rust/library/alloc/tests/heap.rs

use std::alloc::{AllocRef, Global, Layout, System};

/// Issue #45955 and #62251.
#[test]
fn alloc_system_overaligned_request() {
    check_overalign_requests(System)
}

#[test]
fn std_heap_overaligned_request() {
    check_overalign_requests(Global)
}

fn check_overalign_requests<T: AllocRef>(allocator: T) {
    for &align in &[4, 8, 16, 32] {
        // less than and bigger than `MIN_ALIGN`
        for &size in &[align / 2, align - 1] {
            // size less than alignment
            let iterations = 128;
            unsafe {
                let pointers: Vec<_> = (0..iterations)
                    .map(|_| {
                        allocator.alloc(Layout::from_size_align(size, align).unwrap()).unwrap()
                    })
                    .collect();
                for &ptr in &pointers {
                    assert_eq!(
                        (ptr.as_non_null_ptr().as_ptr() as usize) % align,
                        0,
                        "Got a pointer less aligned than requested"
                    )
                }

                // Clean up
                for &ptr in &pointers {
                    allocator.dealloc(
                        ptr.as_non_null_ptr(),
                        Layout::from_size_align(size, align).unwrap(),
                    )
                }
            }
        }
    }
}
Remove in-place allocation and revert to separate methods for zeroed allocations Fix docs 2020-07-28 12:41:18 +02:00			`use std::alloc::{AllocRef, Global, Layout, System};`
alloc_system: don’t assume MIN_ALIGN for small sizes, fix #45955 The GNU C library (glibc) is documented to always allocate with an alignment of at least 8 or 16 bytes, on 32-bit or 64-bit platforms: https://www.gnu.org/software/libc/manual/html_node/Aligned-Memory-Blocks.html This matches our use of `MIN_ALIGN` before this commit. However, even when libc is glibc, the program might be linked with another allocator that redefines the `malloc` symbol and friends. (The `alloc_jemalloc` crate does, in some cases.) So `alloc_system` doesn’t know which allocator it calls, and needs to be conservative in assumptions it makes. The C standard says: https://port70.net/%7Ensz/c/c11/n1570.html#7.22.3 > The pointer returned if the allocation succeeds is suitably aligned > so that it may be assigned to a pointer to any type of object > with a fundamental alignment requirement https://port70.net/~nsz/c/c11/n1570.html#6.2.8p2 > A fundamental alignment is represented by an alignment less than > or equal to the greatest alignment supported by the implementation > in all contexts, which is equal to `_Alignof (max_align_t)`. `_Alignof (max_align_t)` depends on the ABI and doesn’t seem to have a clear definition, but it seems to match our `MIN_ALIGN` in practice. However, the size of objects is rounded up to the next multiple of their alignment (since that size is also the stride used in arrays). Conversely, the alignment of a non-zero-size object is at most its size. So for example it seems ot be legal for `malloc(8)` to return a pointer that’s only 8-bytes-aligned, even if `_Alignof (max_align_t)` is 16. 2017-11-20 15:30:04 +01:00
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`/// Issue #45955 and #62251.`
alloc_system: don’t assume MIN_ALIGN for small sizes, fix #45955 The GNU C library (glibc) is documented to always allocate with an alignment of at least 8 or 16 bytes, on 32-bit or 64-bit platforms: https://www.gnu.org/software/libc/manual/html_node/Aligned-Memory-Blocks.html This matches our use of `MIN_ALIGN` before this commit. However, even when libc is glibc, the program might be linked with another allocator that redefines the `malloc` symbol and friends. (The `alloc_jemalloc` crate does, in some cases.) So `alloc_system` doesn’t know which allocator it calls, and needs to be conservative in assumptions it makes. The C standard says: https://port70.net/%7Ensz/c/c11/n1570.html#7.22.3 > The pointer returned if the allocation succeeds is suitably aligned > so that it may be assigned to a pointer to any type of object > with a fundamental alignment requirement https://port70.net/~nsz/c/c11/n1570.html#6.2.8p2 > A fundamental alignment is represented by an alignment less than > or equal to the greatest alignment supported by the implementation > in all contexts, which is equal to `_Alignof (max_align_t)`. `_Alignof (max_align_t)` depends on the ABI and doesn’t seem to have a clear definition, but it seems to match our `MIN_ALIGN` in practice. However, the size of objects is rounded up to the next multiple of their alignment (since that size is also the stride used in arrays). Conversely, the alignment of a non-zero-size object is at most its size. So for example it seems ot be legal for `malloc(8)` to return a pointer that’s only 8-bytes-aligned, even if `_Alignof (max_align_t)` is 16. 2017-11-20 15:30:04 +01:00			`#[test]`
			`fn alloc_system_overaligned_request() {`
			`check_overalign_requests(System)`
			`}`

alloc_jemalloc: don’t assume MIN_ALIGN for small sizes See previous commit’s message for what is expected of allocators in general, and https://github.com/jemalloc/jemalloc/issues/1072 for discussion of what jemalloc does specifically. 2017-11-20 15:42:34 +01:00			`#[test]`
			`fn std_heap_overaligned_request() {`
Actually deprecate the Heap type 2018-04-03 21:15:06 +02:00			`check_overalign_requests(Global)`
alloc_jemalloc: don’t assume MIN_ALIGN for small sizes See previous commit’s message for what is expected of allocators in general, and https://github.com/jemalloc/jemalloc/issues/1072 for discussion of what jemalloc does specifically. 2017-11-20 15:42:34 +01:00			`}`

