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|
/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#include "sci/engine/seg_manager.h"
#include "sci/include/sciresource.h"
#include "sci/include/versions.h"
#include "sci/include/engine.h"
//#define GC_DEBUG*/ // Debug garbage collection
//#define GC_DEBUG_VERBOSE*/ // Debug garbage verbosely
#define SM_MEMORY_POISON // Poison memory upon deallocation
mem_obj_t* mem_obj_allocate(seg_manager_t *self, seg_id_t segid, int hash_id, mem_obj_enum type);
#undef DEBUG_SEG_MANAGER // Define to turn on debugging
#define GET_SEGID() \
if (flag == SCRIPT_ID) \
id = sm_seg_get (self, id); \
VERIFY(sm_check(self, id), "invalid seg id");
#define VERIFY_MEM(mem_ptr, ret) \
if (!(mem_ptr)) {\
sciprintf( "%s, *d, no enough memory", __FILE__, __LINE__ ); \
return ret; \
}
#define INVALID_SCRIPT_ID -1
void dbg_print(const char* msg, void *i) {
#ifdef DEBUG_SEG_MANAGER
char buf[1000];
sprintf(buf, "%s = [0x%x], dec:[%d]", msg, i, i);
perror(buf);
#endif
}
//-- forward declarations --
void sm_script_initialise_locals_zero(seg_manager_t *self, seg_id_t seg, int count);
void sm_script_initialise_locals(seg_manager_t *self, reg_t location);
static int _sm_deallocate(seg_manager_t* self, int seg, int recursive);
static hunk_t *sm_alloc_hunk(seg_manager_t *self, reg_t *);
static void sm_free_hunk(seg_manager_t *self, reg_t addr);
static int sm_check(seg_manager_t* self, int seg);
/* Check segment validity
** Parameters: (int) seg: The segment to validate
** Returns : (int) 0 if 'seg' is an invalid segment
** 1 if 'seg' is a valid segment
*/
// End of Memory Management
static inline int find_free_id(seg_manager_t *self, int *id) {
char was_added = 0;
int retval = 0;
while (!was_added) {
retval = self->id_seg_map->check_value(self->reserved_id, true, &was_added);
*id = self->reserved_id--;
if (self->reserved_id < -1000000)
self->reserved_id = -10;
// Make sure we don't underflow
}
return retval;
}
static mem_obj_t * alloc_nonscript_segment(seg_manager_t *self, mem_obj_enum type, seg_id_t *segid) {
// Allocates a non-script segment
int id;
*segid = find_free_id(self, &id);
return mem_obj_allocate(self, *segid, id, type);
}
void sm_init(seg_manager_t* self, int sci1_1) {
int i;
self->mem_allocated = 0; // Initialise memory count
self->id_seg_map = new int_hash_map_t();
self->reserved_id = INVALID_SCRIPT_ID;
self->id_seg_map->check_value(self->reserved_id, true); // reserve 0 for seg_id
self->reserved_id--; // reserved_id runs in the reversed direction to make sure no one will use it.
self->heap_size = DEFAULT_SCRIPTS;
self->heap = (mem_obj_t**)sci_calloc(self->heap_size, sizeof(mem_obj_t *));
self->clones_seg_id = 0;
self->lists_seg_id = 0;
self->nodes_seg_id = 0;
self->hunks_seg_id = 0;
self->exports_wide = 0;
self->sci1_1 = sci1_1;
// initialize the heap pointers
for (i = 0; i < self->heap_size; i++) {
self->heap[i] = NULL;
}
// gc initialisation
self->gc_mark_bits = 0;
}
// destroy the object, free the memorys if allocated before
void sm_destroy(seg_manager_t* self) {
int i;
// free memory
for (i = 0; i < self->heap_size; i++) {
if (self->heap[i])
_sm_deallocate(self, i, 0);
}
delete self->id_seg_map;
free(self->heap);
self->heap = NULL;
}
// allocate a memory for script from heap
// Parameters: (state_t *) s: The state to operate on
// (int) script_nr: The script number to load
// Returns : 0 - allocation failure
// 1 - allocated successfully
// seg_id - allocated segment id
mem_obj_t* sm_allocate_script(seg_manager_t* self, struct _state *s, int script_nr, int* seg_id) {
int seg;
char was_added;
mem_obj_t* mem;
seg = self->id_seg_map->check_value(script_nr, true, &was_added);
if (!was_added) {
*seg_id = seg;
return self->heap[*seg_id];
}
// allocate the mem_obj_t
mem = mem_obj_allocate(self, seg, script_nr, MEM_OBJ_SCRIPT);
if (!mem) {
sciprintf("%s, %d, Not enough memory, ", __FILE__, __LINE__);
return NULL;
}
*seg_id = seg;
return mem;
}
static void sm_set_script_size(mem_obj_t *mem, struct _state *s, int script_nr) {
resource_t *script = scir_find_resource(s->resmgr, sci_script, script_nr, 0);
resource_t *heap = scir_find_resource(s->resmgr, sci_heap, script_nr, 0);
mem->data.script.script_size = script->size;
mem->data.script.heap_size = 0; // Set later
if (!script || (s->version >= SCI_VERSION(1, 001, 000) && !heap)) {
sciprintf("%s: failed to load %s\n", __FUNCTION__, !script ? "script" : "heap");
return;
}
if (s->version < SCI_VERSION_FTU_NEW_SCRIPT_HEADER) {
mem->data.script.buf_size = script->size + getUInt16(script->data) * 2;
//locals_size = getUInt16(script->data) * 2;
} else if (s->version < SCI_VERSION(1, 001, 000)) {
mem->data.script.buf_size = script->size;
} else {
mem->data.script.buf_size = script->size + heap->size;
mem->data.script.heap_size = heap->size;
// Ensure that the start of the heap resource can be word-aligned.
