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bbbc17cb023018605457f455202e028cc1ce0418
linux/tools/testing/vma/tests/vma.c
Lorenzo Stoakes (Oracle) bbbc17cb02 tools/testing/vma: test vma_flags_count,vma[_flags]_test_single_mask 
Update the VMA tests to assert that vma_flags_count() behaves as expected,
as well as vma_flags_test_single_mask() and vma_test_single_mask().

For the test functions we can simply update the existing vma_test(), et
al.  test to also test the single_mask variants.

We also add some explicit testing of an empty VMA flag to this test to
ensure this is handled properly.

In order to test vma_flags_count() we simply take an existing set of flags
and gradually remove flags ensuring the count remains as expected
throughout.

We also update the vma[_flags]_test_all() tests to make clear the
semantics that we expect vma[_flags]_test_all(..., EMPTY_VMA_FLAGS) to
return true, as trivially, all flags of none are always set in VMA flags.

Link: https://lkml.kernel.org/r/4af95d559cd2af0ba3388de1e1386b9f94c0e009.1774034900.git.ljs@kernel.org
Signed-off-by: Lorenzo Stoakes (Oracle) <ljs@kernel.org>
Cc: Albert Ou <aou@eecs.berkeley.edu>
Cc: Alexander Gordeev <agordeev@linux.ibm.com>
Cc: Alexandre Ghiti <alex@ghiti.fr>
Cc: Al Viro <viro@zeniv.linux.org.uk>
Cc: Anton Ivanov <anton.ivanov@cambridgegreys.com>
Cc: "Borislav Petkov (AMD)" <bp@alien8.de>
Cc: Catalin Marinas <catalin.marinas@arm.com>
Cc: Chengming Zhou <chengming.zhou@linux.dev>
Cc: Christian Borntraeger <borntraeger@linux.ibm.com>
Cc: Christian Brauner <brauner@kernel.org>
Cc: David Hildenbrand <david@kernel.org>
Cc: Dinh Nguyen <dinguyen@kernel.org>
Cc: Heiko Carstens <hca@linux.ibm.com>
Cc: "H. Peter Anvin" <hpa@zytor.com>
Cc: Huacai Chen <chenhuacai@kernel.org>
Cc: Ingo Molnar <mingo@redhat.com>
Cc: Jan Kara <jack@suse.cz>
Cc: Jann Horn <jannh@google.com>
Cc: Johannes Berg <johannes@sipsolutions.net>
Cc: Kees Cook <kees@kernel.org>
Cc: Liam Howlett <liam.howlett@oracle.com>
Cc: Madhavan Srinivasan <maddy@linux.ibm.com>
Cc: Michael Ellerman <mpe@ellerman.id.au>
Cc: Michal Hocko <mhocko@suse.com>
Cc: Mike Rapoport <rppt@kernel.org>
Cc: Nicholas Piggin <npiggin@gmail.com>
Cc: Ondrej Mosnacek <omosnace@redhat.com>
Cc: Palmer Dabbelt <palmer@dabbelt.com>
Cc: Paul Moore <paul@paul-moore.com>
Cc: Pedro Falcato <pfalcato@suse.de>
Cc: Richard Weinberger <richard@nod.at>
Cc: Russell King <linux@armlinux.org.uk>
Cc: Stephen Smalley <stephen.smalley.work@gmail.com>
Cc: Suren Baghdasaryan <surenb@google.com>
Cc: Sven Schnelle <svens@linux.ibm.com>
Cc: Thomas Bogendoerfer <tsbogend@alpha.franken.de>
Cc: Vasily Gorbik <gor@linux.ibm.com>
Cc: Vineet Gupta <vgupta@kernel.org>
Cc: Vlastimil Babka (SUSE) <vbabka@kernel.org>
Cc: WANG Xuerui <kernel@xen0n.name>
Cc: Will Deacon <will@kernel.org>
Cc: xu xin <xu.xin16@zte.com.cn>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
2026-04-05 13:53:40 -07:00

656 lines
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// SPDX-License-Identifier: GPL-2.0-or-later
static bool compare_legacy_flags(vm_flags_t legacy_flags, vma_flags_t flags)
{
const unsigned long legacy_val = legacy_flags;
/* The lower word should contain the precise same value. */
