[PATCH v5 0/4] slab: Introduce kmalloc_obj() and family

[PATCH v5 0/4] slab: Introduce kmalloc_obj() and family

[Kees Cook]

Hi,

Here's a refresh and update on the kmalloc_obj() API proposal for
discussion here and at LPC[1]. Please see patch 2 for the bulk of the
details. And note that this is obviously not v6.19 material! :)

The tree-wide patch for conversions is here:
https://git.kernel.org/pub/scm/linux/kernel/git/kees/linux.git/commit/?h=dev/v6.18-rc6/alloc_obj/v5&id=f79ee96ad6a3cafdb274fe15d3ae067724e72327

Thanks!

-Kees

[1] https://lpc.events/event/19/contributions/2136/

 v5:
  - switch to using assignment with type as first argument (Linus)
  - fix various comment, commit log, and kern-docs (Randy, Miguel)
  - renamed flex_counter internal helpers with "__" prefix (Przemek)
 v4: https://lore.kernel.org/lkml/20250315025852.it.568-kees@kernel.org/
 v3: https://lore.kernel.org/lkml/20240822231324.make.666-kees@kernel.org/
 v2: https://lore.kernel.org/lkml/20240807235433.work.317-kees@kernel.org/
 v1: https://lore.kernel.org/lkml/20240719192744.work.264-kees@kernel.org/

Kees Cook (4):
  compiler_types: Introduce __flex_counter() and family
  slab: Introduce kmalloc_obj() and family
  checkpatch: Suggest kmalloc_obj family for sizeof allocations
  coccinelle: Add kmalloc_objs conversion script

 scripts/checkpatch.pl                     |  39 ++++-
 scripts/coccinelle/api/kmalloc_objs.cocci | 168 +++++++++++++++++++++
 Documentation/process/deprecated.rst      |  42 ++++++
 include/linux/compiler_types.h            |  31 ++++
 include/linux/overflow.h                  |  40 +++++
 include/linux/slab.h                      | 172 ++++++++++++++++++++++
 6 files changed, 486 insertions(+), 6 deletions(-)
 create mode 100644 scripts/coccinelle/api/kmalloc_objs.cocci

-- 
2.34.1

[PATCH v5 1/4] compiler_types: Introduce __flex_counter() and family

[Kees Cook]

Introduce __flex_counter() which wraps __builtin_counted_by_ref(),
as newly introduced by GCC[1] and Clang[2]. Use of __flex_counter()
allows access to the counter member of a struct's flexible array member
when it has been annotated with __counted_by().

Introduce typeof_flex_counter(), can_set_flex_counter(), and
set_flex_counter() to provide the needed _Generic() wrappers to get sane
results out of __flex_counter().

For example, with:

	struct foo {
		int counter;
		short array[] __counted_by(counter);
	} *p;

__flex_counter(p->array) will resolve to: &p->counter

typeof_flex_counter(p->array) will resolve to "int". (If p->array was not
annotated, it would resolve to "size_t".)

can_set_flex_counter(p->array, COUNT) is the same as:

	COUNT <= type_max(p->counter) && COUNT >= type_min(p->counter)

(If p->array was not annotated it would return true since everything
fits in size_t.)

set_flex_counter(p->array, COUNT) is the same as:

	p->counter = COUNT;

(It is a no-op if p->array is not annotated with __counted_by().)

Signed-off-by: Kees Cook <kees@kernel.org>
---
Cc: Miguel Ojeda <ojeda@kernel.org>
Cc: "Gustavo A. R. Silva" <gustavoars@kernel.org>
Cc: Nathan Chancellor <nathan@kernel.org>
Cc: Peter Zijlstra <peterz@infradead.org>
Cc: Nick Desaulniers <ndesaulniers@google.com>
Cc: Marco Elver <elver@google.com>
Cc: Przemek Kitszel <przemyslaw.kitszel@intel.com>
Cc: linux-hardening@vger.kernel.org
---
 include/linux/compiler_types.h | 31 ++++++++++++++++++++++++++
 include/linux/overflow.h       | 40 ++++++++++++++++++++++++++++++++++
 2 files changed, 71 insertions(+)

diff --git a/include/linux/compiler_types.h b/include/linux/compiler_types.h
index c46855162a8a..a31fe3dbf576 100644
--- a/include/linux/compiler_types.h
+++ b/include/linux/compiler_types.h
@@ -507,6 +507,37 @@ struct ftrace_likely_data {
 #define __annotated(var, attr)	__builtin_has_attribute(var, attr)
 #endif
 
+/*
+ * Optional: only supported since gcc >= 15, clang >= 19
+ *
+ *   gcc: https://gcc.gnu.org/onlinedocs/gcc/Other-Builtins.html#index-_005f_005fbuiltin_005fcounted_005fby_005fref
+ * clang: https://clang.llvm.org/docs/LanguageExtensions.html#builtin-counted-by-ref
+ */
+#if __has_builtin(__builtin_counted_by_ref)
+/**
+ * __flex_counter() - Get pointer to counter member for the given
+ *                    flexible array, if it was annotated with __counted_by()
+ * @FAM: Pointer to flexible array member of an addressable struct instance
+ *
+ * For example, with:
+ *
+ *	struct foo {
+ *		int counter;
+ *		short array[] __counted_by(counter);
+ *	} *p;
+ *
+ * __flex_counter(p->array) will resolve to &p->counter.
+ *
+ * Note that Clang may not allow this to be assigned to a separate
+ * variable; it must be used directly.
+ *
+ * If p->array is unannotated, this returns (void *)NULL.
+ */
+#define __flex_counter(FAM)	__builtin_counted_by_ref(FAM)
+#else
+#define __flex_counter(FAM)	((void *)NULL)
+#endif
+
 /*
  * Some versions of gcc do not mark 'asm goto' volatile:
  *
diff --git a/include/linux/overflow.h b/include/linux/overflow.h
index 725f95f7e416..12ca286c0f34 100644
--- a/include/linux/overflow.h
+++ b/include/linux/overflow.h
@@ -540,4 +540,44 @@ static inline size_t __must_check size_sub(size_t minuend, size_t subtrahend)
 	(__member_size((name)->array) / sizeof(*(name)->array) +			\
 						__must_be_array((name)->array))
 
