tools/testing/selftests/vm/mremap_test.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 /*
  * Copyright 2020 Google LLC
  */
 #define _GNU_SOURCE

 #include <errno.h>
 #include <stdlib.h>
 #include <string.h>
 #include <sys/mman.h>
 #include <time.h>

 #include "../kselftest.h"

 #define EXPECT_SUCCESS 0
 #define EXPECT_FAILURE 1
 #define NON_OVERLAPPING 0
 #define OVERLAPPING 1
 #define NS_PER_SEC 1000000000ULL
 #define VALIDATION_DEFAULT_THRESHOLD 4	/* 4MB */
 #define VALIDATION_NO_THRESHOLD 0	/* Verify the entire region */

 #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
 #define MIN(X, Y) ((X) < (Y) ? (X) : (Y))

 struct config {
 	unsigned long long src_alignment;
 	unsigned long long dest_alignment;
 	unsigned long long region_size;
 	int overlapping;
 };

 struct test {
 	const char *name;
 	struct config config;
 	int expect_failure;
 };

 enum {
 	_1KB = 1ULL << 10,	/* 1KB -> not page aligned */
 	_4KB = 4ULL << 10,
 	_8KB = 8ULL << 10,
 	_1MB = 1ULL << 20,
 	_2MB = 2ULL << 20,
 	_4MB = 4ULL << 20,
 	_1GB = 1ULL << 30,
 	_2GB = 2ULL << 30,
 	PMD = _2MB,
 	PUD = _1GB,
 };

 #define PTE page_size

 #define MAKE_TEST(source_align, destination_align, size,	\
 		  overlaps, should_fail, test_name)		\
 (struct test){							\
 	.name = test_name,					\
 	.config = {						\
 		.src_alignment = source_align,			\
 		.dest_alignment = destination_align,		\
 		.region_size = size,				\
 		.overlapping = overlaps,			\
 	},							\
 	.expect_failure = should_fail				\
 }

 /*
  * Returns the start address of the mapping on success, else returns
  * NULL on failure.
  */
 static void *get_source_mapping(struct config c)
 {
 	unsigned long long addr = 0ULL;
 	void *src_addr = NULL;
 retry:
 	addr += c.src_alignment;
 	src_addr = mmap((void *) addr, c.region_size, PROT_READ | PROT_WRITE,
 			MAP_FIXED_NOREPLACE | MAP_ANONYMOUS | MAP_SHARED,
 			-1, 0);
 	if (src_addr == MAP_FAILED) {
 		if (errno == EPERM || errno == EEXIST)
 			goto retry;
 		goto error;
 	}
 	/*
 	 * Check that the address is aligned to the specified alignment.
 	 * Addresses which have alignments that are multiples of that
 	 * specified are not considered valid. For instance, 1GB address is
 	 * 2MB-aligned, however it will not be considered valid for a
 	 * requested alignment of 2MB. This is done to reduce coincidental
 	 * alignment in the tests.
 	 */
 	if (((unsigned long long) src_addr & (c.src_alignment - 1)) ||
 			!((unsigned long long) src_addr & c.src_alignment))
 		goto retry;

 	if (!src_addr)
 		goto error;

 	return src_addr;
 error:
 	ksft_print_msg("Failed to map source region: %s\n",
 			strerror(errno));
 	return NULL;
 }

 /* Returns the time taken for the remap on success else returns -1. */
 static long long remap_region(struct config c, unsigned int threshold_mb,
 			      char pattern_seed)
 {
 	void *addr, *src_addr, *dest_addr;
 	unsigned long long i;
 	struct timespec t_start = {0, 0}, t_end = {0, 0};
 	long long  start_ns, end_ns, align_mask, ret, offset;
 	unsigned long long threshold;

 	if (threshold_mb == VALIDATION_NO_THRESHOLD)
 		threshold = c.region_size;
 	else
 		threshold = MIN(threshold_mb * _1MB, c.region_size);

 	src_addr = get_source_mapping(c);
 	if (!src_addr) {
 		ret = -1;
 		goto out;
 	}

 	/* Set byte pattern */
 	srand(pattern_seed);
 	for (i = 0; i < threshold; i++)
 		memset((char *) src_addr + i, (char) rand(), 1);

 	/* Mask to zero out lower bits of address for alignment */
 	align_mask = ~(c.dest_alignment - 1);
 	/* Offset of destination address from the end of the source region */
 	offset = (c.overlapping) ? -c.dest_alignment : c.dest_alignment;
 	addr = (void *) (((unsigned long long) src_addr + c.region_size
 			  + offset) & align_mask);