const unsigned long flags_lower = flags.__vma_flags[0];
vma_flags_t converted_flags;
#if NUM_VMA_FLAG_BITS > BITS_PER_LONG
int i;
/* All bits in higher flag values should be zero. */
for (i = 1; i < NUM_VMA_FLAG_BITS / BITS_PER_LONG; i++) {
if (flags.__vma_flags[i] != 0)
return false;
}
#endif
static_assert(sizeof(legacy_flags) == sizeof(unsigned long));
/* Assert that legacy flag helpers work correctly. */
converted_flags = legacy_to_vma_flags(legacy_flags);
ASSERT_FLAGS_SAME_MASK(&converted_flags, flags);
ASSERT_EQ(vma_flags_to_legacy(flags), legacy_flags);
return legacy_val == flags_lower;
}
static bool test_copy_vma(void)
{
vma_flags_t vma_flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_MAYREAD_BIT, VMA_MAYWRITE_BIT);
struct mm_struct mm = {};
bool need_locks = false;
VMA_ITERATOR(vmi, &mm, 0);
struct vm_area_struct *vma, *vma_new, *vma_next;
/* Move backwards and do not merge. */
vma = alloc_and_link_vma(&mm, 0x3000, 0x5000, 3, vma_flags);
vma_new = copy_vma(&vma, 0, 0x2000, 0, &need_locks);
ASSERT_NE(vma_new, vma);
ASSERT_EQ(vma_new->vm_start, 0);
ASSERT_EQ(vma_new->vm_end, 0x2000);
ASSERT_EQ(vma_new->vm_pgoff, 0);
vma_assert_attached(vma_new);
cleanup_mm(&mm, &vmi);
/* Move a VMA into position next to another and merge the two. */
vma = alloc_and_link_vma(&mm, 0, 0x2000, 0, vma_flags);
vma_next = alloc_and_link_vma(&mm, 0x6000, 0x8000, 6, vma_flags);
vma_new = copy_vma(&vma, 0x4000, 0x2000, 4, &need_locks);
vma_assert_attached(vma_new);
ASSERT_EQ(vma_new, vma_next);
cleanup_mm(&mm, &vmi);
return true;
}
static bool test_vma_flags_unchanged(void)
{
vma_flags_t flags = EMPTY_VMA_FLAGS;
vm_flags_t legacy_flags = 0;
int bit;
struct vm_area_struct vma;
struct vm_area_desc desc;
vma.flags = EMPTY_VMA_FLAGS;
desc.vma_flags = EMPTY_VMA_FLAGS;
for (bit = 0; bit < BITS_PER_LONG; bit++) {
vma_flags_t mask = mk_vma_flags(bit);
legacy_flags |= (1UL << bit);
/* Individual flags. */
vma_flags_set(&flags, bit);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, flags));
/* Via mask. */
vma_flags_set_mask(&flags, mask);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, flags));
/* Same for VMA. */
vma_set_flags(&vma, bit);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, vma.flags));
vma_set_flags_mask(&vma, mask);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, vma.flags));
/* Same for VMA descriptor. */
vma_desc_set_flags(&desc, bit);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, desc.vma_flags));
vma_desc_set_flags_mask(&desc, mask);
ASSERT_TRUE(compare_legacy_flags(legacy_flags, desc.vma_flags));
}
return true;
}
static bool test_vma_flags_cleared(void)
{
const vma_flags_t empty = EMPTY_VMA_FLAGS;
vma_flags_t flags;
int i;
/* Set all bits high. */
memset(&flags, 1, sizeof(flags));
/* Try to clear. */
vma_flags_clear_all(&flags);
/* Equal to EMPTY_VMA_FLAGS? */
ASSERT_EQ(memcmp(&empty, &flags, sizeof(flags)), 0);
/* Make sure every unsigned long entry in bitmap array zero. */
for (i = 0; i < sizeof(flags) / BITS_PER_LONG; i++) {
const unsigned long val = flags.__vma_flags[i];
ASSERT_EQ(val, 0);
}
return true;
}
#if NUM_VMA_FLAG_BITS > 64
/*
* Assert that VMA flag functions that operate at the system word level function
* correctly.