+/**
+ * typeof_flex_counter() - Return the type of the counter variable of a given
+ *                         flexible array member annotated by __counted_by().
+ * @FAM: Pointer to the flexible array member within a given struct.
+ *
+ * Returns: "size_t" if no annotation exists.
+ */
+#define typeof_flex_counter(FAM)				\
+	typeof(_Generic(__flex_counter(FAM),			\
+			void *: (size_t)0,			\
+			default: *__flex_counter(FAM)))
+
+/**
+ * __can_set_flex_counter() - Check if the counter associated with the given
+ *                            flexible array member can represent a value.
+ * @FAM: Pointer to the flexible array member within a given struct.
+ * @COUNT: Value to check against the __counted_by annotated @FAM's counter.
+ *
+ * Returns: true if @COUNT can be represented in the @FAM counter. When
+ * @FAM is not annotated with __counted_by(), always returns true.
+ */
+#define __can_set_flex_counter(FAM, COUNT)			\
+	(!overflows_type(COUNT, typeof_flex_counter(FAM)))
+
+/**
+ * __set_flex_counter() - Set the counter associated with the given flexible
+ *                        array member that has been annoated by __counted_by().
+ * @FAM: Pointer to the flexible array member within a given struct.
+ * @COUNT: Value to store to the __counted_by annotated @FAM's counter.
+ *
+ * This is a no-op if no annotation exists. Count needs to be checked with
+ * __can_set_flex_counter(@FAM, @COUNT) before using this function.
+ */
+#define __set_flex_counter(FAM, COUNT)				\
+({								\
+	*_Generic(__flex_counter(FAM),				\
+		  void *:  &(size_t){ 0 },			\
+		  default: __flex_counter(FAM)) = (COUNT);	\
+})
+
 #endif /* __LINUX_OVERFLOW_H */
-- 
2.34.1

[PATCH v5 2/4] slab: Introduce kmalloc_obj() and family

[Kees Cook]

Introduce type-aware kmalloc-family helpers to replace the common
idioms for single, array, and flexible object allocations:

	ptr = kmalloc(sizeof(*ptr), gfp);
	ptr = kmalloc(sizeof(struct some_obj_name), gfp);
	ptr = kzalloc(sizeof(*ptr), gfp);
	ptr = kmalloc_array(count, sizeof(*ptr), gfp);
	ptr = kcalloc(count, sizeof(*ptr), gfp);
	ptr = kmalloc(struct_size(ptr, flex_member, count), gfp);

These become, respectively:

	ptr = kmalloc_obj(*ptr, gfp);
	ptr = kmalloc_obj(*ptr, gfp);
	ptr = kzalloc_obj(*ptr, gfp);
	ptr = kmalloc_objs(*ptr, count, gfp);
	ptr = kzalloc_objs(*ptr, count, gfp);
	ptr = kmalloc_flex(*ptr, flex_member, count, gfp);

Beyond the other benefits outlined below, the primary ergonomic benefit
is the elimination of needing "sizeof" nor the type name, and the
enforcement of assignment types (they do not return "void *", but rather
a pointer to the type of the first argument). The type name _can_ be
used, though, in the case where an assignment is indirect (e.g. via
"return").

These each return the newly allocated pointer to the type (which may be
NULL on failure). For cases where the total size of the allocation is
needed, the kmalloc_obj_sz(), kmalloc_objs_sz(), and kmalloc_flex_sz()
family of macros can be used. For example:

	size = struct_size(ptr, flex_member, count);
	ptr = kmalloc(size, gfp);

becomes:

	ptr = kmalloc_flex_sz(*ptr, flex_member, count, gfp, &size);

With the *_sz() helpers, it becomes possible to do bounds checking of
the final size to make sure no arithmetic overflow has happened that
exceeds the storage size of the target size variable. E.g. it was possible
before to end up wrapping an allocation size and not noticing, there by
allocating too small a size. (Most of Linux's exposure on that particular
problem is via newly written code as we already did bulk conversions[1],
but we continue to have a steady stream of patches catching additional
cases[2] that would just go away with this API.)

Internal introspection of the allocated type now becomes possible,
allowing for future alignment-aware choices to be made by the allocator
and future hardening work that can be type sensitive. For example,
adding __alignof(*ptr) as an argument to the internal allocators so that
appropriate/efficient alignment choices can be made, or being able to
correctly choose per-allocation offset randomization within a bucket
that does not break alignment requirements.

For the flexible array helpers, the internal use of __flex_counter()
allows for automatically setting the counter member of a struct's flexible
array member when it has been annotated with __counted_by(), avoiding
any missed early size initializations while __counted_by() annotations
are added to the kernel. Additionally, this also checks for "too large"
allocations based on the type size of the counter variable. For example:

	if (count > type_max(ptr->flex_count))
		fail...;
	size = struct_size(ptr, flex_member, count);
	ptr = kmalloc(size, gfp);
	ptr->flex_count = count;

becomes (n.b. unchanged from earlier example):

	ptr = kmalloc_flex_sz(*ptr, flex_member, count, gfp, &size);
	ptr->flex_count = count;

Note that manual initialization of the flexible array counter is still
required (at some point) after allocation as not all compiler versions
support the __counted_by annotation yet. But doing it internally makes
sure they cannot be missed when __counted_by _is_ available, meaning
that the bounds checker will not trip due to the lack of "early enough"
initializations that used to work before enabling the stricter bounds
checking. For example:

	ptr = kmalloc_flex(*ptr, flex_member, count);
	fill(ptr->flex, count);
	ptr->flex_count = count;

This works correctly before adding a __counted_by annotation (since
nothing is checking ptr->flex accesses against ptr->flex_count). After
adding the annotation, the bounds sanitizer would trip during fill()
because ptr->flex_count wasn't set yet. But with kmalloc_flex() setting
ptr->flex_count internally at allocation time, the existing code works
without needing to move the ptr->flex_count assignment before the call
to fill(). (This has been a stumbling block for __counted_by adoption.)

Replacing all existing simple code patterns found via Coccinelle[3]
shows what could be replaced immediately (also saving roughly 1000 lines):

 7863 files changed, 19639 insertions(+), 20692 deletions(-)

This would take us from 24085 k*alloc assignments to 7467:

$ git grep ' = kv\?[mzcv]alloc\(\|_array\)(' | wc -l
24085
$ git reset --hard HEAD^
HEAD is now at 8bccc91e6cdf treewide: kmalloc_obj conversion
$ git grep ' = kv\?[mzcv]alloc\(\|_array\)(' | wc -l
7467

This treewide change could be done at the end of the merge window just
before -rc1 is released (as is common for treewide changes). Handling
this API change in backports to -stable should be possible without much
hassle by backporting the __flex_counter() patch and this patch, while
taking conversions as-needed.

