[dpdk-dev] [PATCH v3] arch/arm: optimization for memcpy on AArch64

Herbert Guan herbert.guan at arm.com
Mon Dec 18 03:54:24 CET 2017


This patch provides an option to do rte_memcpy() using 'restrict'
qualifier, which can induce GCC to do optimizations by using more
efficient instructions, providing some performance gain over memcpy()
on some AArch64 platforms/enviroments.

The memory copy performance differs between different AArch64
platforms. And a more recent glibc (e.g. 2.23 or later)
can provide a better memcpy() performance compared to old glibc
versions. It's always suggested to use a more recent glibc if
possible, from which the entire system can get benefit. If for some
reason an old glibc has to be used, this patch is provided for an
alternative.

This implementation can improve memory copy on some AArch64
platforms, when an old glibc (e.g. 2.19, 2.17...) is being used.
It is disabled by default and needs "RTE_ARCH_ARM64_MEMCPY"
defined to activate. It's not always proving better performance
than memcpy() so users need to run DPDK unit test
"memcpy_perf_autotest" and customize parameters in "customization
section" in rte_memcpy_64.h for best performance.

Compiler version will also impact the rte_memcpy() performance.
It's observed on some platforms and with the same code, GCC 7.2.0
compiled binary can provide better performance than GCC 4.8.5. It's
suggested to use GCC 5.4.0 or later.

Signed-off-by: Herbert Guan <herbert.guan at arm.com>
---
 config/common_armv8a_linuxapp                      |   6 +
 .../common/include/arch/arm/rte_memcpy_64.h        | 292 +++++++++++++++++++++
 2 files changed, 298 insertions(+)

diff --git a/config/common_armv8a_linuxapp b/config/common_armv8a_linuxapp
index 6732d1e..8f0cbed 100644
--- a/config/common_armv8a_linuxapp
+++ b/config/common_armv8a_linuxapp
@@ -44,6 +44,12 @@ CONFIG_RTE_FORCE_INTRINSICS=y
 # to address minimum DMA alignment across all arm64 implementations.
 CONFIG_RTE_CACHE_LINE_SIZE=128
 
+# Accelarate rte_memcpy.  Be sure to run unit test to determine the
+# best threshold in code.  Refer to notes in source file
+# (lib/librte_eal/common/include/arch/arm/rte_memcpy_64.h) for more
+# info.
+CONFIG_RTE_ARCH_ARM64_MEMCPY=n
+
 CONFIG_RTE_LIBRTE_FM10K_PMD=n
 CONFIG_RTE_LIBRTE_SFC_EFX_PMD=n
 CONFIG_RTE_LIBRTE_AVP_PMD=n
diff --git a/lib/librte_eal/common/include/arch/arm/rte_memcpy_64.h b/lib/librte_eal/common/include/arch/arm/rte_memcpy_64.h
index b80d8ba..1ea275d 100644
--- a/lib/librte_eal/common/include/arch/arm/rte_memcpy_64.h
+++ b/lib/librte_eal/common/include/arch/arm/rte_memcpy_64.h
@@ -42,6 +42,296 @@
 
 #include "generic/rte_memcpy.h"
 