if (script->size & 2) {
mem->data.script.buf_size++;
mem->data.script.script_size++;
}
if (mem->data.script.buf_size > 65535) {
sciprintf("Script and heap sizes combined exceed 64K.\n"
"This means a fundamental design bug was made in FreeSCI\n"
"regarding SCI1.1 games.\nPlease report this so it can be"
"fixed in the next major version");
return;
}
}
}
int sm_initialise_script(mem_obj_t *mem, struct _state *s, int script_nr) {
// allocate the script.buf
script_t *scr;
sm_set_script_size(mem, s, script_nr);
mem->data.script.buf = (byte*) sci_malloc(mem->data.script.buf_size);
dbg_print("mem->data.script.buf ", mem->data.script.buf);
if (!mem->data.script.buf) {
sm_free_script(mem);
sciprintf("seg_manager.c: Not enough memory space for script size");
mem->data.script.buf_size = 0;
return 0;
}
// Initialize objects
scr = &(mem->data.script);
scr->objects = NULL;
scr->objects_allocated = 0;
scr->objects_nr = 0; // No objects recorded yet
scr->locals_offset = 0;
scr->locals_block = NULL;
scr->code = NULL;
scr->code_blocks_nr = 0;
scr->code_blocks_allocated = 0;
scr->nr = script_nr;
scr->marked_as_deleted = 0;
scr->relocated = 0;
scr->obj_indices = new int_hash_map_t();
if (s->version >= SCI_VERSION(1, 001, 000))
scr->heap_start = scr->buf + scr->script_size;
else
scr->heap_start = scr->buf;
return 1;
}
int _sm_deallocate(seg_manager_t* self, int seg, int recursive) {
mem_obj_t *mobj;
VERIFY(sm_check(self, seg), "invalid seg id");
mobj = self->heap[seg];
self->id_seg_map->remove_value(mobj->segmgr_id);
switch (mobj->type) {
case MEM_OBJ_SCRIPT:
sm_free_script(mobj);
mobj->data.script.buf = NULL;
if (recursive && mobj->data.script.locals_segment)
_sm_deallocate(self, mobj->data.script.locals_segment, recursive);
break;
case MEM_OBJ_LOCALS:
free(mobj->data.locals.locals);
mobj->data.locals.locals = NULL;
break;
case MEM_OBJ_DYNMEM:
if (mobj->data.dynmem.buf)
free(mobj->data.dynmem.buf);
mobj->data.dynmem.buf = NULL;
break;
case MEM_OBJ_SYS_STRINGS:
sys_string_free_all(&(mobj->data.sys_strings));
break;
case MEM_OBJ_STACK:
free(mobj->data.stack.entries);
mobj->data.stack.entries = NULL;
break;
case MEM_OBJ_LISTS:
free(mobj->data.lists.table);
mobj->data.lists.table = NULL;
mobj->data.lists.entries_nr = mobj->data.lists.max_entry = 0;
break;
case MEM_OBJ_NODES:
free(mobj->data.nodes.table);
mobj->data.nodes.table = NULL;
mobj->data.nodes.entries_nr = mobj->data.nodes.max_entry = 0;
break;
case MEM_OBJ_CLONES:
free(mobj->data.clones.table);
mobj->data.clones.table = NULL;
mobj->data.clones.entries_nr = mobj->data.clones.max_entry = 0;
break;
case MEM_OBJ_HUNK:
free(mobj->data.hunks.table);
mobj->data.hunks.table = NULL;
mobj->data.hunks.entries_nr = mobj->data.hunks.max_entry = 0;
break;
case MEM_OBJ_RESERVED:
free(mobj->data.reserved);
break;
default:
error("Deallocating segment type %d not supported", mobj->type);
BREAKPOINT();
}
free(mobj);
self->heap[seg] = NULL;
return 1;
}
int sm_script_marked_deleted(seg_manager_t* self, int script_nr) {
script_t *scr;
int seg = sm_seg_get(self, script_nr);
VERIFY(sm_check(self, seg), "invalid seg id");
scr = &(self->heap[seg]->data.script);
return scr->marked_as_deleted;
}
void sm_mark_script_deleted(seg_manager_t* self, int script_nr) {
script_t *scr;
int seg = sm_seg_get(self, script_nr);
VERIFY(sm_check(self, seg), "invalid seg id");
scr = &(self->heap[seg]->data.script);
scr->marked_as_deleted = 1;
}
void sm_unmark_script_deleted(seg_manager_t* self, int script_nr) {
script_t *scr;
int seg = sm_seg_get(self, script_nr);
VERIFY(sm_check(self, seg), "invalid seg id");
scr = &(self->heap[seg]->data.script);
scr->marked_as_deleted = 0;
}
int sm_script_is_marked_as_deleted(seg_manager_t* self, seg_id_t seg) {
script_t *scr;
if (!sm_check(self, seg))
return 0;
if (self->heap[seg]->type != MEM_OBJ_SCRIPT)
return 0;
scr = &(self->heap[seg]->data.script);
return scr->marked_as_deleted;
}
int sm_deallocate_script(seg_manager_t* self, int script_nr) {
int seg = sm_seg_get(self, script_nr);
_sm_deallocate(self, seg, 1);
return 1;
}
mem_obj_t* mem_obj_allocate(seg_manager_t *self, seg_id_t segid, int hash_id, mem_obj_enum type) {
mem_obj_t* mem = (mem_obj_t*) sci_calloc(sizeof(mem_obj_t), 1);
if (!mem) {
sciprintf("seg_manager.c: invalid mem_obj ");
return NULL;
}
if (segid >= self->heap_size) {
void *temp;
int oldhs = self->heap_size;
if (segid >= self->heap_size * 2) {
sciprintf("seg_manager.c: hash_map error or others??");
return NULL;
}
self->heap_size *= 2;
temp = sci_realloc((void*)self->heap, self->heap_size * sizeof(mem_obj_t*));
if (!temp) {
sciprintf("seg_manager.c: Not enough memory space for script size");
return NULL;
}
self->heap = (mem_obj_t**) temp;
// Clear pointers
memset(self->heap + oldhs, 0, sizeof(mem_obj_t *) * (self->heap_size - oldhs));
}
mem->segmgr_id = hash_id;
mem->type = type;
// hook it to the heap
self->heap[segid] = mem;
return mem;
}
/* No longer in use?
void sm_object_init(object_t *object) {
if (!object)
return;
object->variables_nr = 0;
object->variables = NULL;
};*/
void sm_free_script(mem_obj_t *mem) {
if (!mem)
return;
if (mem->data.script.buf) {
free(mem->data.script.buf);
mem->data.script.buf = NULL;
mem->data.script.buf_size = 0;
}
if (mem->data.script.objects) {
int i;
for (i = 0; i < mem->data.script.objects_nr; i++) {
object_t* object = &mem->data.script.objects[i];
if (object->variables) {
free(object->variables);
object->variables = NULL;
object->variables_nr = 0;
}
}
free(mem->data.script.objects);
mem->data.script.objects = NULL;
mem->data.script.objects_nr = 0;
}
delete mem->data.script.obj_indices;
if (NULL != mem->data.script.code) {
free(mem->data.script.code);
}
}
// memory operations
#if 0
// Unreferenced - removed
static void sm_mset(seg_manager_t *self, int offset, int c, size_t n, int id, int flag) {
mem_obj_t *mem_obj;
GET_SEGID();
mem_obj = self->heap[id];
switch (mem_obj->type) {
case MEM_OBJ_SCRIPT:
if (mem_obj->data.script.buf) {
memset(mem_obj->data.script.buf + offset, c, n);
}
break;
case MEM_OBJ_CLONES:
sciprintf("memset for clones haven't been implemented\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
}
#endif
#if 0
// Unreferenced - removed
static void sm_mcpy_in_in(seg_manager_t *self, int dst, const int src, size_t n, int id, int flag) {