The impact on my bootable testing image size (with the treewide patch
applied) is tiny. With both GCC 13 (no __counted_by support) and GCC 15
(with __counted_by) the images are actually very slightly smaller:

$ size -G gcc-boot/vmlinux.gcc*
      text       data        bss      total filename
  29975593   21527689   16601200   68104482 gcc-boot/vmlinux.gcc13-before
  29969263   21528663   16601112   68099038 gcc-boot/vmlinux.gcc13-after
  30555626   21291299   17086620   68933545 gcc-boot/vmlinux.gcc15-before
  30550144   21292039   17086540   68928723 gcc-boot/vmlinux.gcc15-after

Link: https://web.git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=b08fc5277aaa1d8ea15470d38bf36f19dfb0e125 [1]
Link: https://lore.kernel.org/all/?q=s%3Akcalloc+-s%3ARe%3A [2]
Link: https://github.com/kees/kernel-tools/blob/trunk/coccinelle/examples/kmalloc_objs.cocci [3]
Signed-off-by: Kees Cook <kees@kernel.org>
---
Cc: Vlastimil Babka <vbabka@suse.cz>
Cc: Christoph Lameter <cl@linux.com>
Cc: Pekka Enberg <penberg@kernel.org>
Cc: David Rientjes <rientjes@google.com>
Cc: Joonsoo Kim <iamjoonsoo.kim@lge.com>
Cc: Andrew Morton <akpm@linux-foundation.org>
Cc: Roman Gushchin <roman.gushchin@linux.dev>
Cc: Hyeonggon Yoo <42.hyeyoo@gmail.com>
Cc: Gustavo A. R. Silva <gustavoars@kernel.org>
Cc: Bill Wendling <morbo@google.com>
Cc: Justin Stitt <justinstitt@google.com>
Cc: Jann Horn <jannh@google.com>
Cc: Przemek Kitszel <przemyslaw.kitszel@intel.com>
Cc: Marco Elver <elver@google.com>
Cc: Linus Torvalds <torvalds@linux-foundation.org>
Cc: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
Cc: Sasha Levin <sashal@kernel.org>
Cc: linux-mm@kvack.org
---
 Documentation/process/deprecated.rst |  42 +++++++
 include/linux/slab.h                 | 172 +++++++++++++++++++++++++++
 2 files changed, 214 insertions(+)

diff --git a/Documentation/process/deprecated.rst b/Documentation/process/deprecated.rst
index 1f7f3e6c9cda..eb72b75f5419 100644
--- a/Documentation/process/deprecated.rst
+++ b/Documentation/process/deprecated.rst
@@ -372,3 +372,45 @@ The helper must be used::
 			DECLARE_FLEX_ARRAY(struct type2, two);
 		};
 	};
+
+Open-coded kmalloc assignments for struct objects
+-------------------------------------------------
+Performing open-coded kmalloc()-family allocation assignments prevents
+the kernel (and compiler) from being able to examine the type of the
+variable being assigned, which limits any related introspection that
+may help with alignment, wrap-around, or additional hardening. The
+kmalloc_obj()-family of macros provide this introspection, which can be
+used for the common code patterns for single, array, and flexible object
+allocations. For example, these open coded assignments::
+
+	ptr = kmalloc(sizeof(*ptr), gfp);
+	ptr = kmalloc(sizeof(struct the_type_of_ptr_obj), gfp);
+	ptr = kzalloc(sizeof(*ptr), gfp);
+	ptr = kmalloc_array(count, sizeof(*ptr), gfp);
+	ptr = kcalloc(count, sizeof(*ptr), gfp);
+	ptr = kmalloc(struct_size(ptr, flex_member, count), gfp);
+
+become, respectively::
+
+	ptr = kmalloc_obj(*ptr, gfp);
+	ptr = kzalloc_obj(*ptr, gfp);
+	ptr = kmalloc_objs(*ptr, count, gfp);
+	ptr = kzalloc_objs(*ptr, count, gfp);
+	ptr = kmalloc_flex(*ptr, flex_member, count, gfp);
+
+For the cases where the total size of the allocation is also needed,
+the kmalloc_obj_sz(), kmalloc_objs_sz(), and kmalloc_flex_sz() family of
+macros can be used. For example, converting these assignments::
+
+	total_size = struct_size(ptr, flex_member, count);
+	ptr = kmalloc(total_size, gfp);
+
+becomes::
+
+	ptr = kmalloc_flex_sz(*ptr, flex_member, count, gfp, &total_size);
+
+If `ptr->flex_member` is annotated with __counted_by(), the allocation
+will automatically fail if `count` is larger than the maximum
+representable value that can be stored in the counter member associated
+with `flex_member`. Similarly, the allocation will fail if the total
+size of the allocation exceeds the maximum value `*total_size` can hold.
diff --git a/include/linux/slab.h b/include/linux/slab.h
index cf443f064a66..1c5219d79cf1 100644
--- a/include/linux/slab.h
+++ b/include/linux/slab.h
@@ -12,6 +12,7 @@
 #ifndef _LINUX_SLAB_H
 #define	_LINUX_SLAB_H
 
+#include <linux/bug.h>
 #include <linux/cache.h>
 #include <linux/gfp.h>
 #include <linux/overflow.h>
@@ -965,6 +966,177 @@ static __always_inline __alloc_size(1) void *kmalloc_noprof(size_t size, gfp_t f
 void *kmalloc_nolock_noprof(size_t size, gfp_t gfp_flags, int node);
 #define kmalloc_nolock(...)			alloc_hooks(kmalloc_nolock_noprof(__VA_ARGS__))
 
