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Subject[PATCH v11 3/9] compiler_types.h: Add assert_same_type to catch type mis-match while compiling
Date
Adds assert_same_type and assert_same_typable macros to catch type
mis-match while compiling. The existing typecheck() macro outputs build
warnings, but the newly added assert_same_type() macro uses the
static_assert macro (which uses _Static_assert keyword and it introduced
in C11) to generate a build break when the types are different and can be
used to detect explicit build errors. Unlike the assert_same_type() macro,
assert_same_typable() macro allows a constant value as the second argument.
Since static_assert is used at compile time and it requires
constant-expression as an argument [1][2], overflows_type_ret_const_expr()
is newly added. There is overflows_type() that has the same behavior, but
the macro uses __builtin_add_overflow() internally, and
__builtin_add_overflows returns a bool type [3], so it is difficult to use
as an argument of _Static_assert. The assert_same_type and
assert_same_typable macros have been added to compiler_types.h, but the
overflows_type_ret_const_expr macro has been added to overflow.h
So, overflow.h has to be included to use assert_same_typable which
internally uses overflows_type_ret_const_expr.
And it adds unit tests for overflows_type, overflows_type_ret_const_expr,
assert_same_type and assert_same_typable. The overflows_type has been added
as well to compare whether the overflows_type_ret_const_expr unit test has
the same as the result.

[1] https://en.cppreference.com/w/c/language/_Static_assert
[2] C11 standard (ISO/IEC 9899:2011): 6.7.10 Static assertions
[3] https://gcc.gnu.org/onlinedocs/gcc/Integer-Overflow-Builtins.html
6.56 Built-in Functions to Perform Arithmetic with Overflow Checking
Built-in Function: bool __builtin_add_overflow (type1 a, type2 b,
type3 *res)

v11: Update macro description (Andi)
Change _Static_assert to static_assert (Rasmus)
Rename assert_type to assert_same_type and assert_typable to
assert_same_typable (Rasmus)
Update assert_same_typable macro to handle an overflow check on the
target type when a constant value is used. (Kees)
Add overflows_type_ret_const_expr which returns constant-expression
value (G.G)
Add is_unsigned_type (G.G)
Add unit tests for overflows_type, overflows_type_ret_const_expr,
assert_same_type and assert_same_typable. (Kees)

Suggested-by: Kees Cook <keescook@chromium.org>
Signed-off-by: Gwan-gyeong Mun <gwan-gyeong.mun@intel.com>
Cc: Thomas Hellström <thomas.hellstrom@linux.intel.com>
Cc: Matthew Auld <matthew.auld@intel.com>
Cc: Nirmoy Das <nirmoy.das@intel.com>
Cc: Jani Nikula <jani.nikula@intel.com>
Cc: Andi Shyti <andi.shyti@linux.intel.com>
Cc: Mauro Carvalho Chehab <mchehab@kernel.org>
Cc: Andrzej Hajda <andrzej.hajda@intel.com>
Cc: Kees Cook <keescook@chromium.org>
Cc: Rasmus Villemoes <linux@rasmusvillemoes.dk>
---
include/linux/compiler.h | 1 +
include/linux/compiler_types.h | 43 +++++
include/linux/overflow.h | 27 ++++
lib/overflow_kunit.c | 283 +++++++++++++++++++++++++++++++++
4 files changed, 354 insertions(+)

diff --git a/include/linux/compiler.h b/include/linux/compiler.h
index 7713d7bcdaea..c631107e93b1 100644
--- a/include/linux/compiler.h
+++ b/include/linux/compiler.h
@@ -244,6 +244,7 @@ static inline void *offset_to_ptr(const int *off)
* bool and also pointer types.
*/
#define is_signed_type(type) (((type)(-1)) < (__force type)1)
+#define is_unsigned_type(type) (!is_signed_type(type))

/*
* This is needed in functions which generate the stack canary, see
diff --git a/include/linux/compiler_types.h b/include/linux/compiler_types.h
index 4f2a819fd60a..e6f5d68e5eba 100644
--- a/include/linux/compiler_types.h
+++ b/include/linux/compiler_types.h
@@ -294,6 +294,49 @@ struct ftrace_likely_data {
/* Are two types/vars the same type (ignoring qualifiers)? */
#define __same_type(a, b) __builtin_types_compatible_p(typeof(a), typeof(b))

