server-skynet-source-3rd-je.../test/unit/extent_util.c

#include "test/jemalloc_test.h"

#define TEST_UTIL_EINVAL(node, a, b, c, d, why_inval) do {		\
	assert_d_eq(mallctl("experimental.utilization." node,		\
	    a, b, c, d), EINVAL, "Should fail when " why_inval);	\
	assert_zu_eq(out_sz, out_sz_ref,				\
	    "Output size touched when given invalid arguments");	\
	assert_d_eq(memcmp(out, out_ref, out_sz_ref), 0,		\
	    "Output content touched when given invalid arguments");	\
} while (0)

#define TEST_UTIL_QUERY_EINVAL(a, b, c, d, why_inval)			\
	TEST_UTIL_EINVAL("query", a, b, c, d, why_inval)
#define TEST_UTIL_BATCH_EINVAL(a, b, c, d, why_inval)			\
	TEST_UTIL_EINVAL("batch_query", a, b, c, d, why_inval)

#define TEST_UTIL_VALID(node) do {					\
        assert_d_eq(mallctl("experimental.utilization." node,		\
	    out, &out_sz, in, in_sz), 0,				\
	    "Should return 0 on correct arguments");			\
        assert_zu_eq(out_sz, out_sz_ref, "incorrect output size");	\
	assert_d_ne(memcmp(out, out_ref, out_sz_ref), 0,		\
	    "Output content should be changed");			\
} while (0)

#define TEST_UTIL_BATCH_VALID TEST_UTIL_VALID("batch_query")

TEST_BEGIN(test_query) {
	void *p = mallocx(1, 0);
	void **in = &p;
	size_t in_sz = sizeof(const void *);
	size_t out_sz = sizeof(void *) + sizeof(size_t) * 5;
	void *out = mallocx(out_sz, 0);
	void *out_ref = mallocx(out_sz, 0);
	size_t out_sz_ref = out_sz;

	assert_ptr_not_null(p, "test pointer allocation failed");
	assert_ptr_not_null(out, "test output allocation failed");
	assert_ptr_not_null(out_ref, "test reference output allocation failed");

#define SLABCUR_READ(out) (*(void **)out)
#define COUNTS(out) ((size_t *)((void **)out + 1))
#define NFREE_READ(out) COUNTS(out)[0]
#define NREGS_READ(out) COUNTS(out)[1]
#define SIZE_READ(out) COUNTS(out)[2]
#define BIN_NFREE_READ(out) COUNTS(out)[3]
#define BIN_NREGS_READ(out) COUNTS(out)[4]

	SLABCUR_READ(out) = NULL;
	NFREE_READ(out) = NREGS_READ(out) = SIZE_READ(out) = -1;
	BIN_NFREE_READ(out) = BIN_NREGS_READ(out) = -1;
	memcpy(out_ref, out, out_sz);

	/* Test invalid argument(s) errors */
	TEST_UTIL_QUERY_EINVAL(NULL, &out_sz, in, in_sz, "old is NULL");
	TEST_UTIL_QUERY_EINVAL(out, NULL, in, in_sz, "oldlenp is NULL");
	TEST_UTIL_QUERY_EINVAL(out, &out_sz, NULL, in_sz, "newp is NULL");
	TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, 0, "newlen is zero");
	in_sz -= 1;
	TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, in_sz, "invalid newlen");
	in_sz += 1;
	out_sz_ref = out_sz -= 2 * sizeof(size_t);
	TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, in_sz, "invalid *oldlenp");
	out_sz_ref = out_sz += 2 * sizeof(size_t);

