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cutils: Rearrange buffer_is_zero acceleration

Allow selection of several acceleration functions
based on the size and alignment of the buffer.
Do not require ifunc support for AVX2 acceleration.

Signed-off-by: Richard Henderson <rth@twiddle.net>
Message-Id: <1472496380-19706-5-git-send-email-rth@twiddle.net>
Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
Richard Henderson %!s(int64=9) %!d(string=hai) anos
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Modificáronse 2 ficheiros con 163 adicións e 206 borrados
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  1. 6 15
      configure
  2. 157 191
      util/bufferiszero.c

+ 6 - 15
configure
Ver ficheiro 

@@ -1794,28 +1794,19 @@ fi
 
 ##########################################
 
 # avx2 optimization requirement check
 
 
-
 
-if test "$static" = "no" ; then
 
-  cat > $TMPC << EOF
 
+cat > $TMPC << EOF
 
 #pragma GCC push_options
 
 #pragma GCC target("avx2")
 
 #include <cpuid.h>
 
 #include <immintrin.h>
 
-
 
 static int bar(void *a) {
 
-    return _mm256_movemask_epi8(_mm256_cmpeq_epi8(*(__m256i *)a, (__m256i){0}));
 
+    __m256i x = *(__m256i *)a;
 
+    return _mm256_testz_si256(x, x);
 
 }
 
-static void *bar_ifunc(void) {return (void*) bar;}
 
-int foo(void *a) __attribute__((ifunc("bar_ifunc")));
 
-int main(int argc, char *argv[]) { return foo(argv[0]);}
 
+int main(int argc, char *argv[]) { return bar(argv[0]); }
 
 EOF
 
-  if compile_object "" ; then
 
-      if has readelf; then
 
-          if readelf --syms $TMPO 2>/dev/null |grep -q "IFUNC.*foo"; then
 
-              avx2_opt="yes"
 
-          fi
 
-      fi
 
-  fi
 
+if compile_object "" ; then
 
+  avx2_opt="yes"
 
 fi
 
 
 #########################################

+ 157 - 191
util/bufferiszero.c
Ver ficheiro 

@@ -24,245 +24,211 @@
 
 #include "qemu/osdep.h"
 
 #include "qemu-common.h"
 
 #include "qemu/cutils.h"
 
+#include "qemu/bswap.h"
 
 
 
 /* vector definitions */
 
-#ifdef __ALTIVEC__
 
+
 
+extern void link_error(void);
 
+
 
+#define ACCEL_BUFFER_ZERO(NAME, SIZE, VECTYPE, NONZERO)         \
 
+static bool NAME(const void *buf, size_t len)                   \
 
+{                                                               \
 
+    const void *end = buf + len;                                \
 
+    do {                                                        \
 
+        const VECTYPE *p = buf;                                 \
 
+        VECTYPE t;                                              \
 
+        if (SIZE == sizeof(VECTYPE) * 4) {                      \
 
+            t = (p[0] | p[1]) | (p[2] | p[3]);                  \
 
+        } else if (SIZE == sizeof(VECTYPE) * 8) {               \
 
+            t  = p[0] | p[1];                                   \
 
+            t |= p[2] | p[3];                                   \
 
+            t |= p[4] | p[5];                                   \
 
+            t |= p[6] | p[7];                                   \
 
+        } else {                                                \
 
+            link_error();                                       \
 
+        }                                                       \
 
+        if (unlikely(NONZERO(t))) {                             \
 
+            return false;                                       \
 
+        }                                                       \
 
+        buf += SIZE;                                            \
 
+    } while (buf < end);                                        \
 
+    return true;                                                \
 
+}
 
+
 
+static bool
 
+buffer_zero_int(const void *buf, size_t len)
 
+{
 
+    if (unlikely(len < 8)) {
 
+        /* For a very small buffer, simply accumulate all the bytes.  */
 
+        const unsigned char *p = buf;
 
+        const unsigned char *e = buf + len;
 
+        unsigned char t = 0;
 
+
 
+        do {
 
+            t |= *p++;
 
+        } while (p < e);
 
