// Copyright (c) Hercules Dev Team, licensed under GNU GPL.
// See the LICENSE file
// Portions Copyright (c) Athena Dev Teams
#include "../common/cbasetypes.h"
#include "../common/socket.h"
#include "../common/timer.h"
#include "../common/malloc.h"
#include "../common/nullpo.h"
#include "../common/showmsg.h"
#include "../common/strlib.h"
#include "../common/utils.h"
#include "../common/db.h"
#include "clif.h"
#include "instance.h"
#include "map.h"
#include "npc.h"
#include "party.h"
#include "pc.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <time.h>
struct instance_interface instance_s;
/// Checks whether given instance id is valid or not.
bool instance_is_valid(int instance_id) {
if( instance_id < 0 || instance_id >= instance->instances ) {// out of range
return false;
}
if( instances[instance_id].state == INSTANCE_FREE ) {// uninitialized/freed instance slot
return false;
}
return true;
}
/*--------------------------------------
* name : instance name
* Return value could be
* -4 = already exists | -3 = no free instances | -2 = owner not found | -1 = invalid type
* On success return instance_id
*--------------------------------------*/
int instance_create(int owner_id, const char *name, enum instance_owner_type type) {
struct map_session_data *sd = NULL;
unsigned short *icptr = NULL;
struct party_data *p = NULL;
struct guild *g = NULL;
short *iptr = NULL;
int i, j;
switch ( type ) {
case IOT_NONE:
break;
case IOT_CHAR:
if( ( sd = iMap->id2sd(owner_id) ) == NULL ) {
ShowError("instance_create: character %d not found for instance '%s'.\n", owner_id, name);
return -2;
}
iptr = sd->instance;
icptr = &sd->instances;
break;
case IOT_PARTY:
if( ( p = party->search(owner_id) ) == NULL ) {
ShowError("instance_create: party %d not found for instance '%s'.\n", owner_id, name);
return -2;
}
iptr = p->instance;
icptr = &p->instances;
break;
case IOT_GUILD:
if( ( g = guild->search(owner_id) ) == NULL ) {
ShowError("instance_create: guild %d not found for instance '%s'.\n", owner_id, name);
return -2;
}
iptr = g->instance;
icptr = &g->instances;
break;
default:
ShowError("instance_create: unknown type %d for owner_id %d and name %s.\n", type,owner_id,name);
return -1;
}
if( type != IOT_NONE && *icptr ) {
ARR_FIND(0, *icptr, i, strcmp(instances[iptr[i]].name,name) == 0 );
if( i != *icptr )
return -4;/* already got this instance */
}
ARR_FIND(0, instance->instances, i, instances[i].state == INSTANCE_FREE);
if( i == instance->instances )
RECREATE(instances, struct instance_data, ++instance->instances);
instances[i].state = INSTANCE_IDLE;
instances[i].id = i;
instances[i].idle_timer = INVALID_TIMER;
instances[i].idle_timeout = instances[i].idle_timeoutval = 0;
instances[i].progress_timer = INVALID_TIMER;
instances[i].progress_timeout = 0;
instances[i].users = 0;
instances[i].map = NULL;
instances[i].num_map = 0;
instances[i].owner_id = owner_id;
instances[i].owner_type = type;
instances[i].vars = idb_alloc(DB_OPT_RELEASE_DATA);
safestrncpy( instances[i].name, name, sizeof(instances[i].name) );
if( type != IOT_NONE ) {
ARR_FIND(0, *icptr, j, iptr[j] == -1);
if( j == *icptr ) {
switch( type ) {
case IOT_CHAR:
RECREATE(sd->instance, short, ++*icptr);
sd->instance[sd->instances-1] = i;
break;
case IOT_PARTY:
RECREATE(p->instance, short, ++*icptr);
p->instance[p->instances-1] = i;
break;
case IOT_GUILD:
RECREATE(g->instance, short, ++*icptr);
g->instance[g->instances-1] = i;
break;
}
} else
iptr[j] = i;
}
clif->instance(i, 1, 0); // Start instancing window
return i;
}
/*--------------------------------------
* Add a map to the instance using src map "name"
*--------------------------------------*/
int instance_add_map(const char *name, int instance_id, bool usebasename, const char *map_name) {
int16 m = iMap->mapname2mapid(name);
int i, im = -1;
size_t num_cell, size;
if( m < 0 )
return -1; // source map not found
if( !instance->valid(instance_id) ) {
ShowError("instance_add_map: trying to attach '%s' map to non-existing instance %d.\n", name, instance_id);
return -1;
}
if( map_name != NULL && strdb_iget(mapindex_db, map_name) ) {
ShowError("instance_add_map: trying to create instanced map with existent name '%s'\n", map_name);
return -2;
}
if( map[m].instance_id >= 0 ) { // Source map already belong to a Instance.
