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linux-next/lib/test_overflow.c
Kees Cook 8e060c21ae lib/test_overflow.c: avoid tainting the kernel and fix wrap size
This adds __GFP_NOWARN to the kmalloc()-portions of the overflow test to
avoid tainting the kernel.  Additionally fixes up the math on wrap size
to be architecture and page size agnostic.

Link: http://lkml.kernel.org/r/201905282012.0A8767E24@keescook
Fixes: ca90800a91 ("test_overflow: Add memory allocation overflow tests")
Signed-off-by: Kees Cook <keescook@chromium.org>
Reported-by: Randy Dunlap <rdunlap@infradead.org>
Suggested-by: Rasmus Villemoes <linux@rasmusvillemoes.dk>
Cc: Joe Perches <joe@perches.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2019-07-16 19:23:22 -07:00

615 lines
22 KiB
C

// SPDX-License-Identifier: GPL-2.0 OR MIT
/*
* Test cases for arithmetic overflow checks.
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/device.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/module.h>
#include <linux/overflow.h>
#include <linux/slab.h>
#include <linux/types.h>
#include <linux/vmalloc.h>
#define DEFINE_TEST_ARRAY(t) \
static const struct test_ ## t { \
t a, b; \
t sum, diff, prod; \
bool s_of, d_of, p_of; \
} t ## _tests[] __initconst
DEFINE_TEST_ARRAY(u8) = {
{0, 0, 0, 0, 0, false, false, false},
{1, 1, 2, 0, 1, false, false, false},
{0, 1, 1, U8_MAX, 0, false, true, false},
{1, 0, 1, 1, 0, false, false, false},
{0, U8_MAX, U8_MAX, 1, 0, false, true, false},
{U8_MAX, 0, U8_MAX, U8_MAX, 0, false, false, false},
{1, U8_MAX, 0, 2, U8_MAX, true, true, false},
{U8_MAX, 1, 0, U8_MAX-1, U8_MAX, true, false, false},
{U8_MAX, U8_MAX, U8_MAX-1, 0, 1, true, false, true},
{U8_MAX, U8_MAX-1, U8_MAX-2, 1, 2, true, false, true},
{U8_MAX-1, U8_MAX, U8_MAX-2, U8_MAX, 2, true, true, true},
{1U << 3, 1U << 3, 1U << 4, 0, 1U << 6, false, false, false},
{1U << 4, 1U << 4, 1U << 5, 0, 0, false, false, true},
{1U << 4, 1U << 3, 3*(1U << 3), 1U << 3, 1U << 7, false, false, false},
{1U << 7, 1U << 7, 0, 0, 0, true, false, true},
{48, 32, 80, 16, 0, false, false, true},
{128, 128, 0, 0, 0, true, false, true},
{123, 234, 101, 145, 110, true, true, true},
};
DEFINE_TEST_ARRAY(u16) = {
{0, 0, 0, 0, 0, false, false, false},
{1, 1, 2, 0, 1, false, false, false},
{0, 1, 1, U16_MAX, 0, false, true, false},
{1, 0, 1, 1, 0, false, false, false},
{0, U16_MAX, U16_MAX, 1, 0, false, true, false},
{U16_MAX, 0, U16_MAX, U16_MAX, 0, false, false, false},
{1, U16_MAX, 0, 2, U16_MAX, true, true, false},
{U16_MAX, 1, 0, U16_MAX-1, U16_MAX, true, false, false},
{U16_MAX, U16_MAX, U16_MAX-1, 0, 1, true, false, true},
{U16_MAX, U16_MAX-1, U16_MAX-2, 1, 2, true, false, true},
{U16_MAX-1, U16_MAX, U16_MAX-2, U16_MAX, 2, true, true, true},
