lib/test_stackinit.c - third_party/linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 /*
  * Test cases for compiler-based stack variable zeroing via future
  * compiler flags or CONFIG_GCC_PLUGIN_STRUCTLEAK*.
  */
 #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt

 #include <linux/init.h>
 #include <linux/kernel.h>
 #include <linux/module.h>
 #include <linux/string.h>

 /* Exfiltration buffer. */
 #define MAX_VAR_SIZE	128
 static u8 check_buf[MAX_VAR_SIZE];

 /* Character array to trigger stack protector in all functions. */
 #define VAR_BUFFER	 32

 /* Volatile mask to convince compiler to copy memory with 0xff. */
 static volatile u8 forced_mask = 0xff;

 /* Location and size tracking to validate fill and test are colocated. */
 static void *fill_start, *target_start;
 static size_t fill_size, target_size;

 static bool range_contains(char *haystack_start, size_t haystack_size,
 			   char *needle_start, size_t needle_size)
 {
 	if (needle_start >= haystack_start &&
 	    needle_start + needle_size <= haystack_start + haystack_size)
 		return true;
 	return false;
 }

 #define DO_NOTHING_TYPE_SCALAR(var_type)	var_type
 #define DO_NOTHING_TYPE_STRING(var_type)	void
 #define DO_NOTHING_TYPE_STRUCT(var_type)	void

 #define DO_NOTHING_RETURN_SCALAR(ptr)		*(ptr)
 #define DO_NOTHING_RETURN_STRING(ptr)		/**/
 #define DO_NOTHING_RETURN_STRUCT(ptr)		/**/

 #define DO_NOTHING_CALL_SCALAR(var, name)			\
 		(var) = do_nothing_ ## name(&(var))
 #define DO_NOTHING_CALL_STRING(var, name)			\
 		do_nothing_ ## name(var)
 #define DO_NOTHING_CALL_STRUCT(var, name)			\
 		do_nothing_ ## name(&(var))

 #define FETCH_ARG_SCALAR(var)		&var
 #define FETCH_ARG_STRING(var)		var
 #define FETCH_ARG_STRUCT(var)		&var

 #define FILL_SIZE_STRING		16

 #define INIT_CLONE_SCALAR		/**/
 #define INIT_CLONE_STRING		[FILL_SIZE_STRING]
 #define INIT_CLONE_STRUCT		/**/

 #define INIT_SCALAR_none		/**/
 #define INIT_SCALAR_zero		= 0

 #define INIT_STRING_none		[FILL_SIZE_STRING] /**/
 #define INIT_STRING_zero		[FILL_SIZE_STRING] = { }

 #define INIT_STRUCT_none		/**/
 #define INIT_STRUCT_zero		= { }
 #define INIT_STRUCT_static_partial	= { .two = 0, }
 #define INIT_STRUCT_static_all		= { .one = 0,			\
 					    .two = 0,			\
 					    .three = 0,			\
 					    .four = 0,			\
 					}
 #define INIT_STRUCT_dynamic_partial	= { .two = arg->two, }
 #define INIT_STRUCT_dynamic_all		= { .one = arg->one,		\
 					    .two = arg->two,		\
 					    .three = arg->three,	\
 					    .four = arg->four,		\
 					}
 #define INIT_STRUCT_runtime_partial	;				\
 					var.two = 0
 #define INIT_STRUCT_runtime_all		;				\
 					var.one = 0;			\
 					var.two = 0;			\
 					var.three = 0;			\
 					var.four = 0

