pa/eqemu-server
2
0
Fork 0
mirror of https://github.com/EQEmu/Server.git synced 2025-12-11 21:01:29 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
eqemu-server/common/patches/rof.cpp
Mitch Freeman 91f5932c6d
[Feature] Add RoF2 Guild features (#3699) 
* [Feature] Add additional Guild Features

This adds the following guild features and design pattern
- the existing guild system was used
- guild features are based on RoF2 within source with translaters used to converted between client differences
- backward compatible with Ti and UF, and allows for mixed client servers
- Guild Back for Ti and UF is based on RoF2 Permissions for banking if Guild Leader does not use Ti/UF
- Guild Ranks and Permissions are enabled.
- Guild Tributes are enabled.
- Event logging via rules for donating tribute items and plat
- Rules to limit Guild Tributes based on max level of server
- Rewrote guild communications to client using specific opcodes
-- Server no longer sends a guild member list on each zone
-- Guild window is updated when a member levels, rank changes, zone changes, banker/alt status using individual opcodes
-- When a member is removed or added to a guild, a single opcode is sent to each guild member
-- This reduces network traffic considerably

Known issues:
- Visual bug only. Guild Tributes window will display a 0 for level if tribute is above max level rule setting.
- Visual bug only. Guild Mgmt Window will not display an online member if the player has 'show offline' unchecked and a guild member zones within the Notes/Tribute tab.  This is resolved by selecting and de-selecting the 'Show Offline' checkbox.

* Updated RoF2 Guild Comms

Updated RoF2 Guild Comms
Update RoF2 Opcodes
Rewrote RoF2 Guild Communications using specific opcodes.
Added database changes - they are irreversible

* Formatting

* Update base_guild_members_repository.h

* Format GuildInfo

* Format GuildAction enum

* Formatting in clientlist

* quantity vs quantity

* desc vs description

* Format structs

* Inline struct values

* Formatting

* Formatting

* Formatting fixes

* Formatting items

* Formatting

* Formatting

* struct formatting updates

* Updated formatting

* Updated
- std:string items
- naming conventions
- magic numbers

* Repo refactors
Other formatting updates

* Remove test guild commands

* Updated #guild info command

* Add new repo methods for Neckolla ReplaceOne and ReplaceMany

* Fix guild_tributes repo

* Update database_update_manifest.cpp

* Phase 1 of final testing with RoF2 -> RoF2.
Next phase will be inter compatibility review

* Remove #guild testing commands

* Fix uf translator error
Rewrite LoadGuilds

* Use extended repository

* FIx guild window on member add

* LoadGuild Changes

* Update guild_base.cpp

* Few small fixes for display issue with UF

* Update guild_base.cpp

* Update guild_members_repository.h

* Update zoneserver.cpp

* Update guild.cpp

* Update entity.h

* Switch formatting

* Formatting

* Update worldserver.cpp

* Switch formatting

* Formatting switch statement

* Update guild.cpp

* Formatting in guild_base

* We don't need to validate m_db everywhere

* More formatting / spacing issues

* Switch format

* Update guild_base.cpp

* Fix an UF issue displaying incorrect guildtag as <>

* Updated several constants, fixed a few issues with Ti/UF and guild tributes not being removed or sent when a member is removed/disbands from a guild.

* Formatting and logging updates

* Fix for Loadguilds and permissions after repo updates.

* Cleanup unnecessary m_db checks

* Updated logging to use player_event_logs

* Updated to use the single opcodes for guild traffic for Ti/UF/RoF2.  Several enhancements for guild functionality for more reusable code and readability.

* Update to fix Demote Self and guild invites declining when option set to not accept guild invites

* Potential fix for guild notes/tribute display issues when client has 'Show Offline' unchecked.

* Updates to fox recent master changes

Updates to fix recent master changes

* Updates in response to comments

* Further Updates in response to comments

* Comment updates and refactor for SendAppearance functions

* Comment updates

* Update client spawn process for show guild name

Add show guild tag to default spawn process

* Update to use zone spawn packets for RoF2
Removed several unused functions as a result
Updated MemberRankUpdate to properly update guild_show on rank change.
Updated OP_GuildURLAndChannel opcode for UF/RoF2

* Cleanup of world changes
Created function for repetitive zonelist sendpackets to only booted zones
Re-Inserted accidental delete of scanclosemobs

* Fixes

* Further world cleanup

* Fix a few test guild bank cases for backward compat
Removed a duplicate db call
Fixed a fallthrough issue

