/***********************************************************************/ /* */ /* OCaml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../LICENSE. */ /* */ /***********************************************************************/ /* Basic system calls */ #include #include #include #include #include #include #include #include #include #if _WIN32 #include /* for isatty */ #else #include #endif #include "caml/config.h" #ifdef HAS_UNISTD #include #endif #ifdef HAS_TIMES #include #endif #ifdef HAS_GETRUSAGE #include #include #endif #ifdef HAS_GETTIMEOFDAY #include #endif #include "caml/alloc.h" #include "caml/debugger.h" #include "caml/fail.h" #include "caml/instruct.h" #include "caml/mlvalues.h" #include "caml/osdeps.h" #include "caml/signals.h" #include "caml/stacks.h" #include "caml/sys.h" #include "caml/gc_ctrl.h" #include "caml/io.h" static char * error_message(void) { return strerror(errno); } #ifndef EAGAIN #define EAGAIN (-1) #endif #ifndef EWOULDBLOCK #define EWOULDBLOCK (-1) #endif CAMLexport void caml_sys_error(value arg) { CAMLparam1 (arg); char * err; CAMLlocal1 (str); err = error_message(); if (arg == NO_ARG) { str = caml_copy_string(err); } else { int err_len = strlen(err); int arg_len = caml_string_length(arg); str = caml_alloc_string(arg_len + 2 + err_len); memmove(&Byte(str, 0), String_val(arg), arg_len); memmove(&Byte(str, arg_len), ": ", 2); memmove(&Byte(str, arg_len + 2), err, err_len); } caml_raise_sys_error(str); CAMLnoreturn; } CAMLexport void caml_sys_io_error(value arg) { if (errno == EAGAIN || errno == EWOULDBLOCK) { caml_raise_sys_blocked_io(); } else { caml_sys_error(arg); } } /* Check that [name] can safely be used as a file path */ static void caml_sys_check_path(value name) { if (! caml_string_is_c_safe(name)) { errno = ENOENT; caml_sys_error(name); } } CAMLprim value caml_sys_exit(value retcode) { if ((caml_verb_gc & 0x400) != 0) { /* cf caml_gc_counters */ double minwords = caml_stat_minor_words + (double) (caml_young_end - caml_young_ptr); double prowords = caml_stat_promoted_words; double majwords = caml_stat_major_words + (double) caml_allocated_words; double allocated_words = minwords + majwords - prowords; intnat mincoll = caml_stat_minor_collections; intnat majcoll = caml_stat_major_collections; intnat heap_words = caml_stat_heap_wsz; intnat heap_chunks = caml_stat_heap_chunks; intnat top_heap_words = caml_stat_top_heap_wsz; intnat cpct = caml_stat_compactions; caml_gc_message(0x400, "allocated_words: %ld\n", (long)allocated_words); caml_gc_message(0x400, "minor_words: %ld\n", (long) minwords); caml_gc_message(0x400, "promoted_words: %ld\n", (long) prowords); caml_gc_message(0x400, "major_words: %ld\n", (long) majwords); caml_gc_message(0x400, "minor_collections: %d\n", mincoll); caml_gc_message(0x400, "major_collections: %d\n", majcoll); caml_gc_message(0x400, "heap_words: %d\n", heap_words); caml_gc_message(0x400, "heap_chunks: %d\n", heap_chunks); caml_gc_message(0x400, "top_heap_words: %d\n", top_heap_words); caml_gc_message(0x400, "compactions: %d\n", cpct); } #ifndef NATIVE_CODE caml_debugger(PROGRAM_EXIT); #endif exit(Int_val(retcode)); return Val_unit; } #ifndef O_BINARY #define O_BINARY 0 #endif #ifndef O_TEXT #define O_TEXT 0 #endif #ifndef O_NONBLOCK #ifdef O_NDELAY #define O_NONBLOCK O_NDELAY #else #define O_NONBLOCK 0 #endif #endif static int sys_open_flags[] = { O_RDONLY, O_WRONLY, O_APPEND | O_WRONLY, O_CREAT, O_TRUNC, O_EXCL, O_BINARY, O_TEXT, O_NONBLOCK }; CAMLprim value caml_sys_open(value path, value vflags, value vperm) { CAMLparam3(path, vflags, vperm); int fd, flags, perm; char * p; caml_sys_check_path(path); p = caml_strdup(String_val(path)); flags = caml_convert_flag_list(vflags, sys_open_flags); perm = Int_val(vperm); /* open on a named FIFO can block (PR#1533) */ caml_enter_blocking_section(); fd = open(p, flags, perm); /* fcntl on a fd can block (PR#5069)*/ #if defined(F_SETFD) && defined(FD_CLOEXEC) if (fd != -1) fcntl(fd, F_SETFD, FD_CLOEXEC); #endif caml_leave_blocking_section(); caml_stat_free(p); if (fd == -1) caml_sys_error(path); CAMLreturn(Val_long(fd)); } CAMLprim value caml_sys_close(value fd) { caml_enter_blocking_section(); close(Int_val(fd)); caml_leave_blocking_section(); return Val_unit; } CAMLprim value caml_sys_file_exists(value name) { #ifdef _WIN32 struct _stati64 st; #else struct stat st; #endif char * p; int ret; if (! caml_string_is_c_safe(name)) return Val_false; p = caml_strdup(String_val(name)); caml_enter_blocking_section(); #ifdef _WIN32 ret = _stati64(p, &st); #else ret = stat(p, &st); #endif caml_leave_blocking_section(); caml_stat_free(p); return Val_bool(ret == 0); } CAMLprim value caml_sys_is_directory(value name) { CAMLparam1(name); #ifdef _WIN32 struct _stati64 st; #else struct stat st; #endif char * p; int ret; caml_sys_check_path(name); p = caml_strdup(String_val(name)); caml_enter_blocking_section(); #ifdef _WIN32 ret = _stati64(p, &st); #else ret = stat(p, &st); #endif caml_leave_blocking_section(); caml_stat_free(p); if (ret == -1) caml_sys_error(name); #ifdef S_ISDIR CAMLreturn(Val_bool(S_ISDIR(st.st_mode))); #else CAMLreturn(Val_bool(st.st_mode & S_IFDIR)); #endif } CAMLprim value caml_sys_remove(value name) { CAMLparam1(name); char * p; int ret; caml_sys_check_path(name); p = caml_strdup(String_val(name)); caml_enter_blocking_section(); ret = unlink(p); caml_leave_blocking_section(); caml_stat_free(p); if (ret != 0) caml_sys_error(name); CAMLreturn(Val_unit); } CAMLprim value caml_sys_rename(value oldname, value newname) { char * p_old; char * p_new; int ret; caml_sys_check_path(oldname); caml_sys_check_path(newname); p_old = caml_strdup(String_val(oldname)); p_new = caml_strdup(String_val(newname)); caml_enter_blocking_section(); ret = rename(p_old, p_new); caml_leave_blocking_section(); caml_stat_free(p_new); caml_stat_free(p_old); if (ret != 0) caml_sys_error(NO_ARG); return Val_unit; } CAMLprim value caml_sys_chdir(value dirname) { CAMLparam1(dirname); char * p; int ret; caml_sys_check_path(dirname); p = caml_strdup(String_val(dirname)); caml_enter_blocking_section(); ret = chdir(p); caml_leave_blocking_section(); caml_stat_free(p); if (ret != 0) caml_sys_error(dirname); CAMLreturn(Val_unit); } CAMLprim value caml_sys_getcwd(value unit) { char buff[4096]; #ifdef HAS_GETCWD if (getcwd(buff, sizeof(buff)) == 0) caml_sys_error(NO_ARG); #else if (getwd(buff) == 0) caml_sys_error(NO_ARG); #endif /* HAS_GETCWD */ return caml_copy_string(buff); } CAMLprim value caml_sys_getenv(value var) { char * res; if (! caml_string_is_c_safe(var)) caml_raise_not_found(); res = getenv(String_val(var)); if (res == 0) caml_raise_not_found(); return caml_copy_string(res); } char * caml_exe_name; char ** caml_main_argv; CAMLprim value caml_sys_get_argv(value unit) { CAMLparam0 (); /* unit is unused */ CAMLlocal3 (exe_name, argv, res); exe_name = caml_copy_string(caml_exe_name); argv = caml_copy_string_array((char const **) caml_main_argv); res = caml_alloc_small(2, 0); Field(res, 0) = exe_name; Field(res, 1) = argv; CAMLreturn(res); } void caml_sys_init(char * exe_name, char **argv) { caml_exe_name = exe_name; caml_main_argv = argv; } #ifdef _WIN32 #define WIFEXITED(status) 1 #define WEXITSTATUS(status) (status) #else #if !(defined(WIFEXITED) && defined(WEXITSTATUS)) /* Assume old-style V7 status word */ #define WIFEXITED(status) (((status) & 0xFF) == 0) #define WEXITSTATUS(status) (((status) >> 8) & 0xFF) #endif #endif CAMLprim value caml_sys_system_command(value command) { CAMLparam1 (command); int status, retcode; char *buf; if (! caml_string_is_c_safe (command)) { errno = EINVAL; caml_sys_error(command); } buf = caml_strdup(String_val(command)); caml_enter_blocking_section (); status = system(buf); caml_leave_blocking_section (); caml_stat_free(buf); if (status == -1) caml_sys_error(command); if (WIFEXITED(status)) retcode = WEXITSTATUS(status); else retcode = 255; CAMLreturn (Val_int(retcode)); } double caml_sys_time_unboxed(value unit) { #ifdef HAS_GETRUSAGE struct rusage ru; getrusage (RUSAGE_SELF, &ru); return ru.ru_utime.tv_sec + ru.ru_utime.tv_usec / 1e6 + ru.ru_stime.tv_sec + ru.ru_stime.tv_usec / 1e6; #else #ifdef HAS_TIMES #ifndef CLK_TCK #ifdef HZ #define CLK_TCK HZ #else #define CLK_TCK 60 #endif #endif struct tms t; times(&t); return (double)(t.tms_utime + t.tms_stime) / CLK_TCK; #else /* clock() is standard ANSI C */ return (double)clock() / CLOCKS_PER_SEC; #endif #endif } CAMLprim value caml_sys_time(value unit) { return caml_copy_double(caml_sys_time_unboxed(unit)); } #ifdef _WIN32 extern int caml_win32_random_seed (intnat data[16]); #endif CAMLprim value caml_sys_random_seed (value unit) { intnat data[16]; int n, i; value res; #ifdef _WIN32 n = caml_win32_random_seed(data); #else int fd; n = 0; /* Try /dev/urandom first */ fd = open("/dev/urandom", O_RDONLY, 0); if (fd != -1) { unsigned char buffer[12]; int nread = read(fd, buffer, 12); close(fd); while (nread > 0) data[n++] = buffer[--nread]; } /* If the read from /dev/urandom fully succeeded, we now have 96 bits of good random data and can stop here. Otherwise, complement whatever we got (probably nothing) with some not-very-random data. */ if (n < 12) { #ifdef HAS_GETTIMEOFDAY struct timeval tv; gettimeofday(&tv, NULL); data[n++] = tv.tv_usec; data[n++] = tv.tv_sec; #else data[n++] = time(NULL); #endif #ifdef HAS_UNISTD data[n++] = getpid(); data[n++] = getppid(); #endif } #endif /* Convert to an OCaml array of ints */ res = caml_alloc_small(n, 0); for (i = 0; i < n; i++) Field(res, i) = Val_long(data[i]); return res; } CAMLprim value caml_sys_const_big_endian(value unit) { #ifdef ARCH_BIG_ENDIAN return Val_true; #else return Val_false; #endif } /* returns a value that represents a number of bits */ CAMLprim value caml_sys_const_word_size(value unit) { return Val_long(8 * sizeof(value)); } /* returns a value that represents a number of bits */ CAMLprim value caml_sys_const_int_size(value unit) { return Val_long(8 * sizeof(value) - 1) ; } /* returns a value that represents a number of words */ CAMLprim value caml_sys_const_max_wosize(value unit) { return Val_long(Max_wosize) ; } CAMLprim value caml_sys_const_ostype_unix(value unit) { return Val_bool(0 == strcmp(OCAML_OS_TYPE,"Unix")); } CAMLprim value caml_sys_const_ostype_win32(value unit) { return Val_bool(0 == strcmp(OCAML_OS_TYPE,"Win32")); } CAMLprim value caml_sys_const_ostype_cygwin(value unit) { return Val_bool(0 == strcmp(OCAML_OS_TYPE,"Cygwin")); } CAMLprim value caml_sys_get_config(value unit) { CAMLparam0 (); /* unit is unused */ CAMLlocal2 (result, ostype); ostype = caml_copy_string(OCAML_OS_TYPE); result = caml_alloc_small (3, 0); Field(result, 0) = ostype; Field(result, 1) = Val_long (8 * sizeof(value)); #ifdef ARCH_BIG_ENDIAN Field(result, 2) = Val_true; #else Field(result, 2) = Val_false; #endif CAMLreturn (result); } CAMLprim value caml_sys_read_directory(value path) { CAMLparam1(path); CAMLlocal1(result); struct ext_table tbl; char * p; int ret; caml_sys_check_path(path); caml_ext_table_init(&tbl, 50); p = caml_strdup(String_val(path)); caml_enter_blocking_section(); ret = caml_read_directory(p, &tbl); caml_leave_blocking_section(); caml_stat_free(p); if (ret == -1){ caml_ext_table_free(&tbl, 1); caml_sys_error(path); } caml_ext_table_add(&tbl, NULL); result = caml_copy_string_array((char const **) tbl.contents); caml_ext_table_free(&tbl, 1); CAMLreturn(result); } /* Return true if the value is a filedescriptor (int) that is * (presumably) open on an interactive terminal */ CAMLprim value caml_sys_isatty(value chan) { int fd; value ret; fd = (Channel(chan))->fd; #ifdef _WIN32 ret = Val_bool(_isatty(fd)); /* https://msdn.microsoft.com/en-us/library/f4s0ddew.aspx */ #else ret = Val_bool(isatty(fd)); #endif return ret; }