+/**
+ * assert_same_type - abort compilation if the first argument's data type and
+ * the second argument's data type are not the same
+ * @t1: data type or variable
+ * @t2: data type or variable
+ *
+ * The first and second arguments can be data types or variables or mixed (the
+ * first argument is the data type and the second argument is variable or vice
+ * versa). It determines whether the first argument's data type and the second
+ * argument's data type are the same while compiling, and it aborts compilation
+ * if the two types are not the same.
+ * See also assert_same_typable().
+ */
+#define assert_same_type(t1, t2) static_assert(__same_type(t1, t2))
+
+/**
+ * assert_same_typable - abort compilation if the first argument's data type and
+ * the second argument's data type are not the same
+ * @t: data type or variable
+ * @n: data type or variable or constant value
+ *
+ * The first and second arguments can be data types or variables or mixed (the
+ * first argument is the data type and the second argument is variable or vice
+ * versa). Unlike the assert_same_type() macro, this macro allows a constant
+ * value as the second argument. And if the second argument is a constant
+ * value, it checks overflows between the first argument's data type and the
+ * second argument's constant value to check whether overflow can occur when
+ * assigning the second argument to the variable of the first argument. And it
+ * aborts compilation if the overflow can occur. Since static assert used at
+ * compile time requires constant-expression as an argument,
+ * overflows_type_ret_const_expr() is used internally instead of
+ * overflows_type(). When a constant value is not used as a second argument, it
+ * determines whether the first argument's data type and the second argument's
+ * data type are the same while compiling, and it aborts compilation if the two
+ * types are not the same.
+ * See also assert_same_type(), overflows_type_ret_const_expr() and
+ * overflows_type().
+ */
+#define assert_same_typable(t, n) static_assert( \
+ __builtin_choose_expr(__builtin_constant_p(n), \
+ overflows_type_ret_const_expr(n,t) == 0, \
+ __same_type(t, n)))
+
/*
* __unqual_scalar_typeof(x) - Declare an unqualified scalar type, leaving
* non-scalar types unchanged.
diff --git a/include/linux/overflow.h b/include/linux/overflow.h
index 0eca3d8281b2..6e481ad2e46e 100644
--- a/include/linux/overflow.h
+++ b/include/linux/overflow.h
@@ -191,6 +191,33 @@ static inline bool __must_check __must_check_overflow(bool overflow)
check_add_overflow((x), v, &v); \
}))

+/**
+ * overflows_type_ret_const_expr - helper for checking the overflows between
+ * value, variables, or data type
+ *
+ * @x: source constant value or variable for overflow check
+ * @T: destination variable or data type for overflow check
+ *
+ * It compares the value, variables, or data type between the first and second
+ * argument to check whether overflow can occur when assigning the first
+ * argument to the variable of the second argument data type. Source and
+ * Destination can be different data types. Unlike overflows_type(), it returns
+ * a constant-expression value. It is recommended to use this macro only when a
+ * constant-expression value is absolutely necessary at compile time. In other
+ * cases, it is recommended to use overflows_type().
+ *
+ * See also overflows_type() and assert_same_typable().
+ *
+ * Returns:
+ * 1 if overflow can occur, 0 otherwise.
+ */
+#define overflows_type_ret_const_expr(x,T) ( \
+ is_unsigned_type(typeof(x)) ? \
+ x > type_max(typeof(T)) ? 1 : 0 \
+ : is_unsigned_type(typeof(T)) ? \
+ x < 0 || x > type_max(typeof(T)) ? 1 : 0 \
+ : x < type_min(typeof(T)) || x > type_max(typeof(T)) ? 1 : 0 )
+
/**
* size_mul() - Calculate size_t multiplication with saturation at SIZE_MAX
*
diff --git a/lib/overflow_kunit.c b/lib/overflow_kunit.c
index 0d98c9bc75da..a9c99a116e3c 100644
--- a/lib/overflow_kunit.c
+++ b/lib/overflow_kunit.c
@@ -687,6 +687,287 @@ static void overflow_size_helpers_test(struct kunit *test)
#undef check_one_size_helper
}

