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eqemu-server/common/patches/uf.cpp
SecretsOTheP 4a4a0c5e8b * -Exported additional entity IDs for dropped items to perl upon EVENT_CLICK_OBJECT (clicker_id) and EVENT_PLAYER_PICKUP ($picked_up_entity_id) 
-Identified Size / SolidType fields in newer clients and properly exported it to EQEmu for use in UF, RoF, RoF2 via perl accessors. (Should work in LUA, no testing was done though for LUA)
-Added a sanity check for size to objects. Any size over 5000.f seems to crash the newer clients' graphical engines and PEQ has some containers filled in with bogus values.
-Added the ability to return a value on perl function EVENT_PLAYER_PICKUP which sends a fake dropped item ID to the client to generate the appropriate client response so the item can stay on the ground and not be 'picked up'. Should also work in LUA, didn't test LUA.
-Renamed unknown008 and unknown010 to size and solidtype respectively for objects.
2015-05-06 18:50:08 -04:00

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#include "../global_define.h"
#include "../eqemu_logsys.h"
#include "uf.h"
#include "../opcodemgr.h"
#include "../eq_stream_ident.h"
#include "../crc32.h"
#include "../eq_packet_structs.h"
#include "../misc_functions.h"
#include "../string_util.h"
#include "../item.h"
#include "uf_structs.h"
#include "../rulesys.h"
#include <iostream>
#include <sstream>
namespace UF
{
static const char *name = "UF";
static OpcodeManager *opcodes = nullptr;
static Strategy struct_strategy;
char* SerializeItem(const ItemInst *inst, int16 slot_id, uint32 *length, uint8 depth);
// server to client inventory location converters
static inline uint32 ServerToUFSlot(uint32 serverSlot);
static inline uint32 ServerToUFCorpseSlot(uint32 serverCorpseSlot);
// client to server inventory location converters
static inline uint32 UFToServerSlot(uint32 ufSlot);
static inline uint32 UFToServerCorpseSlot(uint32 ufCorpseSlot);
// server to client text link converter
static inline void ServerToUFTextLink(std::string& ufTextLink, const std::string& serverTextLink);
// client to server text link converter
static inline void UFToServerTextLink(std::string& serverTextLink, const std::string& ufTextLink);
void Register(EQStreamIdentifier &into)
{
//create our opcode manager if we havent already
if (opcodes == nullptr) {
//TODO: get this file name from the config file
std::string opfile = "patch_";
opfile += name;
opfile += ".conf";
//load up the opcode manager.
//TODO: figure out how to support shared memory with multiple patches...
opcodes = new RegularOpcodeManager();
if (!opcodes->LoadOpcodes(opfile.c_str())) {
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Error loading opcodes file %s. Not registering patch %s.", opfile.c_str(), name);
return;
}
}
//ok, now we have what we need to register.
EQStream::Signature signature;
std::string pname;
//register our world signature.
pname = std::string(name) + "_world";
signature.ignore_eq_opcode = 0;
signature.first_length = sizeof(structs::LoginInfo_Struct);
signature.first_eq_opcode = opcodes->EmuToEQ(OP_SendLoginInfo);
into.RegisterPatch(signature, pname.c_str(), &opcodes, &struct_strategy);
//register our zone signature.
pname = std::string(name) + "_zone";
signature.ignore_eq_opcode = opcodes->EmuToEQ(OP_AckPacket);
signature.first_length = sizeof(structs::ClientZoneEntry_Struct);
signature.first_eq_opcode = opcodes->EmuToEQ(OP_ZoneEntry);
into.RegisterPatch(signature, pname.c_str(), &opcodes, &struct_strategy);
Log.Out(Logs::General, Logs::Netcode, "[IDENTIFY] Registered patch %s", name);
}
void Reload()
{
//we have a big problem to solve here when we switch back to shared memory
//opcode managers because we need to change the manager pointer, which means
//we need to go to every stream and replace it's manager.
if (opcodes != nullptr) {
//TODO: get this file name from the config file
std::string opfile = "patch_";
opfile += name;
opfile += ".conf";
if (!opcodes->ReloadOpcodes(opfile.c_str())) {
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Error reloading opcodes file %s for patch %s.", opfile.c_str(), name);
return;
}
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Reloaded opcodes for patch %s", name);
}
}
Strategy::Strategy() : StructStrategy()
{
//all opcodes default to passthrough.
#include "ss_register.h"
#include "uf_ops.h"
}
std::string Strategy::Describe() const
{
std::string r;
r += "Patch ";
r += name;
return(r);
}
const ClientVersion Strategy::GetClientVersion() const
{
return ClientVersion::UF;
}
#include "ss_define.h"
// ENCODE methods
ENCODE(OP_Action)
{
ENCODE_LENGTH_EXACT(Action_Struct);
SETUP_DIRECT_ENCODE(Action_Struct, structs::ActionAlt_Struct);
OUT(target);
OUT(source);
OUT(level);
eq->instrument_mod = 1.0f + (emu->instrument_mod - 10) / 10.0f;
eq->knockback_angle = emu->sequence;
OUT(type);
OUT(spell);
eq->level2 = eq->level;
eq->effect_flag = emu->buff_unknown;
eq->unknown37 = 0x01;
eq->unknown44 = 0xFFFFFFFF;
eq->unknown48 = 0xFFFFFFFF;
eq->unknown52 = 0xFFFFFFFF;
/*OUT(target);
OUT(source);
OUT(level);
OUT(instrument_mod);
eq->sequence = emu->sequence;
OUT(type);
//OUT(damage);
OUT(spell);
eq->level2 = emu->level;
OUT(buff_unknown); // if this is 4, a buff icon is made
//eq->unknown0036 = -1;
//eq->unknown0040 = -1;
//eq->unknown0044 = -1;*/
FINISH_ENCODE();
}
ENCODE(OP_AdventureMerchantSell)
{
ENCODE_LENGTH_EXACT(Adventure_Sell_Struct);
SETUP_DIRECT_ENCODE(Adventure_Sell_Struct, structs::Adventure_Sell_Struct);
eq->unknown000 = 1;
OUT(npcid);
eq->slot = ServerToUFSlot(emu->slot);
OUT(charges);
OUT(sell_price);
FINISH_ENCODE();
}
ENCODE(OP_AltCurrency)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *emu_buffer = in->pBuffer;
uint32 opcode = *((uint32*)emu_buffer);
if (opcode == 8) {
AltCurrencyPopulate_Struct *populate = (AltCurrencyPopulate_Struct*)emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_AltCurrency, sizeof(structs::AltCurrencyPopulate_Struct)
+ sizeof(structs::AltCurrencyPopulateEntry_Struct) * populate->count);
structs::AltCurrencyPopulate_Struct *out_populate = (structs::AltCurrencyPopulate_Struct*)outapp->pBuffer;
out_populate->opcode = populate->opcode;
out_populate->count = populate->count;
for (uint32 i = 0; i < populate->count; ++i) {
out_populate->entries[i].currency_number = populate->entries[i].currency_number;
out_populate->entries[i].currency_number2 = populate->entries[i].currency_number2;
out_populate->entries[i].item_id = populate->entries[i].item_id;
out_populate->entries[i].item_icon = populate->entries[i].item_icon;
out_populate->entries[i].stack_size = populate->entries[i].stack_size;
out_populate->entries[i].unknown00 = populate->entries[i].unknown00;
}
dest->FastQueuePacket(&outapp, ack_req);
}
else {
EQApplicationPacket *outapp = new EQApplicationPacket(OP_AltCurrency, sizeof(AltCurrencyUpdate_Struct));
memcpy(outapp->pBuffer, emu_buffer, sizeof(AltCurrencyUpdate_Struct));
dest->FastQueuePacket(&outapp, ack_req);
}
//dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
ENCODE(OP_AltCurrencySell)
{
ENCODE_LENGTH_EXACT(AltCurrencySellItem_Struct);
SETUP_DIRECT_ENCODE(AltCurrencySellItem_Struct, structs::AltCurrencySellItem_Struct);
OUT(merchant_entity_id);
eq->slot_id = ServerToUFSlot(emu->slot_id);
OUT(charges);
OUT(cost);
FINISH_ENCODE();
}
ENCODE(OP_ApplyPoison)
{
ENCODE_LENGTH_EXACT(ApplyPoison_Struct);
SETUP_DIRECT_ENCODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
eq->inventorySlot = ServerToUFSlot(emu->inventorySlot);
OUT(success);
FINISH_ENCODE();
}
ENCODE(OP_AugmentInfo)
{
ENCODE_LENGTH_EXACT(AugmentInfo_Struct);
SETUP_DIRECT_ENCODE(AugmentInfo_Struct, structs::AugmentInfo_Struct);
OUT(itemid);
OUT(window);
strn0cpy(eq->augment_info, emu->augment_info, 64);
FINISH_ENCODE();
}
ENCODE(OP_Barter)
{
EQApplicationPacket *in = *p;
*p = nullptr;
char *Buffer = (char *)in->pBuffer;
uint32 SubAction = VARSTRUCT_DECODE_TYPE(uint32, Buffer);
if (SubAction != Barter_BuyerAppearance)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
unsigned char *__emu_buffer = in->pBuffer;
in->size = 80;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
char Name[64];
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, SubAction);
uint32 EntityID = VARSTRUCT_DECODE_TYPE(uint32, Buffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, EntityID);
uint8 Toggle = VARSTRUCT_DECODE_TYPE(uint8, Buffer);
VARSTRUCT_DECODE_STRING(Name, Buffer);
VARSTRUCT_ENCODE_STRING(OutBuffer, Name);
OutBuffer = (char *)in->pBuffer + 72;
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, Toggle);
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_BazaarSearch)
{
EQApplicationPacket *in = *p;
*p = nullptr;
char *Buffer = (char *)in->pBuffer;
uint8 SubAction = VARSTRUCT_DECODE_TYPE(uint8, Buffer);
if (SubAction != BazaarSearchResults)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
unsigned char *__emu_buffer = in->pBuffer;
BazaarSearchResults_Struct *emu = (BazaarSearchResults_Struct *)__emu_buffer;
int EntryCount = in->size / sizeof(BazaarSearchResults_Struct);
if (EntryCount == 0 || (in->size % sizeof(BazaarSearchResults_Struct)) != 0)
{
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(BazaarSearchResults_Struct));
delete in;
return;
}
in->size = EntryCount * sizeof(structs::BazaarSearchResults_Struct);
in->pBuffer = new unsigned char[in->size];
memset(in->pBuffer, 0, in->size);
structs::BazaarSearchResults_Struct *eq = (structs::BazaarSearchResults_Struct *)in->pBuffer;
for (int i = 0; i < EntryCount; ++i, ++emu, ++eq)
{
OUT(Beginning.Action);
OUT(SellerID);
memcpy(eq->SellerName, emu->SellerName, sizeof(eq->SellerName));
OUT(NumItems);
OUT(ItemID);
OUT(SerialNumber);
memcpy(eq->ItemName, emu->ItemName, sizeof(eq->ItemName));
OUT(Cost);
OUT(ItemStat);
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Buff)
{
ENCODE_LENGTH_EXACT(SpellBuffFade_Struct);
SETUP_DIRECT_ENCODE(SpellBuffFade_Struct, structs::SpellBuffFade_Struct_Underfoot);
OUT(entityid);
OUT(slot);
OUT(level);
OUT(effect);
//eq->unknown7 = 10;
OUT(spellid);
OUT(duration);
OUT(slotid);
OUT(bufffade); // Live (October 2011) sends a 2 rather than 0 when a buff is created, but it doesn't seem to matter.
OUT(num_hits);
eq->unknown008 = 1.0f;
FINISH_ENCODE();
}
ENCODE(OP_BuffCreate)
{
SETUP_VAR_ENCODE(BuffIcon_Struct);
uint32 sz = 12 + (17 * emu->count);
__packet->size = sz;
__packet->pBuffer = new unsigned char[sz];
memset(__packet->pBuffer, 0, sz);
__packet->WriteUInt32(emu->entity_id);
__packet->WriteUInt32(0);
__packet->WriteUInt8(emu->all_buffs); // 1 = all buffs, 0 = 1 buff
__packet->WriteUInt16(emu->count);
for (uint16 i = 0; i < emu->count; ++i)
{
uint16 buffslot = emu->entries[i].buff_slot;
if (emu->entries[i].buff_slot >= 25 && emu->entries[i].buff_slot < 37)
{
buffslot += 5;
}
else if (emu->entries[i].buff_slot >= 37)
{
buffslot += 14;
}
__packet->WriteUInt32(buffslot);
__packet->WriteUInt32(emu->entries[i].spell_id);
__packet->WriteUInt32(emu->entries[i].tics_remaining);
__packet->WriteUInt32(emu->entries[i].num_hits);
__packet->WriteString("");
}
__packet->WriteUInt8(!emu->all_buffs);
FINISH_ENCODE();
/*
uint32 write_var32 = 60;
uint8 write_var8 = 1;
ss.write((const char*)&emu->entity_id, sizeof(uint32));
ss.write((const char*)&write_var32, sizeof(uint32));
ss.write((const char*)&write_var8, sizeof(uint8));
ss.write((const char*)&emu->count, sizeof(uint16));
write_var32 = 0;
write_var8 = 0;
for(uint16 i = 0; i < emu->count; ++i)
{
if(emu->entries[i].buff_slot >= 25 && emu->entries[i].buff_slot < 37)
{
emu->entries[i].buff_slot += 5;
}
else if(emu->entries[i].buff_slot >= 37)
{
emu->entries[i].buff_slot += 14;
}
ss.write((const char*)&emu->entries[i].buff_slot, sizeof(uint32));
ss.write((const char*)&emu->entries[i].spell_id, sizeof(uint32));
ss.write((const char*)&emu->entries[i].tics_remaining, sizeof(uint32));
ss.write((const char*)&write_var32, sizeof(uint32));
ss.write((const char*)&write_var8, sizeof(uint8));
}
ss.write((const char*)&write_var8, sizeof(uint8));
*/
}
ENCODE(OP_CancelTrade)
{
ENCODE_LENGTH_EXACT(CancelTrade_Struct);
SETUP_DIRECT_ENCODE(CancelTrade_Struct, structs::CancelTrade_Struct);
OUT(fromid);
OUT(action);
FINISH_ENCODE();
}
ENCODE(OP_ChannelMessage)
{
EQApplicationPacket *in = *p;
*p = nullptr;
ChannelMessage_Struct *emu = (ChannelMessage_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
std::string old_message = emu->message;
std::string new_message;
ServerToUFTextLink(new_message, old_message);
//in->size = strlen(emu->sender) + 1 + strlen(emu->targetname) + 1 + strlen(emu->message) + 1 + 36;
in->size = strlen(emu->sender) + strlen(emu->targetname) + new_message.length() + 39;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->sender);
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->targetname);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->language);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->chan_num);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->skill_in_language);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint16, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0); // Unknown
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_CharInventory)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
if (in->size == 0) {
in->size = 4;
in->pBuffer = new uchar[in->size];
*((uint32 *)in->pBuffer) = 0;
dest->FastQueuePacket(&in, ack_req);
return;
}
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
int ItemCount = in->size / sizeof(InternalSerializedItem_Struct);
if (ItemCount == 0 || (in->size % sizeof(InternalSerializedItem_Struct)) != 0) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d",
opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(InternalSerializedItem_Struct));
delete in;
return;
}
InternalSerializedItem_Struct *eq = (InternalSerializedItem_Struct *)in->pBuffer;
in->pBuffer = new uchar[4];
*(uint32 *)in->pBuffer = ItemCount;
in->size = 4;
for (int r = 0; r < ItemCount; r++, eq++) {
uint32 Length = 0;
char* Serialized = SerializeItem((const ItemInst*)eq->inst, eq->slot_id, &Length, 0);
if (Serialized) {
uchar *OldBuffer = in->pBuffer;
in->pBuffer = new uchar[in->size + Length];
memcpy(in->pBuffer, OldBuffer, in->size);
safe_delete_array(OldBuffer);
memcpy(in->pBuffer + in->size, Serialized, Length);
in->size += Length;
safe_delete_array(Serialized);
}
else {
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Serialization failed on item slot %d during OP_CharInventory. Item skipped.", eq->slot_id);
}
}
delete[] __emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Sending inventory to client");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ClientUpdate)
{
ENCODE_LENGTH_EXACT(PlayerPositionUpdateServer_Struct);
SETUP_DIRECT_ENCODE(PlayerPositionUpdateServer_Struct, structs::PlayerPositionUpdateServer_Struct);
OUT(spawn_id);
OUT(x_pos);
OUT(delta_x);
OUT(delta_y);
OUT(z_pos);
OUT(delta_heading);
OUT(y_pos);
OUT(delta_z);
OUT(animation);
OUT(heading);
FINISH_ENCODE();
}
ENCODE(OP_Consider)
{
ENCODE_LENGTH_EXACT(Consider_Struct);
SETUP_DIRECT_ENCODE(Consider_Struct, structs::Consider_Struct);
OUT(playerid);
OUT(targetid);
OUT(faction);
OUT(level);
OUT(pvpcon);
FINISH_ENCODE();
}
ENCODE(OP_Damage)
{
ENCODE_LENGTH_EXACT(CombatDamage_Struct);
SETUP_DIRECT_ENCODE(CombatDamage_Struct, structs::CombatDamage_Struct);
OUT(target);
OUT(source);
OUT(type);
OUT(spellid);
OUT(damage);
OUT(force)
OUT(meleepush_xy);
OUT(meleepush_z)
FINISH_ENCODE();
}
ENCODE(OP_DeleteCharge) { ENCODE_FORWARD(OP_MoveItem); }
ENCODE(OP_DeleteItem)
{
ENCODE_LENGTH_EXACT(DeleteItem_Struct);
SETUP_DIRECT_ENCODE(DeleteItem_Struct, structs::DeleteItem_Struct);
eq->from_slot = ServerToUFSlot(emu->from_slot);
