/* * RTEMS Fake crt0 * * Each RTEMS BSP provides its own crt0 and linker script. Unfortunately * this means that crt0 and the linker script are not available as * each tool is configured. Without a crt0 and linker script, some * targets do not successfully link "conftest.c" during the configuration * process. So this fake crt0.c provides all the symbols required to * successfully link a program. The resulting program will not run * but this is enough to satisfy the autoconf macro AC_PROG_CC. */ #include #include /* sigset_t */ #include /* struct timespec */ #include /* isatty */ #include /* _Mutex_recursive_Control */ #include #include void rtems_provides_crt0( void ) {} /* dummy symbol so file always has one */ #define RTEMS_STUB(ret, func, body) \ ret rtems_stub_##func body; \ ret func body /* RTEMS provides some of its own routines including a Malloc family */ RTEMS_STUB(void *,malloc(size_t s), { return 0; }) RTEMS_STUB(void *,realloc(void* p, size_t s), { return 0; }) RTEMS_STUB(void, free(void* ptr), { }) RTEMS_STUB(_PTR, calloc(size_t s1, size_t s2), { return 0; }) RTEMS_STUB(int, posix_memalign(void **p, size_t si, size_t s2), { return -1; }) /* Stubs for routines from RTEMS */ RTEMS_STUB(void, _Mutex_Acquire(struct _Mutex_Control *p), { }) RTEMS_STUB(int, _Mutex_Acquire_timed(struct _Mutex_Control *p1, const struct timespec *p2), { return -1; }) RTEMS_STUB(int, _Mutex_Try_Acquire(struct _Mutex_Control *p), { return -1; }) RTEMS_STUB(void, _Mutex_Release(struct _Mutex_Control *p), { }) RTEMS_STUB(void, _Mutex_recursive_Acquire(struct _Mutex_recursive_Control *p), { }) RTEMS_STUB(int, _Mutex_recursive_Acquire_timed(struct _Mutex_recursive_Control *p1, const struct timespec *p2), { return -1; }) RTEMS_STUB(int, _Mutex_recursive_Try_acquire(struct _Mutex_recursive_Control *p), { return -1; }) RTEMS_STUB(void, _Mutex_recursive_Release(struct _Mutex_recursive_Control *p), { }) RTEMS_STUB(void, _Condition_Wait(struct _Condition_Control *p1, struct _Mutex_Control *p2), { }) RTEMS_STUB(int, _Condition_Wait_timed(struct _Condition_Control *p1, struct _Mutex_Control *p2, const struct timespec *p3), { return -1; }) RTEMS_STUB(void, _Condition_Wait_recursive(struct _Condition_Control *p1, struct _Mutex_recursive_Control *p2), { }) RTEMS_STUB(int, _Condition_Wait_recursive_timed(struct _Condition_Control *p1, struct _Mutex_recursive_Control *p2, const struct timespec *p3), { return -1; }) RTEMS_STUB(void, _Condition_Signal(struct _Condition_Control *p), { }) RTEMS_STUB(void, _Condition_Broadcast(struct _Condition_Control *p), { }) RTEMS_STUB(void, _Semaphore_Wait(struct _Semaphore_Control *p), { }) RTEMS_STUB(void, _Semaphore_Post(struct _Semaphore_Control *p), { }) RTEMS_STUB(int, _Futex_Wait(struct _Futex_Control *p1, int *p2, int i), { return -1; }) RTEMS_STUB(int, _Futex_Wake(struct _Futex_Control *p, int i), { return -1; }) RTEMS_STUB(int, _Sched_Count(void), { return -1; }) RTEMS_STUB(int, _Sched_Index(void), { return -1; }) RTEMS_STUB(int, _Sched_Name_to_index(const char *p, size_t s), { return -1; }) RTEMS_STUB(int, _Sched_Processor_count(int i), { return 1; }) /* Stubs for routines from RTEMS */ RTEMS_STUB(__uint32_t, _Libatomic_Protect_start(void *ptr), { return 0; }); RTEMS_STUB(void, _Libatomic_Protect_end(void *ptr, __uint32_t isr_level), { }); RTEMS_STUB(void, _Libatomic_Lock_n(void *ptr, __size_t n), { }); RTEMS_STUB(void, _Libatomic_Unlock_n(void *ptr, __size_t n), { }); /* Stubs for routines for arc4random (from and */ RTEMS_STUB(int, getentropy(void *ptr, __size_t n), { }); RTEMS_STUB(void, _arc4random_getentropy_fail(void), { }); #if defined(__GNUC__) /* * stubs for libstdc++ rtems-threads support functions from gcc/gthr-rtems.h */ int rtems_gxx_once() { return -1; } int rtems_gxx_key_create() { return -1; } int rtems_gxx_key_delete() { return -1; } void *rtems_gxx_getspecific() { return 0; } int rtems_gxx_setspecific() { return -1; } void rtems_gxx_mutex_init() { } int rtems_gxx_mutex_lock() { return -1; } int rtems_gxx_mutex_trylock() { return -1; } int rtems_gxx_mutex_unlock() { return -1; } void rtems_gxx_recursive_mutex_init() { } int rtems_gxx_recursive_mutex_lock() { return -1; } int rtems_gxx_recursive_mutex_trylock() { return -1; } int rtems_gxx_recursive_mutex_unlock() { return -1; } #endif /* stubs for functions RTEMS provides */ RTEMS_STUB(int, access(const char *pathname, int mode), { return -1; }) RTEMS_STUB(int, clock_gettime(clockid_t clk_id, struct timespec *tp), { return -1; }) RTEMS_STUB(int, close (int fd), { return -1; }) RTEMS_STUB(int, dup2(int oldfd, int newfd), { return -1; }) RTEMS_STUB(int, fcntl( int fd, int cmd, ... /* arg */ ), { return -1; }) RTEMS_STUB(pid_t, fork(void), { return -1; }) RTEMS_STUB(int, fstat(int fd, struct stat *buf), { return -1; }) RTEMS_STUB(int, getdents(int fd, void *dp, int count), { return -1; }) RTEMS_STUB(char *, getlogin(void), { return 0; }) RTEMS_STUB(int, gettimeofday(struct timeval *__restrict tv, struct timezone *__restrict tz), { return -1; }) RTEMS_STUB(struct passwd *, getpwnam(const char *name), { return 0; }) RTEMS_STUB(struct passwd *, getpwuid(uid_t uid), { return 0; }) RTEMS_STUB(uid_t, getuid(void), { return 0; }) RTEMS_STUB(int, nanosleep(const struct timespec *req, struct timespec *rem), { return -1; }) RTEMS_STUB(int, ftruncate(int fd, off_t length), { return -1; }) RTEMS_STUB(_off_t, lseek(int fd, _off_t offset, int whence), { return -1; }) RTEMS_STUB(int, lstat(const char *path, struct stat *buf), { return -1; }) RTEMS_STUB(int, open(const char *pathname, int flags, int mode), { return -1; }) RTEMS_STUB(int, pipe(int pipefd[2]), { return -1; }) RTEMS_STUB(_ssize_t, read(int fd, void *buf, size_t count), { return -1; }) RTEMS_STUB(int, sched_yield(void), { return -1; }) RTEMS_STUB(int, sigfillset(sigset_t *set), { return -1; }) RTEMS_STUB(int, sigprocmask(int how, const sigset_t *set, sigset_t *oldset), { return -1; }) RTEMS_STUB(int, stat(const char *path, struct stat *buf), { return -1; }) RTEMS_STUB(int, unlink(const char *pathname), { return -1; }) RTEMS_STUB(pid_t, vfork(void), { return -1; }) #if !defined(_NO_POPEN) && !defined(_NO_WORDEXP) /* pulled in by libc/sys/posix/popen.c and libc/sys/posix/word*.c */ RTEMS_STUB(int, waitpid (pid_t pid, int *status, int options), { return -1; }) #endif RTEMS_STUB(_ssize_t, write (int fd, const void *buf, size_t nbytes), { return -1; }) /* stubs for functions from reent.h */ RTEMS_STUB(int, _close_r (struct _reent *r, int fd), { return -1; }) #if defined(_NO_EXECVE) RTEMS_STUB(int, _execve_r (struct _reent *r, char *, char **, char **), { return -1; }) #endif RTEMS_STUB(int, _fcntl_r (struct _reent *ptr, int fd, int cmd, int arg ), { return -1; }) #if !