/* List of buffer sizes to test */
#if TEST_VALUE_RANGE == 0
static size_t buf_sizes[] = {
- 0, 1, 7, 8, 9, 15, 16, 17, 31, 32, 33, 63, 64, 65, 127, 128, 129, 255,
- 256, 257, 320, 384, 511, 512, 513, 1023, 1024, 1025, 1518, 1522, 1600,
- 2048, 3072, 4096, 5120, 6144, 7168, 8192
+ 1, 2, 3, 4, 5, 6, 7, 8, 9, 12, 15, 16, 17, 31, 32, 33, 63, 64, 65, 127, 128,
+ 129, 191, 192, 193, 255, 256, 257, 319, 320, 321, 383, 384, 385, 447, 448,
+ 449, 511, 512, 513, 767, 768, 769, 1023, 1024, 1025, 1518, 1522, 1536, 1600,
+ 2048, 2560, 3072, 3584, 4096, 4608, 5120, 5632, 6144, 6656, 7168, 7680, 8192
};
/* MUST be as large as largest packet size above */
#define SMALL_BUFFER_SIZE 8192
#define TEST_BATCH_SIZE 100
/* Data is aligned on this many bytes (power of 2) */
-#define ALIGNMENT_UNIT 16
+#define ALIGNMENT_UNIT 32
/*
* Pointers used in performance tests. The two large buffers are for uncached
{
unsigned i;
- large_buf_read = rte_malloc("memcpy", LARGE_BUFFER_SIZE, ALIGNMENT_UNIT);
+ large_buf_read = rte_malloc("memcpy", LARGE_BUFFER_SIZE + ALIGNMENT_UNIT, ALIGNMENT_UNIT);
if (large_buf_read == NULL)
goto error_large_buf_read;
- large_buf_write = rte_malloc("memcpy", LARGE_BUFFER_SIZE, ALIGNMENT_UNIT);
+ large_buf_write = rte_malloc("memcpy", LARGE_BUFFER_SIZE + ALIGNMENT_UNIT, ALIGNMENT_UNIT);
if (large_buf_write == NULL)
goto error_large_buf_write;
- small_buf_read = rte_malloc("memcpy", SMALL_BUFFER_SIZE, ALIGNMENT_UNIT);
+ small_buf_read = rte_malloc("memcpy", SMALL_BUFFER_SIZE + ALIGNMENT_UNIT, ALIGNMENT_UNIT);
if (small_buf_read == NULL)
goto error_small_buf_read;
- small_buf_write = rte_malloc("memcpy", SMALL_BUFFER_SIZE, ALIGNMENT_UNIT);
+ small_buf_write = rte_malloc("memcpy", SMALL_BUFFER_SIZE + ALIGNMENT_UNIT, ALIGNMENT_UNIT);
if (small_buf_write == NULL)
goto error_small_buf_write;
/*
* Get a random offset into large array, with enough space needed to perform
- * max copy size. Offset is aligned.
+ * max copy size. Offset is aligned, uoffset is used for unalignment setting.