	/* Examine output for valid call */
	TEST_UTIL_VALID("query");
	assert_zu_le(NFREE_READ(out), NREGS_READ(out),
	    "Extent free count exceeded region count");
	assert_zu_le(NREGS_READ(out), SIZE_READ(out),
	    "Extent region count exceeded size");
	assert_zu_ne(NREGS_READ(out), 0,
	    "Extent region count must be positive");
	assert_zu_ne(SIZE_READ(out), 0, "Extent size must be positive");
	if (config_stats) {
		assert_zu_le(BIN_NFREE_READ(out), BIN_NREGS_READ(out),
		    "Bin free count exceeded region count");
		assert_zu_ne(BIN_NREGS_READ(out), 0,
		    "Bin region count must be positive");
		assert_zu_le(NFREE_READ(out), BIN_NFREE_READ(out),
		    "Extent free count exceeded bin free count");
		assert_zu_le(NREGS_READ(out), BIN_NREGS_READ(out),
		    "Extent region count exceeded bin region count");
		assert_zu_eq(BIN_NREGS_READ(out) % NREGS_READ(out), 0,
		    "Bin region count isn't a multiple of extent region count");
		assert_zu_le(NREGS_READ(out) - NFREE_READ(out),
		    BIN_NREGS_READ(out) - BIN_NFREE_READ(out),
		    "Extent utilized count exceeded bin utilized count");
	} else {
		assert_zu_eq(BIN_NFREE_READ(out), 0,
		    "Bin free count should be zero when stats are disabled");
		assert_zu_eq(BIN_NREGS_READ(out), 0,
		    "Bin region count should be zero when stats are disabled");
	}
	assert_ptr_not_null(SLABCUR_READ(out), "Current slab is null");
	assert_true(NFREE_READ(out) == 0 || SLABCUR_READ(out) <= p,
	    "Allocation should follow first fit principle");

#undef BIN_NREGS_READ
#undef BIN_NFREE_READ
#undef SIZE_READ
#undef NREGS_READ
#undef NFREE_READ
#undef COUNTS
#undef SLABCUR_READ

	free(out_ref);
	free(out);
	free(p);
}
TEST_END

TEST_BEGIN(test_batch) {
	void *p = mallocx(1, 0);
	void *q = mallocx(1, 0);
	void *in[] = {p, q};
	size_t in_sz = sizeof(const void *) * 2;
	size_t out[] = {-1, -1, -1, -1, -1, -1};
	size_t out_sz = sizeof(size_t) * 6;
	size_t out_ref[] = {-1, -1, -1, -1, -1, -1};
	size_t out_sz_ref = out_sz;

	assert_ptr_not_null(p, "test pointer allocation failed");
	assert_ptr_not_null(q, "test pointer allocation failed");

	/* Test invalid argument(s) errors */
	TEST_UTIL_BATCH_EINVAL(NULL, &out_sz, in, in_sz, "old is NULL");
	TEST_UTIL_BATCH_EINVAL(out, NULL, in, in_sz, "oldlenp is NULL");
	TEST_UTIL_BATCH_EINVAL(out, &out_sz, NULL, in_sz, "newp is NULL");
	TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, 0, "newlen is zero");
	in_sz -= 1;
	TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,
	    "newlen is not an exact multiple");
	in_sz += 1;
	out_sz_ref = out_sz -= 2 * sizeof(size_t);
	TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,
	    "*oldlenp is not an exact multiple");
	out_sz_ref = out_sz += 2 * sizeof(size_t);
	in_sz -= sizeof(const void *);
	TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,
	    "*oldlenp and newlen do not match");
	in_sz += sizeof(const void *);

	/* Examine output for valid calls */
#define TEST_EQUAL_REF(i, message) \
	assert_d_eq(memcmp(out + (i) * 3, out_ref + (i) * 3, 3), 0, message)