eq->to_slot = ServerToUFSlot(emu->to_slot);
OUT(number_in_stack);
FINISH_ENCODE();
}
ENCODE(OP_DisciplineUpdate)
{
ENCODE_LENGTH_EXACT(Disciplines_Struct);
SETUP_DIRECT_ENCODE(Disciplines_Struct, structs::Disciplines_Struct);
memcpy(&eq->values, &emu->values, sizeof(Disciplines_Struct));
FINISH_ENCODE();
}
ENCODE(OP_DzCompass)
{
SETUP_VAR_ENCODE(ExpeditionCompass_Struct);
ALLOC_VAR_ENCODE(structs::ExpeditionCompass_Struct, sizeof(structs::ExpeditionInfo_Struct) + sizeof(structs::ExpeditionCompassEntry_Struct) * emu->count);
OUT(count);
for (uint32 i = 0; i < emu->count; ++i)
{
OUT(entries[i].x);
OUT(entries[i].y);
OUT(entries[i].z);
}
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionEndsWarning)
{
ENCODE_LENGTH_EXACT(ExpeditionExpireWarning);
SETUP_DIRECT_ENCODE(ExpeditionExpireWarning, structs::ExpeditionExpireWarning);
OUT(minutes_remaining);
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionInfo)
{
ENCODE_LENGTH_EXACT(ExpeditionInfo_Struct);
SETUP_DIRECT_ENCODE(ExpeditionInfo_Struct, structs::ExpeditionInfo_Struct);
OUT(max_players);
eq->unknown004 = 785316192;
eq->unknown008 = 435601;
strcpy(eq->expedition_name, emu->expedition_name);
strcpy(eq->leader_name, emu->leader_name);
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionList)
{
SETUP_VAR_ENCODE(ExpeditionLockoutList_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&emu->count, sizeof(uint32));
for (uint32 i = 0; i < emu->count; ++i)
{
ss.write(emu->entries[i].expedition, strlen(emu->entries[i].expedition));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&emu->entries[i].time_left, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write(emu->entries[i].expedition_event, strlen(emu->entries[i].expedition_event));
ss.write((const char*)&null_term, sizeof(char));
}
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzJoinExpeditionConfirm)
{
ENCODE_LENGTH_EXACT(ExpeditionJoinPrompt_Struct);
SETUP_DIRECT_ENCODE(ExpeditionJoinPrompt_Struct, structs::ExpeditionJoinPrompt_Struct);
strcpy(eq->expedition_name, emu->expedition_name);
strcpy(eq->player_name, emu->player_name);
FINISH_ENCODE();
}
ENCODE(OP_DzLeaderStatus)
{
SETUP_VAR_ENCODE(ExpeditionLeaderSet_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write(emu->leader_name, strlen(emu->leader_name));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));//0xffffffff
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));//1
ss.write((const char*)&client_id, sizeof(uint32));
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzMemberList)
{
SETUP_VAR_ENCODE(ExpeditionMemberList_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&emu->count, sizeof(uint32));
for (uint32 i = 0; i < emu->count; ++i)
{
ss.write(emu->entries[i].name, strlen(emu->entries[i].name));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&emu->entries[i].status, sizeof(char));
}
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_Emote)
{
EQApplicationPacket *in = *p;
*p = nullptr;
Emote_Struct *emu = (Emote_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
std::string old_message = emu->message;
std::string new_message;
ServerToUFTextLink(new_message, old_message);
//if (new_message.length() > 512) // length restricted in packet building function due vari-length name size (no nullterm)
// new_message = new_message.substr(0, 512);
in->size = new_message.length() + 5;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->type);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ExpansionInfo)
{
ENCODE_LENGTH_EXACT(ExpansionInfo_Struct);
SETUP_DIRECT_ENCODE(ExpansionInfo_Struct, structs::ExpansionInfo_Struct);
OUT(Expansions);
FINISH_ENCODE();
}
ENCODE(OP_FormattedMessage)
{
EQApplicationPacket *in = *p;
*p = nullptr;
FormattedMessage_Struct *emu = (FormattedMessage_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
char *old_message_ptr = (char *)in->pBuffer;
old_message_ptr += sizeof(FormattedMessage_Struct);
std::string old_message_array[9];
for (int i = 0; i < 9; ++i) {
if (*old_message_ptr == 0) { break; }
old_message_array[i] = old_message_ptr;
old_message_ptr += old_message_array[i].length() + 1;
}
uint32 new_message_size = 0;
std::string new_message_array[9];
for (int i = 0; i < 9; ++i) {
if (old_message_array[i].length() == 0) { break; }
ServerToUFTextLink(new_message_array[i], old_message_array[i]);
new_message_size += new_message_array[i].length() + 1;
}
in->size = sizeof(FormattedMessage_Struct) + new_message_size + 1;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->unknown0);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->string_id);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->type);
for (int i = 0; i < 9; ++i) {
if (new_message_array[i].length() == 0) { break; }
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message_array[i].c_str());
}
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0);
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_GroundSpawn)
{
// We are not encoding the spawn_id field here, or a size but it doesn't appear to matter.
//
EQApplicationPacket *in = *p;
*p = nullptr;
Object_Struct *emu = (Object_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
in->size = strlen(emu->object_name) + 58;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->drop_id);
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->object_name);
VARSTRUCT_ENCODE_TYPE(uint16, OutBuffer, emu->zone_id);
VARSTRUCT_ENCODE_TYPE(uint16, OutBuffer, emu->zone_instance);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown, observed 0x00006762
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown, observer 0x7fffbb64
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->heading);
// This next field is actually a float. There is a groundspawn in freeportwest (sack of money sitting on some barrels) which requires this
// field to be set to (float)255.0 to appear at all, and also the size field below to be 5, to be the correct size. I think SoD has the same
// issue.
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->solidtype); // Unknown, observed 0
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->size != 0 && (float)emu->size < 5000.f ? (float)((float)emu->size / 100.0f) : 1.f ); // This appears to be the size field. Hackish logic because some PEQ DB items were corrupt.
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->y);
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->x);
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->z);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->object_type); // Unknown, observed 0x00000014
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0xffffffff); // Unknown, observed 0xffffffff
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown, observed 0x00000014
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0); // Unknown, observed 0x00
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_GroupCancelInvite)
{
ENCODE_LENGTH_EXACT(GroupCancel_Struct);
SETUP_DIRECT_ENCODE(GroupCancel_Struct, structs::GroupCancel_Struct);
memcpy(eq->name1, emu->name1, sizeof(eq->name1));
memcpy(eq->name2, emu->name2, sizeof(eq->name2));
OUT(toggle);
FINISH_ENCODE();
}
ENCODE(OP_GroupFollow)
{
ENCODE_LENGTH_EXACT(GroupGeneric_Struct);
SETUP_DIRECT_ENCODE(GroupGeneric_Struct, structs::GroupFollow_Struct);
memcpy(eq->name1, emu->name1, sizeof(eq->name1));
memcpy(eq->name2, emu->name2, sizeof(eq->name2));
FINISH_ENCODE();
}
ENCODE(OP_GroupFollow2)
{
ENCODE_LENGTH_EXACT(GroupGeneric_Struct);
SETUP_DIRECT_ENCODE(GroupGeneric_Struct, structs::GroupFollow_Struct);
memcpy(eq->name1, emu->name1, sizeof(eq->name1));
memcpy(eq->name2, emu->name2, sizeof(eq->name2));
FINISH_ENCODE();
}
ENCODE(OP_GroupInvite)
{
ENCODE_LENGTH_EXACT(GroupGeneric_Struct);
SETUP_DIRECT_ENCODE(GroupGeneric_Struct, structs::GroupInvite_Struct);
memcpy(eq->invitee_name, emu->name1, sizeof(eq->invitee_name));
memcpy(eq->inviter_name, emu->name2, sizeof(eq->inviter_name));
FINISH_ENCODE();
}
ENCODE(OP_GroupUpdate)
{
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] OP_GroupUpdate");
EQApplicationPacket *in = *p;
GroupJoin_Struct *gjs = (GroupJoin_Struct*)in->pBuffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received outgoing OP_GroupUpdate with action code %i", gjs->action);
if ((gjs->action == groupActLeave) || (gjs->action == groupActDisband))
{
if ((gjs->action == groupActDisband) || !strcmp(gjs->yourname, gjs->membername))
{
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Group Leave, yourname = %s, membername = %s", gjs->yourname, gjs->membername);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupDisbandYou, sizeof(structs::GroupGeneric_Struct));
structs::GroupGeneric_Struct *ggs = (structs::GroupGeneric_Struct*)outapp->pBuffer;
memcpy(ggs->name1, gjs->yourname, sizeof(ggs->name1));
memcpy(ggs->name2, gjs->membername, sizeof(ggs->name1));
dest->FastQueuePacket(&outapp);
// Make an empty GLAA packet to clear out their useable GLAAs
//
outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
dest->FastQueuePacket(&outapp);
delete in;
return;
}
//if(gjs->action == groupActLeave)
// Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Group Leave, yourname = %s, membername = %s", gjs->yourname, gjs->membername);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupDisbandOther, sizeof(structs::GroupGeneric_Struct));
structs::GroupGeneric_Struct *ggs = (structs::GroupGeneric_Struct*)outapp->pBuffer;
memcpy(ggs->name1, gjs->yourname, sizeof(ggs->name1));
memcpy(ggs->name2, gjs->membername, sizeof(ggs->name2));
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp);
delete in;
return;
}
if (in->size == sizeof(GroupUpdate2_Struct))
{
// Group Update2
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Struct is GroupUpdate2");
unsigned char *__emu_buffer = in->pBuffer;
GroupUpdate2_Struct *gu2 = (GroupUpdate2_Struct*)__emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Yourname is %s", gu2->yourname);
int MemberCount = 1;
int PacketLength = 8 + strlen(gu2->leadersname) + 1 + 22 + strlen(gu2->yourname) + 1;
for (int i = 0; i < 5; ++i)
{
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Membername[%i] is %s", i, gu2->membername[i]);
if (gu2->membername[i][0] != '\0')
{
PacketLength += (22 + strlen(gu2->membername[i]) + 1);
++MemberCount;
}
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Leadername is %s", gu2->leadersname);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupUpdateB, PacketLength);
char *Buffer = (char *)outapp->pBuffer;
// Header
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Think this should be SpawnID, but it doesn't seem to matter
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, MemberCount);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->leadersname);
// Leader
//
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->yourname);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
//VARSTRUCT_ENCODE_STRING(Buffer, "");
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // This is a string
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x46); // Observed 0x41 and 0x46 here
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, 0);
int MemberNumber = 1;
for (int i = 0; i < 5; ++i)
{
if (gu2->membername[i][0] == '\0')
continue;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, MemberNumber++);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->membername[i]);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
//VARSTRUCT_ENCODE_STRING(Buffer, "");
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // This is a string
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x41); // Observed 0x41 and 0x46 here
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Low byte is Main Assist Flag
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, 0);
}
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp);
outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
GroupLeadershipAAUpdate_Struct *GLAAus = (GroupLeadershipAAUpdate_Struct*)outapp->pBuffer;
GLAAus->NPCMarkerID = gu2->NPCMarkerID;
memcpy(&GLAAus->LeaderAAs, &gu2->leader_aas, sizeof(GLAAus->LeaderAAs));
dest->FastQueuePacket(&outapp);
delete in;
return;
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Generic GroupUpdate, yourname = %s, membername = %s", gjs->yourname, gjs->membername);
ENCODE_LENGTH_EXACT(GroupJoin_Struct);
SETUP_DIRECT_ENCODE(GroupJoin_Struct, structs::GroupJoin_Struct);
memcpy(eq->membername, emu->membername, sizeof(eq->membername));
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
GroupLeadershipAAUpdate_Struct *GLAAus = (GroupLeadershipAAUpdate_Struct*)outapp->pBuffer;
GLAAus->NPCMarkerID = emu->NPCMarkerID;
memcpy(&GLAAus->LeaderAAs, &emu->leader_aas, sizeof(GLAAus->LeaderAAs));
//Log.Hex(Logs::Netcode, __packet->pBuffer, __packet->size);
FINISH_ENCODE();
dest->FastQueuePacket(&outapp);
}
ENCODE(OP_GuildMemberList)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
Internal_GuildMembers_Struct *emu = (Internal_GuildMembers_Struct *)in->pBuffer;
//make a new EQ buffer.
uint32 pnl = strlen(emu->player_name);
uint32 length = sizeof(structs::GuildMembers_Struct) + pnl +
emu->count*sizeof(structs::GuildMemberEntry_Struct)
+ emu->name_length + emu->note_length;
in->pBuffer = new uint8[length];
in->size = length;
//no memset since we fill every byte.
uint8 *buffer;
buffer = in->pBuffer;
//easier way to setup GuildMembers_Struct
//set prefix name
strcpy((char *)buffer, emu->player_name);
buffer += pnl;
*buffer = '\0';
buffer++;
//add member count.
*((uint32 *)buffer) = htonl(emu->count);
buffer += sizeof(uint32);
if (emu->count > 0) {
Internal_GuildMemberEntry_Struct *emu_e = emu->member;
const char *emu_name = (const char *)(__emu_buffer +
sizeof(Internal_GuildMembers_Struct)+ //skip header
emu->count * sizeof(Internal_GuildMemberEntry_Struct) //skip static length member data
);
const char *emu_note = (emu_name +
emu->name_length + //skip name contents
emu->count //skip string terminators
);
structs::GuildMemberEntry_Struct *e = (structs::GuildMemberEntry_Struct *) buffer;
uint32 r;
for (r = 0; r < emu->count; r++, emu_e++) {
//the order we set things here must match the struct
//nice helper macro
/*#define SlideStructString(field, str) \
strcpy(e->field, str.c_str()); \
e = (GuildMemberEntry_Struct *) ( ((uint8 *)e) + str.length() )*/
#define SlideStructString(field, str) \
{ \
int sl = strlen(str); \
memcpy(e->field, str, sl+1); \
e = (structs::GuildMemberEntry_Struct *) ( ((uint8 *)e) + sl ); \
str += sl + 1; \
}
#define PutFieldN(field) e->field = htonl(emu_e->field)
SlideStructString(name, emu_name);
PutFieldN(level);
PutFieldN(banker);
PutFieldN(class_);
PutFieldN(rank);
PutFieldN(time_last_on);
PutFieldN(tribute_enable);
PutFieldN(total_tribute);
PutFieldN(last_tribute);
e->unknown_one = htonl(1);
SlideStructString(public_note, emu_note);
e->zoneinstance = 0;
e->zone_id = htons(emu_e->zone_id);
#undef SlideStructString
#undef PutFieldN
e++;
}
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_GuildsList)
{
EQApplicationPacket *in = *p;
*p = nullptr;
uint32 NumberOfGuilds = in->size / 64;
uint32 PacketSize = 68; // 64 x 0x00 + a uint32 that I am guessing is the highest guild ID in use.
unsigned char *__emu_buffer = in->pBuffer;
char *InBuffer = (char *)__emu_buffer;
uint32 HighestGuildID = 0;
for (unsigned int i = 0; i < NumberOfGuilds; ++i)
{
if (InBuffer[0])
{
PacketSize += (5 + strlen(InBuffer));
HighestGuildID = i - 1;
}
InBuffer += 64;
}
PacketSize++; // Appears to be an extra 0x00 at the very end.
in->size = PacketSize;
in->pBuffer = new unsigned char[in->size];
InBuffer = (char *)__emu_buffer;
char *OutBuffer = (char *)in->pBuffer;
// Init the first 64 bytes to zero, as per live.