(defined (REENTRANT_SYSCALLS_PROVIDED) || defined (NO_EXEC)) #ifndef NO_FORK /* cf. newlib/libc/reent/execr.c */ RTEMS_STUB(int, _fork_r (struct _reent *r), { return -1; }) #endif #endif RTEMS_STUB(int, _fstat_r (struct _reent *r, int fd, struct stat *buf), { return -1; }) RTEMS_STUB(uid_t, geteuid (), { return -1; }) RTEMS_STUB(gid_t, getgid (), { return -1; }) RTEMS_STUB(gid_t, _getgid_r (struct _reent *r), { return -1; }) RTEMS_STUB(pid_t, getpid (), { return -1; }) RTEMS_STUB(pid_t, getppid (), { return -1; }) RTEMS_STUB(pid_t, _getpid_r (struct _reent *r), { return -1; }) RTEMS_STUB(int, _gettimeofday_r(struct _reent *r, struct timeval *tp, void *tzp), { return 0; }) RTEMS_STUB(int, _isatty_r (struct _reent *r, int fd), { return isatty( fd ); }) RTEMS_STUB(int, _kill_r (struct _reent *r, int pid, int sig ), { return -1; }) #if !defined(REENTRANT_SYSCALLS_PROVIDED) /* cf. newlib/libc/reent/linkr.c */ RTEMS_STUB(int, _link_r (struct _reent *r, const char *oldpath, const char *newpath), { return -1; }) #endif RTEMS_STUB(_off_t, _lseek_r ( struct _reent *ptr, int fd, _off_t offset, int whence ), { return -1; }) RTEMS_STUB(int, _open_r (struct _reent *r, const char *buf, int flags, int mode), { return -1; }) RTEMS_STUB(_ssize_t, _read_r (struct _reent *r, int fd, void *buf, size_t nbytes), { return -1; }) RTEMS_STUB(int, _rename_r (struct _reent *r, const char *a, const char *b), { return -1; }) #if !(defined (REENTRANT_SYSCALLS_PROVIDED) || defined (MALLOC_PROVIDED)) /* cf. newlib/libc/reent/sbrkr.c */ RTEMS_STUB(void *,_sbrk_r (struct _reent *r, ptrdiff_t addr), { return 0; }) #endif RTEMS_STUB(int, _stat_r (struct _reent *r, const char *path, struct stat *buf), { return -1; }) RTEMS_STUB(_CLOCK_T_, _times_r (struct _reent *r, struct tms *ptms), { return -1; }) RTEMS_STUB(int, _unlink_r (struct _reent *r, const char *path), { return -1; }) #if !(defined (REENTRANT_SYSCALLS_PROVIDED) || defined (NO_EXEC)) /* cf. newlib/libc/reent/execr.c */ RTEMS_STUB(int, _wait_r (struct _reent *r, int *status), { return -1; }) #endif RTEMS_STUB(_ssize_t, _write_r (struct _reent *r, int fd, const void *buf, size_t nbytes), { return -1; }) RTEMS_STUB(int, _execve(const char *path, char * const *argv, char * const *envp), { return -1; }) RTEMS_STUB(void, _exit(int status), { while(1); }) /* Pulled in by newlib/libc/posix/glob.c */ #ifndef _NO_GLOB #ifndef __NETBSD_SYSCALLS RTEMS_STUB(int, issetugid (void), { return 0; }) #endif #endif /* stdlib.h */ RTEMS_STUB(_PTR, _realloc_r(struct _reent *r, _PTR p, size_t s), { return 0; }) RTEMS_STUB(_PTR, _calloc_r(struct _reent *r, size_t s1, size_t s2), { return 0; }) RTEMS_STUB(_PTR, _malloc_r(struct _reent * r, size_t s), { return 0; }) RTEMS_STUB(_VOID, _free_r(struct _reent *r, _PTR *p), { }) /* stubs for functions required by libc/stdlib */ RTEMS_STUB(void, __assert_func(const char *file, int line, const char *failedexpr), { }) #if defined(__arm__) RTEMS_STUB(void, __aeabi_read_tp(void), { }) RTEMS_STUB(void *, __tls_get_addr(const void *ti), { }) #endif /* The PowerPC expects certain symbols to be defined in the linker script. */ #if defined(__PPC__) int __SDATA_START__; int __SDATA2_START__; int __GOT_START__; int __GOT_END__; int __GOT2_START__; int __GOT2_END__; int __SBSS_END__; int __SBSS2_END__; int __FIXUP_START__; int __FIXUP_END__; int __EXCEPT_START__; int __EXCEPT_END__; int __init; int __fini; int __CTOR_LIST__; int __CTOR_END__; int __DTOR_LIST__; int __DTOR_END__; #endif /* The SH expects certain symbols to be defined in the linker script. */ #if defined(__sh__) int __EH_FRAME_BEGIN__; #endif #if defined(__AVR__) /* * Initial stack pointer address "__stack" * hard coded into GCC instead of providing it through ldscripts */ const char* __stack ; #endif