+#define __alloc_objs(ALLOC, VAR, COUNT, SIZE)				\
+({									\
+	size_t __obj_size = size_mul(sizeof(VAR), COUNT);		\
+	const typeof(_Generic(SIZE,					\
+			void *: (size_t *)NULL,				\
+			default: SIZE)) __size_ptr = (SIZE);		\
+	typeof(VAR) *__obj_ptr = NULL;					\
+	/* Does the total size fit in the *SIZE variable? */		\
+	if (!WARN_ON_ONCE(__size_ptr && __obj_size > type_max(*__size_ptr))) \
+		__obj_ptr = ALLOC;					\
+	if (!__obj_ptr)							\
+		__obj_size = 0;						\
+	if (__size_ptr)							\
+		*__size_ptr = __obj_size;				\
+	__obj_ptr;							\
+})
+
+#define __alloc_flex(ALLOC, VAR, FAM, COUNT, SIZE)			\
+({									\
+	const size_t __count = (COUNT);					\
+	size_t __obj_size = struct_size_t(typeof(VAR), FAM, __count);	\
+	/* "*SIZE = ...;" below is unbuildable when SIZE is "NULL" */	\
+	const typeof(_Generic(SIZE,					\
+			void *: (size_t *)NULL,				\
+			default: SIZE)) __size_ptr = (SIZE);		\
+	typeof(VAR) *__obj_ptr = NULL;					\
+	if (!WARN_ON_ONCE(!__can_set_flex_counter(__obj_ptr->FAM, __count)) && \
+	    !WARN_ON_ONCE(__size_ptr && __obj_size > type_max(*__size_ptr))) \
+		__obj_ptr = ALLOC;					\
+	if (__obj_ptr) {						\
+		__set_flex_counter(__obj_ptr->FAM, __count);		\
+	} else {							\
+		__obj_size = 0;						\
+	}								\
+	if (__size_ptr)							\
+		*__size_ptr = __obj_size;				\
+	__obj_ptr;							\
+})
+
+/**
+ * kmalloc_obj - Allocate a single instance of the given structure
+ * @VAR: Variable or type to allocate.
+ * @FLAGS: GFP flags for the allocation.
+ *
+ * Returns: newly allocated pointer to a @VAR on success, NULL on failure.
+ */
+#define kmalloc_obj(VAR, FLAGS)				\
+	__alloc_objs(kmalloc(__obj_size, FLAGS), VAR, 1, NULL)
+
+/**
+ * kmalloc_obj_sz - Allocate a single instance of the given structure and
+ *		 store total size
+ * @VAR: Variable or type to allocate.
+ * @FLAGS: GFP flags for the allocation.
+ * @SIZE: Pointer to variable to hold the total allocation size.
+ *
+ * Returns: newly allocated pointer to @VAR on success, NULL on failure.
+ * If @SIZE is non-NULL, the allocation will immediately fail if the total
+ * allocation size is larger than what the type of *@SIZE can represent.
+ * If @SIZE is non-NULL, *@SIZE is set to either allocation size on success,
+ * or 0 on failure.
+ */
+#define kmalloc_obj_sz(VAR, FLAGS, SIZE)		\
+	__alloc_objs(kmalloc(__obj_size, FLAGS), VAR, 1, SIZE)
+
+/**
+ * kmalloc_objs - Allocate an array of the given structure
+ * @VAR: Variable or type to allocate an array of.
+ * @COUNT: How many elements in the array.
+ * @FLAGS: GFP flags for the allocation.
+ *
+ * Returns: newly allocated pointer to array of @VAR on success, NULL on
+ * failure.
+ */
+#define kmalloc_objs(VAR, COUNT, FLAGS)			\
+	__alloc_objs(kmalloc(__obj_size, FLAGS), VAR, COUNT, NULL)
+
+/**
+ * kmalloc_objs_sz - Allocate an array of the given structure and store
+ *		     total size
+ * @VAR: Variable or type to allocate an array of.
+ * @COUNT: How many elements in the array.
+ * @FLAGS: GFP flags for the allocation.
+ * @SIZE: Pointer to variable to hold the total allocation size.
+ *
+ * Returns: newly allocated pointer to array of @VAR on success, NULL on
+ * failure. If @SIZE is non-NULL, the allocation will immediately fail if
+ * the total allocation size is larger than what the type of *@SIZE can
+ * represent. If @SIZE is non-NULL, *@SIZE is set to either allocation size
+ * on success, or 0 on failure.
+ */
+#define kmalloc_objs_sz(VAR, COUNT, FLAGS, SIZE)	\
+	__alloc_objs(kmalloc(__obj_size, FLAGS), VAR, COUNT, SIZE)
+
+/**
+ * kmalloc_flex - Allocate a single instance of the given flexible structure
+ * @VAR: Variable or type to allocate, along with its flexible array member.
+ * @FAM: The name of the flexible array member of the structure.
+ * @COUNT: How many flexible array member elements are desired.
+ * @FLAGS: GFP flags for the allocation.
+ *
+ * Returns: newly allocated pointer to @VAR on success, NULL on failure.
+ * If @FAM has been annotated with __counted_by(), the allocation will
+ * immediately fail if @COUNT is larger than what the type of the struct's
+ * counter variable can represent.
+ */
+#define kmalloc_flex(VAR, FAM, COUNT, FLAGS)		\
+	__alloc_flex(kmalloc(__obj_size, FLAGS), VAR, FAM, COUNT, NULL)
+
+/**
+ * kmalloc_flex_sz - Allocate a single instance of the given flexible
+ *		     structure and store total size
+ * @VAR: Variable or type to allocate, along with its flexible array member.
+ * @FAM: The name of the flexible array member of the structure.
+ * @COUNT: How many flexible array member elements are desired.
+ * @FLAGS: GFP flags for the allocation.
+ * @SIZE: Pointer to variable to hold the total allocation size.
+ *
+ * Returns: newly allocated pointer to @VAR on success, NULL on failure.
+ * If @FAM has been annotated with __counted_by(), the allocation will
+ * immediately fail if @COUNT is larger than what the type of the struct's
+ * counter variable can represent. If @SIZE is non-NULL, the allocation
+ * will immediately fail if the total allocation size is larger than what
+ * the type of *@SIZE can represent. If @SIZE is non-NULL, *@SIZE is set
+ * to either allocation size on success, or 0 on failure.
+ */
+#define kmalloc_flex_sz(VAR, FAM, COUNT, FLAGS, SIZE)	\
+	__alloc_flex(kmalloc(__obj_size, FLAGS), VAR, FAM, COUNT, SIZE)
+
+/* All kzalloc aliases for kmalloc_(obj|objs|fam)(|_sz). */
+#define kzalloc_obj(P, FLAGS)				\
+	__alloc_objs(kzalloc(__obj_size, FLAGS), P, 1, NULL)
+#define kzalloc_obj_sz(P, FLAGS, SIZE)			\
+	__alloc_objs(kzalloc(__obj_size, FLAGS), P, 1, SIZE)
+#define kzalloc_objs(P, COUNT, FLAGS)			\
+	__alloc_objs(kzalloc(__obj_size, FLAGS), P, COUNT, NULL)
+#define kzalloc_objs_sz(P, COUNT, FLAGS, SIZE)		\
+	__alloc_objs(kzalloc(__obj_size, FLAGS), P, COUNT, SIZE)
+#define kzalloc_flex(P, FAM, COUNT, FLAGS)		\
+	__alloc_flex(kzalloc(__obj_size, FLAGS), P, FAM, COUNT, NULL)
+#define kzalloc_flex_sz(P, FAM, COUNT, FLAGS, SIZE)	\
+	__alloc_flex(kzalloc(__obj_size, FLAGS), P, FAM, COUNT, SIZE)
+
+/* All kvmalloc aliases for kmalloc_(obj|objs|fam)(|_sz). */
+#define kvmalloc_obj(P, FLAGS)				\
+	__alloc_objs(kvmalloc(__obj_size, FLAGS), P, 1, NULL)
+#define kvmalloc_obj_sz(P, FLAGS, SIZE)			\
+	__alloc_objs(kvmalloc(__obj_size, FLAGS), P, 1, SIZE)
+#define kvmalloc_objs(P, COUNT, FLAGS)			\
+	__alloc_objs(kvmalloc(__obj_size, FLAGS), P, COUNT, NULL)
+#define kvmalloc_objs_sz(P, COUNT, FLAGS, SIZE)		\
+	__alloc_objs(kvmalloc(__obj_size, FLAGS), P, COUNT, SIZE)
+#define kvmalloc_flex(P, FAM, COUNT, FLAGS)		\
+	__alloc_flex(kvmalloc(__obj_size, FLAGS), P, FAM, COUNT, NULL)
+#define kvmalloc_flex_sz(P, FAM, COUNT, FLAGS, SIZE)	\
+	__alloc_flex(kvmalloc(__obj_size, FLAGS), P, FAM, COUNT, SIZE)
+
+/* All kvzalloc aliases for kmalloc_(obj|objs|fam)(|_sz). */
+#define kvzalloc_obj(P, FLAGS)				\
+	__alloc_objs(kvzalloc(__obj_size, FLAGS), P, 1, NULL)
+#define kvzalloc_obj_sz(P, FLAGS, SIZE)			\
+	__alloc_objs(kvzalloc(__obj_size, FLAGS), P, 1, SIZE)
+#define kvzalloc_objs(P, COUNT, FLAGS)			\
+	__alloc_objs(kvzalloc(__obj_size, FLAGS), P, COUNT, NULL)
+#define kvzalloc_objs_sz(P, COUNT, FLAGS, SIZE)		\
+	__alloc_objs(kvzalloc(__obj_size, FLAGS), P, COUNT, SIZE)
+#define kvzalloc_flex(P, FAM, COUNT, FLAGS)		\
+	__alloc_flex(kvzalloc(__obj_size, FLAGS), P, FAM, COUNT, NULL)
+#define kvzalloc_flex_sz(P, FAM, COUNT, FLAGS, SIZE)	\
+	__alloc_flex(kvzalloc(__obj_size, FLAGS), P, FAM, COUNT, SIZE)
+
 #define kmem_buckets_alloc(_b, _size, _flags)	\
 	alloc_hooks(__kmalloc_node_noprof(PASS_BUCKET_PARAMS(_size, _b), _flags, NUMA_NO_NODE))
 