#define NFREE_READ(out, i) out[(i) * 3]
#define NREGS_READ(out, i) out[(i) * 3 + 1]
#define SIZE_READ(out, i) out[(i) * 3 + 2]

	out_sz_ref = out_sz /= 2;
	in_sz /= 2;
	TEST_UTIL_BATCH_VALID;
	assert_zu_le(NFREE_READ(out, 0), NREGS_READ(out, 0),
	    "Extent free count exceeded region count");
	assert_zu_le(NREGS_READ(out, 0), SIZE_READ(out, 0),
	    "Extent region count exceeded size");
	assert_zu_ne(NREGS_READ(out, 0), 0,
	    "Extent region count must be positive");
	assert_zu_ne(SIZE_READ(out, 0), 0, "Extent size must be positive");
	TEST_EQUAL_REF(1, "Should not overwrite content beyond what's needed");
	in_sz *= 2;
	out_sz_ref = out_sz *= 2;

	memcpy(out_ref, out, 3 * sizeof(size_t));
	TEST_UTIL_BATCH_VALID;
	TEST_EQUAL_REF(0, "Statistics should be stable across calls");
	assert_zu_le(NFREE_READ(out, 1), NREGS_READ(out, 1),
	    "Extent free count exceeded region count");
	assert_zu_eq(NREGS_READ(out, 0), NREGS_READ(out, 1),
	    "Extent region count should be same for same region size");
	assert_zu_eq(SIZE_READ(out, 0), SIZE_READ(out, 1),
	    "Extent size should be same for same region size");

#undef SIZE_READ
#undef NREGS_READ
#undef NFREE_READ

#undef TEST_EQUAL_REF

	free(q);
	free(p);
}
TEST_END

int
main(void) {
	return test(test_query, test_batch);
}
Separate tests for extent utilization API As title. 2019-04-10 02:01:26 +08:00			`#include "test/jemalloc_test.h"`

			`#define TEST_UTIL_EINVAL(node, a, b, c, d, why_inval) do { \`
			`assert_d_eq(mallctl("experimental.utilization." node, \`
			`a, b, c, d), EINVAL, "Should fail when " why_inval); \`
			`assert_zu_eq(out_sz, out_sz_ref, \`
			`"Output size touched when given invalid arguments"); \`
			`assert_d_eq(memcmp(out, out_ref, out_sz_ref), 0, \`
			`"Output content touched when given invalid arguments"); \`
			`} while (0)`

			`#define TEST_UTIL_QUERY_EINVAL(a, b, c, d, why_inval) \`
			`TEST_UTIL_EINVAL("query", a, b, c, d, why_inval)`
			`#define TEST_UTIL_BATCH_EINVAL(a, b, c, d, why_inval) \`
			`TEST_UTIL_EINVAL("batch_query", a, b, c, d, why_inval)`

			`#define TEST_UTIL_VALID(node) do { \`
			`assert_d_eq(mallctl("experimental.utilization." node, \`
			`out, &out_sz, in, in_sz), 0, \`
			`"Should return 0 on correct arguments"); \`
			`assert_zu_eq(out_sz, out_sz_ref, "incorrect output size"); \`
			`assert_d_ne(memcmp(out, out_ref, out_sz_ref), 0, \`
			`"Output content should be changed"); \`
			`} while (0)`

			`#define TEST_UTIL_BATCH_VALID TEST_UTIL_VALID("batch_query")`

			`TEST_BEGIN(test_query) {`
			`void *p = mallocx(1, 0);`
			`void **in = &p;`
			`size_t in_sz = sizeof(const void *);`
			`size_t out_sz = sizeof(void ) + sizeof(size_t) 5;`
			`void *out = mallocx(out_sz, 0);`
			`void *out_ref = mallocx(out_sz, 0);`
			`size_t out_sz_ref = out_sz;`

			`assert_ptr_not_null(p, "test pointer allocation failed");`
			`assert_ptr_not_null(out, "test output allocation failed");`
			`assert_ptr_not_null(out_ref, "test reference output allocation failed");`

