// Copyright (c) Athena Dev Teams - Licensed under GNU GPL
// For more information, see LICENCE in the main folder
#include "../common/mmo.h"
#include "../common/malloc.h"
#include "../common/socket.h"
#include "../common/db.h"
#include "../common/lock.h"
#include "../common/showmsg.h"
#include "../common/utils.h"
#include "char.h"
#include "inter.h"
#include "int_storage.h"
#include "int_pet.h"
#include "int_guild.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
// �t�@�C�����̃f�t�H���g
// inter_config_read()�ōĐݒ肳���
char storage_txt[1024]="save/storage.txt";
char guild_storage_txt[1024]="save/g_storage.txt";
static DBMap* storage_db = NULL; // int account_id -> struct storage_data*
static DBMap* guild_storage_db = NULL; // int guild_id -> struct guild_storage*
// �q�Ƀf�[�^����ɕϊ�
bool storage_tostr(char* str, int account_id, struct storage_data* p)
{
int i,j;
char *str_p = str;
str_p += sprintf(str_p, "%d,%d\t", account_id, p->storage_amount);
for( i = 0; i < MAX_STORAGE; i++ )
if( p->items[i].nameid > 0 && p->items[i].amount > 0 )
{
str_p += sprintf(str_p, "%d,%d,%d,%d,%d,%d,%d",
p->items[i].id,p->items[i].nameid,p->items[i].amount,p->items[i].equip,
p->items[i].identify,p->items[i].refine,p->items[i].attribute);
for(j=0; j<MAX_SLOTS; j++)
str_p += sprintf(str_p,",%d",p->items[i].card[j]);
str_p += sprintf(str_p," ");
}
*(str_p++)='\t';
*str_p='\0';
return true;
}
// �������q�Ƀf�[�^�ɕϊ�
bool storage_fromstr(char* str, int* account_id, struct storage_data* p)
{
int tmp_int[256];
char tmp_str[256];
int next,len,i,j;
if( sscanf(str, "%d,%d%n", &tmp_int[0], &tmp_int[1], &next) != 2 )
return false;
*account_id = tmp_int[0];
p->storage_amount = tmp_int[1]; //FIXME: limit to MAX_STORAGE?
next++;
for( i = 0; str[next] && str[next]!='\t' && i < MAX_STORAGE; i++ )
{
if(sscanf(str + next, "%d,%d,%d,%d,%d,%d,%d%[0-9,-]%n",
&tmp_int[0], &tmp_int[1], &tmp_int[2], &tmp_int[3],
&tmp_int[4], &tmp_int[5], &tmp_int[6], tmp_str, &len) != 8)
return false;
p->items[i].id = tmp_int[0];
p->items[i].nameid = tmp_int[1];
p->items[i].amount = tmp_int[2];
p->items[i].equip = tmp_int[3];
p->items[i].identify = tmp_int[4];
p->items[i].refine = tmp_int[5];
p->items[i].attribute = tmp_int[6];
for(j = 0; j < MAX_SLOTS && tmp_str[0] && sscanf(tmp_str, ",%d%[0-9,-]",&tmp_int[0], tmp_str) > 0; j++)
p->items[i].card[j] = tmp_int[0];
next += len;
if (str[next] == ' ')
next++;
}
if( i >= MAX_STORAGE && str[next] && str[next] != '\t' )
ShowWarning("storage_fromstr: Found a storage line with more items than MAX_STORAGE (%d), remaining items have been discarded!\n", MAX_STORAGE);
return true;
}
int guild_storage_tostr(char *str,struct guild_storage *p)
{