+
 
+        return t == 0;
 
+    } else {
 
+        /* Otherwise, use the unaligned memory access functions to
 
+           handle the beginning and end of the buffer, with a couple
 
+           of loops handling the middle aligned section.  */
 
+        uint64_t t = ldq_he_p(buf);
 
+        const uint64_t *p = (uint64_t *)(((uintptr_t)buf + 8) & -8);
 
+        const uint64_t *e = (uint64_t *)(((uintptr_t)buf + len) & -8);
 
+
 
+        for (; p + 8 <= e; p += 8) {
 
+            __builtin_prefetch(p + 8);
 
+            if (t) {
 
+                return false;
 
+            }
 
+            t = p[0] | p[1] | p[2] | p[3] | p[4] | p[5] | p[6] | p[7];
 
+        }
 
+        while (p < e) {
 
+            t |= *p++;
 
+        }
 
+        t |= ldq_he_p(buf + len - 8);
 
+
 
+        return t == 0;
 
+    }
 
+}
 
+
 
+#if defined(__ALTIVEC__)
 
 #include <altivec.h>
 
 /* The altivec.h header says we're allowed to undef these for
 
  * C++ compatibility.  Here we don't care about C++, but we
 
  * undef them anyway to avoid namespace pollution.
 
+ * altivec.h may redefine the bool macro as vector type.
 
+ * Reset it to POSIX semantics.
 
  */
 
 #undef vector
 
 #undef pixel
 
 #undef bool
 
-#define VECTYPE        __vector unsigned char
 
-#define ALL_EQ(v1, v2) vec_all_eq(v1, v2)
 
-#define VEC_OR(v1, v2) ((v1) | (v2))
 
-/* altivec.h may redefine the bool macro as vector type.
 
- * Reset it to POSIX semantics. */
 
 #define bool _Bool
 
-#elif defined __SSE2__
 
-#include <emmintrin.h>
 
-#define VECTYPE        __m128i
 
-#define ALL_EQ(v1, v2) (_mm_movemask_epi8(_mm_cmpeq_epi8(v1, v2)) == 0xFFFF)
 
-#define VEC_OR(v1, v2) (_mm_or_si128(v1, v2))
 
-#elif defined(__aarch64__)
 
-#include "arm_neon.h"
 
-#define VECTYPE        uint64x2_t
 
-#define ALL_EQ(v1, v2) \
 
-        ((vgetq_lane_u64(v1, 0) == vgetq_lane_u64(v2, 0)) && \
 
-         (vgetq_lane_u64(v1, 1) == vgetq_lane_u64(v2, 1)))
 
-#define VEC_OR(v1, v2) ((v1) | (v2))
 
-#else
 
-#define VECTYPE        unsigned long
 
-#define ALL_EQ(v1, v2) ((v1) == (v2))
 
-#define VEC_OR(v1, v2) ((v1) | (v2))
 
-#endif
 
-
 
-#define BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR 8
 
-
 
-static bool
 
-can_use_buffer_find_nonzero_offset_inner(const void *buf, size_t len)
 
-{
 
-    return (len % (BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR
 
-                   * sizeof(VECTYPE)) == 0
 
-            && ((uintptr_t) buf) % sizeof(VECTYPE) == 0);
 
-}
 
-
 
-/*
 
- * Searches for an area with non-zero content in a buffer
 
- *
 
- * Attention! The len must be a multiple of
 
- * BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR * sizeof(VECTYPE)
 
- * and addr must be a multiple of sizeof(VECTYPE) due to
 
- * restriction of optimizations in this function.
 
- *
 
- * can_use_buffer_find_nonzero_offset_inner() can be used to
 
- * check these requirements.
 
- *
 
- * The return value is the offset of the non-zero area rounded
 
- * down to a multiple of sizeof(VECTYPE) for the first
 
- * BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR chunks and down to
 
- * BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR * sizeof(VECTYPE)
 
- * afterwards.
 
- *
 
- * If the buffer is all zero the return value is equal to len.
 