{1U << 7, 1U << 7, 1U << 8, 0, 1U << 14, false, false, false},
{1U << 8, 1U << 8, 1U << 9, 0, 0, false, false, true},
{1U << 8, 1U << 7, 3*(1U << 7), 1U << 7, 1U << 15, false, false, false},
{1U << 15, 1U << 15, 0, 0, 0, true, false, true},
{123, 234, 357, 65425, 28782, false, true, false},
{1234, 2345, 3579, 64425, 10146, false, true, true},
};
DEFINE_TEST_ARRAY(u32) = {
{0, 0, 0, 0, 0, false, false, false},
{1, 1, 2, 0, 1, false, false, false},
{0, 1, 1, U32_MAX, 0, false, true, false},
{1, 0, 1, 1, 0, false, false, false},
{0, U32_MAX, U32_MAX, 1, 0, false, true, false},
{U32_MAX, 0, U32_MAX, U32_MAX, 0, false, false, false},
{1, U32_MAX, 0, 2, U32_MAX, true, true, false},
{U32_MAX, 1, 0, U32_MAX-1, U32_MAX, true, false, false},
{U32_MAX, U32_MAX, U32_MAX-1, 0, 1, true, false, true},
{U32_MAX, U32_MAX-1, U32_MAX-2, 1, 2, true, false, true},
{U32_MAX-1, U32_MAX, U32_MAX-2, U32_MAX, 2, true, true, true},
{1U << 15, 1U << 15, 1U << 16, 0, 1U << 30, false, false, false},
{1U << 16, 1U << 16, 1U << 17, 0, 0, false, false, true},
{1U << 16, 1U << 15, 3*(1U << 15), 1U << 15, 1U << 31, false, false, false},
{1U << 31, 1U << 31, 0, 0, 0, true, false, true},
{-2U, 1U, -1U, -3U, -2U, false, false, false},
{-4U, 5U, 1U, -9U, -20U, true, false, true},
};
DEFINE_TEST_ARRAY(u64) = {
{0, 0, 0, 0, 0, false, false, false},
{1, 1, 2, 0, 1, false, false, false},
{0, 1, 1, U64_MAX, 0, false, true, false},
{1, 0, 1, 1, 0, false, false, false},
{0, U64_MAX, U64_MAX, 1, 0, false, true, false},
{U64_MAX, 0, U64_MAX, U64_MAX, 0, false, false, false},
{1, U64_MAX, 0, 2, U64_MAX, true, true, false},
{U64_MAX, 1, 0, U64_MAX-1, U64_MAX, true, false, false},
{U64_MAX, U64_MAX, U64_MAX-1, 0, 1, true, false, true},
{U64_MAX, U64_MAX-1, U64_MAX-2, 1, 2, true, false, true},
{U64_MAX-1, U64_MAX, U64_MAX-2, U64_MAX, 2, true, true, true},
{1ULL << 31, 1ULL << 31, 1ULL << 32, 0, 1ULL << 62, false, false, false},
{1ULL << 32, 1ULL << 32, 1ULL << 33, 0, 0, false, false, true},
{1ULL << 32, 1ULL << 31, 3*(1ULL << 31), 1ULL << 31, 1ULL << 63, false, false, false},
{1ULL << 63, 1ULL << 63, 0, 0, 0, true, false, true},
{1000000000ULL /* 10^9 */, 10000000000ULL /* 10^10 */,
11000000000ULL, 18446744064709551616ULL, 10000000000000000000ULL,
false, true, false},
{-15ULL, 10ULL, -5ULL, -25ULL, -150ULL, false, false, true},
};
DEFINE_TEST_ARRAY(s8) = {
{0, 0, 0, 0, 0, false, false, false},
{0, S8_MAX, S8_MAX, -S8_MAX, 0, false, false, false},
{S8_MAX, 0, S8_MAX, S8_MAX, 0, false, false, false},
{0, S8_MIN, S8_MIN, S8_MIN, 0, false, true, false},
{S8_MIN, 0, S8_MIN, S8_MIN, 0, false, false, false},
{-1, S8_MIN, S8_MAX, S8_MAX, S8_MIN, true, false, true},
{S8_MIN, -1, S8_MAX, -S8_MAX, S8_MIN, true, false, true},