*/
static bool test_vma_flags_word(void)
{
vma_flags_t flags = EMPTY_VMA_FLAGS;
const vma_flags_t comparison =
mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT
, 64, 65
);
/* Set some custom high flags. */
vma_flags_set(&flags, 64, 65);
/* Now overwrite the first word. */
vma_flags_overwrite_word(&flags, VM_READ | VM_WRITE);
/* Ensure they are equal. */
ASSERT_EQ(memcmp(&flags, &comparison, sizeof(flags)), 0);
flags = EMPTY_VMA_FLAGS;
vma_flags_set(&flags, 64, 65);
/* Do the same with the _once() equivalent. */
vma_flags_overwrite_word_once(&flags, VM_READ | VM_WRITE);
ASSERT_EQ(memcmp(&flags, &comparison, sizeof(flags)), 0);
flags = EMPTY_VMA_FLAGS;
vma_flags_set(&flags, 64, 65);
/* Make sure we can set a word without disturbing other bits. */
vma_flags_set(&flags, VMA_WRITE_BIT);
vma_flags_set_word(&flags, VM_READ);
ASSERT_EQ(memcmp(&flags, &comparison, sizeof(flags)), 0);
flags = EMPTY_VMA_FLAGS;
vma_flags_set(&flags, 64, 65);
/* Make sure we can clear a word without disturbing other bits. */
vma_flags_set(&flags, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
vma_flags_clear_word(&flags, VM_EXEC);
ASSERT_EQ(memcmp(&flags, &comparison, sizeof(flags)), 0);
return true;
}
#endif /* NUM_VMA_FLAG_BITS > 64 */
/* Ensure that vma_flags_test() and friends works correctly. */
static bool test_vma_flags_test(void)
{
vma_flags_t flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
struct vm_area_desc desc = {
.vma_flags = flags,
};
struct vm_area_struct vma = {
.flags = flags,
};
#define do_test(_flag) \
ASSERT_TRUE(vma_flags_test(&flags, _flag)); \
ASSERT_TRUE(vma_flags_test_single_mask(&flags, mk_vma_flags(_flag))); \
ASSERT_TRUE(vma_test(&vma, _flag)); \
ASSERT_TRUE(vma_test_single_mask(&vma, mk_vma_flags(_flag))); \
ASSERT_TRUE(vma_desc_test(&desc, _flag))
#define do_test_false(_flag) \
ASSERT_FALSE(vma_flags_test(&flags, _flag)); \
ASSERT_FALSE(vma_flags_test_single_mask(&flags, mk_vma_flags(_flag))); \
ASSERT_FALSE(vma_test(&vma, _flag)); \
ASSERT_FALSE(vma_test_single_mask(&vma, mk_vma_flags(_flag))); \
ASSERT_FALSE(vma_desc_test(&desc, _flag))
do_test(VMA_READ_BIT);
do_test(VMA_WRITE_BIT);
do_test(VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test(64);
do_test(65);
#endif
do_test_false(VMA_MAYWRITE_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test_false(66);
#endif
#undef do_test
#undef do_test_false
/* We define the _single_mask() variants to return false if empty. */
ASSERT_FALSE(vma_flags_test_single_mask(&flags, EMPTY_VMA_FLAGS));
ASSERT_FALSE(vma_test_single_mask(&vma, EMPTY_VMA_FLAGS));
/* Even when both flags and tested flag mask are empty! */
flags = EMPTY_VMA_FLAGS;
vma.flags = EMPTY_VMA_FLAGS;
ASSERT_FALSE(vma_flags_test_single_mask(&flags, EMPTY_VMA_FLAGS));
ASSERT_FALSE(vma_test_single_mask(&vma, EMPTY_VMA_FLAGS));
return true;
}
/* Ensure that vma_flags_test_any() and friends works correctly. */
static bool test_vma_flags_test_any(void)
{
const vma_flags_t flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
struct vm_area_struct vma = {
.flags = flags,
};
struct vm_area_desc desc = {
.vma_flags = flags,
};
#define do_test(...) \
ASSERT_TRUE(vma_flags_test_any(&flags, __VA_ARGS__)); \
ASSERT_TRUE(vma_desc_test_any(&desc, __VA_ARGS__)); \
ASSERT_TRUE(vma_test_any(&vma, __VA_ARGS__));
#define do_test_all_true(...) \
ASSERT_TRUE(vma_flags_test_all(&flags, __VA_ARGS__)); \
ASSERT_TRUE(vma_test_all(&vma, __VA_ARGS__))
#define do_test_all_false(...) \
ASSERT_FALSE(vma_flags_test_all(&flags, __VA_ARGS__)); \
ASSERT_FALSE(vma_test_all(&vma, __VA_ARGS__))
/*
* Testing for some flags that are present, some that are not - should
* pass. ANY flags matching should work.