*/
static inline size_t
-get_rand_offset(void)
+get_rand_offset(size_t uoffset)
{
- return ((rte_rand() % (LARGE_BUFFER_SIZE - SMALL_BUFFER_SIZE)) &
- ~(ALIGNMENT_UNIT - 1));
+ return (((rte_rand() % (LARGE_BUFFER_SIZE - SMALL_BUFFER_SIZE)) &
+ ~(ALIGNMENT_UNIT - 1)) + uoffset);
}
/* Fill in source and destination addresses. */
static inline void
-fill_addr_arrays(size_t *dst_addr, int is_dst_cached,
- size_t *src_addr, int is_src_cached)
+fill_addr_arrays(size_t *dst_addr, int is_dst_cached, size_t dst_uoffset,
+ size_t *src_addr, int is_src_cached, size_t src_uoffset)
{
unsigned int i;
for (i = 0; i < TEST_BATCH_SIZE; i++) {
- dst_addr[i] = (is_dst_cached) ? 0 : get_rand_offset();
- src_addr[i] = (is_src_cached) ? 0 : get_rand_offset();
+ dst_addr[i] = (is_dst_cached) ? dst_uoffset : get_rand_offset(dst_uoffset);
+ src_addr[i] = (is_src_cached) ? src_uoffset : get_rand_offset(src_uoffset);
}
}
*/
static void
do_uncached_write(uint8_t *dst, int is_dst_cached,
- const uint8_t *src, int is_src_cached, size_t size)
+ const uint8_t *src, int is_src_cached, size_t size)
{
unsigned i, j;
size_t dst_addrs[TEST_BATCH_SIZE], src_addrs[TEST_BATCH_SIZE];
for (i = 0; i < (TEST_ITERATIONS / TEST_BATCH_SIZE); i++) {
- fill_addr_arrays(dst_addrs, is_dst_cached,
- src_addrs, is_src_cached);
- for (j = 0; j < TEST_BATCH_SIZE; j++)
+ fill_addr_arrays(dst_addrs, is_dst_cached, 0,
+ src_addrs, is_src_cached, 0);
+ for (j = 0; j < TEST_BATCH_SIZE; j++) {
rte_memcpy(dst+dst_addrs[j], src+src_addrs[j], size);
+ }
}
}
* Run a single memcpy performance test. This is a macro to ensure that if
* the "size" parameter is a constant it won't be converted to a variable.
*/
-#define SINGLE_PERF_TEST(dst, is_dst_cached, src, is_src_cached, size) do { \
- unsigned int iter, t; \
- size_t dst_addrs[TEST_BATCH_SIZE], src_addrs[TEST_BATCH_SIZE]; \
- uint64_t start_time, total_time = 0; \
- uint64_t total_time2 = 0; \
- for (iter = 0; iter < (TEST_ITERATIONS / TEST_BATCH_SIZE); iter++) { \
- fill_addr_arrays(dst_addrs, is_dst_cached, \
- src_addrs, is_src_cached); \
- start_time = rte_rdtsc(); \
- for (t = 0; t < TEST_BATCH_SIZE; t++) \
- rte_memcpy(dst+dst_addrs[t], src+src_addrs[t], size); \
- total_time += rte_rdtsc() - start_time; \
- } \
- for (iter = 0; iter < (TEST_ITERATIONS / TEST_BATCH_SIZE); iter++) { \
- fill_addr_arrays(dst_addrs, is_dst_cached, \
- src_addrs, is_src_cached); \
- start_time = rte_rdtsc(); \
- for (t = 0; t < TEST_BATCH_SIZE; t++) \
- memcpy(dst+dst_addrs[t], src+src_addrs[t], size); \
- total_time2 += rte_rdtsc() - start_time; \
- } \
- printf("%8.0f -", (double)total_time /TEST_ITERATIONS); \
- printf("%5.0f", (double)total_time2 / TEST_ITERATIONS); \
+#define SINGLE_PERF_TEST(dst, is_dst_cached, dst_uoffset, \
+ src, is_src_cached, src_uoffset, size) \
+do { \
+ unsigned int iter, t; \
+ size_t dst_addrs[TEST_BATCH_SIZE], src_addrs[TEST_BATCH_SIZE]; \
+ uint64_t start_time, total_time = 0; \
+ uint64_t total_time2 = 0; \
+ for (iter = 0; iter < (TEST_ITERATIONS / TEST_BATCH_SIZE); iter++) { \