ShowError("instance_add_map: trying to instance already instanced map %s.\n", name);
return -4;
}
ARR_FIND( instance->start_id, iMap->map_num, i, map[i].name[0] == 0 ); // Searching for a Free Map
if( i < iMap->map_num )
im = i; // Unused map found (old instance)
else {
im = iMap->map_num; // Using next map index
RECREATE(map,struct map_data,++iMap->map_num);
}
if( map[m].cell == (struct mapcell *)0xdeadbeaf )
iMap->cellfromcache(&map[m]);
memcpy( &map[im], &map[m], sizeof(struct map_data) ); // Copy source map
if( map_name != NULL ) {
snprintf(map[im].name, MAP_NAME_LENGTH, "%s", map_name);
map[im].custom_name = true;
} else
snprintf(map[im].name, MAP_NAME_LENGTH, (usebasename ? "%.3d#%s" : "%.3d%s"), instance_id, name); // Generate Name for Instance Map
map[im].index = mapindex_addmap(-1, map[im].name); // Add map index
map[im].channel = NULL;
if( !map[im].index ) {
map[im].name[0] = '\0';
ShowError("instance_add_map: no more free map indexes.\n");
return -3; // No free map index
}
// Reallocate cells
num_cell = map[im].xs * map[im].ys;
CREATE( map[im].cell, struct mapcell, num_cell );
memcpy( map[im].cell, map[m].cell, num_cell * sizeof(struct mapcell) );
size = map[im].bxs * map[im].bys * sizeof(struct block_list*);
map[im].block = (struct block_list**)aCalloc(size, 1);
map[im].block_mob = (struct block_list**)aCalloc(size, 1);
memset(map[im].npc, 0x00, sizeof(map[i].npc));
map[im].npc_num = 0;
memset(map[im].moblist, 0x00, sizeof(map[im].moblist));
map[im].mob_delete_timer = INVALID_TIMER;
//Mimic unit
if( map[m].unit_count ) {
map[im].unit_count = map[m].unit_count;
CREATE( map[im].units, struct mapflag_skill_adjust*, map[im].unit_count );
for(i = 0; i < map[im].unit_count; i++) {
CREATE( map[im].units[i], struct mapflag_skill_adjust, 1);
memcpy( map[im].units[i],map[m].units[i],sizeof(struct mapflag_skill_adjust));
}
}
//Mimic skills
if( map[m].skill_count ) {
map[im].skill_count = map[m].skill_count;
CREATE( map[im].skills, struct mapflag_skill_adjust*, map[im].skill_count );
for(i = 0; i < map[im].skill_count; i++) {
CREATE( map[im].skills[i], struct mapflag_skill_adjust, 1);
memcpy( map[im].skills[i],map[m].skills[i],sizeof(struct mapflag_skill_adjust));
}
}
//Mimic zone mf
if( map[m].zone_mf_count ) {
map[im].zone_mf_count = map[m].zone_mf_count;
CREATE( map[im].zone_mf, char *, map[im].zone_mf_count );
for(i = 0; i < map[im].zone_mf_count; i++) {
CREATE(map[im].zone_mf[i], char, MAP_ZONE_MAPFLAG_LENGTH);
safestrncpy(map[im].zone_mf[i],map[m].zone_mf[i],MAP_ZONE_MAPFLAG_LENGTH);
}
}
map[im].m = im;
map[im].instance_id = instance_id;
map[im].instance_src_map = m;
map[m].flag.src4instance = 1; // Flag this map as a src map for instances
RECREATE(instances[instance_id].map, unsigned short, ++instances[instance_id].num_map);
instances[instance_id].map[instances[instance_id].num_map - 1] = im; // Attach to actual instance
iMap->addmap2db(&map[im]);
return im;
}
/*--------------------------------------
* m : source map of this instance
* party_id : source party of this instance
* type : result (0 = map id | 1 = instance id)
*--------------------------------------*/
int instance_map2imap(int16 m, int instance_id) {
int i;
if( !instance->valid(instance_id) ) {
return -1;
}
for( i = 0; i < instances[instance_id].num_map; i++ ) {
if( instances[instance_id].map[i] && map[instances[instance_id].map[i]].instance_src_map == m )
return instances[instance_id].map[i];
}
return -1;
}
/*--------------------------------------
* m : source map
* instance_id : where to search
* result : mapid of map "m" in this instance
