Re: [PATCH v2 05/63] stddef: Introduce struct_group() helper macro

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On Tue, Aug 17, 2021 at 11:06 PM Kees Cook <keescook@xxxxxxxxxxxx> wrote:
>
> Kernel code has a regular need to describe groups of members within a
> structure usually when they need to be copied or initialized separately
> from the rest of the surrounding structure. The generally accepted design
> pattern in C is to use a named sub-struct:
>
>         struct foo {
>                 int one;
>                 struct {
>                         int two;
>                         int three, four;
>                 } thing;
>                 int five;
>         };
>
> This would allow for traditional references and sizing:
>
>         memcpy(&dst.thing, &src.thing, sizeof(dst.thing));
>
> However, doing this would mean that referencing struct members enclosed
> by such named structs would always require including the sub-struct name
> in identifiers:
>
>         do_something(dst.thing.three);
>
> This has tended to be quite inflexible, especially when such groupings
> need to be added to established code which causes huge naming churn.
> Three workarounds exist in the kernel for this problem, and each have
> other negative properties.
>
> To avoid the naming churn, there is a design pattern of adding macro
> aliases for the named struct:
>
>         #define f_three thing.three
>
> This ends up polluting the global namespace, and makes it difficult to
> search for identifiers.
>
> Another common work-around in kernel code avoids the pollution by avoiding
> the named struct entirely, instead identifying the group's boundaries using
> either a pair of empty anonymous structs of a pair of zero-element arrays:
>
>         struct foo {
>                 int one;
>                 struct { } start;
>                 int two;
>                 int three, four;
>                 struct { } finish;
>                 int five;
>         };
>
>         struct foo {
>                 int one;
>                 int start[0];
>                 int two;
>                 int three, four;
>                 int finish[0];
>                 int five;
>         };
>
> This allows code to avoid needing to use a sub-struct named for member
> references within the surrounding structure, but loses the benefits of
> being able to actually use such a struct, making it rather fragile. Using
> these requires open-coded calculation of sizes and offsets. The efforts
> made to avoid common mistakes include lots of comments, or adding various
> BUILD_BUG_ON()s. Such code is left with no way for the compiler to reason
> about the boundaries (e.g. the "start" object looks like it's 0 bytes
> in length), making bounds checking depend on open-coded calculations:
>
>         if (length > offsetof(struct foo, finish) -
>                      offsetof(struct foo, start))
>                 return -EINVAL;
>         memcpy(&dst.start, &src.start, offsetof(struct foo, finish) -
>                                        offsetof(struct foo, start));
>
> However, the vast majority of places in the kernel that operate on
> groups of members do so without any identification of the grouping,
> relying either on comments or implicit knowledge of the struct contents,
> which is even harder for the compiler to reason about, and results in
> even more fragile manual sizing, usually depending on member locations
> outside of the region (e.g. to copy "two" and "three", use the start of
> "four" to find the size):
>
>         BUILD_BUG_ON((offsetof(struct foo, four) <
>                       offsetof(struct foo, two)) ||
>                      (offsetof(struct foo, four) <
>                       offsetof(struct foo, three));
>         if (length > offsetof(struct foo, four) -
>                      offsetof(struct foo, two))
>                 return -EINVAL;
>         memcpy(&dst.two, &src.two, length);
>
> In order to have a regular programmatic way to describe a struct
> region that can be used for references and sizing, can be examined for
> bounds checking, avoids forcing the use of intermediate identifiers,
> and avoids polluting the global namespace, introduce the struct_group()
> macro. This macro wraps the member declarations to create an anonymous
> union of an anonymous struct (no intermediate name) and a named struct
> (for references and sizing):
>
>         struct foo {
>                 int one;
>                 struct_group(thing,
>                         int two;
>                         int three, four;
>                 );
>                 int five;
>         };
>
>         if (length > sizeof(src.thing))
>                 return -EINVAL;
>         memcpy(&dst.thing, &src.thing, length);
>         do_something(dst.three);
>
> There are some rare cases where the resulting struct_group() needs
> attributes added, so struct_group_attr() is also introduced to allow
> for specifying struct attributes (e.g. __align(x) or __packed).
> Additionally, there are places where such declarations would like to
> have the struct be typed, so struct_group_typed() is added.
>
> Given there is a need for a handful of UAPI uses too, the underlying
> __struct_group() macro has been defined in UAPI so it can be used there
> too.
>
> Co-developed-by: Keith Packard <keithp@xxxxxxxxxx>
> Signed-off-by: Keith Packard <keithp@xxxxxxxxxx>
> Signed-off-by: Kees Cook <keescook@xxxxxxxxxxxx>
> Acked-by: Gustavo A. R. Silva <gustavoars@xxxxxxxxxx>
> Link: https://lore.kernel.org/lkml/20210728023217.GC35706@embeddedor
> Enhanced-by: Rasmus Villemoes <linux@xxxxxxxxxxxxxxxxxx>
> Link: https://lore.kernel.org/lkml/41183a98-bdb9-4ad6-7eab-5a7292a6df84@xxxxxxxxxxxxxxxxxx
> Enhanced-by: Dan Williams <dan.j.williams@xxxxxxxxx>

Acked-by: Dan Williams <dan.j.williams@xxxxxxxxx>



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