 	/* See comment in get_source_mapping() */
 	if (!((unsigned long long) addr & c.dest_alignment))
 		addr = (void *) ((unsigned long long) addr | c.dest_alignment);

 	clock_gettime(CLOCK_MONOTONIC, &t_start);
 	dest_addr = mremap(src_addr, c.region_size, c.region_size,
 			MREMAP_MAYMOVE|MREMAP_FIXED, (char *) addr);
 	clock_gettime(CLOCK_MONOTONIC, &t_end);

 	if (dest_addr == MAP_FAILED) {
 		ksft_print_msg("mremap failed: %s\n", strerror(errno));
 		ret = -1;
 		goto clean_up_src;
 	}

 	/* Verify byte pattern after remapping */
 	srand(pattern_seed);
 	for (i = 0; i < threshold; i++) {
 		char c = (char) rand();

 		if (((char *) dest_addr)[i] != c) {
 			ksft_print_msg("Data after remap doesn't match at offset %d\n",
 				       i);
 			ksft_print_msg("Expected: %#x\t Got: %#x\n", c & 0xff,
 					((char *) dest_addr)[i] & 0xff);
 			ret = -1;
 			goto clean_up_dest;
 		}
 	}

 	start_ns = t_start.tv_sec * NS_PER_SEC + t_start.tv_nsec;
 	end_ns = t_end.tv_sec * NS_PER_SEC + t_end.tv_nsec;
 	ret = end_ns - start_ns;

 /*
  * Since the destination address is specified using MREMAP_FIXED, subsequent
  * mremap will unmap any previous mapping at the address range specified by
  * dest_addr and region_size. This significantly affects the remap time of
  * subsequent tests. So we clean up mappings after each test.
  */
 clean_up_dest:
 	munmap(dest_addr, c.region_size);
 clean_up_src:
 	munmap(src_addr, c.region_size);
 out:
 	return ret;
 }

 static void run_mremap_test_case(struct test test_case, int *failures,
 				 unsigned int threshold_mb,
 				 unsigned int pattern_seed)
 {
 	long long remap_time = remap_region(test_case.config, threshold_mb,
 					    pattern_seed);

 	if (remap_time < 0) {
 		if (test_case.expect_failure)
 			ksft_test_result_pass("%s\n\tExpected mremap failure\n",
 					      test_case.name);
 		else {
 			ksft_test_result_fail("%s\n", test_case.name);
 			*failures += 1;
 		}
 	} else {
 		/*
 		 * Comparing mremap time is only applicable if entire region
 		 * was faulted in.
 		 */
 		if (threshold_mb == VALIDATION_NO_THRESHOLD ||
 		    test_case.config.region_size <= threshold_mb * _1MB)
 			ksft_test_result_pass("%s\n\tmremap time: %12lldns\n",
 					      test_case.name, remap_time);
 		else
 			ksft_test_result_pass("%s\n", test_case.name);
 	}
 }

 static void usage(const char *cmd)
 {
 	fprintf(stderr,
 		"Usage: %s [[-t <threshold_mb>] [-p <pattern_seed>]]\n"
 		"-t\t only validate threshold_mb of the remapped region\n"
 		"  \t if 0 is supplied no threshold is used; all tests\n"
 		"  \t are run and remapped regions validated fully.\n"
 		"  \t The default threshold used is 4MB.\n"
 		"-p\t provide a seed to generate the random pattern for\n"
 		"  \t validating the remapped region.\n", cmd);
 }

 static int parse_args(int argc, char **argv, unsigned int *threshold_mb,
 		      unsigned int *pattern_seed)
 {
 	const char *optstr = "t:p:";
 	int opt;

 	while ((opt = getopt(argc, argv, optstr)) != -1) {
 		switch (opt) {
 		case 't':
 			*threshold_mb = atoi(optarg);
 			break;
 		case 'p':
 			*pattern_seed = atoi(optarg);
 			break;
 		default:
 			usage(argv[0]);
 			return -1;
 		}
 	}

 	if (optind < argc) {
 		usage(argv[0]);
 		return -1;
 	}

 	return 0;
 }

 #define MAX_TEST 13
 #define MAX_PERF_TEST 3
 int main(int argc, char **argv)
 {
 	int failures = 0;
 	int i, run_perf_tests;
 	unsigned int threshold_mb = VALIDATION_DEFAULT_THRESHOLD;
 	unsigned int pattern_seed;
 	struct test test_cases[MAX_TEST];
 	struct test perf_test_cases[MAX_PERF_TEST];
 	int page_size;
 	time_t t;