mem_obj_t *mem_obj;
GET_SEGID();
mem_obj = self->heap[id];
switch (mem_obj->type) {
case MEM_OBJ_SCRIPT:
if (mem_obj->data.script.buf) {
memcpy(mem_obj->data.script.buf + dst, mem_obj->data.script.buf + src, n);
}
break;
case MEM_OBJ_CLONES:
sciprintf("memcpy for clones haven't been implemented\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
}
#endif
void sm_mcpy_in_out(seg_manager_t *self, int dst, const void *src, size_t n, int id, int flag) {
mem_obj_t *mem_obj;
GET_SEGID();
mem_obj = self->heap[id];
switch (mem_obj->type) {
case MEM_OBJ_SCRIPT:
if (mem_obj->data.script.buf) {
memcpy(mem_obj->data.script.buf + dst, src, n);
}
break;
case MEM_OBJ_CLONES:
sciprintf("memcpy for clones hasn't been implemented yet\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
}
#if 0
// Unreferenced - removed
static void sm_mcpy_out_in(seg_manager_t *self, void *dst, const int src, size_t n, int id, int flag) {
mem_obj_t *mem_obj;
GET_SEGID();
mem_obj = self->heap[id];
switch (mem_obj->type) {
case MEM_OBJ_SCRIPT:
if (mem_obj->data.script.buf) {
memcpy(dst, mem_obj->data.script.buf + src, n);
}
break;
case MEM_OBJ_CLONES:
sciprintf("memcpy for clones hasn't been implemented yet\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
}
#endif
gint16 sm_get_heap(seg_manager_t *self, reg_t reg) {
mem_obj_t *mem_obj;
mem_obj_enum mem_type;
VERIFY(sm_check(self, reg.segment), "Invalid seg id");
mem_obj = self->heap[reg.segment];
mem_type = mem_obj->type;
switch (mem_type) {
case MEM_OBJ_SCRIPT:
VERIFY(reg.offset + 1 < (guint16)mem_obj->data.script.buf_size, "invalid offset\n");
return (mem_obj->data.script.buf[reg.offset] | (mem_obj->data.script.buf[reg.offset+1]) << 8);
case MEM_OBJ_CLONES:
sciprintf("memcpy for clones hasn't been implemented yet\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
return 0; // never get here
}
void sm_put_heap(seg_manager_t *self, reg_t reg, gint16 value) {
mem_obj_t *mem_obj;
mem_obj_enum mem_type;
VERIFY(sm_check(self, reg.segment), "Invalid seg id");
mem_obj = self->heap[reg.segment];
mem_type = mem_obj->type;
switch (mem_type) {
case MEM_OBJ_SCRIPT:
VERIFY(reg.offset + 1 < (guint16)mem_obj->data.script.buf_size, "invalid offset");
mem_obj->data.script.buf[reg.offset] = value & 0xff;
mem_obj->data.script.buf[reg.offset + 1] = value >> 8;
break;
case MEM_OBJ_CLONES:
sciprintf("memcpy for clones haven't been implemented\n");
break;
default:
sciprintf("unknown mem obj type\n");
break;
}
}
// return the seg if script_id is valid and in the map, else -1
int sm_seg_get(seg_manager_t *self, int script_id) {
return self->id_seg_map->check_value(script_id, false);
}
// validate the seg
// return:
// 0 - invalid seg
// 1 - valid seg
static int sm_check(seg_manager_t *self, int seg) {
if (seg < 0 || seg >= self->heap_size) {
return 0;
}
if (!self->heap[seg]) {
sciprintf("seg_manager.c: seg %x is removed from memory, but not removed from hash_map\n", seg);
return 0;
}
return 1;
}
int sm_script_is_loaded(seg_manager_t *self, int id, id_flag flag) {
if (flag == SCRIPT_ID)
id = sm_seg_get(self, id);
return sm_check(self, id);
}
void sm_increment_lockers(seg_manager_t *self, int id, id_flag flag) {
if (flag == SCRIPT_ID)
id = sm_seg_get(self, id);
VERIFY(sm_check(self, id), "invalid seg id");
self->heap[id]->data.script.lockers++;
}
void sm_decrement_lockers(seg_manager_t *self, int id, id_flag flag) {
if (flag == SCRIPT_ID)
id = sm_seg_get(self, id);
VERIFY(sm_check(self, id), "invalid seg id");
if (self->heap[id]->data.script.lockers > 0)
self->heap[id]->data.script.lockers--;
}
int sm_get_lockers(seg_manager_t *self, int id, id_flag flag) {
if (flag == SCRIPT_ID)
id = sm_seg_get(self, id);
VERIFY(sm_check(self, id), "invalid seg id");
return self->heap[id]->data.script.lockers;
}
void sm_set_lockers(seg_manager_t *self, int lockers, int id, id_flag flag) {
if (flag == SCRIPT_ID)
id = sm_seg_get(self, id);
VERIFY(sm_check(self, id), "invalid seg id");
self->heap[id]->data.script.lockers = lockers;
}
void sm_set_export_table_offset(struct _seg_manager_t *self, int offset, int id, id_flag flag) {
script_t *scr = &(self->heap[id]->data.script);
GET_SEGID();
if (offset) {
scr->export_table = (guint16 *)(scr->buf + offset + 2);
scr->exports_nr = getUInt16((byte *)(scr->export_table - 1));
} else {
scr->export_table = NULL;
scr->exports_nr = 0;
}
}
int sm_hash_segment_data(struct _seg_manager_t *self, int id) {
int i, len, hash_code = 0x55555555;
char *buf;
if (self->heap[id]->type == MEM_OBJ_LISTS)
return 0;
if (self->heap[id]->type == MEM_OBJ_NODES)
return 0;
if (self->heap[id]->type == MEM_OBJ_CLONES)
return 0;
buf = (char *)sm_dereference(self, make_reg(id, 0), &len);
for (i = 0; i < len; i++)
hash_code = (hash_code * 19) + *(buf + i);
return hash_code;
}
void sm_set_export_width(struct _seg_manager_t *self, int flag) {
self->exports_wide = flag;
}
#if 0
// Unreferenced - removed
static guint16 *sm_get_export_table_offset(struct _seg_manager_t *self, int id, int flag, int *max) {
GET_SEGID();
if (max)
*max = self->heap[id]->data.script.exports_nr;
return self->heap[id]->data.script.export_table;
}
#endif
void sm_set_synonyms_offset(struct _seg_manager_t *self, int offset, int id, id_flag flag) {
GET_SEGID();
self->heap[id]->data.script.synonyms = self->heap[id]->data.script.buf + offset;
}
byte *sm_get_synonyms(seg_manager_t *self, int id, id_flag flag) {
GET_SEGID();
return self->heap[id]->data.script.synonyms;
}
void sm_set_synonyms_nr(struct _seg_manager_t *self, int nr, int id, id_flag flag) {
GET_SEGID();
self->heap[id]->data.script.synonyms_nr = nr;
}
int sm_get_synonyms_nr(struct _seg_manager_t *self, int id, id_flag flag) {
GET_SEGID();
return self->heap[id]->data.script.synonyms_nr;
}
#if 0
// Unreferenced - removed
static int sm_get_heappos(struct _seg_manager_t *self, int id, int flag) {
GET_SEGID();
return 0;
}
#endif
#if 0
// Unreferenced - removed
static void sm_set_variables(struct _seg_manager_t *self, reg_t reg, int obj_index, reg_t variable_reg, int variable_index) {
script_t *script;
VERIFY(sm_check(self, reg.segment), "invalid seg id");
VERIFY(self->heap[reg.segment], "invalid mem");
script = &(self->heap[reg.segment]->data.script);
VERIFY(obj_index < script->objects_nr, "Invalid obj_index");