* Update guild_mgr.cpp

* Cleanup

---------

Co-authored-by: Akkadius <akkadius1@gmail.com>
2024-02-10 03:27:58 -06:00

6321 lines
179 KiB
C++
Raw Blame History

/* EQEMu: Everquest Server Emulator
Copyright (C) 2001-2016 EQEMu Development Team (http://eqemulator.net)
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY except by those people which sell it, which
are required to give you total support for your newly bought product;
without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "../global_define.h"
#include "../eqemu_config.h"
#include "../eqemu_logsys.h"
#include "rof.h"
#include "../opcodemgr.h"
#include "../eq_stream_ident.h"
#include "../crc32.h"
#include "../eq_packet_structs.h"
#include "../misc_functions.h"
#include "../strings.h"
#include "../inventory_profile.h"
#include "rof_structs.h"
#include "../rulesys.h"
#include "../path_manager.h"
#include "../races.h"
#include "../raid.h"
#include <iostream>
#include <sstream>
#include <numeric>
#include <cassert>
namespace RoF
{
static const char *name = "RoF";
static OpcodeManager *opcodes = nullptr;
static Strategy struct_strategy;
void SerializeItem(EQ::OutBuffer& ob, const EQ::ItemInstance *inst, int16 slot_id, uint8 depth, ItemPacketType packet_type);
// server to client inventory location converters
static inline structs::InventorySlot_Struct ServerToRoFSlot(uint32 server_slot);
static inline structs::InventorySlot_Struct ServerToRoFCorpseSlot(uint32 server_corpse_slot);
static inline uint32 ServerToRoFCorpseMainSlot(uint32 server_corpse_slot);
static inline structs::TypelessInventorySlot_Struct ServerToRoFTypelessSlot(uint32 server_slot, int16 server_type);
// client to server inventory location converters
static inline uint32 RoFToServerSlot(structs::InventorySlot_Struct rof_slot);
static inline uint32 RoFToServerCorpseSlot(structs::InventorySlot_Struct rof_corpse_slot);
static inline uint32 RoFToServerCorpseMainSlot(uint32 rof_corpse_slot);
static inline uint32 RoFToServerTypelessSlot(structs::TypelessInventorySlot_Struct rof_slot, int16 rof_type);
// server to client say link converter
static inline void ServerToRoFSayLink(std::string& rofSayLink, const std::string& serverSayLink);
// client to server say link converter
static inline void RoFToServerSayLink(std::string& serverSayLink, const std::string& rofSayLink);
static inline spells::CastingSlot ServerToRoFCastingSlot(EQ::spells::CastingSlot slot);
static inline EQ::spells::CastingSlot RoFToServerCastingSlot(spells::CastingSlot slot);
static inline int ServerToRoFBuffSlot(int index);
static inline int RoFToServerBuffSlot(int index);
void Register(EQStreamIdentifier &into)
{
//create our opcode manager if we havent already
if (opcodes == nullptr) {
std::string opfile = fmt::format("{}/patch_{}.conf", path.GetPatchPath(), name);
//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())) {
LogNetcode("[OPCODES] Error loading opcodes file [{}]. Not registering patch [{}]", opfile.c_str(), name);
return;
}
}
//ok, now we have what we need to register.
EQStreamInterface::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);
LogNetcode("[StreamIdentify] Registered patch [{}]", 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) {
std::string opfile = fmt::format("{}/patch_{}.conf", path.GetPatchPath(), name);
if (!opcodes->ReloadOpcodes(opfile.c_str())) {
LogNetcode("[OPCODES] Error reloading opcodes file [{}] for patch [{}]", opfile.c_str(), name);
return;
}
LogNetcode("[OPCODES] Reloaded opcodes for patch [{}]", name);
}
}
Strategy::Strategy() : StructStrategy()
{
//all opcodes default to passthrough.
#include "ss_register.h"
#include "rof_ops.h"
}
std::string Strategy::Describe() const
{
std::string r;
r += "Patch ";
r += name;
return(r);
}
const EQ::versions::ClientVersion Strategy::ClientVersion() const
{
return EQ::versions::ClientVersion::RoF;
}
#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->unknown06 = 0;
eq->instrument_mod = 1.0f + (emu->instrument_mod - 10) / 10.0f;
OUT(force);
OUT(hit_heading);
OUT(hit_pitch);
OUT(type);
eq->damage = 0;
eq->unknown31 = 0;
OUT(spell);
OUT(spell_level);
OUT(effect_flag);
eq->spell_gem = 0;
eq->slot.Type = INVALID_INDEX;
eq->slot.Unknown02 = 0;
eq->slot.Slot = INVALID_INDEX;
eq->slot.SubIndex = INVALID_INDEX;
eq->slot.AugIndex = INVALID_INDEX;
eq->slot.Unknown01 = 0;
eq->item_cast_type = 0;
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->inventory_slot = ServerToRoFTypelessSlot(emu->slot, EQ::invtype::typePossessions);
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 == AlternateCurrencyMode::Populate) {
AltCurrencyPopulate_Struct *populate = (AltCurrencyPopulate_Struct*)emu_buffer;
auto 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].unknown00 = populate->entries[i].unknown00;
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].display = ((populate->entries[i].stack_size > 0) ? 1 : 0);
}
dest->FastQueuePacket(&outapp, ack_req);
}
else {
auto 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->inventory_slot = ServerToRoFTypelessSlot(emu->slot_id, EQ::invtype::typePossessions);
OUT(charges);
OUT(cost);
FINISH_ENCODE();
}
ENCODE(OP_Animation)
{
ENCODE_LENGTH_EXACT(Animation_Struct);
SETUP_DIRECT_ENCODE(Animation_Struct, structs::Animation_Struct);
OUT(spawnid);
OUT(action);
OUT(speed);
FINISH_ENCODE();
}
ENCODE(OP_ApplyPoison)
{
ENCODE_LENGTH_EXACT(ApplyPoison_Struct);
SETUP_DIRECT_ENCODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
eq->inventory_slot = ServerToRoFTypelessSlot(emu->inventorySlot, EQ::invtype::typePossessions);
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)
{
LogNetcode("[STRUCTS] Wrong size on outbound [{}]: Got [{}], expected multiple of [{}]", 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_BeginCast)
{
SETUP_DIRECT_ENCODE(BeginCast_Struct, structs::BeginCast_Struct);
OUT(spell_id);
OUT(caster_id);
OUT(cast_time);
FINISH_ENCODE();
}
ENCODE(OP_BlockedBuffs)
{
ENCODE_LENGTH_EXACT(BlockedBuffs_Struct);
SETUP_DIRECT_ENCODE(BlockedBuffs_Struct, structs::BlockedBuffs_Struct);
for (uint32 i = 0; i < BLOCKED_BUFF_COUNT; ++i)
eq->SpellID[i] = emu->SpellID[i];
// -1 for the extra 10 added in RoF. We should really be encoding for the older clients, not RoF, but
// we can sort that out later.
for (uint32 i = BLOCKED_BUFF_COUNT; i < structs::BLOCKED_BUFF_COUNT; ++i)
eq->SpellID[i] = -1;
OUT(Count);
OUT(Pet);
OUT(Initialise);
OUT(Flags);
FINISH_ENCODE();
}
ENCODE(OP_Buff)
{
ENCODE_LENGTH_EXACT(SpellBuffPacket_Struct);
SETUP_DIRECT_ENCODE(SpellBuffPacket_Struct, structs::SpellBuffPacket_Struct);
OUT(entityid);
OUT(buff.effect_type);
OUT(buff.level);
// just so we're 100% sure we get a 1.0f ...
eq->buff.bard_modifier = emu->buff.bard_modifier == 10 ? 1.0f : emu->buff.bard_modifier / 10.0f;
OUT(buff.spellid);
OUT(buff.duration);
OUT(buff.player_id);
OUT(buff.num_hits);
OUT(buff.y);
OUT(buff.x);
OUT(buff.z);
// TODO: implement slot_data stuff
eq->slotid = ServerToRoFBuffSlot(emu->slotid);
if (emu->bufffade == 1)
eq->bufffade = 1;
else
eq->bufffade = 2;
// Bit of a hack. OP_Buff appears to add/remove the buff while OP_BuffCreate adds/removes the actual buff icon
EQApplicationPacket *outapp = nullptr;
if (eq->bufffade == 1)
{
outapp = new EQApplicationPacket(OP_BuffCreate, 29);
outapp->WriteUInt32(emu->entityid);
outapp->WriteUInt32(0); // tic timer
outapp->WriteUInt8(0); // Type of OP_BuffCreate packet ?
outapp->WriteUInt16(1); // 1 buff in this packet
outapp->WriteUInt32(eq->slotid);
outapp->WriteUInt32(0xffffffff); // SpellID (0xffff to remove)
outapp->WriteUInt32(0); // Duration
outapp->WriteUInt32(0); // numhits
outapp->WriteUInt8(0); // Caster name
outapp->WriteUInt8(0); // Type
}
FINISH_ENCODE();
if (outapp)
dest->FastQueuePacket(&outapp); // Send the OP_BuffCreate to remove the buff
}
ENCODE(OP_BuffCreate)
{
SETUP_VAR_ENCODE(BuffIcon_Struct);
uint32 sz = 12 + (17 * emu->count) + emu->name_lengths; // 17 includes nullterm
__packet->size = sz;
__packet->pBuffer = new unsigned char[sz];
memset(__packet->pBuffer, 0, sz);
__packet->WriteUInt32(emu->entity_id);
__packet->WriteUInt32(emu->tic_timer);
__packet->WriteUInt8(emu->all_buffs); // 1 indicates all buffs on the player (0 to add or remove a single buff)
__packet->WriteUInt16(emu->count);
for (int i = 0; i < emu->count; ++i)
{
__packet->WriteUInt32(emu->type == 0 ? ServerToRoFBuffSlot(emu->entries[i].buff_slot) : emu->entries[i].buff_slot);
__packet->WriteUInt32(emu->entries[i].spell_id);
__packet->WriteUInt32(emu->entries[i].tics_remaining);
__packet->WriteUInt32(emu->entries[i].num_hits); // Unknown
__packet->WriteString(emu->entries[i].caster);
}
__packet->WriteUInt8(emu->type); // Unknown
FINISH_ENCODE();
}
ENCODE(OP_CancelTrade)
{
ENCODE_LENGTH_EXACT(CancelTrade_Struct);
SETUP_DIRECT_ENCODE(CancelTrade_Struct, structs::CancelTrade_Struct);
OUT(fromid);
OUT(action);
FINISH_ENCODE();
}
ENCODE(OP_CastSpell)
{
ENCODE_LENGTH_EXACT(CastSpell_Struct);
SETUP_DIRECT_ENCODE(CastSpell_Struct, structs::CastSpell_Struct);
eq->slot = static_cast<uint32>(ServerToRoFCastingSlot(static_cast<EQ::spells::CastingSlot>(emu->slot)));
OUT(spell_id);
eq->inventory_slot = ServerToRoFSlot(emu->inventoryslot);
//OUT(inventoryslot);
OUT(target_id);
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;
ServerToRoFSayLink(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) {
in->size = 4;
in->pBuffer = new uchar[in->size];
memset(in->pBuffer, 0, in->size);
dest->FastQueuePacket(&in, ack_req);
return;
}
//store away the emu struct
uchar* __emu_buffer = in->pBuffer;
int item_count = in->size / sizeof(EQ::InternalSerializedItem_Struct);
if (!item_count || (in->size % sizeof(EQ::InternalSerializedItem_Struct)) != 0) {
Log(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d",
opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(EQ::InternalSerializedItem_Struct));
delete in;
return;
}
EQ::InternalSerializedItem_Struct* eq = (EQ::InternalSerializedItem_Struct*)in->pBuffer;
EQ::OutBuffer ob;
EQ::OutBuffer::pos_type last_pos = ob.tellp();
ob.write((const char*)&item_count, sizeof(uint32));
for (int index = 0; index < item_count; ++index, ++eq) {
SerializeItem(ob, (const EQ::ItemInstance*)eq->inst, eq->slot_id, 0, ItemPacketCharInventory);
if (ob.tellp() == last_pos)
LogNetcode("RoF::ENCODE(OP_CharInventory) Serialization failed on item slot [{}] during OP_CharInventory. Item skipped", eq->slot_id);
last_pos = ob.tellp();
}
in->size = ob.size();
in->pBuffer = ob.detach();
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ClickObjectAction)
{
ENCODE_LENGTH_EXACT(ClickObjectAction_Struct);
SETUP_DIRECT_ENCODE(ClickObjectAction_Struct, structs::ClickObjectAction_Struct);
OUT(drop_id);
eq->unknown04 = -1;
eq->unknown08 = -1;
OUT(type);
OUT(icon);
eq->unknown16 = 0;
OUT_str(object_name);
FINISH_ENCODE();
}
ENCODE(OP_ClientUpdate)
{
ENCODE_LENGTH_EXACT(PlayerPositionUpdateServer_Struct);
SETUP_DIRECT_ENCODE(PlayerPositionUpdateServer_Struct, structs::PlayerPositionUpdateServer_Struct);
OUT(spawn_id);
OUT(vehicle_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(hit_heading);
OUT(hit_pitch);
OUT(special);
FINISH_ENCODE();
}
ENCODE(OP_DeleteCharge)
{
Log(Logs::Detail, Logs::Netcode, "RoF::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 = ServerToRoFSlot(emu->from_slot);
eq->to_slot = ServerToRoFSlot(emu->to_slot);
OUT(number_in_stack);
FINISH_ENCODE();
}
ENCODE(OP_DeleteSpawn)
{
ENCODE_LENGTH_EXACT(DeleteSpawn_Struct);
SETUP_DIRECT_ENCODE(DeleteSpawn_Struct, structs::DeleteSpawn_Struct);
OUT(spawn_id);
eq->unknown04 = 1; // Observed
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_DzChooseZone)
{
SETUP_VAR_ENCODE(DynamicZoneChooseZone_Struct);
SerializeBuffer buf;
buf.WriteUInt32(emu->client_id);
buf.WriteUInt32(emu->count);
for (uint32 i = 0; i < emu->count; ++i)
{
buf.WriteUInt16(emu->choices[i].dz_zone_id);
buf.WriteUInt16(emu->choices[i].dz_instance_id);
buf.WriteUInt32(emu->choices[i].unknown_id1);
buf.WriteUInt32(emu->choices[i].dz_type);
buf.WriteUInt32(emu->choices[i].unknown_id2);
buf.WriteString(emu->choices[i].description);
buf.WriteString(emu->choices[i].leader_name);
}
__packet->size = buf.size();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, buf.buffer(), __packet->size);
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(DynamicZoneInfo_Struct);
SETUP_DIRECT_ENCODE(DynamicZoneInfo_Struct, structs::DynamicZoneInfo_Struct);
OUT(client_id);
OUT(assigned);
OUT(max_players);
strn0cpy(eq->dz_name, emu->dz_name, sizeof(eq->dz_name));
strn0cpy(eq->leader_name, emu->leader_name, sizeof(eq->leader_name));