*/
do_test(VMA_READ_BIT, VMA_MAYREAD_BIT, VMA_SEQ_READ_BIT);
/* However, the ...test_all() variant should NOT pass. */
do_test_all_false(VMA_READ_BIT, VMA_MAYREAD_BIT, VMA_SEQ_READ_BIT);
#if NUM_VMA_FLAG_BITS > 64
/* But should pass for flags present. */
do_test_all_true(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64, 65);
/* Also subsets... */
do_test_all_true(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64);
#endif
do_test_all_true(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
do_test_all_true(VMA_READ_BIT, VMA_WRITE_BIT);
do_test_all_true(VMA_READ_BIT);
/*
* Check _mask variant. We don't need to test extensively as macro
* helper is the equivalent.
*/
ASSERT_TRUE(vma_flags_test_any_mask(&flags, flags));
ASSERT_TRUE(vma_flags_test_all_mask(&flags, flags));
/* Single bits. */
do_test(VMA_READ_BIT);
do_test(VMA_WRITE_BIT);
do_test(VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test(64);
do_test(65);
#endif
/* Two bits. */
do_test(VMA_READ_BIT, VMA_WRITE_BIT);
do_test(VMA_READ_BIT, VMA_EXEC_BIT);
do_test(VMA_WRITE_BIT, VMA_EXEC_BIT);
/* Ordering shouldn't matter. */
do_test(VMA_WRITE_BIT, VMA_READ_BIT);
do_test(VMA_EXEC_BIT, VMA_READ_BIT);
do_test(VMA_EXEC_BIT, VMA_WRITE_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test(VMA_READ_BIT, 64);
do_test(VMA_WRITE_BIT, 64);
do_test(64, VMA_READ_BIT);
do_test(64, VMA_WRITE_BIT);
do_test(VMA_READ_BIT, 65);
do_test(VMA_WRITE_BIT, 65);
do_test(65, VMA_READ_BIT);
do_test(65, VMA_WRITE_BIT);
#endif
/* Three bits. */
do_test(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
/* No need to consider every single permutation. */
do_test(VMA_READ_BIT, VMA_WRITE_BIT, 64);
do_test(VMA_READ_BIT, VMA_WRITE_BIT, 65);
/* Four bits. */
do_test(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64);
do_test(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 65);
/* Five bits. */
do_test(VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64, 65);
#endif
/* Testing all flags against none trivially succeeds. */
ASSERT_TRUE(vma_flags_test_all_mask(&flags, EMPTY_VMA_FLAGS));
ASSERT_TRUE(vma_test_all_mask(&vma, EMPTY_VMA_FLAGS));
#undef do_test
#undef do_test_all_true
#undef do_test_all_false
return true;
}
/* Ensure that vma_flags_clear() and friends works correctly. */
static bool test_vma_flags_clear(void)
{
vma_flags_t flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
vma_flags_t mask = mk_vma_flags(VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64
#endif
);
struct vm_area_struct vma;
struct vm_area_desc desc;
vma.flags = flags;
desc.vma_flags = flags;
/* Cursory check of _mask() variant, as the helper macros imply. */
vma_flags_clear_mask(&flags, mask);
vma_flags_clear_mask(&vma.flags, mask);
vma_desc_clear_flags_mask(&desc, mask);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FALSE(vma_flags_test_any(&flags, VMA_EXEC_BIT, 64));
ASSERT_FALSE(vma_flags_test_any(&vma.flags, VMA_EXEC_BIT, 64));
ASSERT_FALSE(vma_desc_test_any(&desc, VMA_EXEC_BIT, 64));
/* Reset. */
vma_flags_set(&flags, VMA_EXEC_BIT, 64);
vma_set_flags(&vma, VMA_EXEC_BIT, 64);
vma_desc_set_flags(&desc, VMA_EXEC_BIT, 64);
#endif
/*
* Clear the flags and assert clear worked, then reset flags back to
* include specified flags.