//
memset(OutBuffer, 0, 64);
OutBuffer += 64;
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, HighestGuildID);
for (unsigned int i = 0; i < NumberOfGuilds; ++i)
{
if (InBuffer[0])
{
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, i - 1);
VARSTRUCT_ENCODE_STRING(OutBuffer, InBuffer);
}
InBuffer += 64;
}
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0x00);
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Illusion)
{
ENCODE_LENGTH_EXACT(Illusion_Struct);
SETUP_DIRECT_ENCODE(Illusion_Struct, structs::Illusion_Struct);
OUT(spawnid);
OUT_str(charname);
OUT(race);
OUT(unknown006[0]);
OUT(unknown006[1]);
OUT(gender);
OUT(texture);
OUT(helmtexture);
OUT(face);
OUT(hairstyle);
OUT(haircolor);
OUT(beard);
OUT(beardcolor);
OUT(size);
OUT(drakkin_heritage);
OUT(drakkin_tattoo);
OUT(drakkin_details);
FINISH_ENCODE();
}
ENCODE(OP_InspectBuffs)
{
ENCODE_LENGTH_EXACT(InspectBuffs_Struct);
SETUP_DIRECT_ENCODE(InspectBuffs_Struct, structs::InspectBuffs_Struct);
// we go over the internal 25 instead of the packet's since no entry is 0, which it will be already
for (int i = 0; i < BUFF_COUNT; i++) {
OUT(spell_id[i]);
OUT(tics_remaining[i]);
}
FINISH_ENCODE();
}
ENCODE(OP_InspectRequest)
{
ENCODE_LENGTH_EXACT(Inspect_Struct);
SETUP_DIRECT_ENCODE(Inspect_Struct, structs::Inspect_Struct);
OUT(TargetID);
OUT(PlayerID);
FINISH_ENCODE();
}
ENCODE(OP_ItemLinkResponse) { ENCODE_FORWARD(OP_ItemPacket); }
ENCODE(OP_ItemPacket)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
ItemPacket_Struct *old_item_pkt = (ItemPacket_Struct *)__emu_buffer;
InternalSerializedItem_Struct *int_struct = (InternalSerializedItem_Struct *)(old_item_pkt->SerializedItem);
uint32 length;
char *serialized = SerializeItem((ItemInst *)int_struct->inst, int_struct->slot_id, &length, 0);
if (!serialized) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Serialization failed on item slot %d.", int_struct->slot_id);
delete in;
return;
}
in->size = length + 4;
in->pBuffer = new unsigned char[in->size];
ItemPacket_Struct *new_item_pkt = (ItemPacket_Struct *)in->pBuffer;
new_item_pkt->PacketType = old_item_pkt->PacketType;
memcpy(new_item_pkt->SerializedItem, serialized, length);
delete[] __emu_buffer;
safe_delete_array(serialized);
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ItemVerifyReply)
{
ENCODE_LENGTH_EXACT(ItemVerifyReply_Struct);
SETUP_DIRECT_ENCODE(ItemVerifyReply_Struct, structs::ItemVerifyReply_Struct);
eq->slot = ServerToUFSlot(emu->slot);
OUT(spell);
OUT(target);
FINISH_ENCODE();
}
ENCODE(OP_LeadershipExpUpdate)
{
SETUP_DIRECT_ENCODE(LeadershipExpUpdate_Struct, structs::LeadershipExpUpdate_Struct);
OUT(group_leadership_exp);
OUT(group_leadership_points);
OUT(raid_leadership_exp);
OUT(raid_leadership_points);
FINISH_ENCODE();
}
ENCODE(OP_LogServer)
{
ENCODE_LENGTH_EXACT(LogServer_Struct);
SETUP_DIRECT_ENCODE(LogServer_Struct, structs::LogServer_Struct);
strcpy(eq->worldshortname, emu->worldshortname);
OUT(enablevoicemacros);
OUT(enablemail);
OUT(enable_pvp);
OUT(enable_FV);
eq->unknown016 = 1;
eq->unknown020[0] = 1;
// These next two need to be set like this for the Tutorial Button to work.
eq->unknown263[0] = 0;
eq->unknown263[2] = 1;
eq->unknown263[4] = 1;
eq->unknown263[5] = 1;
eq->unknown263[6] = 1;
eq->unknown263[9] = 8;
eq->unknown263[19] = 0x80;
eq->unknown263[20] = 0x3f;
eq->unknown263[23] = 0x80;
eq->unknown263[24] = 0x3f;
eq->unknown263[33] = 1;
FINISH_ENCODE();
}
ENCODE(OP_LootItem)
{
ENCODE_LENGTH_EXACT(LootingItem_Struct);
SETUP_DIRECT_ENCODE(LootingItem_Struct, structs::LootingItem_Struct);
OUT(lootee);
OUT(looter);
eq->slot_id = ServerToUFCorpseSlot(emu->slot_id);
OUT(auto_loot);
FINISH_ENCODE();
}
ENCODE(OP_ManaChange)
{
ENCODE_LENGTH_EXACT(ManaChange_Struct);
SETUP_DIRECT_ENCODE(ManaChange_Struct, structs::ManaChange_Struct);
OUT(new_mana);
OUT(stamina);
OUT(spell_id);
eq->unknown16 = -1; // Self Interrupt/Success = -1, Fizzle = 1, Other Interrupt = 2?
FINISH_ENCODE();
}
ENCODE(OP_MercenaryDataResponse)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
MercenaryMerchantList_Struct *emu = (MercenaryMerchantList_Struct *)__emu_buffer;
char *Buffer = (char *)in->pBuffer;
int PacketSize = sizeof(structs::MercenaryMerchantList_Struct) - 4 + emu->MercTypeCount * 4;
PacketSize += (sizeof(structs::MercenaryListEntry_Struct) - sizeof(structs::MercenaryStance_Struct)) * emu->MercCount;
uint32 r;
uint32 k;
for (r = 0; r < emu->MercCount; r++)
{
PacketSize += sizeof(structs::MercenaryStance_Struct) * emu->Mercs[r].StanceCount;
}
EQApplicationPacket *outapp = new EQApplicationPacket(OP_MercenaryDataResponse, PacketSize);
Buffer = (char *)outapp->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercTypeCount);
for (r = 0; r < emu->MercTypeCount; r++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercGrades[r]);
}
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercCount);
for (r = 0; r < emu->MercCount; r++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercID);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercSubType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].PurchaseCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].UpkeepCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].AltCurrencyCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].AltCurrencyUpkeep);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].AltCurrencyType);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->Mercs[r].MercUnk01);
VARSTRUCT_ENCODE_TYPE(int32, Buffer, emu->Mercs[r].TimeLeft);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MerchantSlot);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercUnk02);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].StanceCount);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercUnk03);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->Mercs[r].MercUnk04);
for (k = 0; k < emu->Mercs[r].StanceCount; k++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].Stances[k].StanceIndex);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].Stances[k].Stance);
}
}
dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
// This packet does not appear to exist in UF, but leaving it here just in case
ENCODE(OP_MercenaryDataUpdate)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
MercenaryDataUpdate_Struct *emu = (MercenaryDataUpdate_Struct *)__emu_buffer;
char *Buffer = (char *)in->pBuffer;
EQApplicationPacket *outapp;
uint32 PacketSize = 0;
// There are 2 different sized versions of this packet depending if a merc is hired or not
if (emu->MercStatus >= 0)
{
PacketSize += sizeof(structs::MercenaryDataUpdate_Struct) + (sizeof(structs::MercenaryData_Struct) - sizeof(structs::MercenaryStance_Struct)) * emu->MercCount;
uint32 r;
uint32 k;
for (r = 0; r < emu->MercCount; r++)
{
PacketSize += sizeof(structs::MercenaryStance_Struct) * emu->MercData[r].StanceCount;
}
outapp = new EQApplicationPacket(OP_MercenaryDataUpdate, PacketSize);
Buffer = (char *)outapp->pBuffer;
VARSTRUCT_ENCODE_TYPE(int32, Buffer, emu->MercStatus);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercCount);
for (r = 0; r < emu->MercCount; r++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MercID);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MercType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MercSubType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].PurchaseCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].UpkeepCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].AltCurrencyCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].AltCurrencyUpkeep);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].AltCurrencyType);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->MercData[r].MercUnk01);
VARSTRUCT_ENCODE_TYPE(int32, Buffer, emu->MercData[r].TimeLeft);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MerchantSlot);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MercUnk02);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].StanceCount);
VARSTRUCT_ENCODE_TYPE(int32, Buffer, emu->MercData[r].MercUnk03);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->MercData[r].MercUnk04);
for (k = 0; k < emu->MercData[r].StanceCount; k++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].Stances[k].StanceIndex);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].Stances[k].Stance);
}
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercData[r].MercUnk05);
}
}
else
{
PacketSize += sizeof(structs::NoMercenaryHired_Struct);
outapp = new EQApplicationPacket(OP_MercenaryDataUpdate, PacketSize);
Buffer = (char *)outapp->pBuffer;
VARSTRUCT_ENCODE_TYPE(int32, Buffer, emu->MercStatus);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercCount);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 1);
}
dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
ENCODE(OP_MoveItem)
{
ENCODE_LENGTH_EXACT(MoveItem_Struct);
SETUP_DIRECT_ENCODE(MoveItem_Struct, structs::MoveItem_Struct);
eq->from_slot = ServerToUFSlot(emu->from_slot);
eq->to_slot = ServerToUFSlot(emu->to_slot);
OUT(number_in_stack);
FINISH_ENCODE();
}
ENCODE(OP_NewSpawn) { ENCODE_FORWARD(OP_ZoneSpawns); }
ENCODE(OP_NewZone)
{
SETUP_DIRECT_ENCODE(NewZone_Struct, structs::NewZone_Struct);
OUT_str(char_name);
OUT_str(zone_short_name);
OUT_str(zone_long_name);
OUT(ztype);
int r;
for (r = 0; r < 4; r++) {
OUT(fog_red[r]);
OUT(fog_green[r]);
OUT(fog_blue[r]);
OUT(fog_minclip[r]);
OUT(fog_maxclip[r]);
}
OUT(gravity);
OUT(time_type);
for (r = 0; r < 4; r++) {
OUT(rain_chance[r]);
}
for (r = 0; r < 4; r++) {
OUT(rain_duration[r]);
}
for (r = 0; r < 4; r++) {
OUT(snow_chance[r]);
}
for (r = 0; r < 4; r++) {
OUT(snow_duration[r]);
}
for (r = 0; r < 32; r++) {
eq->unknown537[r] = 0xFF; //observed
}
OUT(sky);
OUT(zone_exp_multiplier);
OUT(safe_y);
OUT(safe_x);
OUT(safe_z);
OUT(max_z);
OUT(underworld);
OUT(minclip);
OUT(maxclip);
OUT_str(zone_short_name2);
OUT(zone_id);
OUT(zone_instance);
OUT(SuspendBuffs);
eq->FogDensity = emu->fog_density;
/*fill in some unknowns with observed values, hopefully it will help */
eq->unknown800 = -1;
eq->unknown844 = 600;
eq->unknown880 = 50;
eq->unknown884 = 10;
eq->unknown888 = 1;
eq->unknown889 = 0;
eq->unknown890 = 1;
eq->unknown891 = 0;
eq->unknown892 = 0;
eq->unknown893 = 0;
eq->fall_damage = 0; // 0 = Fall Damage on, 1 = Fall Damage off
eq->unknown895 = 0;
eq->unknown896 = 180;
eq->unknown900 = 180;
eq->unknown904 = 180;
eq->unknown908 = 2;
eq->unknown912 = 2;
FINISH_ENCODE();
}
ENCODE(OP_OnLevelMessage)
{
ENCODE_LENGTH_EXACT(OnLevelMessage_Struct);
SETUP_DIRECT_ENCODE(OnLevelMessage_Struct, structs::OnLevelMessage_Struct);
memcpy(eq->Title, emu->Title, sizeof(eq->Title));
memcpy(eq->Text, emu->Text, sizeof(eq->Text));
OUT(Buttons);
OUT(Duration);
OUT(PopupID);
OUT(NegativeID);
// These two field names are used if Buttons == 1.
OUT_str(ButtonName0);
OUT_str(ButtonName1);
FINISH_ENCODE();
}
ENCODE(OP_OpenNewTasksWindow)
{
AvailableTaskHeader_Struct* __emu_AvailableTaskHeader;
AvailableTaskData1_Struct* __emu_AvailableTaskData1;
AvailableTaskData2_Struct* __emu_AvailableTaskData2;
AvailableTaskTrailer_Struct* __emu_AvailableTaskTrailer;
structs::AvailableTaskHeader_Struct* __eq_AvailableTaskHeader;
structs::AvailableTaskData1_Struct* __eq_AvailableTaskData1;
structs::AvailableTaskData2_Struct* __eq_AvailableTaskData2;
structs::AvailableTaskTrailer_Struct* __eq_AvailableTaskTrailer;
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
__emu_AvailableTaskHeader = (AvailableTaskHeader_Struct*)__emu_buffer;
// For each task, SoF has an extra uint32 and what appears to be space for a null terminated string.
//
in->size = in->size + (__emu_AvailableTaskHeader->TaskCount * 5);
in->pBuffer = new unsigned char[in->size];
unsigned char *__eq_buffer = in->pBuffer;
__eq_AvailableTaskHeader = (structs::AvailableTaskHeader_Struct*)__eq_buffer;
char *__eq_ptr, *__emu_Ptr;
// Copy Header
//
//
__eq_AvailableTaskHeader->TaskCount = __emu_AvailableTaskHeader->TaskCount;
__eq_AvailableTaskHeader->unknown1 = __emu_AvailableTaskHeader->unknown1;
__eq_AvailableTaskHeader->TaskGiver = __emu_AvailableTaskHeader->TaskGiver;
__emu_Ptr = (char *)__emu_AvailableTaskHeader + sizeof(AvailableTaskHeader_Struct);
__eq_ptr = (char *)__eq_AvailableTaskHeader + sizeof(structs::AvailableTaskHeader_Struct);
for (uint32 i = 0; i<__emu_AvailableTaskHeader->TaskCount; i++) {
__emu_AvailableTaskData1 = (AvailableTaskData1_Struct*)__emu_Ptr;
__eq_AvailableTaskData1 = (structs::AvailableTaskData1_Struct*)__eq_ptr;
__eq_AvailableTaskData1->TaskID = __emu_AvailableTaskData1->TaskID;
// This next unknown seems to affect the colour of the task title. 0x3f80000 is what I have seen
// in Underfoot packets. Changing it to 0x3f000000 makes the title red.
__eq_AvailableTaskData1->unknown1 = 0x3f800000;
__eq_AvailableTaskData1->TimeLimit = __emu_AvailableTaskData1->TimeLimit;
__eq_AvailableTaskData1->unknown2 = __emu_AvailableTaskData1->unknown2;
__emu_Ptr += sizeof(AvailableTaskData1_Struct);
__eq_ptr += sizeof(structs::AvailableTaskData1_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Title
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
strcpy(__eq_ptr, __emu_Ptr); // Description
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
__eq_ptr[0] = 0;
__eq_ptr += strlen(__eq_ptr) + 1;
__emu_AvailableTaskData2 = (AvailableTaskData2_Struct*)__emu_Ptr;
__eq_AvailableTaskData2 = (structs::AvailableTaskData2_Struct*)__eq_ptr;
__eq_AvailableTaskData2->unknown1 = __emu_AvailableTaskData2->unknown1;
__eq_AvailableTaskData2->unknown2 = __emu_AvailableTaskData2->unknown2;
__eq_AvailableTaskData2->unknown3 = __emu_AvailableTaskData2->unknown3;
__eq_AvailableTaskData2->unknown4 = __emu_AvailableTaskData2->unknown4;
__emu_Ptr += sizeof(AvailableTaskData2_Struct);
__eq_ptr += sizeof(structs::AvailableTaskData2_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
__emu_AvailableTaskTrailer = (AvailableTaskTrailer_Struct*)__emu_Ptr;
__eq_AvailableTaskTrailer = (structs::AvailableTaskTrailer_Struct*)__eq_ptr;
__eq_AvailableTaskTrailer->ItemCount = __emu_AvailableTaskTrailer->ItemCount;
__eq_AvailableTaskTrailer->unknown1 = __emu_AvailableTaskTrailer->unknown1;
__eq_AvailableTaskTrailer->unknown2 = __emu_AvailableTaskTrailer->unknown2;
__eq_AvailableTaskTrailer->StartZone = __emu_AvailableTaskTrailer->StartZone;
__emu_Ptr += sizeof(AvailableTaskTrailer_Struct);
__eq_ptr += sizeof(structs::AvailableTaskTrailer_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_PetBuffWindow)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
PetBuff_Struct *emu = (PetBuff_Struct *)__emu_buffer;
int PacketSize = 12 + (emu->buffcount * 17);
in->size = PacketSize;
in->pBuffer = new unsigned char[in->size];
char *Buffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->petid);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 1);
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, emu->buffcount);
for (unsigned int i = 0; i < BUFF_COUNT; ++i)
{
if (emu->spellid[i])
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, i);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->spellid[i]);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->ticsremaining[i]);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // This is a string. Name of the caster of the buff.