- */
 
+#define DO_NONZERO(X)  vec_any_ne(X, (__vector unsigned char){ 0 })
 
+ACCEL_BUFFER_ZERO(buffer_zero_ppc, 128, __vector unsigned char, DO_NONZERO)
 
 
-static size_t buffer_find_nonzero_offset_inner(const void *buf, size_t len)
 
+static bool select_accel_fn(const void *buf, size_t len)
 
 {
 
-    const VECTYPE *p = buf;
 
-    const VECTYPE zero = (VECTYPE){0};
 
-    size_t i;
 
-
 
-    assert(can_use_buffer_find_nonzero_offset_inner(buf, len));
 
-
 
-    if (!len) {
 
-        return 0;
 
-    }
 
-
 
-    for (i = 0; i < BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR; i++) {
 
-        if (!ALL_EQ(p[i], zero)) {
 
-            return i * sizeof(VECTYPE);
 
-        }
 
+    uintptr_t ibuf = (uintptr_t)buf;
 
+    if (len % 128 == 0 && ibuf % sizeof(__vector unsigned char) == 0) {
 
+        return buffer_zero_ppc(buf, len);
 
     }
 
+    return buffer_zero_int(buf, len);
 
+}
 
 
-    for (i = BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR;
 
-         i < len / sizeof(VECTYPE);
 
-         i += BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR) {
 
-        VECTYPE tmp0 = VEC_OR(p[i + 0], p[i + 1]);
 
-        VECTYPE tmp1 = VEC_OR(p[i + 2], p[i + 3]);
 
-        VECTYPE tmp2 = VEC_OR(p[i + 4], p[i + 5]);
 
-        VECTYPE tmp3 = VEC_OR(p[i + 6], p[i + 7]);
 
-        VECTYPE tmp01 = VEC_OR(tmp0, tmp1);
 
-        VECTYPE tmp23 = VEC_OR(tmp2, tmp3);
 
-        if (!ALL_EQ(VEC_OR(tmp01, tmp23), zero)) {
 
-            break;
 
-        }
 
-    }
 
+#elif defined(CONFIG_AVX2_OPT) || (defined(CONFIG_CPUID_H) && defined(__SSE2__))
 
+#include <cpuid.h>
 
 
-    return i * sizeof(VECTYPE);
 
-}
 
+/* Do not use push_options pragmas unnecessarily, because clang
 
+ * does not support them.
 
+ */
 
+#ifndef __SSE2__
 
+#pragma GCC push_options
 
+#pragma GCC target("sse2")
 
+#endif
 
+#include <emmintrin.h>
 
+#define SSE2_NONZERO(X) \
 
+    (_mm_movemask_epi8(_mm_cmpeq_epi8((X), _mm_setzero_si128())) != 0xFFFF)
 
+ACCEL_BUFFER_ZERO(buffer_zero_sse2, 64, __m128i, SSE2_NONZERO)
 
+#ifndef __SSE2__
 
+#pragma GCC pop_options
 
+#endif
 
 
-#if defined CONFIG_AVX2_OPT
 
+#ifdef CONFIG_AVX2_OPT
 
 #pragma GCC push_options
 
 #pragma GCC target("avx2")
 
-#include <cpuid.h>
 
 #include <immintrin.h>
 
+#define AVX2_NONZERO(X)  !_mm256_testz_si256((X), (X))
 
+ACCEL_BUFFER_ZERO(buffer_zero_avx2, 128, __m256i, AVX2_NONZERO)
 
+#pragma GCC pop_options
 
+#endif
 
 
-#define AVX2_VECTYPE        __m256i
 
-#define AVX2_ALL_EQ(v1, v2) \
 
-    (_mm256_movemask_epi8(_mm256_cmpeq_epi8(v1, v2)) == 0xFFFFFFFF)
 
-#define AVX2_VEC_OR(v1, v2) (_mm256_or_si256(v1, v2))
 
+#define CACHE_AVX2    2
 
+#define CACHE_AVX1    4
 
+#define CACHE_SSE4    8
 
+#define CACHE_SSE2    16
 
 
-static bool
 
-can_use_buffer_find_nonzero_offset_avx2(const void *buf, size_t len)
 