VERIFY(variable_index >= 0 && variable_index < script->objects[obj_index].variables_nr, "Attempt to write to invalid variable number");
script->objects[obj_index].variables[variable_index] = variable_reg;
}
#endif
static inline int _relocate_block(seg_manager_t *self, reg_t *block, int block_location, int block_items, seg_id_t segment, int location) {
int rel = location - block_location;
int index;
if (rel < 0)
return 0;
index = rel >> 1;
if (index >= block_items)
return 0;
if (rel & 1) {
sciprintf("Error: Attempt to relocate odd variable #%d.5e (relative to %04x)\n", index, block_location);
return 0;
}
block[index].segment = segment; // Perform relocation
if (self->sci1_1)
block[index].offset += self->heap[segment]->data.script.script_size;
return 1;
}
static inline int _relocate_local(seg_manager_t *self, script_t *scr, seg_id_t segment, int location) {
if (scr->locals_block)
return _relocate_block(self, scr->locals_block->locals, scr->locals_offset, scr->locals_block->nr, segment, location);
else
return 0; // No hands, no cookies
}
static inline int _relocate_object(seg_manager_t *self, object_t *obj, seg_id_t segment, int location) {
return _relocate_block(self, obj->variables, obj->pos.offset, obj->variables_nr, segment, location);
}
void sm_script_add_code_block(seg_manager_t *self, reg_t location) {
mem_obj_t *mobj = self->heap[location.segment];
script_t *scr;
int index;
VERIFY(!(location.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to add a code block to non-script\n");
scr = &(mobj->data.script);
if (++scr->code_blocks_nr > scr->code_blocks_allocated) {
scr->code_blocks_allocated += DEFAULT_OBJECTS_INCREMENT;
scr->code = (code_block_t *)sci_realloc(scr->code, scr->code_blocks_allocated * sizeof(code_block_t));
}
index = scr->code_blocks_nr - 1;
scr->code[index].pos = location;
scr->code[index].size = getUInt16(scr->buf + location.offset - 2);
}
void sm_script_relocate(seg_manager_t *self, reg_t block) {
mem_obj_t *mobj = self->heap[block.segment];
script_t *scr;
int count;
int i;
VERIFY(!(block.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt relocate non-script\n");
scr = &(mobj->data.script);
VERIFY(block.offset < (guint16)scr->buf_size && getUInt16(scr->buf + block.offset) * 2 + block.offset < (guint16)scr->buf_size,
"Relocation block outside of script\n");
count = getUInt16(scr->buf + block.offset);
for (i = 0; i <= count; i++) {
int pos = getUInt16(scr->buf + block.offset + 2 + (i * 2));
if (!pos)
continue; // FIXME: A hack pending investigation
if (!_relocate_local(self, scr, block.segment, pos)) {
int k, done = 0;
for (k = 0; !done && k < scr->objects_nr; k++) {
if (_relocate_object(self, scr->objects + k, block.segment, pos))
done = 1;
}
for (k = 0; !done && k < scr->code_blocks_nr; k++) {
if (pos >= scr->code[k].pos.offset &&
pos < scr->code[k].pos.offset + scr->code[k].size)
done = 1;
}
if (!done) {
sciprintf("While processing relocation block "PREG":\n", PRINT_REG(block));
sciprintf("Relocation failed for index %04x (%d/%d)\n", pos, i + 1, count);
if (scr->locals_block)
sciprintf("- locals: %d at %04x\n", scr->locals_block->nr, scr->locals_offset);
else
sciprintf("- No locals\n");
for (k = 0; k < scr->objects_nr; k++)
sciprintf("- obj#%d at %04x w/ %d vars\n", k, scr->objects[k].pos.offset, scr->objects[k].variables_nr);
// SQ3 script 71 has broken relocation entries.
// Since this is mainstream, we can't break out as we used to do.
sciprintf("Trying to continue anyway...\n");
// BREAKPOINT();
}
}
}
}
void sm_heap_relocate(seg_manager_t *self, state_t *s, reg_t block) {
mem_obj_t *mobj = self->heap[block.segment];
script_t *scr;
int count;
int i;
VERIFY(!(block.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt relocate non-script\n");
scr = &(mobj->data.script);
VERIFY(block.offset < (guint16)scr->heap_size && getUInt16(scr->heap_start + block.offset) * 2 + block.offset < (guint16)scr->buf_size,
"Relocation block outside of script\n");
if (scr->relocated)
return;
scr->relocated = 1;
count = getUInt16(scr->heap_start + block.offset);
for (i = 0; i < count; i++) {
int pos = getUInt16(scr->heap_start + block.offset + 2 + (i * 2)) + scr->script_size;
if (!_relocate_local(self, scr, block.segment, pos)) {
int k, done = 0;
for (k = 0; !done && k < scr->objects_nr; k++) {
if (_relocate_object(self, scr->objects + k, block.segment, pos))
done = 1;
}
if (!done) {
sciprintf("While processing relocation block "PREG":\n", PRINT_REG(block));
sciprintf("Relocation failed for index %04x (%d/%d)\n", pos, i + 1, count);
if (scr->locals_block)
sciprintf("- locals: %d at %04x\n", scr->locals_block->nr, scr->locals_offset);
else
sciprintf("- No locals\n");
for (k = 0; k < scr->objects_nr; k++)
sciprintf("- obj#%d at %04x w/ %d vars\n", k, scr->objects[k].pos.offset, scr->objects[k].variables_nr);
sciprintf("Triggering breakpoint...\n");
BREAKPOINT();
}
}
}
}
#define INST_LOOKUP_CLASS(id) ((id == 0xffff) ? NULL_REG : get_class_address(s, id, SCRIPT_GET_LOCK, NULL_REG))
reg_t get_class_address(state_t *s, int classnr, int lock, reg_t caller);
static object_t *sm_script_obj_init0(seg_manager_t *self, state_t *s, reg_t obj_pos) {
mem_obj_t *mobj = self->heap[obj_pos.segment];
script_t *scr;
object_t *obj;
int id;
unsigned int base = obj_pos.offset - SCRIPT_OBJECT_MAGIC_OFFSET;
reg_t temp;
VERIFY(!(obj_pos.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to initialize object in non-script\n");
scr = &(mobj->data.script);
VERIFY(base < scr->buf_size, "Attempt to initialize object beyond end of script\n");
if (!scr->objects) {
scr->objects_allocated = DEFAULT_OBJECTS;
scr->objects = (object_t *)sci_malloc(sizeof(object_t) * scr->objects_allocated);
}
if (scr->objects_nr == scr->objects_allocated) {
scr->objects_allocated += DEFAULT_OBJECTS_INCREMENT;
scr->objects = (object_t *)sci_realloc(scr->objects, sizeof(object_t) * scr->objects_allocated);
}
temp = make_reg(obj_pos.segment, base);
id = scr->obj_indices->check_value(base, true);
scr->objects_nr++;
obj = scr->objects + id;
VERIFY(base + SCRIPT_FUNCTAREAPTR_OFFSET < scr->buf_size, "Function area pointer stored beyond end of script\n");
{
byte *data = (byte *)(scr->buf + base);
int funct_area = getUInt16(data + SCRIPT_FUNCTAREAPTR_OFFSET);