}
}
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->buffcount);
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_PlayerProfile)
{
SETUP_DIRECT_ENCODE(PlayerProfile_Struct, structs::PlayerProfile_Struct);
uint32 r;
eq->available_slots = 0xffffffff;
memset(eq->unknown07284, 0xff, sizeof(eq->unknown07284));
// OUT(checksum);
OUT(gender);
OUT(race);
OUT(class_);
// OUT(unknown00016);
OUT(level);
eq->level1 = emu->level;
// OUT(unknown00022[2]);
for (r = 0; r < 5; r++) {
OUT(binds[r].zoneId);
OUT(binds[r].x);
OUT(binds[r].y);
OUT(binds[r].z);
OUT(binds[r].heading);
}
OUT(deity);
OUT(intoxication);
OUT_array(spellSlotRefresh, structs::MAX_PP_MEMSPELL);
OUT(abilitySlotRefresh);
OUT(points); // Relocation Test
// OUT(unknown0166[4]);
OUT(haircolor);
OUT(beardcolor);
OUT(eyecolor1);
OUT(eyecolor2);
OUT(hairstyle);
OUT(beard);
// OUT(unknown00178[10]);
for (r = 0; r < 9; r++) {
eq->equipment[r].Material = emu->item_material[r];
eq->equipment[r].Unknown1 = 0;
eq->equipment[r].EliteMaterial = 0;
//eq->colors[r].color = emu->colors[r].color;
}
for (r = 0; r < 7; r++) {
OUT(item_tint[r].Color);
}
// OUT(unknown00224[48]);
//NOTE: new client supports 300 AAs, our internal rep/PP
//only supports 240..
for (r = 0; r < MAX_PP_AA_ARRAY; r++) {
OUT(aa_array[r].AA);
OUT(aa_array[r].value);
}
// OUT(unknown02220[4]);
OUT(mana);
OUT(cur_hp);
OUT(STR);
OUT(STA);
OUT(CHA);
OUT(AGI);
OUT(INT);
OUT(DEX);
OUT(WIS);
OUT(face);
// OUT(unknown02264[47]);
memset(eq->spell_book, 0xFF, sizeof(uint32)* structs::MAX_PP_SPELLBOOK);
OUT_array(spell_book, 480U);
// OUT(unknown4184[128]);
OUT_array(mem_spells, structs::MAX_PP_MEMSPELL);
// OUT(unknown04396[32]);
OUT(platinum);
OUT(gold);
OUT(silver);
OUT(copper);
OUT(platinum_cursor);
OUT(gold_cursor);
OUT(silver_cursor);
OUT(copper_cursor);
OUT_array(skills, structs::MAX_PP_SKILL); // 1:1 direct copy (100 dword)
// OUT(unknown04760[236]);
OUT(toxicity);
OUT(thirst_level);
OUT(hunger_level);
//PS this needs to be figured out more; but it was 'good enough'
for (r = 0; r < structs::BUFF_COUNT; r++)
{
if (emu->buffs[r].spellid != 0xFFFF && emu->buffs[r].spellid != 0)
{
eq->buffs[r].unknown004 = 0x3f800000;
eq->buffs[r].slotid = 2;
eq->buffs[r].player_id = 0x000717fd;
}
else
{
eq->buffs[r].slotid = 0;
}
//OUT(buffs[r].slotid);
OUT(buffs[r].level);
//OUT(buffs[r].bard_modifier);
//OUT(buffs[r].effect);
OUT(buffs[r].spellid);
OUT(buffs[r].duration);
OUT(buffs[r].counters);
//OUT(buffs[r].player_id);
}
for (r = 0; r < MAX_PP_DISCIPLINES; r++) {
OUT(disciplines.values[r]);
}
OUT_array(recastTimers, structs::MAX_RECAST_TYPES);
// OUT(unknown08124[360]);
OUT(endurance);
OUT(aapoints_spent);
OUT(aapoints);
// OUT(unknown06160[4]);
// Copy bandoliers where server and client indexes converge
for (r = 0; r < EmuConstants::BANDOLIERS_SIZE && r < consts::BANDOLIERS_SIZE; ++r) {
OUT_str(bandoliers[r].Name);
for (uint32 k = 0; k < consts::BANDOLIER_ITEM_COUNT; ++k) { // Will need adjusting if 'server != client' is ever true
OUT(bandoliers[r].Items[k].ID);
OUT(bandoliers[r].Items[k].Icon);
OUT_str(bandoliers[r].Items[k].Name);
}
}
// Nullify bandoliers where server and client indexes diverge, with a client bias
for (r = EmuConstants::BANDOLIERS_SIZE; r < consts::BANDOLIERS_SIZE; ++r) {
eq->bandoliers[r].Name[0] = '\0';
for (uint32 k = 0; k < consts::BANDOLIER_ITEM_COUNT; ++k) { // Will need adjusting if 'server != client' is ever true
eq->bandoliers[r].Items[k].ID = 0;
eq->bandoliers[r].Items[k].Icon = 0;
eq->bandoliers[r].Items[k].Name[0] = '\0';
}
}
// OUT(unknown07444[5120]);
// Copy potion belt where server and client indexes converge
for (r = 0; r < EmuConstants::POTION_BELT_ITEM_COUNT && r < consts::POTION_BELT_ITEM_COUNT; ++r) {
OUT(potionbelt.Items[r].ID);
OUT(potionbelt.Items[r].Icon);
OUT_str(potionbelt.Items[r].Name);
}
// Nullify potion belt where server and client indexes diverge, with a client bias
for (r = EmuConstants::POTION_BELT_ITEM_COUNT; r < consts::POTION_BELT_ITEM_COUNT; ++r) {
eq->potionbelt.Items[r].ID = 0;
eq->potionbelt.Items[r].Icon = 0;
eq->potionbelt.Items[r].Name[0] = '\0';
}
// OUT(unknown12852[8]);
// OUT(unknown12864[76]);
OUT_str(name);
OUT_str(last_name);
OUT(guild_id);
OUT(birthday);
OUT(lastlogin);
OUT(timePlayedMin);
OUT(pvp);
OUT(anon);
OUT(gm);
OUT(guildrank);
OUT(guildbanker);
// OUT(unknown13054[12]);
OUT(exp);
// OUT(unknown13072[8]);
OUT(timeentitledonaccount);
OUT_array(languages, structs::MAX_PP_LANGUAGE);
// OUT(unknown13109[7]);
OUT(y); //reversed x and y
OUT(x);
OUT(z);
OUT(heading);
// OUT(unknown13132[4]);
OUT(platinum_bank);
OUT(gold_bank);
OUT(silver_bank);
OUT(copper_bank);
OUT(platinum_shared);
// OUT(unknown13156[84]);
//OUT(expansions);
eq->expansions = 0xffff;
// OUT(unknown13244[12]);
OUT(autosplit);
// OUT(unknown13260[16]);
OUT(zone_id);
OUT(zoneInstance);
for (r = 0; r < structs::MAX_GROUP_MEMBERS; r++) {
OUT_str(groupMembers[r]);
}
strcpy(eq->groupLeader, emu->groupMembers[0]);
// OUT_str(groupLeader);
// OUT(unknown13728[660]);
OUT(entityid);
OUT(leadAAActive);
// OUT(unknown14392[4]);
OUT(ldon_points_guk);
OUT(ldon_points_mir);
OUT(ldon_points_mmc);
OUT(ldon_points_ruj);
OUT(ldon_points_tak);
OUT(ldon_points_available);
// OUT(unknown14420[132]);
OUT(tribute_time_remaining);
OUT(career_tribute_points);
// OUT(unknown7208);
OUT(tribute_points);
// OUT(unknown7216);
OUT(tribute_active);
for (r = 0; r < structs::MAX_PLAYER_TRIBUTES; r++) {
OUT(tributes[r].tribute);
OUT(tributes[r].tier);
}
// OUT(unknown14616[8]);
OUT(group_leadership_exp);
// OUT(unknown14628);
OUT(raid_leadership_exp);
OUT(group_leadership_points);
OUT(raid_leadership_points);
OUT_array(leader_abilities.ranks, structs::MAX_LEADERSHIP_AA_ARRAY);
// OUT(unknown14772[128]);
OUT(air_remaining);
OUT(PVPKills);
OUT(PVPDeaths);
OUT(PVPCurrentPoints);
OUT(PVPCareerPoints);
OUT(PVPBestKillStreak);
OUT(PVPWorstDeathStreak);
OUT(PVPCurrentKillStreak);
// OUT(unknown17892[4580]);
OUT(expAA);
// OUT(unknown19516[40]);
OUT(currentRadCrystals);
OUT(careerRadCrystals);
OUT(currentEbonCrystals);
OUT(careerEbonCrystals);
OUT(groupAutoconsent);
OUT(raidAutoconsent);
OUT(guildAutoconsent);
// OUT(unknown19575[5]);
eq->level3 = emu->level;
eq->showhelm = emu->showhelm;
OUT(RestTimer);
// OUT(unknown19584[4]);
// OUT(unknown19588);
const uint8 bytes[] = {
0xa3, 0x02, 0x00, 0x00, 0x95, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x19, 0x00, 0x00, 0x00,
0x19, 0x00, 0x00, 0x00, 0x19, 0x00, 0x00, 0x00, 0x0F, 0x00, 0x00, 0x00, 0x0F, 0x00, 0x00, 0x00,
0x0F, 0x00, 0x00, 0x00, 0x0F, 0x00, 0x00, 0x00, 0x1F, 0x85, 0xEB, 0x3E, 0x33, 0x33, 0x33, 0x3F,
0x04, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
};
memcpy(eq->unknown18020, bytes, sizeof(bytes));
//set the checksum...
CRC32::SetEQChecksum(__packet->pBuffer, sizeof(structs::PlayerProfile_Struct) - 4);
FINISH_ENCODE();
}
ENCODE(OP_RaidJoin)
{
EQApplicationPacket *inapp = *p;
unsigned char * __emu_buffer = inapp->pBuffer;
RaidCreate_Struct *raid_create = (RaidCreate_Struct*)__emu_buffer;
EQApplicationPacket *outapp_create = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct *general = (structs::RaidGeneral_Struct*)outapp_create->pBuffer;
general->action = 8;
general->parameter = 1;
strn0cpy(general->leader_name, raid_create->leader_name, 64);
strn0cpy(general->player_name, raid_create->leader_name, 64);
dest->FastQueuePacket(&outapp_create);
safe_delete(inapp);
}
ENCODE(OP_RaidUpdate)
{
EQApplicationPacket *inapp = *p;
*p = nullptr;
unsigned char * __emu_buffer = inapp->pBuffer;
RaidGeneral_Struct *raid_gen = (RaidGeneral_Struct*)__emu_buffer;
if (raid_gen->action == 0) // raid add has longer length than other raid updates
{
RaidAddMember_Struct* in_add_member = (RaidAddMember_Struct*)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidAddMember_Struct));
structs::RaidAddMember_Struct *add_member = (structs::RaidAddMember_Struct*)outapp->pBuffer;
add_member->raidGen.action = in_add_member->raidGen.action;
add_member->raidGen.parameter = in_add_member->raidGen.parameter;
strn0cpy(add_member->raidGen.leader_name, in_add_member->raidGen.leader_name, 64);
strn0cpy(add_member->raidGen.player_name, in_add_member->raidGen.player_name, 64);
add_member->_class = in_add_member->_class;
add_member->level = in_add_member->level;
add_member->isGroupLeader = in_add_member->isGroupLeader;
add_member->flags[0] = in_add_member->flags[0];
add_member->flags[1] = in_add_member->flags[1];
add_member->flags[2] = in_add_member->flags[2];
add_member->flags[3] = in_add_member->flags[3];
add_member->flags[4] = in_add_member->flags[4];
dest->FastQueuePacket(&outapp);
}
else if (raid_gen->action == 35)
{
RaidMOTD_Struct *inmotd = (RaidMOTD_Struct *)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidMOTD_Struct) + strlen(inmotd->motd) + 1);
structs::RaidMOTD_Struct *outmotd = (structs::RaidMOTD_Struct *)outapp->pBuffer;
outmotd->general.action = inmotd->general.action;
strn0cpy(outmotd->general.player_name, inmotd->general.player_name, 64);
strn0cpy(outmotd->motd, inmotd->motd, strlen(inmotd->motd) + 1);
dest->FastQueuePacket(&outapp);
}
else if (raid_gen->action == 14 || raid_gen->action == 30)
{
RaidLeadershipUpdate_Struct *inlaa = (RaidLeadershipUpdate_Struct *)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidLeadershipUpdate_Struct));
structs::RaidLeadershipUpdate_Struct *outlaa = (structs::RaidLeadershipUpdate_Struct *)outapp->pBuffer;
outlaa->action = inlaa->action;
strn0cpy(outlaa->player_name, inlaa->player_name, 64);
strn0cpy(outlaa->leader_name, inlaa->leader_name, 64);
memcpy(&outlaa->raid, &inlaa->raid, sizeof(RaidLeadershipAA_Struct));
dest->FastQueuePacket(&outapp);
}
else
{
RaidGeneral_Struct* in_raid_general = (RaidGeneral_Struct*)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct *raid_general = (structs::RaidGeneral_Struct*)outapp->pBuffer;
strn0cpy(raid_general->leader_name, in_raid_general->leader_name, 64);
strn0cpy(raid_general->player_name, in_raid_general->player_name, 64);
raid_general->action = in_raid_general->action;
raid_general->parameter = in_raid_general->parameter;
dest->FastQueuePacket(&outapp);
}
safe_delete(inapp);
}
ENCODE(OP_ReadBook)
{
ENCODE_LENGTH_ATLEAST(BookText_Struct);
SETUP_DIRECT_ENCODE(BookText_Struct, structs::BookRequest_Struct);
if (emu->window == 0xFF)
eq->window = 0xFFFFFFFF;
else
eq->window = emu->window;
OUT(type);
eq->invslot = ServerToUFSlot(emu->invslot);
strn0cpy(eq->txtfile, emu->booktext, sizeof(eq->txtfile));
FINISH_ENCODE();
}
ENCODE(OP_RespondAA)
{
SETUP_DIRECT_ENCODE(AATable_Struct, structs::AATable_Struct);
eq->aa_spent = emu->aa_spent;
eq->aa_assigned = emu->aa_spent;
eq->aa_spent3 = emu->aa_spent;
eq->unknown012 = 0;
eq->unknown016 = 0;
eq->unknown020 = 0;
for (uint32 i = 0; i < MAX_PP_AA_ARRAY; ++i)
{
eq->aa_list[i].aa_skill = emu->aa_list[i].aa_skill;
eq->aa_list[i].aa_value = emu->aa_list[i].aa_value;
eq->aa_list[i].unknown08 = emu->aa_list[i].unknown08;
}
FINISH_ENCODE();
}
ENCODE(OP_SendAATable)
{
ENCODE_LENGTH_ATLEAST(SendAA_Struct);
SETUP_VAR_ENCODE(SendAA_Struct);
ALLOC_VAR_ENCODE(structs::SendAA_Struct, sizeof(structs::SendAA_Struct) + emu->total_abilities*sizeof(structs::AA_Ability));
// Check clientver field to verify this AA should be sent for SoF
// clientver 1 is for all clients and 6 is for Underfoot
if (emu->clientver <= 6)
{
OUT(id);
eq->unknown004 = 1;
//eq->hotkey_sid = (emu->hotkey_sid==4294967295UL)?0:(emu->id - emu->current_level + 1);
//eq->hotkey_sid2 = (emu->hotkey_sid2==4294967295UL)?0:(emu->id - emu->current_level + 1);
//eq->title_sid = emu->id - emu->current_level + 1;
//eq->desc_sid = emu->id - emu->current_level + 1;
eq->hotkey_sid = (emu->hotkey_sid == 4294967295UL) ? 0 : (emu->sof_next_skill);
eq->hotkey_sid2 = (emu->hotkey_sid2 == 4294967295UL) ? 0 : (emu->sof_next_skill);
eq->title_sid = emu->sof_next_skill;
eq->desc_sid = emu->sof_next_skill;
OUT(class_type);
OUT(cost);
OUT(seq);
OUT(current_level);
OUT(prereq_skill);
OUT(prereq_minpoints);
eq->type = emu->sof_type;
OUT(spellid);
OUT(spell_type);
OUT(spell_refresh);
OUT(classes);
OUT(berserker);
//eq->max_level = emu->sof_max_level;
OUT(max_level);
OUT(last_id);
OUT(next_id);
OUT(cost2);
eq->aa_expansion = emu->aa_expansion;
eq->special_category = emu->special_category;
OUT(total_abilities);
unsigned int r;
for (r = 0; r < emu->total_abilities; r++) {
OUT(abilities[r].skill_id);
OUT(abilities[r].base1);
OUT(abilities[r].base2);
OUT(abilities[r].slot);
}
}
FINISH_ENCODE();
}
ENCODE(OP_SendCharInfo)
{
ENCODE_LENGTH_ATLEAST(CharacterSelect_Struct);
SETUP_VAR_ENCODE(CharacterSelect_Struct);
// Zero-character count shunt
if (emu->CharCount == 0) {
ALLOC_VAR_ENCODE(structs::CharacterSelect_Struct, sizeof(structs::CharacterSelect_Struct));
eq->CharCount = emu->CharCount;
eq->TotalChars = emu->TotalChars;
if (eq->TotalChars > consts::CHARACTER_CREATION_LIMIT)
eq->TotalChars = consts::CHARACTER_CREATION_LIMIT;
// Special Underfoot adjustment - field should really be 'AdditionalChars' or 'BonusChars'
uint32 adjusted_total = eq->TotalChars - 8; // Yes, it rolls under for '< 8' - probably an int32 field
eq->TotalChars = adjusted_total;
FINISH_ENCODE();
return;
}
unsigned char *emu_ptr = __emu_buffer;
emu_ptr += sizeof(CharacterSelect_Struct);
CharacterSelectEntry_Struct *emu_cse = (CharacterSelectEntry_Struct *)nullptr;
size_t names_length = 0;
size_t character_count = 0;
for (; character_count < emu->CharCount && character_count < consts::CHARACTER_CREATION_LIMIT; ++character_count) {
emu_cse = (CharacterSelectEntry_Struct *)emu_ptr;
names_length += strlen(emu_cse->Name);
emu_ptr += sizeof(CharacterSelectEntry_Struct);
}
size_t total_length = sizeof(structs::CharacterSelect_Struct)
+ character_count * sizeof(structs::CharacterSelectEntry_Struct)
+ names_length;
ALLOC_VAR_ENCODE(structs::CharacterSelect_Struct, total_length);
structs::CharacterSelectEntry_Struct *eq_cse = (structs::CharacterSelectEntry_Struct *)nullptr;
eq->CharCount = character_count;
eq->TotalChars = emu->TotalChars;
if (eq->TotalChars > consts::CHARACTER_CREATION_LIMIT)
eq->TotalChars = consts::CHARACTER_CREATION_LIMIT;
// Special Underfoot adjustment - field should really be 'AdditionalChars' or 'BonusChars' in this client
uint32 adjusted_total = eq->TotalChars - 8; // Yes, it rolls under for '< 8' - probably an int32 field
eq->TotalChars = adjusted_total;
emu_ptr = __emu_buffer;
emu_ptr += sizeof(CharacterSelect_Struct);
unsigned char *eq_ptr = __packet->pBuffer;
eq_ptr += sizeof(structs::CharacterSelect_Struct);
for (int counter = 0; counter < character_count; ++counter) {
emu_cse = (CharacterSelectEntry_Struct *)emu_ptr;
eq_cse = (structs::CharacterSelectEntry_Struct *)eq_ptr;
eq_cse->Level = emu_cse->Level;