+#ifdef RTE_ARCH_ARM64_MEMCPY
+#include <rte_common.h>
+#include <rte_branch_prediction.h>
+
+/*
+ * The memory copy performance differs on different AArch64 micro-architectures.
+ * And the most recent glibc (e.g. 2.23 or later) can provide a better memcpy()
+ * performance compared to old glibc versions. It's always suggested to use a
+ * more recent glibc if possible, from which the entire system can get benefit.
+ *
+ * This implementation improves memory copy on some aarch64 micro-architectures,
+ * when an old glibc (e.g. 2.19, 2.17...) is being used. It is disabled by
+ * default and needs "RTE_ARCH_ARM64_MEMCPY" defined to activate. It's not
+ * always providing better performance than memcpy() so users need to run unit
+ * test "memcpy_perf_autotest" and customize parameters in customization section
+ * below for best performance.
+ *
+ * Compiler version will also impact the rte_memcpy() performance. It's observed
+ * on some platforms and with the same code, GCC 7.2.0 compiled binaries can
+ * provide better performance than GCC 4.8.5 compiled binaries.
+ */
+
+/**************************************
+ * Beginning of customization section
+ **************************************/
+#define ALIGNMENT_MASK 0x0F
+#ifndef RTE_ARCH_ARM64_MEMCPY_STRICT_ALIGN
+/* Only src unalignment will be treaed as unaligned copy */
+#define IS_UNALIGNED_COPY(dst, src) ((uintptr_t)(dst) & ALIGNMENT_MASK)
+#else
+/* Both dst and src unalignment will be treated as unaligned copy */
+#define IS_UNALIGNED_COPY(dst, src) \
+		(((uintptr_t)(dst) | (uintptr_t)(src)) & ALIGNMENT_MASK)
+#endif
+
+
+/*
+ * If copy size is larger than threshold, memcpy() will be used.
+ * Run "memcpy_perf_autotest" to determine the proper threshold.
+ */
+#define ALIGNED_THRESHOLD       ((size_t)(0xffffffff))
+#define UNALIGNED_THRESHOLD     ((size_t)(0xffffffff))
+
+/**************************************
+ * End of customization section
+ **************************************/
+#ifdef RTE_TOOLCHAIN_GCC
+#if (GCC_VERSION < 50400)
+#warning "The GCC version is quite old, which may result in sub-optimal \
+performance of the compiled code. It is suggested that at least GCC 5.4.0 \
+be used."
+#endif
+#endif
+
+static __rte_always_inline void
+rte_mov16(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	__uint128_t *restrict dst128 = (__uint128_t *restrict)dst;
+	const __uint128_t *restrict src128 = (const __uint128_t *restrict)src;
+	*dst128 = *src128;
+}
+
+static __rte_always_inline void
+rte_mov32(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	__uint128_t *restrict dst128 = (__uint128_t *restrict)dst;
+	const __uint128_t *restrict src128 = (const __uint128_t *restrict)src;
+	dst128[0] = src128[0];
+	dst128[1] = src128[1];
+}
+
+static __rte_always_inline void
+rte_mov48(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	__uint128_t *restrict dst128 = (__uint128_t *restrict)dst;
+	const __uint128_t *restrict src128 = (const __uint128_t *restrict)src;
+	dst128[0] = src128[0];
+	dst128[1] = src128[1];
+	dst128[2] = src128[2];
+}
+
+static __rte_always_inline void
+rte_mov64(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	__uint128_t *restrict dst128 = (__uint128_t *restrict)dst;
+	const __uint128_t *restrict src128 = (const __uint128_t *restrict)src;
+	dst128[0] = src128[0];
+	dst128[1] = src128[1];
+	dst128[2] = src128[2];
+	dst128[3] = src128[3];
+}
+
+static __rte_always_inline void
+rte_mov128(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	/*
+	 * GCC generated code is not having good performance in 128 bytes
+	 * case on some platforms.  Use ASM codes can aviod such downgrade.
+	 */
+	register uint64_t tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, tmp8,
+			tmp9, tmp10, tmp11, tmp12, tmp13, tmp14, tmp15, tmp16;
+	__asm__  __volatile__ (
+		"ldp %2, %3, [%0]\n\t"
+		"ldp %4, %5, [%0, 16]\n\t"
+		"ldp %6, %7, [%0, 32]\n\t"
+		"ldp %8, %9, [%0, 48]\n\t"
+		"ldp %10, %11, [%0, 64]\n\t"
+		"ldp %12, %13, [%0, 80]\n\t"
+		"ldp %14, %15, [%0, 96]\n\t"
+		"ldp %16, %17, [%0, 112]\n\t"
+		"stp %2, %3, [%1]\n\t"
+		"stp %4, %5, [%1, 16]\n\t"
+		"stp %6, %7, [%1, 32]\n\t"
+		"stp %8, %9, [%1, 48]\n\t"
+		"stp %10, %11, [%1, 64]\n\t"
+		"stp %12, %13, [%1, 80]\n\t"
+		"stp %14, %15, [%1, 96]\n\t"
+		"stp %16, %17, [%1, 112]\n\t"
+		: "+r" (src), "+r" (dst),
+		  "=&r" (tmp1), "=&r" (tmp2), "=&r" (tmp3), "=&r" (tmp4),
+		  "=&r" (tmp5), "=&r" (tmp6), "=&r" (tmp7), "=&r" (tmp8),