int variables_nr;
int functions_nr;
int is_class;
int i;
obj->flags = 0;
obj->pos = temp;
VERIFY(base + funct_area < scr->buf_size, "Function area pointer references beyond end of script");
variables_nr = getUInt16(data + SCRIPT_SELECTORCTR_OFFSET);
functions_nr = getUInt16(data + funct_area - 2);
is_class = getUInt16(data + SCRIPT_INFO_OFFSET) & SCRIPT_INFO_CLASS;
VERIFY(base + funct_area + functions_nr * 2
// add again for classes, since those also store selectors
+ (is_class ? functions_nr * 2 : 0) < scr->buf_size, "Function area extends beyond end of script");
obj->variables_nr = variables_nr;
obj->variables = (reg_t *)sci_malloc(sizeof(reg_t) * variables_nr);
obj->methods_nr = functions_nr;
obj->base = scr->buf;
obj->base_obj = data;
obj->base_method = (guint16 *)(data + funct_area);
obj->base_vars = NULL;
for (i = 0; i < variables_nr; i++)
obj->variables[i] = make_reg(0, getUInt16(data + (i * 2)));
}
return obj;
}
static object_t *sm_script_obj_init11(seg_manager_t *self, state_t *s, reg_t obj_pos) {
mem_obj_t *mobj = self->heap[obj_pos.segment];
script_t *scr;
object_t *obj;
int id;
int base = obj_pos.offset;
VERIFY(!(obj_pos.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to initialize object in non-script\n");
scr = &(mobj->data.script);
VERIFY(base < (guint16)scr->buf_size, "Attempt to initialize object beyond end of script\n");
if (!scr->objects) {
scr->objects_allocated = DEFAULT_OBJECTS;
scr->objects = (object_t *)sci_malloc(sizeof(object_t) * scr->objects_allocated);
}
if (scr->objects_nr == scr->objects_allocated) {
scr->objects_allocated += DEFAULT_OBJECTS_INCREMENT;
scr->objects = (object_t *)sci_realloc(scr->objects, sizeof(object_t) * scr->objects_allocated);
}
id = scr->obj_indices->check_value(obj_pos.offset, true);
scr->objects_nr++;
obj = scr->objects + id;
VERIFY(base + SCRIPT_FUNCTAREAPTR_OFFSET < (guint16)scr->buf_size, "Function area pointer stored beyond end of script\n");
{
byte *data = (byte *)(scr->buf + base);
guint16 *funct_area = (guint16 *)(scr->buf + getUInt16(data + 6));
guint16 *prop_area = (guint16 *)(scr->buf + getUInt16(data + 4));
int variables_nr;
int functions_nr;
int is_class;
int i;
obj->flags = 0;
obj->pos = obj_pos;
VERIFY((byte *) funct_area < scr->buf + scr->buf_size, "Function area pointer references beyond end of script");
variables_nr = getUInt16(data + 2);
functions_nr = *funct_area;
is_class = getUInt16(data + 14) & SCRIPT_INFO_CLASS;
obj->base_method = funct_area;
obj->base_vars = prop_area;
VERIFY(((byte *) funct_area + functions_nr) < scr->buf + scr->buf_size, "Function area extends beyond end of script");
obj->variables_nr = variables_nr;
obj->variable_names_nr = variables_nr;
obj->variables = (reg_t *)sci_malloc(sizeof(reg_t) * variables_nr);
obj->methods_nr = functions_nr;
obj->base = scr->buf;
obj->base_obj = data;
for (i = 0; i < variables_nr; i++)
obj->variables[i] = make_reg(0, getUInt16(data + (i * 2)));
}
return obj;
}
object_t *sm_script_obj_init(seg_manager_t *self, state_t *s, reg_t obj_pos) {
if (!self->sci1_1)
return sm_script_obj_init0(self, s, obj_pos);
else
return sm_script_obj_init11(self, s, obj_pos);
}
static local_variables_t *_sm_alloc_locals_segment(seg_manager_t *self, script_t *scr, int count) {
if (!count) { // No locals
scr->locals_segment = 0;
scr->locals_block = NULL;
return NULL;
} else {
mem_obj_t *mobj;
local_variables_t *locals;
if (scr->locals_segment) {
mobj = self->heap[scr->locals_segment];
VERIFY(mobj != NULL, "Re-used locals segment was NULL'd out");
VERIFY(mobj->type == MEM_OBJ_LOCALS, "Re-used locals segment did not consist of local variables");
VERIFY(mobj->data.locals.script_id == scr->nr, "Re-used locals segment belonged to other script");
} else
mobj = alloc_nonscript_segment(self, MEM_OBJ_LOCALS, &scr->locals_segment);
locals = scr->locals_block = &(mobj->data.locals);
locals->script_id = scr->nr;
locals->locals = (reg_t *)sci_calloc(count, sizeof(reg_t));
locals->nr = count;
return locals;
}
}
void sm_script_initialise_locals_zero(seg_manager_t *self, seg_id_t seg, int count) {
mem_obj_t *mobj = self->heap[seg];
script_t *scr;
VERIFY(!(seg >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to initialize locals in non-script\n");
scr = &(mobj->data.script);
scr->locals_offset = -count * 2; // Make sure it's invalid
_sm_alloc_locals_segment(self, scr, count);
}
void sm_script_initialise_locals(seg_manager_t *self, reg_t location) {
mem_obj_t *mobj = self->heap[location.segment];
unsigned int count;
script_t *scr;
local_variables_t *locals;
VERIFY(!(location.segment >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to initialize locals in non-script\n");
scr = &(mobj->data.script);
VERIFY(location.offset + 1 < (guint16)scr->buf_size, "Locals beyond end of script\n");
if (self->sci1_1)
count = getUInt16(scr->buf + location.offset - 2);
else
count = (getUInt16(scr->buf + location.offset - 2) - 4) >> 1;
// half block size
scr->locals_offset = location.offset;
if (!(location.offset + count * 2 + 1 < scr->buf_size)) {
sciprintf("Locals extend beyond end of script: offset %04x, count %x vs size %x\n", location.offset, count, scr->buf_size);
count = (scr->buf_size - location.offset) >> 1;
}
locals = _sm_alloc_locals_segment(self, scr, count);
if (locals) {
uint i;
byte *base = (byte *)(scr->buf + location.offset);
for (i = 0; i < count; i++)
locals->locals[i].offset = getUInt16(base + i * 2);
}
}
void sm_script_relocate_exports_sci11(seg_manager_t *self, int seg) {
mem_obj_t *mobj = self->heap[seg];
script_t *scr;
int i;
int location;
VERIFY(!(seg >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to relocate exports in non-script\n");
scr = &(mobj->data.script);
for (i = 0; i < scr->exports_nr; i++) {
/* We are forced to use an ugly heuristic here to distinguish function
exports from object/class exports. The former kind points into the
script resource, the latter into the heap resource. */
location = getUInt16((byte *)(scr->export_table + i));
if (getUInt16(scr->heap_start + location) == SCRIPT_OBJECT_MAGIC_NUMBER) {
putInt16((byte *)(scr->export_table + i), location + scr->heap_start - scr->buf);
} else {
// Otherwise it's probably a function export,
// and we don't need to do anything.