eq_cse->HairStyle = emu_cse->HairStyle;
eq_cse->Gender = emu_cse->Gender;
strcpy(eq_cse->Name, emu_cse->Name);
eq_ptr += strlen(eq_cse->Name);
eq_cse = (structs::CharacterSelectEntry_Struct *)eq_ptr;
eq_cse->Beard = emu_cse->Beard;
eq_cse->HairColor = emu_cse->HairColor;
eq_cse->Face = emu_cse->Face;
for (int equip_index = 0; equip_index < _MaterialCount; equip_index++) {
eq_cse->Equip[equip_index].Material = emu_cse->Equip[equip_index].Material;
eq_cse->Equip[equip_index].Unknown1 = emu_cse->Equip[equip_index].Unknown1;
eq_cse->Equip[equip_index].EliteMaterial = emu_cse->Equip[equip_index].EliteMaterial;
eq_cse->Equip[equip_index].Color.Color = emu_cse->Equip[equip_index].Color.Color;
}
eq_cse->PrimaryIDFile = emu_cse->PrimaryIDFile;
eq_cse->SecondaryIDFile = emu_cse->SecondaryIDFile;
eq_cse->Tutorial = emu_cse->Tutorial;
eq_cse->Unknown15 = emu_cse->Unknown15;
eq_cse->Deity = emu_cse->Deity;
eq_cse->Zone = emu_cse->Zone;
eq_cse->Unknown19 = emu_cse->Unknown19;
eq_cse->Race = emu_cse->Race;
eq_cse->GoHome = emu_cse->GoHome;
eq_cse->Class = emu_cse->Class;
eq_cse->EyeColor1 = emu_cse->EyeColor1;
eq_cse->BeardColor = emu_cse->BeardColor;
eq_cse->EyeColor2 = emu_cse->EyeColor2;
eq_cse->DrakkinHeritage = emu_cse->DrakkinHeritage;
eq_cse->DrakkinTattoo = emu_cse->DrakkinTattoo;
eq_cse->DrakkinDetails = emu_cse->DrakkinDetails;
emu_ptr += sizeof(CharacterSelectEntry_Struct);
eq_ptr += sizeof(structs::CharacterSelectEntry_Struct);
}
FINISH_ENCODE();
}
ENCODE(OP_SendZonepoints)
{
SETUP_VAR_ENCODE(ZonePoints);
ALLOC_VAR_ENCODE(structs::ZonePoints, sizeof(structs::ZonePoints) + sizeof(structs::ZonePoint_Entry) * (emu->count + 1));
eq->count = emu->count;
for (uint32 i = 0; i < emu->count; ++i)
{
eq->zpe[i].iterator = emu->zpe[i].iterator;
eq->zpe[i].x = emu->zpe[i].x;
eq->zpe[i].y = emu->zpe[i].y;
eq->zpe[i].z = emu->zpe[i].z;
eq->zpe[i].heading = emu->zpe[i].heading;
eq->zpe[i].zoneid = emu->zpe[i].zoneid;
eq->zpe[i].zoneinstance = emu->zpe[i].zoneinstance;
}
FINISH_ENCODE();
}
ENCODE(OP_ShopPlayerBuy)
{
ENCODE_LENGTH_EXACT(Merchant_Sell_Struct);
SETUP_DIRECT_ENCODE(Merchant_Sell_Struct, structs::Merchant_Sell_Struct);
OUT(npcid);
OUT(playerid);
OUT(itemslot);
OUT(quantity);
OUT(price);
FINISH_ENCODE();
}
ENCODE(OP_ShopPlayerSell)
{
ENCODE_LENGTH_EXACT(Merchant_Purchase_Struct);
SETUP_DIRECT_ENCODE(Merchant_Purchase_Struct, structs::Merchant_Purchase_Struct);
OUT(npcid);
eq->itemslot = ServerToUFSlot(emu->itemslot);
OUT(quantity);
OUT(price);
FINISH_ENCODE();
}
ENCODE(OP_SomeItemPacketMaybe)
{
// This Opcode is not named very well. It is used for the animation of arrows leaving the player's bow
// and flying to the target.
//
ENCODE_LENGTH_EXACT(Arrow_Struct);
SETUP_DIRECT_ENCODE(Arrow_Struct, structs::Arrow_Struct);
OUT(src_y);
OUT(src_x);
OUT(src_z);
OUT(velocity);
OUT(launch_angle);
OUT(tilt);
OUT(arc);
OUT(source_id);
OUT(target_id);
OUT(item_id);
eq->unknown070 = 135; // This needs to be set to something, else we get a 1HS animation instead of ranged.
OUT(item_type);
OUT(skill);
strcpy(eq->model_name, emu->model_name);
FINISH_ENCODE();
}
ENCODE(OP_SpawnAppearance)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *emu_buffer = in->pBuffer;
SpawnAppearance_Struct *sas = (SpawnAppearance_Struct *)emu_buffer;
if (sas->type != AT_Size)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
EQApplicationPacket *outapp = new EQApplicationPacket(OP_ChangeSize, sizeof(ChangeSize_Struct));
ChangeSize_Struct *css = (ChangeSize_Struct *)outapp->pBuffer;
css->EntityID = sas->spawn_id;
css->Size = (float)sas->parameter;
css->Unknown08 = 0;
css->Unknown12 = 1.0f;
dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
ENCODE(OP_SpawnDoor)
{
SETUP_VAR_ENCODE(Door_Struct);
int door_count = __packet->size / sizeof(Door_Struct);
int total_length = door_count * sizeof(structs::Door_Struct);
ALLOC_VAR_ENCODE(structs::Door_Struct, total_length);
int r;
for (r = 0; r < door_count; r++) {
strcpy(eq[r].name, emu[r].name);
eq[r].xPos = emu[r].xPos;
eq[r].yPos = emu[r].yPos;
eq[r].zPos = emu[r].zPos;
eq[r].heading = emu[r].heading;
eq[r].incline = emu[r].incline;
eq[r].size = emu[r].size;
eq[r].doorId = emu[r].doorId;
eq[r].opentype = emu[r].opentype;
eq[r].state_at_spawn = emu[r].state_at_spawn;
eq[r].invert_state = emu[r].invert_state;
eq[r].door_param = emu[r].door_param;
eq[r].unknown0076 = 0;
eq[r].unknown0077 = 1; // Both must be 1 to allow clicking doors
eq[r].unknown0078 = 0;
eq[r].unknown0079 = 1; // Both must be 1 to allow clicking doors
eq[r].unknown0080 = 0;
eq[r].unknown0081 = 0;
eq[r].unknown0082 = 0;
}
FINISH_ENCODE();
}
ENCODE(OP_SpecialMesg)
{
EQApplicationPacket *in = *p;
*p = nullptr;
SpecialMesg_Struct *emu = (SpecialMesg_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
std::string old_message = &emu->message[strlen(emu->sayer)];
std::string new_message;
ServerToUFTextLink(new_message, old_message);
//in->size = 3 + 4 + 4 + strlen(emu->sayer) + 1 + 12 + new_message.length() + 1;
in->size = strlen(emu->sayer) + new_message.length() + 25;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[0]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[1]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[2]);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->msg_type);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->target_spawn_id);
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->sayer);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[0]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[1]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[2]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[3]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[4]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[5]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[6]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[7]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[8]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[9]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[10]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[11]);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Stun)
{
ENCODE_LENGTH_EXACT(Stun_Struct);
SETUP_DIRECT_ENCODE(Stun_Struct, structs::Stun_Struct);
OUT(duration);
eq->unknown005 = 163;
eq->unknown006 = 67;
FINISH_ENCODE();
}
ENCODE(OP_TargetBuffs) { ENCODE_FORWARD(OP_BuffCreate); }
ENCODE(OP_TaskDescription)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
char *InBuffer = (char *)in->pBuffer;
char *block_start = InBuffer;
InBuffer += sizeof(TaskDescriptionHeader_Struct);
uint32 title_size = strlen(InBuffer) + 1;
InBuffer += title_size;
InBuffer += sizeof(TaskDescriptionData1_Struct);
uint32 description_size = strlen(InBuffer) + 1;
InBuffer += description_size;
InBuffer += sizeof(TaskDescriptionData2_Struct);
std::string old_message = InBuffer; // start 'Reward' as string
std::string new_message;
ServerToUFTextLink(new_message, old_message);
in->size = sizeof(TaskDescriptionHeader_Struct) + sizeof(TaskDescriptionData1_Struct)+
sizeof(TaskDescriptionData2_Struct) + sizeof(TaskDescriptionTrailer_Struct)+
title_size + description_size + new_message.length() + 1;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
memcpy(OutBuffer, block_start, (InBuffer - block_start));
OutBuffer += (InBuffer - block_start);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
InBuffer += strlen(InBuffer) + 1;
memcpy(OutBuffer, InBuffer, sizeof(TaskDescriptionTrailer_Struct));
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Track)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
Track_Struct *emu = (Track_Struct *)__emu_buffer;
int EntryCount = in->size / sizeof(Track_Struct);
if (EntryCount == 0 || ((in->size % sizeof(Track_Struct))) != 0)
{
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(Track_Struct));
delete in;
return;
}
int PacketSize = 2;
for (int i = 0; i < EntryCount; ++i, ++emu)
PacketSize += (12 + strlen(emu->name));
emu = (Track_Struct *)__emu_buffer;
in->size = PacketSize;
in->pBuffer = new unsigned char[in->size];
char *Buffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, EntryCount);
for (int i = 0; i < EntryCount; ++i, ++emu)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->entityid);
VARSTRUCT_ENCODE_TYPE(float, Buffer, emu->distance);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->level);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->is_npc);
VARSTRUCT_ENCODE_STRING(Buffer, emu->name);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->is_merc);
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Trader)
{
if ((*p)->size != sizeof(TraderBuy_Struct)) {
EQApplicationPacket *in = *p;
*p = nullptr;
dest->FastQueuePacket(&in, ack_req);
return;
}
ENCODE_FORWARD(OP_TraderBuy);
}
ENCODE(OP_TraderBuy)
{
ENCODE_LENGTH_EXACT(TraderBuy_Struct);
SETUP_DIRECT_ENCODE(TraderBuy_Struct, structs::TraderBuy_Struct);
OUT(Action);
OUT(Price);
OUT(TraderID);
memcpy(eq->ItemName, emu->ItemName, sizeof(eq->ItemName));
OUT(ItemID);
OUT(Quantity);
OUT(AlreadySold);
FINISH_ENCODE();
}
ENCODE(OP_TributeItem)
{
ENCODE_LENGTH_EXACT(TributeItem_Struct);
SETUP_DIRECT_ENCODE(TributeItem_Struct, structs::TributeItem_Struct);
eq->slot = ServerToUFSlot(emu->slot);
OUT(quantity);
OUT(tribute_master_id);
OUT(tribute_points);
FINISH_ENCODE();
}
ENCODE(OP_VetRewardsAvaliable)
{
EQApplicationPacket *inapp = *p;
unsigned char * __emu_buffer = inapp->pBuffer;
uint32 count = ((*p)->Size() / sizeof(InternalVeteranReward));
*p = nullptr;
EQApplicationPacket *outapp_create = new EQApplicationPacket(OP_VetRewardsAvaliable, (sizeof(structs::VeteranReward)*count));
uchar *old_data = __emu_buffer;
uchar *data = outapp_create->pBuffer;
for (unsigned int i = 0; i < count; ++i)
{
structs::VeteranReward *vr = (structs::VeteranReward*)data;
InternalVeteranReward *ivr = (InternalVeteranReward*)old_data;
vr->claim_count = ivr->claim_count;
vr->claim_id = ivr->claim_id;
vr->number_available = ivr->number_available;
for (int x = 0; x < 8; ++x)
{
vr->items[x].item_id = ivr->items[x].item_id;
strcpy(vr->items[x].item_name, ivr->items[x].item_name);
vr->items[x].charges = ivr->items[x].charges;
}
old_data += sizeof(InternalVeteranReward);
data += sizeof(structs::VeteranReward);
}
dest->FastQueuePacket(&outapp_create);
delete inapp;
}
ENCODE(OP_WearChange)
{
ENCODE_LENGTH_EXACT(WearChange_Struct);
SETUP_DIRECT_ENCODE(WearChange_Struct, structs::WearChange_Struct);
OUT(spawn_id);
OUT(material);
OUT(unknown06);
OUT(elite_material);
OUT(color.Color);
OUT(wear_slot_id);
FINISH_ENCODE();
}
ENCODE(OP_WhoAllResponse)
{
EQApplicationPacket *in = *p;
*p = nullptr;
char *InBuffer = (char *)in->pBuffer;
WhoAllReturnStruct *wars = (WhoAllReturnStruct*)InBuffer;
int Count = wars->playercount;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_WhoAllResponse, in->size + (Count * 4));
char *OutBuffer = (char *)outapp->pBuffer;
memcpy(OutBuffer, InBuffer, sizeof(WhoAllReturnStruct));
OutBuffer += sizeof(WhoAllReturnStruct);
InBuffer += sizeof(WhoAllReturnStruct);
for (int i = 0; i < Count; ++i)
{
uint32 x;
x = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, x);
InBuffer += 4;
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0xffffffff);
char Name[64];
VARSTRUCT_DECODE_STRING(Name, InBuffer); // Char Name
VARSTRUCT_ENCODE_STRING(OutBuffer, Name);
x = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, x);
VARSTRUCT_DECODE_STRING(Name, InBuffer); // Guild Name
VARSTRUCT_ENCODE_STRING(OutBuffer, Name);
for (int j = 0; j < 7; ++j)
{
x = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, x);
}
VARSTRUCT_DECODE_STRING(Name, InBuffer); // Account
VARSTRUCT_ENCODE_STRING(OutBuffer, Name);
x = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, x);
}
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp);
delete in;
}
ENCODE(OP_ZoneEntry) { ENCODE_FORWARD(OP_ZoneSpawns); }
ENCODE(OP_ZonePlayerToBind)
{
SETUP_VAR_ENCODE(ZonePlayerToBind_Struct);
ALLOC_LEN_ENCODE(sizeof(structs::ZonePlayerToBind_Struct) + strlen(emu->zone_name));
__packet->SetWritePosition(0);
__packet->WriteUInt16(emu->bind_zone_id);
__packet->WriteUInt16(emu->bind_instance_id);
__packet->WriteFloat(emu->x);
__packet->WriteFloat(emu->y);
__packet->WriteFloat(emu->z);
__packet->WriteFloat(emu->heading);
__packet->WriteString(emu->zone_name);
__packet->WriteUInt8(1); // save items
__packet->WriteUInt32(0); // hp
__packet->WriteUInt32(0); // mana
__packet->WriteUInt32(0); // endurance
FINISH_ENCODE();
}
ENCODE(OP_ZoneServerInfo)
{
SETUP_DIRECT_ENCODE(ZoneServerInfo_Struct, ZoneServerInfo_Struct);
OUT_str(ip);
OUT(port);
FINISH_ENCODE();
}
ENCODE(OP_ZoneSpawns)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
Spawn_Struct *emu = (Spawn_Struct *)__emu_buffer;
//determine and verify length
int entrycount = in->size / sizeof(Spawn_Struct);
if (entrycount == 0 || (in->size % sizeof(Spawn_Struct)) != 0) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(Spawn_Struct));
delete in;
return;
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[STRUCTS] Spawn name is [%s]", emu->name);
emu = (Spawn_Struct *)__emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[STRUCTS] Spawn packet size is %i, entries = %i", in->size, entrycount);
char *Buffer = (char *)in->pBuffer;
int r;
int k;
for (r = 0; r < entrycount; r++, emu++) {
int PacketSize = sizeof(structs::Spawn_Struct);
PacketSize += strlen(emu->name);
PacketSize += strlen(emu->lastName);
if (strlen(emu->title))
PacketSize += strlen(emu->title) + 1;
if (strlen(emu->suffix))
PacketSize += strlen(emu->suffix) + 1;
if (emu->DestructibleObject)
{
PacketSize = PacketSize - 4; // No bodytype
PacketSize += 53; // Fixed portion
PacketSize += strlen(emu->DestructibleModel) + 1;
PacketSize += strlen(emu->DestructibleName2) + 1;
PacketSize += strlen(emu->DestructibleString) + 1;
}
bool ShowName = 1;
if (emu->bodytype >= 66)
{
emu->race = 127;
emu->bodytype = 11;
emu->gender = 0;
ShowName = 0;
}
float SpawnSize = emu->size;
if (!((emu->NPC == 0) || (emu->race <= 12) || (emu->race == 128) || (emu->race == 130) || (emu->race == 330) || (emu->race == 522)))
{
PacketSize -= (sizeof(structs::EquipStruct) * 9);
if (emu->size == 0)
{
emu->size = 6;
SpawnSize = 6;
}
}
if (SpawnSize == 0)
{
SpawnSize = 3;
}
EQApplicationPacket *outapp = new EQApplicationPacket(OP_ZoneEntry, PacketSize);
Buffer = (char *)outapp->pBuffer;
VARSTRUCT_ENCODE_STRING(Buffer, emu->name);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->spawnId);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->level);
if (emu->DestructibleObject)
{
VARSTRUCT_ENCODE_TYPE(float, Buffer, 10); // was int and 0x41200000
}
else
{
VARSTRUCT_ENCODE_TYPE(float, Buffer, SpawnSize - 0.7); // Eye Height?
