ocaml/asmrun/roots.c

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/***********************************************************************/
/* */
/* Objective Caml */
/* */
/* 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. */
/* */
/***********************************************************************/
/* $Id$ */
/* To walk the memory roots for garbage collection */
#include "finalise.h"
#include "globroots.h"
#include "memory.h"
#include "major_gc.h"
#include "minor_gc.h"
#include "misc.h"
#include "mlvalues.h"
#include "stack.h"
#include "roots.h"
/* Roots registered from C functions */
struct caml__roots_block *local_roots = NULL;
void (*scan_roots_hook) (scanning_action) = NULL;
/* The hashtable of frame descriptors */
typedef struct {
unsigned long retaddr;
short frame_size;
short num_live;
short live_ofs[1];
} frame_descr;
static frame_descr ** frame_descriptors = NULL;
static int frame_descriptors_mask;
#define Hash_retaddr(addr) \
(((unsigned long)(addr) >> 3) & frame_descriptors_mask)
static void init_frame_descriptors(void)
{
long num_descr, tblsize, i, j, len;
long * tbl;
frame_descr * d;
unsigned long h;
/* Count the frame descriptors */
num_descr = 0;
for (i = 0; caml_frametable[i] != 0; i++)
num_descr += *(caml_frametable[i]);
/* The size of the hashtable is a power of 2 greater or equal to
2 times the number of descriptors */
tblsize = 4;
while (tblsize < 2 * num_descr) tblsize *= 2;
/* Allocate the hash table */
frame_descriptors =
(frame_descr **) stat_alloc(tblsize * sizeof(frame_descr *));
for (i = 0; i < tblsize; i++) frame_descriptors[i] = NULL;
frame_descriptors_mask = tblsize - 1;
/* Fill the hash table */
for (i = 0; caml_frametable[i] != 0; i++) {
tbl = caml_frametable[i];
len = *tbl;
d = (frame_descr *)(tbl + 1);
for (j = 0; j < len; j++) {
h = Hash_retaddr(d->retaddr);
while (frame_descriptors[h] != NULL) {
h = (h+1) & frame_descriptors_mask;
}
frame_descriptors[h] = d;
d = (frame_descr *)
(((unsigned long)d +
sizeof(char *) + sizeof(short) + sizeof(short) +
sizeof(short) * d->num_live + sizeof(frame_descr *) - 1)
& -sizeof(frame_descr *));
}
}
}
/* Communication with [caml_start_program] and [caml_call_gc]. */
char * caml_bottom_of_stack = NULL; /* no stack initially */
unsigned long caml_last_return_address = 1; /* not in Caml code initially */
value * caml_gc_regs;
long caml_globals_inited = 0;
static long caml_globals_scanned = 0;
/* Call [oldify_one] on (at least) all the roots that point to the minor
heap. */
void oldify_local_roots (void)
{
char * sp;
unsigned long retaddr;
value * regs;
frame_descr * d;
unsigned long h;
int i, j, n, ofs;
short * p;
value glob;
value * root;
struct global_root * gr;
struct caml__roots_block *lr;
/* The global roots */
for (i = caml_globals_scanned;
i <= caml_globals_inited && caml_globals[i] != 0;
i++) {
glob = caml_globals[i];
for (j = 0; j < Wosize_val(glob); j++){
Oldify (&Field (glob, j));
}
}
caml_globals_scanned = caml_globals_inited;
/* The stack and local roots */
if (frame_descriptors == NULL) init_frame_descriptors();
sp = caml_bottom_of_stack;
retaddr = caml_last_return_address;
regs = caml_gc_regs;
if (sp != NULL) {
while (1) {
/* Find the descriptor corresponding to the return address */
h = Hash_retaddr(retaddr);
while(1) {
d = frame_descriptors[h];
if (d->retaddr == retaddr) break;
h = (h+1) & frame_descriptors_mask;
}
if (d->frame_size >= 0) {
/* Scan the roots in this frame */
for (p = d->live_ofs, n = d->num_live; n > 0; n--, p++) {
ofs = *p;
if (ofs & 1) {
root = regs + (ofs >> 1);
} else {
root = (value *)(sp + ofs);
}
Oldify (root);
}
/* Move to next frame */
#ifndef Stack_grows_upwards
sp += d->frame_size;
#else
sp -= d->frame_size;
#endif
retaddr = Saved_return_address(sp);
#ifdef Already_scanned
/* Stop here if the frame has been scanned during earlier GCs */
if (Already_scanned(sp, retaddr)) break;
/* Mark frame as already scanned */
Mark_scanned(sp, retaddr);
#endif
} else {
/* This marks the top of a stack chunk for an ML callback.