+ fill_addr_arrays(dst_addrs, is_dst_cached, dst_uoffset, \
+ src_addrs, is_src_cached, src_uoffset); \
+ start_time = rte_rdtsc(); \
+ for (t = 0; t < TEST_BATCH_SIZE; t++) \
+ rte_memcpy(dst+dst_addrs[t], src+src_addrs[t], size); \
+ total_time += rte_rdtsc() - start_time; \
+ } \
+ for (iter = 0; iter < (TEST_ITERATIONS / TEST_BATCH_SIZE); iter++) { \
+ fill_addr_arrays(dst_addrs, is_dst_cached, dst_uoffset, \
+ src_addrs, is_src_cached, src_uoffset); \
+ start_time = rte_rdtsc(); \
+ for (t = 0; t < TEST_BATCH_SIZE; t++) \
+ memcpy(dst+dst_addrs[t], src+src_addrs[t], size); \
+ total_time2 += rte_rdtsc() - start_time; \
+ } \
+ printf("%8.0f -", (double)total_time /TEST_ITERATIONS); \
+ printf("%5.0f", (double)total_time2 / TEST_ITERATIONS); \
} while (0)
-/* Run memcpy() tests for each cached/uncached permutation. */
-#define ALL_PERF_TESTS_FOR_SIZE(n) do { \
- if (__builtin_constant_p(n)) \
- printf("\nC%6u", (unsigned)n); \
- else \
- printf("\n%7u", (unsigned)n); \
- SINGLE_PERF_TEST(small_buf_write, 1, small_buf_read, 1, n); \
- SINGLE_PERF_TEST(large_buf_write, 0, small_buf_read, 1, n); \
- SINGLE_PERF_TEST(small_buf_write, 1, large_buf_read, 0, n); \
- SINGLE_PERF_TEST(large_buf_write, 0, large_buf_read, 0, n); \
+/* Run aligned memcpy tests for each cached/uncached permutation */
+#define ALL_PERF_TESTS_FOR_SIZE(n) \
+do { \
+ if (__builtin_constant_p(n)) \
+ printf("\nC%6u", (unsigned)n); \
+ else \
+ printf("\n%7u", (unsigned)n); \
+ SINGLE_PERF_TEST(small_buf_write, 1, 0, small_buf_read, 1, 0, n); \
+ SINGLE_PERF_TEST(large_buf_write, 0, 0, small_buf_read, 1, 0, n); \
+ SINGLE_PERF_TEST(small_buf_write, 1, 0, large_buf_read, 0, 0, n); \
+ SINGLE_PERF_TEST(large_buf_write, 0, 0, large_buf_read, 0, 0, n); \
} while (0)
-/*
- * Run performance tests for a number of different sizes and cached/uncached
- * permutations.
- */
+/* Run unaligned memcpy tests for each cached/uncached permutation */
+#define ALL_PERF_TESTS_FOR_SIZE_UNALIGNED(n) \
+do { \
+ if (__builtin_constant_p(n)) \
+ printf("\nC%6u", (unsigned)n); \
+ else \
+ printf("\n%7u", (unsigned)n); \
+ SINGLE_PERF_TEST(small_buf_write, 1, 1, small_buf_read, 1, 5, n); \
+ SINGLE_PERF_TEST(large_buf_write, 0, 1, small_buf_read, 1, 5, n); \
+ SINGLE_PERF_TEST(small_buf_write, 1, 1, large_buf_read, 0, 5, n); \
+ SINGLE_PERF_TEST(large_buf_write, 0, 1, large_buf_read, 0, 5, n); \
+} while (0)
+
+/* Run memcpy tests for constant length */
+#define ALL_PERF_TEST_FOR_CONSTANT \
+do { \
+ TEST_CONSTANT(6U); TEST_CONSTANT(64U); TEST_CONSTANT(128U); \
+ TEST_CONSTANT(192U); TEST_CONSTANT(256U); TEST_CONSTANT(512U); \
+ TEST_CONSTANT(768U); TEST_CONSTANT(1024U); TEST_CONSTANT(1536U); \
+} while (0)
+
+/* Run all memcpy tests for aligned constant cases */
+static inline void
+perf_test_constant_aligned(void)
+{
+#define TEST_CONSTANT ALL_PERF_TESTS_FOR_SIZE
+ ALL_PERF_TEST_FOR_CONSTANT;
+#undef TEST_CONSTANT
+}
+
+/* Run all memcpy tests for unaligned constant cases */
+static inline void
+perf_test_constant_unaligned(void)
+{
+#define TEST_CONSTANT ALL_PERF_TESTS_FOR_SIZE_UNALIGNED