{-1, S8_MAX, S8_MAX-1, S8_MIN, -S8_MAX, false, false, false},
{S8_MAX, -1, S8_MAX-1, S8_MIN, -S8_MAX, false, true, false},
{-1, -S8_MAX, S8_MIN, S8_MAX-1, S8_MAX, false, false, false},
{-S8_MAX, -1, S8_MIN, S8_MIN+2, S8_MAX, false, false, false},
{1, S8_MIN, -S8_MAX, -S8_MAX, S8_MIN, false, true, false},
{S8_MIN, 1, -S8_MAX, S8_MAX, S8_MIN, false, true, false},
{1, S8_MAX, S8_MIN, S8_MIN+2, S8_MAX, true, false, false},
{S8_MAX, 1, S8_MIN, S8_MAX-1, S8_MAX, true, false, false},
{S8_MIN, S8_MIN, 0, 0, 0, true, false, true},
{S8_MAX, S8_MAX, -2, 0, 1, true, false, true},
{-4, -32, -36, 28, -128, false, false, true},
{-4, 32, 28, -36, -128, false, false, false},
};
DEFINE_TEST_ARRAY(s16) = {
{0, 0, 0, 0, 0, false, false, false},
{0, S16_MAX, S16_MAX, -S16_MAX, 0, false, false, false},
{S16_MAX, 0, S16_MAX, S16_MAX, 0, false, false, false},
{0, S16_MIN, S16_MIN, S16_MIN, 0, false, true, false},
{S16_MIN, 0, S16_MIN, S16_MIN, 0, false, false, false},
{-1, S16_MIN, S16_MAX, S16_MAX, S16_MIN, true, false, true},
{S16_MIN, -1, S16_MAX, -S16_MAX, S16_MIN, true, false, true},
{-1, S16_MAX, S16_MAX-1, S16_MIN, -S16_MAX, false, false, false},
{S16_MAX, -1, S16_MAX-1, S16_MIN, -S16_MAX, false, true, false},
{-1, -S16_MAX, S16_MIN, S16_MAX-1, S16_MAX, false, false, false},
{-S16_MAX, -1, S16_MIN, S16_MIN+2, S16_MAX, false, false, false},
{1, S16_MIN, -S16_MAX, -S16_MAX, S16_MIN, false, true, false},
{S16_MIN, 1, -S16_MAX, S16_MAX, S16_MIN, false, true, false},
{1, S16_MAX, S16_MIN, S16_MIN+2, S16_MAX, true, false, false},
{S16_MAX, 1, S16_MIN, S16_MAX-1, S16_MAX, true, false, false},
{S16_MIN, S16_MIN, 0, 0, 0, true, false, true},
{S16_MAX, S16_MAX, -2, 0, 1, true, false, true},
};
DEFINE_TEST_ARRAY(s32) = {
{0, 0, 0, 0, 0, false, false, false},
{0, S32_MAX, S32_MAX, -S32_MAX, 0, false, false, false},
{S32_MAX, 0, S32_MAX, S32_MAX, 0, false, false, false},
{0, S32_MIN, S32_MIN, S32_MIN, 0, false, true, false},
{S32_MIN, 0, S32_MIN, S32_MIN, 0, false, false, false},
{-1, S32_MIN, S32_MAX, S32_MAX, S32_MIN, true, false, true},
{S32_MIN, -1, S32_MAX, -S32_MAX, S32_MIN, true, false, true},
{-1, S32_MAX, S32_MAX-1, S32_MIN, -S32_MAX, false, false, false},
{S32_MAX, -1, S32_MAX-1, S32_MIN, -S32_MAX, false, true, false},
{-1, -S32_MAX, S32_MIN, S32_MAX-1, S32_MAX, false, false, false},
{-S32_MAX, -1, S32_MIN, S32_MIN+2, S32_MAX, false, false, false},
{1, S32_MIN, -S32_MAX, -S32_MAX, S32_MIN, false, true, false},
{S32_MIN, 1, -S32_MAX, S32_MAX, S32_MIN, false, true, false},
{1, S32_MAX, S32_MIN, S32_MIN+2, S32_MAX, true, false, false},
{S32_MAX, 1, S32_MIN, S32_MAX-1, S32_MAX, true, false, false},
{S32_MIN, S32_MIN, 0, 0, 0, true, false, true},
{S32_MAX, S32_MAX, -2, 0, 1, true, false, true},