 	pattern_seed = (unsigned int) time(&t);

 	if (parse_args(argc, argv, &threshold_mb, &pattern_seed) < 0)
 		exit(EXIT_FAILURE);

 	ksft_print_msg("Test configs:\n\tthreshold_mb=%u\n\tpattern_seed=%u\n\n",
 		       threshold_mb, pattern_seed);

 	page_size = sysconf(_SC_PAGESIZE);

 	/* Expected mremap failures */
 	test_cases[0] =	MAKE_TEST(page_size, page_size, page_size,
 				  OVERLAPPING, EXPECT_FAILURE,
 				  "mremap - Source and Destination Regions Overlapping");

 	test_cases[1] = MAKE_TEST(page_size, page_size/4, page_size,
 				  NON_OVERLAPPING, EXPECT_FAILURE,
 				  "mremap - Destination Address Misaligned (1KB-aligned)");
 	test_cases[2] = MAKE_TEST(page_size/4, page_size, page_size,
 				  NON_OVERLAPPING, EXPECT_FAILURE,
 				  "mremap - Source Address Misaligned (1KB-aligned)");

 	/* Src addr PTE aligned */
 	test_cases[3] = MAKE_TEST(PTE, PTE, PTE * 2,
 				  NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "8KB mremap - Source PTE-aligned, Destination PTE-aligned");

 	/* Src addr 1MB aligned */
 	test_cases[4] = MAKE_TEST(_1MB, PTE, _2MB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "2MB mremap - Source 1MB-aligned, Destination PTE-aligned");
 	test_cases[5] = MAKE_TEST(_1MB, _1MB, _2MB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "2MB mremap - Source 1MB-aligned, Destination 1MB-aligned");

 	/* Src addr PMD aligned */
 	test_cases[6] = MAKE_TEST(PMD, PTE, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "4MB mremap - Source PMD-aligned, Destination PTE-aligned");
 	test_cases[7] =	MAKE_TEST(PMD, _1MB, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "4MB mremap - Source PMD-aligned, Destination 1MB-aligned");
 	test_cases[8] = MAKE_TEST(PMD, PMD, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "4MB mremap - Source PMD-aligned, Destination PMD-aligned");

 	/* Src addr PUD aligned */
 	test_cases[9] = MAKE_TEST(PUD, PTE, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				  "2GB mremap - Source PUD-aligned, Destination PTE-aligned");
 	test_cases[10] = MAKE_TEST(PUD, _1MB, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				   "2GB mremap - Source PUD-aligned, Destination 1MB-aligned");
 	test_cases[11] = MAKE_TEST(PUD, PMD, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				   "2GB mremap - Source PUD-aligned, Destination PMD-aligned");
 	test_cases[12] = MAKE_TEST(PUD, PUD, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				   "2GB mremap - Source PUD-aligned, Destination PUD-aligned");

 	perf_test_cases[0] =  MAKE_TEST(page_size, page_size, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 					"1GB mremap - Source PTE-aligned, Destination PTE-aligned");
 	/*
 	 * mremap 1GB region - Page table level aligned time
 	 * comparison.
 	 */
 	perf_test_cases[1] = MAKE_TEST(PMD, PMD, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				       "1GB mremap - Source PMD-aligned, Destination PMD-aligned");
 	perf_test_cases[2] = MAKE_TEST(PUD, PUD, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
 				       "1GB mremap - Source PUD-aligned, Destination PUD-aligned");

 	run_perf_tests =  (threshold_mb == VALIDATION_NO_THRESHOLD) ||
 				(threshold_mb * _1MB >= _1GB);

 	ksft_set_plan(ARRAY_SIZE(test_cases) + (run_perf_tests ?
 		      ARRAY_SIZE(perf_test_cases) : 0));

 	for (i = 0; i < ARRAY_SIZE(test_cases); i++)
 		run_mremap_test_case(test_cases[i], &failures, threshold_mb,
 				     pattern_seed);

 	if (run_perf_tests) {
 		ksft_print_msg("\n%s\n",
 		 "mremap HAVE_MOVE_PMD/PUD optimization time comparison for 1GB region:");
 		for (i = 0; i < ARRAY_SIZE(perf_test_cases); i++)
 			run_mremap_test_case(perf_test_cases[i], &failures,
 					     threshold_mb, pattern_seed);
 	}

 	if (failures > 0)
 		ksft_exit_fail();
 	else
 		ksft_exit_pass();
 }
	// SPDX-License-Identifier: GPL-2.0
	/*
	* Copyright 2020 Google LLC
	*/
	#define _GNU_SOURCE