}
}
}
void sm_script_initialise_objects_sci11(seg_manager_t *self, state_t *s, int seg) {
mem_obj_t *mobj = self->heap[seg];
script_t *scr;
byte *seeker;
VERIFY(!(seg >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to relocate exports in non-script\n");
scr = &(mobj->data.script);
seeker = scr->heap_start + 4 + getUInt16(scr->heap_start + 2) * 2;
while (getUInt16(seeker) == SCRIPT_OBJECT_MAGIC_NUMBER) {
if (getUInt16(seeker + 14) & SCRIPT_INFO_CLASS) {
int classpos = seeker - scr->buf;
int species = getUInt16(seeker + 10);
if (species < 0 || species >= s->classtable_size) {
sciprintf("Invalid species %d(0x%x) not in interval [0,%d) while instantiating script %d\n",
species, species, s->classtable_size, scr->nr);
script_debug_flag = script_error_flag = 1;
return;
}
s->classtable[species].script = scr->nr;
s->classtable[species].reg.segment = seg;
s->classtable[species].reg.offset = classpos;
}
seeker += getUInt16(seeker + 2) * 2;
}
seeker = scr->heap_start + 4 + getUInt16(scr->heap_start + 2) * 2;
while (getUInt16(seeker) == SCRIPT_OBJECT_MAGIC_NUMBER) {
reg_t reg;
object_t *obj;
reg.segment = seg;
reg.offset = seeker - scr->buf;
obj = sm_script_obj_init(&s->seg_manager, s, reg);
#if 0
if (obj->variables[5].offset != 0xffff) {
obj->variables[5] = INST_LOOKUP_CLASS(obj->variables[5].offset);
base_obj = obj_get(s, obj->variables[5]);
obj->variable_names_nr = base_obj->variables_nr;
obj->base_obj = base_obj->base_obj;
}
#endif
// Copy base from species class, as we need its selector IDs
obj->variables[6] = INST_LOOKUP_CLASS(obj->variables[6].offset);
seeker += getUInt16(seeker + 2) * 2;
}
}
void sm_script_free_unused_objects(seg_manager_t *self, seg_id_t seg) {
mem_obj_t *mobj = self->heap[seg];
script_t *scr;
VERIFY(!(seg >= self->heap_size || mobj->type != MEM_OBJ_SCRIPT), "Attempt to free unused objects in non-script\n");
scr = &(mobj->data.script);
if (scr->objects_allocated > scr->objects_nr) {
if (scr->objects_nr)
scr->objects = (object_t*)sci_realloc(scr->objects, sizeof(object_t) * scr->objects_nr);
else {
if (scr->objects_allocated)
free(scr->objects);
scr->objects = NULL;
}
scr->objects_allocated = scr->objects_nr;
}
}
static inline char *dynprintf(char *msg, ...) {
va_list argp;
char *buf = (char *)sci_malloc(strlen(msg) + 100);
va_start(argp, msg);
vsprintf(buf, msg, argp);
va_end(argp);
return buf;
}
dstack_t *sm_allocate_stack(seg_manager_t *self, int size, seg_id_t *segid) {
mem_obj_t *memobj = alloc_nonscript_segment(self, MEM_OBJ_STACK, segid);
dstack_t *retval = &(memobj->data.stack);
retval->entries = (reg_t*)sci_calloc(size, sizeof(reg_t));
retval->nr = size;
return retval;
}
sys_strings_t *sm_allocate_sys_strings(seg_manager_t *self, seg_id_t *segid) {
mem_obj_t *memobj = alloc_nonscript_segment(self, MEM_OBJ_SYS_STRINGS, segid);
sys_strings_t *retval = &(memobj->data.sys_strings);
memset(retval, 0, sizeof(sys_string_t)*SYS_STRINGS_MAX);
return retval;
}
seg_id_t sm_allocate_reserved_segment(seg_manager_t *self, char *src_name) {
seg_id_t segid;
mem_obj_t *memobj = alloc_nonscript_segment(self, MEM_OBJ_RESERVED, &segid);
char *name = sci_strdup(src_name);
memobj->data.reserved = name;
return segid;
}
guint16 sm_validate_export_func(struct _seg_manager_t* self, int pubfunct, int seg) {
script_t* script;
guint16 offset;
VERIFY(sm_check(self, seg), "invalid seg id");
VERIFY(self->heap[seg]->type == MEM_OBJ_SCRIPT, "Can only validate exports on scripts");
script = &self->heap[seg]->data.script;
if (script->exports_nr <= pubfunct) {
sciprintf("pubfunct is invalid");
return 0;
}
if (self->exports_wide)
pubfunct *= 2;
offset = getUInt16((byte *)(script->export_table + pubfunct));
VERIFY(offset < script->buf_size, "invalid export function pointer");
return offset;
}
void sm_free_hunk_entry(seg_manager_t *self, reg_t addr) {
sm_free_hunk(self, addr);
}
hunk_t *sm_alloc_hunk_entry(seg_manager_t *self, const char *hunk_type, int size, reg_t *reg) {
hunk_t *h = sm_alloc_hunk(self, reg);
if (!h)
return NULL;
h->mem = sci_malloc(size);
h->size = size;
h->type = hunk_type;
return h;
}
static void _clone_cleanup(clone_t *clone) {
if (clone->variables)
free(clone->variables); // Free the dynamically allocated memory part
}
static void _hunk_cleanup(hunk_t *hunk) {
if (hunk->mem)
free(hunk->mem);
}
DEFINE_HEAPENTRY(list, 8, 4)
DEFINE_HEAPENTRY(node, 32, 16)
DEFINE_HEAPENTRY_WITH_CLEANUP(clone, 16, 4, _clone_cleanup)
DEFINE_HEAPENTRY_WITH_CLEANUP(hunk, 4, 4, _hunk_cleanup)
#define DEFINE_ALLOC_DEALLOC(STATIC, TYPE, SEGTYPE, PLURAL) \
STATIC TYPE##_t *sm_alloc_##TYPE(seg_manager_t *self, reg_t *addr) { \
mem_obj_t *mobj; \
TYPE##_table_t *table; \
int offset; \
\
if (!self->TYPE##s_seg_id) { \
mobj = alloc_nonscript_segment(self, SEGTYPE, &(self->TYPE##s_seg_id)); \
init_##TYPE##_table(&(mobj->data.PLURAL)); \
} else \
mobj = self->heap[self->TYPE##s_seg_id]; \
\
table = &(mobj->data.PLURAL); \
offset = alloc_##TYPE##_entry(table); \
\
*addr = make_reg(self->TYPE##s_seg_id, offset); \
return &(mobj->data.PLURAL.table[offset].entry); \
} \
\
STATIC void sm_free_##TYPE(seg_manager_t *self, reg_t addr) { \
mem_obj_t *mobj = GET_SEGMENT(*self, addr.segment, SEGTYPE); \
\
if (!mobj) { \
sciprintf("Attempt to free " #TYPE " from address "PREG": Invalid segment type\n", PRINT_REG(addr)); \
return; \
} \
\
free_##TYPE##_entry(&(mobj->data.PLURAL), addr.offset); \
}
DEFINE_ALLOC_DEALLOC(, clone, MEM_OBJ_CLONES, clones)
DEFINE_ALLOC_DEALLOC(, list, MEM_OBJ_LISTS, lists)
DEFINE_ALLOC_DEALLOC(, node, MEM_OBJ_NODES, nodes)
DEFINE_ALLOC_DEALLOC(static, hunk, MEM_OBJ_HUNK, hunks)
byte *sm_dereference(seg_manager_t *self, reg_t pointer, int *size) {
mem_obj_t *mobj;
byte *base = NULL;
int count;
if (!pointer.segment || (pointer.segment >= self->heap_size) || !self->heap[pointer.segment]) {
sciprintf("Error: Attempt to dereference invalid pointer "PREG"", PRINT_REG(pointer));
return NULL; // Invalid
}
mobj = self->heap[pointer.segment];
switch (mobj->type) {
case MEM_OBJ_SCRIPT:
if (pointer.offset > mobj->data.script.buf_size) {
sciprintf("Error: Attempt to dereference invalid pointer "PREG" into script segment (script size=%d)\n",