-{
 
-    return (len % (BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR
 
-                   * sizeof(AVX2_VECTYPE)) == 0
 
-            && ((uintptr_t) buf) % sizeof(AVX2_VECTYPE) == 0);
 
-}
 
+static unsigned cpuid_cache;
 
 
-static size_t buffer_find_nonzero_offset_avx2(const void *buf, size_t len)
 
+static void __attribute__((constructor)) init_cpuid_cache(void)
 
 {
 
-    const AVX2_VECTYPE *p = buf;
 
-    const AVX2_VECTYPE zero = (AVX2_VECTYPE){0};
 
-    size_t i;
 
-
 
-    assert(can_use_buffer_find_nonzero_offset_avx2(buf, len));
 
-
 
-    if (!len) {
 
-        return 0;
 
-    }
 
+    int max = __get_cpuid_max(0, NULL);
 
+    int a, b, c, d;
 
+    unsigned cache = 0;
 
 
-    for (i = 0; i < BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR; i++) {
 
-        if (!AVX2_ALL_EQ(p[i], zero)) {
 
-            return i * sizeof(AVX2_VECTYPE);
 
+    if (max >= 1) {
 
+        __cpuid(1, a, b, c, d);
 
+        if (d & bit_SSE2) {
 
+            cache |= CACHE_SSE2;
 
+        }
 
+#ifdef CONFIG_AVX2_OPT
 
+        if (c & bit_SSE4_1) {
 
+            cache |= CACHE_SSE4;
 
         }
 
-    }
 
 
-    for (i = BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR;
 
-         i < len / sizeof(AVX2_VECTYPE);
 
-         i += BUFFER_FIND_NONZERO_OFFSET_UNROLL_FACTOR) {
 
-        AVX2_VECTYPE tmp0 = AVX2_VEC_OR(p[i + 0], p[i + 1]);
 
-        AVX2_VECTYPE tmp1 = AVX2_VEC_OR(p[i + 2], p[i + 3]);
 
-        AVX2_VECTYPE tmp2 = AVX2_VEC_OR(p[i + 4], p[i + 5]);
 
-        AVX2_VECTYPE tmp3 = AVX2_VEC_OR(p[i + 6], p[i + 7]);
 
-        AVX2_VECTYPE tmp01 = AVX2_VEC_OR(tmp0, tmp1);
 
-        AVX2_VECTYPE tmp23 = AVX2_VEC_OR(tmp2, tmp3);
 
-        if (!AVX2_ALL_EQ(AVX2_VEC_OR(tmp01, tmp23), zero)) {
 
-            break;
 
+        /* We must check that AVX is not just available, but usable.  */
 
+        if ((c & bit_OSXSAVE) && (c & bit_AVX)) {
 
+            __asm("xgetbv" : "=a"(a), "=d"(d) : "c"(0));
 
+            if ((a & 6) == 6) {
 
+                cache |= CACHE_AVX1;
 
+                if (max >= 7) {
 
+                    __cpuid_count(7, 0, a, b, c, d);
 
+                    if (b & bit_AVX2) {
 
+                        cache |= CACHE_AVX2;
 
+                    }
 
+                }
 
+            }
 
         }
 
+#endif
 
     }
 
-
 
-    return i * sizeof(AVX2_VECTYPE);
 
+    cpuid_cache = cache;
 
 }
 
 
-static bool avx2_support(void)
 
+static bool select_accel_fn(const void *buf, size_t len)
 
 {
 
-    int a, b, c, d;
 
-
 
-    if (__get_cpuid_max(0, NULL) < 7) {
 
-        return false;
 
+    uintptr_t ibuf = (uintptr_t)buf;
 
+#ifdef CONFIG_AVX2_OPT
 
+    if (len % 128 == 0 && ibuf % 32 == 0 && (cpuid_cache & CACHE_AVX2)) {
 
+        return buffer_zero_avx2(buf, len);
 
     }
 
-
 
-    __cpuid_count(7, 0, a, b, c, d);
 
-
 
-    return b & bit_AVX2;
 