	#include <errno.h>
	#include <stdlib.h>
	#include <string.h>
	#include <sys/mman.h>
	#include <time.h>

	#include "../kselftest.h"

	#define EXPECT_SUCCESS 0
	#define EXPECT_FAILURE 1
	#define NON_OVERLAPPING 0
	#define OVERLAPPING 1
	#define NS_PER_SEC 1000000000ULL
	#define VALIDATION_DEFAULT_THRESHOLD 4 /* 4MB */
	#define VALIDATION_NO_THRESHOLD 0 /* Verify the entire region */

	#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
	#define MIN(X, Y) ((X) < (Y) ? (X) : (Y))

	struct config {
	unsigned long long src_alignment;
	unsigned long long dest_alignment;
	unsigned long long region_size;
	int overlapping;
	};

	struct test {
	const char *name;
	struct config config;
	int expect_failure;
	};

	enum {
	_1KB = 1ULL << 10, /* 1KB -> not page aligned */
	_4KB = 4ULL << 10,
	_8KB = 8ULL << 10,
	_1MB = 1ULL << 20,
	_2MB = 2ULL << 20,
	_4MB = 4ULL << 20,
	_1GB = 1ULL << 30,
	_2GB = 2ULL << 30,
	PMD = _2MB,
	PUD = _1GB,
	};

	#define PTE page_size

	#define MAKE_TEST(source_align, destination_align, size, \
	overlaps, should_fail, test_name) \
	(struct test){ \
	.name = test_name, \
	.config = { \
	.src_alignment = source_align, \
	.dest_alignment = destination_align, \
	.region_size = size, \
	.overlapping = overlaps, \
	}, \
	.expect_failure = should_fail \
	}

	/*
	* Returns the start address of the mapping on success, else returns
	* NULL on failure.
	*/
	static void *get_source_mapping(struct config c)
	{
	unsigned long long addr = 0ULL;
	void *src_addr = NULL;
	retry:
	addr += c.src_alignment;
	src_addr = mmap((void *) addr, c.region_size, PROT_READ \| PROT_WRITE,
	MAP_FIXED_NOREPLACE \| MAP_ANONYMOUS \| MAP_SHARED,
	-1, 0);
	if (src_addr == MAP_FAILED) {
	if (errno == EPERM \|\| errno == EEXIST)
	goto retry;
	goto error;
	}
	/*
	* Check that the address is aligned to the specified alignment.
	* Addresses which have alignments that are multiples of that
	* specified are not considered valid. For instance, 1GB address is
	* 2MB-aligned, however it will not be considered valid for a
	* requested alignment of 2MB. This is done to reduce coincidental
	* alignment in the tests.
	*/
	if (((unsigned long long) src_addr & (c.src_alignment - 1)) \|\|
	!((unsigned long long) src_addr & c.src_alignment))
	goto retry;

	if (!src_addr)
	goto error;

	return src_addr;
	error:
	ksft_print_msg("Failed to map source region: %s\n",
	strerror(errno));
	return NULL;
	}

	/* Returns the time taken for the remap on success else returns -1. */
	static long long remap_region(struct config c, unsigned int threshold_mb,
	char pattern_seed)
	{
	void addr, src_addr, *dest_addr;
	unsigned long long i;
	struct timespec t_start = {0, 0}, t_end = {0, 0};
	long long start_ns, end_ns, align_mask, ret, offset;
	unsigned long long threshold;

	if (threshold_mb == VALIDATION_NO_THRESHOLD)
	threshold = c.region_size;
	else
	threshold = MIN(threshold_mb * _1MB, c.region_size);

	src_addr = get_source_mapping(c);
	if (!src_addr) {
	ret = -1;
	goto out;
	}

	/* Set byte pattern */
	srand(pattern_seed);
	for (i = 0; i < threshold; i++)
	memset((char *) src_addr + i, (char) rand(), 1);