 /*
  * @name: unique string name for the test
  * @var_type: type to be tested for zeroing initialization
  * @which: is this a SCALAR, STRING, or STRUCT type?
  * @init_level: what kind of initialization is performed
  */
 #define DEFINE_TEST_DRIVER(name, var_type, which)		\
 /* Returns 0 on success, 1 on failure. */			\
 static noinline __init int test_ ## name (void)			\
 {								\
 	var_type zero INIT_CLONE_ ## which;			\
 	int ignored;						\
 	u8 sum = 0, i;						\
 								\
 	/* Notice when a new test is larger than expected. */	\
 	BUILD_BUG_ON(sizeof(zero) > MAX_VAR_SIZE);		\
 								\
 	/* Fill clone type with zero for per-field init. */	\
 	memset(&zero, 0x00, sizeof(zero));			\
 	/* Clear entire check buffer for 0xFF overlap test. */	\
 	memset(check_buf, 0x00, sizeof(check_buf));		\
 	/* Fill stack with 0xFF. */				\
 	ignored = leaf_ ##name((unsigned long)&ignored, 1,	\
 				FETCH_ARG_ ## which(zero));	\
 	/* Verify all bytes overwritten with 0xFF. */		\
 	for (sum = 0, i = 0; i < target_size; i++)		\
 		sum += (check_buf[i] != 0xFF);			\
 	if (sum) {						\
 		pr_err(#name ": leaf fill was not 0xFF!?\n");	\
 		return 1;					\
 	}							\
 	/* Clear entire check buffer for later bit tests. */	\
 	memset(check_buf, 0x00, sizeof(check_buf));		\
 	/* Extract stack-defined variable contents. */		\
 	ignored = leaf_ ##name((unsigned long)&ignored, 0,	\
 				FETCH_ARG_ ## which(zero));	\
 								\
 	/* Validate that compiler lined up fill and target. */	\
 	if (!range_contains(fill_start, fill_size,		\
 			    target_start, target_size)) {	\
 		pr_err(#name ": stack fill missed target!?\n");	\
 		pr_err(#name ": fill %zu wide\n", fill_size);	\
 		pr_err(#name ": target offset by %d\n",	\
 			(int)((ssize_t)(uintptr_t)fill_start -	\
 			(ssize_t)(uintptr_t)target_start));	\
 		return 1;					\
 	}							\
 								\
 	/* Look for any bytes still 0xFF in check region. */	\
 	for (sum = 0, i = 0; i < target_size; i++)		\
 		sum += (check_buf[i] == 0xFF);			\
 								\
 	if (sum == 0)						\
 		pr_info(#name " ok\n");				\
 	else							\
 		pr_warn(#name " FAIL (uninit bytes: %d)\n",	\
 			sum);					\
 								\
 	return (sum != 0);					\
 }
 #define DEFINE_TEST(name, var_type, which, init_level)		\
 /* no-op to force compiler into ignoring "uninitialized" vars */\
 static noinline __init DO_NOTHING_TYPE_ ## which(var_type)	\
 do_nothing_ ## name(var_type *ptr)				\
 {								\
 	/* Will always be true, but compiler doesn't know. */	\
 	if ((unsigned long)ptr > 0x2)				\
 		return DO_NOTHING_RETURN_ ## which(ptr);	\
 	else							\
 		return DO_NOTHING_RETURN_ ## which(ptr + 1);	\
 }								\
 static noinline __init int leaf_ ## name(unsigned long sp,	\
 					 bool fill,		\
 					 var_type *arg)		\
 {								\
 	char buf[VAR_BUFFER];					\
 	var_type var INIT_ ## which ## _ ## init_level;		\
 								\
 	target_start = &var;					\
 	target_size = sizeof(var);				\
 	/*							\
 	 * Keep this buffer around to make sure we've got a	\
 	 * stack frame of SOME kind...				\
 	 */							\
 	memset(buf, (char)(sp & 0xff), sizeof(buf));		\
 	/* Fill variable with 0xFF. */				\
 	if (fill) {						\
 		fill_start = &var;				\
 		fill_size = sizeof(var);			\
 		memset(fill_start,				\
 		       (char)((sp & 0xff) | forced_mask),	\
 		       fill_size);				\
 	}							\
 								\
 	/* Silence "never initialized" warnings. */		\
 	DO_NOTHING_CALL_ ## which(var, name);			\
 								\
 	/* Exfiltrate "var". */					\
 	memcpy(check_buf, target_start, target_size);		\
 								\
 	return (int)buf[0] | (int)buf[sizeof(buf) - 1];		\
 }								\
 DEFINE_TEST_DRIVER(name, var_type, which)