*--------------------------------------*/
int instance_mapid2imapid(int16 m, int instance_id) {
if( map[m].flag.src4instance == 0 )
return m; // not instances found for this map
else if( map[m].instance_id >= 0 ) { // This map is a instance, not a src map instance
ShowError("map_instance_mapid2imapid: already instanced (%d / %d)\n", m, instance_id);
return -1;
}
if( !instance->valid(instance_id) )
return -1;
return instance->map2imap(m, instance_id);
}
/*--------------------------------------
* map_instance_map_npcsub
* Used on Init instance. Duplicates each script on source map
*--------------------------------------*/
int instance_map_npcsub(struct block_list* bl, va_list args) {
struct npc_data* nd = (struct npc_data*)bl;
int16 m = va_arg(args, int); // Destination Map
if ( npc->duplicate4instance(nd, m) )
ShowDebug("instance_map_npcsub:npc_duplicate4instance failed (%s/%d)\n",nd->name,m);
return 1;
}
/*--------------------------------------
* Init all map on the instance. Npcs are created here
*--------------------------------------*/
void instance_init(int instance_id) {
int i;
if( !instance->valid(instance_id) )
return; // nothing to do
for( i = 0; i < instances[instance_id].num_map; i++ )
iMap->foreachinmap(instance_map_npcsub, map[instances[instance_id].map[i]].instance_src_map, BL_NPC, instances[instance_id].map[i]);
instances[instance_id].state = INSTANCE_BUSY;
}
/*--------------------------------------
* Used on instance deleting process.
* Warps all players on each instance map to its save points.
*--------------------------------------*/
int instance_del_load(struct map_session_data* sd, va_list args) {
int16 m = va_arg(args,int);
if( !sd || sd->bl.m != m )
return 0;
pc->setpos(sd, sd->status.save_point.map, sd->status.save_point.x, sd->status.save_point.y, CLR_OUTSIGHT);
return 1;
}
/* for npcs behave differently when being unloaded within a instance */
int instance_cleanup_sub(struct block_list *bl, va_list ap) {
nullpo_ret(bl);
switch(bl->type) {
case BL_PC:
iMap->quit((struct map_session_data *) bl);
break;
case BL_NPC:
npc->unload((struct npc_data *)bl,true);
break;
case BL_MOB:
unit->free(bl,CLR_OUTSIGHT);
break;
case BL_PET:
//There is no need for this, the pet is removed together with the player. [Skotlex]
break;
case BL_ITEM:
iMap->clearflooritem(bl);
break;
case BL_SKILL:
skill->delunit((struct skill_unit *) bl);
break;
}
return 1;
}
/*--------------------------------------
* Removes a simple instance map
*--------------------------------------*/
void instance_del_map(int16 m) {
int i;
if( m <= 0 || map[m].instance_id == -1 ) {
ShowError("instance_del_map: tried to remove non-existing instance map (%d)\n", m);
return;
}
iMap->map_foreachpc(instance_del_load, m);
iMap->foreachinmap(instance_cleanup_sub, m, BL_ALL);
if( map[m].mob_delete_timer != INVALID_TIMER )
iTimer->delete_timer(map[m].mob_delete_timer, iMap->removemobs_timer);
mapindex_removemap(map_id2index(m));
// Free memory
aFree(map[m].cell);
aFree(map[m].block);
aFree(map[m].block_mob);
if( map[m].unit_count ) {
for(i = 0; i < map[m].unit_count; i++) {
aFree(map[m].units[i]);
}
if( map[m].units )
aFree(map[m].units);
}
if( map[m].skill_count ) {
for(i = 0; i < map[m].skill_count; i++) {
aFree(map[m].skills[i]);
}
if( map[m].skills )
aFree(map[m].skills);
}
if( map[m].zone_mf_count ) {
for(i = 0; i < map[m].zone_mf_count; i++) {
aFree(map[m].zone_mf[i]);
}
if( map[m].zone_mf )
aFree(map[m].zone_mf);
}
// Remove from instance
for( i = 0; i < instances[map[m].instance_id].num_map; i++ ) {
if( instances[map[m].instance_id].map[i] == m ) {
instances[map[m].instance_id].num_map--;