PRINT_REG(pointer), mobj->data.script.buf_size);
return NULL;
}
if (size)
*size = mobj->data.script.buf_size - pointer.offset;
return (byte *)(mobj->data.script.buf + pointer.offset);
break;
case MEM_OBJ_LOCALS:
count = mobj->data.locals.nr * sizeof(reg_t);
base = (byte *)mobj->data.locals.locals;
break;
case MEM_OBJ_STACK:
count = mobj->data.stack.nr * sizeof(reg_t);
base = (byte *)mobj->data.stack.entries;
break;
case MEM_OBJ_DYNMEM:
count = mobj->data.dynmem.size;
base = (byte *)mobj->data.dynmem.buf;
break;
case MEM_OBJ_SYS_STRINGS:
if (size)
*size = mobj->data.sys_strings.strings[pointer.offset].max_size;
if (pointer.offset < SYS_STRINGS_MAX && mobj->data.sys_strings.strings[pointer.offset].name)
return (byte *)(mobj->data.sys_strings.strings[pointer.offset].value);
else {
sciprintf("Error: Attempt to dereference invalid pointer "PREG"", PRINT_REG(pointer));
return NULL;
}
case MEM_OBJ_RESERVED:
sciprintf("Error: Trying to dereference pointer "PREG" to reserved segment `%s'", mobj->data.reserved);
return NULL;
break;
default:
sciprintf("Error: Trying to dereference pointer "PREG" to inappropriate segment", PRINT_REG(pointer));
return NULL;
}
if (size)
*size = count;
return
base + pointer.offset;
}
unsigned char *sm_alloc_dynmem(seg_manager_t *self, int size, const char *descr, reg_t *addr) {
seg_id_t seg;
mem_obj_t *mobj = alloc_nonscript_segment(self, MEM_OBJ_DYNMEM, &seg);
*addr = make_reg(seg, 0);
mobj->data.dynmem.size = size;
if (size == 0)
mobj->data.dynmem.buf = NULL;
else
mobj->data.dynmem.buf = (byte*) sci_malloc(size);
mobj->data.dynmem.description = descr;
return (unsigned char *)(mobj->data.dynmem.buf);
}
const char *sm_get_description(seg_manager_t *self, reg_t addr) {
mem_obj_t *mobj = self->heap[addr.segment];
if (addr.segment >= self->heap_size)
return "";
switch (mobj->type) {
case MEM_OBJ_DYNMEM:
return mobj->data.dynmem.description;
default:
return "";
}
}
int sm_free_dynmem(seg_manager_t *self, reg_t addr) {
if (addr.segment <= 0 || addr.segment >= self->heap_size || !self->heap[addr.segment] || self->heap[addr.segment]->type != MEM_OBJ_DYNMEM)
return 1; // error
_sm_deallocate(self, addr.segment, 1);
return 0; // OK
}
// ------------------- Segment interface ------------------
static void free_at_address_stub(seg_interface_t *self, reg_t sub_addr) {
//sciprintf(" Request to free "PREG"\n", PRINT_REG(sub_addr));
// STUB
}
static reg_t find_canonic_address_base(seg_interface_t *self, reg_t addr) {
addr.offset = 0;
return addr;
}
static reg_t find_canonic_address_id(seg_interface_t *self, reg_t addr) {
return addr;
}
static void free_at_address_nop(seg_interface_t *self, reg_t sub_addr) {
}
static void list_all_deallocatable_nop(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
}
static void list_all_deallocatable_base(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
(*note)(param, make_reg(self->seg_id, 0));
}
static void list_all_outgoing_references_nop(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
}
static void deallocate_self(seg_interface_t *self) {
free(self);
}
static void free_at_address_script(seg_interface_t *self, reg_t addr) {
script_t *script;
VERIFY(self->mobj->type == MEM_OBJ_SCRIPT, "Trying to free a non-script!");
script = &(self->mobj->data.script);
/*
sciprintf("[GC] Freeing script "PREG"\n", PRINT_REG(addr));
if (script->locals_segment)
sciprintf("[GC] Freeing locals %04x:0000\n", script->locals_segment);
*/
if (script->marked_as_deleted)
sm_deallocate_script(self->segmgr, script->nr);
}
static void list_all_outgoing_references_script(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
script_t *script = &(self->mobj->data.script);
if (addr.offset <= script->buf_size && addr.offset >= -SCRIPT_OBJECT_MAGIC_OFFSET && RAW_IS_OBJECT(script->buf + addr.offset)) {
int idx = RAW_GET_CLASS_INDEX(script, addr);
if (idx >= 0 && idx < script->objects_nr) {
object_t *obj = script->objects + idx;
int i;
// Note all local variables, if we have a local variable environment
if (script->locals_segment)
(*note)(param, make_reg(script->locals_segment, 0));
for (i = 0; i < obj->variables_nr; i++)
(*note)(param, obj->variables[i]);
} else {
error("Request for outgoing script-object reference at "PREG" yielded invalid index %d\n", PRINT_REG(addr), idx);
}
} else {
//error("Unexpected request for outgoing script-object references at "PREG"\n", PRINT_REG(addr));
// Happens e.g. when we're looking into strings
}
}
//-------------------- script --------------------
static seg_interface_t seg_interface_script = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_SCRIPT,
/* type = */ "script",
/* find_canonic_address = */ find_canonic_address_base,
/* free_at_address = */ free_at_address_script,
/* list_all_deallocatable = */ list_all_deallocatable_base,
/* list_all_outgoing_references = */ list_all_outgoing_references_script,
/* deallocate_self = */ deallocate_self
};
#define LIST_ALL_DEALLOCATABLE(kind, kind_field) \
mem_obj_t *mobj = self->mobj; \
kind##_table_t * table = &(mobj->data.kind_field); \
int i; \
\
for (i = 0; i < table->max_entry; i++) \
if (ENTRY_IS_VALID(table, i)) \
(*note) (param, make_reg(self->seg_id, i));
static void list_all_deallocatable_clones(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
LIST_ALL_DEALLOCATABLE(clone, clones);
}
static void list_all_outgoing_references_clones(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
mem_obj_t *mobj = self->mobj;
clone_table_t *clone_table = &(mobj->data.clones);
clone_t *clone;
int i;
assert(addr.segment == self->seg_id);
if (!(ENTRY_IS_VALID(clone_table, addr.offset))) {
error("Unexpected request for outgoing references from clone at "PREG"\n", PRINT_REG(addr));
// BREAKPOINT();
return;
}
clone = &(clone_table->table[addr.offset].entry);
// Emit all member variables (including references to the 'super' delegate)
for (i = 0; i < clone->variables_nr; i++)
(*note)(param, clone->variables[i]);
// Note that this also includes the 'base' object, which is part of the script and therefore also emits the locals.