 /* Structure with no padding. */
 struct test_packed {
 	unsigned long one;
 	unsigned long two;
 	unsigned long three;
 	unsigned long four;
 };

 /* Simple structure with padding likely to be covered by compiler. */
 struct test_small_hole {
 	size_t one;
 	char two;
 	/* 3 byte padding hole here. */
 	int three;
 	unsigned long four;
 };

 /* Trigger unhandled padding in a structure. */
 struct test_big_hole {
 	u8 one;
 	u8 two;
 	u8 three;
 	/* 61 byte padding hole here. */
 	u8 four __aligned(64);
 } __aligned(64);

 struct test_trailing_hole {
 	char *one;
 	char *two;
 	char *three;
 	char four;
 	/* "sizeof(unsigned long) - 1" byte padding hole here. */
 };

 /* Test if STRUCTLEAK is clearing structs with __user fields. */
 struct test_user {
 	u8 one;
 	unsigned long two;
 	char __user *three;
 	unsigned long four;
 };

 #define DEFINE_SCALAR_TEST(name, init)				\
 		DEFINE_TEST(name ## _ ## init, name, SCALAR, init)

 #define DEFINE_SCALAR_TESTS(init)				\
 		DEFINE_SCALAR_TEST(u8, init);			\
 		DEFINE_SCALAR_TEST(u16, init);			\
 		DEFINE_SCALAR_TEST(u32, init);			\
 		DEFINE_SCALAR_TEST(u64, init);			\
 		DEFINE_TEST(char_array_ ## init, unsigned char, STRING, init)

 #define DEFINE_STRUCT_TEST(name, init)				\
 		DEFINE_TEST(name ## _ ## init,			\
 			    struct test_ ## name, STRUCT, init)

 #define DEFINE_STRUCT_TESTS(init)				\
 		DEFINE_STRUCT_TEST(small_hole, init);		\
 		DEFINE_STRUCT_TEST(big_hole, init);		\
 		DEFINE_STRUCT_TEST(trailing_hole, init);	\
 		DEFINE_STRUCT_TEST(packed, init)

 /* These should be fully initialized all the time! */
 DEFINE_SCALAR_TESTS(zero);
 DEFINE_STRUCT_TESTS(zero);
 /* Static initialization: padding may be left uninitialized. */
 DEFINE_STRUCT_TESTS(static_partial);
 DEFINE_STRUCT_TESTS(static_all);
 /* Dynamic initialization: padding may be left uninitialized. */
 DEFINE_STRUCT_TESTS(dynamic_partial);
 DEFINE_STRUCT_TESTS(dynamic_all);
 /* Runtime initialization: padding may be left uninitialized. */
 DEFINE_STRUCT_TESTS(runtime_partial);
 DEFINE_STRUCT_TESTS(runtime_all);
 /* No initialization without compiler instrumentation. */
 DEFINE_SCALAR_TESTS(none);
 DEFINE_STRUCT_TESTS(none);
 DEFINE_TEST(user, struct test_user, STRUCT, none);

 /*
  * Check two uses through a variable declaration outside either path,
  * which was noticed as a special case in porting earlier stack init
  * compiler logic.
  */
 static int noinline __leaf_switch_none(int path, bool fill)
 {
 	switch (path) {
 		uint64_t var;

 	case 1:
 		target_start = &var;
 		target_size = sizeof(var);
 		if (fill) {
 			fill_start = &var;
 			fill_size = sizeof(var);

 			memset(fill_start, forced_mask | 0x55, fill_size);
 		}
 		memcpy(check_buf, target_start, target_size);
 		break;
 	case 2:
 		target_start = &var;
 		target_size = sizeof(var);
 		if (fill) {
 			fill_start = &var;
 			fill_size = sizeof(var);

 			memset(fill_start, forced_mask | 0xaa, fill_size);
 		}
 		memcpy(check_buf, target_start, target_size);
 		break;
 	default:
 		var = 5;
 		return var & forced_mask;
 	}
 	return 0;
 }

 static noinline __init int leaf_switch_1_none(unsigned long sp, bool fill,
 					      uint64_t *arg)
 {
 	return __leaf_switch_none(1, fill);
 }

 static noinline __init int leaf_switch_2_none(unsigned long sp, bool fill,
 					      uint64_t *arg)
 {
 	return __leaf_switch_none(2, fill);
 }