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionInvite)
{
ENCODE_LENGTH_EXACT(ExpeditionInvite_Struct);
SETUP_DIRECT_ENCODE(ExpeditionInvite_Struct, structs::ExpeditionInvite_Struct);
OUT(client_id);
strn0cpy(eq->inviter_name, emu->inviter_name, sizeof(eq->inviter_name));
strn0cpy(eq->expedition_name, emu->expedition_name, sizeof(eq->expedition_name));
OUT(swapping);
strn0cpy(eq->swap_name, emu->swap_name, sizeof(eq->swap_name));
OUT(dz_zone_id);
OUT(dz_instance_id);
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionLockoutTimers)
{
SETUP_VAR_ENCODE(ExpeditionLockoutTimers_Struct);
SerializeBuffer buf;
buf.WriteUInt32(emu->client_id);
buf.WriteUInt32(emu->count);
for (uint32 i = 0; i < emu->count; ++i)
{
buf.WriteString(emu->timers[i].expedition_name);
buf.WriteUInt32(emu->timers[i].seconds_remaining);
buf.WriteInt32(emu->timers[i].event_type);
buf.WriteString(emu->timers[i].event_name);
}
__packet->size = buf.size();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, buf.buffer(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzSetLeaderName)
{
ENCODE_LENGTH_EXACT(DynamicZoneLeaderName_Struct);
SETUP_DIRECT_ENCODE(DynamicZoneLeaderName_Struct, structs::DynamicZoneLeaderName_Struct);
OUT(client_id);
strn0cpy(eq->leader_name, emu->leader_name, sizeof(eq->leader_name));
FINISH_ENCODE();
}
ENCODE(OP_DzMemberList)
{
SETUP_VAR_ENCODE(DynamicZoneMemberList_Struct);
SerializeBuffer buf;
buf.WriteUInt32(emu->client_id);
buf.WriteUInt32(emu->member_count);
for (uint32 i = 0; i < emu->member_count; ++i)
{
buf.WriteString(emu->members[i].name);
buf.WriteUInt8(emu->members[i].online_status);
}
__packet->size = buf.size();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, buf.buffer(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzMemberListName)
{
ENCODE_LENGTH_EXACT(DynamicZoneMemberListName_Struct);
SETUP_DIRECT_ENCODE(DynamicZoneMemberListName_Struct, structs::DynamicZoneMemberListName_Struct);
OUT(client_id);
OUT(add_name);
strn0cpy(eq->name, emu->name, sizeof(eq->name));
FINISH_ENCODE();
}
ENCODE(OP_DzMemberListStatus)
{
auto emu = reinterpret_cast<DynamicZoneMemberList_Struct*>((*p)->pBuffer);
if (emu->member_count == 1)
{
ENCODE_FORWARD(OP_DzMemberList);
}
}
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;
ServerToRoFSayLink(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; }
ServerToRoFSayLink(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_GMLastName)
{
ENCODE_LENGTH_EXACT(GMLastName_Struct);
SETUP_DIRECT_ENCODE(GMLastName_Struct, structs::GMLastName_Struct);
OUT_str(name);
OUT_str(gmname);
OUT_str(lastname);
for (int i = 0; i<4; i++)
{
eq->unknown[i] = emu->unknown[i];
}
FINISH_ENCODE();
}
ENCODE(OP_GMTrainSkillConfirm)
{
ENCODE_LENGTH_EXACT(GMTrainSkillConfirm_Struct);
SETUP_DIRECT_ENCODE(GMTrainSkillConfirm_Struct, structs::GMTrainSkillConfirm_Struct);
OUT(SkillID);
OUT(Cost);
OUT(NewSkill);
OUT_str(TrainerName);
FINISH_ENCODE();
}
ENCODE(OP_GroundSpawn)
{
// We are not encoding the spawn_id field here, 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) + sizeof(Object_Struct)-1;
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, emu->drop_id); // Some unique id
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Same for all objects in the zone
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->heading);
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->tilt_x); // X tilt
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, emu->tilt_y); // Y tilt
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(int32, OutBuffer, emu->object_type); // Unknown, observed 0x00000014
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, member_name = %s", gjs->yourname, gjs->member_name);
auto 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, member_name = %s", gjs->yourname, gjs->member_name);
auto 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->member_name[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);
auto 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, member_name = %s", gjs->yourname, gjs->member_name);
ENCODE_LENGTH_EXACT(GroupJoin_Struct);
SETUP_DIRECT_ENCODE(GroupJoin_Struct, structs::GroupJoin_Struct);
memcpy(eq->membername, emu->membername, sizeof(eq->membername));
auto 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_GuildBank)
{
auto in = *p;
*p = nullptr;
auto outapp = new EQApplicationPacket(OP_GuildBank, in->size + 4); // all of them are 4 bytes bigger
// The first action in the enum was removed, everything 1 less
// Normally we cast them to their structs, but there are so many here! will only do when it's easier
switch (in->ReadUInt32()) {
case 10: // GuildBankAcknowledge
outapp->WriteUInt32(9);
outapp->WriteUInt32(in->ReadUInt32());
outapp->WriteUInt32(0);
break;
case 5: // GuildBankDeposit (ack)
outapp->WriteUInt32(4);
outapp->WriteUInt32(in->ReadUInt32());
outapp->WriteUInt32(0);
outapp->WriteUInt32(in->ReadUInt32());
break;
case 1: { // GuildBankItemUpdate
auto emu = (GuildBankItemUpdate_Struct *)in->pBuffer;
auto eq = (structs::GuildBankItemUpdate_Struct *)outapp->pBuffer;
eq->Action = 0;
OUT(Unknown004);
eq->Unknown08 = 0;
OUT(SlotID);
OUT(Area);
OUT(Unknown012);
OUT(ItemID);
OUT(Icon);
OUT(Quantity);
OUT(Permissions);
OUT(AllowMerge);
OUT(Useable);
OUT_str(ItemName);
OUT_str(Donator);
OUT_str(WhoFor);
OUT(Unknown226);
break;
}
default:
break;
}
delete in;
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++;
// Guild ID
buffer += sizeof(uint32);
//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) \
{ \
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_);
/* Translate older ranks to new values */
//switch (emu_e->rank) {
//case 0: { e->rank = htonl(5); break; } // GUILD_MEMBER 0
//case 1: { e->rank = htonl(3); break; } // GUILD_OFFICER 1
//case 2: { e->rank = htonl(1); break; } // GUILD_LEADER 2
//default: { e->rank = htonl(emu_e->rank); break; } // GUILD_NONE
//}
PutFieldN(rank);
PutFieldN(time_last_on);
PutFieldN(tribute_enable);
e->unknown01 = 0;
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);
e->unknown_one2 = htonl(1);
e->unknown04 = 0;
#undef SlideStructString
#undef PutFieldN
e++;
}
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_GuildMemberUpdate)
{
SETUP_DIRECT_ENCODE(GuildMemberUpdate_Struct, structs::GuildMemberUpdate_Struct);
OUT(GuildID);
memcpy(eq->MemberName, emu->MemberName, sizeof(eq->MemberName));
OUT(ZoneID);
OUT(InstanceID);
OUT(LastSeen);
eq->Unknown76 = 0;
FINISH_ENCODE();
}
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_HPUpdate)
{
SETUP_DIRECT_ENCODE(SpawnHPUpdate_Struct, structs::SpawnHPUpdate_Struct);
OUT(spawn_id);
OUT(cur_hp);
OUT(max_hp);
FINISH_ENCODE();
}
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);
eq->unknown316 = -1; // Observed
FINISH_ENCODE();
}
/*ENCODE(OP_InspectAnswer)
{
ENCODE_LENGTH_EXACT(InspectResponse_Struct);
SETUP_DIRECT_ENCODE(InspectResponse_Struct, structs::InspectResponse_Struct);
OUT(TargetID);
OUT(playerid);
int r;
for (r = 0; r < 21; r++) {
strn0cpy(eq->itemnames[r], emu->itemnames[r], sizeof(eq->itemnames[r]));
}
// Swap last 2 slots for Arrow and Power Source
strn0cpy(eq->itemnames[21], emu->itemnames[22], sizeof(eq->itemnames[21]));
strn0cpy(eq->unknown_zero, emu->itemnames[21], sizeof(eq->unknown_zero));
int k;
for (k = 0; k < 21; k++) {
OUT(itemicons[k]);
}
// Swap last 2 slots for Arrow and Power Source
eq->itemicons[21] = emu->itemicons[22];
eq->unknown_zero2 = emu->itemicons[21];
strn0cpy(eq->text, emu->text, sizeof(eq->text));
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;
//store away the emu struct
uchar* __emu_buffer = in->pBuffer;
ItemPacket_Struct* old_item_pkt = (ItemPacket_Struct*)__emu_buffer;
EQ::InternalSerializedItem_Struct* int_struct = (EQ::InternalSerializedItem_Struct*)(&__emu_buffer[4]);
EQ::OutBuffer ob;
EQ::OutBuffer::pos_type last_pos = ob.tellp();
ob.write((const char*)__emu_buffer, 4);
SerializeItem(ob, (const EQ::ItemInstance*)int_struct->inst, int_struct->slot_id, 0, old_item_pkt->PacketType);
if (ob.tellp() == last_pos) {
LogNetcode("RoF::ENCODE(OP_ItemPacket) Serialization failed on item slot [{}]", int_struct->slot_id);
delete in;
return;
}
in->size = ob.size();
in->pBuffer = ob.detach();
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ItemVerifyReply)
{
ENCODE_LENGTH_EXACT(ItemVerifyReply_Struct);
SETUP_DIRECT_ENCODE(ItemVerifyReply_Struct, structs::ItemVerifyReply_Struct);
eq->inventory_slot = ServerToRoFSlot(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);
strncpy(eq->worldshortname, emu->worldshortname, sizeof(eq->worldshortname));
//OUT(enablevoicemacros); // These two are lost, but must be one of the 1s in unknown[249]
//OUT(enablemail);
OUT(enable_pvp);
OUT(enable_FV);
eq->unknown016 = 1;
eq->unknown020[0] = 1;
eq->unknown249[0] = 1;
eq->unknown249[1] = 1;
eq->unknown249[8] = 1;
eq->unknown249[9] = 1;
eq->unknown249[12] = 1;
eq->unknown249[14] = 1;
eq->unknown249[15] = 1;
eq->unknown249[16] = 1;
eq->unknown276[0] = 1.0f;
eq->unknown276[1] = 1.0f;
eq->unknown276[6] = 1.0f;
FINISH_ENCODE();
}
ENCODE(OP_LootItem)
{
ENCODE_LENGTH_EXACT(LootingItem_Struct);
SETUP_DIRECT_ENCODE(LootingItem_Struct, structs::LootingItem_Struct);
Log(Logs::Detail, Logs::Netcode, "RoF::ENCODE(OP_LootItem)");
OUT(lootee);
OUT(looter);
eq->slot_id = ServerToRoFCorpseMainSlot(emu->slot_id);
OUT(auto_loot);
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;
}
auto 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].Status);
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);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // MercName
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;
}
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;
PacketSize += strlen(emu->MercData[r].MercName); // Null Terminator size already accounted for in the 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);
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].Status);
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);
//VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // MercName
VARSTRUCT_ENCODE_STRING(Buffer, emu->MercData[r].MercName);
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, 1); // 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);
Log(Logs::Detail, Logs::Netcode, "RoF::ENCODE(OP_MoveItem)");
eq->from_slot = ServerToRoFSlot(emu->from_slot);
eq->to_slot = ServerToRoFSlot(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(suspend_buffs);
OUT(fast_regen_hp);
OUT(fast_regen_mana);
OUT(fast_regen_endurance);
OUT(underworld_teleport_index);
eq->FogDensity = emu->fog_density;
/*fill in some unknowns with observed values, hopefully it will help */
eq->unknown800 = -1;
eq->unknown844 = 600;
OUT(lava_damage);
OUT(min_lava_damage);
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->unknown908 = 2;
eq->unknown912 = 2;
eq->unknown932 = -1; // Set from PoK Example
eq->unknown936 = -1; // Set from PoK Example
eq->unknown944 = 1.0; // Set from PoK Example
FINISH_ENCODE();
}
ENCODE(OP_OnLevelMessage)
{
ENCODE_LENGTH_EXACT(OnLevelMessage_Struct);
SETUP_DIRECT_ENCODE(OnLevelMessage_Struct, structs::OnLevelMessage_Struct);
// This packet is variable sized now, but forcing it to the old packet size for now.
eq->Title_Count = 128;
memcpy(eq->Title, emu->Title, sizeof(eq->Title));
eq->Text_Count = 4096;
memcpy(eq->Text, emu->Text, sizeof(eq->Text));
OUT(Buttons);
OUT(SoundControls);
OUT(Duration);
OUT(PopupID);
OUT(NegativeID);
// These two field names are used if Buttons == 1. We should add an interface to them via Perl.
eq->ButtonName0_Count = 25;
OUT_str(ButtonName0);
eq->ButtonName1_Count = 25;
OUT_str(ButtonName1);
FINISH_ENCODE();
}
ENCODE(OP_PetBuffWindow)
{
// The format of the RoF packet is identical to the OP_BuffCreate packet.
SETUP_VAR_ENCODE(PetBuff_Struct);
uint32 sz = 12 + (17 * emu->buffcount);
__packet->size = sz;
__packet->pBuffer = new unsigned char[sz];
memset(__packet->pBuffer, 0, sz);
__packet->WriteUInt32(emu->petid);
__packet->WriteUInt32(0); // PlayerID ?
__packet->WriteUInt8(1); // 1 indicates all buffs on the pet (0 to add or remove a single buff)
__packet->WriteUInt16(emu->buffcount);
for (uint16 i = 0; i < PET_BUFF_COUNT; ++i)
{
if (emu->spellid[i])
{
__packet->WriteUInt32(i);
__packet->WriteUInt32(emu->spellid[i]);
__packet->WriteUInt32(emu->ticsremaining[i]);
__packet->WriteUInt32(0); // numhits
__packet->WriteString("");
}
}
__packet->WriteUInt8(0); // some sort of type
FINISH_ENCODE();
}
ENCODE(OP_PlayerProfile)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