+#endif
 
+    if (len % 64 == 0 && ibuf % 16 == 0 && (cpuid_cache & CACHE_SSE2)) {
 
+        return buffer_zero_sse2(buf, len);
 
+    }
 
+    return buffer_zero_int(buf, len);
 
 }
 
 
-static bool can_use_buffer_find_nonzero_offset(const void *buf, size_t len) \
 
-         __attribute__ ((ifunc("can_use_buffer_find_nonzero_offset_ifunc")));
 
-static size_t buffer_find_nonzero_offset(const void *buf, size_t len) \
 
-         __attribute__ ((ifunc("buffer_find_nonzero_offset_ifunc")));
 
-
 
-static void *buffer_find_nonzero_offset_ifunc(void)
 
-{
 
-    typeof(buffer_find_nonzero_offset) *func = (avx2_support()) ?
 
-        buffer_find_nonzero_offset_avx2 : buffer_find_nonzero_offset_inner;
 
+#elif defined(__aarch64__)
 
+#include "arm_neon.h"
 
 
-    return func;
 
-}
 
+#define DO_NONZERO(X)  (vgetq_lane_u64((X), 0) | vgetq_lane_u64((X), 1))
 
+ACCEL_BUFFER_ZERO(buffer_zero_neon, 128, uint64x2_t, DO_NONZERO)
 
 
-static void *can_use_buffer_find_nonzero_offset_ifunc(void)
 
+static bool select_accel_fn(const void *buf, size_t len)
 
 {
 
-    typeof(can_use_buffer_find_nonzero_offset) *func = (avx2_support()) ?
 
-        can_use_buffer_find_nonzero_offset_avx2 :
 
-        can_use_buffer_find_nonzero_offset_inner;
 
-
 
-    return func;
 
-}
 
-#pragma GCC pop_options
 
-#else
 
-static bool can_use_buffer_find_nonzero_offset(const void *buf, size_t len)
 
-{
 
-    return can_use_buffer_find_nonzero_offset_inner(buf, len);
 
+    uintptr_t ibuf = (uintptr_t)buf;
 
+    if (len % 128 == 0 && ibuf % sizeof(uint64x2_t) == 0) {
 
+        return buffer_zero_neon(buf, len);
 
+    }
 
+    return buffer_zero_int(buf, len);
 
 }
 
 
-static size_t buffer_find_nonzero_offset(const void *buf, size_t len)
 
-{
 
-    return buffer_find_nonzero_offset_inner(buf, len);
 
-}
 
+#else
 
+#define select_accel_fn  buffer_zero_int
 
 #endif
 
 
 /*
 
  * Checks if a buffer is all zeroes
 
- *
 
- * Attention! The len must be a multiple of 4 * sizeof(long) due to
 
- * restriction of optimizations in this function.
 
  */
 
 bool buffer_is_zero(const void *buf, size_t len)
 
 {
 
-    /*
 
-     * Use long as the biggest available internal data type that fits into the
 
-     * CPU register and unroll the loop to smooth out the effect of memory
 
-     * latency.
 
-     */
 
-
 
-    size_t i;
 
-    long d0, d1, d2, d3;
 
-    const long * const data = buf;
 
-
 
-    /* use vector optimized zero check if possible */
 
-    if (can_use_buffer_find_nonzero_offset(buf, len)) {
 
-        return buffer_find_nonzero_offset(buf, len) == len;
 
-    }
 
-
 
-    assert(len % (4 * sizeof(long)) == 0);
 
-    len /= sizeof(long);
 
-
 
-    for (i = 0; i < len; i += 4) {
 
-        d0 = data[i + 0];
 
-        d1 = data[i + 1];
 
-        d2 = data[i + 2];
 
-        d3 = data[i + 3];
 
-
 
-        if (d0 || d1 || d2 || d3) {
 
-            return false;
 
-        }
 
+    if (unlikely(len == 0)) {
 
+        return true;
 
     }
 
 
-    return true;
 
+    /* Use an optimized zero check if possible.  Note that this also
 
+       includes a check for an unrolled loop over 64-bit integers.  */
 
+    return select_accel_fn(buf, len);
 
 }
 
-