 DEFINE_TEST_DRIVER(switch_1_none, uint64_t, SCALAR);
 DEFINE_TEST_DRIVER(switch_2_none, uint64_t, SCALAR);

 static int __init test_stackinit_init(void)
 {
 	unsigned int failures = 0;

 #define test_scalars(init)	do {				\
 		failures += test_u8_ ## init ();		\
 		failures += test_u16_ ## init ();		\
 		failures += test_u32_ ## init ();		\
 		failures += test_u64_ ## init ();		\
 		failures += test_char_array_ ## init ();	\
 	} while (0)

 #define test_structs(init)	do {				\
 		failures += test_small_hole_ ## init ();	\
 		failures += test_big_hole_ ## init ();		\
 		failures += test_trailing_hole_ ## init ();	\
 		failures += test_packed_ ## init ();		\
 	} while (0)

 	/* These are explicitly initialized and should always pass. */
 	test_scalars(zero);
 	test_structs(zero);
 	/* Padding here appears to be accidentally always initialized? */
 	test_structs(dynamic_partial);
 	/* Padding initialization depends on compiler behaviors. */
 	test_structs(static_partial);
 	test_structs(static_all);
 	test_structs(dynamic_all);
 	test_structs(runtime_partial);
 	test_structs(runtime_all);

 	/* STRUCTLEAK_BYREF_ALL should cover everything from here down. */
 	test_scalars(none);
 	failures += test_switch_1_none();
 	failures += test_switch_2_none();

 	/* STRUCTLEAK_BYREF should cover from here down. */
 	test_structs(none);

 	/* STRUCTLEAK will only cover this. */
 	failures += test_user();

 	if (failures == 0)
 		pr_info("all tests passed!\n");
 	else
 		pr_err("failures: %u\n", failures);

 	return failures ? -EINVAL : 0;
 }
 module_init(test_stackinit_init);

 static void __exit test_stackinit_exit(void)
 { }
 module_exit(test_stackinit_exit);

 MODULE_LICENSE("GPL");
	// SPDX-License-Identifier: GPL-2.0
	/*
	* Test cases for compiler-based stack variable zeroing via future
	* compiler flags or CONFIG_GCC_PLUGIN_STRUCTLEAK*.
	*/
	#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt

	#include <linux/init.h>
	#include <linux/kernel.h>
	#include <linux/module.h>
	#include <linux/string.h>

	/* Exfiltration buffer. */
	#define MAX_VAR_SIZE 128
	static u8 check_buf[MAX_VAR_SIZE];

	/* Character array to trigger stack protector in all functions. */
	#define VAR_BUFFER 32

	/* Volatile mask to convince compiler to copy memory with 0xff. */
	static volatile u8 forced_mask = 0xff;

	/* Location and size tracking to validate fill and test are colocated. */
	static void fill_start, target_start;
	static size_t fill_size, target_size;

	static bool range_contains(char *haystack_start, size_t haystack_size,
	char *needle_start, size_t needle_size)
	{
	if (needle_start >= haystack_start &&
	needle_start + needle_size <= haystack_start + haystack_size)
	return true;
	return false;
	}

	#define DO_NOTHING_TYPE_SCALAR(var_type) var_type
	#define DO_NOTHING_TYPE_STRING(var_type) void
	#define DO_NOTHING_TYPE_STRUCT(var_type) void

	#define DO_NOTHING_RETURN_SCALAR(ptr) *(ptr)
	#define DO_NOTHING_RETURN_STRING(ptr) /**/
	#define DO_NOTHING_RETURN_STRUCT(ptr) /**/