for( ; i < instances[map[m].instance_id].num_map; i++ )
instances[map[m].instance_id].map[i] = instances[map[m].instance_id].map[i+1];
i = -1;
break;
}
}
if( i == instances[map[m].instance_id].num_map )
ShowError("map_instance_del: failed to remove %s from instance list (%s): %d\n", map[m].name, instances[map[m].instance_id].name, m);
if( map[m].channel )
clif->chsys_delete(map[m].channel);
iMap->removemapdb(&map[m]);
memset(&map[m], 0x00, sizeof(map[0]));
map[m].name[0] = 0;
map[m].instance_id = -1;
map[m].mob_delete_timer = INVALID_TIMER;
}
/*--------------------------------------
* Timer to destroy instance by process or idle
*--------------------------------------*/
int instance_destroy_timer(int tid, unsigned int tick, int id, intptr_t data) {
instance->destroy(id);
return 0;
}
/*--------------------------------------
* Removes a instance, all its maps and npcs.
*--------------------------------------*/
void instance_destroy(int instance_id) {
struct map_session_data *sd = NULL;
unsigned short *icptr = NULL;
struct party_data *p = NULL;
struct guild *g = NULL;
short *iptr = NULL;
int type, j, last = 0;
unsigned int now = (unsigned int)time(NULL);
if( !instance->valid(instance_id) )
return; // nothing to do
if( instances[instance_id].progress_timeout && instances[instance_id].progress_timeout <= now )
type = 1;
else if( instances[instance_id].idle_timeout && instances[instance_id].idle_timeout <= now )
type = 2;
else
type = 3;
clif->instance(instance_id, 5, type); // Report users this instance has been destroyed
switch ( instances[instance_id].owner_type ) {
case IOT_NONE:
break;
case IOT_CHAR:
if( ( sd = iMap->id2sd(instances[instance_id].owner_id) ) == NULL ) {
break;
}
iptr = sd->instance;
icptr = &sd->instances;
break;
case IOT_PARTY:
if( ( p = party->search(instances[instance_id].owner_id) ) == NULL ) {
break;
}
iptr = p->instance;
icptr = &p->instances;
break;
case IOT_GUILD:
if( ( g = guild->search(instances[instance_id].owner_id) ) == NULL ) {
break;
}
iptr = g->instance;
icptr = &g->instances;
break;
default:
ShowError("instance_destroy: unknown type %d for owner_id %d and name '%s'.\n", instances[instance_id].owner_type,instances[instance_id].owner_id,instances[instance_id].name);
break;
}
if( iptr != NULL ) {
ARR_FIND(0, *icptr, j, iptr[j] == instance_id);
if( j != *icptr )
iptr[j] = -1;
}
while( instances[instance_id].num_map && last != instances[instance_id].map[0] ) { // Remove all maps from instance
last = instances[instance_id].map[0];
instance->del_map( instances[instance_id].map[0] );
}
if( instances[instance_id].vars )
db_destroy(instances[instance_id].vars);
if( instances[instance_id].progress_timer != INVALID_TIMER )
iTimer->delete_timer( instances[instance_id].progress_timer, instance_destroy_timer);
if( instances[instance_id].idle_timer != INVALID_TIMER )
iTimer->delete_timer( instances[instance_id].idle_timer, instance_destroy_timer);
instances[instance_id].vars = NULL;
if( instances[instance_id].map )
aFree(instances[instance_id].map);
instances[instance_id].map = NULL;
instances[instance_id].state = INSTANCE_FREE;
instances[instance_id].num_map = 0;
}
/*--------------------------------------
* Checks if there are users in the instance or not to start idle timer
*--------------------------------------*/
void instance_check_idle(int instance_id) {
bool idle = true;
unsigned int now = (unsigned int)time(NULL);
if( !instance->valid(instance_id) || instances[instance_id].idle_timeoutval == 0 )
return;
if( instances[instance_id].users )
idle = false;