int i,j,f=0;
char *str_p = str;
str_p+=sprintf(str,"%d,%d\t",p->guild_id,p->storage_amount);
for(i=0;i<MAX_GUILD_STORAGE;i++)
if( (p->items[i].nameid) && (p->items[i].amount) ){
str_p += sprintf(str_p,"%d,%d,%d,%d,%d,%d,%d",
p->items[i].id,p->items[i].nameid,p->items[i].amount,p->items[i].equip,
p->items[i].identify,p->items[i].refine,p->items[i].attribute);
for(j=0; j<MAX_SLOTS; j++)
str_p += sprintf(str_p,",%d",p->items[i].card[j]);
str_p += sprintf(str_p," ");
f++;
}
*(str_p++)='\t';
*str_p='\0';
if(!f)
str[0]=0;
return 0;
}
int guild_storage_fromstr(char *str,struct guild_storage *p)
{
int tmp_int[256];
char tmp_str[256];
int set,next,len,i,j;
set=sscanf(str,"%d,%d%n",&tmp_int[0],&tmp_int[1],&next);
p->storage_amount=tmp_int[1];
if(set!=2)
return 1;
if(str[next]=='\n' || str[next]=='\r')
return 0;
next++;
for(i=0;str[next] && str[next]!='\t' && i < MAX_GUILD_STORAGE;i++){
if(sscanf(str + next, "%d,%d,%d,%d,%d,%d,%d%[0-9,-]%n",
&tmp_int[0], &tmp_int[1], &tmp_int[2], &tmp_int[3],
&tmp_int[4], &tmp_int[5], &tmp_int[6], tmp_str, &len) == 8)
{
p->items[i].id = tmp_int[0];
p->items[i].nameid = tmp_int[1];
p->items[i].amount = tmp_int[2];
p->items[i].equip = tmp_int[3];
p->items[i].identify = tmp_int[4];
p->items[i].refine = tmp_int[5];
p->items[i].attribute = tmp_int[6];
for(j = 0; j < MAX_SLOTS && tmp_str[0] && sscanf(tmp_str, ",%d%[0-9,-]",&tmp_int[0], tmp_str) > 0; j++)
p->items[i].card[j] = tmp_int[0];
next += len;
if (str[next] == ' ')
next++;
}
else return 1;
}
if (i >= MAX_GUILD_STORAGE && str[next] && str[next]!='\t')
ShowWarning("guild_storage_fromstr: Found a storage line with more items than MAX_GUILD_STORAGE (%d), remaining items have been discarded!\n", MAX_GUILD_STORAGE);
return 0;
}
#ifndef TXT_SQL_CONVERT
static void* create_storage(DBKey key, va_list args)
{
return (struct storage_data *) aCalloc(sizeof(struct storage_data), 1);
}
static void* create_guildstorage(DBKey key, va_list args)
{
struct guild_storage* gs = NULL;
gs = (struct guild_storage *) aCalloc(sizeof(struct guild_storage), 1);
gs->guild_id=key.i;
return gs;
}
/// Loads storage data into the provided data structure.
/// If data doesn't exist, the destination is zeroed and false is returned.
bool storage_load(int account_id, struct storage_data* storage)
{
struct storage_data* s = (struct storage_data*)idb_get(storage_db, account_id);
if( s != NULL )
memcpy(storage, s, sizeof(*storage));
else
memset(storage, 0x00, sizeof(*storage));
return( s != NULL );
}
/// Writes provided data into storage cache.
/// If data contains 0 items, any existing entry in cache is destroyed.
/// If data contains 1+ items and no cache entry exists, a new one is created.