PlayerProfile_Struct *emu = (PlayerProfile_Struct *)__emu_buffer;
uint32 PacketSize = 40000; // Calculate this later
auto outapp = new EQApplicationPacket(OP_PlayerProfile, PacketSize);
outapp->WriteUInt32(0); // Checksum, we will update this later
outapp->WriteUInt32(0); // Checksum size, we will update this later
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(emu->gender); // Gender
outapp->WriteUInt32(emu->race); // Race
outapp->WriteUInt8(emu->class_); // Class
outapp->WriteUInt8(emu->level); // Level
outapp->WriteUInt8(emu->level); // Level1
outapp->WriteUInt32(5); // Bind count
for (int r = 0; r < 5; r++)
{
outapp->WriteUInt32(emu->binds[r].zone_id);
outapp->WriteFloat(emu->binds[r].x);
outapp->WriteFloat(emu->binds[r].y);
outapp->WriteFloat(emu->binds[r].z);
outapp->WriteFloat(emu->binds[r].heading);
}
outapp->WriteUInt32(emu->deity);
outapp->WriteUInt32(emu->intoxication);
outapp->WriteUInt32(10); // Unknown count
for (int r = 0; r < 10; r++)
{
outapp->WriteUInt32(0); // Unknown
}
outapp->WriteUInt32(22); // Equipment count
for (int r = EQ::textures::textureBegin; r < EQ::textures::materialCount; r++)
{
outapp->WriteUInt32(emu->item_material.Slot[r].Material);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
}
// Write zeroes for the next 13 equipment slots
for (int r = 0; r < 13; r++)
{
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(EQ::textures::materialCount); // Equipment2 count
for (int r = EQ::textures::textureBegin; r < EQ::textures::materialCount; r++)
{
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(EQ::textures::materialCount); // Tint Count
for (int r = 0; r < 7; r++)
{
outapp->WriteUInt32(emu->item_tint.Slot[r].Color);
}
// Write zeroes for extra two tint values
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(EQ::textures::materialCount); // Tint2 Count
for (int r = 0; r < 7; r++)
{
outapp->WriteUInt32(emu->item_tint.Slot[r].Color);
}
// Write zeroes for extra two tint values
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt8(emu->haircolor);
outapp->WriteUInt8(emu->beardcolor);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(emu->eyecolor1);
outapp->WriteUInt8(emu->eyecolor2);
outapp->WriteUInt8(emu->hairstyle);
outapp->WriteUInt8(emu->beard);
outapp->WriteUInt8(emu->face);
// Think there should be an extra byte before the drakkin stuff (referred to as oldface in client)
// Then one of the five bytes following the drakkin stuff needs removing.
outapp->WriteUInt32(emu->drakkin_heritage);
outapp->WriteUInt32(emu->drakkin_tattoo);
outapp->WriteUInt32(emu->drakkin_details);
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteFloat(5.0f); // Height ?
outapp->WriteFloat(3.0f); // Unknown
outapp->WriteFloat(2.5f); // Unknown
outapp->WriteFloat(5.5f); // Unknown
outapp->WriteUInt32(0); // Primary ?
outapp->WriteUInt32(0); // Secondary ?
outapp->WriteUInt32(emu->points); // Unspent skill points
outapp->WriteUInt32(emu->mana);
outapp->WriteUInt32(emu->cur_hp);
outapp->WriteUInt32(emu->STR);
outapp->WriteUInt32(emu->STA);
outapp->WriteUInt32(emu->CHA);
outapp->WriteUInt32(emu->DEX);
outapp->WriteUInt32(emu->INT);
outapp->WriteUInt32(emu->AGI);
outapp->WriteUInt32(emu->WIS);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(300); // AA Count
for (uint32 r = 0; r < MAX_PP_AA_ARRAY; r++)
{
outapp->WriteUInt32(emu->aa_array[r].AA);
outapp->WriteUInt32(emu->aa_array[r].value);
outapp->WriteUInt32(emu->aa_array[r].charges);
}
// Fill the other 60 AAs with zeroes
for (uint32 r = 0; r < structs::MAX_PP_AA_ARRAY - MAX_PP_AA_ARRAY; r++)
{
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(structs::MAX_PP_SKILL);
for (uint32 r = 0; r < structs::MAX_PP_SKILL; r++)
{
outapp->WriteUInt32(emu->skills[r]);
}
outapp->WriteUInt32(structs::MAX_PP_INNATE_SKILL); // Innate Skills count
for (uint32 r = 0; r < structs::MAX_PP_INNATE_SKILL; r++)
{
outapp->WriteUInt32(emu->InnateSkills[r]); // Innate Skills (regen, slam, etc)
}
outapp->WriteUInt32(structs::MAX_PP_DISCIPLINES); // Discipline count
for (uint32 r = 0; r < MAX_PP_DISCIPLINES; r++)
{
outapp->WriteUInt32(emu->disciplines.values[r]);
}
// Write zeroes for the rest of the disciplines
for (uint32 r = 0; r < structs::MAX_PP_DISCIPLINES - MAX_PP_DISCIPLINES; r++)
{
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(20); // Timestamp count
for (uint32 r = 0; r < 20; r++)
{
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(MAX_RECAST_TYPES); // Timestamp count
for (uint32 r = 0; r < MAX_RECAST_TYPES; r++)
{
outapp->WriteUInt32(emu->recastTimers[r]);
}
outapp->WriteUInt32(100); // Timestamp2 count
for (uint32 r = 0; r < 100; r++)
{
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(spells::SPELLBOOK_SIZE); // Spellbook slots
if (spells::SPELLBOOK_SIZE <= EQ::spells::SPELLBOOK_SIZE) {
for (uint32 r = 0; r < spells::SPELLBOOK_SIZE; r++) {
if (emu->spell_book[r] <= spells::SPELL_ID_MAX)
outapp->WriteUInt32(emu->spell_book[r]);
else
outapp->WriteUInt32(0xFFFFFFFFU);
}
}
else {
for (uint32 r = 0; r < EQ::spells::SPELLBOOK_SIZE; r++) {
if (emu->spell_book[r] <= spells::SPELL_ID_MAX)
outapp->WriteUInt32(emu->spell_book[r]);
else
outapp->WriteUInt32(0xFFFFFFFFU);
}
// invalidate the rest of the spellbook slots
for (uint32 r = EQ::spells::SPELLBOOK_SIZE; r < spells::SPELLBOOK_SIZE; r++) {
outapp->WriteUInt32(0xFFFFFFFFU);
}
}
outapp->WriteUInt32(spells::SPELL_GEM_COUNT); // Memorised spell slots
for (uint32 r = 0; r < EQ::spells::SPELL_GEM_COUNT; r++) // first 12
{
outapp->WriteUInt32(emu->mem_spells[r]);
}
// zeroes for the rest of the slots -- the other 4 which don't work at all!
for (uint32 r = 0; r < spells::SPELL_GEM_COUNT - EQ::spells::SPELL_GEM_COUNT; r++)
{
outapp->WriteUInt32(0xFFFFFFFFU);
}
outapp->WriteUInt32(13); // gem refresh count
for (uint32 r = 0; r < EQ::spells::SPELL_GEM_COUNT; r++)
{
outapp->WriteUInt32(emu->spellSlotRefresh[r]); // spell gem refresh
}
outapp->WriteUInt32(0); // also refresh -- historically HT/LoH :P
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(structs::BUFF_COUNT);
for (uint32 r = 0; r < BUFF_COUNT; r++)
{
float instrument_mod = 0.0f;
uint8 effect_type = emu->buffs[r].effect_type;
uint32 player_id = emu->buffs[r].player_id;;
if (emu->buffs[r].spellid != 0xFFFF && emu->buffs[r].spellid != 0)
{
instrument_mod = 1.0f + (emu->buffs[r].bard_modifier - 10) / 10.0f;
effect_type = 2;
player_id = 0x000717fd;
}
else
{
effect_type = 0;
}
// this is different than the client struct for some reason :P
// missing a few things, shuffled around
outapp->WriteUInt8(0); // this is an unknown
outapp->WriteFloat(instrument_mod);
outapp->WriteUInt32(player_id);
outapp->WriteUInt8(0);
outapp->WriteUInt32(emu->buffs[r].counters);
outapp->WriteUInt32(emu->buffs[r].duration);
outapp->WriteUInt8(emu->buffs[r].level);
outapp->WriteUInt32(emu->buffs[r].spellid);
outapp->WriteUInt8(effect_type); // Only ever seen 2
outapp->WriteUInt32(emu->buffs[r].num_hits);
outapp->WriteUInt32(0);
outapp->WriteUInt32(emu->buffs[r].counters); // Appears twice ?
for (uint32 j = 0; j < 44; ++j)
outapp->WriteUInt8(0); // Unknown
}
for (uint32 r = 0; r < structs::BUFF_COUNT - BUFF_COUNT; r++)
{
// 80 bytes of zeroes
for (uint32 j = 0; j < 20; ++j)
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(emu->platinum);
outapp->WriteUInt32(emu->gold);
outapp->WriteUInt32(emu->silver);
outapp->WriteUInt32(emu->copper);
outapp->WriteUInt32(emu->platinum_cursor);
outapp->WriteUInt32(emu->gold_cursor);
outapp->WriteUInt32(emu->silver_cursor);
outapp->WriteUInt32(emu->copper_cursor);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // This is the cooldown timer for the monk 'Mend' skill. Client will add 6 minutes to this value the first time the
// player logs in. After that it will honour whatever value we send here.
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->thirst_level);
outapp->WriteUInt32(emu->hunger_level);
outapp->WriteUInt32(emu->aapoints_spent);
outapp->WriteUInt32(5); // AA Points count ??
outapp->WriteUInt32(1234); // AA Points assigned
outapp->WriteUInt32(0); // AA Points in General ?
outapp->WriteUInt32(0); // AA Points in Class ?
outapp->WriteUInt32(0); // AA Points in Archetype ?
outapp->WriteUInt32(0); // AA Points in Special ?
outapp->WriteUInt32(emu->aapoints); // AA Points unspent
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(profile::BANDOLIERS_SIZE);
// Copy bandoliers where server and client indices converge
for (uint32 r = 0; r < EQ::profile::BANDOLIERS_SIZE && r < profile::BANDOLIERS_SIZE; ++r) {
outapp->WriteString(emu->bandoliers[r].Name);
for (uint32 j = 0; j < profile::BANDOLIER_ITEM_COUNT; ++j) { // Will need adjusting if 'server != client' is ever true
outapp->WriteString(emu->bandoliers[r].Items[j].Name);
outapp->WriteUInt32(emu->bandoliers[r].Items[j].ID);
if (emu->bandoliers[r].Items[j].Icon) {
outapp->WriteSInt32(emu->bandoliers[r].Items[j].Icon);
}
else {
// If no icon, it must send -1 or Treasure Chest Icon (836) is displayed
outapp->WriteSInt32(-1);
}
}
}
// Nullify bandoliers where server and client indices diverge, with a client bias
for (uint32 r = EQ::profile::BANDOLIERS_SIZE; r < profile::BANDOLIERS_SIZE; ++r) {
outapp->WriteString("");
for (uint32 j = 0; j < profile::BANDOLIER_ITEM_COUNT; ++j) { // Will need adjusting if 'server != client' is ever true
outapp->WriteString("");
outapp->WriteUInt32(0);
outapp->WriteSInt32(-1);
}
}
outapp->WriteUInt32(profile::POTION_BELT_SIZE);
// Copy potion belt where server and client indices converge
for (uint32 r = 0; r < EQ::profile::POTION_BELT_SIZE && r < profile::POTION_BELT_SIZE; ++r) {
outapp->WriteString(emu->potionbelt.Items[r].Name);
outapp->WriteUInt32(emu->potionbelt.Items[r].ID);
if (emu->potionbelt.Items[r].Icon) {
outapp->WriteSInt32(emu->potionbelt.Items[r].Icon);
}
else {
// If no icon, it must send -1 or Treasure Chest Icon (836) is displayed
outapp->WriteSInt32(-1);
}
}
// Nullify potion belt where server and client indices diverge, with a client bias
for (uint32 r = EQ::profile::POTION_BELT_SIZE; r < profile::POTION_BELT_SIZE; ++r) {
outapp->WriteString("");
outapp->WriteUInt32(0);
outapp->WriteSInt32(-1);
}
outapp->WriteSInt32(-1); // Unknown;
outapp->WriteSInt32(123); // HP Total ?
outapp->WriteSInt32(234); // Endurance Total ?
outapp->WriteSInt32(345); // Mana Total ?
// these are needed to fix display bugs
outapp->WriteUInt32(0x19); // base CR
outapp->WriteUInt32(0x19); // base FR
outapp->WriteUInt32(0x19); // base MR
outapp->WriteUInt32(0xf); // base DR
outapp->WriteUInt32(0xf); // base PR
outapp->WriteUInt32(0xf); // base PhR?
outapp->WriteUInt32(0xf); // base Corrup
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(20); // Unknown - Expansion count ?
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->endurance);
outapp->WriteUInt32(0); // Unknown - Observed 0x7cde - This is also seen in guild packets sent to this character.
outapp->WriteUInt32(0); // Unknown - Observed 0x64
outapp->WriteUInt32(64); // Name Length
uint32 CurrentPosition = outapp->GetWritePosition();
outapp->WriteString(emu->name);
outapp->SetWritePosition(CurrentPosition + 64);
outapp->WriteUInt32(32); // Last Name Length
CurrentPosition = outapp->GetWritePosition();
outapp->WriteString(emu->last_name);
outapp->SetWritePosition(CurrentPosition + 32);
outapp->WriteUInt32(emu->birthday);
outapp->WriteUInt32(emu->birthday); // Account start date ?
outapp->WriteUInt32(emu->lastlogin);
outapp->WriteUInt32(emu->timePlayedMin);
outapp->WriteUInt32(emu->timeentitledonaccount);
outapp->WriteUInt32(emu->expansions);
//outapp->WriteUInt32(0x0007ffff); // Expansion bitmask
outapp->WriteUInt32(structs::MAX_PP_LANGUAGE);
for (uint32 r = 0; r < MAX_PP_LANGUAGE; r++)
{
outapp->WriteUInt8(emu->languages[r]);
}
for (uint32 r = 0; r < structs::MAX_PP_LANGUAGE - MAX_PP_LANGUAGE; r++)
{
outapp->WriteUInt8(0);
}
outapp->WriteUInt16(emu->zone_id);
outapp->WriteUInt16(emu->zoneInstance);
outapp->WriteFloat(emu->y);
outapp->WriteFloat(emu->x);
outapp->WriteFloat(emu->z);
outapp->WriteFloat(emu->heading);
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(emu->pvp);
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(emu->gm);
outapp->WriteUInt32(emu->guild_id);
outapp->WriteUInt8(emu->guildrank); // guildrank
outapp->WriteUInt32(0); // Unknown - observed 1 in a live packet.
outapp->WriteUInt8(0); // Unknown - observed 1 in a live packet.
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt64(emu->exp);
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(emu->platinum_bank);
outapp->WriteUInt32(emu->gold_bank);
outapp->WriteUInt32(emu->silver_bank);