};
DEFINE_TEST_ARRAY(s64) = {
{0, 0, 0, 0, 0, false, false, false},
{0, S64_MAX, S64_MAX, -S64_MAX, 0, false, false, false},
{S64_MAX, 0, S64_MAX, S64_MAX, 0, false, false, false},
{0, S64_MIN, S64_MIN, S64_MIN, 0, false, true, false},
{S64_MIN, 0, S64_MIN, S64_MIN, 0, false, false, false},
{-1, S64_MIN, S64_MAX, S64_MAX, S64_MIN, true, false, true},
{S64_MIN, -1, S64_MAX, -S64_MAX, S64_MIN, true, false, true},
{-1, S64_MAX, S64_MAX-1, S64_MIN, -S64_MAX, false, false, false},
{S64_MAX, -1, S64_MAX-1, S64_MIN, -S64_MAX, false, true, false},
{-1, -S64_MAX, S64_MIN, S64_MAX-1, S64_MAX, false, false, false},
{-S64_MAX, -1, S64_MIN, S64_MIN+2, S64_MAX, false, false, false},
{1, S64_MIN, -S64_MAX, -S64_MAX, S64_MIN, false, true, false},
{S64_MIN, 1, -S64_MAX, S64_MAX, S64_MIN, false, true, false},
{1, S64_MAX, S64_MIN, S64_MIN+2, S64_MAX, true, false, false},
{S64_MAX, 1, S64_MIN, S64_MAX-1, S64_MAX, true, false, false},
{S64_MIN, S64_MIN, 0, 0, 0, true, false, true},
{S64_MAX, S64_MAX, -2, 0, 1, true, false, true},
{-1, -1, -2, 0, 1, false, false, false},
{-1, -128, -129, 127, 128, false, false, false},
{-128, -1, -129, -127, 128, false, false, false},
{0, -S64_MAX, -S64_MAX, S64_MAX, 0, false, false, false},
};
#define check_one_op(t, fmt, op, sym, a, b, r, of) do { \
t _r; \
bool _of; \
\
_of = check_ ## op ## _overflow(a, b, &_r); \
if (_of != of) { \
pr_warn("expected "fmt" "sym" "fmt \
" to%s overflow (type %s)\n", \
a, b, of ? "" : " not", #t); \
err = 1; \
} \
if (_r != r) { \
pr_warn("expected "fmt" "sym" "fmt" == " \
fmt", got "fmt" (type %s)\n", \
a, b, r, _r, #t); \
err = 1; \
} \
} while (0)
#define DEFINE_TEST_FUNC(t, fmt) \
static int __init do_test_ ## t(const struct test_ ## t *p) \
{ \
int err = 0; \
\
check_one_op(t, fmt, add, "+", p->a, p->b, p->sum, p->s_of); \
check_one_op(t, fmt, add, "+", p->b, p->a, p->sum, p->s_of); \
check_one_op(t, fmt, sub, "-", p->a, p->b, p->diff, p->d_of); \
check_one_op(t, fmt, mul, "*", p->a, p->b, p->prod, p->p_of); \
check_one_op(t, fmt, mul, "*", p->b, p->a, p->prod, p->p_of); \
\
return err; \
} \
\
static int __init test_ ## t ## _overflow(void) { \
int err = 0; \
unsigned i; \
\
pr_info("%-3s: %zu arithmetic tests\n", #t, \
ARRAY_SIZE(t ## _tests)); \
for (i = 0; i < ARRAY_SIZE(t ## _tests); ++i) \
err |= do_test_ ## t(&t ## _tests[i]); \
return err; \
}
DEFINE_TEST_FUNC(u8, "%d");
DEFINE_TEST_FUNC(s8, "%d");
DEFINE_TEST_FUNC(u16, "%d");
DEFINE_TEST_FUNC(s16, "%d");
DEFINE_TEST_FUNC(u32, "%u");
DEFINE_TEST_FUNC(s32, "%d");
#if BITS_PER_LONG == 64
DEFINE_TEST_FUNC(u64, "%llu");
DEFINE_TEST_FUNC(s64, "%lld");
#endif
static int __init test_overflow_calculation(void)
{
int err = 0;
err |= test_u8_overflow();