+ ALL_PERF_TEST_FOR_CONSTANT;
+#undef TEST_CONSTANT
+}
+
+/* Run all memcpy tests for aligned variable cases */
+static inline void
+perf_test_variable_aligned(void)
+{
+ unsigned n = sizeof(buf_sizes) / sizeof(buf_sizes[0]);
+ unsigned i;
+ for (i = 0; i < n; i++) {
+ ALL_PERF_TESTS_FOR_SIZE((size_t)buf_sizes[i]);
+ }
+}
+
+/* Run all memcpy tests for unaligned variable cases */
+static inline void
+perf_test_variable_unaligned(void)
+{
+ unsigned n = sizeof(buf_sizes) / sizeof(buf_sizes[0]);
+ unsigned i;
+ for (i = 0; i < n; i++) {
+ ALL_PERF_TESTS_FOR_SIZE_UNALIGNED((size_t)buf_sizes[i]);
+ }
+}
+
+/* Run all memcpy tests */
static int
perf_test(void)
{
- const unsigned num_buf_sizes = sizeof(buf_sizes) / sizeof(buf_sizes[0]);
- unsigned i;
int ret;
ret = init_buffers();
return ret;
#if TEST_VALUE_RANGE != 0
- /* Setup buf_sizes array, if required */
+ /* Set up buf_sizes array, if required */
+ unsigned i;
for (i = 0; i < TEST_VALUE_RANGE; i++)
buf_sizes[i] = i;
#endif
do_uncached_write(large_buf_write, 0, small_buf_read, 1, SMALL_BUFFER_SIZE);
printf("\n** rte_memcpy() - memcpy perf. tests (C = compile-time constant) **\n"
- "======= ============== ============== ============== ==============\n"
- " Size Cache to cache Cache to mem Mem to cache Mem to mem\n"
- "(bytes) (ticks) (ticks) (ticks) (ticks)\n"
- "------- -------------- -------------- -------------- --------------");
-
- /* Do tests where size is a variable */
- for (i = 0; i < num_buf_sizes; i++) {
- ALL_PERF_TESTS_FOR_SIZE((size_t)buf_sizes[i]);
- }
+ "======= ============== ============== ============== ==============\n"
+ " Size Cache to cache Cache to mem Mem to cache Mem to mem\n"
+ "(bytes) (ticks) (ticks) (ticks) (ticks)\n"
+ "------- -------------- -------------- -------------- --------------");
+
+ printf("\n========================== %2dB aligned ============================", ALIGNMENT_UNIT);
+ /* Do aligned tests where size is a variable */
+ perf_test_variable_aligned();
printf("\n------- -------------- -------------- -------------- --------------");
- /* Do tests where size is a compile-time constant */
- ALL_PERF_TESTS_FOR_SIZE(63U);
- ALL_PERF_TESTS_FOR_SIZE(64U);
- ALL_PERF_TESTS_FOR_SIZE(65U);
- ALL_PERF_TESTS_FOR_SIZE(255U);
- ALL_PERF_TESTS_FOR_SIZE(256U);
- ALL_PERF_TESTS_FOR_SIZE(257U);
- ALL_PERF_TESTS_FOR_SIZE(1023U);
- ALL_PERF_TESTS_FOR_SIZE(1024U);
- ALL_PERF_TESTS_FOR_SIZE(1025U);
- ALL_PERF_TESTS_FOR_SIZE(1518U);
-
+ /* Do aligned tests where size is a compile-time constant */
+ perf_test_constant_aligned();
+ printf("\n=========================== Unaligned =============================");
+ /* Do unaligned tests where size is a variable */
+ perf_test_variable_unaligned();
+ printf("\n------- -------------- -------------- -------------- --------------");
+ /* Do unaligned tests where size is a compile-time constant */
+ perf_test_constant_unaligned();
printf("\n======= ============== ============== ============== ==============\n\n");
free_buffers();
return 0;
}
-
static int
test_memcpy_perf(void)
{