}
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->NPC);
structs::Spawn_Struct_Bitfields *Bitfields = (structs::Spawn_Struct_Bitfields*)Buffer;
Bitfields->afk = 0;
Bitfields->linkdead = 0;
Bitfields->gender = emu->gender;
Bitfields->invis = emu->invis;
Bitfields->sneak = 0;
Bitfields->lfg = emu->lfg;
Bitfields->gm = emu->gm;
Bitfields->anon = emu->anon;
Bitfields->showhelm = emu->showhelm;
Bitfields->targetable = 1;
Bitfields->targetable_with_hotkey = emu->targetable_with_hotkey ? 1 : 0;
Bitfields->statue = 0;
Bitfields->trader = 0;
Bitfields->buyer = 0;
Bitfields->showname = ShowName;
if (emu->DestructibleObject)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x1d600000);
Buffer = Buffer - 4;
}
Bitfields->ispet = emu->is_pet;
Buffer += sizeof(structs::Spawn_Struct_Bitfields);
uint8 OtherData = 0;
if (strlen(emu->title))
OtherData = OtherData | 0x04;
if (strlen(emu->suffix))
OtherData = OtherData | 0x08;
if (emu->DestructibleObject)
OtherData = OtherData | 0xd1; // Live has 0xe1 for OtherData
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, OtherData);
if (emu->DestructibleObject)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x00000000);
}
else
{
VARSTRUCT_ENCODE_TYPE(float, Buffer, -1); // unknown3
}
VARSTRUCT_ENCODE_TYPE(float, Buffer, 0); // unknown4
if (emu->DestructibleObject)
{
VARSTRUCT_ENCODE_STRING(Buffer, emu->DestructibleModel);
VARSTRUCT_ENCODE_STRING(Buffer, emu->DestructibleName2);
VARSTRUCT_ENCODE_STRING(Buffer, emu->DestructibleString);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleAppearance);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk1);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleID1);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleID2);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleID3);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleID4);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk2);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk3);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk4);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk5);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk6);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk7);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->DestructibleUnk8);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->DestructibleUnk9);
}
VARSTRUCT_ENCODE_TYPE(float, Buffer, emu->size);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->face);
VARSTRUCT_ENCODE_TYPE(float, Buffer, emu->walkspeed);
VARSTRUCT_ENCODE_TYPE(float, Buffer, emu->runspeed);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->race);
/*
if(emu->bodytype >=66)
{
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // showname
}
else
{
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 1); // showname
}*/
if (!emu->DestructibleObject)
{
// Setting this next field to zero will cause a crash. Looking at ShowEQ, if it is zero, the bodytype field is not
// present. Will sort that out later.
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 1); // This is a properties count field
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->bodytype);
}
else
{
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
}
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->curHp);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->haircolor);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->beardcolor);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->eyecolor1);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->eyecolor2);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->hairstyle);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->beard);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->drakkin_heritage);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->drakkin_tattoo);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->drakkin_details);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // ShowEQ calls this 'Holding'
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->deity);
if (emu->NPC)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xFFFFFFFF);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x00000000);
}
else
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->guildID);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->guildrank);
}
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->class_);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // pvp
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->StandState); // standstate
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->light);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->flymode);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->equip_chest2); // unknown8
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown9
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown10
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->helm); // unknown11
VARSTRUCT_ENCODE_STRING(Buffer, emu->lastName);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // aatitle
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown12
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->petOwnerId);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown13
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown14 - Stance 64 = normal 4 = aggressive 40 = stun/mezzed
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown15
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown16
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown17
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff); // unknown18
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff); // unknown19
structs::Spawn_Struct_Position *Position = (structs::Spawn_Struct_Position*)Buffer;
Position->deltaX = emu->deltaX;
Position->deltaHeading = emu->deltaHeading;
Position->deltaY = emu->deltaY;
Position->y = emu->y;
Position->animation = emu->animation;
Position->heading = emu->heading;
Position->x = emu->x;
Position->z = emu->z;
Position->deltaZ = emu->deltaZ;
Buffer += sizeof(structs::Spawn_Struct_Position);
if ((emu->NPC == 0) || (emu->race <= 12) || (emu->race == 128) || (emu->race == 130) || (emu->race == 330) || (emu->race == 522))
{
for (k = 0; k < 9; ++k)
{
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->colors[k].Color);
}
}
}
else
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->equipment[MaterialPrimary].Material);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->equipment[MaterialSecondary].Material);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
}
if ((emu->NPC == 0) || (emu->race <= 12) || (emu->race == 128) || (emu->race == 130) || (emu->race == 330) || (emu->race == 522))
{
structs::EquipStruct *Equipment = (structs::EquipStruct *)Buffer;
for (k = 0; k < 9; k++) {
Equipment[k].Material = emu->equipment[k].Material;
Equipment[k].Unknown1 = emu->equipment[k].Unknown1;
Equipment[k].EliteMaterial = emu->equipment[k].EliteMaterial;
}
Buffer += (sizeof(structs::EquipStruct) * 9);
}
if (strlen(emu->title))
{
VARSTRUCT_ENCODE_STRING(Buffer, emu->title);
}
if (strlen(emu->suffix))
{
VARSTRUCT_ENCODE_STRING(Buffer, emu->suffix);
}
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Unknown;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Unknown;
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->IsMercenary); //IsMercenary
Buffer += 28; // Unknown;
dest->FastQueuePacket(&outapp, ack_req);
}
delete in;
}
// DECODE methods
DECODE(OP_AdventureMerchantSell)
{
DECODE_LENGTH_EXACT(structs::Adventure_Sell_Struct);
SETUP_DIRECT_DECODE(Adventure_Sell_Struct, structs::Adventure_Sell_Struct);
IN(npcid);
emu->slot = UFToServerSlot(eq->slot);
IN(charges);
IN(sell_price);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AltCurrencySell)
{
DECODE_LENGTH_EXACT(structs::AltCurrencySellItem_Struct);
SETUP_DIRECT_DECODE(AltCurrencySellItem_Struct, structs::AltCurrencySellItem_Struct);
IN(merchant_entity_id);
emu->slot_id = UFToServerSlot(eq->slot_id);
IN(charges);
IN(cost);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AltCurrencySellSelection)
{
DECODE_LENGTH_EXACT(structs::AltCurrencySelectItem_Struct);
SETUP_DIRECT_DECODE(AltCurrencySelectItem_Struct, structs::AltCurrencySelectItem_Struct);
IN(merchant_entity_id);
emu->slot_id = UFToServerSlot(eq->slot_id);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ApplyPoison)
{
DECODE_LENGTH_EXACT(structs::ApplyPoison_Struct);
SETUP_DIRECT_DECODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
emu->inventorySlot = UFToServerSlot(eq->inventorySlot);
IN(success);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AugmentInfo)
{
DECODE_LENGTH_EXACT(structs::AugmentInfo_Struct);
SETUP_DIRECT_DECODE(AugmentInfo_Struct, structs::AugmentInfo_Struct);
IN(itemid);
IN(window);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AugmentItem)
{
DECODE_LENGTH_EXACT(structs::AugmentItem_Struct);
SETUP_DIRECT_DECODE(AugmentItem_Struct, structs::AugmentItem_Struct);
emu->container_slot = UFToServerSlot(eq->container_slot);
emu->augment_slot = eq->augment_slot;
FINISH_DIRECT_DECODE();
}
DECODE(OP_BazaarSearch)
{
char *Buffer = (char *)__packet->pBuffer;
uint8 SubAction = VARSTRUCT_DECODE_TYPE(uint8, Buffer);
if ((SubAction != BazaarInspectItem) || (__packet->size != sizeof(structs::NewBazaarInspect_Struct)))
return;
SETUP_DIRECT_DECODE(NewBazaarInspect_Struct, structs::NewBazaarInspect_Struct);
MEMSET_IN(structs::NewBazaarInspect_Struct);
IN(Beginning.Action);
memcpy(emu->Name, eq->Name, sizeof(emu->Name));
IN(SerialNumber);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Buff)
{
DECODE_LENGTH_EXACT(structs::SpellBuffFade_Struct_Underfoot);
SETUP_DIRECT_DECODE(SpellBuffFade_Struct, structs::SpellBuffFade_Struct_Underfoot);
IN(entityid);
IN(slot);
IN(level);
IN(effect);
IN(spellid);
IN(duration);
IN(slotid);
IN(bufffade);
FINISH_DIRECT_DECODE();
}
DECODE(OP_BuffRemoveRequest)
{
// This is to cater for the fact that short buff box buffs start at 30 as opposed to 25 in prior clients.
//
DECODE_LENGTH_EXACT(structs::BuffRemoveRequest_Struct);
SETUP_DIRECT_DECODE(BuffRemoveRequest_Struct, structs::BuffRemoveRequest_Struct);
emu->SlotID = (eq->SlotID < 30) ? eq->SlotID : (eq->SlotID - 5);
IN(EntityID);
FINISH_DIRECT_DECODE();
}
DECODE(OP_CastSpell)
{
DECODE_LENGTH_EXACT(structs::CastSpell_Struct);
SETUP_DIRECT_DECODE(CastSpell_Struct, structs::CastSpell_Struct);
if (eq->slot == 13)
emu->slot = 10;
else
IN(slot);
IN(spell_id);
emu->inventoryslot = UFToServerSlot(eq->inventoryslot);
IN(target_id);
IN(cs_unknown1);
IN(cs_unknown2);
IN(y_pos);
IN(x_pos);
IN(z_pos);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ChannelMessage)
{
unsigned char *__eq_buffer = __packet->pBuffer;
char *InBuffer = (char *)__eq_buffer;
char Sender[64];
char Target[64];
VARSTRUCT_DECODE_STRING(Sender, InBuffer);
VARSTRUCT_DECODE_STRING(Target, InBuffer);
InBuffer += 4;
uint32 Language = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
uint32 Channel = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
InBuffer += 5;
uint32 Skill = VARSTRUCT_DECODE_TYPE(uint32, InBuffer);
std::string old_message = InBuffer;
std::string new_message;
UFToServerTextLink(new_message, old_message);
//__packet->size = sizeof(ChannelMessage_Struct)+strlen(InBuffer) + 1;
__packet->size = sizeof(ChannelMessage_Struct) + new_message.length() + 1;
__packet->pBuffer = new unsigned char[__packet->size];
ChannelMessage_Struct *emu = (ChannelMessage_Struct *)__packet->pBuffer;
strn0cpy(emu->targetname, Target, sizeof(emu->targetname));
strn0cpy(emu->sender, Target, sizeof(emu->sender));
emu->language = Language;
emu->chan_num = Channel;
emu->skill_in_language = Skill;
strcpy(emu->message, new_message.c_str());
delete[] __eq_buffer;
}
DECODE(OP_CharacterCreate)
{
DECODE_LENGTH_EXACT(structs::CharCreate_Struct);
SETUP_DIRECT_DECODE(CharCreate_Struct, structs::CharCreate_Struct);
IN(class_);
IN(beardcolor);
IN(beard);
IN(hairstyle);
IN(gender);
IN(race);
IN(start_zone);
IN(haircolor);
IN(deity);
IN(STR);
IN(STA);
IN(AGI);
IN(DEX);
IN(WIS);
IN(INT);
IN(CHA);
IN(face);
IN(eyecolor1);
IN(eyecolor2);
IN(tutorial);
IN(drakkin_heritage);
IN(drakkin_tattoo);
IN(drakkin_details);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ClientUpdate)
{
// for some odd reason, there is an extra byte on the end of this on occasion..
