// Copyright (c) Athena Dev Teams - Licensed under GNU GPL // For more information, see LICENCE in the main folder #include "../common/cbasetypes.h" #include "../common/db.h" // ARR_FIND #include "../common/showmsg.h" // ShowWarning #include "../common/socket.h" // RBUF* #include "../common/strlib.h" // safestrncpy #include "atcommand.h" // msg_txt #include "battle.h" // battle_config.* #include "buyingstore.h" // struct s_buyingstore #include "clif.h" // clif_buyingstore_* #include "log.h" // log_pick_pc, log_zeny #include "pc.h" // struct map_session_data /// constants (client-side restrictions) #define BUYINGSTORE_MAX_PRICE 99990000 #define BUYINGSTORE_MAX_AMOUNT 9999 /// failure constants for clif functions enum e_buyingstore_failure { BUYINGSTORE_CREATE = 1, // "Failed to open buying store." BUYINGSTORE_CREATE_OVERWEIGHT = 2, // "Total amount of then possessed items exceeds the weight limit by %d. Please re-enter." BUYINGSTORE_TRADE_BUYER_ZENY = 3, // "All items within the buy limit were purchased." BUYINGSTORE_TRADE_BUYER_NO_ITEMS = 4, // "All items were purchased." BUYINGSTORE_TRADE_SELLER_FAILED = 5, // "The deal has failed." BUYINGSTORE_TRADE_SELLER_COUNT = 6, // "The trade failed, because the entered amount of item %s is higher, than the buyer is willing to buy." BUYINGSTORE_TRADE_SELLER_ZENY = 7, // "The trade failed, because the buyer is lacking required balance." BUYINGSTORE_CREATE_NO_INFO = 8, // "No sale (purchase) information available." }; static unsigned int buyingstore_nextid = 0; static const short buyingstore_blankslots[MAX_SLOTS] = { 0 }; // used when checking whether or not an item's card slots are blank /// Returns unique buying store id static unsigned int buyingstore_getuid(void) { return buyingstore_nextid++; } bool buyingstore_setup(struct map_session_data* sd, unsigned char slots) { if( !battle_config.feature_buying_store || sd->state.vending || sd->state.buyingstore || sd->state.trading || slots == 0 ) { return false; } if( sd->sc.data[SC_NOCHAT] && (sd->sc.data[SC_NOCHAT]->val1&MANNER_NOROOM) ) {// custom: mute limitation return false; } if( map[sd->bl.m].flag.novending ) {// custom: no vending maps clif_displaymessage(sd->fd, msg_txt(276)); // "You can't open a shop on this map" return false; } if( map_getcell(sd->bl.m, sd->bl.x, sd->bl.y, CELL_CHKNOVENDING) ) {// custom: no vending cells clif_displaymessage(sd->fd, msg_txt(204)); // "You can't open a shop on this cell." return false; } if( slots > MAX_BUYINGSTORE_SLOTS ) { ShowWarning("buyingstore_setup: Requested %d slots, but server supports only %d slots.\n", (int)slots, MAX_BUYINGSTORE_SLOTS); slots = MAX_BUYINGSTORE_SLOTS; } sd->buyingstore.slots = slots; clif_buyingstore_open(sd); return true; } void buyingstore_create(struct map_session_data* sd, int zenylimit, unsigned char result, const char* storename, const uint8* itemlist, unsigned int count) { unsigned int i, weight, listidx; struct item_data* id; if( !result || count == 0 ) {// canceled, or no items return; } if( !battle_config.feature_buying_store || pc_istrading(sd) || sd->buyingstore.slots == 0 || count > sd->buyingstore.slots || zenylimit <= 0 || zenylimit > sd->status.zeny || !storename[0] ) {// disabled or invalid input sd->buyingstore.slots = 0; clif_buyingstore_open_failed(sd, BUYINGSTORE_CREATE, 0); return; } if( !pc_can_give_items(sd) ) {// custom: GM is not allowed to buy (give zeny) sd->buyingstore.slots = 