *v1, const void *v2, const void *v3,
 
                           const void *v4, uint32_t desc)
 
 {
 
-    S390Vector tmp1, tmp2;
 
-    uint64_t a, b;
 
-
 
-    a = s390_vec_read_element64(v2, 0);
 
-    b = s390_vec_read_element64(v3, 0);
 
-    tmp1 = galois_multiply64(a, b);
 
-    a = s390_vec_read_element64(v2, 1);
 
-    b = s390_vec_read_element64(v3, 1);
 
-    tmp2 = galois_multiply64(a, b);
 
-    s390_vec_xor(&tmp1, &tmp1, &tmp2);
 
-    s390_vec_xor(v1, &tmp1, v4);
 
+    uint64_t *q1 = v1;
 
+    const uint64_t *q2 = v2, *q3 = v3, *q4 = v4;
 
+    Int128 r;
 
+
 
+    r = int128_xor(clmul_64(q2[0], q3[0]), clmul_64(q2[1], q3[1]));
 
+    q1[0] = q4[0] ^ int128_gethi(r);
 
+    q1[1] = q4[1] ^ int128_getlo(r);
 
 }
 
 
 #define DEF_VMAL(BITS)                                                         \

+ 3 - 1
util/cpuinfo-aarch64.c
View File 

@@ -56,12 +56,14 @@ unsigned __attribute__((constructor)) cpuinfo_init(void)
 
     unsigned long hwcap = qemu_getauxval(AT_HWCAP);
 
     info |= (hwcap & HWCAP_ATOMICS ? CPUINFO_LSE : 0);
 
     info |= (hwcap & HWCAP_USCAT ? CPUINFO_LSE2 : 0);
 
-    info |= (hwcap & HWCAP_AES ? CPUINFO_AES: 0);
 
+    info |= (hwcap & HWCAP_AES ? CPUINFO_AES : 0);
 
+    info |= (hwcap & HWCAP_PMULL ? CPUINFO_PMULL : 0);
 
 #endif
 
 #ifdef CONFIG_DARWIN
 
     info |= sysctl_for_bool("hw.optional.arm.FEAT_LSE") * CPUINFO_LSE;
 
     info |= sysctl_for_bool("hw.optional.arm.FEAT_LSE2") * CPUINFO_LSE2;
 
     info |= sysctl_for_bool("hw.optional.arm.FEAT_AES") * CPUINFO_AES;
 
+    info |= sysctl_for_bool("hw.optional.arm.FEAT_PMULL") * CPUINFO_PMULL;
 
 #endif
 
 
     cpuinfo = info;

+ 1 - 0
util/cpuinfo-i386.c
View File 

@@ -39,6 +39,7 @@ unsigned __attribute__((constructor)) cpuinfo_init(void)
 
         info |= (c & bit_SSE4_1 ? CPUINFO_SSE4 : 0);
 
         info |= (c & bit_MOVBE ? CPUINFO_MOVBE : 0);
 
         info |= (c & bit_POPCNT ? CPUINFO_POPCNT : 0);
 
+        info |= (c & bit_PCLMUL ? CPUINFO_PCLMUL : 0);
 
 
         /* Our AES support requires PSHUFB as well. */
 
         info |= ((c & bit_AES) && (c & bit_SSSE3) ? CPUINFO_AES : 0);