bool storage_save(int account_id, struct storage_data* storage)
{
if( storage->storage_amount > 0 )
{
struct storage_data* s = (struct storage_data*)idb_ensure(storage_db, account_id, create_storage);
memcpy(s, storage, sizeof(*storage));
}
else
{
idb_remove(storage_db, account_id);
}
return true;
}
//---------------------------------------------------------
// �q�Ƀf�[�^��ǂݍ���
int inter_storage_init()
{
char line[65536];
int c = 0;
FILE *fp;
storage_db = idb_alloc(DB_OPT_RELEASE_DATA);
fp=fopen(storage_txt,"r");
if(fp==NULL){
ShowError("can't read : %s\n",storage_txt);
return 1;
}
while( fgets(line, sizeof(line), fp) )
{
int account_id;
struct storage_data *s;
s = (struct storage_data*)aCalloc(sizeof(struct storage_data), 1);
if( s == NULL )
{
ShowFatalError("int_storage: out of memory!\n");
exit(EXIT_FAILURE);
}
if( storage_fromstr(line,&account_id,s) )
{
idb_put(storage_db,account_id,s);
}
else{
ShowError("int_storage: broken data in [%s] line %d\n",storage_txt,c);
aFree(s);
}
c++;
}
fclose(fp);
c = 0;
guild_storage_db = idb_alloc(DB_OPT_RELEASE_DATA);
fp=fopen(guild_storage_txt,"r");
if(fp==NULL){
ShowError("can't read : %s\n",guild_storage_txt);
return 1;
}
while(fgets(line, sizeof(line), fp))
{
int tmp_int;
struct guild_storage *gs;
sscanf(line,"%d",&tmp_int);
gs = (struct guild_storage*)aCalloc(sizeof(struct guild_storage), 1);
if(gs==NULL){
ShowFatalError("int_storage: out of memory!\n");
exit(EXIT_FAILURE);
}
// memset(gs,0,sizeof(struct guild_storage)); aCalloc...
gs->guild_id=tmp_int;
if(gs->guild_id > 0 && guild_storage_fromstr(line,gs) == 0) {
idb_put(guild_storage_db,gs->guild_id,gs);
}
else{
ShowError("int_storage: broken data [%s] line %d\n",guild_storage_txt,c);
aFree(gs);
}
c++;
}
fclose(fp);
return 0;
}
void inter_storage_final() {
if(storage_db)
{
storage_db->destroy(storage_db, NULL);
}
if(guild_storage_db)
{
guild_storage_db->destroy(guild_storage_db, NULL);
}
return;
}
//---------------------------------------------------------
// �q�Ƀf�[�^����������
int inter_storage_save()
{
struct DBIterator* iter;
DBKey key;
struct storage_data* data;
FILE *fp;
int lock;
if( (fp=lock_fopen(storage_txt,&lock))==NULL ){
ShowError("int_storage: can't write [%s] !!! data is lost !!!\n",storage_txt);
return 1;
}
iter = storage_db->iterator(storage_db);
for( data = (struct storage_data*)iter->first(iter,&key); iter->exists(iter); data = (struct storage_data*)iter->next(iter,&key) )
{
int account_id = key.i;
char line[65536];
storage_tostr(line,account_id,data);
fprintf(fp,"%s\n",line);
}
iter->destroy(iter);
lock_fclose(fp,storage_txt,&lock);
return 0;
}
//---------------------------------------------------------
// �q�Ƀf�[�^����������
int inter_guild_storage_save()
{
struct DBIterator* iter;
struct guild_storage* data;
FILE *fp;
int lock;
if( (fp=lock_fopen(guild_storage_txt,&lock))==NULL ){
ShowError("int_storage: can't write [%s] !!! data is lost !!!\n",guild_storage_txt);
return 1;
}
iter = guild_storage_db->iterator(guild_storage_db);
for( data = (struct guild_storage*)iter->first(iter,NULL); iter->exists(iter); data = (struct guild_storage*)iter->next(iter,NULL) )
