ocaml/asmrun/startup.c

206 lines
6.6 KiB
C

/***********************************************************************/
/* */
/* OCaml */
/* */
/* Xavier Leroy and Damien Doligez, 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. */
/* */
/***********************************************************************/
/* Start-up code */
#include <stdio.h>
#include <stdlib.h>
#include "callback.h"
#include "backtrace.h"
#include "custom.h"
#include "debugger.h"
#include "fail.h"
#include "freelist.h"
#include "gc.h"
#include "gc_ctrl.h"
#include "intext.h"
#include "memory.h"
#include "misc.h"
#include "mlvalues.h"
#include "osdeps.h"
#include "printexc.h"
#include "stack.h"
#include "sys.h"
#ifdef HAS_UI
#include "ui.h"
#endif
extern int caml_parser_trace;
CAMLexport header_t caml_atom_table[256];
char * caml_code_area_start, * caml_code_area_end;
/* Initialize the atom table and the static data and code area limits. */
struct segment { char * begin; char * end; };
static void init_atoms(void)
{
extern struct segment caml_data_segments[], caml_code_segments[];
int i;
struct code_fragment * cf;
for (i = 0; i < 256; i++) {
caml_atom_table[i] = Make_header(0, i, Caml_white);
}
if (caml_page_table_add(In_static_data,
caml_atom_table, caml_atom_table + 256) != 0)
caml_fatal_error("Fatal error: not enough memory for initial page table");
for (i = 0; caml_data_segments[i].begin != 0; i++) {
/* PR#5509: we must include the zero word at end of data segment,
because pointers equal to caml_data_segments[i].end are static data. */
if (caml_page_table_add(In_static_data,
caml_data_segments[i].begin,
caml_data_segments[i].end + sizeof(value)) != 0)
caml_fatal_error("Fatal error: not enough memory for initial page table");
}
caml_code_area_start = caml_code_segments[0].begin;
caml_code_area_end = caml_code_segments[0].end;
for (i = 1; caml_code_segments[i].begin != 0; i++) {
if (caml_code_segments[i].begin < caml_code_area_start)
caml_code_area_start = caml_code_segments[i].begin;
if (caml_code_segments[i].end > caml_code_area_end)
caml_code_area_end = caml_code_segments[i].end;
}
/* Register the code in the table of code fragments */
cf = caml_stat_alloc(sizeof(struct code_fragment));
cf->code_start = caml_code_area_start;
cf->code_end = caml_code_area_end;
cf->digest_computed = 0;
caml_ext_table_init(&caml_code_fragments_table, 8);
caml_ext_table_add(&caml_code_fragments_table, cf);
}
/* Configuration parameters and flags */
static uintnat percent_free_init = Percent_free_def;
static uintnat max_percent_free_init = Max_percent_free_def;
static uintnat minor_heap_init = Minor_heap_def;
static uintnat heap_chunk_init = Heap_chunk_def;
static uintnat heap_size_init = Init_heap_def;
static uintnat max_stack_init = Max_stack_def;
/* Parse the CAMLRUNPARAM variable */
/* The option letter for each runtime option is the first letter of the
last word of the ML name of the option (see [stdlib/gc.mli]).
Except for l (maximum stack size) and h (initial heap size).
*/
/* Note: option l is irrelevant to the native-code runtime. */
/* If you change these functions, see also their copy in byterun/startup.c */
static void scanmult (char *opt, uintnat *var)
{
char mult = ' ';
int val;
sscanf (opt, "=%u%c", &val, &mult);
sscanf (opt, "=0x%x%c", &val, &mult);
switch (mult) {
case 'k': *var = (uintnat) val * 1024; break;
case 'M': *var = (uintnat) val * 1024 * 1024; break;
case 'G': *var = (uintnat) val * 1024 * 1024 * 1024; break;
default: *var = (uintnat) val; break;
}
}
static void parse_camlrunparam(void)
{
char *opt = getenv ("OCAMLRUNPARAM");
uintnat p;
if (opt == NULL) opt = getenv ("CAMLRUNPARAM");
if (opt != NULL){
while (*opt != '\0'){
switch (*opt++){
case 's': scanmult (opt, &minor_heap_init); break;
case 'i': scanmult (opt, &heap_chunk_init); break;
case 'h': scanmult (opt, &heap_size_init); break;
case 'l': scanmult (opt, &max_stack_init); break;
case 'o': scanmult (opt, &percent_free_init); break;
case 'O': scanmult (opt, &max_percent_free_init); break;
case 'v': scanmult (opt, &caml_verb_gc); break;
case 'b': caml_record_backtrace(Val_true); break;
case 'p': caml_parser_trace = 1; break;
case 'a': scanmult (opt, &p); caml_set_allocation_policy (p); break;
}
}
}
}
/* These are termination hooks used by the systhreads library */
struct longjmp_buffer caml_termination_jmpbuf;
void (*caml_termination_hook)(void *) = NULL;
extern value caml_start_program (void);
extern void caml_init_ieee_floats (void);
extern void caml_init_signals (void);
#ifdef _MSC_VER
/* PR 4887: avoid crash box of windows runtime on some system calls */
extern void caml_install_invalid_parameter_handler();
#endif
void caml_main(char **argv)
{
char * exe_name;
#ifdef __linux__
static char proc_self_exe[256];
#endif
value res;
char tos;
caml_init_ieee_floats();
#ifdef _MSC_VER
caml_install_invalid_parameter_handler();
#endif
caml_init_custom_operations();
#ifdef DEBUG
caml_verb_gc = 63;
#endif
caml_top_of_stack = &tos;
parse_camlrunparam();
caml_init_gc (minor_heap_init, heap_size_init, heap_chunk_init,
percent_free_init, max_percent_free_init);
init_atoms();
caml_init_signals();
caml_debugger_init (); /* force debugger.o stub to be linked */
exe_name = argv[0];
if (exe_name == NULL) exe_name = "";
#ifdef __linux__
if (caml_executable_name(proc_self_exe, sizeof(proc_self_exe)) == 0)
exe_name = proc_self_exe;
else
exe_name = caml_search_exe_in_path(exe_name);
#else
exe_name = caml_search_exe_in_path(exe_name);
#endif
caml_sys_init(exe_name, argv);
if (sigsetjmp(caml_termination_jmpbuf.buf, 0)) {
if (caml_termination_hook != NULL) caml_termination_hook(NULL);
return;
}
res = caml_start_program();
if (Is_exception_result(res))
caml_fatal_uncaught_exception(Extract_exception(res));
}
void caml_startup(char **argv)
{
caml_main(argv);
}