0; clif_displaymessage(sd->fd, msg_txt(246)); clif_buyingstore_open_failed(sd, BUYINGSTORE_CREATE, 0); return; } if( sd->sc.data[SC_NOCHAT] && (sd->sc.data[SC_NOCHAT]->val1&MANNER_NOROOM) ) {// custom: mute limitation return; } if( map[sd->bl.m].flag.novending ) {// custom: no vending maps clif_displaymessage(sd->fd, msg_txt(276)); // "You can't open a shop on this map" return; } if( map_getcell(sd->bl.m, sd->bl.x, sd->bl.y, CELL_CHKNOVENDING) ) {// custom: no vending cells clif_displaymessage(sd->fd, msg_txt(204)); // "You can't open a shop on this cell." return; } weight = sd->weight; // check item list for( i = 0; i < count; i++ ) {// itemlist: .W .W .L unsigned short nameid, amount; int price, idx; nameid = RBUFW(itemlist,i*8+0); amount = RBUFW(itemlist,i*8+2); price = RBUFL(itemlist,i*8+4); if( ( id = itemdb_exists(nameid) ) == NULL || amount == 0 ) {// invalid input break; } if( price <= 0 || price > BUYINGSTORE_MAX_PRICE ) {// invalid price: unlike vending, items cannot be bought at 0 Zeny break; } if( !id->flag.buyingstore || !itemdb_cantrade_sub(id, pc_get_group_level(sd), pc_get_group_level(sd)) || ( idx = pc_search_inventory(sd, nameid) ) == -1 ) {// restrictions: allowed, no character-bound items and at least one must be owned break; } if( sd->status.inventory[idx].amount+amount > BUYINGSTORE_MAX_AMOUNT ) {// too many items of same kind break; } if( i ) {// duplicate check. as the client does this too, only malicious intent should be caught here ARR_FIND( 0, i, listidx, sd->buyingstore.items[listidx].nameid == nameid ); if( listidx != i ) {// duplicate ShowWarning("buyingstore_create: Found duplicate item on buying list (nameid=%hu, amount=%hu, account_id=%d, char_id=%d).\n", nameid, amount, sd->status.account_id, sd->status.char_id); break; } } weight+= id->weight*amount; sd->buyingstore.items[i].nameid = nameid; sd->buyingstore.items[i].amount = amount; sd->buyingstore.items[i].price = price; } if( i != count ) {// invalid item/amount/price sd->buyingstore.slots = 0; clif_buyingstore_open_failed(sd, BUYINGSTORE_CREATE, 0); return; } if( (sd->max_weight*90)/100 < weight ) {// not able to carry all wanted items without getting overweight (90%) sd->buyingstore.slots = 0; clif_buyingstore_open_failed(sd, BUYINGSTORE_CREATE_OVERWEIGHT, weight); return; } // success sd->state.buyingstore = true; sd->buyer_id = buyingstore_getuid(); sd->buyingstore.zenylimit = zenylimit; sd->buyingstore.slots = i; // store actual amount of items safestrncpy(sd->message, storename, sizeof(sd->message)); clif_buyingstore_myitemlist(sd); clif_buyingstore_entry(sd); } void buyingstore_close(struct map_session_data* sd) { if( sd->state.buyingstore ) { // invalidate data sd->state.buyingstore = false; memset(&sd->buyingstore, 0, sizeof(sd->buyingstore)); // notify other players clif_buyingstore_disappear_entry(sd); } } void buyingstore_open(struct map_session_data* sd, int account_id) { struct map_session_data* pl_sd; if( !battle_config.feature_buying_store || pc_istrading(sd) ) {// not allowed to sell return; } if( !pc_can_give_items(sd) ) {// custom: GM is not allowed to sell clif_displaymessage(sd->fd, msg_txt(246)); return; } if( ( pl_sd = map_id2sd(account_id) ) == NULL || !pl_sd->state.buyingstore ) {// not online or not buying return; } if( !searchstore_queryremote(sd, account_id) && ( sd->bl.m != pl_sd->bl.m || !check_distance_bl(&sd->bl, &pl_sd->bl, AREA_SIZE) ) ) {// out of view range return; } // success