			`#define SLABCUR_READ(out) ((void *)out)`
			`#define COUNTS(out) ((size_t )((void *)out + 1))`
			`#define NFREE_READ(out) COUNTS(out)[0]`
			`#define NREGS_READ(out) COUNTS(out)[1]`
			`#define SIZE_READ(out) COUNTS(out)[2]`
			`#define BIN_NFREE_READ(out) COUNTS(out)[3]`
			`#define BIN_NREGS_READ(out) COUNTS(out)[4]`

			`SLABCUR_READ(out) = NULL;`
			`NFREE_READ(out) = NREGS_READ(out) = SIZE_READ(out) = -1;`
			`BIN_NFREE_READ(out) = BIN_NREGS_READ(out) = -1;`
			`memcpy(out_ref, out, out_sz);`

			`/* Test invalid argument(s) errors */`
			`TEST_UTIL_QUERY_EINVAL(NULL, &out_sz, in, in_sz, "old is NULL");`
			`TEST_UTIL_QUERY_EINVAL(out, NULL, in, in_sz, "oldlenp is NULL");`
			`TEST_UTIL_QUERY_EINVAL(out, &out_sz, NULL, in_sz, "newp is NULL");`
			`TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, 0, "newlen is zero");`
			`in_sz -= 1;`
			`TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, in_sz, "invalid newlen");`
			`in_sz += 1;`
			`out_sz_ref = out_sz -= 2 * sizeof(size_t);`
			`TEST_UTIL_QUERY_EINVAL(out, &out_sz, in, in_sz, "invalid *oldlenp");`
			`out_sz_ref = out_sz += 2 * sizeof(size_t);`

			`/* Examine output for valid call */`
			`TEST_UTIL_VALID("query");`
			`assert_zu_le(NFREE_READ(out), NREGS_READ(out),`
			`"Extent free count exceeded region count");`
			`assert_zu_le(NREGS_READ(out), SIZE_READ(out),`
			`"Extent region count exceeded size");`
			`assert_zu_ne(NREGS_READ(out), 0,`
			`"Extent region count must be positive");`
			`assert_zu_ne(SIZE_READ(out), 0, "Extent size must be positive");`
			`if (config_stats) {`
			`assert_zu_le(BIN_NFREE_READ(out), BIN_NREGS_READ(out),`
			`"Bin free count exceeded region count");`
			`assert_zu_ne(BIN_NREGS_READ(out), 0,`
			`"Bin region count must be positive");`
			`assert_zu_le(NFREE_READ(out), BIN_NFREE_READ(out),`
			`"Extent free count exceeded bin free count");`
			`assert_zu_le(NREGS_READ(out), BIN_NREGS_READ(out),`
			`"Extent region count exceeded bin region count");`
			`assert_zu_eq(BIN_NREGS_READ(out) % NREGS_READ(out), 0,`
			`"Bin region count isn't a multiple of extent region count");`
			`assert_zu_le(NREGS_READ(out) - NFREE_READ(out),`
			`BIN_NREGS_READ(out) - BIN_NFREE_READ(out),`
			`"Extent utilized count exceeded bin utilized count");`
			`} else {`
			`assert_zu_eq(BIN_NFREE_READ(out), 0,`
			`"Bin free count should be zero when stats are disabled");`
			`assert_zu_eq(BIN_NREGS_READ(out), 0,`
			`"Bin region count should be zero when stats are disabled");`
			`}`
			`assert_ptr_not_null(SLABCUR_READ(out), "Current slab is null");`
			`assert_true(NFREE_READ(out) == 0 \|\| SLABCUR_READ(out) <= p,`
			`"Allocation should follow first fit principle");`

			`#undef BIN_NREGS_READ`
			`#undef BIN_NFREE_READ`
			`#undef SIZE_READ`
			`#undef NREGS_READ`
			`#undef NFREE_READ`
			`#undef COUNTS`
			`#undef SLABCUR_READ`

