/**
* This file is part of Hercules.
* http://herc.ws - http://github.com/HerculesWS/Hercules
*
* Copyright (C) 2012-2015 Hercules Dev Team
* Copyright (C) Athena Dev Teams
*
* Hercules 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 3 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, see .
*/
#define HERCULES_CORE
#include "vending.h"
#include "map/atcommand.h"
#include "map/battle.h"
#include "map/chrif.h"
#include "map/clif.h"
#include "map/itemdb.h"
#include "map/log.h"
#include "map/map.h"
#include "map/npc.h"
#include "map/path.h"
#include "map/pc.h"
#include "map/skill.h"
#include "common/nullpo.h"
#include "common/strlib.h"
#include "common/utils.h"
#include
#include
struct vending_interface vending_s;
struct vending_interface *vending;
/// Returns an unique vending shop id.
static inline unsigned int getid(void) {
return vending->next_id++;
}
/*==========================================
* Close shop
*------------------------------------------*/
void vending_closevending(struct map_session_data* sd) {
nullpo_retv(sd);
if( sd->state.vending ) {
sd->state.vending = 0;
clif->closevendingboard(&sd->bl, 0);
idb_remove(vending->db, sd->status.char_id);
}
}
/*==========================================
* Request a shop's item list
*------------------------------------------*/
void vending_vendinglistreq(struct map_session_data* sd, unsigned int id) {
struct map_session_data* vsd;
nullpo_retv(sd);
if( (vsd = map->id2sd(id)) == NULL )
return;
if( !vsd->state.vending )
return; // not vending
if (!pc_can_give_items(sd) || !pc_can_give_items(vsd)) { //check if both GMs are allowed to trade
// GM is not allowed to trade
clif->message(sd->fd, msg_sd(sd,246));
return;
}
sd->vended_id = vsd->vender_id; // register vending uid
clif->vendinglist(sd, id, vsd->vending);
}
/*==========================================
* Purchase item(s) from a shop
*------------------------------------------*/
void vending_purchasereq(struct map_session_data* sd, int aid, unsigned int uid, const uint8* data, int count) {
int i, j, cursor, w, new_ = 0, blank, vend_list[MAX_VENDING];
int64 z;
struct s_vending vend[MAX_VENDING]; // against duplicate packets
struct map_session_data* vsd = map->id2sd(aid);
nullpo_retv(sd);
if( vsd == NULL || !vsd->state.vending || vsd->bl.id == sd->bl.id )
return; // invalid shop
if( vsd->vender_id != uid ) { // shop has changed
clif->buyvending(sd, 0, 0, 6); // store information was incorrect
return;
}
if( !searchstore->queryremote(sd, aid) && ( sd->bl.m != vsd->bl.m || !check_distance_bl(&sd->bl, &vsd->bl, AREA_SIZE) ) )
return; // shop too far away
searchstore->clearremote(sd);
if( count < 1 || count > MAX_VENDING || count > vsd->vend_num )
return; // invalid amount of purchased items
blank = pc->inventoryblank(sd); //number of free cells in the buyer's inventory
// duplicate item in vending to check hacker with multiple packets
memcpy(&vend, &vsd->vending, sizeof(vsd->vending)); // copy vending list
// some checks
z = 0; // zeny counter
w = 0; // weight counter
for (i = 0; i < count; i++) {
short amount = *(const uint16*)(data + 4*i + 0);
short idx = *(const uint16*)(data + 4*i + 2);
idx -= 2;
if( amount <= 0 )
return;
// check of item index in the cart
if( idx < 0 || idx >= MAX_CART )
return;
ARR_FIND( 0, vsd->vend_num, j, vsd->vending[j].index == idx );
if( j == vsd->vend_num )
return; //picked non-existing item
else
vend_list[i] = j;
z += (int64)vsd->vending[j].value * amount;
if (z > sd->status.zeny || z < 0 || z > MAX_ZENY) {
clif->buyvending(sd, idx, amount, 1); // you don't have enough zeny
return;
}
if (z > MAX_ZENY - vsd->status.zeny && !battle_config.vending_over_max) {
clif->buyvending(sd, idx, vsd->vending[j].amount, 4); // too much zeny = overflow
return;
}
w += itemdb_weight(vsd->status.cart[idx].nameid) * amount;
if( w + sd->weight > sd->max_weight ) {
clif->buyvending(sd, idx, amount, 2); // you can not buy, because overweight
return;
}
//Check to see if cart/vend info is in sync.
if( vend[j].amount > vsd->status.cart[idx].amount )
vend[j].amount = vsd->status.cart[idx].amount;
// if they try to add packets (example: get twice or more 2 apples if marchand has only 3 apples).