	#define DO_NOTHING_CALL_SCALAR(var, name) \
	(var) = do_nothing_ ## name(&(var))
	#define DO_NOTHING_CALL_STRING(var, name) \
	do_nothing_ ## name(var)
	#define DO_NOTHING_CALL_STRUCT(var, name) \
	do_nothing_ ## name(&(var))

	#define FETCH_ARG_SCALAR(var) &var
	#define FETCH_ARG_STRING(var) var
	#define FETCH_ARG_STRUCT(var) &var

	#define FILL_SIZE_STRING 16

	#define INIT_CLONE_SCALAR /**/
	#define INIT_CLONE_STRING [FILL_SIZE_STRING]
	#define INIT_CLONE_STRUCT /**/

	#define INIT_SCALAR_none /**/
	#define INIT_SCALAR_zero = 0

	#define INIT_STRING_none [FILL_SIZE_STRING] /**/
	#define INIT_STRING_zero [FILL_SIZE_STRING] = { }

	#define INIT_STRUCT_none /**/
	#define INIT_STRUCT_zero = { }
	#define INIT_STRUCT_static_partial = { .two = 0, }
	#define INIT_STRUCT_static_all = { .one = 0, \
	.two = 0, \
	.three = 0, \
	.four = 0, \
	}
	#define INIT_STRUCT_dynamic_partial = { .two = arg->two, }
	#define INIT_STRUCT_dynamic_all = { .one = arg->one, \
	.two = arg->two, \
	.three = arg->three, \
	.four = arg->four, \
	}
	#define INIT_STRUCT_runtime_partial ; \
	var.two = 0
	#define INIT_STRUCT_runtime_all ; \
	var.one = 0; \
	var.two = 0; \
	var.three = 0; \
	var.four = 0

	/*
	* @name: unique string name for the test
	* @var_type: type to be tested for zeroing initialization
	* @which: is this a SCALAR, STRING, or STRUCT type?
	* @init_level: what kind of initialization is performed
	*/
	#define DEFINE_TEST_DRIVER(name, var_type, which) \
	/* Returns 0 on success, 1 on failure. */ \
	static noinline __init int test_ ## name (void) \
	{ \
	var_type zero INIT_CLONE_ ## which; \
	int ignored; \
	u8 sum = 0, i; \
	\
	/* Notice when a new test is larger than expected. */ \
	BUILD_BUG_ON(sizeof(zero) > MAX_VAR_SIZE); \
	\
	/* Fill clone type with zero for per-field init. */ \
	memset(&zero, 0x00, sizeof(zero)); \
	/* Clear entire check buffer for 0xFF overlap test. */ \
	memset(check_buf, 0x00, sizeof(check_buf)); \
	/* Fill stack with 0xFF. */ \
	ignored = leaf_ ##name((unsigned long)&ignored, 1, \
	FETCH_ARG_ ## which(zero)); \
	/* Verify all bytes overwritten with 0xFF. */ \
	for (sum = 0, i = 0; i < target_size; i++) \
	sum += (check_buf[i] != 0xFF); \
	if (sum) { \
	pr_err(#name ": leaf fill was not 0xFF!?\n"); \
	return 1; \
	} \
	/* Clear entire check buffer for later bit tests. */ \
	memset(check_buf, 0x00, sizeof(check_buf)); \
	/* Extract stack-defined variable contents. */ \
	ignored = leaf_ ##name((unsigned long)&ignored, 0, \
	FETCH_ARG_ ## which(zero)); \
	\
	/* Validate that compiler lined up fill and target. */ \
	if (!range_contains(fill_start, fill_size, \
	target_start, target_size)) { \
	pr_err(#name ": stack fill missed target!?\n"); \
	pr_err(#name ": fill %zu wide\n", fill_size); \
	pr_err(#name ": target offset by %d\n", \
	(int)((ssize_t)(uintptr_t)fill_start - \
	(ssize_t)(uintptr_t)target_start)); \
	return 1; \
	} \
	\
	/* Look for any bytes still 0xFF in check region. */ \
	for (sum = 0, i = 0; i < target_size; i++) \
	sum += (check_buf[i] == 0xFF); \
	\
	if (sum == 0) \
	pr_info(#name " ok\n"); \
	else \
	pr_warn(#name " FAIL (uninit bytes: %d)\n", \
	sum); \
	\
	return (sum != 0); \
	}
	#define DEFINE_TEST(name, var_type, which, init_level) \
	/* no-op to force compiler into ignoring "uninitialized" vars */\
	static noinline __init DO_NOTHING_TYPE_ ## which(var_type) \
	do_nothing_ ## name(var_type *ptr) \
	{ \
	/* Will always be true, but compiler doesn't know. */ \
	if ((unsigned long)ptr > 0x2) \
	return DO_NOTHING_RETURN_ ## which(ptr); \
	else \
	return DO_NOTHING_RETURN_ ## which(ptr + 1); \
	} \
	static noinline __init int leaf_ ## name(unsigned long sp, \
	bool fill, \
	var_type *arg) \
	{ \
	char buf[VAR_BUFFER]; \
	var_type var INIT_ ## which ## _ ## init_level; \
	\
	target_start = &var; \
	target_size = sizeof(var); \
	/* \
	* Keep this buffer around to make sure we've got a \
	* stack frame of SOME kind... \
	*/ \
	memset(buf, (char)(sp & 0xff), sizeof(buf)); \
	/* Fill variable with 0xFF. */ \
	if (fill) { \
	fill_start = &var; \
	fill_size = sizeof(var); \
	memset(fill_start, \
	(char)((sp & 0xff) \| forced_mask), \
	fill_size); \
	} \
	\
	/* Silence "never initialized" warnings. */ \
	DO_NOTHING_CALL_ ## which(var, name); \
	\
	/* Exfiltrate "var". */ \
	memcpy(check_buf, target_start, target_size); \
	\
	return (int)buf[0] \| (int)buf[sizeof(buf) - 1]; \
	} \
	DEFINE_TEST_DRIVER(name, var_type, which)