outapp->WriteUInt32(emu->copper_bank);
outapp->WriteUInt32(emu->platinum_shared);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(42); // The meaning of life ?
for (uint32 r = 0; r < 42; r++)
{
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
}
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->career_tribute_points);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->tribute_points);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(EQ::invtype::TRIBUTE_SIZE);
for (uint32 r = 0; r < EQ::invtype::TRIBUTE_SIZE; r++)
{
outapp->WriteUInt32(emu->tributes[r].tribute);
outapp->WriteUInt32(emu->tributes[r].tier);
}
outapp->WriteUInt32(10); // Guild Tribute Count ?
for (uint32 r = 0; r < 10; r++)
{
outapp->WriteUInt32(0xffffffff);
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
// Block of 121 unknown bytes
for (uint32 r = 0; r < 121; r++)
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->currentRadCrystals);
outapp->WriteUInt32(emu->careerRadCrystals);
outapp->WriteUInt32(emu->currentEbonCrystals);
outapp->WriteUInt32(emu->careerEbonCrystals);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
// Unknown String ?
outapp->WriteUInt32(64); // Unknown
for (uint32 r = 0; r < 64; r++)
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
// Unknown String ?
outapp->WriteUInt32(64); // Unknown
for (uint32 r = 0; r < 64; r++)
outapp->WriteUInt8(0); // Unknown
// Unknown String ?
outapp->WriteUInt32(64); // Unknown
for (uint32 r = 0; r < 64; r++)
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
// Block of 320 unknown bytes
for (uint32 r = 0; r < 320; r++)
outapp->WriteUInt8(0); // Unknown
// Block of 343 unknown bytes
for (uint32 r = 0; r < 343; r++)
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(emu->leadAAActive);
outapp->WriteUInt32(6); // Count ... of LDoN stats ?
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(emu->ldon_points_guk);
outapp->WriteUInt32(emu->ldon_points_mir);
outapp->WriteUInt32(emu->ldon_points_mmc);
outapp->WriteUInt32(emu->ldon_points_ruj);
outapp->WriteUInt32(emu->ldon_points_tak);
outapp->WriteUInt32(emu->ldon_points_available);
outapp->WriteDouble(emu->group_leadership_exp);
outapp->WriteDouble(emu->raid_leadership_exp);
outapp->WriteUInt32(emu->group_leadership_points);
outapp->WriteUInt32(emu->raid_leadership_points);
outapp->WriteUInt32(64); // Group of 64 int32s follow Group/Raid Leadership abilities ?
for (uint32 r = 0; r < MAX_LEADERSHIP_AA_ARRAY; r++)
outapp->WriteUInt32(emu->leader_abilities.ranks[r]);
for (uint32 r = 0; r < 64 - MAX_LEADERSHIP_AA_ARRAY; r++)
outapp->WriteUInt32(0); // Unused/unsupported Leadership abilities
outapp->WriteUInt32(emu->air_remaining); // ?
// PVP Stats
outapp->WriteUInt32(emu->PVPKills);
outapp->WriteUInt32(emu->PVPDeaths);
outapp->WriteUInt32(emu->PVPCurrentPoints);
outapp->WriteUInt32(emu->PVPCareerPoints);
outapp->WriteUInt32(emu->PVPBestKillStreak);
outapp->WriteUInt32(emu->PVPWorstDeathStreak);
outapp->WriteUInt32(emu->PVPCurrentKillStreak);
// Last PVP Kill
outapp->WriteString(emu->PVPLastKill.Name);
outapp->WriteUInt32(emu->PVPLastKill.Level);
outapp->WriteUInt32(emu->PVPLastKill.Race);
outapp->WriteUInt32(emu->PVPLastKill.Class);
outapp->WriteUInt32(emu->PVPLastKill.Zone);
outapp->WriteUInt32(emu->PVPLastKill.Time);
outapp->WriteUInt32(emu->PVPLastKill.Points);
// Last PVP Death
outapp->WriteString(emu->PVPLastDeath.Name);
outapp->WriteUInt32(emu->PVPLastDeath.Level);
outapp->WriteUInt32(emu->PVPLastDeath.Race);
outapp->WriteUInt32(emu->PVPLastDeath.Class);
outapp->WriteUInt32(emu->PVPLastDeath.Zone);
outapp->WriteUInt32(emu->PVPLastDeath.Time);
outapp->WriteUInt32(emu->PVPLastDeath.Points);
outapp->WriteUInt32(emu->PVPNumberOfKillsInLast24Hours);
// Last 50 Kills
outapp->WriteUInt32(50);
for (uint32 r = 0; r < 50; ++r)
{
outapp->WriteString(emu->PVPRecentKills[r].Name);
outapp->WriteUInt32(emu->PVPRecentKills[r].Level);
outapp->WriteUInt32(emu->PVPRecentKills[r].Race);
outapp->WriteUInt32(emu->PVPRecentKills[r].Class);
outapp->WriteUInt32(emu->PVPRecentKills[r].Zone);
outapp->WriteUInt32(emu->PVPRecentKills[r].Time);
outapp->WriteUInt32(emu->PVPRecentKills[r].Points);
}
outapp->WriteUInt32(emu->expAA);
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt8(emu->groupAutoconsent);
outapp->WriteUInt8(emu->raidAutoconsent);
outapp->WriteUInt8(emu->guildAutoconsent);
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(emu->level); // Level3 ?
outapp->WriteUInt8(emu->showhelm);
outapp->WriteUInt32(emu->RestTimer);
outapp->WriteUInt32(1024); // Unknown Count
// Block of 1024 unknown bytes
outapp->WriteUInt8(31); // Unknown
for (uint32 r = 0; r < 1023; r++)
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Unknown
// Think we need 1 byte of padding at the end
outapp->WriteUInt8(0); // Unknown
LogNetcode("[STRUCTS] Player Profile Packet is [{}] bytes", outapp->GetWritePosition());
auto NewBuffer = new unsigned char[outapp->GetWritePosition()];
memcpy(NewBuffer, outapp->pBuffer, outapp->GetWritePosition());
safe_delete_array(outapp->pBuffer);
outapp->pBuffer = NewBuffer;
outapp->size = outapp->GetWritePosition();
outapp->SetWritePosition(4);
outapp->WriteUInt32(outapp->size - 9);
CRC32::SetEQChecksum(outapp->pBuffer, outapp->size - 1, 8);
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp, ack_req);
delete in;
return;
}
ENCODE(OP_RaidJoin)
{
EQApplicationPacket* inapp = *p;
*p = nullptr;
unsigned char* __emu_buffer = inapp->pBuffer;
RaidCreate_Struct* emu = (RaidCreate_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct* general = (structs::RaidGeneral_Struct*)outapp->pBuffer;
general->action = raidCreate;
general->parameter = RaidCommandAcceptInvite;
strn0cpy(general->leader_name, emu->leader_name, sizeof(emu->leader_name));
strn0cpy(general->player_name, emu->leader_name, sizeof(emu->leader_name));
dest->FastQueuePacket(&outapp);
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;
switch (raid_gen->action)
{
case raidAdd:
{
RaidAddMember_Struct* emu = (RaidAddMember_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidAddMember_Struct));
structs::RaidAddMember_Struct* eq = (structs::RaidAddMember_Struct*)outapp->pBuffer;
OUT(raidGen.action);
OUT(raidGen.parameter);
OUT_str(raidGen.leader_name);
OUT_str(raidGen.player_name);
OUT(_class);
OUT(level);
OUT(isGroupLeader);
OUT(flags[0]);
OUT(flags[1]);
OUT(flags[2]);
OUT(flags[3]);
OUT(flags[4]);
dest->FastQueuePacket(&outapp);
break;
}
case raidSetMotd:
{
RaidMOTD_Struct* emu = (RaidMOTD_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidMOTD_Struct));
structs::RaidMOTD_Struct* eq = (structs::RaidMOTD_Struct*)outapp->pBuffer;
OUT(general.action);
OUT_str(general.player_name);
OUT_str(general.leader_name);
OUT_str(motd);
dest->FastQueuePacket(&outapp);
break;
}
case raidSetLeaderAbilities:
case raidMakeLeader:
{
RaidLeadershipUpdate_Struct* emu = (RaidLeadershipUpdate_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidLeadershipUpdate_Struct));
structs::RaidLeadershipUpdate_Struct* eq = (structs::RaidLeadershipUpdate_Struct*)outapp->pBuffer;
OUT(action);
OUT_str(player_name);
OUT_str(leader_name);
memcpy(&eq->raid, &emu->raid, sizeof(RaidLeadershipAA_Struct));
dest->FastQueuePacket(&outapp);
break;
}
case raidSetNote:
{
auto emu = (RaidNote_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidNote_Struct));
auto eq = (structs::RaidNote_Struct*)outapp->pBuffer;
OUT(general.action);
OUT_str(general.leader_name);
OUT_str(general.player_name);
OUT_str(note);
dest->FastQueuePacket(&outapp);
break;
}
case raidNoRaid:
{
dest->QueuePacket(inapp);
break;
}
default:
{
RaidGeneral_Struct* emu = (RaidGeneral_Struct*)__emu_buffer;
auto outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct* eq = (structs::RaidGeneral_Struct*)outapp->pBuffer;
OUT(action);
OUT(parameter);
OUT_str(leader_name);
OUT_str(player_name);
dest->FastQueuePacket(&outapp);
break;
}
}
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);
OUT(invslot);
strn0cpy(eq->txtfile, emu->booktext, sizeof(eq->txtfile));
FINISH_ENCODE();
}
ENCODE(OP_RecipeAutoCombine)
{
ENCODE_LENGTH_EXACT(RecipeAutoCombine_Struct);
SETUP_DIRECT_ENCODE(RecipeAutoCombine_Struct, structs::RecipeAutoCombine_Struct);
OUT(object_type);
OUT(some_id);
eq->container_slot = ServerToRoFSlot(emu->unknown1);
structs::InventorySlot_Struct RoFSlot;
RoFSlot.Type = 8; // Observed
RoFSlot.Unknown02 = 0;
RoFSlot.Slot = 0xffff;
RoFSlot.SubIndex = 0xffff;
RoFSlot.AugIndex = 0xffff;
RoFSlot.Unknown01 = 0;
eq->unknown_slot = RoFSlot;
OUT(recipe_id);
OUT(reply_code);
FINISH_ENCODE();
}
ENCODE(OP_RemoveBlockedBuffs) { ENCODE_FORWARD(OP_BlockedBuffs); }
ENCODE(OP_RequestClientZoneChange)
{
ENCODE_LENGTH_EXACT(RequestClientZoneChange_Struct);
SETUP_DIRECT_ENCODE(RequestClientZoneChange_Struct, structs::RequestClientZoneChange_Struct);
OUT(zone_id);
OUT(instance_id);
OUT(y);
OUT(x);
OUT(z);
OUT(heading);
eq->type = 0x0b;
eq->unknown004 = 0xffffffff;
eq->unknown172 = 0x0168b500;
FINISH_ENCODE();
}
ENCODE(OP_RespondAA)
{
SETUP_DIRECT_ENCODE(AATable_Struct, structs::AATable_Struct);
eq->aa_spent = emu->aa_spent;
// These fields may need to be correctly populated at some point
eq->aapoints_assigned = emu->aa_spent;
eq->aa_spent_general = 0;
eq->aa_spent_archetype = 0;
eq->aa_spent_class = 0;
eq->aa_spent_special = 0;
for (uint32 i = 0; i < MAX_PP_AA_ARRAY; ++i)
{
eq->aa_list[i].AA = emu->aa_list[i].AA;
eq->aa_list[i].value = emu->aa_list[i].value;
eq->aa_list[i].charges = emu->aa_list[i].charges;
}
FINISH_ENCODE();
}
ENCODE(OP_RezzRequest)
{
SETUP_DIRECT_ENCODE(Resurrect_Struct, structs::Resurrect_Struct);
OUT(zone_id);
OUT(instance_id);
OUT(y);
OUT(x);
OUT(z);
OUT_str(your_name);
OUT_str(rezzer_name);
OUT(spellid);
OUT_str(corpse_name);
OUT(action);
FINISH_ENCODE();
}
ENCODE(OP_SendAATable)
{
EQApplicationPacket *inapp = *p;
*p = nullptr;
AARankInfo_Struct *emu = (AARankInfo_Struct*)inapp->pBuffer;
// the structs::SendAA_Struct includes enough space for 1 prereq which is the min even if it has no prereqs
auto prereq_size = emu->total_prereqs > 1 ? (emu->total_prereqs - 1) * 8 : 0;
auto outapp = new EQApplicationPacket(OP_SendAATable, sizeof(structs::SendAA_Struct) + emu->total_effects * sizeof(structs::AA_Ability) + prereq_size);
inapp->SetReadPosition(sizeof(AARankInfo_Struct)+emu->total_effects * sizeof(AARankEffect_Struct));
std::vector<int32> skill;
std::vector<int32> points;
for(auto i = 0u; i < emu->total_prereqs; ++i) {
skill.push_back(inapp->ReadUInt32());
points.push_back(inapp->ReadUInt32());
}
outapp->WriteUInt32(emu->id);
outapp->WriteUInt8(1);
outapp->WriteSInt32(emu->upper_hotkey_sid);
outapp->WriteSInt32(emu->lower_hotkey_sid);
outapp->WriteSInt32(emu->title_sid);
outapp->WriteSInt32(emu->desc_sid);
outapp->WriteSInt32(emu->level_req);
outapp->WriteSInt32(emu->cost);
outapp->WriteUInt32(emu->seq);
outapp->WriteUInt32(emu->current_level);
if(emu->total_prereqs) {
outapp->WriteUInt32(emu->total_prereqs);
for(auto &e : skill)
outapp->WriteSInt32(e);
outapp->WriteUInt32(emu->total_prereqs);
for(auto &e : points)
outapp->WriteSInt32(e);
}
else {
outapp->WriteUInt32(1);
outapp->WriteUInt32(0);
outapp->WriteUInt32(1);
outapp->WriteUInt32(0);
}
outapp->WriteSInt32(emu->type);
outapp->WriteSInt32(emu->spell);
outapp->WriteSInt32(1);
outapp->WriteSInt32(emu->spell_type);
outapp->WriteSInt32(emu->spell_refresh);
outapp->WriteSInt32(emu->classes);
outapp->WriteSInt32(emu->max_level);
outapp->WriteSInt32(emu->prev_id);
outapp->WriteSInt32(emu->next_id);
outapp->WriteSInt32(emu->total_cost);
outapp->WriteUInt8(0);
outapp->WriteUInt8(emu->grant_only);
outapp->WriteUInt8(0);
outapp->WriteUInt32(emu->charges);
outapp->WriteSInt32(emu->expansion);
outapp->WriteSInt32(emu->category);
outapp->WriteUInt8(0); // shroud
outapp->WriteUInt8(0); // unknown109
outapp->WriteUInt8(0); // loh
outapp->WriteUInt8(0); // unknown111
outapp->WriteUInt32(emu->total_effects);
inapp->SetReadPosition(sizeof(AARankInfo_Struct));
for(auto i = 0u; i < emu->total_effects; ++i) {
outapp->WriteUInt32(inapp->ReadUInt32()); // skill_id
outapp->WriteUInt32(inapp->ReadUInt32()); // base1
outapp->WriteUInt32(inapp->ReadUInt32()); // base2
outapp->WriteUInt32(inapp->ReadUInt32()); // slot
}
dest->FastQueuePacket(&outapp);
delete inapp;
}
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;
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 < constants::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;
emu_ptr = __emu_buffer;
emu_ptr += sizeof(CharacterSelect_Struct);
unsigned char *eq_ptr = __packet->pBuffer;