err |= test_s8_overflow();
err |= test_u16_overflow();
err |= test_s16_overflow();
err |= test_u32_overflow();
err |= test_s32_overflow();
#if BITS_PER_LONG == 64
err |= test_u64_overflow();
err |= test_s64_overflow();
#endif
return err;
}
static int __init test_overflow_shift(void)
{
int err = 0;
/* Args are: value, shift, type, expected result, overflow expected */
#define TEST_ONE_SHIFT(a, s, t, expect, of) ({ \
int __failed = 0; \
typeof(a) __a = (a); \
typeof(s) __s = (s); \
t __e = (expect); \
t __d; \
bool __of = check_shl_overflow(__a, __s, &__d); \
if (__of != of) { \
pr_warn("expected (%s)(%s << %s) to%s overflow\n", \
#t, #a, #s, of ? "" : " not"); \
__failed = 1; \
} else if (!__of && __d != __e) { \
pr_warn("expected (%s)(%s << %s) == %s\n", \
#t, #a, #s, #expect); \
if ((t)-1 < 0) \
pr_warn("got %lld\n", (s64)__d); \
else \
pr_warn("got %llu\n", (u64)__d); \
__failed = 1; \
} \
if (!__failed) \
pr_info("ok: (%s)(%s << %s) == %s\n", #t, #a, #s, \
of ? "overflow" : #expect); \
__failed; \
})
/* Sane shifts. */
err |= TEST_ONE_SHIFT(1, 0, u8, 1 << 0, false);
err |= TEST_ONE_SHIFT(1, 4, u8, 1 << 4, false);
err |= TEST_ONE_SHIFT(1, 7, u8, 1 << 7, false);
err |= TEST_ONE_SHIFT(0xF, 4, u8, 0xF << 4, false);
err |= TEST_ONE_SHIFT(1, 0, u16, 1 << 0, false);
err |= TEST_ONE_SHIFT(1, 10, u16, 1 << 10, false);
err |= TEST_ONE_SHIFT(1, 15, u16, 1 << 15, false);
err |= TEST_ONE_SHIFT(0xFF, 8, u16, 0xFF << 8, false);
err |= TEST_ONE_SHIFT(1, 0, int, 1 << 0, false);
err |= TEST_ONE_SHIFT(1, 16, int, 1 << 16, false);
err |= TEST_ONE_SHIFT(1, 30, int, 1 << 30, false);
err |= TEST_ONE_SHIFT(1, 0, s32, 1 << 0, false);
err |= TEST_ONE_SHIFT(1, 16, s32, 1 << 16, false);
err |= TEST_ONE_SHIFT(1, 30, s32, 1 << 30, false);
err |= TEST_ONE_SHIFT(1, 0, unsigned int, 1U << 0, false);
err |= TEST_ONE_SHIFT(1, 20, unsigned int, 1U << 20, false);
err |= TEST_ONE_SHIFT(1, 31, unsigned int, 1U << 31, false);
err |= TEST_ONE_SHIFT(0xFFFFU, 16, unsigned int, 0xFFFFU << 16, false);
err |= TEST_ONE_SHIFT(1, 0, u32, 1U << 0, false);
err |= TEST_ONE_SHIFT(1, 20, u32, 1U << 20, false);
err |= TEST_ONE_SHIFT(1, 31, u32, 1U << 31, false);
err |= TEST_ONE_SHIFT(0xFFFFU, 16, u32, 0xFFFFU << 16, false);
err |= TEST_ONE_SHIFT(1, 0, u64, 1ULL << 0, false);
err |= TEST_ONE_SHIFT(1, 40, u64, 1ULL << 40, false);
err |= TEST_ONE_SHIFT(1, 63, u64, 1ULL << 63, false);
err |= TEST_ONE_SHIFT(0xFFFFFFFFULL, 32, u64,
0xFFFFFFFFULL << 32, false);
/* Sane shift: start and end with 0, without a too-wide shift. */
err |= TEST_ONE_SHIFT(0, 7, u8, 0, false);
err |= TEST_ONE_SHIFT(0, 15, u16, 0, false);
err |= TEST_ONE_SHIFT(0, 31, unsigned int, 0, false);
err |= TEST_ONE_SHIFT(0, 31, u32, 0, false);