	/* Structure with no padding. */
	struct test_packed {
	unsigned long one;
	unsigned long two;
	unsigned long three;
	unsigned long four;
	};

	/* Simple structure with padding likely to be covered by compiler. */
	struct test_small_hole {
	size_t one;
	char two;
	/* 3 byte padding hole here. */
	int three;
	unsigned long four;
	};

	/* Trigger unhandled padding in a structure. */
	struct test_big_hole {
	u8 one;
	u8 two;
	u8 three;
	/* 61 byte padding hole here. */
	u8 four __aligned(64);
	} __aligned(64);

	struct test_trailing_hole {
	char *one;
	char *two;
	char *three;
	char four;
	/* "sizeof(unsigned long) - 1" byte padding hole here. */
	};

	/* Test if STRUCTLEAK is clearing structs with __user fields. */
	struct test_user {
	u8 one;
	unsigned long two;
	char __user *three;
	unsigned long four;
	};

	#define DEFINE_SCALAR_TEST(name, init) \
	DEFINE_TEST(name ## _ ## init, name, SCALAR, init)

	#define DEFINE_SCALAR_TESTS(init) \
	DEFINE_SCALAR_TEST(u8, init); \
	DEFINE_SCALAR_TEST(u16, init); \
	DEFINE_SCALAR_TEST(u32, init); \
	DEFINE_SCALAR_TEST(u64, init); \
	DEFINE_TEST(char_array_ ## init, unsigned char, STRING, init)

	#define DEFINE_STRUCT_TEST(name, init) \
	DEFINE_TEST(name ## _ ## init, \
	struct test_ ## name, STRUCT, init)

	#define DEFINE_STRUCT_TESTS(init) \
	DEFINE_STRUCT_TEST(small_hole, init); \
	DEFINE_STRUCT_TEST(big_hole, init); \
	DEFINE_STRUCT_TEST(trailing_hole, init); \
	DEFINE_STRUCT_TEST(packed, init)