+static void overflows_type_test(struct kunit *test)
+{
+/* Args are: first type, secound type, value, overflow expected */
+#define TEST_OVERFLOWS_TYPE(t1, t2, v, of) do { \
+ t1 __t1 = v; \
+ t2 __t2; \
+ bool __of; \
+ __of = overflows_type(v, t2); \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type(%s, %s) to%s overflow\n", \
+ #v, #t2, of ? "" : " not"); \
+ } \
+ __of = overflows_type(v, __t2); \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type(%s, %s) to%s overflow\n", \
+ #v, #t2" __t2", of ? "" : " not"); \
+ } \
+ __of = overflows_type(__t1, t2); \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type(%s, %s) to%s overflow\n", \
+ #t1" __t1 = "#v, #t2, of ? "" : " not"); \
+ } \
+ __of = overflows_type(__t1, __t2); \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type(%s, %s) to%s overflow\n", \
+ #t1" __t1 = "#v, #t2" __t2", of ? "" : " not"); \
+ } \
+ __of = overflows_type_ret_const_expr(v, t2) ? true : false; \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type_ret_const_expr(%s, %s) to%s overflow\n", \
+ #v, #t2, of ? "" : " not"); \
+ } \
+ __of = overflows_type_ret_const_expr(v, __t2) ? true : false; \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type_ret_const_expr(%s, %s) to%s overflow\n", \
+ #v, #t2" __t2", of ? "" : " not"); \
+ } \
+ __of = overflows_type_ret_const_expr(__t1, t2) ? true : false; \
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type_ret_const_expr(%s, %s) to%s overflow\n", \
+ #t1" __t1 = "#v, #t2, of ? "" : " not"); \
+ } \
+ __of = overflows_type_ret_const_expr(__t1, __t2) ? true : false;\
+ if (__of != of) { \
+ KUNIT_EXPECT_EQ_MSG(test, __of, of, \
+ "expected overflows_type_ret_const_expr(%s, %s) to%s overflow\n", \
+ #t1" __t1 = "#v, #t2" __t2", of ? "" : " not"); \
+ } \
+} while(0)
+
+ TEST_OVERFLOWS_TYPE(u8, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u8, u16, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u8, s8, U8_MAX, true);
+ TEST_OVERFLOWS_TYPE(u8, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u8, s8, (u8)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u8, s16, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, u8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, u8, -1, true);
+ TEST_OVERFLOWS_TYPE(s8, u8, S8_MIN, true);
+ TEST_OVERFLOWS_TYPE(s8, u16, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, u16, -1, true);
+ TEST_OVERFLOWS_TYPE(s8, u16, S8_MIN, true);
+ TEST_OVERFLOWS_TYPE(s8, u32, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, u32, -1, true);
+ TEST_OVERFLOWS_TYPE(s8, u32, S8_MIN, true);
+#if BITS_PER_LONG == 64
+ TEST_OVERFLOWS_TYPE(s8, u64, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, u64, -1, true);
+ TEST_OVERFLOWS_TYPE(s8, u64, S8_MIN, true);
+#endif
+ TEST_OVERFLOWS_TYPE(s8, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, s8, S8_MIN, false);
+ TEST_OVERFLOWS_TYPE(s8, s16, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s8, s16, S8_MIN, false);
+ TEST_OVERFLOWS_TYPE(u16, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u16, u8, (u16)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u16, u8, U16_MAX, true);
+ TEST_OVERFLOWS_TYPE(u16, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u16, s8, (u16)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u16, s8, U16_MAX, true);
+ TEST_OVERFLOWS_TYPE(u16, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u16, s16, (u16)S16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u16, s16, U16_MAX, true);
+ TEST_OVERFLOWS_TYPE(u16, u32, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u16, s32, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, u8, (s16)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s16, u8, -1, true);
+ TEST_OVERFLOWS_TYPE(s16, u8, S16_MIN, true);
+ TEST_OVERFLOWS_TYPE(s16, u16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, u16, -1, true);
+ TEST_OVERFLOWS_TYPE(s16, u16, S16_MIN, true);
+ TEST_OVERFLOWS_TYPE(s16, u32, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, u32, -1, true);
+ TEST_OVERFLOWS_TYPE(s16, u32, S16_MIN, true);
+#if BITS_PER_LONG == 64
+ TEST_OVERFLOWS_TYPE(s16, u64, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, u64, -1, true);
