// $Id: int_pet.c,v 1.1.1.1 2004/09/10 17:26:51 MagicalTux Exp $ #include "inter.h" #include "int_pet.h" #include "mmo.h" #include "char.h" #include "socket.h" #include "db.h" #include "lock.h" #include #include #include char pet_txt[1024]="save/pet.txt"; static struct dbt *pet_db; static int pet_newid = 100; int inter_pet_tostr(char *str,struct s_pet *p) { int len; if(p->hungry < 0) p->hungry = 0; else if(p->hungry > 100) p->hungry = 100; if(p->intimate < 0) p->intimate = 0; else if(p->intimate > 1000) p->intimate = 1000; len=sprintf(str,"%d,%d,%s\t%d,%d,%d,%d,%d,%d,%d,%d,%d", p->pet_id,p->class,p->name,p->account_id,p->char_id,p->level,p->egg_id, p->equip,p->intimate,p->hungry,p->rename_flag,p->incuvate); return 0; } int inter_pet_fromstr(char *str,struct s_pet *p) { int s; int tmp_int[16]; char tmp_str[256]; memset(p,0,sizeof(struct s_pet)); // printf("sscanf pet main info\n"); s=sscanf(str,"%d,%d,%[^\t]\t%d,%d,%d,%d,%d,%d,%d,%d,%d",&tmp_int[0],&tmp_int[1],tmp_str,&tmp_int[2], &tmp_int[3],&tmp_int[4],&tmp_int[5],&tmp_int[6],&tmp_int[7],&tmp_int[8],&tmp_int[9],&tmp_int[10]); if(s!=12) return 1; p->pet_id = tmp_int[0]; p->class = tmp_int[1]; memcpy(p->name,tmp_str,24); p->account_id = tmp_int[2]; p->char_id = tmp_int[3]; p->level = tmp_int[4]; p->egg_id = tmp_int[5]; p->equip = tmp_int[6]; p->intimate = tmp_int[7]; p->hungry = tmp_int[8]; p->rename_flag = tmp_int[9]; p->incuvate = tmp_int[10]; if(p->hungry < 0) p->hungry = 0; else if(p->hungry > 100) p->hungry = 100; if(p->intimate < 0) p->intimate = 0; else if(p->intimate > 1000) p->intimate = 1000; return 0; } int inter_pet_init() { char line[8192]; struct s_pet *p; FILE *fp; int c=0; pet_db=numdb_init(); if( (fp=fopen(pet_txt,"r"))==NULL ) return 1; while(fgets(line,sizeof(line),fp)){ p=calloc(sizeof(struct s_pet), 1); if(p==NULL){ printf("int_pet: out of memory!\n"); exit(0); } memset(p,0,sizeof(struct s_pet)); if(inter_pet_fromstr(line,p)==0 && p->pet_id>0){ if( p->pet_id >= pet_newid) pet_newid=p->pet_id+1; numdb_insert(pet_db,p->pet_id,p); }else{ printf("int_pet: broken data [%s] line %d\n",pet_txt,c); free(p); } c++; } fclose(fp); // printf("int_pet: %s read done (%d pets)\n",pet_txt,c); return 0; } int inter_pet_save_sub(void *key,void *data,va_list ap) { char line[8192]; FILE *fp; inter_pet_tostr(line,(struct s_pet *)data); fp=va_arg(ap,FILE *); fprintf(fp,"%s" RETCODE,line); return 0; } int inter_pet_save() { FILE *fp; int lock; if( (fp=lock_fopen(pet_txt,&lock))==NULL ){ printf("int_pet: cant write [%s] !!! data is lost !!!\n",pet_txt); return 1; } numdb_foreach(pet_db,inter_pet_save_sub,fp); lock_fclose(fp,pet_txt,&lock); // printf("int_pet: %s saved.\n",pet_txt); return 0; } int inter_pet_delete(int pet_id) { struct s_pet *p; p = numdb_search(pet_db,pet_id); if( p == NULL) return 1; else { numdb_erase(pet_db,pet_id); printf("pet_id: %d deleted\n",pet_id); } return 0; } int mapif_pet_created(int fd,int account_id,struct s_pet *p) { WFIFOW(fd,0)=0x3880; WFIFOL(fd,2)=account_id; if(p!=NULL){ WFIFOB(fd,6)=0; WFIFOL(fd,7)=p->pet_id; printf("int_pet: created! %d %s\n",p->pet_id,p->name); }else{ WFIFOB(fd,6)=1; WFIFOL(fd,7)=0; } WFIFOSET(fd,11); return 0; } int mapif_pet_info(int fd,int account_id,struct s_pet *p) { WFIFOW(fd,0)=0x3881; WFIFOW(fd,2)=sizeof(struct s_pet) + 9; WFIFOL(fd,4)=account_id; WFIFOB(fd,8)=0; memcpy(WFIFOP(fd,9),p,sizeof(struct s_pet)); WFIFOSET(fd,WFIFOW(fd,2)); return 0; } int mapif_pet_noinfo(int fd,int account_id) { WFIFOW(fd,0)=0x3881; WFIFOW(fd,2)=sizeof(struct s_pet) + 9; WFIFOL(fd,4)=account_id; WFIFOB(fd,8)=1; memset(WFIFOP(fd,9),0,sizeof(struct s_pet)); WFIFOSET(fd,WFIFOW(fd,2)); return 