// here, we check cumulative amounts
if( vend[j].amount < amount ) {
// send more quantity is not a hack (an other player can have buy items just before)
clif->buyvending(sd, idx, vsd->vending[j].amount, 4); // not enough quantity
return;
}
vend[j].amount -= amount;
switch( pc->checkadditem(sd, vsd->status.cart[idx].nameid, amount) ) {
case ADDITEM_EXIST:
break; //We'd add this item to the existing one (in buyers inventory)
case ADDITEM_NEW:
new_++;
if (new_ > blank)
return; //Buyer has no space in his inventory
break;
case ADDITEM_OVERAMOUNT:
return; //too many items
}
}
pc->payzeny(sd, (int)z, LOG_TYPE_VENDING, vsd);
if( battle_config.vending_tax )
z -= apply_percentrate64(z, battle_config.vending_tax, 10000);
pc->getzeny(vsd, (int)z, LOG_TYPE_VENDING, sd);
for (i = 0; i < count; i++) {
short amount = *(const uint16*)(data + 4*i + 0);
short idx = *(const uint16*)(data + 4*i + 2);
idx -= 2;
// vending item
pc->additem(sd, &vsd->status.cart[idx], amount, LOG_TYPE_VENDING);
vsd->vending[vend_list[i]].amount -= amount;
pc->cart_delitem(vsd, idx, amount, 0, LOG_TYPE_VENDING);
clif->vendingreport(vsd, idx, amount);
//print buyer's name
if( battle_config.buyer_name ) {
char temp[256];
sprintf(temp, msg_sd(vsd,265), sd->status.name);
clif_disp_onlyself(vsd, temp);
}
}
// compact the vending list
for( i = 0, cursor = 0; i < vsd->vend_num; i++ ) {
if( vsd->vending[i].amount == 0 )
continue;
if( cursor != i ) { // speedup
vsd->vending[cursor].index = vsd->vending[i].index;
vsd->vending[cursor].amount = vsd->vending[i].amount;
vsd->vending[cursor].value = vsd->vending[i].value;
}
cursor++;
}
vsd->vend_num = cursor;
//Always save BOTH: buyer and customer
if( map->save_settings&2 ) {
chrif->save(sd,0);
chrif->save(vsd,0);
}
//check for @AUTOTRADE users [durf]
if( vsd->state.autotrade ) {
//see if there is anything left in the shop
ARR_FIND( 0, vsd->vend_num, i, vsd->vending[i].amount > 0 );
if( i == vsd->vend_num ) {
//Close Vending (this was automatically done by the client, we have to do it manually for autovenders) [Skotlex]
vending->close(vsd);
map->quit(vsd); //They have no reason to stay around anymore, do they?
} else
pc->autotrade_update(vsd,PAUC_REFRESH);
}
}
/*==========================================
* Open shop
* data := {.w .w .l}[count]
*------------------------------------------*/
void vending_openvending(struct map_session_data* sd, const char* message, const uint8* data, int count) {
int i, j;
int vending_skill_lvl;
nullpo_retv(sd);
if ( pc_isdead(sd) || !sd->state.prevend || pc_istrading(sd))
return; // can't open vendings lying dead || didn't use via the skill (wpe/hack) || can't have 2 shops at once
vending_skill_lvl = pc->checkskill(sd, MC_VENDING);
// skill level and cart check
if( !vending_skill_lvl || !pc_iscarton(sd) ) {
clif->skill_fail(sd, MC_VENDING, USESKILL_FAIL_LEVEL, 0);
return;
}
// check number of items in shop
if( count < 1 || count > MAX_VENDING || count > 2 + vending_skill_lvl ) {
// invalid item count
clif->skill_fail(sd, MC_VENDING, USESKILL_FAIL_LEVEL, 0);
return;
}
// filter out invalid items
i = 0;
for (j = 0; j < count; j++) {
short index = *(const uint16*)(data + 8*j + 0);
short amount = *(const uint16*)(data + 8*j + 2);
unsigned int value = *(const uint32*)(data + 8*j + 4);
index -= 2; // offset adjustment (client says that the first cart position is 2)
if( index < 0 || index >= MAX_CART // invalid position
|| pc->cartitem_amount(sd, index, amount) < 0 // invalid item or insufficient quantity
//NOTE: official server does not do any of the following checks!