-- 
2.34.1

Re: [PATCH v5 2/4] slab: Introduce kmalloc_obj() and family

[Linus Torvalds]

Honestly, I hate this.

In particular, I intensely dislike that horrendous 'SIZE' parameter to
those helper macros, and this just needs to die.

The argument for that horror is also just silly:

On Fri, 21 Nov 2025 at 17:43, Kees Cook <kees@kernel.org> wrote:
>
> These each return the newly allocated pointer to the type (which may be
> NULL on failure). For cases where the total size of the allocation is
> needed, the kmalloc_obj_sz(), kmalloc_objs_sz(), and kmalloc_flex_sz()
> family of macros can be used. For example:
>
>         size = struct_size(ptr, flex_member, count);
>         ptr = kmalloc(size, gfp);
>
> becomes:
>
>         ptr = kmalloc_flex_sz(*ptr, flex_member, count, gfp, &size);

That thing is ACTIVELY WORSE than the code it replaces.

One of them makes sense and is legible toi a normal human.

The other does not.

The alleged advantage is apparently that you can do it on one line,
but when that one line is just horrible garbage, that is not an
advantyage at all.

And the impact of that crazy SIZE on the macro expansions makes the
whole thing entirely illegible.

I will not merge anything this broken.

The whole "limit to pre-defined size" argument is also just crazy,
because now the SIZE parameter suddenly gets a second meaning. EVEN
WORSE.

Finally, I think the parts of this that aren't wrong are too limited,
and do not go far enough.

Because once you give that "alloc_obj()" an actual type, it should
take the alignment of the type into account too.

I also think this part:

+       typeof(VAR) *__obj_ptr = NULL;                                  \
+       if (!WARN_ON_ONCE(!__can_set_flex_counter(__obj_ptr->FAM, __count)) && \

absolutely needs to die.  You just set __obj_ptr to NULL, and then you
use __obj_ptr->FAM. Now, it so happens that __can_set_flex_counter()
only cares about the *type*, but dammit, this kind of code sequence is
simply not acceptable, and it needs to make that *explicit* by using
sane syntax like perhaps just spelling that out, using VAR, not that
NULL value.

IOW. making it use something like "typeof(VAR.FAM)" might work. Not
that crazy garbage.

I never want to see this kind of horrendous patch again. Everything
about it just screamed "disgusting".

                        Linus

Re: [PATCH v5 2/4] slab: Introduce kmalloc_obj() and family

[Linus Torvalds]

Btw, I realize that we don't have a good way to do the alignment with
the current kmalloc() interface (we do for some of the vmalloc
interfaces).

So for now, it should just have some static build-time warning if the
type of the object we allocate has a bigger alignment than the
guaranteed slab allocation alignment (ARCH_KMALLOC_MINALIGN or
whatever).