err |= TEST_ONE_SHIFT(0, 63, u64, 0, false);
/* Sane shift: start and end with 0, without reaching signed bit. */
err |= TEST_ONE_SHIFT(0, 6, s8, 0, false);
err |= TEST_ONE_SHIFT(0, 14, s16, 0, false);
err |= TEST_ONE_SHIFT(0, 30, int, 0, false);
err |= TEST_ONE_SHIFT(0, 30, s32, 0, false);
err |= TEST_ONE_SHIFT(0, 62, s64, 0, false);
/* Overflow: shifted the bit off the end. */
err |= TEST_ONE_SHIFT(1, 8, u8, 0, true);
err |= TEST_ONE_SHIFT(1, 16, u16, 0, true);
err |= TEST_ONE_SHIFT(1, 32, unsigned int, 0, true);
err |= TEST_ONE_SHIFT(1, 32, u32, 0, true);
err |= TEST_ONE_SHIFT(1, 64, u64, 0, true);
/* Overflow: shifted into the signed bit. */
err |= TEST_ONE_SHIFT(1, 7, s8, 0, true);
err |= TEST_ONE_SHIFT(1, 15, s16, 0, true);
err |= TEST_ONE_SHIFT(1, 31, int, 0, true);
err |= TEST_ONE_SHIFT(1, 31, s32, 0, true);
err |= TEST_ONE_SHIFT(1, 63, s64, 0, true);
/* Overflow: high bit falls off unsigned types. */
/* 10010110 */
err |= TEST_ONE_SHIFT(150, 1, u8, 0, true);
/* 1000100010010110 */
err |= TEST_ONE_SHIFT(34966, 1, u16, 0, true);
/* 10000100000010001000100010010110 */
err |= TEST_ONE_SHIFT(2215151766U, 1, u32, 0, true);
err |= TEST_ONE_SHIFT(2215151766U, 1, unsigned int, 0, true);
/* 1000001000010000010000000100000010000100000010001000100010010110 */
err |= TEST_ONE_SHIFT(9372061470395238550ULL, 1, u64, 0, true);
/* Overflow: bit shifted into signed bit on signed types. */
/* 01001011 */
err |= TEST_ONE_SHIFT(75, 1, s8, 0, true);
/* 0100010001001011 */
err |= TEST_ONE_SHIFT(17483, 1, s16, 0, true);
/* 01000010000001000100010001001011 */
err |= TEST_ONE_SHIFT(1107575883, 1, s32, 0, true);
err |= TEST_ONE_SHIFT(1107575883, 1, int, 0, true);
/* 0100000100001000001000000010000001000010000001000100010001001011 */
err |= TEST_ONE_SHIFT(4686030735197619275LL, 1, s64, 0, true);
/* Overflow: bit shifted past signed bit on signed types. */
/* 01001011 */
err |= TEST_ONE_SHIFT(75, 2, s8, 0, true);
/* 0100010001001011 */
err |= TEST_ONE_SHIFT(17483, 2, s16, 0, true);
/* 01000010000001000100010001001011 */
err |= TEST_ONE_SHIFT(1107575883, 2, s32, 0, true);
err |= TEST_ONE_SHIFT(1107575883, 2, int, 0, true);
/* 0100000100001000001000000010000001000010000001000100010001001011 */
err |= TEST_ONE_SHIFT(4686030735197619275LL, 2, s64, 0, true);
/* Overflow: values larger than destination type. */
err |= TEST_ONE_SHIFT(0x100, 0, u8, 0, true);
err |= TEST_ONE_SHIFT(0xFF, 0, s8, 0, true);
err |= TEST_ONE_SHIFT(0x10000U, 0, u16, 0, true);
err |= TEST_ONE_SHIFT(0xFFFFU, 0, s16, 0, true);
err |= TEST_ONE_SHIFT(0x100000000ULL, 0, u32, 0, true);
err |= TEST_ONE_SHIFT(0x100000000ULL, 0, unsigned int, 0, true);
err |= TEST_ONE_SHIFT(0xFFFFFFFFUL, 0, s32, 0, true);
err |= TEST_ONE_SHIFT(0xFFFFFFFFUL, 0, int, 0, true);