(*note)(param, clone->pos);
//sciprintf("[GC] Reporting clone-pos "PREG"\n", PRINT_REG(clone->pos));
}
void free_at_address_clones(seg_interface_t *self, reg_t addr) {
object_t *victim_obj;
assert(addr.segment == self->seg_id);
victim_obj = &(self->mobj->data.clones.table[addr.offset].entry);
#ifdef GC_DEBUG
if (!(victim_obj->flags & OBJECT_FLAG_FREED))
sciprintf("[GC] Warning: Clone "PREG" not reachable and not freed (freeing now)\n", PRINT_REG(addr));
#ifdef GC_DEBUG_VERBOSE
else
sciprintf("[GC-DEBUG] Clone "PREG": Freeing\n", PRINT_REG(addr));
#endif
#endif
/*
sciprintf("[GC] Clone "PREG": Freeing\n", PRINT_REG(addr));
sciprintf("[GC] Clone had pos "PREG"\n", PRINT_REG(victim_obj->pos));
*/
free(victim_obj->variables);
victim_obj->variables = NULL;
sm_free_clone(self->segmgr, addr);
}
//-------------------- clones --------------------
static seg_interface_t seg_interface_clones = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_CLONES,
/* type = */ "clones",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_clones,
/* list_all_deallocatable = */ list_all_deallocatable_clones,
/* list_all_outgoing_references = */ list_all_outgoing_references_clones,
/* deallocate_self = */ deallocate_self
};
static reg_t find_canonic_address_locals(seg_interface_t *self, reg_t addr) {
local_variables_t *locals = &(self->mobj->data.locals);
// Reference the owning script
seg_id_t owner_seg = sm_seg_get(self->segmgr, locals->script_id);
assert(owner_seg >= 0);
return make_reg(owner_seg, 0);
}
static void list_all_outgoing_references_locals(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
local_variables_t *locals = &(self->mobj->data.locals);
int i;
assert(addr.segment == self->seg_id);
for (i = 0; i < locals->nr; i++)
(*note)(param, locals->locals[i]);
}
//-------------------- locals --------------------
static seg_interface_t seg_interface_locals = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_LOCALS,
/* type = */ "locals",
/* find_canonic_address = */ find_canonic_address_locals,
/* free_at_address = */ free_at_address_stub,
/* list_all_deallocatable = */ list_all_deallocatable_nop,
/* list_all_outgoing_references = */ list_all_outgoing_references_locals,
/* deallocate_self = */ deallocate_self
};
static void list_all_outgoing_references_stack(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
int i;
error("Emitting %d stack entries\n", self->mobj->data.stack.nr);
for (i = 0; i < self->mobj->data.stack.nr; i++)
(*note)(param, self->mobj->data.stack.entries[i]);
error("DONE");
}
//-------------------- stack --------------------
static seg_interface_t seg_interface_stack = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_STACK,
/* type = */ "stack",
/* find_canonic_address = */ find_canonic_address_base,
/* free_at_address = */ free_at_address_nop,
/* list_all_deallocatable = */ list_all_deallocatable_nop,
/* list_all_outgoing_references = */ list_all_outgoing_references_stack,
/* deallocate_self = */ deallocate_self
};
//-------------------- system strings --------------------
static seg_interface_t seg_interface_sys_strings = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_SYS_STRINGS,
/* type = */ "system strings",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_nop,
/* list_all_deallocatable = */ list_all_deallocatable_nop,
/* list_all_outgoing_references = */ list_all_outgoing_references_nop,
/* deallocate_self = */ deallocate_self
};
static void list_all_deallocatable_list(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
LIST_ALL_DEALLOCATABLE(list, lists);
}
static void list_all_outgoing_references_list(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
list_table_t *table = &(self->mobj->data.lists);
list_t *list = &(table->table[addr.offset].entry);
if (!ENTRY_IS_VALID(table, addr.offset)) {
error("Invalid list referenced for outgoing references: "PREG"\n", PRINT_REG(addr));
return;
}
note(param, list->first);
note(param, list->last);
// We could probably get away with just one of them, but
// let's be conservative here.
}
static void free_at_address_lists(seg_interface_t *self, reg_t sub_addr) {
sm_free_list(self->segmgr, sub_addr);
}
//-------------------- lists --------------------
static seg_interface_t seg_interface_lists = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_LISTS,
/* type = */ "lists",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_lists,
/* list_all_deallocatable = */ list_all_deallocatable_list,
/* list_all_outgoing_references = */ list_all_outgoing_references_list,
/* deallocate_self = */ deallocate_self
};
static void list_all_deallocatable_nodes(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
LIST_ALL_DEALLOCATABLE(node, nodes);
}
static void list_all_outgoing_references_nodes(seg_interface_t *self, state_t *s, reg_t addr, void *param, void (*note)(void*param, reg_t addr)) {
node_table_t *table = &(self->mobj->data.nodes);
node_t *node = &(table->table[addr.offset].entry);
if (!ENTRY_IS_VALID(table, addr.offset)) {
error("Invalid node referenced for outgoing references: "PREG"\n", PRINT_REG(addr));
return;
}
// We need all four here. Can't just stick with 'pred' OR 'succ' because node operations allow us
// to walk around from any given node
note(param, node->pred);
note(param, node->succ);
note(param, node->key);
note(param, node->value);
}
static void free_at_address_nodes(seg_interface_t *self, reg_t sub_addr) {
sm_free_node(self->segmgr, sub_addr);
}
//-------------------- nodes --------------------
static seg_interface_t seg_interface_nodes = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_NODES,
/* type = */ "nodes",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_nodes,
/* list_all_deallocatable = */ list_all_deallocatable_nodes,
/* list_all_outgoing_references = */ list_all_outgoing_references_nodes,
/* deallocate_self = */ deallocate_self
};
static void list_all_deallocatable_hunk(seg_interface_t *self, void *param, void (*note)(void*param, reg_t addr)) {
LIST_ALL_DEALLOCATABLE(hunk, hunks);
}
//-------------------- hunk --------------------
static seg_interface_t seg_interface_hunk = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_HUNK,
/* type = */ "hunk",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_stub,
/* list_all_deallocatable = */ list_all_deallocatable_hunk,
/* list_all_outgoing_references = */ list_all_outgoing_references_nop,
/* deallocate_self = */ deallocate_self
};
//-------------------- dynamic memory --------------------
static seg_interface_t seg_interface_dynmem = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_DYNMEM,
/* type = */ "dynamic memory",
/* find_canonic_address = */ find_canonic_address_base,
/* free_at_address = */ free_at_address_stub,
/* list_all_deallocatable = */ list_all_deallocatable_base,
/* list_all_outgoing_references = */ list_all_outgoing_references_nop,
/* deallocate_self = */ deallocate_self
};
//-------------------- reserved --------------------
static seg_interface_t seg_interface_reserved = {
/* segmgr = */ NULL,
/* mobj = */ NULL,
/* seg_id = */ 0,
/* type_id = */ MEM_OBJ_RESERVED,
/* type = */ "reserved",
/* find_canonic_address = */ find_canonic_address_id,
/* free_at_address = */ free_at_address_nop,
/* list_all_deallocatable = */ list_all_deallocatable_nop,
/* list_all_outgoing_references = */ list_all_outgoing_references_nop,
/* deallocate_self = */ deallocate_self
};
static seg_interface_t* seg_interfaces[MEM_OBJ_MAX] = {
&seg_interface_script,
&seg_interface_clones,
&seg_interface_locals,
&seg_interface_stack,
&seg_interface_sys_strings,
&seg_interface_lists,
&seg_interface_nodes,
&seg_interface_hunk,
&seg_interface_dynmem,
&seg_interface_reserved
};
seg_interface_t *get_seg_interface(seg_manager_t *self, seg_id_t segid) {
mem_obj_t *mobj;
seg_interface_t *retval;
if (!sm_check(self, segid))
return NULL; // Invalid segment
mobj = self->heap[segid];
retval = (seg_interface_t *)sci_malloc(sizeof(seg_interface_t));
memcpy(retval, seg_interfaces[mobj->type - 1], sizeof(seg_interface_t));
if (mobj->type != retval->type_id) {
error("Improper segment interface for %d", mobj->type);
exit(1);
}
retval->segmgr = self;
retval->mobj = mobj;
retval->seg_id = segid;
return retval;
}
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