And I really think the first version should do the minimal thing that
actually matters, and strive to deal with the simple cases. The main
things that matter are

 - the return type should be a proper pointer type (so that you get
warnings for mis-uses, but also so that you can use automatic typing)

 - making the 'sizeof()' match the type

so honestly, I think 99% of the gain would come from something fairly
simple like

    #define kmalloc_verify(type) \
        BUILD_BUG_ON_ZERO(__alignof__(type) > ARCH_KMALLOC_MINALIGN)

    #define kmalloc_size(type) \
        (sizeof(type) + kmalloc_verify(type))

    #define allocator(name, type, size, ...) \
        (typeof(type) *)name(size, __VA_ARGS__)

    #define kmalloc_obj(type, gfp) \
        allocator(kmalloc, type, kmalloc_size(type), gfp)
    #define kzalloc_obj(type, gfp) \
        allocator(kzalloc, type, kmalloc_size(type), gfp)
    #define kzalloc_struct(type, member, count, gfp) \
        allocator(kzalloc, type, struct_size_t(typeof(type), member,
count), gfp)

The above macros are entirely untested. But they are simple enough
that even if they are buggy and I miscounted the parentheses or used
the wrong name somewhere, I think the idea is clear. No?

(And I made that "allocator()" macro use __VA_ARGS__ because
kzalloc_node() and friends would want that, but I think it's starting
to hit diminishing returns at that point)

Hmm?

               Linus

[PATCH v5 3/4] checkpatch: Suggest kmalloc_obj family for sizeof allocations

[Kees Cook]

To support shifting away from sized allocation towards typed
allocations, suggest the kmalloc_obj family of macros when a sizeof() is
present in the argument lists.

Signed-off-by: Kees Cook <kees@kernel.org>
---
Cc: Andy Whitcroft <apw@canonical.com>
Cc: Joe Perches <joe@perches.com>
Cc: Dwaipayan Ray <dwaipayanray1@gmail.com>
Cc: Lukas Bulwahn <lukas.bulwahn@gmail.com>
---
 scripts/checkpatch.pl | 39 +++++++++++++++++++++++++++++++++------
 1 file changed, 33 insertions(+), 6 deletions(-)

diff --git a/scripts/checkpatch.pl b/scripts/checkpatch.pl
index d58ca9655ab7..a8cdfb502ccc 100755
--- a/scripts/checkpatch.pl
+++ b/scripts/checkpatch.pl
@@ -7258,17 +7258,42 @@ sub process {
 			    "Prefer $3(sizeof(*$1)...) over $3($4...)\n" . $herecurr);
 		}
 
-# check for (kv|k)[mz]alloc with multiplies that could be kmalloc_array/kvmalloc_array/kvcalloc/kcalloc
+# check for (kv|k)[mz]alloc that could be kmalloc_obj/kvmalloc_obj/kzalloc_obj/kvzalloc_obj
+		if ($perl_version_ok &&
+		    defined $stat &&
+		    $stat =~ /^\+\s*($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*,/) {
+			my $oldfunc = $3;
+			my $a1 = $4;
+			my $newfunc = "kmalloc_obj";
+			$newfunc = "kvmalloc_obj" if ($oldfunc eq "kvmalloc");
+			$newfunc = "kvzalloc_obj" if ($oldfunc eq "kvzalloc");
+			$newfunc = "kzalloc_obj" if ($oldfunc eq "kzalloc");
+
+			if ($a1 =~ s/^sizeof\s*\S\(?([^\)]*)\)?$/$1/) {
+				my $cnt = statement_rawlines($stat);
+				my $herectx = get_stat_here($linenr, $cnt, $here);
+
+				if (WARN("ALLOC_WITH_SIZEOF",
+					 "Prefer $newfunc over $oldfunc with sizeof\n" . $herectx) &&
+				    $cnt == 1 &&
+				    $fix) {
+					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*,/$1 = $newfunc($a1,/;
+				}
+			}
+		}
+
+
+# check for (kv|k)[mz]alloc with multiplies that could be kmalloc_objs/kvmalloc_objs/kzalloc_objs/kvzalloc_objs
 		if ($perl_version_ok &&
 		    defined $stat &&
 		    $stat =~ /^\+\s*($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)\s*,/) {
 			my $oldfunc = $3;
 			my $a1 = $4;
 			my $a2 = $10;
-			my $newfunc = "kmalloc_array";
-			$newfunc = "kvmalloc_array" if ($oldfunc eq "kvmalloc");
-			$newfunc = "kvcalloc" if ($oldfunc eq "kvzalloc");
-			$newfunc = "kcalloc" if ($oldfunc eq "kzalloc");
+			my $newfunc = "kmalloc_objs";
+			$newfunc = "kvmalloc_objs" if ($oldfunc eq "kvmalloc");
+			$newfunc = "kvzalloc_objs" if ($oldfunc eq "kvzalloc");
+			$newfunc = "kzalloc_objs" if ($oldfunc eq "kzalloc");
 			my $r1 = $a1;
 			my $r2 = $a2;
 			if ($a1 =~ /^sizeof\s*\S/) {
@@ -7284,7 +7309,9 @@ sub process {
 					 "Prefer $newfunc over $oldfunc with multiply\n" . $herectx) &&
 				    $cnt == 1 &&
 				    $fix) {
-					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)/$1 . ' = ' . "$newfunc(" . trim($r1) . ', ' . trim($r2)/e;
+					my $sized = trim($r2);
+					$sized =~ s/^sizeof\s*\S\(?([^\)]*)\)?$/$1/;
+					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)/$1 . ' = ' . "$newfunc(" . $sized . ', ' . trim($r1)/e;
 				}
 			}
 		}
-- 
2.34.1

Re: [PATCH v5 3/4] checkpatch: Suggest kmalloc_obj family for sizeof allocations

[Joe Perches]

On Fri, 2025-11-21 at 17:42 -0800, Kees Cook wrote:
> To support shifting away from sized allocation towards typed
> allocations, suggest the kmalloc_obj family of macros when a sizeof() is
> present in the argument lists.
[]
> diff --git a/scripts/checkpatch.pl b/scripts/checkpatch.pl
[]
> @@ -7258,17 +7258,42 @@ sub process {
>  			    "Prefer $3(sizeof(*$1)...) over $3($4...)\n" . $herecurr);
>  		}
>  
> -# check for (kv|k)[mz]alloc with multiplies that could be kmalloc_array/kvmalloc_array/kvcalloc/kcalloc
> +# check for (kv|k)[mz]alloc that could be kmalloc_obj/kvmalloc_obj/kzalloc_obj/kvzalloc_obj