eq_ptr += sizeof(structs::CharacterSelect_Struct);
for (auto counter = 0u; counter < character_count; ++counter) {
emu_cse = (CharacterSelectEntry_Struct *)emu_ptr;
eq_cse = (structs::CharacterSelectEntry_Struct *)eq_ptr; // base address
strcpy(eq_cse->Name, emu_cse->Name);
eq_ptr += strlen(emu_cse->Name);
eq_cse = (structs::CharacterSelectEntry_Struct *)eq_ptr; // offset address (base + name length offset)
eq_cse->Name[0] = '\0'; // (offset)eq_cse->Name[0] = (base)eq_cse->Name[strlen(emu_cse->Name)]
eq_cse->Class = emu_cse->Class;
eq_cse->Race = emu_cse->Race;
eq_cse->Level = emu_cse->Level;
eq_cse->ShroudClass = emu_cse->ShroudClass;
eq_cse->ShroudRace = emu_cse->ShroudRace;
eq_cse->Zone = emu_cse->Zone;
eq_cse->Instance = emu_cse->Instance;
eq_cse->Gender = emu_cse->Gender;
eq_cse->Face = emu_cse->Face;
for (int equip_index = 0; equip_index < EQ::textures::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].EliteModel;
eq_cse->Equip[equip_index].HeroForgeModel = emu_cse->Equip[equip_index].HerosForgeModel;
eq_cse->Equip[equip_index].Material2 = emu_cse->Equip[equip_index].Unknown2;
eq_cse->Equip[equip_index].Color = emu_cse->Equip[equip_index].Color;
}
eq_cse->Unknown15 = emu_cse->Unknown15;
eq_cse->Unknown19 = emu_cse->Unknown19;
eq_cse->DrakkinTattoo = emu_cse->DrakkinTattoo;
eq_cse->DrakkinDetails = emu_cse->DrakkinDetails;
eq_cse->Deity = emu_cse->Deity;
eq_cse->PrimaryIDFile = emu_cse->PrimaryIDFile;
eq_cse->SecondaryIDFile = emu_cse->SecondaryIDFile;
eq_cse->HairColor = emu_cse->HairColor;
eq_cse->BeardColor = emu_cse->BeardColor;
eq_cse->EyeColor1 = emu_cse->EyeColor1;
eq_cse->EyeColor2 = emu_cse->EyeColor2;
eq_cse->HairStyle = emu_cse->HairStyle;
eq_cse->Beard = emu_cse->Beard;
eq_cse->GoHome = emu_cse->GoHome;
eq_cse->Tutorial = emu_cse->Tutorial;
eq_cse->DrakkinHeritage = emu_cse->DrakkinHeritage;
eq_cse->Unknown1 = emu_cse->Unknown1;
eq_cse->Enabled = emu_cse->Enabled;
eq_cse->LastLogin = emu_cse->LastLogin;
eq_cse->Unknown2 = emu_cse->Unknown2;
emu_ptr += sizeof(CharacterSelectEntry_Struct);
eq_ptr += sizeof(structs::CharacterSelectEntry_Struct);
}
FINISH_ENCODE();
}
ENCODE(OP_SendMembership)
{
ENCODE_LENGTH_EXACT(Membership_Struct);
SETUP_DIRECT_ENCODE(Membership_Struct, structs::Membership_Struct);
eq->membership = emu->membership;
eq->races = emu->races;
eq->classes = emu->classes;
eq->entrysize = 22;
for (int i = 0; i<21; i++)
{
eq->entries[i] = emu->entries[i];
}
eq->entries[21] = 1;
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_SetGuildRank)
{
ENCODE_LENGTH_EXACT(GuildSetRank_Struct);
SETUP_DIRECT_ENCODE(GuildSetRank_Struct, structs::GuildSetRank_Struct);
eq->guild_id = emu->Unknown00;
eq->rank = emu->rank;
memcpy(eq->member_name, emu->member_name, sizeof(eq->member_name));
OUT(banker);
eq->unknown76 = 1;
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->inventory_slot = ServerToRoFTypelessSlot(emu->itemslot, EQ::invtype::typePossessions);
//OUT(itemslot);
OUT(quantity);
OUT(price);
FINISH_ENCODE();
}
ENCODE(OP_ShopRequest)
{
ENCODE_LENGTH_EXACT(Merchant_Click_Struct);
SETUP_DIRECT_ENCODE(Merchant_Click_Struct, structs::Merchant_Click_Struct);
OUT(npcid);
OUT(playerid);
OUT(command);
OUT(rate);
eq->unknown01 = 3; // Not sure what these values do yet, but list won't display without them
eq->unknown02 = 2592000;
FINISH_ENCODE();
}
ENCODE(OP_SkillUpdate)
{
ENCODE_LENGTH_EXACT(SkillUpdate_Struct);
SETUP_DIRECT_ENCODE(SkillUpdate_Struct, structs::SkillUpdate_Struct);
OUT(skillId);
OUT(value);
eq->unknown08 = 1; // Observed
eq->unknown09 = 80; // Observed
eq->unknown10 = 136; // Observed
eq->unknown11 = 54; // Observed
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 = 175; // This needs to be set to something, else we get a 1HS animation instead of ranged.
OUT(item_type);
OUT(skill);
strncpy(eq->model_name, emu->model_name, sizeof(eq->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 != AppearanceType::Size)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
auto 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++) {
strncpy(eq[r].name, emu[r].name, sizeof(eq[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].unknown0080 = 0;
eq[r].unknown0081 = 1; // Both must be 1 to allow clicking doors
eq[r].unknown0082 = 0;
eq[r].unknown0083 = 1; // Both must be 1 to allow clicking doors
eq[r].unknown0084 = 0;
eq[r].unknown0085 = 0;
eq[r].unknown0086 = 0;
}
FINISH_ENCODE();
}
ENCODE(OP_SpecialMesg)
{
EQApplicationPacket *in = *p;
*p = nullptr;
SerializeBuffer buf(in->size);
buf.WriteInt8(in->ReadUInt8()); // speak mode
buf.WriteInt8(in->ReadUInt8()); // journal mode
buf.WriteInt8(in->ReadUInt8()); // language
buf.WriteInt32(in->ReadUInt32()); // message type
buf.WriteInt32(in->ReadUInt32()); // target spawn id
std::string name;
in->ReadString(name); // NPC names max out at 63 chars
buf.WriteString(name);
buf.WriteInt32(in->ReadUInt32()); // loc
buf.WriteInt32(in->ReadUInt32());
buf.WriteInt32(in->ReadUInt32());
std::string old_message;
std::string new_message;
in->ReadString(old_message);
ServerToRoFSayLink(new_message, old_message);
buf.WriteString(new_message);
auto outapp = new EQApplicationPacket(OP_SpecialMesg, buf);
dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
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;
TaskDescriptionData1_Struct *emu_tdd1 = (TaskDescriptionData1_Struct *)InBuffer;
emu_tdd1->StartTime = (static_cast<uint32>(time(nullptr)) - emu_tdd1->StartTime); // RoF has elapsed time here rather than start time
InBuffer += sizeof(TaskDescriptionData1_Struct);
uint32 description_size = strlen(InBuffer) + 1;
InBuffer += description_size;
InBuffer += sizeof(TaskDescriptionData2_Struct);
uint32 reward_size = strlen(InBuffer) + 1;
InBuffer += reward_size;
std::string old_message = InBuffer; // start item link string
std::string new_message;
ServerToRoFSayLink(new_message, old_message);
in->size = sizeof(TaskDescriptionHeader_Struct) + sizeof(TaskDescriptionData1_Struct)+
sizeof(TaskDescriptionData2_Struct) + sizeof(TaskDescriptionTrailer_Struct)+
title_size + description_size + reward_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);
#if 0 // original code
EQApplicationPacket *in = *p;
*p = nullptr;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_TaskDescription, in->size + 1);
// Set the Write pointer as we don't know what has been done with the packet before we get it.
in->SetReadPosition(0);
// Copy the header
for (int i = 0; i < 5; ++i)
outapp->WriteUInt32(in->ReadUInt32());
// Copy Title
while (uint8 c = in->ReadUInt8())
outapp->WriteUInt8(c);
outapp->WriteUInt8(0);
outapp->WriteUInt32(in->ReadUInt32()); // Duration
outapp->WriteUInt32(in->ReadUInt32()); // Unknown
uint32 StartTime = in->ReadUInt32();
outapp->WriteUInt32(time(nullptr) - StartTime); // RoF has elapsed time here rather than starttime
// Copy the rest of the packet verbatim
uint32 BytesLeftToCopy = in->size - in->GetReadPosition();
memcpy(outapp->pBuffer + outapp->GetWritePosition(), in->pBuffer + in->GetReadPosition(), BytesLeftToCopy);
delete in;
dest->FastQueuePacket(&outapp, ack_req);
#endif
}
ENCODE(OP_TaskHistoryReply)
{
EQApplicationPacket *in = *p;
*p = nullptr;
// First we need to calculate the length of the new packet
in->SetReadPosition(4);
uint32 ActivityCount = in->ReadUInt32();
uint32 Text1Length = 0;
uint32 Text2Length = 0;
uint32 Text3Length = 0;
uint32 OutboundPacketSize = 8;
for (uint32 i = 0; i < ActivityCount; ++i)
{
Text1Length = 0;
Text2Length = 0;
Text3Length = 0;
in->ReadUInt32(); // Activity type
// Skip past Text1
while (in->ReadUInt8())
++Text1Length;
// Skip past Text2
while (in->ReadUInt8())
++Text2Length;
in->ReadUInt32();
in->ReadUInt32();
in->ReadUInt32();
uint32 ZoneID = in->ReadUInt32();
in->ReadUInt32();
// Skip past Text3
while (in->ReadUInt8())
++Text3Length;
char ZoneNumber[10];
sprintf(ZoneNumber, "%i", ZoneID);
OutboundPacketSize += (24 + Text1Length + 1 + Text2Length + Text3Length + 1 + 7 + (strlen(ZoneNumber) * 2));
}
in->SetReadPosition(0);
auto outapp = new EQApplicationPacket(OP_TaskHistoryReply, OutboundPacketSize);
outapp->WriteUInt32(in->ReadUInt32()); // Task index
outapp->WriteUInt32(in->ReadUInt32()); // Activity count
for (uint32 i = 0; i < ActivityCount; ++i)
{
Text1Length = 0;
Text2Length = 0;
Text3Length = 0;
outapp->WriteUInt32(in->ReadUInt32()); // ActivityType
// Copy Text1
while (uint8 c = in->ReadUInt8())
outapp->WriteUInt8(c);
outapp->WriteUInt8(0); // Text1 has a null terminator
uint32 CurrentPosition = in->GetReadPosition();
// Determine Length of Text2
while (in->ReadUInt8())
++Text2Length;
outapp->WriteUInt32(Text2Length);
in->SetReadPosition(CurrentPosition);
// Copy Text2
while (uint8 c = in->ReadUInt8())
outapp->WriteUInt8(c);
outapp->WriteUInt32(in->ReadUInt32()); // Goalcount
in->ReadUInt32();
in->ReadUInt32();
uint32 ZoneID = in->ReadUInt32();
in->ReadUInt32();
char ZoneNumber[10];
sprintf(ZoneNumber, "%i", ZoneID);
outapp->WriteUInt32(2);
outapp->WriteUInt8(0x2d); // "-"
outapp->WriteUInt8(0x31); // "1"
outapp->WriteUInt32(2);
outapp->WriteUInt8(0x2d); // "-"
outapp->WriteUInt8(0x31); // "1"
outapp->WriteString(ZoneNumber);
outapp->WriteUInt32(0);
// Copy Tex3t
while (uint8 c = in->ReadUInt8())
outapp->WriteUInt8(c);
outapp->WriteUInt8(0); // Text3 has a null terminator
outapp->WriteUInt8(0x31); // "1"
outapp->WriteString(ZoneNumber);
}
delete in;
dest->FastQueuePacket(&outapp, 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)
{
LogNetcode("[STRUCTS] Wrong size on outbound [{}]: Got [{}], expected multiple of [{}]", 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(ClickTrader_Struct))
{
ENCODE_LENGTH_EXACT(ClickTrader_Struct);
SETUP_DIRECT_ENCODE(ClickTrader_Struct, structs::ClickTrader_Struct);
eq->Code = emu->Code;
// Live actually has 200 items now, but 80 is the most our internal struct supports
for (uint32 i = 0; i < 200; i++)
{
strncpy(eq->items[i].SerialNumber, "0000000000000000", sizeof(eq->items[i].SerialNumber));
eq->items[i].Unknown18 = 0;
if (i < 80) {
eq->ItemCost[i] = emu->ItemCost[i];
}
else {
eq->ItemCost[i] = 0;
}
}
FINISH_ENCODE();
}
else if ((*p)->size == sizeof(Trader_ShowItems_Struct))
{
ENCODE_LENGTH_EXACT(Trader_ShowItems_Struct);
SETUP_DIRECT_ENCODE(Trader_ShowItems_Struct, structs::Trader_ShowItems_Struct);
eq->Code = emu->Code;
strncpy(eq->SerialNumber, "0000000000000000", sizeof(eq->SerialNumber));
eq->TraderID = emu->TraderID;
eq->Stacksize = 0;
eq->Price = 0;
FINISH_ENCODE();
}
else if ((*p)->size == sizeof(TraderStatus_Struct))
{
ENCODE_LENGTH_EXACT(TraderStatus_Struct);
SETUP_DIRECT_ENCODE(TraderStatus_Struct, structs::TraderStatus_Struct);
eq->Code = emu->Code;
FINISH_ENCODE();
}
else if ((*p)->size == sizeof(TraderBuy_Struct))
{
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_TributeInfo)
{
ENCODE_LENGTH_ATLEAST(TributeAbility_Struct);
SETUP_VAR_ENCODE(TributeAbility_Struct);
ALLOC_VAR_ENCODE(structs::TributeAbility_Struct, sizeof(structs::TributeAbility_Struct) + strlen(emu->name) + 1);
OUT(tribute_id);
OUT(tier_count);
for (uint32 i = 0; i < MAX_TRIBUTE_TIERS; ++i)
{
eq->tiers[i].level = emu->tiers[i].level;
eq->tiers[i].tribute_item_id = emu->tiers[i].tribute_item_id;
eq->tiers[i].cost = emu->tiers[i].cost;
}
eq->unknown128 = 0;
strcpy(eq->name, emu->name);
FINISH_ENCODE();
}
ENCODE(OP_TributeItem)
{
ENCODE_LENGTH_EXACT(TributeItem_Struct);
SETUP_DIRECT_ENCODE(TributeItem_Struct, structs::TributeItem_Struct);
eq->inventory_slot = ServerToRoFSlot(emu->slot);
OUT(quantity);
OUT(tribute_master_id);
OUT(tribute_points);
FINISH_ENCODE();
}
ENCODE(OP_VetClaimReply)
{
ENCODE_LENGTH_EXACT(VeteranClaim);
SETUP_DIRECT_ENCODE(VeteranClaim, structs::VeteranClaim);
memcpy(eq->name, emu->name, sizeof(emu->name));
OUT(claim_id);
OUT(action);
FINISH_ENCODE();
}
ENCODE(OP_VetRewardsAvaliable)
{
EQApplicationPacket *inapp = *p;
auto __emu_buffer = inapp->pBuffer;
uint32 count = ((*p)->Size() / sizeof(InternalVeteranReward));
// calculate size of names, note the packet DOES NOT have null termed c-strings
std::vector<uint32> name_lengths;
for (auto i = 0u; i < count; ++i) {
InternalVeteranReward *ivr = (InternalVeteranReward *)__emu_buffer;
for (auto i = 0u; i < ivr->claim_count; i++) {
uint32 length = strnlen(ivr->items[i].item_name, 63);
if (length)
name_lengths.push_back(length);
}
__emu_buffer += sizeof(InternalVeteranReward);
}
uint32 packet_size = std::accumulate(name_lengths.begin(), name_lengths.end(), 0) +
sizeof(structs::VeteranReward) + (sizeof(structs::VeteranRewardEntry) * count) +
// size of name_lengths is the same as item count