removing &mut self for other methods of AllocRef 2020-09-22 15:22:02 +02:00			`fn check_overalign_requests<T: AllocRef>(allocator: T) {`
Format the world 2019-12-22 23:42:04 +01:00			`for &align in &[4, 8, 16, 32] {`
			// less than and bigger than `MIN_ALIGN`
			`for &size in &[align / 2, align - 1] {`
			`// size less than alignment`
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`let iterations = 128;`
			`unsafe {`
Format the world 2019-12-22 23:42:04 +01:00			`let pointers: Vec<_> = (0..iterations)`
			`.map(\|_\| {`
Replace `Memoryblock` with `NonNull<[u8]>` 2020-08-04 18:03:34 +02:00			`allocator.alloc(Layout::from_size_align(size, align).unwrap()).unwrap()`
Format the world 2019-12-22 23:42:04 +01:00			`})`
			`.collect();`
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`for &ptr in &pointers {`
Format the world 2019-12-22 23:42:04 +01:00			`assert_eq!(`
Replace `Memoryblock` with `NonNull<[u8]>` 2020-08-04 18:03:34 +02:00			`(ptr.as_non_null_ptr().as_ptr() as usize) % align,`
Format the world 2019-12-22 23:42:04 +01:00			`0,`
			`"Got a pointer less aligned than requested"`
			`)`
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`}`
alloc_system: don’t assume MIN_ALIGN for small sizes, fix #45955 The GNU C library (glibc) is documented to always allocate with an alignment of at least 8 or 16 bytes, on 32-bit or 64-bit platforms: https://www.gnu.org/software/libc/manual/html_node/Aligned-Memory-Blocks.html This matches our use of `MIN_ALIGN` before this commit. However, even when libc is glibc, the program might be linked with another allocator that redefines the `malloc` symbol and friends. (The `alloc_jemalloc` crate does, in some cases.) So `alloc_system` doesn’t know which allocator it calls, and needs to be conservative in assumptions it makes. The C standard says: https://port70.net/%7Ensz/c/c11/n1570.html#7.22.3 > The pointer returned if the allocation succeeds is suitably aligned > so that it may be assigned to a pointer to any type of object > with a fundamental alignment requirement https://port70.net/~nsz/c/c11/n1570.html#6.2.8p2 > A fundamental alignment is represented by an alignment less than > or equal to the greatest alignment supported by the implementation > in all contexts, which is equal to `_Alignof (max_align_t)`. `_Alignof (max_align_t)` depends on the ABI and doesn’t seem to have a clear definition, but it seems to match our `MIN_ALIGN` in practice. However, the size of objects is rounded up to the next multiple of their alignment (since that size is also the stride used in arrays). Conversely, the alignment of a non-zero-size object is at most its size. So for example it seems ot be legal for `malloc(8)` to return a pointer that’s only 8-bytes-aligned, even if `_Alignof (max_align_t)` is 16. 2017-11-20 15:30:04 +01:00
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`// Clean up`
			`for &ptr in &pointers {`
Replace `Memoryblock` with `NonNull<[u8]>` 2020-08-04 18:03:34 +02:00			`allocator.dealloc(`
			`ptr.as_non_null_ptr(),`
			`Layout::from_size_align(size, align).unwrap(),`
			`)`
test more possible overaligned requests 2019-07-02 12:56:51 +02:00			`}`
			`}`
alloc_system: don’t assume MIN_ALIGN for small sizes, fix #45955 The GNU C library (glibc) is documented to always allocate with an alignment of at least 8 or 16 bytes, on 32-bit or 64-bit platforms: https://www.gnu.org/software/libc/manual/html_node/Aligned-Memory-Blocks.html This matches our use of `MIN_ALIGN` before this commit. However, even when libc is glibc, the program might be linked with another allocator that redefines the `malloc` symbol and friends. (The `alloc_jemalloc` crate does, in some cases.) So `alloc_system` doesn’t know which allocator it calls, and needs to be conservative in assumptions it makes. The C standard says: https://port70.net/%7Ensz/c/c11/n1570.html#7.22.3 > The pointer returned if the allocation succeeds is suitably aligned > so that it may be assigned to a pointer to any type of object > with a fundamental alignment requirement https://port70.net/~nsz/c/c11/n1570.html#6.2.8p2 > A fundamental alignment is represented by an alignment less than > or equal to the greatest alignment supported by the implementation > in all contexts, which is equal to `_Alignof (max_align_t)`. `_Alignof (max_align_t)` depends on the ABI and doesn’t seem to have a clear definition, but it seems to match our `MIN_ALIGN` in practice. However, the size of objects is rounded up to the next multiple of their alignment (since that size is also the stride used in arrays). Conversely, the alignment of a non-zero-size object is at most its size. So for example it seems ot be legal for `malloc(8)` to return a pointer that’s only 8-bytes-aligned, even if `_Alignof (max_align_t)` is 16. 2017-11-20 15:30:04 +01:00			`}`
			`}`
			`}`