There are _way_ too many of these existing uses to suggest this change
in existing files so please add '&& !$file' to these tests

> +		if ($perl_version_ok &&
> +		    defined $stat &&
> +		    $stat =~ /^\+\s*($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*,/) {
> +			my $oldfunc = $3;
> +			my $a1 = $4;
> +			my $newfunc = "kmalloc_obj";
> +			$newfunc = "kvmalloc_obj" if ($oldfunc eq "kvmalloc");
> +			$newfunc = "kvzalloc_obj" if ($oldfunc eq "kvzalloc");
> +			$newfunc = "kzalloc_obj" if ($oldfunc eq "kzalloc");
> +
> +			if ($a1 =~ s/^sizeof\s*\S\(?([^\)]*)\)?$/$1/) {
> +				my $cnt = statement_rawlines($stat);
> +				my $herectx = get_stat_here($linenr, $cnt, $here);
> +
> +				if (WARN("ALLOC_WITH_SIZEOF",
> +					 "Prefer $newfunc over $oldfunc with sizeof\n" . $herectx) &&
> +				    $cnt == 1 &&
> +				    $fix) {
> +					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*,/$1 = $newfunc($a1,/;
> +				}
> +			}
> +		}
> +
> +
> +# check for (kv|k)[mz]alloc with multiplies that could be kmalloc_objs/kvmalloc_objs/kzalloc_objs/kvzalloc_objs
>  		if ($perl_version_ok &&
>  		    defined $stat &&
>  		    $stat =~ /^\+\s*($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)\s*,/) {
>  			my $oldfunc = $3;
>  			my $a1 = $4;
>  			my $a2 = $10;
> -			my $newfunc = "kmalloc_array";
> -			$newfunc = "kvmalloc_array" if ($oldfunc eq "kvmalloc");
> -			$newfunc = "kvcalloc" if ($oldfunc eq "kvzalloc");
> -			$newfunc = "kcalloc" if ($oldfunc eq "kzalloc");
> +			my $newfunc = "kmalloc_objs";
> +			$newfunc = "kvmalloc_objs" if ($oldfunc eq "kvmalloc");
> +			$newfunc = "kvzalloc_objs" if ($oldfunc eq "kvzalloc");
> +			$newfunc = "kzalloc_objs" if ($oldfunc eq "kzalloc");
>  			my $r1 = $a1;
>  			my $r2 = $a2;
>  			if ($a1 =~ /^sizeof\s*\S/) {
> @@ -7284,7 +7309,9 @@ sub process {
>  					 "Prefer $newfunc over $oldfunc with multiply\n" . $herectx) &&
>  				    $cnt == 1 &&
>  				    $fix) {
> -					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)/$1 . ' = ' . "$newfunc(" . trim($r1) . ', ' . trim($r2)/e;
> +					my $sized = trim($r2);
> +					$sized =~ s/^sizeof\s*\S\(?([^\)]*)\)?$/$1/;
> +					$fixed[$fixlinenr] =~ s/\b($Lval)\s*\=\s*(?:$balanced_parens)?\s*((?:kv|k)[mz]alloc)\s*\(\s*($FuncArg)\s*\*\s*($FuncArg)/$1 . ' = ' . "$newfunc(" . $sized . ', ' . trim($r1)/e;
>  				}
>  			}
>  		}

[PATCH v5 4/4] coccinelle: Add kmalloc_objs conversion script

[Kees Cook]

Finds and converts sized kmalloc-family of allocations into the
typed kmalloc_obj-family of allocations.

Signed-off-by: Kees Cook <kees@kernel.org>
---
Cc: Julia Lawall <Julia.Lawall@inria.fr>
Cc: Nicolas Palix <nicolas.palix@imag.fr>
Cc: cocci@inria.fr
---
 scripts/coccinelle/api/kmalloc_objs.cocci | 168 ++++++++++++++++++++++
 1 file changed, 168 insertions(+)
 create mode 100644 scripts/coccinelle/api/kmalloc_objs.cocci

