Clang 16 will be available with Red Hat Enterprise Linux (RHEL) 8.9 and 9.3. Like Clang 15, it comes with some new warnings and errors enabled by default that more strictly enforce language standards and help prevent bugs.
Wimplicit-function-declaration
Starting with Clang 16, implicit function definitions will be considered an error instead of a warning. The C99 standard dropped support for implicit function definitions, but many compilers continued to accept them for backward compatibility.
Implicit function definitions are usually caused by a programmer forgetting to include a necessary header in a C file, or forgetting to add a function prototype when implementing a new function. They can be dangerous and lead to subtle bugs or even security issues, because without a prototype, the compiler will accept any number of arguments of any type passed to the function. Passing too many arguments or arguments that are too large can override the stack and cause the program to crash or give an attacker the opportunity to insert malicious code.
$ cat implicit-function.c int main(int argc, char **argv) { implicit_function(); } $ clang-15 -c implicit-function.c test.c:2:3: warning: call to undeclared function 'implicit_function'; ISO C99 and later do not support implicit function declarations [-Wimplicit-function-declaration] $ clang-16 -c implicit-function.c test.c:2:3: error: call to undeclared function 'implicit_function'; ISO C99 and later do not support implicit function declarations [-Wimplicit-function-declaration]
Wimplicit-int
This is another warning that was upgraded to an error in Clang 16. Prior to C99, functions without a return type were assumed to return int. C99 dropped support for this feature, but just like with implicit function definitions, compilers continued to accept this as valid C code until now.
$ cat implicit-int.c main (int argc, char **argv) { return 0; } $ clang-15 -c implicit-int.c implicit-int.c:1:1: warning: type specifier missing, defaults to 'int'; ISO C99 and later do not support implicit int [-Wimplicit-int] $ clang-16 -c implicit-int.c implicit-int.c:1:1: error: type specifier missing, defaults to 'int'; ISO C99 and later do not support implicit int [-Wimplicit-int]
Wincompatible-function-pointer-types
This warning was also upgraded to an error by default in Clang 16. It is able to detect when you use the wrong function type when initializing a function variable or passing a function as an argument to another function.
$ cat ifpt.c int callback(int a, int b) { return a + b; } int do_something(int (*callback)(int)) { return callback(5); } int main (int argc, char **argv) { do_something(callback); } $ clang-15 -c ifpt.c ifpt.c:10:18: warning: incompatible function pointer types passing 'int (int, int)' to parameter of type 'int (*)(int)' [-Wincompatible-function-pointer-types] $ clang-16 -c ifpt.c ifpt.c:10:18: error: incompatible function pointer types passing 'int (int, int)' to parameter of type 'int (*)(int)' [-Wincompatible-function-pointer-types]
Wcast-function-type-strict and Wincompatible-function-pointer-types-strict
These warnings were added to Clang 16 and are intended to help avoid false positives when using Control Flow Integrity (CFI). CFI is a security feature that prevents certain types of exploits by adding some extra checks around function calls. For more details about how to use CFI, please refer to this blog post.
These warnings are "strict" versions of existing warnings that handle a few extra cases that are relevant to CFI. For example, -Wincompatible-function-pointer-types-strict
, will warn about enum and int mismatches even in cases where the enum is the same size as an int.
These warnings are not enabled by default, so if you want to use them, you need to explicitly pass these options to the compiler. It is also a good idea to promote them to errors using the -Werror= flag
to ensure that you don't introduce false positives into your program.
$ cat cfi.c enum cfi_enum { A = -1, B = 0 }; int callback(int a) { return a; } int do_something(int (*callback)(enum cfi_enum)) { return callback(5); } int main (int argc, char **argv) { do_something(callback); } $ clang -fsanitize=cfi -flto -fvisibility=hidden cfi.c -o cfi $ ./cfi Illegal instruction (core dumped)
Our application failed because we passed the wrong function type to do_something(). Notice that -Wincompatible-function-pointer-types
did not catch this case and we need to use the strict variant if we want to be compatible with CFI.
$ clang -Werror=incompatible-function-pointer-types-strict -fsanitize=cfi -flto -fvisibility=hidden cfi.c -o cfi cfi.c:15:18: error: incompatible function pointer types passing 'int (int)' to parameter of type 'int (*)(enum cfi_enum)' [-Werror,-Wincompatible-function-pointer-types-strict]
Disabling warnings
While these changes to warnings and errors are designed to help improve your application, you may encounter situations where it’s not possible or you don't have time to fix some of these new errors. In these cases, you can work around the problem by disabling or downgrading the error to a warning.
To downgrade an error to a warning, use the -Wno-error=
option like this:
$ clang -Wno-error=implicit-function-declaration -c implicit-function.c implicit-function.c:1:37: warning: call to undeclared function 'implicit_function'; ISO C99 and later do not support implicit function declarations [-Wimplicit-function-declaration] int main(int argc, char **argv) { implicit_function(); }
To disable an error or warning completely, use the -Wno option:
$ clang -Wno-implicit-function-declaration -c implicit-function.c
Try it out
You don't need to wait until the next RHEL release to try out these new compiler features. Clang-16 builds are available today in the CentOS Stream repositories. If you are a C developer, give Clang-16 a try with your applications. These new warnings and errors can help you catch bugs and ensure that your applications comply with the modern C standards.
À propos de l'auteur
Parcourir par canal
Automatisation
Les dernières nouveautés en matière d'automatisation informatique pour les technologies, les équipes et les environnements
Intelligence artificielle
Actualité sur les plateformes qui permettent aux clients d'exécuter des charges de travail d'IA sur tout type d'environnement
Cloud hybride ouvert
Découvrez comment créer un avenir flexible grâce au cloud hybride
Sécurité
Les dernières actualités sur la façon dont nous réduisons les risques dans tous les environnements et technologies
Edge computing
Actualité sur les plateformes qui simplifient les opérations en périphérie
Infrastructure
Les dernières nouveautés sur la plateforme Linux d'entreprise leader au monde
Applications
À l’intérieur de nos solutions aux défis d’application les plus difficiles
Programmes originaux
Histoires passionnantes de créateurs et de leaders de technologies d'entreprise
Produits
- Red Hat Enterprise Linux
- Red Hat OpenShift
- Red Hat Ansible Automation Platform
- Services cloud
- Voir tous les produits
Outils
- Formation et certification
- Mon compte
- Assistance client
- Ressources développeurs
- Rechercher un partenaire
- Red Hat Ecosystem Catalog
- Calculateur de valeur Red Hat
- Documentation
Essayer, acheter et vendre
Communication
- Contacter le service commercial
- Contactez notre service clientèle
- Contacter le service de formation
- Réseaux sociaux
À propos de Red Hat
Premier éditeur mondial de solutions Open Source pour les entreprises, nous fournissons des technologies Linux, cloud, de conteneurs et Kubernetes. Nous proposons des solutions stables qui aident les entreprises à jongler avec les divers environnements et plateformes, du cœur du datacenter à la périphérie du réseau.
Sélectionner une langue
Red Hat legal and privacy links
- À propos de Red Hat
- Carrières
- Événements
- Bureaux
- Contacter Red Hat
- Lire le blog Red Hat
- Diversité, équité et inclusion
- Cool Stuff Store
- Red Hat Summit