@@ -71,11 +71,13 @@ flags_thunderx2_extra = [
['RTE_CACHE_LINE_SIZE', 64],
['RTE_MAX_NUMA_NODES', 2],
['RTE_MAX_LCORE', 256],
+ ['RTE_ARM_FEATURE_ATOMICS', true],
['RTE_USE_C11_MEM_MODEL', true]]
flags_octeontx2_extra = [
['RTE_MACHINE', '"octeontx2"'],
['RTE_MAX_NUMA_NODES', 1],
['RTE_MAX_LCORE', 24],
+ ['RTE_ARM_FEATURE_ATOMICS', true],
['RTE_EAL_IGB_UIO', false],
['RTE_USE_C11_MEM_MODEL', true]]
@@ -82,6 +82,9 @@ CONFIG_RTE_MAX_LCORE=128
CONFIG_RTE_MAX_NUMA_NODES=8
CONFIG_RTE_MAX_HEAPS=32
CONFIG_RTE_MAX_MEMSEG_LISTS=64
+
+# Use ARM LSE ATOMIC instructions
+CONFIG_RTE_ARM_FEATURE_ATOMICS=n
# each memseg list will be limited to either RTE_MAX_MEMSEG_PER_LIST pages
# or RTE_MAX_MEM_MB_PER_LIST megabytes worth of memory, whichever is smaller
CONFIG_RTE_MAX_MEMSEG_PER_LIST=8192
@@ -9,6 +9,7 @@ CONFIG_RTE_MACHINE="octeontx2"
CONFIG_RTE_CACHE_LINE_SIZE=128
CONFIG_RTE_MAX_NUMA_NODES=1
CONFIG_RTE_MAX_LCORE=24
+CONFIG_RTE_ARM_FEATURE_ATOMICS=y
# Doesn't support NUMA
CONFIG_RTE_EAL_NUMA_AWARE_HUGEPAGES=n
@@ -9,3 +9,4 @@ CONFIG_RTE_MACHINE="thunderx2"
CONFIG_RTE_CACHE_LINE_SIZE=64
CONFIG_RTE_MAX_NUMA_NODES=2
CONFIG_RTE_MAX_LCORE=256
+CONFIG_RTE_ARM_FEATURE_ATOMICS=y
@@ -1,5 +1,6 @@
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2015 Cavium, Inc
+ * Copyright(c) 2019 Arm Limited
*/
#ifndef _RTE_ATOMIC_ARM64_H_
@@ -14,6 +15,9 @@ extern "C" {
#endif
#include "generic/rte_atomic.h"
+#include <rte_branch_prediction.h>
+#include <rte_compat.h>
+#include <rte_debug.h>
#define dsb(opt) asm volatile("dsb " #opt : : : "memory")
#define dmb(opt) asm volatile("dmb " #opt : : : "memory")
@@ -40,6 +44,165 @@ extern "C" {
#define rte_cio_rmb() dmb(oshld)
+/*------------------------ 128 bit atomic operations -------------------------*/
+
+#define __HAS_ACQ(mo) ((mo) != __ATOMIC_RELAXED && (mo) != __ATOMIC_RELEASE)
+#define __HAS_RLS(mo) ((mo) == __ATOMIC_RELEASE || (mo) == __ATOMIC_ACQ_REL || \
+ (mo) == __ATOMIC_SEQ_CST)
+
+#define __MO_LOAD(mo) (__HAS_ACQ((mo)) ? __ATOMIC_ACQUIRE : __ATOMIC_RELAXED)
+#define __MO_STORE(mo) (__HAS_RLS((mo)) ? __ATOMIC_RELEASE : __ATOMIC_RELAXED)
+
+#if defined(__ARM_FEATURE_ATOMICS) || defined(RTE_ARM_FEATURE_ATOMICS)
+#define __ATOMIC128_CAS_OP(cas_op_name, op_string) \
+static __rte_noinline rte_int128_t \
+cas_op_name(rte_int128_t *dst, rte_int128_t old, \
+ rte_int128_t updated) \
+{ \
+ /* caspX instructions register pair must start from even-numbered
+ * register at operand 1.
+ * So, specify registers for local variables here.