DECODE_LENGTH_ATLEAST(structs::PlayerPositionUpdateClient_Struct);
SETUP_DIRECT_DECODE(PlayerPositionUpdateClient_Struct, structs::PlayerPositionUpdateClient_Struct);
IN(spawn_id);
IN(sequence);
IN(x_pos);
IN(y_pos);
IN(z_pos);
IN(heading);
IN(delta_x);
IN(delta_y);
IN(delta_z);
IN(delta_heading);
IN(animation);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Consider)
{
DECODE_LENGTH_EXACT(structs::Consider_Struct);
SETUP_DIRECT_DECODE(Consider_Struct, structs::Consider_Struct);
IN(playerid);
IN(targetid);
IN(faction);
IN(level);
//emu->cur_hp = 1;
//emu->max_hp = 2;
//emu->pvpcon = 0;
FINISH_DIRECT_DECODE();
}
DECODE(OP_ConsiderCorpse) { DECODE_FORWARD(OP_Consider); }
DECODE(OP_Consume)
{
DECODE_LENGTH_EXACT(structs::Consume_Struct);
SETUP_DIRECT_DECODE(Consume_Struct, structs::Consume_Struct);
emu->slot = UFToServerSlot(eq->slot);
IN(auto_consumed);
IN(type);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Damage)
{
DECODE_LENGTH_EXACT(structs::CombatDamage_Struct);
SETUP_DIRECT_DECODE(CombatDamage_Struct, structs::CombatDamage_Struct);
IN(target);
IN(source);
IN(type);
IN(spellid);
IN(damage);
IN(meleepush_xy);
FINISH_DIRECT_DECODE();
}
DECODE(OP_DeleteItem)
{
DECODE_LENGTH_EXACT(structs::DeleteItem_Struct);
SETUP_DIRECT_DECODE(DeleteItem_Struct, structs::DeleteItem_Struct);
emu->from_slot = UFToServerSlot(eq->from_slot);
emu->to_slot = UFToServerSlot(eq->to_slot);
IN(number_in_stack);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Emote)
{
unsigned char *__eq_buffer = __packet->pBuffer;
std::string old_message = (char *)&__eq_buffer[4]; // unknown01 offset
std::string new_message;
UFToServerTextLink(new_message, old_message);
__packet->size = sizeof(Emote_Struct);
__packet->pBuffer = new unsigned char[__packet->size];
char *InBuffer = (char *)__packet->pBuffer;
memcpy(InBuffer, __eq_buffer, 4);
InBuffer += 4;
strcpy(InBuffer, new_message.substr(0, 1023).c_str());
InBuffer[1023] = '\0';
delete[] __eq_buffer;
}
DECODE(OP_EnvDamage)
{
DECODE_LENGTH_EXACT(structs::EnvDamage2_Struct);
SETUP_DIRECT_DECODE(EnvDamage2_Struct, structs::EnvDamage2_Struct);
IN(id);
IN(damage);
IN(dmgtype);
emu->constant = 0xFFFF;
FINISH_DIRECT_DECODE();
}
DECODE(OP_FaceChange)
{
DECODE_LENGTH_EXACT(structs::FaceChange_Struct);
SETUP_DIRECT_DECODE(FaceChange_Struct, structs::FaceChange_Struct);
IN(haircolor);
IN(beardcolor);
IN(eyecolor1);
IN(eyecolor2);
IN(hairstyle);
IN(beard);
IN(face);
IN(drakkin_heritage);
IN(drakkin_tattoo);
IN(drakkin_details);
FINISH_DIRECT_DECODE();
}
DECODE(OP_FindPersonRequest)
{
DECODE_LENGTH_EXACT(structs::FindPersonRequest_Struct);
SETUP_DIRECT_DECODE(FindPersonRequest_Struct, structs::FindPersonRequest_Struct);
IN(npc_id);
IN(client_pos.x);
IN(client_pos.y);
IN(client_pos.z);
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupCancelInvite)
{
DECODE_LENGTH_EXACT(structs::GroupCancel_Struct);
SETUP_DIRECT_DECODE(GroupCancel_Struct, structs::GroupCancel_Struct);
memcpy(emu->name1, eq->name1, sizeof(emu->name1));
memcpy(emu->name2, eq->name2, sizeof(emu->name2));
IN(toggle);
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupDisband)
{
//EQApplicationPacket *in = __packet;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received incoming OP_Disband");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
DECODE_LENGTH_EXACT(structs::GroupGeneric_Struct);
SETUP_DIRECT_DECODE(GroupGeneric_Struct, structs::GroupGeneric_Struct);
memcpy(emu->name1, eq->name1, sizeof(emu->name1));
memcpy(emu->name2, eq->name2, sizeof(emu->name2));
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupFollow)
{
//EQApplicationPacket *in = __packet;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received incoming OP_GroupFollow");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
DECODE_LENGTH_EXACT(structs::GroupFollow_Struct);
SETUP_DIRECT_DECODE(GroupGeneric_Struct, structs::GroupFollow_Struct);
memcpy(emu->name1, eq->name1, sizeof(emu->name1));
memcpy(emu->name2, eq->name2, sizeof(emu->name2));
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupFollow2)
{
//EQApplicationPacket *in = __packet;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received incoming OP_GroupFollow2");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
DECODE_LENGTH_EXACT(structs::GroupFollow_Struct);
SETUP_DIRECT_DECODE(GroupGeneric_Struct, structs::GroupFollow_Struct);
memcpy(emu->name1, eq->name1, sizeof(emu->name1));
memcpy(emu->name2, eq->name2, sizeof(emu->name2));
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupInvite)
{
//EQApplicationPacket *in = __packet;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received incoming OP_GroupInvite");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
DECODE_LENGTH_EXACT(structs::GroupInvite_Struct);
SETUP_DIRECT_DECODE(GroupGeneric_Struct, structs::GroupInvite_Struct);
memcpy(emu->name1, eq->invitee_name, sizeof(emu->name1));
memcpy(emu->name2, eq->inviter_name, sizeof(emu->name2));
FINISH_DIRECT_DECODE();
}
DECODE(OP_GroupInvite2)
{
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Received incoming OP_GroupInvite2. Forwarding");
DECODE_FORWARD(OP_GroupInvite);
}
DECODE(OP_InspectRequest)
{
DECODE_LENGTH_EXACT(structs::Inspect_Struct);
SETUP_DIRECT_DECODE(Inspect_Struct, structs::Inspect_Struct);
IN(TargetID);
IN(PlayerID);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ItemLinkClick)
{
DECODE_LENGTH_EXACT(structs::ItemViewRequest_Struct);
SETUP_DIRECT_DECODE(ItemViewRequest_Struct, structs::ItemViewRequest_Struct);
MEMSET_IN(ItemViewRequest_Struct);
IN(item_id);
int r;
for (r = 0; r < 5; r++) {
IN(augments[r]);
}
IN(link_hash);
IN(icon);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ItemVerifyRequest)
{
DECODE_LENGTH_EXACT(structs::ItemVerifyRequest_Struct);
SETUP_DIRECT_DECODE(ItemVerifyRequest_Struct, structs::ItemVerifyRequest_Struct);
emu->slot = UFToServerSlot(eq->slot);
IN(target);
FINISH_DIRECT_DECODE();
}
DECODE(OP_LoadSpellSet)
{
DECODE_LENGTH_EXACT(structs::LoadSpellSet_Struct);
SETUP_DIRECT_DECODE(LoadSpellSet_Struct, structs::LoadSpellSet_Struct);
for (unsigned int i = 0; i < MAX_PP_MEMSPELL; ++i)
if (eq->spell[i] == 0)
emu->spell[i] = 0xFFFFFFFF;
else
emu->spell[i] = eq->spell[i];
FINISH_DIRECT_DECODE();
}
DECODE(OP_LootItem)
{
DECODE_LENGTH_EXACT(structs::LootingItem_Struct);
SETUP_DIRECT_DECODE(LootingItem_Struct, structs::LootingItem_Struct);
IN(lootee);
IN(looter);
emu->slot_id = UFToServerCorpseSlot(eq->slot_id);
IN(auto_loot);
FINISH_DIRECT_DECODE();
}
DECODE(OP_MoveItem)
{
DECODE_LENGTH_EXACT(structs::MoveItem_Struct);
SETUP_DIRECT_DECODE(MoveItem_Struct, structs::MoveItem_Struct);
Log.Out(Logs::General, Logs::Netcode, "[UF] Moved item from %u to %u", eq->from_slot, eq->to_slot);
emu->from_slot = UFToServerSlot(eq->from_slot);
emu->to_slot = UFToServerSlot(eq->to_slot);
IN(number_in_stack);
FINISH_DIRECT_DECODE();
}
DECODE(OP_PetCommands)
{
DECODE_LENGTH_EXACT(structs::PetCommand_Struct);
SETUP_DIRECT_DECODE(PetCommand_Struct, structs::PetCommand_Struct);
IN(command);
IN(target);
FINISH_DIRECT_DECODE();
}
DECODE(OP_RaidInvite)
{
DECODE_LENGTH_ATLEAST(structs::RaidGeneral_Struct);
// This is a switch on the RaidGeneral action
switch (*(uint32 *)__packet->pBuffer) {
case 35: { // raidMOTD
// we don't have a nice macro for this
structs::RaidMOTD_Struct *__eq_buffer = (structs::RaidMOTD_Struct *)__packet->pBuffer;
__eq_buffer->motd[1023] = '\0';
size_t motd_size = strlen(__eq_buffer->motd) + 1;
__packet->size = sizeof(RaidMOTD_Struct) + motd_size;
__packet->pBuffer = new unsigned char[__packet->size];
RaidMOTD_Struct *emu = (RaidMOTD_Struct *)__packet->pBuffer;
structs::RaidMOTD_Struct *eq = (structs::RaidMOTD_Struct *)__eq_buffer;
strn0cpy(emu->general.player_name, eq->general.player_name, 64);
strn0cpy(emu->motd, eq->motd, motd_size);
IN(general.action);
IN(general.parameter);
FINISH_DIRECT_DECODE();
break;
}
case 36: { // raidPlayerNote unhandled
break;
}
default: {
DECODE_LENGTH_EXACT(structs::RaidGeneral_Struct);
SETUP_DIRECT_DECODE(RaidGeneral_Struct, structs::RaidGeneral_Struct);
strn0cpy(emu->leader_name, eq->leader_name, 64);
strn0cpy(emu->player_name, eq->player_name, 64);
IN(action);
IN(parameter);
FINISH_DIRECT_DECODE();
break;
}
}
}
DECODE(OP_ReadBook)
{
DECODE_LENGTH_EXACT(structs::BookRequest_Struct);
SETUP_DIRECT_DECODE(BookRequest_Struct, structs::BookRequest_Struct);
IN(type);
emu->invslot = UFToServerSlot(eq->invslot);
emu->window = (uint8)eq->window;
strn0cpy(emu->txtfile, eq->txtfile, sizeof(emu->txtfile));
FINISH_DIRECT_DECODE();
}
DECODE(OP_Save)
{
DECODE_LENGTH_EXACT(structs::Save_Struct);
SETUP_DIRECT_DECODE(Save_Struct, structs::Save_Struct);
memcpy(emu->unknown00, eq->unknown00, sizeof(emu->unknown00));
FINISH_DIRECT_DECODE();
}
DECODE(OP_SetServerFilter)
{
DECODE_LENGTH_EXACT(structs::SetServerFilter_Struct);
SETUP_DIRECT_DECODE(SetServerFilter_Struct, structs::SetServerFilter_Struct);
int r;
for (r = 0; r < 29; r++) {
IN(filters[r]);
}
FINISH_DIRECT_DECODE();
}
DECODE(OP_ShopPlayerBuy)
{
DECODE_LENGTH_EXACT(structs::Merchant_Sell_Struct);
SETUP_DIRECT_DECODE(Merchant_Sell_Struct, structs::Merchant_Sell_Struct);
IN(npcid);
IN(playerid);
IN(itemslot);
IN(quantity);
IN(price);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ShopPlayerSell)
{
DECODE_LENGTH_EXACT(structs::Merchant_Purchase_Struct);
SETUP_DIRECT_DECODE(Merchant_Purchase_Struct, structs::Merchant_Purchase_Struct);
IN(npcid);
emu->itemslot = UFToServerSlot(eq->itemslot);
IN(quantity);
IN(price);
FINISH_DIRECT_DECODE();
}
DECODE(OP_TraderBuy)
{
DECODE_LENGTH_EXACT(structs::TraderBuy_Struct);
SETUP_DIRECT_DECODE(TraderBuy_Struct, structs::TraderBuy_Struct);
MEMSET_IN(TraderBuy_Struct);
IN(Action);
IN(Price);
IN(TraderID);
memcpy(emu->ItemName, eq->ItemName, sizeof(emu->ItemName));
IN(ItemID);
IN(Quantity);
FINISH_DIRECT_DECODE();
}
DECODE(OP_TradeSkillCombine)
{
DECODE_LENGTH_EXACT(structs::NewCombine_Struct);
SETUP_DIRECT_DECODE(NewCombine_Struct, structs::NewCombine_Struct);
emu->container_slot = UFToServerSlot(eq->container_slot);
IN(guildtribute_slot);
FINISH_DIRECT_DECODE();
}
DECODE(OP_TributeItem)
{
DECODE_LENGTH_EXACT(structs::TributeItem_Struct);
SETUP_DIRECT_DECODE(TributeItem_Struct, structs::TributeItem_Struct);
emu->slot = UFToServerSlot(eq->slot);
IN(quantity);
IN(tribute_master_id);
IN(tribute_points);
FINISH_DIRECT_DECODE();
}
DECODE(OP_WearChange)
{
DECODE_LENGTH_EXACT(structs::WearChange_Struct);
SETUP_DIRECT_DECODE(WearChange_Struct, structs::WearChange_Struct);
IN(spawn_id);
IN(material);
IN(unknown06);
IN(elite_material);
IN(color.Color);
IN(wear_slot_id);
emu->hero_forge_model = 0;
emu->unknown18 = 0;
FINISH_DIRECT_DECODE();
}
DECODE(OP_WhoAllRequest)
{
DECODE_LENGTH_EXACT(structs::Who_All_Struct);
SETUP_DIRECT_DECODE(Who_All_Struct, structs::Who_All_Struct);
memcpy(emu->whom, eq->whom, sizeof(emu->whom));
IN(wrace);
IN(wclass);
IN(lvllow);
IN(lvlhigh);
IN(gmlookup);
IN(guildid);
IN(type);
FINISH_DIRECT_DECODE();
}
// file scope helper methods
uint32 NextItemInstSerialNumber = 1;
uint32 MaxInstances = 2000000000;
static inline int32 GetNextItemInstSerialNumber()
{
if (NextItemInstSerialNumber >= MaxInstances)
NextItemInstSerialNumber = 1;
else
NextItemInstSerialNumber++;
return NextItemInstSerialNumber;
}
char* SerializeItem(const ItemInst *inst, int16 slot_id_in, uint32 *length, uint8 depth)
{
int ornamentationAugtype = RuleI(Character, OrnamentationAugmentType);
uint8 null_term = 0;
bool stackable = inst->IsStackable();
uint32 merchant_slot = inst->GetMerchantSlot();
uint32 charges = inst->GetCharges();
if (!stackable && charges > 254)
charges = 0xFFFFFFFF;
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
const Item_Struct *item = inst->GetUnscaledItem();
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Serialize called for: %s", item->Name);
UF::structs::ItemSerializationHeader hdr;
hdr.stacksize = stackable ? charges : 1;
hdr.unknown004 = 0;
int32 slot_id = ServerToUFSlot(slot_id_in);
hdr.slot = (merchant_slot == 0) ? slot_id : merchant_slot;
hdr.price = inst->GetPrice();
hdr.merchant_slot = (merchant_slot == 0) ? 1 : inst->GetMerchantCount();
hdr.scaled_value = inst->IsScaling() ? inst->GetExp() / 100 : 0;
hdr.instance_id = (merchant_slot == 0) ? inst->GetSerialNumber() : merchant_slot;
hdr.unknown028 = 0;
hdr.last_cast_time = inst->GetRecastTimestamp();
hdr.charges = (stackable ? (item->MaxCharges ? 1 : 0) : charges);
hdr.inst_nodrop = inst->IsAttuned() ? 1 : 0;
hdr.unknown044 = 0;
hdr.unknown048 = 0;
hdr.unknown052 = 0;
hdr.isEvolving = item->EvolvingLevel > 0 ? 1 : 0;
ss.write((const char*)&hdr, sizeof(UF::structs::ItemSerializationHeader));
if (item->EvolvingLevel > 0) {
UF::structs::EvolvingItem evotop;
evotop.unknown001 = 0;
evotop.unknown002 = 0;
evotop.unknown003 = 0;
evotop.unknown004 = 0;
evotop.evoLevel = item->EvolvingLevel;
evotop.progress = 95.512;
evotop.Activated = 1;
evotop.evomaxlevel = 7;
ss.write((const char*)&evotop, sizeof(UF::structs::EvolvingItem));
}
//ORNAMENT IDFILE / ICON -
uint16 ornaIcon = 0;
if (inst->GetOrnamentationAug(ornamentationAugtype)) {
const Item_Struct *aug_weap = inst->GetOrnamentationAug(ornamentationAugtype)->GetItem();
ss.write(aug_weap->IDFile, strlen(aug_weap->IDFile));
ss.write((const char*)&null_term, sizeof(uint8));
ornaIcon = aug_weap->Icon;
}
else if (inst->GetOrnamentationIDFile() && inst->GetOrnamentationIcon()) {
char tmp[30]; memset(tmp, 0x0, 30); sprintf(tmp, "IT%d", inst->GetOrnamentationIDFile());
ss.write(tmp, strlen(tmp));
ss.write((const char*)&null_term, sizeof(uint8));
ornaIcon = inst->GetOrnamentationIcon();
}
else {
ss.write((const char*)&null_term, sizeof(uint8)); //no idfile
}
UF::structs::ItemSerializationHeaderFinish hdrf;
hdrf.ornamentIcon = ornaIcon;
hdrf.unknown060 = 0; //This is Always 0.. or it breaks shit..