	/* These should be fully initialized all the time! */
	DEFINE_SCALAR_TESTS(zero);
	DEFINE_STRUCT_TESTS(zero);
	/* Static initialization: padding may be left uninitialized. */
	DEFINE_STRUCT_TESTS(static_partial);
	DEFINE_STRUCT_TESTS(static_all);
	/* Dynamic initialization: padding may be left uninitialized. */
	DEFINE_STRUCT_TESTS(dynamic_partial);
	DEFINE_STRUCT_TESTS(dynamic_all);
	/* Runtime initialization: padding may be left uninitialized. */
	DEFINE_STRUCT_TESTS(runtime_partial);
	DEFINE_STRUCT_TESTS(runtime_all);
	/* No initialization without compiler instrumentation. */
	DEFINE_SCALAR_TESTS(none);
	DEFINE_STRUCT_TESTS(none);
	DEFINE_TEST(user, struct test_user, STRUCT, none);

	/*
	* Check two uses through a variable declaration outside either path,
	* which was noticed as a special case in porting earlier stack init
	* compiler logic.
	*/
	static int noinline __leaf_switch_none(int path, bool fill)
	{
	switch (path) {
	uint64_t var;

	case 1:
	target_start = &var;
	target_size = sizeof(var);
	if (fill) {
	fill_start = &var;
	fill_size = sizeof(var);

	memset(fill_start, forced_mask \| 0x55, fill_size);
	}
	memcpy(check_buf, target_start, target_size);
	break;
	case 2:
	target_start = &var;
	target_size = sizeof(var);
	if (fill) {
	fill_start = &var;
	fill_size = sizeof(var);

	memset(fill_start, forced_mask \| 0xaa, fill_size);
	}
	memcpy(check_buf, target_start, target_size);
	break;
	default:
	var = 5;
	return var & forced_mask;
	}
	return 0;
	}

	static noinline __init int leaf_switch_1_none(unsigned long sp, bool fill,
	uint64_t *arg)
	{
	return __leaf_switch_none(1, fill);
	}

	static noinline __init int leaf_switch_2_none(unsigned long sp, bool fill,
	uint64_t *arg)
	{
	return __leaf_switch_none(2, fill);
	}

	DEFINE_TEST_DRIVER(switch_1_none, uint64_t, SCALAR);
	DEFINE_TEST_DRIVER(switch_2_none, uint64_t, SCALAR);

	static int __init test_stackinit_init(void)
	{
	unsigned int failures = 0;

	#define test_scalars(init) do { \
	failures += test_u8_ ## init (); \
	failures += test_u16_ ## init (); \
	failures += test_u32_ ## init (); \
	failures += test_u64_ ## init (); \
	failures += test_char_array_ ## init (); \
	} while (0)

	#define test_structs(init) do { \
	failures += test_small_hole_ ## init (); \
	failures += test_big_hole_ ## init (); \
	failures += test_trailing_hole_ ## init (); \
	failures += test_packed_ ## init (); \
	} while (0)

	/* These are explicitly initialized and should always pass. */
	test_scalars(zero);
	test_structs(zero);
	/* Padding here appears to be accidentally always initialized? */
	test_structs(dynamic_partial);
	/* Padding initialization depends on compiler behaviors. */
	test_structs(static_partial);
	test_structs(static_all);
	test_structs(dynamic_all);
	test_structs(runtime_partial);
	test_structs(runtime_all);

	/* STRUCTLEAK_BYREF_ALL should cover everything from here down. */
	test_scalars(none);
	failures += test_switch_1_none();
	failures += test_switch_2_none();

	/* STRUCTLEAK_BYREF should cover from here down. */
	test_structs(none);

	/* STRUCTLEAK will only cover this. */
	failures += test_user();

	if (failures == 0)
	pr_info("all tests passed!\n");
	else
	pr_err("failures: %u\n", failures);

	return failures ? -EINVAL : 0;
	}
	module_init(test_stackinit_init);

	static void __exit test_stackinit_exit(void)
	{ }
	module_exit(test_stackinit_exit);

	MODULE_LICENSE("GPL");