Skip C portion of stack and continue with next ML stack chunk. */
struct caml_context * next_context = Callback_link(sp);
sp = next_context->bottom_of_stack;
retaddr = next_context->last_retaddr;
regs = next_context->gc_regs;
/* A null sp means no more ML stack chunks; stop here. */
if (sp == NULL) break;
}
}
}
/* Local C roots */
for (lr = local_roots; lr != NULL; lr = lr->next) {
for (i = 0; i < lr->ntables; i++){
for (j = 0; j < lr->nitems; j++){
root = &(lr->tables[i][j]);
Oldify (root);
}
}
}
/* Global C roots */
for (gr = caml_global_roots.forward[0]; gr != NULL; gr = gr->forward[0]) {
Oldify (gr->root);
}
/* Finalised values */
final_do_young_roots (&oldify_one);
/* Hook */
if (scan_roots_hook != NULL) (*scan_roots_hook)(oldify_one);
}
/* Call [darken] on all roots */
void darken_all_roots (void)
{
do_roots (darken);
}
void do_roots (scanning_action f)
{
int i, j;
value glob;
struct global_root * gr;
/* The global roots */
for (i = 0; caml_globals[i] != 0; i++) {
glob = caml_globals[i];
for (j = 0; j < Wosize_val(glob); j++)
f (Field (glob, j), &Field (glob, j));
}
/* The stack and local roots */
if (frame_descriptors == NULL) init_frame_descriptors();
do_local_roots(f, caml_bottom_of_stack, caml_last_return_address,
caml_gc_regs, local_roots);
/* Global C roots */
for (gr = caml_global_roots.forward[0]; gr != NULL; gr = gr->forward[0]) {
f(*(gr->root), gr->root);
}
/* Finalised values */
final_do_strong_roots (f);
/* Hook */
if (scan_roots_hook != NULL) (*scan_roots_hook)(f);
}
void do_local_roots(scanning_action f, char * bottom_of_stack,
unsigned long last_retaddr, value * gc_regs,
struct caml__roots_block * local_roots)
{
char * sp;
unsigned long retaddr;
value * regs;
frame_descr * d;
unsigned long h;
int i, j, n, ofs;
short * p;
value * root;
struct caml__roots_block *lr;
sp = bottom_of_stack;
retaddr = last_retaddr;
regs = gc_regs;
if (sp != NULL) {
while (1) {
/* Find the descriptor corresponding to the return address */
h = Hash_retaddr(retaddr);
while(1) {
d = frame_descriptors[h];
if (d->retaddr == retaddr) break;
h = (h+1) & frame_descriptors_mask;
}
if (d->frame_size >= 0) {
/* Scan the roots in this frame */
for (p = d->live_ofs, n = d->num_live; n > 0; n--, p++) {
ofs = *p;
if (ofs & 1) {
root = regs + (ofs >> 1);
} else {
root = (value *)(sp + ofs);
}
f (*root, root);
}
/* Move to next frame */
#ifndef Stack_grows_upwards
sp += d->frame_size;
#else
sp -= d->frame_size;
#endif
retaddr = Saved_return_address(sp);
#ifdef Mask_already_scanned
retaddr = Mask_already_scanned(retaddr);
#endif
} else {
/* This marks the top of a stack chunk for an ML callback.
Skip C portion of stack and continue with next ML stack chunk. */
struct caml_context * next_context = Callback_link(sp);
sp = next_context->bottom_of_stack;
retaddr = next_context->last_retaddr;
regs = next_context->gc_regs;
/* A null sp means no more ML stack chunks; stop here. */
if (sp == NULL) break;
}
}
}
/* Local C roots */
for (lr = local_roots; lr != NULL; lr = lr->next) {
for (i = 0; i < lr->ntables; i++){
for (j = 0; j < lr->nitems; j++){
root = &(lr->tables[i][j]);
f (*root, root);
}
}
}
}