hdrf.unknown061 = 0; //possibly ornament / special ornament
hdrf.isCopied = 0; //Flag for item to be 'Copied'
hdrf.ItemClass = item->ItemClass;
ss.write((const char*)&hdrf, sizeof(UF::structs::ItemSerializationHeaderFinish));
if (strlen(item->Name) > 0)
{
ss.write(item->Name, strlen(item->Name));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
if (strlen(item->Lore) > 0)
{
ss.write(item->Lore, strlen(item->Lore));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
if (strlen(item->IDFile) > 0)
{
ss.write(item->IDFile, strlen(item->IDFile));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
UF::structs::ItemBodyStruct ibs;
memset(&ibs, 0, sizeof(UF::structs::ItemBodyStruct));
ibs.id = item->ID;
ibs.weight = item->Weight;
ibs.norent = item->NoRent;
ibs.nodrop = item->NoDrop;
ibs.attune = item->Attuneable;
ibs.size = item->Size;
ibs.slots = SwapBits21and22(item->Slots);
ibs.price = item->Price;
ibs.icon = item->Icon;
ibs.unknown1 = 1;
ibs.unknown2 = 1;
ibs.BenefitFlag = item->BenefitFlag;
ibs.tradeskills = item->Tradeskills;
ibs.CR = item->CR;
ibs.DR = item->DR;
ibs.PR = item->PR;
ibs.MR = item->MR;
ibs.FR = item->FR;
ibs.SVCorruption = item->SVCorruption;
ibs.AStr = item->AStr;
ibs.ASta = item->ASta;
ibs.AAgi = item->AAgi;
ibs.ADex = item->ADex;
ibs.ACha = item->ACha;
ibs.AInt = item->AInt;
ibs.AWis = item->AWis;
ibs.HP = item->HP;
ibs.Mana = item->Mana;
ibs.Endur = item->Endur;
ibs.AC = item->AC;
ibs.regen = item->Regen;
ibs.mana_regen = item->ManaRegen;
ibs.end_regen = item->EnduranceRegen;
ibs.Classes = item->Classes;
ibs.Races = item->Races;
ibs.Deity = item->Deity;
ibs.SkillModValue = item->SkillModValue;
ibs.unknown5 = 0;
ibs.SkillModType = item->SkillModType;
ibs.BaneDmgRace = item->BaneDmgRace;
ibs.BaneDmgBody = item->BaneDmgBody;
ibs.BaneDmgRaceAmt = item->BaneDmgRaceAmt;
ibs.BaneDmgAmt = item->BaneDmgAmt;
ibs.Magic = item->Magic;
ibs.CastTime_ = item->CastTime_;
ibs.ReqLevel = item->ReqLevel;
ibs.RecLevel = item->RecLevel;
ibs.RecSkill = item->RecSkill;
ibs.BardType = item->BardType;
ibs.BardValue = item->BardValue;
ibs.Light = item->Light;
ibs.Delay = item->Delay;
ibs.ElemDmgType = item->ElemDmgType;
ibs.ElemDmgAmt = item->ElemDmgAmt;
ibs.Range = item->Range;
ibs.Damage = item->Damage;
ibs.Color = item->Color;
ibs.ItemType = item->ItemType;
ibs.Material = item->Material;
ibs.unknown7 = 0;
ibs.EliteMaterial = item->EliteMaterial;
ibs.SellRate = item->SellRate;
ibs.CombatEffects = item->CombatEffects;
ibs.Shielding = item->Shielding;
ibs.StunResist = item->StunResist;
ibs.StrikeThrough = item->StrikeThrough;
ibs.ExtraDmgSkill = item->ExtraDmgSkill;
ibs.ExtraDmgAmt = item->ExtraDmgAmt;
ibs.SpellShield = item->SpellShield;
ibs.Avoidance = item->Avoidance;
ibs.Accuracy = item->Accuracy;
ibs.CharmFileID = item->CharmFileID;
ibs.FactionAmt1 = item->FactionAmt1;
ibs.FactionMod1 = item->FactionMod1;
ibs.FactionAmt2 = item->FactionAmt2;
ibs.FactionMod2 = item->FactionMod2;
ibs.FactionAmt3 = item->FactionAmt3;
ibs.FactionMod3 = item->FactionMod3;
ibs.FactionAmt4 = item->FactionAmt4;
ibs.FactionMod4 = item->FactionMod4;
ss.write((const char*)&ibs, sizeof(UF::structs::ItemBodyStruct));
//charm text
if (strlen(item->CharmFile) > 0)
{
ss.write((const char*)item->CharmFile, strlen(item->CharmFile));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
UF::structs::ItemSecondaryBodyStruct isbs;
memset(&isbs, 0, sizeof(UF::structs::ItemSecondaryBodyStruct));
isbs.augtype = item->AugType;
isbs.augrestrict = item->AugRestrict;
for (int x = 0; x < consts::ITEM_COMMON_SIZE; x++)
{
isbs.augslots[x].type = item->AugSlotType[x];
isbs.augslots[x].visible = item->AugSlotVisible[x];
isbs.augslots[x].unknown = item->AugSlotUnk2[x];
}
isbs.ldonpoint_type = item->PointType;
isbs.ldontheme = item->LDoNTheme;
isbs.ldonprice = item->LDoNPrice;
isbs.ldonsellbackrate = item->LDoNSellBackRate;
isbs.ldonsold = item->LDoNSold;
isbs.bagtype = item->BagType;
isbs.bagslots = item->BagSlots;
isbs.bagsize = item->BagSize;
isbs.wreduction = item->BagWR;
isbs.book = item->Book;
isbs.booktype = item->BookType;
ss.write((const char*)&isbs, sizeof(UF::structs::ItemSecondaryBodyStruct));
if (strlen(item->Filename) > 0)
{
ss.write((const char*)item->Filename, strlen(item->Filename));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
UF::structs::ItemTertiaryBodyStruct itbs;
memset(&itbs, 0, sizeof(UF::structs::ItemTertiaryBodyStruct));
itbs.loregroup = item->LoreGroup;
itbs.artifact = item->ArtifactFlag;
itbs.summonedflag = item->SummonedFlag;
itbs.favor = item->Favor;
itbs.fvnodrop = item->FVNoDrop;
itbs.dotshield = item->DotShielding;
itbs.atk = item->Attack;
itbs.haste = item->Haste;
itbs.damage_shield = item->DamageShield;
itbs.guildfavor = item->GuildFavor;
itbs.augdistil = item->AugDistiller;
itbs.no_pet = item->NoPet;
itbs.potion_belt_enabled = item->PotionBelt;
itbs.potion_belt_slots = item->PotionBeltSlots;
itbs.stacksize = stackable ? item->StackSize : 0;
itbs.no_transfer = item->NoTransfer;
itbs.expendablearrow = item->ExpendableArrow;
ss.write((const char*)&itbs, sizeof(UF::structs::ItemTertiaryBodyStruct));
// Effect Structures Broken down to allow variable length strings for effect names
int32 effect_unknown = 0;
UF::structs::ClickEffectStruct ices;
memset(&ices, 0, sizeof(UF::structs::ClickEffectStruct));
ices.effect = item->Click.Effect;
ices.level2 = item->Click.Level2;
ices.type = item->Click.Type;
ices.level = item->Click.Level;
ices.max_charges = item->MaxCharges;
ices.cast_time = item->CastTime;
ices.recast = item->RecastDelay;
ices.recast_type = item->RecastType;
ss.write((const char*)&ices, sizeof(UF::structs::ClickEffectStruct));
if (strlen(item->ClickName) > 0)
{
ss.write((const char*)item->ClickName, strlen(item->ClickName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // clickunk7
UF::structs::ProcEffectStruct ipes;
memset(&ipes, 0, sizeof(UF::structs::ProcEffectStruct));
ipes.effect = item->Proc.Effect;
ipes.level2 = item->Proc.Level2;
ipes.type = item->Proc.Type;
ipes.level = item->Proc.Level;
ipes.procrate = item->ProcRate;
ss.write((const char*)&ipes, sizeof(UF::structs::ProcEffectStruct));
if (strlen(item->ProcName) > 0)
{
ss.write((const char*)item->ProcName, strlen(item->ProcName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown5
UF::structs::WornEffectStruct iwes;
memset(&iwes, 0, sizeof(UF::structs::WornEffectStruct));
iwes.effect = item->Worn.Effect;
iwes.level2 = item->Worn.Level2;
iwes.type = item->Worn.Type;
iwes.level = item->Worn.Level;
ss.write((const char*)&iwes, sizeof(UF::structs::WornEffectStruct));
if (strlen(item->WornName) > 0)
{
ss.write((const char*)item->WornName, strlen(item->WornName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
UF::structs::WornEffectStruct ifes;
memset(&ifes, 0, sizeof(UF::structs::WornEffectStruct));
ifes.effect = item->Focus.Effect;
ifes.level2 = item->Focus.Level2;
ifes.type = item->Focus.Type;
ifes.level = item->Focus.Level;
ss.write((const char*)&ifes, sizeof(UF::structs::WornEffectStruct));
if (strlen(item->FocusName) > 0)
{
ss.write((const char*)item->FocusName, strlen(item->FocusName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
UF::structs::WornEffectStruct ises;
memset(&ises, 0, sizeof(UF::structs::WornEffectStruct));
ises.effect = item->Scroll.Effect;
ises.level2 = item->Scroll.Level2;
ises.type = item->Scroll.Type;
ises.level = item->Scroll.Level;
ss.write((const char*)&ises, sizeof(UF::structs::WornEffectStruct));
if (strlen(item->ScrollName) > 0)
{
ss.write((const char*)item->ScrollName, strlen(item->ScrollName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// Bard Effect?
UF::structs::WornEffectStruct ibes;
memset(&ibes, 0, sizeof(UF::structs::WornEffectStruct));
ibes.effect = item->Bard.Effect;
ibes.level2 = item->Bard.Level2;
ibes.type = item->Bard.Type;
ibes.level = item->Bard.Level;
//ibes.unknown6 = 0xffffffff;
ss.write((const char*)&ibes, sizeof(UF::structs::WornEffectStruct));
/*
if(strlen(item->BardName) > 0)
{
ss.write((const char*)item->BardName, strlen(item->BardName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else */
ss.write((const char*)&null_term, sizeof(uint8));
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// End of Effects
UF::structs::ItemQuaternaryBodyStruct iqbs;
memset(&iqbs, 0, sizeof(UF::structs::ItemQuaternaryBodyStruct));
iqbs.scriptfileid = item->ScriptFileID;
iqbs.quest_item = item->QuestItemFlag;
iqbs.unknown15 = 0;
iqbs.Purity = item->Purity;
iqbs.BackstabDmg = item->BackstabDmg;
iqbs.DSMitigation = item->DSMitigation;
iqbs.HeroicStr = item->HeroicStr;
iqbs.HeroicInt = item->HeroicInt;
iqbs.HeroicWis = item->HeroicWis;
iqbs.HeroicAgi = item->HeroicAgi;
iqbs.HeroicDex = item->HeroicDex;
iqbs.HeroicSta = item->HeroicSta;
iqbs.HeroicCha = item->HeroicCha;
iqbs.HeroicMR = item->HeroicMR;
iqbs.HeroicFR = item->HeroicFR;
iqbs.HeroicCR = item->HeroicCR;
iqbs.HeroicDR = item->HeroicDR;
iqbs.HeroicPR = item->HeroicPR;
iqbs.HeroicSVCorrup = item->HeroicSVCorrup;
iqbs.HealAmt = item->HealAmt;
iqbs.SpellDmg = item->SpellDmg;
iqbs.clairvoyance = item->Clairvoyance;
iqbs.subitem_count = 0;
char *SubSerializations[10]; // <watch>
uint32 SubLengths[10];
for (int x = SUB_BEGIN; x < EmuConstants::ITEM_CONTAINER_SIZE; ++x) {
SubSerializations[x] = nullptr;
const ItemInst* subitem = ((const ItemInst*)inst)->GetItem(x);
if (subitem) {
int SubSlotNumber;
iqbs.subitem_count++;
if (slot_id_in >= EmuConstants::GENERAL_BEGIN && slot_id_in <= EmuConstants::GENERAL_END) // (< 30) - no cursor?
//SubSlotNumber = (((slot_id_in + 3) * 10) + x + 1);
SubSlotNumber = (((slot_id_in + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + x + 1);
else if (slot_id_in >= EmuConstants::BANK_BEGIN && slot_id_in <= EmuConstants::BANK_END)
//SubSlotNumber = (((slot_id_in - 2000) * 10) + 2030 + x + 1);
SubSlotNumber = (((slot_id_in - EmuConstants::BANK_BEGIN) * EmuConstants::ITEM_CONTAINER_SIZE) + EmuConstants::BANK_BAGS_BEGIN + x);
else if (slot_id_in >= EmuConstants::SHARED_BANK_BEGIN && slot_id_in <= EmuConstants::SHARED_BANK_END)
//SubSlotNumber = (((slot_id_in - 2500) * 10) + 2530 + x + 1);
SubSlotNumber = (((slot_id_in - EmuConstants::SHARED_BANK_BEGIN) * EmuConstants::ITEM_CONTAINER_SIZE) + EmuConstants::SHARED_BANK_BAGS_BEGIN + x);
else
SubSlotNumber = slot_id_in; // ???????
/*
// TEST CODE: <watch>
SubSlotNumber = Inventory::CalcSlotID(slot_id_in, x);
*/
SubSerializations[x] = SerializeItem(subitem, SubSlotNumber, &SubLengths[x], depth + 1);
}
}
ss.write((const char*)&iqbs, sizeof(UF::structs::ItemQuaternaryBodyStruct));
for (int x = 0; x < 10; ++x) {
if (SubSerializations[x]) {
ss.write((const char*)&x, sizeof(uint32));
ss.write(SubSerializations[x], SubLengths[x]);
safe_delete_array(SubSerializations[x]);
}
}
char* item_serial = new char[ss.tellp()];
memset(item_serial, 0, ss.tellp());
memcpy(item_serial, ss.str().c_str(), ss.tellp());
*length = ss.tellp();
return item_serial;
}
static inline uint32 ServerToUFSlot(uint32 serverSlot)
{
uint32 UnderfootSlot = 0;
if (serverSlot >= MainAmmo && serverSlot <= 53) // Cursor/Ammo/Power Source and Normal Inventory Slots
UnderfootSlot = serverSlot + 1;
else if (serverSlot >= EmuConstants::GENERAL_BAGS_BEGIN && serverSlot <= EmuConstants::CURSOR_BAG_END)
UnderfootSlot = serverSlot + 11;
else if (serverSlot >= EmuConstants::BANK_BAGS_BEGIN && serverSlot <= EmuConstants::BANK_BAGS_END)
UnderfootSlot = serverSlot + 1;
else if (serverSlot >= EmuConstants::SHARED_BANK_BAGS_BEGIN && serverSlot <= EmuConstants::SHARED_BANK_BAGS_END)
UnderfootSlot = serverSlot + 1;
else if (serverSlot == MainPowerSource)
UnderfootSlot = slots::MainPowerSource;
else
UnderfootSlot = serverSlot;
return UnderfootSlot;
}
static inline uint32 ServerToUFCorpseSlot(uint32 serverCorpseSlot)
{
//uint32 UnderfootCorpse;
return (serverCorpseSlot + 1);
}
static inline uint32 UFToServerSlot(uint32 ufSlot)
{
uint32 ServerSlot = 0;
if (ufSlot >= slots::MainAmmo && ufSlot <= consts::CORPSE_END) // Cursor/Ammo/Power Source and Normal Inventory Slots
ServerSlot = ufSlot - 1;
else if (ufSlot >= consts::GENERAL_BAGS_BEGIN && ufSlot <= consts::CURSOR_BAG_END)
ServerSlot = ufSlot - 11;
else if (ufSlot >= consts::BANK_BAGS_BEGIN && ufSlot <= consts::BANK_BAGS_END)
ServerSlot = ufSlot - 1;
else if (ufSlot >= consts::SHARED_BANK_BAGS_BEGIN && ufSlot <= consts::SHARED_BANK_BAGS_END)
ServerSlot = ufSlot - 1;
else if (ufSlot == slots::MainPowerSource)
ServerSlot = MainPowerSource;
else
ServerSlot = ufSlot;
return ServerSlot;
}
static inline uint32 UFToServerCorpseSlot(uint32 ufCorpseSlot)
{
//uint32 ServerCorpse;
return (ufCorpseSlot - 1);
}
static inline void ServerToUFTextLink(std::string& ufTextLink, const std::string& serverTextLink)
{
if ((consts::TEXT_LINK_BODY_LENGTH == EmuConstants::TEXT_LINK_BODY_LENGTH) || (serverTextLink.find('\x12') == std::string::npos)) {
ufTextLink = serverTextLink;
return;
}
auto segments = SplitString(serverTextLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= EmuConstants::TEXT_LINK_BODY_LENGTH) {
ufTextLink.append(segments[segment_iter]);
// TODO: log size mismatch error
continue;
}
// Idx: 0 1 6 11 16 21 26 31 36 37 41 43 48 (Source)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// SoF: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX X XXXXX XXXXXXXX (50)
// Diff: ^^^^^ ^
ufTextLink.push_back('\x12');
ufTextLink.append(segments[segment_iter].substr(0, 31));
ufTextLink.append(segments[segment_iter].substr(36, 5));
if (segments[segment_iter][41] == '0')
ufTextLink.push_back(segments[segment_iter][42]);
else
ufTextLink.push_back('F');
ufTextLink.append(segments[segment_iter].substr(43));
ufTextLink.push_back('\x12');
}
else {
ufTextLink.append(segments[segment_iter]);
}
}
}
static inline void UFToServerTextLink(std::string& serverTextLink, const std::string& ufTextLink)
{
if ((EmuConstants::TEXT_LINK_BODY_LENGTH == consts::TEXT_LINK_BODY_LENGTH) || (ufTextLink.find('\x12') == std::string::npos)) {
serverTextLink = ufTextLink;
return;
}
auto segments = SplitString(ufTextLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= consts::TEXT_LINK_BODY_LENGTH) {
serverTextLink.append(segments[segment_iter]);
// TODO: log size mismatch error
continue;
}
// Idx: 0 1 6 11 16 21 26 31 32 36 37 42 (Source)
// SoF: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX X XXXXX XXXXXXXX (50)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// Diff: ^^^^^ ^
serverTextLink.push_back('\x12');
serverTextLink.append(segments[segment_iter].substr(0, 31));
serverTextLink.append("00000");
serverTextLink.append(segments[segment_iter].substr(31, 5));
serverTextLink.push_back('0');
serverTextLink.append(segments[segment_iter].substr(36));
serverTextLink.push_back('\x12');
}
else {
serverTextLink.append(segments[segment_iter]);
}
}
}
}
// end namespace UF
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