| Message ID | 20231005212233.22ae4e13@rorschach.local.home (mailing list archive) |
|---|---|
| State | Accepted |
| Headers | show |
| Series | [v2] libtraceeval: Have TRACEEVAL_ARRAY_SIZE() handle NULL pointer | expand |
On Thu, Oct 05, 2023 at 09:22:33PM -0400, Steven Rostedt wrote: > From: "Steven Rostedt (Google)" <rostedt@goodmis.org> > > In the new addition to make sure that pointers passed to traceeval_init() > and other functions that require a static array and not a dynamic one will > cause the build to fail, this causes NULL pointers to fail the build too. > > Although keys must be filled, vals are allowed to be NULL. It was assumed > that: > > (void *)vals == NULL ? TRACEEVAL_ARRAY_SIZE(vals)) > > Would solve this, but it gcc was actually still giving a warning about > > warning: division 'sizeof (void *) / sizeof (void)' does not compute the number of array elements > > But now it actually fails to build with the magic check. > > Change TRACEEVAL_ARRAY_SIZE() to handle NULL for both keys and vals, by > not only having: > > #define TRACEEVAL_ARRAY_SIZE(data) \ > ((void *)(data) == NULL ? 0 : __TRACEEVAL_ARRAY_SIZE(data)) > > But that is not enough, as gcc still evaluates the second part, and it > will fail to build. To handle this, change that to: > > #define __TRACEEVAL_ARRAY_SIZE(data) \ > ((sizeof(data) / (sizeof((data)[0])) + 0) + \ > > The above adds " + 0" to the "sizeof((data)[0])" which quiets the warning > mentioned above (the addition of zero breaks the normal pattern of finding > an array size). > > (int)(sizeof(struct { \ > int:(-!!(__builtin_types_compatible_p(typeof(data), \ > typeof(&((data)[0]))) && \ > (void *)(data) != NULL)); \ > > Added "&& (void *)(data) != NULL" that makes the above return false (zero) > for a static array and NULL, which is exactly what we want. Don't we already know it's not NULL because of the check in TRACEEVAL_ARRAY_SIZE()? Or do we really need to check for NULL in both macros? > > }))) A few random parens in the changelog. :) > > Signed-off-by: Steven Rostedt (Google) <rostedt@goodmis.org> > --- > Changes since v1: https://lore.kernel.org/all/20231005205129.6d6cbfad@gandalf.local.home/ > > - Fixed error in placement of parenthesis. > > include/traceeval.h | 14 +++++++++----- > 1 file changed, 9 insertions(+), 5 deletions(-) > > diff --git a/include/traceeval.h b/include/traceeval.h > index bbf8f6ac7dd1..d8095ba5c1a1 100644 > --- a/include/traceeval.h > +++ b/include/traceeval.h > @@ -29,13 +29,17 @@ > * > * struct traceeval_data keys[] = { ... }; > */ > -#define TRACEEVAL_ARRAY_SIZE(data) \ > - ((sizeof(data) / sizeof((data)[0])) + \ > +#define __TRACEEVAL_ARRAY_SIZE(data) \ > + ((sizeof(data) / (sizeof((data)[0]) + 0)) + \ > (int)(sizeof(struct { \ > int:(-!!(__builtin_types_compatible_p(typeof(data), \ > - typeof(&((data)[0]))))); \ > + typeof(&((data)[0]))) && \ > + (void *)(data) != NULL)); \ > }))) > > +#define TRACEEVAL_ARRAY_SIZE(data) \ > + ((void *)(data) == NULL ? 0 : __TRACEEVAL_ARRAY_SIZE(data)) > + > /* Data type distinguishers */ > enum traceeval_data_type { > TRACEEVAL_TYPE_NONE, > @@ -191,7 +195,7 @@ struct traceeval; > #define traceeval_init(keys, vals) \ > traceeval_init_size(keys, vals, \ > TRACEEVAL_ARRAY_SIZE(keys), \ > - (void *)vals == NULL ? 0 : TRACEEVAL_ARRAY_SIZE(vals)) > + TRACEEVAL_ARRAY_SIZE(vals)) > > #define traceeval_init_size(keys, vals, nr_keys, nr_vals) \ > traceeval_init_data_size(keys, vals, nr_keys, nr_vals, \ > @@ -211,7 +215,7 @@ int traceeval_insert_size(struct traceeval *teval, > > #define traceeval_insert(teval, keys, vals) \ > traceeval_insert_size(teval, keys, TRACEEVAL_ARRAY_SIZE(keys), \ > - vals, (void *)vals == NULL ? 0 : TRACEEVAL_ARRAY_SIZE(vals)) > + vals, TRACEEVAL_ARRAY_SIZE(vals)) > > int traceeval_remove_size(struct traceeval *teval, > const struct traceeval_data *keys, size_t nr_keys); > -- > 2.40.1 >