(sizeof(structs::VeteranRewardItem) * name_lengths.size());
// build packet now!
auto outapp = new EQApplicationPacket(OP_VetRewardsAvaliable, packet_size);
__emu_buffer = inapp->pBuffer;
outapp->WriteUInt32(count);
auto name_itr = name_lengths.begin();
for (auto i = 0u; i < count; i++) {
InternalVeteranReward *ivr = (InternalVeteranReward *)__emu_buffer;
outapp->WriteUInt32(ivr->claim_id);
outapp->WriteUInt32(ivr->number_available);
outapp->WriteUInt32(ivr->claim_count);
outapp->WriteUInt8(1); // enabled
for (auto j = 0u; j < ivr->claim_count; j++) {
assert(name_itr != name_lengths.end()); // the way it's written, it should never happen, so just assert
outapp->WriteUInt32(*name_itr);
outapp->WriteData(ivr->items[j].item_name, *name_itr);
outapp->WriteUInt32(ivr->items[j].item_id);
outapp->WriteUInt32(ivr->items[j].charges);
++name_itr;
}
__emu_buffer += sizeof(InternalVeteranReward);
}
dest->FastQueuePacket(&outapp);
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(hero_forge_model);
OUT(unknown18);
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;
auto outapp = new EQApplicationPacket(OP_WhoAllResponse, in->size + (Count * 4));
char *OutBuffer = (char *)outapp->pBuffer;
// The struct fields were moved around a bit, so adjust values before copying
wars->unknown44[0] = Count;
wars->unknown52 = 0;
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_ZoneChange)
{
ENCODE_LENGTH_EXACT(ZoneChange_Struct);
SETUP_DIRECT_ENCODE(ZoneChange_Struct, structs::ZoneChange_Struct);
memcpy(eq->char_name, emu->char_name, sizeof(emu->char_name));
OUT(zoneID);
OUT(instanceID);
OUT(y);
OUT(x);
OUT(z)
OUT(zone_reason);
OUT(success);
if (eq->success < 0)
eq->success -= 1;
FINISH_ENCODE();
}
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) {
LogNetcode("[STRUCTS] Wrong size on outbound [{}]: Got [{}], expected multiple of [{}]", 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, *BufferStart;
int r;
int k;
for (r = 0; r < entrycount; r++, emu++) {
int PacketSize = 206;
PacketSize += strlen(emu->name);
PacketSize += strlen(emu->lastName);
emu->title[31] = 0;
emu->suffix[31] = 0;
if (strlen(emu->title))
PacketSize += strlen(emu->title) + 1;
if (strlen(emu->suffix))
PacketSize += strlen(emu->suffix) + 1;
bool ShowName = emu->show_name;
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 <= Race::Gnome) || (emu->race == Race::Iksar) ||
(emu->race == Race::VahShir) || (emu->race == Race::Froglok2) || (emu->race == Race::Drakkin))
)
{
PacketSize += 60;
if (emu->size == 0)
{
emu->size = 6;
SpawnSize = 6;
}
}
else
PacketSize += 216;
if (SpawnSize == 0)
{
SpawnSize = 3;
}
auto outapp = new EQApplicationPacket(OP_ZoneEntry, PacketSize);
Buffer = (char *)outapp->pBuffer;
BufferStart = Buffer;
VARSTRUCT_ENCODE_STRING(Buffer, emu->name);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->spawnId);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->level);
VARSTRUCT_ENCODE_TYPE(float, Buffer, SpawnSize - 0.7f); // Eye Height?
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->NPC);
structs::Spawn_Struct_Bitfields *Bitfields = (structs::Spawn_Struct_Bitfields*)Buffer;
Bitfields->gender = emu->gender;
Bitfields->ispet = emu->is_pet;
Bitfields->afk = emu->afk;
Bitfields->anon = emu->anon;
Bitfields->gm = emu->gm;
Bitfields->sneak = 0;
Bitfields->lfg = emu->lfg;
Bitfields->invis = emu->invis;
Bitfields->linkdead = 0;
Bitfields->showhelm = emu->showhelm;
Bitfields->trader = 0;
Bitfields->targetable = 1;
Bitfields->targetable_with_hotkey = emu->targetable_with_hotkey ? 1 : 0;
Bitfields->showname = ShowName;
// Not currently found
// Bitfields->statue = 0;
// Bitfields->buyer = 0;
Buffer += sizeof(structs::Spawn_Struct_Bitfields);
uint8 OtherData = 0;
if (strlen(emu->title))
OtherData = OtherData | 16;
if (strlen(emu->suffix))
OtherData = OtherData | 32;
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, OtherData);
VARSTRUCT_ENCODE_TYPE(float, Buffer, -1); // unknown3
VARSTRUCT_ENCODE_TYPE(float, Buffer, 0); // unknown4
// 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);
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, 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_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);
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);
/* Translate older ranks to new values */
switch (emu->guildrank) {
case 0: {
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 5);
break;
} // GUILD_MEMBER 0
case 1: {
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 3);
break;
} // GUILD_OFFICER 1
case 2: {
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 1);
break;
} // GUILD_LEADER 2
default: {
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->guildrank);
break;
} //
}
}
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_STRING(Buffer, emu->lastName);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // aatitle ??
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->NPC ? 0 : 1); // unknown - Must be 1 for guild name to be shown abover players head.
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->petOwnerId);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // unknown13
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->PlayerState);
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
if ((emu->NPC == 0) || (emu->race <= Race::Gnome) || (emu->race == Race::Iksar) ||
(emu->race == Race::VahShir) || (emu->race == Race::Froglok2) || (emu->race == Race::Drakkin)
)
{
for (k = EQ::textures::textureBegin; k < EQ::textures::materialCount; ++k)
{
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->equipment_tint.Slot[k].Color);
}
}
structs::Texture_Struct *Equipment = (structs::Texture_Struct *)Buffer;
for (k = EQ::textures::textureBegin; k < EQ::textures::materialCount; k++) {
Equipment[k].Material = emu->equipment.Slot[k].Material;
Equipment[k].Unknown1 = emu->equipment.Slot[k].Unknown1;
Equipment[k].EliteMaterial = emu->equipment.Slot[k].EliteModel;
Equipment[k].HeroForgeModel = emu->equipment.Slot[k].HerosForgeModel;
Equipment[k].Material2 = emu->equipment.Slot[k].Unknown2;
}
Buffer += (sizeof(structs::Texture_Struct) * EQ::textures::materialCount);
}
else
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
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.Primary.Material);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
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.Secondary.Material);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
}
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 (strlen(emu->title))
{
VARSTRUCT_ENCODE_STRING(Buffer, emu->title);
}
if (strlen(emu->suffix))
{
VARSTRUCT_ENCODE_STRING(Buffer, emu->suffix);
}
Buffer += 8;
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, emu->IsMercenary);
VARSTRUCT_ENCODE_STRING(Buffer, "0000000000000000");
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff);
// 29 zero bytes follow
Buffer += 29;
if (Buffer != (BufferStart + PacketSize))
{
LogNetcode("[ERROR] SPAWN ENCODE LOGIC PROBLEM: Buffer pointer is now [{}] from end", Buffer - (BufferStart + PacketSize));
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Sending zone spawn for %s packet is %i bytes", emu->name, outapp->size);
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
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 = RoFToServerTypelessSlot(eq->inventory_slot, invtype::typePossessions);
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 = RoFToServerTypelessSlot(eq->inventory_slot, invtype::typePossessions);
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 = RoFToServerTypelessSlot(eq->inventory_slot, invtype::typePossessions);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Animation)
{
DECODE_LENGTH_EXACT(structs::Animation_Struct);
SETUP_DIRECT_DECODE(Animation_Struct, structs::Animation_Struct);
IN(spawnid);
IN(action);
IN(speed);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ApplyPoison)
{
DECODE_LENGTH_EXACT(structs::ApplyPoison_Struct);
SETUP_DIRECT_DECODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
emu->inventorySlot = RoFToServerTypelessSlot(eq->inventory_slot, invtype::typePossessions);
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 = RoFToServerSlot(eq->container_slot);
emu->augment_slot = RoFToServerSlot(eq->augment_slot);
emu->container_index = eq->container_index;
emu->augment_index = eq->augment_index;
emu->dest_inst_id = eq->dest_inst_id;
emu->augment_action = eq->augment_action;
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_BlockedBuffs)
{
DECODE_LENGTH_EXACT(structs::BlockedBuffs_Struct);
SETUP_DIRECT_DECODE(BlockedBuffs_Struct, structs::BlockedBuffs_Struct);
for (uint32 i = 0; i < BLOCKED_BUFF_COUNT; ++i)
emu->SpellID[i] = eq->SpellID[i];
IN(Count);
IN(Pet);
IN(Initialise);
IN(Flags);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Buff)
{
DECODE_LENGTH_EXACT(structs::SpellBuffPacket_Struct);
SETUP_DIRECT_DECODE(SpellBuffPacket_Struct, structs::SpellBuffPacket_Struct);
IN(entityid);
IN(buff.effect_type);
IN(buff.level);
IN(buff.unknown003);
IN(buff.spellid);
IN(buff.duration);
emu->slotid = RoFToServerBuffSlot(eq->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 = RoFToServerBuffSlot(eq->SlotID);
IN(EntityID);
FINISH_DIRECT_DECODE();
}
DECODE(OP_CastSpell)
{
DECODE_LENGTH_EXACT(structs::CastSpell_Struct);
SETUP_DIRECT_DECODE(CastSpell_Struct, structs::CastSpell_Struct);
emu->slot = static_cast<uint32>(RoFToServerCastingSlot(static_cast<spells::CastingSlot>(eq->slot)));
IN(spell_id);
emu->inventoryslot = RoFToServerSlot(eq->inventory_slot);
//IN(inventoryslot);
IN(target_id);
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;
RoFToServerSayLink(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(gender);
IN(race);
IN(class_);
IN(deity);
IN(start_zone);
IN(haircolor);
IN(beard);
IN(beardcolor);
IN(hairstyle);
IN(face);
IN(eyecolor1);
IN(eyecolor2);
IN(drakkin_heritage);
IN(drakkin_tattoo);
IN(drakkin_details);
IN(STR);
IN(STA);
IN(AGI);
IN(DEX);
IN(WIS);
IN(INT);
IN(CHA);
IN(tutorial);
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(vehicle_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 = RoFToServerSlot(eq->inventory_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(hit_heading);
FINISH_DIRECT_DECODE();
}
DECODE(OP_DeleteItem)
{
DECODE_LENGTH_EXACT(structs::DeleteItem_Struct);
SETUP_DIRECT_DECODE(DeleteItem_Struct, structs::DeleteItem_Struct);
emu->from_slot = RoFToServerSlot(eq->from_slot);
emu->to_slot = RoFToServerSlot(eq->to_slot);
IN(number_in_stack);
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzAddPlayer)
{
DECODE_LENGTH_EXACT(structs::ExpeditionCommand_Struct);
SETUP_DIRECT_DECODE(ExpeditionCommand_Struct, structs::ExpeditionCommand_Struct);
strn0cpy(emu->name, eq->name, sizeof(emu->name));
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzChooseZoneReply)
{
DECODE_LENGTH_EXACT(structs::DynamicZoneChooseZoneReply_Struct);
SETUP_DIRECT_DECODE(DynamicZoneChooseZoneReply_Struct, structs::DynamicZoneChooseZoneReply_Struct);
IN(unknown000);
IN(unknown004);
IN(unknown008);
IN(unknown_id1);
IN(dz_zone_id);
IN(dz_instance_id);
IN(dz_type);
IN(unknown_id2);
IN(unknown028);
IN(unknown032);
IN(unknown036);
IN(unknown040);
IN(unknown044);
IN(unknown048);
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzExpeditionInviteResponse)
{
DECODE_LENGTH_EXACT(structs::ExpeditionInviteResponse_Struct);
SETUP_DIRECT_DECODE(ExpeditionInviteResponse_Struct, structs::ExpeditionInviteResponse_Struct);
IN(dz_zone_id);
IN(dz_instance_id);
IN(accepted);
IN(swapping);
strn0cpy(emu->swap_name, eq->swap_name, sizeof(emu->swap_name));
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzMakeLeader)
{
DECODE_LENGTH_EXACT(structs::ExpeditionCommand_Struct);
SETUP_DIRECT_DECODE(ExpeditionCommand_Struct, structs::ExpeditionCommand_Struct);
strn0cpy(emu->name, eq->name, sizeof(emu->name));
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzRemovePlayer)
{
DECODE_LENGTH_EXACT(structs::ExpeditionCommand_Struct);
SETUP_DIRECT_DECODE(ExpeditionCommand_Struct, structs::ExpeditionCommand_Struct);
strn0cpy(emu->name, eq->name, sizeof(emu->name));
FINISH_DIRECT_DECODE();
}
DECODE(OP_DzSwapPlayer)
{
DECODE_LENGTH_EXACT(structs::ExpeditionCommandSwap_Struct);
SETUP_DIRECT_DECODE(ExpeditionCommandSwap_Struct, structs::ExpeditionCommandSwap_Struct);
strn0cpy(emu->add_player_name, eq->add_player_name, sizeof(emu->add_player_name));
strn0cpy(emu->rem_player_name, eq->rem_player_name, sizeof(emu->rem_player_name));
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;