*/
#define do_test_and_reset(...) \
vma_flags_clear(&flags, __VA_ARGS__); \
vma_flags_clear(&vma.flags, __VA_ARGS__); \
vma_desc_clear_flags(&desc, __VA_ARGS__); \
ASSERT_FALSE(vma_flags_test_any(&flags, __VA_ARGS__)); \
ASSERT_FALSE(vma_flags_test_any(&vma.flags, __VA_ARGS__)); \
ASSERT_FALSE(vma_desc_test_any(&desc, __VA_ARGS__)); \
vma_flags_set(&flags, __VA_ARGS__); \
vma_set_flags(&vma, __VA_ARGS__); \
vma_desc_set_flags(&desc, __VA_ARGS__)
/* Single flags. */
do_test_and_reset(VMA_READ_BIT);
do_test_and_reset(VMA_WRITE_BIT);
do_test_and_reset(VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test_and_reset(64);
do_test_and_reset(65);
#endif
/* Two flags, in different orders. */
do_test_and_reset(VMA_READ_BIT, VMA_WRITE_BIT);
do_test_and_reset(VMA_READ_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test_and_reset(VMA_READ_BIT, 64);
do_test_and_reset(VMA_READ_BIT, 65);
#endif
do_test_and_reset(VMA_WRITE_BIT, VMA_READ_BIT);
do_test_and_reset(VMA_WRITE_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test_and_reset(VMA_WRITE_BIT, 64);
do_test_and_reset(VMA_WRITE_BIT, 65);
#endif
do_test_and_reset(VMA_EXEC_BIT, VMA_READ_BIT);
do_test_and_reset(VMA_EXEC_BIT, VMA_WRITE_BIT);
#if NUM_VMA_FLAG_BITS > 64
do_test_and_reset(VMA_EXEC_BIT, 64);
do_test_and_reset(VMA_EXEC_BIT, 65);
do_test_and_reset(64, VMA_READ_BIT);
do_test_and_reset(64, VMA_WRITE_BIT);
do_test_and_reset(64, VMA_EXEC_BIT);
do_test_and_reset(64, 65);
do_test_and_reset(65, VMA_READ_BIT);
do_test_and_reset(65, VMA_WRITE_BIT);
do_test_and_reset(65, VMA_EXEC_BIT);
do_test_and_reset(65, 64);
#endif
/* Three flags. */
#undef do_test_some_missing
#undef do_test_and_reset
return true;
}
/* Ensure that vma_flags_empty() works correctly. */
static bool test_vma_flags_empty(void)
{
vma_flags_t flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
ASSERT_FLAGS_NONEMPTY(&flags);
vma_flags_clear(&flags, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FLAGS_NONEMPTY(&flags);
vma_flags_clear(&flags, 64, 65);
ASSERT_FLAGS_EMPTY(&flags);
#else
ASSERT_FLAGS_EMPTY(&flags);
#endif
return true;
}
/* Ensure that vma_flags_diff_pair() works correctly. */
static bool test_vma_flags_diff(void)
{
vma_flags_t flags1 = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
vma_flags_t flags2 = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT, VMA_MAYWRITE_BIT,
VMA_MAYEXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65, 66, 67
#endif
);
vma_flags_t diff = vma_flags_diff_pair(&flags1, &flags2);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FLAGS_SAME(&diff, VMA_MAYWRITE_BIT, VMA_MAYEXEC_BIT, 66, 67);
#else
ASSERT_FLAGS_SAME(&diff, VMA_MAYWRITE_BIT, VMA_MAYEXEC_BIT);
#endif
/* Should be the same even if re-ordered. */
diff = vma_flags_diff_pair(&flags2, &flags1);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FLAGS_SAME(&diff, VMA_MAYWRITE_BIT, VMA_MAYEXEC_BIT, 66, 67);
#else
ASSERT_FLAGS_SAME(&diff, VMA_MAYWRITE_BIT, VMA_MAYEXEC_BIT);
#endif
/* Should be no difference when applied against themselves. */
diff = vma_flags_diff_pair(&flags1, &flags1);
ASSERT_FLAGS_EMPTY(&diff);
diff = vma_flags_diff_pair(&flags2, &flags2);
ASSERT_FLAGS_EMPTY(&diff);
/* One set of flags against an empty one should equal the original. */
flags2 = EMPTY_VMA_FLAGS;
diff = vma_flags_diff_pair(&flags1, &flags2);
ASSERT_FLAGS_SAME_MASK(&diff, flags1);
/* A subset should work too. */
flags2 = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT);
diff = vma_flags_diff_pair(&flags1, &flags2);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FLAGS_SAME(&diff, VMA_EXEC_BIT, 64, 65);