err |= TEST_ONE_SHIFT(0xFFFFFFFFFFFFFFFFULL, 0, s64, 0, true);
/* Nonsense: negative initial value. */
err |= TEST_ONE_SHIFT(-1, 0, s8, 0, true);
err |= TEST_ONE_SHIFT(-1, 0, u8, 0, true);
err |= TEST_ONE_SHIFT(-5, 0, s16, 0, true);
err |= TEST_ONE_SHIFT(-5, 0, u16, 0, true);
err |= TEST_ONE_SHIFT(-10, 0, int, 0, true);
err |= TEST_ONE_SHIFT(-10, 0, unsigned int, 0, true);
err |= TEST_ONE_SHIFT(-100, 0, s32, 0, true);
err |= TEST_ONE_SHIFT(-100, 0, u32, 0, true);
err |= TEST_ONE_SHIFT(-10000, 0, s64, 0, true);
err |= TEST_ONE_SHIFT(-10000, 0, u64, 0, true);
/* Nonsense: negative shift values. */
err |= TEST_ONE_SHIFT(0, -5, s8, 0, true);
err |= TEST_ONE_SHIFT(0, -5, u8, 0, true);
err |= TEST_ONE_SHIFT(0, -10, s16, 0, true);
err |= TEST_ONE_SHIFT(0, -10, u16, 0, true);
err |= TEST_ONE_SHIFT(0, -15, int, 0, true);
err |= TEST_ONE_SHIFT(0, -15, unsigned int, 0, true);
err |= TEST_ONE_SHIFT(0, -20, s32, 0, true);
err |= TEST_ONE_SHIFT(0, -20, u32, 0, true);
err |= TEST_ONE_SHIFT(0, -30, s64, 0, true);
err |= TEST_ONE_SHIFT(0, -30, u64, 0, true);
/* Overflow: shifted at or beyond entire type's bit width. */
err |= TEST_ONE_SHIFT(0, 8, u8, 0, true);
err |= TEST_ONE_SHIFT(0, 9, u8, 0, true);
err |= TEST_ONE_SHIFT(0, 8, s8, 0, true);
err |= TEST_ONE_SHIFT(0, 9, s8, 0, true);
err |= TEST_ONE_SHIFT(0, 16, u16, 0, true);
err |= TEST_ONE_SHIFT(0, 17, u16, 0, true);
err |= TEST_ONE_SHIFT(0, 16, s16, 0, true);
err |= TEST_ONE_SHIFT(0, 17, s16, 0, true);
err |= TEST_ONE_SHIFT(0, 32, u32, 0, true);
err |= TEST_ONE_SHIFT(0, 33, u32, 0, true);
err |= TEST_ONE_SHIFT(0, 32, int, 0, true);
err |= TEST_ONE_SHIFT(0, 33, int, 0, true);
err |= TEST_ONE_SHIFT(0, 32, s32, 0, true);
err |= TEST_ONE_SHIFT(0, 33, s32, 0, true);
err |= TEST_ONE_SHIFT(0, 64, u64, 0, true);
err |= TEST_ONE_SHIFT(0, 65, u64, 0, true);
err |= TEST_ONE_SHIFT(0, 64, s64, 0, true);
err |= TEST_ONE_SHIFT(0, 65, s64, 0, true);
/*
* Corner case: for unsigned types, we fail when we've shifted
* through the entire width of bits. For signed types, we might
* want to match this behavior, but that would mean noticing if
* we shift through all but the signed bit, and this is not
* currently detected (but we'll notice an overflow into the
* signed bit). So, for now, we will test this condition but
* mark it as not expected to overflow.
*/
err |= TEST_ONE_SHIFT(0, 7, s8, 0, false);
err |= TEST_ONE_SHIFT(0, 15, s16, 0, false);
err |= TEST_ONE_SHIFT(0, 31, int, 0, false);
err |= TEST_ONE_SHIFT(0, 31, s32, 0, false);
err |= TEST_ONE_SHIFT(0, 63, s64, 0, false);
return err;
}
/*
* Deal with the various forms of allocator arguments. See comments above
* the DEFINE_TEST_ALLOC() instances for mapping of the "bits".