clif_buyingstore_itemlist(sd, pl_sd); } void buyingstore_trade(struct map_session_data* sd, int account_id, unsigned int buyer_id, const uint8* itemlist, unsigned int count) { int zeny = 0; unsigned int i, weight, listidx, k; struct map_session_data* pl_sd; if( count == 0 ) {// nothing to do return; } if( !battle_config.feature_buying_store || pc_istrading(sd) ) {// not allowed to sell clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, 0); return; } if( !pc_can_give_items(sd) ) {// custom: GM is not allowed to sell clif_displaymessage(sd->fd, msg_txt(246)); clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, 0); return; } if( ( pl_sd = map_id2sd(account_id) ) == NULL || !pl_sd->state.buyingstore || pl_sd->buyer_id != buyer_id ) {// not online, not buying or not same store clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, 0); return; } if( !searchstore_queryremote(sd, account_id) && ( sd->bl.m != pl_sd->bl.m || !check_distance_bl(&sd->bl, &pl_sd->bl, AREA_SIZE) ) ) {// out of view range clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, 0); return; } searchstore_clearremote(sd); if( pl_sd->status.zeny < pl_sd->buyingstore.zenylimit ) {// buyer lost zeny in the mean time? fix the limit pl_sd->buyingstore.zenylimit = pl_sd->status.zeny; } weight = pl_sd->weight; // check item list for( i = 0; i < count; i++ ) {// itemlist: .W .W .W unsigned short nameid, amount; int index; index = RBUFW(itemlist,i*6+0)-2; nameid = RBUFW(itemlist,i*6+2); amount = RBUFW(itemlist,i*6+4); if( i ) {// duplicate check. as the client does this too, only malicious intent should be caught here ARR_FIND( 0, i, k, RBUFW(itemlist,k*6+0)-2 == index ); if( k != i ) {// duplicate ShowWarning("buyingstore_trade: Found duplicate item on selling list (prevnameid=%hu, prevamount=%hu, nameid=%hu, amount=%hu, account_id=%d, char_id=%d).\n", RBUFW(itemlist,k*6+2), RBUFW(itemlist,k*6+4), nameid, amount, sd->status.account_id, sd->status.char_id); clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } } if( index < 0 || index >= ARRAYLENGTH(sd->status.inventory) || sd->inventory_data[index] == NULL || sd->status.inventory[index].nameid != nameid || sd->status.inventory[index].amount < amount ) {// invalid input clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } if( sd->status.inventory[index].expire_time || !itemdb_cantrade(&sd->status.inventory[index], pc_get_group_level(sd), pc_get_group_level(pl_sd)) || memcmp(sd->status.inventory[index].card, buyingstore_blankslots, sizeof(buyingstore_blankslots)) ) {// non-tradable item clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } ARR_FIND( 0, pl_sd->buyingstore.slots, listidx, pl_sd->buyingstore.items[listidx].nameid == nameid ); if( listidx == pl_sd->buyingstore.slots || pl_sd->buyingstore.items[listidx].amount == 0 ) {// there is no such item or the buyer has already bought all of them clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } if( pl_sd->buyingstore.items[listidx].amount < amount ) {// buyer does not need that much of the item clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_COUNT, nameid); return; } if( pc_checkadditem(pl_sd, nameid, amount) == ADDITEM_OVERAMOUNT ) {// buyer does not have enough space for this item clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } if( amount*(unsigned int)sd->inventory_data[index]->weight > pl_sd->max_weight-weight ) {// normally this is not supposed to happen, as the total weight