+ TEST_OVERFLOWS_TYPE(s16, u64, S16_MIN, true);
+#endif
+ TEST_OVERFLOWS_TYPE(s16, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, s8, S8_MIN, false);
+ TEST_OVERFLOWS_TYPE(s16, s8, (s16)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s16, s8, (s16)S8_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s16, s8, S16_MAX, true);
+ TEST_OVERFLOWS_TYPE(s16, s8, S16_MIN, true);
+ TEST_OVERFLOWS_TYPE(s16, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, s16, S16_MIN, false);
+ TEST_OVERFLOWS_TYPE(s16, s32, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s16, s32, S16_MIN, false);
+ TEST_OVERFLOWS_TYPE(u32, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, u8, (u32)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u32, u8, U32_MAX, true);
+ TEST_OVERFLOWS_TYPE(u32, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, s8, (u32)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u32, s8, U32_MAX, true);
+ TEST_OVERFLOWS_TYPE(u32, u16, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, u16, U16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u32, u16, U32_MAX, true);
+ TEST_OVERFLOWS_TYPE(u32, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, s16, (u32)S16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u32, s16, U32_MAX, true);
+ TEST_OVERFLOWS_TYPE(u32, u32, U32_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, s32, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, s32, U32_MAX, true);
+ TEST_OVERFLOWS_TYPE(u32, s32, (u32)S32_MAX + 1, true);
+#if BITS_PER_LONG == 64
+ TEST_OVERFLOWS_TYPE(u32, u64, U32_MAX, false);
+ TEST_OVERFLOWS_TYPE(u32, s64, U32_MAX, false);
+#endif
+ TEST_OVERFLOWS_TYPE(s32, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, u8, (s32)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s32, u16, S32_MAX, true);
+ TEST_OVERFLOWS_TYPE(s32, u8, -1, true);
+ TEST_OVERFLOWS_TYPE(s32, u8, S32_MIN, true);
+ TEST_OVERFLOWS_TYPE(s32, u16, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, u16, (s32)U16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s32, u16, S32_MAX, true);
+ TEST_OVERFLOWS_TYPE(s32, u16, -1, true);
+ TEST_OVERFLOWS_TYPE(s32, u16, S32_MIN, true);
+ TEST_OVERFLOWS_TYPE(s32, u32, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, u32, -1, true);
+ TEST_OVERFLOWS_TYPE(s32, u32, S32_MIN, true);
+#if BITS_PER_LONG == 64
+ TEST_OVERFLOWS_TYPE(s32, u64, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, u64, -1, true);
+ TEST_OVERFLOWS_TYPE(s32, u64, S32_MIN, true);
+#endif
+ TEST_OVERFLOWS_TYPE(s32, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, s8, S8_MIN, false);
+ TEST_OVERFLOWS_TYPE(s32, s8, (s32)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s32, s8, (s32)S8_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s32, s8, S32_MAX, true);
+ TEST_OVERFLOWS_TYPE(s32, s8, S32_MIN, true);
+ TEST_OVERFLOWS_TYPE(s32, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, s16, S16_MIN, false);
+ TEST_OVERFLOWS_TYPE(s32, s16, (s32)S16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s32, s16, (s32)S16_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s32, s16, S32_MAX, true);
+ TEST_OVERFLOWS_TYPE(s32, s16, S32_MIN, true);
+ TEST_OVERFLOWS_TYPE(s32, s32, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, s32, S32_MIN, false);
+#if BITS_PER_LONG == 64
+ TEST_OVERFLOWS_TYPE(s32, s64, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s32, s64, S32_MIN, false);
+ TEST_OVERFLOWS_TYPE(u64, u8, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, u8, (u64)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, u16, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, u16, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, u16, (u64)U16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, u32, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, u32, U32_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, u32, (u64)U32_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, u64, U64_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, s8, (u64)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, s8, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, s16, (u64)S16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, s16, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, s32, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, s32, (u64)S32_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(u64, s32, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, s64, S64_MAX, false);