*/
#define alloc_GFP (GFP_KERNEL | __GFP_NOWARN)
#define alloc010(alloc, arg, sz) alloc(sz, alloc_GFP)
#define alloc011(alloc, arg, sz) alloc(sz, alloc_GFP, NUMA_NO_NODE)
#define alloc000(alloc, arg, sz) alloc(sz)
#define alloc001(alloc, arg, sz) alloc(sz, NUMA_NO_NODE)
#define alloc110(alloc, arg, sz) alloc(arg, sz, alloc_GFP)
#define free0(free, arg, ptr) free(ptr)
#define free1(free, arg, ptr) free(arg, ptr)
/* Wrap around to 16K */
#define TEST_SIZE (5 * 4096)
#define DEFINE_TEST_ALLOC(func, free_func, want_arg, want_gfp, want_node)\
static int __init test_ ## func (void *arg) \
{ \
volatile size_t a = TEST_SIZE; \
volatile size_t b = (SIZE_MAX / TEST_SIZE) + 1; \
void *ptr; \
\
/* Tiny allocation test. */ \
ptr = alloc ## want_arg ## want_gfp ## want_node (func, arg, 1);\
if (!ptr) { \
pr_warn(#func " failed regular allocation?!\n"); \
return 1; \
} \
free ## want_arg (free_func, arg, ptr); \
\
/* Wrapped allocation test. */ \
ptr = alloc ## want_arg ## want_gfp ## want_node (func, arg, \
a * b); \
if (!ptr) { \
pr_warn(#func " unexpectedly failed bad wrapping?!\n"); \
return 1; \
} \
free ## want_arg (free_func, arg, ptr); \
\
/* Saturated allocation test. */ \
ptr = alloc ## want_arg ## want_gfp ## want_node (func, arg, \
array_size(a, b)); \
if (ptr) { \
pr_warn(#func " missed saturation!\n"); \
free ## want_arg (free_func, arg, ptr); \
return 1; \
} \
pr_info(#func " detected saturation\n"); \
return 0; \
}
/*
* Allocator uses a trailing node argument --------+ (e.g. kmalloc_node())
* Allocator uses the gfp_t argument -----------+ | (e.g. kmalloc())
* Allocator uses a special leading argument + | | (e.g. devm_kmalloc())
* | | |
*/
DEFINE_TEST_ALLOC(kmalloc, kfree, 0, 1, 0);
DEFINE_TEST_ALLOC(kmalloc_node, kfree, 0, 1, 1);
DEFINE_TEST_ALLOC(kzalloc, kfree, 0, 1, 0);
DEFINE_TEST_ALLOC(kzalloc_node, kfree, 0, 1, 1);
DEFINE_TEST_ALLOC(vmalloc, vfree, 0, 0, 0);
DEFINE_TEST_ALLOC(vmalloc_node, vfree, 0, 0, 1);
DEFINE_TEST_ALLOC(vzalloc, vfree, 0, 0, 0);
DEFINE_TEST_ALLOC(vzalloc_node, vfree, 0, 0, 1);
DEFINE_TEST_ALLOC(kvmalloc, kvfree, 0, 1, 0);
DEFINE_TEST_ALLOC(kvmalloc_node, kvfree, 0, 1, 1);
DEFINE_TEST_ALLOC(kvzalloc, kvfree, 0, 1, 0);
DEFINE_TEST_ALLOC(kvzalloc_node, kvfree, 0, 1, 1);
DEFINE_TEST_ALLOC(devm_kmalloc, devm_kfree, 1, 1, 0);
DEFINE_TEST_ALLOC(devm_kzalloc, devm_kfree, 1, 1, 0);
static int __init test_overflow_allocation(void)
{
const char device_name[] = "overflow-test";
struct device *dev;
int err = 0;
/* Create dummy device for devm_kmalloc()-family tests. */
dev = root_device_register(device_name);
if (IS_ERR(dev)) {
pr_warn("Cannot register test device\n");
return 1;
}
err |= test_kmalloc(NULL);
err |= test_kmalloc_node(NULL);
err |= test_kzalloc(NULL);
err |= test_kzalloc_node(NULL);
err |= test_kvmalloc(NULL);
err |= test_kvmalloc_node(NULL);
err |= test_kvzalloc(NULL);
err |= test_kvzalloc_node(NULL);
err |= test_vmalloc(NULL);
err |= test_vmalloc_node(NULL);
err |= test_vzalloc(NULL);
err |= test_vzalloc_node(NULL);
err |= test_devm_kmalloc(dev);
err |= test_devm_kzalloc(dev);
device_unregister(dev);
return err;
}
static int __init test_module_init(void)
{
int err = 0;
err |= test_overflow_calculation();
err |= test_overflow_shift();
err |= test_overflow_allocation();
if (err) {
pr_warn("FAIL!\n");
err = -EINVAL;
} else {
pr_info("all tests passed\n");
}
return err;
}
static void __exit test_module_exit(void)
{ }
module_init(test_module_init);
module_exit(test_module_exit);
MODULE_LICENSE("Dual MIT/GPL");