#include "factor.h" static void *null_dll; s64 current_millis(void) { struct timeval t; gettimeofday(&t,NULL); return (s64)t.tv_sec * 1000 + t.tv_usec/1000; } void init_ffi(void) { null_dll = dlopen(NULL,RTLD_LAZY); } void ffi_dlopen(DLL *dll, bool error) { void *dllptr = dlopen(to_char_string(untag_string(dll->path),true), RTLD_LAZY); if(dllptr == NULL) { if(error) { general_error(ERROR_FFI,F, tag_object(from_char_string(dlerror())),true); } else dll->dll = NULL; return; } dll->dll = dllptr; } void *ffi_dlsym(DLL *dll, F_STRING *symbol, bool error) { void *handle = (dll == NULL ? null_dll : dll->dll); void *sym = dlsym(handle,to_char_string(symbol,true)); if(sym == NULL) { if(error) { general_error(ERROR_FFI,tag_object(symbol), tag_object(from_char_string(dlerror())),true); } return NULL; } return sym; } void ffi_dlclose(DLL *dll) { if(dlclose(dll->dll)) { general_error(ERROR_FFI,tag_object( from_char_string(dlerror())),F,true); } dll->dll = NULL; } void primitive_stat(void) { struct stat sb; F_STRING* path; maybe_gc(0); path = untag_string(dpop()); if(stat(to_char_string(path,true),&sb) < 0) dpush(F); else { CELL dirp = tag_boolean(S_ISDIR(sb.st_mode)); CELL mode = tag_fixnum(sb.st_mode & ~S_IFMT); CELL size = tag_bignum(s48_long_long_to_bignum(sb.st_size)); CELL mtime = tag_integer(sb.st_mtime); dpush(make_array_4(dirp,mode,size,mtime)); } } void primitive_read_dir(void) { F_STRING *path; DIR* dir; F_ARRAY *result; CELL result_count = 0; maybe_gc(0); result = array(ARRAY_TYPE,100,F); path = untag_string(dpop()); dir = opendir(to_char_string(path,true)); if(dir != NULL) { struct dirent* file; while((file = readdir(dir)) != NULL) { CELL name = tag_object(from_char_string(file->d_name)); if(result_count == array_capacity(result)) { result = resize_array(result, result_count * 2,F); } put(AREF(result,result_count),name); result_count++; } closedir(dir); } result = resize_array(result,result_count,F); dpush(tag_object(result)); } void primitive_cwd(void) { char wd[MAXPATHLEN]; maybe_gc(0); if(getcwd(wd,MAXPATHLEN) == NULL) io_error(); box_char_string(wd); } void primitive_cd(void) { maybe_gc(0); chdir(unbox_char_string()); } BOUNDED_BLOCK *alloc_bounded_block(CELL size) { int pagesize = getpagesize(); char *array = mmap((void*)0,pagesize + size + pagesize, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_ANON | MAP_PRIVATE,-1,0); if(array == NULL) fatal_error("Cannot allocate memory region",0); if(mprotect(array,pagesize,PROT_NONE) == -1) fatal_error("Cannot protect low guard page",(CELL)array); if(mprotect(array + pagesize + size,pagesize,PROT_NONE) == -1) fatal_error("Cannot protect high guard page",(CELL)array); BOUNDED_BLOCK *retval = safe_malloc(sizeof(BOUNDED_BLOCK)); retval->start = (CELL)(array + pagesize); retval->size = size; return retval; } void dealloc_bounded_block(BOUNDED_BLOCK *block) { int pagesize = getpagesize(); int retval = munmap((void*)(block->start - pagesize), pagesize + block->size + pagesize); if(retval) fatal_error("Failed to unmap region",0); free(block); } void signal_handler(int signal, siginfo_t* siginfo, void* uap) { memory_protection_error(siginfo->si_addr, signal); } static void sigaction_safe(int signum, const struct sigaction *act, struct sigaction *oldact) { int ret; do { ret = sigaction(signum, act, oldact); } while(ret == -1 && errno == EINTR); } void unix_init_signals(void) { struct sigaction custom_sigaction; struct sigaction ign_sigaction; sigemptyset(&custom_sigaction.sa_mask); custom_sigaction.sa_sigaction = signal_handler; custom_sigaction.sa_flags = SA_SIGINFO; sigaction_safe(SIGABRT,&custom_sigaction,NULL); sigaction_safe(SIGFPE,&custom_sigaction,NULL); sigaction_safe(SIGBUS,&custom_sigaction,NULL); sigaction_safe(SIGQUIT,&custom_sigaction,NULL); sigaction_safe(SIGSEGV,&custom_sigaction,NULL); sigaction_safe(SIGILL,&custom_sigaction,NULL); sigemptyset(&ign_sigaction.sa_mask); ign_sigaction.sa_handler = SIG_IGN; sigaction_safe(SIGPIPE,&ign_sigaction,NULL); } void reset_stdio(void) { fcntl(0,F_SETFL,0); fcntl(1,F_SETFL,0); }