+		  "=&r" (tmp9), "=&r" (tmp10), "=&r" (tmp11), "=&r" (tmp12),
+		  "=&r" (tmp13), "=&r" (tmp14), "=&r" (tmp15), "=&r" (tmp16)
+		:
+		: "memory");
+}
+
+static __rte_always_inline void
+rte_mov256(uint8_t *restrict dst, const uint8_t *restrict src)
+{
+	rte_mov128(dst, src);
+	rte_mov128(dst + 128, src + 128);
+}
+
+static __rte_always_inline void
+rte_memcpy_lt16(uint8_t *restrict dst, const uint8_t *restrict src, size_t n)
+{
+	if (n & 0x08) {
+		/* copy 8 ~ 15 bytes */
+		*(uint64_t *)dst = *(const uint64_t *)src;
+		*(uint64_t *)(dst - 8 + n) = *(const uint64_t *)(src - 8 + n);
+	} else if (n & 0x04) {
+		/* copy 4 ~ 7 bytes */
+		*(uint32_t *)dst = *(const uint32_t *)src;
+		*(uint32_t *)(dst - 4 + n) = *(const uint32_t *)(src - 4 + n);
+	} else if (n & 0x02) {
+		/* copy 2 ~ 3 bytes */
+		*(uint16_t *)dst = *(const uint16_t *)src;
+		*(uint16_t *)(dst - 2 + n) = *(const uint16_t *)(src - 2 + n);
+	} else if (n & 0x01) {
+		/* copy 1 byte */
+		*dst = *src;
+	}
+}
+
+
+#if RTE_CACHE_LINE_SIZE >= 128
+static __rte_always_inline void
+rte_memcpy_ge16_lt128
+(uint8_t *restrict dst, const uint8_t *restrict src, size_t n)
+{
+	if (n < 64) {
+		if (n == 16) {
+			rte_mov16(dst, src);
+		} else if (n <= 32) {
+			rte_mov16(dst, src);
+			rte_mov16(dst - 16 + n, src - 16 + n);
+		} else if (n <= 48) {
+			rte_mov32(dst, src);
+			rte_mov16(dst - 16 + n, src - 16 + n);
+		} else {
+			rte_mov48(dst, src);
+			rte_mov16(dst - 16 + n, src - 16 + n);
+		}
+	} else {
+		rte_mov64((uint8_t *)dst, (const uint8_t *)src);
+		if (n > 48 + 64)
+			rte_mov64(dst - 64 + n, src - 64 + n);
+		else if (n > 32 + 64)
+			rte_mov48(dst - 48 + n, src - 48 + n);
+		else if (n > 16 + 64)
+			rte_mov32(dst - 32 + n, src - 32 + n);
+		else if (n > 64)
+			rte_mov16(dst - 16 + n, src - 16 + n);
+	}
+}
+
+static __rte_always_inline void
+rte_memcpy_ge128(uint8_t *restrict dst, const uint8_t *restrict src, size_t n)
+{
+	do {
+		rte_mov128(dst, src);
+		src += 128;
+		dst += 128;
+		n -= 128;
+	} while (likely(n >= 128));
+
+	if (likely(n)) {
+		if (n <= 16)
+			rte_mov16(dst - 16 + n, src - 16 + n);
+		else if (n <= 32)
+			rte_mov32(dst - 32 + n, src - 32 + n);
+		else if (n <= 48)
+			rte_mov48(dst - 48 + n, src - 48 + n);
+		else if (n <= 64)
+			rte_mov64(dst - 64 + n, src - 64 + n);
+		else
+			rte_memcpy_ge16_lt128(dst, src, n);
+	}
+}
+
+#else
+static __rte_always_inline void
+rte_memcpy_ge16_lt64
+(uint8_t *restrict dst, const uint8_t *restrict src, size_t n)
+{
+	if (n == 16) {
+		rte_mov16(dst, src);
+	} else if (n <= 32) {
+		rte_mov16(dst, src);
+		rte_mov16(dst - 16 + n, src - 16 + n);
+	} else if (n <= 48) {
+		rte_mov32(dst, src);
+		rte_mov16(dst - 16 + n, src - 16 + n);
+	} else {
+		rte_mov48(dst, src);
+		rte_mov16(dst - 16 + n, src - 16 + n);
+	}
+}
+
+static __rte_always_inline void
+rte_memcpy_ge64(uint8_t *restrict dst, const uint8_t *restrict src, size_t n)
+{
+	do {
+		rte_mov64(dst, src);
+		src += 64;
+		dst += 64;
+		n -= 64;
+	} while (likely(n >= 64));
+
+	if (likely(n)) {
+		if (n <= 16)
+			rte_mov16(dst - 16 + n, src - 16 + n);
+		else if (n <= 32)
+			rte_mov32(dst - 32 + n, src - 32 + n);
+		else if (n <= 48)
+			rte_mov48(dst - 48 + n, src - 48 + n);
+		else
+			rte_mov64(dst - 64 + n, src - 64 + n);
+	}
+}
+
+#endif
+
+static __rte_always_inline void *
+rte_memcpy(void *restrict dst, const void *restrict src, size_t n)
+{
+	if (n < 16) {
+		rte_memcpy_lt16((uint8_t *)dst, (const uint8_t *)src, n);
+		return dst;
+	}
+#if RTE_CACHE_LINE_SIZE >= 128
+	if (n < 128) {
+		rte_memcpy_ge16_lt128((uint8_t *)dst, (const uint8_t *)src, n);
+		return dst;
+	}
+#else
+	if (n < 64) {
+		rte_memcpy_ge16_lt64((uint8_t *)dst, (const uint8_t *)src, n);
+		return dst;
+	}
+#endif
+	__builtin_prefetch(src, 0, 0);
+	__builtin_prefetch(dst, 1, 0);
+	if (likely(
+		  (!IS_UNALIGNED_COPY(dst, src) && n <= ALIGNED_THRESHOLD)
+		   || (IS_UNALIGNED_COPY(dst, src) && n <= UNALIGNED_THRESHOLD)
+		  )) {
+#if RTE_CACHE_LINE_SIZE >= 128
+		rte_memcpy_ge128((uint8_t *)dst, (const uint8_t *)src, n);
+#else
+		rte_memcpy_ge64((uint8_t *)dst, (const uint8_t *)src, n);
+#endif
+		return dst;
+	} else
+		return memcpy(dst, src, n);
+}
+
+
+#else
 static inline void
 rte_mov16(uint8_t *dst, const uint8_t *src)
 {
@@ -80,6 +370,8 @@
 
 #define rte_memcpy(d, s, n)	memcpy((d), (s), (n))
 
+#endif
+
 #ifdef __cplusplus
 }
 #endif
-- 
1.8.3.1



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