+ TEST_OVERFLOWS_TYPE(u64, s64, U64_MAX, true);
+ TEST_OVERFLOWS_TYPE(u64, s64, (u64)S64_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, u8, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, u8, S64_MIN, true);
+ TEST_OVERFLOWS_TYPE(s64, u8, -1, true);
+ TEST_OVERFLOWS_TYPE(s64, u8, U8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, u8, (s64)U8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, u16, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, u16, S64_MIN, true);
+ TEST_OVERFLOWS_TYPE(s64, u16, -1, true);
+ TEST_OVERFLOWS_TYPE(s64, u16, U16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, u16, (s64)U16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, u32, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, u32, S64_MIN, true);
+ TEST_OVERFLOWS_TYPE(s64, u32, -1, true);
+ TEST_OVERFLOWS_TYPE(s64, u32, U32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, u32, (s64)U32_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, u64, S64_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, u64, S64_MIN, true);
+ TEST_OVERFLOWS_TYPE(s64, u64, -1, true);
+ TEST_OVERFLOWS_TYPE(s64, s8, S8_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, s8, S8_MIN, false);
+ TEST_OVERFLOWS_TYPE(s64, s8, (s64)S8_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s8, (s64)S8_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s8, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, s16, S16_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, s16, S16_MIN, false);
+ TEST_OVERFLOWS_TYPE(s64, s16, (s64)S16_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s16, (s64)S16_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s16, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, s32, S32_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, s32, S32_MIN, false);
+ TEST_OVERFLOWS_TYPE(s64, s32, (s64)S32_MAX + 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s32, (s64)S32_MIN - 1, true);
+ TEST_OVERFLOWS_TYPE(s64, s32, S64_MAX, true);
+ TEST_OVERFLOWS_TYPE(s64, s64, S64_MAX, false);
+ TEST_OVERFLOWS_TYPE(s64, s64, S64_MIN, false);
+#endif
+#undef TEST_OVERFLOWS_TYPE
+}
+
+static void assert_same_type_test(struct kunit *test)
+{
+/* Arg is: type */
+#define TEST_ASSERT_SAME_TYPE(t) do { \
+ typeof(t) __t1 = type_max(t); \
+ typeof(t) __t2 = type_min(t); \
+ assert_same_type(t, t); \
+ assert_same_type(t, __t1); \
+ assert_same_type(__t1, t); \
+ assert_same_type(__t1, __t2); \
+} while (0)
+
+/* Arg is: type */
+#define TEST_ASSERT_SAME_TYPABLE(t) do { \
+ typeof(t) __t1 = type_max(t); \
+ typeof(t) __t2 = type_min(t); \
+ assert_same_typable(t, __t1); \
+ assert_same_typable(t, type_max(t)); \
+ assert_same_typable(t, type_min(t)); \
+ assert_same_typable(__t1, type_max(t)); \
+ assert_same_typable(__t1, type_min(t)); \
+ assert_same_typable(__t1, __t2); \
+} while (0)
+
+ TEST_ASSERT_SAME_TYPE(u8);
+ TEST_ASSERT_SAME_TYPE(u16);
+ TEST_ASSERT_SAME_TYPE(u32);
+ TEST_ASSERT_SAME_TYPE(s8);
+ TEST_ASSERT_SAME_TYPE(s16);
+ TEST_ASSERT_SAME_TYPE(s32);
+ TEST_ASSERT_SAME_TYPABLE(u8);
+ TEST_ASSERT_SAME_TYPABLE(u16);
+ TEST_ASSERT_SAME_TYPABLE(u32);
+ TEST_ASSERT_SAME_TYPABLE(s8);
+ TEST_ASSERT_SAME_TYPABLE(s16);
+ TEST_ASSERT_SAME_TYPABLE(s32);
+
+#if BITS_PER_LONG == 64
+ TEST_ASSERT_SAME_TYPE(u64);
+ TEST_ASSERT_SAME_TYPE(s64);
+ TEST_ASSERT_SAME_TYPABLE(u64);
+ TEST_ASSERT_SAME_TYPABLE(s64);
+#endif
+
+#undef TEST_ASSERT_SAME_TYPABLE
+#undef TEST_ASSERT_SAME_TYPE
+}
+
static struct kunit_case overflow_test_cases[] = {
KUNIT_CASE(u8_u8__u8_overflow_test),
KUNIT_CASE(s8_s8__s8_overflow_test),
@@ -706,6 +987,8 @@ static struct kunit_case overflow_test_cases[] = {
KUNIT_CASE(overflow_shift_test),
KUNIT_CASE(overflow_allocation_test),
KUNIT_CASE(overflow_size_helpers_test),
+ KUNIT_CASE(overflows_type_test),
+ KUNIT_CASE(assert_same_type_test),
{}
};

--
2.37.1
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