	/* Mask to zero out lower bits of address for alignment */
	align_mask = ~(c.dest_alignment - 1);
	/* Offset of destination address from the end of the source region */
	offset = (c.overlapping) ? -c.dest_alignment : c.dest_alignment;
	addr = (void *) (((unsigned long long) src_addr + c.region_size
	+ offset) & align_mask);

	/* See comment in get_source_mapping() */
	if (!((unsigned long long) addr & c.dest_alignment))
	addr = (void *) ((unsigned long long) addr \| c.dest_alignment);

	clock_gettime(CLOCK_MONOTONIC, &t_start);
	dest_addr = mremap(src_addr, c.region_size, c.region_size,
	MREMAP_MAYMOVE\|MREMAP_FIXED, (char *) addr);
	clock_gettime(CLOCK_MONOTONIC, &t_end);

	if (dest_addr == MAP_FAILED) {
	ksft_print_msg("mremap failed: %s\n", strerror(errno));
	ret = -1;
	goto clean_up_src;
	}

	/* Verify byte pattern after remapping */
	srand(pattern_seed);
	for (i = 0; i < threshold; i++) {
	char c = (char) rand();

	if (((char *) dest_addr)[i] != c) {
	ksft_print_msg("Data after remap doesn't match at offset %d\n",
	i);
	ksft_print_msg("Expected: %#x\t Got: %#x\n", c & 0xff,
	((char *) dest_addr)[i] & 0xff);
	ret = -1;
	goto clean_up_dest;
	}
	}

	start_ns = t_start.tv_sec * NS_PER_SEC + t_start.tv_nsec;
	end_ns = t_end.tv_sec * NS_PER_SEC + t_end.tv_nsec;
	ret = end_ns - start_ns;

	/*
	* Since the destination address is specified using MREMAP_FIXED, subsequent
	* mremap will unmap any previous mapping at the address range specified by
	* dest_addr and region_size. This significantly affects the remap time of
	* subsequent tests. So we clean up mappings after each test.
	*/
	clean_up_dest:
	munmap(dest_addr, c.region_size);
	clean_up_src:
	munmap(src_addr, c.region_size);
	out:
	return ret;
	}

	static void run_mremap_test_case(struct test test_case, int *failures,
	unsigned int threshold_mb,
	unsigned int pattern_seed)
	{
	long long remap_time = remap_region(test_case.config, threshold_mb,
	pattern_seed);

	if (remap_time < 0) {
	if (test_case.expect_failure)
	ksft_test_result_pass("%s\n\tExpected mremap failure\n",
	test_case.name);
	else {
	ksft_test_result_fail("%s\n", test_case.name);
	*failures += 1;
	}
	} else {
	/*
	* Comparing mremap time is only applicable if entire region
	* was faulted in.
	*/
	if (threshold_mb == VALIDATION_NO_THRESHOLD \|\|
	test_case.config.region_size <= threshold_mb * _1MB)
	ksft_test_result_pass("%s\n\tmremap time: %12lldns\n",
	test_case.name, remap_time);
	else
	ksft_test_result_pass("%s\n", test_case.name);
	}
	}

	static void usage(const char *cmd)
	{
	fprintf(stderr,
	"Usage: %s [[-t <threshold_mb>] [-p <pattern_seed>]]\n"
	"-t\t only validate threshold_mb of the remapped region\n"
	" \t if 0 is supplied no threshold is used; all tests\n"
	" \t are run and remapped regions validated fully.\n"
	" \t The default threshold used is 4MB.\n"
	"-p\t provide a seed to generate the random pattern for\n"
	" \t validating the remapped region.\n", cmd);
	}

	static int parse_args(int argc, char *argv, unsigned int threshold_mb,
	unsigned int *pattern_seed)
	{
	const char *optstr = "t:p:";
	int opt;

	while ((opt = getopt(argc, argv, optstr)) != -1) {
	switch (opt) {
	case 't':
	*threshold_mb = atoi(optarg);
	break;
	case 'p':
	*pattern_seed = atoi(optarg);
	break;
	default:
	usage(argv[0]);
	return -1;
	}
	}

	if (optind < argc) {
	usage(argv[0]);
	return -1;
	}

	return 0;
	}

	#define MAX_TEST 13
	#define MAX_PERF_TEST 3
	int main(int argc, char **argv)
	{
	int failures = 0;
	int i, run_perf_tests;
	unsigned int threshold_mb = VALIDATION_DEFAULT_THRESHOLD;
	unsigned int pattern_seed;
	struct test test_cases[MAX_TEST];
	struct test perf_test_cases[MAX_PERF_TEST];
	int page_size;
	time_t t;

	pattern_seed = (unsigned int) time(&t);

	if (parse_args(argc, argv, &threshold_mb, &pattern_seed) < 0)
	exit(EXIT_FAILURE);

	ksft_print_msg("Test configs:\n\tthreshold_mb=%u\n\tpattern_seed=%u\n\n",
	threshold_mb, pattern_seed);

	page_size = sysconf(_SC_PAGESIZE);

