llvm-project/clang/test/SemaCXX/attr-x86-interrupt.cpp

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[X86] Support 'interrupt' attribute for x86 This attribute may be attached to a function definition and instructs the backend to generate appropriate function entry/exit code so that it can be used directly as an interrupt handler. The IRET instruction, instead of the RET instruction, is used to return from interrupt or exception handlers. All registers, except for the EFLAGS register which is restored by the IRET instruction, are preserved by the compiler. Any interruptible-without-stack-switch code must be compiled with -mno-red-zone since interrupt handlers can and will, because of the hardware design, touch the red zone. interrupt handler must be declared with a mandatory pointer argument: struct interrupt_frame; __attribute__ ((interrupt)) void f (struct interrupt_frame *frame) { ... } and user must properly define the structure the pointer pointing to. exception handler: The exception handler is very similar to the interrupt handler with a different mandatory function signature: #ifdef __x86_64__ typedef unsigned long long int uword_t; #else typedef unsigned int uword_t; #endif struct interrupt_frame; __attribute__ ((interrupt)) void f (struct interrupt_frame *frame, uword_t error_code) { ... } and compiler pops the error code off stack before the IRET instruction. The exception handler should only be used for exceptions which push an error code and all other exceptions must use the interrupt handler. The system will crash if the wrong handler is used. Differential Revision: http://reviews.llvm.org/D15709 llvm-svn: 257867
2016-01-15 12:06:31 +08:00
// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fsyntax-only -verify %s
// RUN: %clang_cc1 -triple i386-unknown-linux-gnu -fsyntax-only -verify %s
// RUN: %clang_cc1 -triple x86_64-pc-win32 -fsyntax-only -verify %s
// RUN: %clang_cc1 -triple i386-pc-win32 -fsyntax-only -verify %s
// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnux32 -fsyntax-only -verify %s
struct a {
int b;
static void foo(int *a) __attribute__((interrupt)) {}
void *operator new(__SIZE_TYPE__) throw() __attribute__((interrupt)) { return 0; } // expected-warning {{'interrupt' attribute only applies to non-K&R-style functions}}
};
struct a test __attribute__((interrupt)); // expected-warning {{'interrupt' attribute only applies to non-K&R-style functions}}
__attribute__((interrupt)) int foo1(void) { return 0; } // expected-error-re {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'void' return type}}
__attribute__((interrupt)) void foo2(void) {} // expected-error-re {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have only a pointer parameter optionally followed by an integer parameter}}
__attribute__((interrupt)) void foo3(void *a, unsigned b, int c) {} // expected-error-re {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have only a pointer parameter optionally followed by an integer parameter}}
__attribute__((interrupt)) void foo4(int a) {} // expected-error-re {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a pointer as the first parameter}}
#ifdef _LP64
// expected-error-re@+6 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long' type as the second parameter}}
#elif defined(__x86_64__)
// expected-error-re@+4 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long long' type as the second parameter}}
#else
// expected-error-re@+2 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned int' type as the second parameter}}
#endif
__attribute__((interrupt)) void foo5(void *a, float b) {}
#ifdef _LP64
// expected-error-re@+6 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long' type as the second parameter}}
#elif defined(__x86_64__)
// expected-error-re@+4 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long long' type as the second parameter}}
#else
// expected-error-re@+2 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned int' type as the second parameter}}
#endif
__attribute__((interrupt)) void foo6(float *a, int b) {}
#ifdef _LP64
// expected-error-re@+4 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long' type as the second parameter}}
#elif defined(__x86_64__)
// expected-error-re@+2 {{{{(x86|x86-64)}} 'interrupt' attribute only applies to functions that have a 'unsigned long long' type as the second parameter}}
#endif
__attribute__((interrupt)) void foo7(int *a, unsigned b) {}
__attribute__((interrupt)) void foo8(int *a) {}
template<typename T>
__attribute__((interrupt)) void foo9(T *a) {}
template <typename T>
void bar(T *a) {
foo9(a); // expected-error {{interrupt service routine cannot be called directly}}
}
template <typename Fn>
void bar1(Fn F) {
F(0);
}
__attribute__((interrupt)) void foo(int *) {}
void g(void (*fp)(int *));
int main(int argc, char **argv) {
void *ptr = (void *)&foo7;
g(foo8);
(void)ptr;
a::foo(ptr); // expected-error {{interrupt service routine cannot be called directly}}
bar1(foo);
#ifndef __x86_64__
// expected-error@+2 {{interrupt service routine cannot be called directly}}
#endif
foo7((int *)argv, argc);
foo8((int *)argv); // expected-error {{interrupt service routine cannot be called directly}}
bar(argv); // expected-note {{in instantiation of function template specialization 'bar<char *>' requested here}}
return 0;
}