			`free(out_ref);`
			`free(out);`
			`free(p);`
			`}`
			`TEST_END`

			`TEST_BEGIN(test_batch) {`
			`void *p = mallocx(1, 0);`
			`void *q = mallocx(1, 0);`
			`void *in[] = {p, q};`
			`size_t in_sz = sizeof(const void ) 2;`
			`size_t out[] = {-1, -1, -1, -1, -1, -1};`
			`size_t out_sz = sizeof(size_t) * 6;`
			`size_t out_ref[] = {-1, -1, -1, -1, -1, -1};`
			`size_t out_sz_ref = out_sz;`

			`assert_ptr_not_null(p, "test pointer allocation failed");`
			`assert_ptr_not_null(q, "test pointer allocation failed");`

			`/* Test invalid argument(s) errors */`
			`TEST_UTIL_BATCH_EINVAL(NULL, &out_sz, in, in_sz, "old is NULL");`
			`TEST_UTIL_BATCH_EINVAL(out, NULL, in, in_sz, "oldlenp is NULL");`
			`TEST_UTIL_BATCH_EINVAL(out, &out_sz, NULL, in_sz, "newp is NULL");`
			`TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, 0, "newlen is zero");`
			`in_sz -= 1;`
			`TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,`
			`"newlen is not an exact multiple");`
			`in_sz += 1;`
			`out_sz_ref = out_sz -= 2 * sizeof(size_t);`
			`TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,`
			`"*oldlenp is not an exact multiple");`
			`out_sz_ref = out_sz += 2 * sizeof(size_t);`
			`in_sz -= sizeof(const void *);`
			`TEST_UTIL_BATCH_EINVAL(out, &out_sz, in, in_sz,`
			`"*oldlenp and newlen do not match");`
			`in_sz += sizeof(const void *);`

			`/* Examine output for valid calls */`
			`#define TEST_EQUAL_REF(i, message) \`
			`assert_d_eq(memcmp(out + (i) * 3, out_ref + (i) * 3, 3), 0, message)`

			`#define NFREE_READ(out, i) out[(i) * 3]`
			`#define NREGS_READ(out, i) out[(i) * 3 + 1]`
			`#define SIZE_READ(out, i) out[(i) * 3 + 2]`

			`out_sz_ref = out_sz /= 2;`
			`in_sz /= 2;`
			`TEST_UTIL_BATCH_VALID;`
			`assert_zu_le(NFREE_READ(out, 0), NREGS_READ(out, 0),`
			`"Extent free count exceeded region count");`
			`assert_zu_le(NREGS_READ(out, 0), SIZE_READ(out, 0),`
			`"Extent region count exceeded size");`
			`assert_zu_ne(NREGS_READ(out, 0), 0,`
			`"Extent region count must be positive");`
			`assert_zu_ne(SIZE_READ(out, 0), 0, "Extent size must be positive");`
			`TEST_EQUAL_REF(1, "Should not overwrite content beyond what's needed");`
			`in_sz *= 2;`
			`out_sz_ref = out_sz *= 2;`

			`memcpy(out_ref, out, 3 * sizeof(size_t));`
			`TEST_UTIL_BATCH_VALID;`
			`TEST_EQUAL_REF(0, "Statistics should be stable across calls");`
			`assert_zu_le(NFREE_READ(out, 1), NREGS_READ(out, 1),`
			`"Extent free count exceeded region count");`
			`assert_zu_eq(NREGS_READ(out, 0), NREGS_READ(out, 1),`
			`"Extent region count should be same for same region size");`
			`assert_zu_eq(SIZE_READ(out, 0), SIZE_READ(out, 1),`
			`"Extent size should be same for same region size");`

			`#undef SIZE_READ`
			`#undef NREGS_READ`
			`#undef NFREE_READ`

			`#undef TEST_EQUAL_REF`

			`free(q);`
			`free(p);`
			`}`
			`TEST_END`

			`int`
			`main(void) {`
			`return test(test_query, test_batch);`
			`}`