0; } int mapif_save_pet_ack(int fd,int account_id,int flag) { WFIFOW(fd,0)=0x3882; WFIFOL(fd,2)=account_id; WFIFOB(fd,6)=flag; WFIFOSET(fd,7); return 0; } int mapif_delete_pet_ack(int fd,int flag) { WFIFOW(fd,0)=0x3883; WFIFOB(fd,2)=flag; WFIFOSET(fd,3); return 0; } int mapif_create_pet(int fd,int account_id,int char_id,short pet_class,short pet_lv,short pet_egg_id, short pet_equip,short intimate,short hungry,char rename_flag,char incuvate,char *pet_name) { struct s_pet *p; p=malloc(sizeof(struct s_pet)); if(p==NULL){ printf("int_pet: out of memory !\n"); mapif_pet_created(fd,account_id,NULL); return 0; } memset(p,0,sizeof(struct s_pet)); p->pet_id = pet_newid++; memcpy(p->name,pet_name,24); if(incuvate == 1) p->account_id = p->char_id = 0; else { p->account_id = account_id; p->char_id = char_id; } p->class = pet_class; p->level = pet_lv; p->egg_id = pet_egg_id; p->equip = pet_equip; p->intimate = intimate; p->hungry = hungry; p->rename_flag = rename_flag; p->incuvate = incuvate; if(p->hungry < 0) p->hungry = 0; else if(p->hungry > 100) p->hungry = 100; if(p->intimate < 0) p->intimate = 0; else if(p->intimate > 1000) p->intimate = 1000; numdb_insert(pet_db,p->pet_id,p); mapif_pet_created(fd,account_id,p); return 0; } int mapif_load_pet(int fd,int account_id,int char_id,int pet_id) { struct s_pet *p; p=numdb_search(pet_db,pet_id); if(p!=NULL) { if(p->incuvate == 1) { p->account_id = p->char_id = 0; mapif_pet_info(fd,account_id,p); } else if(account_id == p->account_id && char_id == p->char_id) mapif_pet_info(fd,account_id,p); else mapif_pet_noinfo(fd,account_id); } else mapif_pet_noinfo(fd,account_id); return 0; } int mapif_save_pet(int fd,int account_id,struct s_pet *data) { struct s_pet *p; int pet_id; int len=RFIFOW(fd,2); if(sizeof(struct s_pet)!=len-8) { printf("inter pet: data size error %d %d\n",sizeof(struct s_pet),len-8); } else{ pet_id = data->pet_id; p=numdb_search(pet_db,pet_id); if(p == NULL) { p=malloc(sizeof(struct s_pet)); if(p==NULL){ printf("int_pet: out of memory !\n"); mapif_save_pet_ack(fd,account_id,1); return 0; } memset(p,0,sizeof(struct s_pet)); p->pet_id = data->pet_id; if(p->pet_id == 0) data->pet_id = p->pet_id = pet_newid++; numdb_insert(pet_db,p->pet_id,p); } if(data->hungry < 0) data->hungry = 0; else if(data->hungry > 100) data->hungry = 100; if(data->intimate < 0) data->intimate = 0; else if(data->intimate > 1000) data->intimate = 1000; memcpy(p,data,sizeof(struct s_pet)); if(p->incuvate == 1) p->account_id = p->char_id = 0; mapif_save_pet_ack(fd,account_id,0); } return 0; } int mapif_delete_pet(int fd,int pet_id) { mapif_delete_pet_ack(fd,inter_pet_delete(pet_id)); return 0; } int mapif_parse_CreatePet(int fd) { mapif_create_pet(fd,RFIFOL(fd,2),RFIFOL(fd,6),RFIFOW(fd,10),RFIFOW(fd,12),RFIFOW(fd,14),RFIFOW(fd,16),RFIFOL(fd,18), RFIFOL(fd,20),RFIFOB(fd,22),RFIFOB(fd,23),RFIFOP(fd,24)); return 0; } int mapif_parse_LoadPet(int fd) { mapif_load_pet(fd,RFIFOL(fd,2),RFIFOL(fd,6),RFIFOL(fd,10)); return 0; } int mapif_parse_SavePet(int fd) { mapif_save_pet(fd,RFIFOL(fd,4),(struct s_pet *)RFIFOP(fd,8)); return 0; } int mapif_parse_DeletePet(int fd) { mapif_delete_pet(fd,RFIFOL(fd,2)); return 0; } // map server からの通信 // ・1パケットのみ解析すること // ・パケット長データはinter.cにセットしておくこと // ・パケット長チェックや、RFIFOSKIPは呼び出し元で行われるので行ってはならない // ・エラーなら0(false)、そうでないなら1(true)をかえさなければならない int inter_pet_parse_frommap(int fd) { switch(RFIFOW(fd,0)){ case 0x3080: mapif_parse_CreatePet(fd); break; case 0x3081: mapif_parse_LoadPet(fd); break; case 0x3082: mapif_parse_SavePet(fd); break; case 0x3083: mapif_parse_DeletePet(fd); break; default: return 0; } return 1; }