On Wed, 11 Oct 2023 16:33:48 -0600 Ross Zwisler <zwisler@google.com> wrote: > On Thu, Oct 05, 2023 at 09:22:33PM -0400, Steven Rostedt wrote: > > From: "Steven Rostedt (Google)" <rostedt@goodmis.org> > > > > In the new addition to make sure that pointers passed to traceeval_init() > > and other functions that require a static array and not a dynamic one will > > cause the build to fail, this causes NULL pointers to fail the build too. > > > > Although keys must be filled, vals are allowed to be NULL. It was assumed > > that: > > > > (void *)vals == NULL ? TRACEEVAL_ARRAY_SIZE(vals)) > > > > Would solve this, but it gcc was actually still giving a warning about > > > > warning: division 'sizeof (void *) / sizeof (void)' does not compute the number of array elements > > > > But now it actually fails to build with the magic check. > > > > Change TRACEEVAL_ARRAY_SIZE() to handle NULL for both keys and vals, by > > not only having: > > > > #define TRACEEVAL_ARRAY_SIZE(data) \ > > ((void *)(data) == NULL ? 0 : __TRACEEVAL_ARRAY_SIZE(data)) > > > > But that is not enough, as gcc still evaluates the second part, and it > > will fail to build. To handle this, change that to: > > > > #define __TRACEEVAL_ARRAY_SIZE(data) \ > > ((sizeof(data) / (sizeof((data)[0])) + 0) + \ > > > > The above adds " + 0" to the "sizeof((data)[0])" which quiets the warning > > mentioned above (the addition of zero breaks the normal pattern of finding > > an array size). > > > > (int)(sizeof(struct { \ > > int:(-!!(__builtin_types_compatible_p(typeof(data), \ > > typeof(&((data)[0]))) && \ > > (void *)(data) != NULL)); \ > > > > Added "&& (void *)(data) != NULL" that makes the above return false (zero) > > for a static array and NULL, which is exactly what we want. > > Don't we already know it's not NULL because of the check in > TRACEEVAL_ARRAY_SIZE()? Or do we really need to check for NULL in both > macros? Unfortunately what happens is that the compiler still checks the above. So if we have just: (int)(sizeof(struct { \ int:(-!!(__builtin_types_compatible_p(typeof(data), \ typeof(&((data)[0]))))); Then the with NULL turns into: struct { int: -1; } and fails the compile because: __builtin_types_compatible_p(typeof(NULL), typeof(&((NULL)[0]))) Returns true. So if we pair that with (void *)(data) != NULL, it will then return false and turns into: struct { int: 0; } Which is valid. > > > > > }))) > > A few random parens in the changelog. :) > Yeah, the code had it too and I had to fix it. But didn't update the change log. :-p -- Steve
On Wed, Oct 11, 2023 at 07:14:06PM -0400, Steven Rostedt wrote: > On Wed, 11 Oct 2023 16:33:48 -0600 > Ross Zwisler <zwisler@google.com> wrote: > > > On Thu, Oct 05, 2023 at 09:22:33PM -0400, Steven Rostedt wrote: > > > From: "Steven Rostedt (Google)" <rostedt@goodmis.org> > > > > > > In the new addition to make sure that pointers passed to traceeval_init() > > > and other functions that require a static array and not a dynamic one will > > > cause the build to fail, this causes NULL pointers to fail the build too. > > > > > > Although keys must be filled, vals are allowed to be NULL. It was assumed > > > that: > > > > > > (void *)vals == NULL ? TRACEEVAL_ARRAY_SIZE(vals)) > > > > > > Would solve this, but it gcc was actually still giving a warning about > > > > > > warning: division 'sizeof (void *) / sizeof (void)' does not compute the number of array elements > > > > > > But now it actually fails to build with the magic check. > > > > > > Change TRACEEVAL_ARRAY_SIZE() to handle NULL for both keys and vals, by > > > not only having: > > > > > > #define TRACEEVAL_ARRAY_SIZE(data) \ > > > ((void *)(data) == NULL ? 