{
char line[65536];
if(inter_guild_search(data->guild_id) != NULL)
{
guild_storage_tostr(line,data);
if(*line)
fprintf(fp,"%s\n",line);
}
}
iter->destroy(iter);
lock_fclose(fp,guild_storage_txt,&lock);
return 0;
}
// �q�Ƀf�[�^�폜
int inter_storage_delete(int account_id)
{
struct storage_data *s = (struct storage_data*)idb_get(storage_db,account_id);
if(s) {
int i;
for(i=0;i<s->storage_amount;i++){
if(s->items[i].card[0] == (short)0xff00)
inter_pet_delete( MakeDWord(s->items[i].card[1],s->items[i].card[2]) );
}
idb_remove(storage_db,account_id);
}
return 0;
}
// �M���h�q�Ƀf�[�^�폜
int inter_guild_storage_delete(int guild_id)
{
struct guild_storage *gs = (struct guild_storage*)idb_get(guild_storage_db,guild_id);
if(gs) {
int i;
for(i=0;i<gs->storage_amount;i++){
if(gs->items[i].card[0] == (short)0xff00)
inter_pet_delete( MakeDWord(gs->items[i].card[1],gs->items[i].card[2]) );
}
idb_remove(guild_storage_db,guild_id);
}
return 0;
}
struct guild_storage *guild2storage(int guild_id)
{
struct guild_storage* gs = NULL;
if(inter_guild_search(guild_id) != NULL)
gs = (struct guild_storage*)idb_ensure(guild_storage_db, guild_id, create_guildstorage);
return gs;
}
//---------------------------------------------------------
// map server�ւ̒ʐM
int mapif_load_guild_storage(int fd,int account_id,int guild_id)
{
struct guild_storage *gs=guild2storage(guild_id);
WFIFOHEAD(fd, sizeof(struct guild_storage)+12);
WFIFOW(fd,0)=0x3818;
if(gs) {
WFIFOW(fd,2)=sizeof(struct guild_storage)+12;
WFIFOL(fd,4)=account_id;
WFIFOL(fd,8)=guild_id;
memcpy(WFIFOP(fd,12),gs,sizeof(struct guild_storage));
}
else {
WFIFOW(fd,2)=12;
WFIFOL(fd,4)=account_id;
WFIFOL(fd,8)=0;
}
WFIFOSET(fd,WFIFOW(fd,2));
return 0;
}
int mapif_save_guild_storage_ack(int fd,int account_id,int guild_id,int fail)
{
WFIFOHEAD(fd,11);
WFIFOW(fd,0)=0x3819;
WFIFOL(fd,2)=account_id;
WFIFOL(fd,6)=guild_id;
WFIFOB(fd,10)=fail;
WFIFOSET(fd,11);
return 0;
}
//---------------------------------------------------------
// map server����̒ʐM
int mapif_parse_LoadGuildStorage(int fd)
{
RFIFOHEAD(fd);
mapif_load_guild_storage(fd,RFIFOL(fd,2),RFIFOL(fd,6));
return 0;
}
int mapif_parse_SaveGuildStorage(int fd)
{
struct guild_storage *gs;
int guild_id, len;
RFIFOHEAD(fd);
guild_id=RFIFOL(fd,8);
len=RFIFOW(fd,2);
if(sizeof(struct guild_storage)!=len-12){
ShowError("inter storage: data size error %d %d\n",sizeof(struct guild_storage),len-12);
}
else {
gs=guild2storage(guild_id);
if(gs) {
memcpy(gs,RFIFOP(fd,12),sizeof(struct guild_storage));
mapif_save_guild_storage_ack(fd,RFIFOL(fd,4),guild_id,0);
}
else
mapif_save_guild_storage_ack(fd,RFIFOL(fd,4),guild_id,1);
}
return 0;
}
// map server ����̒ʐM
// �E�P�p�P�b�g�̂݉�͂��邱��
// �E�p�P�b�g���f�[�^��inter.c�ɃZ�b�g���Ă�������
// �E�p�P�b�g���`�F�b�N��ARFIFOSKIP�͌Ăяo�����ōs����̂ōs���Ă͂Ȃ�Ȃ�
// �E�G���[�Ȃ�0(false)�A�����łȂ��Ȃ�1(true)���������Ȃ���Ȃ�Ȃ�
int inter_storage_parse_frommap(int fd)
{
RFIFOHEAD(fd);
switch(RFIFOW(fd,0)){
case 0x3018: mapif_parse_LoadGuildStorage(fd); break;
case 0x3019: mapif_parse_SaveGuildStorage(fd); break;
default:
return 0;
}
return 1;
}
#endif //TXT_SQL_CONVERT