+ */ \
+ register uint64_t x0 __asm("x0") = (uint64_t)old.val[0]; \
+ register uint64_t x1 __asm("x1") = (uint64_t)old.val[1]; \
+ register uint64_t x2 __asm("x2") = (uint64_t)updated.val[0]; \
+ register uint64_t x3 __asm("x3") = (uint64_t)updated.val[1]; \
+ asm volatile( \
+ op_string " %[old0], %[old1], %[upd0], %[upd1], [%[dst]]" \
+ : [old0] "+r" (x0), \
+ [old1] "+r" (x1) \
+ : [upd0] "r" (x2), \
+ [upd1] "r" (x3), \
+ [dst] "r" (dst) \
+ : "memory"); \
+ old.val[0] = x0; \
+ old.val[1] = x1; \
+ return old; \
+}
+
+__ATOMIC128_CAS_OP(__rte_cas_relaxed, "casp")
+__ATOMIC128_CAS_OP(__rte_cas_acquire, "caspa")
+__ATOMIC128_CAS_OP(__rte_cas_release, "caspl")
+__ATOMIC128_CAS_OP(__rte_cas_acq_rel, "caspal")
+#else
+#define __ATOMIC128_LDX_OP(ldx_op_name, op_string) \
+static inline rte_int128_t \
+ldx_op_name(const rte_int128_t *src) \
+{ \
+ rte_int128_t ret; \
+ asm volatile( \
+ op_string " %0, %1, %2" \
+ : "=&r" (ret.val[0]), \
+ "=&r" (ret.val[1]) \
+ : "Q" (src->val[0]) \
+ : "memory"); \
+ return ret; \
+}
+
+__ATOMIC128_LDX_OP(__rte_ldx_relaxed, "ldxp")
+__ATOMIC128_LDX_OP(__rte_ldx_acquire, "ldaxp")
+
+#define __ATOMIC128_STX_OP(stx_op_name, op_string) \
+static inline uint32_t \
+stx_op_name(rte_int128_t *dst, const rte_int128_t src) \
+{ \
+ uint32_t ret; \
+ asm volatile( \
+ op_string " %w0, %1, %2, %3" \
+ : "=&r" (ret) \
+ : "r" (src.val[0]), \
+ "r" (src.val[1]), \
+ "Q" (dst->val[0]) \
+ : "memory"); \
+ /* Return 0 on success, 1 on failure */ \
+ return ret; \
+}
+
+__ATOMIC128_STX_OP(__rte_stx_relaxed, "stxp")
+__ATOMIC128_STX_OP(__rte_stx_release, "stlxp")
+#endif
+
+static inline int __rte_experimental
+rte_atomic128_cmp_exchange(rte_int128_t *dst,
+ rte_int128_t *exp,
+ const rte_int128_t *src,
+ unsigned int weak,
+ int success,
+ int failure)
+{
+ /* Always do strong CAS */
+ RTE_SET_USED(weak);
+ /* Ignore memory ordering for failure, memory order for
+ * success must be stronger or equal
+ */
+ RTE_SET_USED(failure);
+ /* Find invalid memory order */
+ RTE_ASSERT(success == __ATOMIC_RELAXED
+ || success == __ATOMIC_ACQUIRE
+ || success == __ATOMIC_RELEASE
+ || success == __ATOMIC_ACQ_REL
+ || success == __ATOMIC_SEQ_CST);
+
+#if defined(__ARM_FEATURE_ATOMICS) || defined(RTE_ARM_FEATURE_ATOMICS)
+ rte_int128_t expected = *exp;
+ rte_int128_t desired = *src;
+ rte_int128_t old;
+
+ if (success == __ATOMIC_RELAXED)
+ old = __rte_cas_relaxed(dst, expected, desired);
+ else if (success == __ATOMIC_ACQUIRE)
+ old = __rte_cas_acquire(dst, expected, desired);
+ else if (success == __ATOMIC_RELEASE)
+ old = __rte_cas_release(dst, expected, desired);
+ else
+ old = __rte_cas_acq_rel(dst, expected, desired);
+#else
+ int ldx_mo = __MO_LOAD(success);
+ int stx_mo = __MO_STORE(success);
+ uint32_t ret = 1;
+ register rte_int128_t expected = *exp;
+ register rte_int128_t desired = *src;
+ register rte_int128_t old;
+
+ /* ldx128 can not guarantee atomic,
+ * Must write back src or old to verify atomicity of ldx128;
+ */
+ do {
+ if (ldx_mo == __ATOMIC_RELAXED)
+ old = __rte_ldx_relaxed(dst);
+ else
+ old = __rte_ldx_acquire(dst);
+
+ if (likely(old.int128 == expected.int128)) {
+ if (stx_mo == __ATOMIC_RELAXED)
+ ret = __rte_stx_relaxed(dst, desired);
+ else
+ ret = __rte_stx_release(dst, desired);
+ } else {
+ /* In the failure case (since 'weak' is ignored and only
+ * weak == 0 is implemented), expected should contain
+ * the atomically read value of dst. This means, 'old'
+ * needs to be stored back to ensure it was read
+ * atomically.
+ */
+ if (stx_mo == __ATOMIC_RELAXED)
+ ret = __rte_stx_relaxed(dst, old);
+ else
+ ret = __rte_stx_release(dst, old);
+ }
+ } while (unlikely(ret));
+#endif
+
+ /* Unconditionally updating expected removes
+ * an 'if' statement.
+ * expected should already be in register if
+ * not in the cache.
+ */
+ *exp = old;
+
+ return (old.int128 == expected.int128);
+}
+
#ifdef __cplusplus
}
#endif
@@ -212,18 +212,6 @@ static inline void rte_atomic64_clear(rte_atomic64_t *v)
/*------------------------ 128 bit atomic operations -------------------------*/
-/**
- * 128-bit integer structure.
- */
-RTE_STD_C11
-typedef struct {
- RTE_STD_C11
- union {
- uint64_t val[2];
- __extension__ __int128 int128;
- };
-} __rte_aligned(16) rte_int128_t;
-
__rte_experimental
static inline int
rte_atomic128_cmp_exchange(rte_int128_t *dst,
@@ -1081,6 +1081,20 @@ static inline void rte_atomic64_clear(rte_atomic64_t *v)
/*------------------------ 128 bit atomic operations -------------------------*/
+/**
+ * 128-bit integer structure.
+ */
+RTE_STD_C11
+typedef struct {
+ RTE_STD_C11
+ union {
+ uint64_t val[2];
+#ifdef RTE_ARCH_64
+ __extension__ __int128 int128;
+#endif
+ };
+} __rte_aligned(16) rte_int128_t;
+
#ifdef __DOXYGEN__
/**
@@ -1093,7 +1107,8 @@ static inline void rte_atomic64_clear(rte_atomic64_t *v)
* *exp = *dst
* @endcode
*
- * @note This function is currently only available for the x86-64 platform.
+ * @note This function is currently available for the x86-64 and aarch64
+ * platforms.
*
* @note The success and failure arguments must be one of the __ATOMIC_* values
* defined in the C++11 standard. For details on their behavior, refer to the