0 : __TRACEEVAL_ARRAY_SIZE(data)) > > > > > > But that is not enough, as gcc still evaluates the second part, and it > > > will fail to build. To handle this, change that to: > > > > > > #define __TRACEEVAL_ARRAY_SIZE(data) \ > > > ((sizeof(data) / (sizeof((data)[0])) + 0) + \ > > > > > > The above adds " + 0" to the "sizeof((data)[0])" which quiets the warning > > > mentioned above (the addition of zero breaks the normal pattern of finding > > > an array size). > > > > > > (int)(sizeof(struct { \ > > > int:(-!!(__builtin_types_compatible_p(typeof(data), \ > > > typeof(&((data)[0]))) && \ > > > (void *)(data) != NULL)); \ > > > > > > Added "&& (void *)(data) != NULL" that makes the above return false (zero) > > > for a static array and NULL, which is exactly what we want. > > > > Don't we already know it's not NULL because of the check in > > TRACEEVAL_ARRAY_SIZE()? Or do we really need to check for NULL in both > > macros? > > Unfortunately what happens is that the compiler still checks the above. So > if we have just: > > (int)(sizeof(struct { \ > int:(-!!(__builtin_types_compatible_p(typeof(data), \ > typeof(&((data)[0]))))); > > > Then the with NULL turns into: > > struct { int: -1; } > > and fails the compile because: > > __builtin_types_compatible_p(typeof(NULL), typeof(&((NULL)[0]))) > > Returns true. > > So if we pair that with (void *)(data) != NULL, it will then return false > and turns into: > > struct { int: 0; } > > Which is valid. Sounds good. If you haven't landed this already you can add: Reviewed-by: Ross Zwisler <zwisler@google.com>
diff --git a/include/traceeval.h b/include/traceeval.h index bbf8f6ac7dd1..d8095ba5c1a1 100644 --- a/include/traceeval.h +++ b/include/traceeval.h @@ -29,13 +29,17 @@ * * struct traceeval_data keys[] = { ... }; */ -#define TRACEEVAL_ARRAY_SIZE(data) \ - ((sizeof(data) / sizeof((data)[0])) + \ +#define __TRACEEVAL_ARRAY_SIZE(data) \ + ((sizeof(data) / (sizeof((data)[0]) + 0)) + \ (int)(sizeof(struct { \ int:(-!!(__builtin_types_compatible_p(typeof(data), \ - typeof(&((data)[0]))))); \ + typeof(&((data)[0]))) && \ + (void *)(data) != NULL)); \ }))) +#define TRACEEVAL_ARRAY_SIZE(data) \ + ((void *)(data) == NULL ? 0 : __TRACEEVAL_ARRAY_SIZE(data)) + /* Data type distinguishers */ enum traceeval_data_type { TRACEEVAL_TYPE_NONE, @@ -191,7 +195,7 @@ struct traceeval; #define traceeval_init(keys, vals) \ traceeval_init_size(keys, vals, \ TRACEEVAL_ARRAY_SIZE(keys), \ - (void *)vals == NULL ? 0 : TRACEEVAL_ARRAY_SIZE(vals)) + TRACEEVAL_ARRAY_SIZE(vals)) #define traceeval_init_size(keys, vals, nr_keys, nr_vals) \ traceeval_init_data_size(keys, vals, nr_keys, nr_vals, \ @@ -211,7 +215,7 @@ int traceeval_insert_size(struct traceeval *teval, #define traceeval_insert(teval, keys, vals) \ traceeval_insert_size(teval, keys, TRACEEVAL_ARRAY_SIZE(keys), \ - vals, (void *)vals == NULL ? 0 : TRACEEVAL_ARRAY_SIZE(vals)) + vals, TRACEEVAL_ARRAY_SIZE(vals)) int traceeval_remove_size(struct traceeval *teval, const struct traceeval_data *keys, size_t nr_keys);