|| !sd->status.cart[index].identify // unidentified item
|| (sd->status.cart[index].attribute & ATTR_BROKEN) != 0 // broken item
|| sd->status.cart[index].expire_time // It should not be in the cart but just in case
|| (sd->status.cart[index].bound && !pc_can_give_bound_items(sd)) // can't trade bound items w/o permission
|| !itemdb_cantrade(&sd->status.cart[index], pc_get_group_level(sd), pc_get_group_level(sd)) ) // untradeable item
continue;
sd->vending[i].index = index;
sd->vending[i].amount = amount;
sd->vending[i].value = cap_value(value, 0, (unsigned int)battle_config.vending_max_value);
i++; // item successfully added
}
if( i != j )
clif->message (sd->fd, msg_sd(sd,266)); //"Some of your items cannot be vended and were removed from the shop."
if( i == 0 ) { // no valid item found
clif->skill_fail(sd, MC_VENDING, USESKILL_FAIL_LEVEL, 0); // custom reply packet
return;
}
sd->state.prevend = sd->state.workinprogress = 0;
sd->state.vending = true;
sd->vender_id = getid();
sd->vend_num = i;
safestrncpy(sd->message, message, MESSAGE_SIZE);
clif->openvending(sd,sd->bl.id,sd->vending);
clif->showvendingboard(&sd->bl,message,0);
idb_put(vending->db, sd->status.char_id, sd);
}
/// Checks if an item is being sold in given player's vending.
bool vending_search(struct map_session_data* sd, unsigned short nameid) {
int i;
if( !sd->state.vending ) { // not vending
return false;
}
ARR_FIND( 0, sd->vend_num, i, sd->status.cart[sd->vending[i].index].nameid == (short)nameid );
if( i == sd->vend_num ) { // not found
return false;
}
return true;
}
/// Searches for all items in a vending, that match given ids, price and possible cards.
/// @return Whether or not the search should be continued.
bool vending_searchall(struct map_session_data* sd, const struct s_search_store_search* s) {
int i, c, slot;
unsigned int idx, cidx;
struct item* it;
if( !sd->state.vending ) // not vending
return true;
for( idx = 0; idx < s->item_count; idx++ ) {
ARR_FIND( 0, sd->vend_num, i, sd->status.cart[sd->vending[i].index].nameid == (short)s->itemlist[idx] );
if( i == sd->vend_num ) {// not found
continue;
}
it = &sd->status.cart[sd->vending[i].index];
if( s->min_price && s->min_price > sd->vending[i].value ) {// too low price
continue;
}
if( s->max_price && s->max_price < sd->vending[i].value ) {// too high price
continue;
}
if( s->card_count ) {// check cards
if( itemdb_isspecial(it->card[0]) ) {// something, that is not a carded
continue;
}
slot = itemdb_slot(it->nameid);
for( c = 0; c < slot && it->card[c]; c ++ ) {
ARR_FIND( 0, s->card_count, cidx, s->cardlist[cidx] == it->card[c] );
if( cidx != s->card_count )
{// found
break;
}
}
if( c == slot || !it->card[c] ) {// no card match
continue;
}
}
if( !searchstore->result(s->search_sd, sd->vender_id, sd->status.account_id, sd->message, it->nameid, sd->vending[i].amount, sd->vending[i].value, it->card, it->refine) )
{// result set full
return false;
}
}
return true;
}
void final(void) {
db_destroy(vending->db);
}
void init(bool minimal) {
vending->db = idb_alloc(DB_OPT_BASE);
vending->next_id = 0;
}
void vending_defaults(void) {
vending = &vending_s;
vending->init = init;
vending->final = final;
vending->close = vending_closevending;
vending->open = vending_openvending;
vending->list = vending_vendinglistreq;
vending->purchase = vending_purchasereq;
vending->search = vending_search;
vending->searchall = vending_searchall;
}