is // checked upon creation, but the buyer could have gained items clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_FAILED, nameid); return; } weight+= amount*sd->inventory_data[index]->weight; if( amount*pl_sd->buyingstore.items[listidx].price > pl_sd->buyingstore.zenylimit-zeny ) {// buyer does not have enough zeny clif_buyingstore_trade_failed_seller(sd, BUYINGSTORE_TRADE_SELLER_ZENY, nameid); return; } zeny+= amount*pl_sd->buyingstore.items[listidx].price; } // process item list for( i = 0; i < count; i++ ) {// itemlist: .W .W .W unsigned short nameid, amount; int index; index = RBUFW(itemlist,i*6+0)-2; nameid = RBUFW(itemlist,i*6+2); amount = RBUFW(itemlist,i*6+4); ARR_FIND( 0, pl_sd->buyingstore.slots, listidx, pl_sd->buyingstore.items[listidx].nameid == nameid ); zeny = amount*pl_sd->buyingstore.items[listidx].price; // log log_zeny(sd, LOG_TYPE_BUYING_STORE, pl_sd, zeny); // move item pc_additem(pl_sd, &sd->status.inventory[index], amount, LOG_TYPE_BUYING_STORE); pc_delitem(sd, index, amount, 1, 0, LOG_TYPE_BUYING_STORE); pl_sd->buyingstore.items[listidx].amount-= amount; // pay up pc_payzeny(pl_sd, zeny); pc_getzeny(sd, zeny); pl_sd->buyingstore.zenylimit-= zeny; // notify clients clif_buyingstore_delete_item(sd, index, amount, pl_sd->buyingstore.items[listidx].price); clif_buyingstore_update_item(pl_sd, nameid, amount); } // check whether or not there is still something to buy ARR_FIND( 0, pl_sd->buyingstore.slots, i, pl_sd->buyingstore.items[i].amount != 0 ); if( i == pl_sd->buyingstore.slots ) {// everything was bought clif_buyingstore_trade_failed_buyer(pl_sd, BUYINGSTORE_TRADE_BUYER_NO_ITEMS); } else if( pl_sd->buyingstore.zenylimit == 0 ) {// zeny limit reached clif_buyingstore_trade_failed_buyer(pl_sd, BUYINGSTORE_TRADE_BUYER_ZENY); } else {// continue buying return; } // cannot continue buying buyingstore_close(pl_sd); // remove auto-trader if( pl_sd->state.autotrade ) { map_quit(pl_sd); } } /// Checks if an item is being bought in given player's buying store. bool buyingstore_search(struct map_session_data* sd, unsigned short nameid) { unsigned int i; if( !sd->state.buyingstore ) {// not buying return false; } ARR_FIND( 0, sd->buyingstore.slots, i, sd->buyingstore.items[i].nameid == nameid && sd->buyingstore.items[i].amount ); if( i == sd->buyingstore.slots ) {// not found return false; } return true; } /// Searches for all items in a buyingstore, that match given ids, price and possible cards. /// @return Whether or not the search should be continued. bool buyingstore_searchall(struct map_session_data* sd, const struct s_search_store_search* s) { unsigned int i, idx; struct s_buyingstore_item* it; if( !sd->state.buyingstore ) {// not buying return true; } for( idx = 0; idx < s->item_count; idx++ ) { ARR_FIND( 0, sd->buyingstore.slots, i, sd->buyingstore.items[i].nameid == s->itemlist[idx] && sd->buyingstore.items[i].amount ); if( i == sd->buyingstore.slots ) {// not found continue; } it = &sd->buyingstore.items[i]; if( s->min_price && s->min_price > (unsigned int)it->price ) {// too low price continue; } if( s->max_price && s->max_price < (unsigned int)it->price ) {// too high price continue; } if( s->card_count ) {// ignore cards, as there cannot be any ; } if( !searchstore_result(s->search_sd, sd->buyer_id, sd->status.account_id, sd->message, it->nameid, it->amount, it->price, buyingstore_blankslots, 0) ) {// result set full return false; } } return true; }