diff --git a/scripts/coccinelle/api/kmalloc_objs.cocci b/scripts/coccinelle/api/kmalloc_objs.cocci
new file mode 100644
index 000000000000..39f82f014b17
--- /dev/null
+++ b/scripts/coccinelle/api/kmalloc_objs.cocci
@@ -0,0 +1,168 @@
+// SPDX-License-Identifier: GPL-2.0-only
+/// Use kmalloc_obj family of macros for allocations
+///
+// Confidence: High
+// Comments:
+// Options: --include-headers-for-types --all-includes --include-headers --keep-comments
+
+virtual patch
+
+@initialize:python@
+@@
+import sys
+
+def alloc_array(name):
+	func = "FAILED_RENAME"
+	if name == "kmalloc_array":
+		func = "kmalloc_objs"
+	elif name == "kvmalloc_array":
+		func = "kvmalloc_objs"
+	elif name == "kcalloc":
+		func = "kzalloc_objs"
+	elif name == "kvcalloc":
+		func = "kvzalloc_objs"
+	else:
+		print(f"Unknown transform for {name}", file=sys.stderr)
+	return func
+
+@assign_sizeof depends on patch && !(file in "tools") && !(file in "samples")@
+type TYPE;
+TYPE *P;
+TYPE INST;
+expression VAR;
+expression GFP;
+expression SIZE;
+identifier ALLOC =~ "^kv?[mz]alloc$";
+fresh identifier ALLOC_OBJ_SZ = ALLOC ## "_obj_sz";
+@@
+
+(
+-	SIZE = sizeof(*VAR);
+	... when != SIZE
+	VAR =
+-	ALLOC(SIZE, GFP);
++	ALLOC_OBJ_SZ(*VAR, GFP, &SIZE);
+|
+-	SIZE = (sizeof(TYPE));
+	... when != SIZE
+	P =
+-	ALLOC(SIZE, GFP);
++	ALLOC_OBJ_SZ(*P, GFP, &SIZE);
+|
+-	SIZE = (sizeof(INST));
+	... when != SIZE
+	P =
+-	ALLOC(SIZE, GFP);
++	ALLOC_OBJ_SZ(*P, GFP, &SIZE);
+)
+
+@assign_struct_size depends on patch && !(file in "tools") && !(file in "samples")@
+type TYPE;
+TYPE *P;
+expression VAR;
+expression GFP;
+expression SIZE;
+expression FLEX;
+expression COUNT;
+identifier ALLOC =~ "^kv?[mz]alloc$";
+fresh identifier ALLOC_FLEX_SZ = ALLOC ## "_flex_sz";
+@@
+
+(
+-	SIZE = struct_size(VAR, FLEX, COUNT);
+	... when != SIZE
+	VAR =
+-	ALLOC(SIZE, GFP);
++	ALLOC_FLEX_SZ(*VAR, FLEX, COUNT, GFP, &SIZE);
+|
+-	SIZE = struct_size_t(TYPE, FLEX, COUNT);
+	... when != SIZE
+	P =
+-	ALLOC(SIZE, GFP);
++	ALLOC_FLEX_SZ(*P, FLEX, COUNT, GFP, &SIZE);
+)
+
+// This excludes anything that is assigning to or from integral types or
+// string literals. Everything else gets the sizeof() extracted for the
+// kmalloc_obj() type/var argument. sizeof(void *) is also excluded because
+// it will need case-by-case double-checking to make sure the right type is
+// being assigned.
+@direct depends on patch && !(file in "tools") && !(file in "samples")@
+typedef u8, u16, u32, u64;
+typedef __u8, __u16, __u32, __u64;
+typedef uint8_t, uint16_t, uint32_t, uint64_t;
+typedef __le16, __le32, __le64;
+typedef __be16, __be32, __be64;
+type INTEGRAL = {u8,__u8,uint8_t,char,unsigned char,
+		 u16,__u16,uint16_t,unsigned short,
+		 u32,__u32,uint32_t,unsigned int,
+		 u64,__u64,uint64_t,unsigned long,
+		 __le16,__le32,__le64,__be16,__be32,__be64};
+char [] STRING;
+INTEGRAL *BYTES;
+type TYPE;
+expression VAR;
+expression GFP;
+expression COUNT;
+expression FLEX;
+expression E;
+identifier ALLOC =~ "^kv?[mz]alloc$";
+fresh identifier ALLOC_OBJ = ALLOC ## "_obj";
+fresh identifier ALLOC_FLEX = ALLOC ## "_flex";
+identifier ALLOC_ARRAY = {kmalloc_array,kvmalloc_array,kcalloc,kvcalloc};
+fresh identifier ALLOC_OBJS = script:python(ALLOC_ARRAY) { alloc_array(ALLOC_ARRAY) };
+@@
+
+(
+-	VAR = ALLOC((sizeof(*VAR)), GFP)
++	VAR = ALLOC_OBJ(*VAR, GFP)
+|
+	ALLOC((\(sizeof(STRING)\|sizeof(INTEGRAL)\|sizeof(INTEGRAL *)\)), GFP)
+|
+	BYTES = ALLOC((sizeof(E)), GFP)
+|
+	BYTES = ALLOC((sizeof(TYPE)), GFP)
+|
+	ALLOC((sizeof(void *)), GFP)
+|
+-	ALLOC((sizeof(E)), GFP)
++	ALLOC_OBJ(E, GFP)
+|
+-	ALLOC((sizeof(TYPE)), GFP)
++	ALLOC_OBJ(TYPE, GFP)
+|
+	ALLOC_ARRAY(COUNT, (\(sizeof(STRING)\|sizeof(INTEGRAL)\|sizeof(INTEGRAL *)\)), GFP)
+|
+	BYTES = ALLOC_ARRAY(COUNT, (sizeof(E)), GFP)
+|
+	BYTES = ALLOC_ARRAY(COUNT, (sizeof(TYPE)), GFP)
+|
+	ALLOC_ARRAY((\(sizeof(STRING)\|sizeof(INTEGRAL)\|sizeof(INTEGRAL *)\)), COUNT, GFP)
+|
+	BYTES = ALLOC_ARRAY((sizeof(E)), COUNT, GFP)
+|
+	BYTES = ALLOC_ARRAY((sizeof(TYPE)), COUNT, GFP)
+|
+	ALLOC_ARRAY(COUNT, (sizeof(void *)), GFP)
+|
+	ALLOC_ARRAY((sizeof(void *)), COUNT, GFP)
+|
+-	ALLOC_ARRAY(COUNT, (sizeof(E)), GFP)
++	ALLOC_OBJS(E, COUNT, GFP)
+|
+-	ALLOC_ARRAY(COUNT, (sizeof(TYPE)), GFP)
++	ALLOC_OBJS(TYPE, COUNT, GFP)
+|
+-	ALLOC_ARRAY((sizeof(E)), COUNT, GFP)
++	ALLOC_OBJS(E, COUNT, GFP)
+|
+-	ALLOC_ARRAY((sizeof(TYPE)), COUNT, GFP)
++	ALLOC_OBJS(TYPE, COUNT, GFP)
+|
+-	ALLOC(struct_size(VAR, FLEX, COUNT), GFP)
++	ALLOC_FLEX(*VAR, FLEX, COUNT, GFP)
+|
+-	ALLOC(struct_size_t(TYPE, FLEX, COUNT), GFP)
++	ALLOC_FLEX(TYPE, FLEX, COUNT, GFP)
+)
+
-- 
2.34.1

Re: [cocci] [PATCH v5 4/4] coccinelle: Add kmalloc_objs conversion script

[Markus Elfring]

> Finds and converts sized kmalloc-family of allocations into the
> typed kmalloc_obj-family of allocations.

See also:
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/Documentation/process/submitting-patches.rst?h=v6.18-rc7#n94


…
> +++ b/scripts/coccinelle/api/kmalloc_objs.cocci
> @@ -0,0 +1,168 @@
…
> +// Comments:
…

* Please omit such an empty information line.

* Would a field like “Keywords” become helpful?


> +virtual patch

Will additional operation modes become relevant after clarification of implementation details?


…
> +def alloc_array(name):
> +	func = "FAILED_RENAME"
> +	if name == "kmalloc_array":
> +		func = "kmalloc_objs"
…

* I suggest to avoid duplicate variable assignments.

* How do you think about to collaborate with the Python data structure “dictionary”?


…
> +type TYPE;
> +TYPE *P;
> +TYPE INST;
> +expression VAR;
> +expression GFP;
…

Such repetition of SmPL key words can eventually be also avoided.

Regards,
Markus