	/* Expected mremap failures */
	test_cases[0] = MAKE_TEST(page_size, page_size, page_size,
	OVERLAPPING, EXPECT_FAILURE,
	"mremap - Source and Destination Regions Overlapping");

	test_cases[1] = MAKE_TEST(page_size, page_size/4, page_size,
	NON_OVERLAPPING, EXPECT_FAILURE,
	"mremap - Destination Address Misaligned (1KB-aligned)");
	test_cases[2] = MAKE_TEST(page_size/4, page_size, page_size,
	NON_OVERLAPPING, EXPECT_FAILURE,
	"mremap - Source Address Misaligned (1KB-aligned)");

	/* Src addr PTE aligned */
	test_cases[3] = MAKE_TEST(PTE, PTE, PTE * 2,
	NON_OVERLAPPING, EXPECT_SUCCESS,
	"8KB mremap - Source PTE-aligned, Destination PTE-aligned");

	/* Src addr 1MB aligned */
	test_cases[4] = MAKE_TEST(_1MB, PTE, _2MB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2MB mremap - Source 1MB-aligned, Destination PTE-aligned");
	test_cases[5] = MAKE_TEST(_1MB, _1MB, _2MB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2MB mremap - Source 1MB-aligned, Destination 1MB-aligned");

	/* Src addr PMD aligned */
	test_cases[6] = MAKE_TEST(PMD, PTE, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"4MB mremap - Source PMD-aligned, Destination PTE-aligned");
	test_cases[7] = MAKE_TEST(PMD, _1MB, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"4MB mremap - Source PMD-aligned, Destination 1MB-aligned");
	test_cases[8] = MAKE_TEST(PMD, PMD, _4MB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"4MB mremap - Source PMD-aligned, Destination PMD-aligned");

	/* Src addr PUD aligned */
	test_cases[9] = MAKE_TEST(PUD, PTE, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2GB mremap - Source PUD-aligned, Destination PTE-aligned");
	test_cases[10] = MAKE_TEST(PUD, _1MB, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2GB mremap - Source PUD-aligned, Destination 1MB-aligned");
	test_cases[11] = MAKE_TEST(PUD, PMD, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2GB mremap - Source PUD-aligned, Destination PMD-aligned");
	test_cases[12] = MAKE_TEST(PUD, PUD, _2GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"2GB mremap - Source PUD-aligned, Destination PUD-aligned");

	perf_test_cases[0] = MAKE_TEST(page_size, page_size, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"1GB mremap - Source PTE-aligned, Destination PTE-aligned");
	/*
	* mremap 1GB region - Page table level aligned time
	* comparison.
	*/
	perf_test_cases[1] = MAKE_TEST(PMD, PMD, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"1GB mremap - Source PMD-aligned, Destination PMD-aligned");
	perf_test_cases[2] = MAKE_TEST(PUD, PUD, _1GB, NON_OVERLAPPING, EXPECT_SUCCESS,
	"1GB mremap - Source PUD-aligned, Destination PUD-aligned");

	run_perf_tests = (threshold_mb == VALIDATION_NO_THRESHOLD) \|\|
	(threshold_mb * _1MB >= _1GB);

	ksft_set_plan(ARRAY_SIZE(test_cases) + (run_perf_tests ?
	ARRAY_SIZE(perf_test_cases) : 0));

	for (i = 0; i < ARRAY_SIZE(test_cases); i++)
	run_mremap_test_case(test_cases[i], &failures, threshold_mb,
	pattern_seed);

	if (run_perf_tests) {
	ksft_print_msg("\n%s\n",
	"mremap HAVE_MOVE_PMD/PUD optimization time comparison for 1GB region:");
	for (i = 0; i < ARRAY_SIZE(perf_test_cases); i++)
	run_mremap_test_case(perf_test_cases[i], &failures,
	threshold_mb, pattern_seed);
	}

	if (failures > 0)
	ksft_exit_fail();
	else
	ksft_exit_pass();
	}