if( instances[instance_id].idle_timer != INVALID_TIMER && !idle ) {
iTimer->delete_timer(instances[instance_id].idle_timer, instance_destroy_timer);
instances[instance_id].idle_timer = INVALID_TIMER;
instances[instance_id].idle_timeout = 0;
clif->instance(instance_id, 3, 0); // Notify instance users normal instance expiration
} else if( instances[instance_id].idle_timer == INVALID_TIMER && idle ) {
instances[instance_id].idle_timeout = now + instances[instance_id].idle_timeoutval;
instances[instance_id].idle_timer = iTimer->add_timer( iTimer->gettick() + instances[instance_id].idle_timeoutval * 1000, instance_destroy_timer, instance_id, 0);
clif->instance(instance_id, 4, 0); // Notify instance users it will be destroyed of no user join it again in "X" time
}
}
/*--------------------------------------
* Set instance Timers
*--------------------------------------*/
void instance_set_timeout(int instance_id, unsigned int progress_timeout, unsigned int idle_timeout)
{
unsigned int now = (unsigned int)time(0);
if( !instance->valid(instance_id) )
return;
if( instances[instance_id].progress_timer != INVALID_TIMER )
iTimer->delete_timer( instances[instance_id].progress_timer, instance_destroy_timer);
if( instances[instance_id].idle_timer != INVALID_TIMER )
iTimer->delete_timer( instances[instance_id].idle_timer, instance_destroy_timer);
if( progress_timeout ) {
instances[instance_id].progress_timeout = now + progress_timeout;
instances[instance_id].progress_timer = iTimer->add_timer( iTimer->gettick() + progress_timeout * 1000, instance_destroy_timer, instance_id, 0);
} else {
instances[instance_id].progress_timeout = 0;
instances[instance_id].progress_timer = INVALID_TIMER;
}
if( idle_timeout ) {
instances[instance_id].idle_timeoutval = idle_timeout;
instances[instance_id].idle_timer = INVALID_TIMER;
instance_check_idle(instance_id);
} else {
instances[instance_id].idle_timeoutval = 0;
instances[instance_id].idle_timeout = 0;
instances[instance_id].idle_timer = INVALID_TIMER;
}
if( instances[instance_id].idle_timer == INVALID_TIMER && instances[instance_id].progress_timer != INVALID_TIMER )
clif->instance(instance_id, 3, 0);
}
/*--------------------------------------
* Checks if sd in on a instance and should be kicked from it
*--------------------------------------*/
void instance_check_kick(struct map_session_data *sd) {
int16 m = sd->bl.m;
clif->instance_leave(sd->fd);
if( map[m].instance_id >= 0 ) { // User was on the instance map
if( map[m].save.map )
pc->setpos(sd, map[m].save.map, map[m].save.x, map[m].save.y, CLR_TELEPORT);
else
pc->setpos(sd, sd->status.save_point.map, sd->status.save_point.x, sd->status.save_point.y, CLR_TELEPORT);
}
}
void do_final_instance(void) {
int i;
for(i = 0; i < instance->instances; i++) {
instance->destroy(i);
}
if( instances )
aFree(instances);
instance->instances = 0;
}
void do_init_instance(void) {
iTimer->add_timer_func_list(instance_destroy_timer, "instance_destroy_timer");
}
void instance_defaults(void) {
instance = &instance_s;
instance->init = do_init_instance;
instance->final = do_final_instance;
/* start point */
instance->start_id = 0;
/* count */
instance->instances = 0;
/* */
instance->create = instance_create;
instance->add_map = instance_add_map;
instance->del_map = instance_del_map;
instance->map2imap = instance_map2imap;
instance->mapid2imapid = instance_mapid2imapid;
instance->destroy = instance_destroy;
instance->start = instance_init;
instance->check_idle = instance_check_idle;
instance->check_kick = instance_check_kick;
instance->set_timeout = instance_set_timeout;
instance->valid = instance_is_valid;
}