#else
ASSERT_FLAGS_SAME(&diff, VMA_EXEC_BIT);
#endif
return true;
}
/* Ensure that vma_flags_and() and friends work correctly. */
static bool test_vma_flags_and(void)
{
vma_flags_t flags1 = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
vma_flags_t flags2 = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT, VMA_MAYWRITE_BIT,
VMA_MAYEXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65, 66, 67
#endif
);
vma_flags_t flags3 = mk_vma_flags(VMA_IO_BIT, VMA_MAYBE_GUARD_BIT
#if NUM_VMA_FLAG_BITS > 64
, 68, 69
#endif
);
vma_flags_t and = vma_flags_and_mask(&flags1, flags2);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
64, 65);
#else
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#endif
and = vma_flags_and_mask(&flags1, flags1);
ASSERT_FLAGS_SAME_MASK(&and, flags1);
and = vma_flags_and_mask(&flags2, flags2);
ASSERT_FLAGS_SAME_MASK(&and, flags2);
and = vma_flags_and_mask(&flags1, flags3);
ASSERT_FLAGS_EMPTY(&and);
and = vma_flags_and_mask(&flags2, flags3);
ASSERT_FLAGS_EMPTY(&and);
and = vma_flags_and(&flags1, VMA_READ_BIT);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT);
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT);
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
64);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64);
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
64, 65);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT, 64,
65);
#endif
/* And against some missing values. */
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
VMA_IO_BIT);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
VMA_IO_BIT, VMA_RAND_READ_BIT);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#if NUM_VMA_FLAG_BITS > 64
and = vma_flags_and(&flags1, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT,
VMA_IO_BIT, VMA_RAND_READ_BIT, 69);
ASSERT_FLAGS_SAME(&and, VMA_READ_BIT, VMA_WRITE_BIT, VMA_EXEC_BIT);
#endif
return true;
}
/* Ensure append_vma_flags() acts as expected. */
static bool test_append_vma_flags(void)
{
vma_flags_t flags = append_vma_flags(VMA_REMAP_FLAGS, VMA_READ_BIT,
VMA_WRITE_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
ASSERT_FLAGS_SAME(&flags, VMA_IO_BIT, VMA_PFNMAP_BIT,
VMA_DONTEXPAND_BIT, VMA_DONTDUMP_BIT, VMA_READ_BIT,
VMA_WRITE_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
flags = append_vma_flags(EMPTY_VMA_FLAGS, VMA_READ_BIT, VMA_WRITE_BIT);
ASSERT_FLAGS_SAME(&flags, VMA_READ_BIT, VMA_WRITE_BIT);
return true;
}
/* Assert that vma_flags_count() behaves as expected. */
static bool test_vma_flags_count(void)
{
vma_flags_t flags = mk_vma_flags(VMA_READ_BIT, VMA_WRITE_BIT,
VMA_EXEC_BIT
#if NUM_VMA_FLAG_BITS > 64
, 64, 65
#endif
);
#if NUM_VMA_FLAG_BITS > 64
ASSERT_EQ(vma_flags_count(&flags), 5);
vma_flags_clear(&flags, 64);
ASSERT_EQ(vma_flags_count(&flags), 4);
vma_flags_clear(&flags, 65);
#endif
ASSERT_EQ(vma_flags_count(&flags), 3);
vma_flags_clear(&flags, VMA_EXEC_BIT);
ASSERT_EQ(vma_flags_count(&flags), 2);
vma_flags_clear(&flags, VMA_WRITE_BIT);
ASSERT_EQ(vma_flags_count(&flags), 1);
vma_flags_clear(&flags, VMA_READ_BIT);
ASSERT_EQ(vma_flags_count(&flags), 0);
return true;
}
static void run_vma_tests(int *num_tests, int *num_fail)
{
TEST(copy_vma);
TEST(vma_flags_unchanged);
TEST(vma_flags_cleared);
#if NUM_VMA_FLAG_BITS > 64
TEST(vma_flags_word);
#endif
TEST(vma_flags_test);
TEST(vma_flags_test_any);
TEST(vma_flags_clear);
TEST(vma_flags_empty);
TEST(vma_flags_diff);
TEST(vma_flags_and);
TEST(append_vma_flags);
TEST(vma_flags_count);
}
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