RoFToServerSayLink(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_GMLastName)
{
DECODE_LENGTH_EXACT(structs::GMLastName_Struct);
SETUP_DIRECT_DECODE(GMLastName_Struct, structs::GMLastName_Struct);
memcpy(emu->name, eq->name, sizeof(emu->name));
memcpy(emu->gmname, eq->gmname, sizeof(emu->gmname));
memcpy(emu->lastname, eq->lastname, sizeof(emu->lastname));
for (int i = 0; i<4; i++)
{
emu->unknown[i] = eq->unknown[i];
}
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_GuildBank)
{
// all actions are 1 off due to the removal of one of enums
switch (__packet->ReadUInt32()) {
case 2: {// GuildBankPromote
DECODE_LENGTH_EXACT(structs::GuildBankPromote_Struct);
SETUP_DIRECT_DECODE(GuildBankPromote_Struct, structs::GuildBankPromote_Struct);
emu->Action = 3;
IN(Unknown04);
IN(Slot);
IN(Slot2);
FINISH_DIRECT_DECODE();
return;
}
case 3: { // GuildBankViewItem
DECODE_LENGTH_EXACT(structs::GuildBankViewItem_Struct);
SETUP_DIRECT_DECODE(GuildBankViewItem_Struct, structs::GuildBankViewItem_Struct);
emu->Action = 4;
IN(Unknown04);
IN(SlotID);
IN(Area);
IN(Unknown12);
IN(Unknown16);
FINISH_DIRECT_DECODE();
return;
}
case 4: { // GuildBankDeposit
__packet->WriteUInt32(5);
return;
}
case 5: { // GuildBankPermissions
DECODE_LENGTH_EXACT(structs::GuildBankPermissions_Struct);
SETUP_DIRECT_DECODE(GuildBankPermissions_Struct, structs::GuildBankPermissions_Struct);
emu->Action = 6;
IN(Unknown04);
IN(SlotID);
IN(Unknown10);
IN(ItemID);
IN(Permissions);
strn0cpy(emu->MemberName, eq->MemberName, 64);
FINISH_DIRECT_DECODE();
return;
}
case 6: { // GuildBankWithdraw
DECODE_LENGTH_EXACT(structs::GuildBankWithdrawItem_Struct);
SETUP_DIRECT_DECODE(GuildBankWithdrawItem_Struct, structs::GuildBankWithdrawItem_Struct);
emu->Action = 7;
IN(Unknown04);
IN(SlotID);
IN(Area);
IN(Unknown12);
IN(Quantity);
FINISH_DIRECT_DECODE();
return;
}
case 7: { // GuildBankSplitStacks
DECODE_LENGTH_EXACT(structs::GuildBankWithdrawItem_Struct);
SETUP_DIRECT_DECODE(GuildBankWithdrawItem_Struct, structs::GuildBankWithdrawItem_Struct);
emu->Action = 8;
IN(Unknown04);
IN(SlotID);
IN(Area);
IN(Unknown12);
IN(Quantity);
FINISH_DIRECT_DECODE();
return;
}
case 8: { // GuildBankMergeStacks
DECODE_LENGTH_EXACT(structs::GuildBankWithdrawItem_Struct);
SETUP_DIRECT_DECODE(GuildBankWithdrawItem_Struct, structs::GuildBankWithdrawItem_Struct);
emu->Action = 9;
IN(Unknown04);
IN(SlotID);
IN(Area);
IN(Unknown12);
IN(Quantity);
FINISH_DIRECT_DECODE();
return;
}
default:
LogNetcode("Unhandled OP_GuildBank action");
__packet->SetOpcode(OP_Unknown); /* invalidate the packet */
return;
}
}
DECODE(OP_GuildDemote)
{
DECODE_LENGTH_EXACT(structs::GuildDemoteStruct);
SETUP_DIRECT_DECODE(GuildDemoteStruct, structs::GuildDemoteStruct);
strn0cpy(emu->target, eq->target, sizeof(emu->target));
strn0cpy(emu->name, eq->name, sizeof(emu->name));
// IN(rank);
FINISH_DIRECT_DECODE();
}
DECODE(OP_GuildRemove)
{
DECODE_LENGTH_EXACT(structs::GuildCommand_Struct);
SETUP_DIRECT_DECODE(GuildCommand_Struct, structs::GuildCommand_Struct);
strn0cpy(emu->othername, eq->othername, sizeof(emu->othername));
strn0cpy(emu->myname, eq->myname, sizeof(emu->myname));
IN(guildeqid);
IN(officer);
FINISH_DIRECT_DECODE();
}
DECODE(OP_GuildStatus)
{
DECODE_LENGTH_EXACT(structs::GuildStatus_Struct);
SETUP_DIRECT_DECODE(GuildStatus_Struct, structs::GuildStatus_Struct);
memcpy(emu->Name, eq->Name, sizeof(emu->Name));
FINISH_DIRECT_DECODE();
}
/*DECODE(OP_InspectAnswer)
{
DECODE_LENGTH_EXACT(structs::InspectResponse_Struct);
SETUP_DIRECT_DECODE(InspectResponse_Struct, structs::InspectResponse_Struct);
IN(TargetID);
IN(playerid);
int r;
for (r = 0; r < 21; r++) {
strn0cpy(emu->itemnames[r], eq->itemnames[r], sizeof(emu->itemnames[r]));
}
// Swap last 2 slots for Arrow and Power Source
strn0cpy(emu->itemnames[22], eq->itemnames[21], sizeof(emu->itemnames[22]));
strn0cpy(emu->itemnames[21], eq->unknown_zero, sizeof(emu->itemnames[21]));
strn0cpy(emu->unknown_zero, eq->unknown_zero, sizeof(emu->unknown_zero));
int k;
for (k = 0; k < 21; k++) {
IN(itemicons[k]);
}
// Swap last 2 slots for Arrow and Power Source
emu->itemicons[22] = eq->itemicons[21];
emu->itemicons[21] = eq->unknown_zero2;
emu->unknown_zero2 = eq->unknown_zero2;
strn0cpy(emu->text, eq->text, sizeof(emu->text));
//emu->unknown1772 = 0;
FINISH_DIRECT_DECODE();
}*/
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 = EQ::invaug::SOCKET_BEGIN; r <= EQ::invaug::SOCKET_END; 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 = RoFToServerSlot(eq->inventory_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 < EQ::spells::SPELL_GEM_COUNT; ++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);
Log(Logs::Detail, Logs::Netcode, "RoF::DECODE(OP_LootItem)");
IN(lootee);
IN(looter);
emu->slot_id = RoFToServerCorpseMainSlot(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(Logs::Detail, Logs::Netcode, "RoF::DECODE(OP_MoveItem)");
emu->from_slot = RoFToServerSlot(eq->from_slot);
emu->to_slot = RoFToServerSlot(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);
RaidGeneral_Struct* rgs = (RaidGeneral_Struct*)__packet->pBuffer;
switch (rgs->action)
{
case raidSetMotd:
{
SETUP_VAR_DECODE(RaidMOTD_Struct, structs::RaidMOTD_Struct, motd);
IN(general.action);
IN(general.parameter);
IN_str(general.leader_name);
IN_str(general.player_name);
IN_str(motd);
FINISH_VAR_DECODE();
break;
}
case raidSetNote:
{
SETUP_VAR_DECODE(RaidNote_Struct, structs::RaidNote_Struct, note);
IN(general.action);
IN(general.parameter);
IN_str(general.leader_name);
IN_str(general.player_name);
IN_str(note);
FINISH_VAR_DECODE();
break;
}
default:
{
SETUP_DIRECT_DECODE(RaidGeneral_Struct, structs::RaidGeneral_Struct);
IN(action);
IN(parameter);
IN_str(leader_name);
IN_str(player_name);
FINISH_DIRECT_DECODE();
break;
}
}
}
DECODE(OP_ReadBook)
{
DECODE_LENGTH_EXACT(structs::BookRequest_Struct);
SETUP_DIRECT_DECODE(BookRequest_Struct, structs::BookRequest_Struct);
IN(type);
IN(invslot);
emu->window = (uint8)eq->window;
strn0cpy(emu->txtfile, eq->txtfile, sizeof(emu->txtfile));
FINISH_DIRECT_DECODE();
}
DECODE(OP_RecipeAutoCombine)
{
DECODE_LENGTH_EXACT(structs::RecipeAutoCombine_Struct);
SETUP_DIRECT_DECODE(RecipeAutoCombine_Struct, structs::RecipeAutoCombine_Struct);
IN(object_type);
IN(some_id);
emu->unknown1 = RoFToServerSlot(eq->container_slot);
IN(recipe_id);
IN(reply_code);
FINISH_DIRECT_DECODE();
}
DECODE(OP_RemoveBlockedBuffs) { DECODE_FORWARD(OP_BlockedBuffs); }
DECODE(OP_RezzAnswer)
{
DECODE_LENGTH_EXACT(structs::Resurrect_Struct);
SETUP_DIRECT_DECODE(Resurrect_Struct, structs::Resurrect_Struct);
IN(zone_id);
IN(instance_id);
IN(y);
IN(x);
IN(z);
memcpy(emu->your_name, eq->your_name, sizeof(emu->your_name));
memcpy(emu->rezzer_name, eq->rezzer_name, sizeof(emu->rezzer_name));
IN(spellid);
memcpy(emu->corpse_name, eq->corpse_name, sizeof(emu->corpse_name));
IN(action);
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++) {
// Size 40 in RoF
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 = RoFToServerTypelessSlot(eq->inventory_slot, invtype::typePossessions);
//IN(itemslot);
IN(quantity);
IN(price);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ShopRequest)
{
DECODE_LENGTH_EXACT(structs::Merchant_Click_Struct);
SETUP_DIRECT_DECODE(Merchant_Click_Struct, structs::Merchant_Click_Struct);
IN(npcid);
IN(playerid);
IN(command);
IN(rate);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Trader)
{
uint32 psize = __packet->size;
if (psize == sizeof(structs::ClickTrader_Struct))
{
DECODE_LENGTH_EXACT(structs::ClickTrader_Struct);
SETUP_DIRECT_DECODE(ClickTrader_Struct, structs::ClickTrader_Struct);
MEMSET_IN(ClickTrader_Struct);
emu->Code = eq->Code;
// Live actually has 200 items now, but 80 is the most our internal struct supports
for (uint32 i = 0; i < 80; i++)
{
emu->SerialNumber[i] = 0; // eq->SerialNumber[i];
emu->ItemCost[i] = eq->ItemCost[i];
}
FINISH_DIRECT_DECODE();
}
else if (psize == sizeof(structs::Trader_ShowItems_Struct))
{
DECODE_LENGTH_EXACT(structs::Trader_ShowItems_Struct);
SETUP_DIRECT_DECODE(Trader_ShowItems_Struct, structs::Trader_ShowItems_Struct);
MEMSET_IN(Trader_ShowItems_Struct);
emu->Code = eq->Code;
emu->TraderID = eq->TraderID;
FINISH_DIRECT_DECODE();
}
else if (psize == sizeof(structs::TraderStatus_Struct))
{
DECODE_LENGTH_EXACT(structs::TraderStatus_Struct);
SETUP_DIRECT_DECODE(TraderStatus_Struct, structs::TraderStatus_Struct);
MEMSET_IN(TraderStatus_Struct);
emu->Code = eq->Code;
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 = RoFToServerSlot(eq->container_slot);
emu->guildtribute_slot = RoFToServerSlot(eq->guildtribute_slot); // this should only return INVALID_INDEX until implemented
FINISH_DIRECT_DECODE();
}
DECODE(OP_TributeItem)
{
DECODE_LENGTH_EXACT(structs::TributeItem_Struct);
SETUP_DIRECT_DECODE(TributeItem_Struct, structs::TributeItem_Struct);
emu->slot = RoFToServerSlot(eq->inventory_slot);
IN(quantity);
IN(tribute_master_id);
IN(tribute_points);
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();
}
DECODE(OP_VetClaimRequest)
{
DECODE_LENGTH_EXACT(structs::VeteranClaim);
SETUP_DIRECT_DECODE(VeteranClaim, structs::VeteranClaim);
IN(claim_id);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ZoneChange)
{
DECODE_LENGTH_EXACT(structs::ZoneChange_Struct);
SETUP_DIRECT_DECODE(ZoneChange_Struct, structs::ZoneChange_Struct);
memcpy(emu->char_name, eq->char_name, sizeof(emu->char_name));
IN(zoneID);
IN(instanceID);
IN(y);
IN(x);
IN(z)
IN(zone_reason);
IN(success);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ZoneEntry)
{
DECODE_LENGTH_EXACT(structs::ClientZoneEntry_Struct);
SETUP_DIRECT_DECODE(ClientZoneEntry_Struct, structs::ClientZoneEntry_Struct);
memcpy(emu->char_name, eq->char_name, sizeof(emu->char_name));
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;
}
void SerializeItem(EQ::OutBuffer& ob, const EQ::ItemInstance *inst, int16 slot_id_in, uint8 depth, ItemPacketType packet_type)
{
const EQ::ItemData *item = inst->GetUnscaledItem();
RoF::structs::ItemSerializationHeader hdr;
//sprintf(hdr.unknown000, "06e0002Y1W00");
snprintf(hdr.unknown000, sizeof(hdr.unknown000), "%016d", item->ID);
hdr.stacksize = (inst->IsStackable() ? ((inst->GetCharges() > 1000) ? 0xFFFFFFFF : inst->GetCharges()) : 1);
hdr.unknown004 = 0;
structs::InventorySlot_Struct slot_id;
switch (packet_type) {
case ItemPacketLoot:
slot_id = ServerToRoFCorpseSlot(slot_id_in);
break;
default:
slot_id = ServerToRoFSlot(slot_id_in);
break;
}
hdr.slot_type = (inst->GetMerchantSlot() ? invtype::typeMerchant : slot_id.Type);
hdr.main_slot = (inst->GetMerchantSlot() ? inst->GetMerchantSlot() : slot_id.Slot);
hdr.sub_slot = (inst->GetMerchantSlot() ? 0xffff : slot_id.SubIndex);
hdr.aug_slot = (inst->GetMerchantSlot() ? 0xffff : slot_id.AugIndex);
hdr.price = inst->GetPrice();
hdr.merchant_slot = (inst->GetMerchantSlot() ? inst->GetMerchantCount() : 1);
hdr.scaled_value = (inst->IsScaling() ? (inst->GetExp() / 100) : 0);
hdr.instance_id = (inst->GetMerchantSlot() ? inst->GetMerchantSlot() : inst->GetSerialNumber());
hdr.unknown028 = 0;
hdr.last_cast_time = inst->GetRecastTimestamp();
hdr.charges = (inst->IsStackable() ? (item->MaxCharges ? 1 : 0) : ((inst->GetCharges() > 254) ? 0xFFFFFFFF : inst->GetCharges()));
hdr.inst_nodrop = (inst->IsAttuned() ? 1 : 0);
hdr.unknown044 = 0;
hdr.unknown048 = 0;
hdr.unknown052 = 0;
hdr.isEvolving = item->EvolvingItem;
ob.write((const char*)&hdr, sizeof(RoF::structs::ItemSerializationHeader));
if (item->EvolvingItem > 0) {
RoF::structs::EvolvingItem evotop;
evotop.unknown001 = 0;
evotop.unknown002 = 0;
evotop.unknown003 = 0;
evotop.unknown004 = 0;
evotop.evoLevel = item->EvolvingLevel;
evotop.progress = 0;
evotop.Activated = 1;
evotop.evomaxlevel = item->EvolvingMax;
ob.write((const char*)&evotop, sizeof(RoF::structs::EvolvingItem));
}
/**
* Ornamentation
*/
uint32 ornamentation_icon = (inst->GetOrnamentationIcon() ? inst->GetOrnamentationIcon() : 0);
uint32 hero_model = 0;
if (inst->GetOrnamentationIDFile()) {
hero_model = inst->GetOrnamentHeroModel(EQ::InventoryProfile::CalcMaterialFromSlot(slot_id_in));
char tmp[30];
memset(tmp, 0x0, 30);
sprintf(tmp, "IT%d", inst->GetOrnamentationIDFile());
//Mainhand
ob.write(tmp, strlen(tmp));
ob.write("\0", 1);
//Offhand
ob.write(tmp, strlen(tmp));
ob.write("\0", 1);
}
else {
ob.write("\0", 1); // no main hand Ornamentation
ob.write("\0", 1); // no off hand Ornamentation
}
RoF::structs::ItemSerializationHeaderFinish hdrf;
hdrf.ornamentIcon = ornamentation_icon;
hdrf.unknowna1 = 0xffffffff;
hdrf.ornamentHeroModel = hero_model;
hdrf.unknown063 = 0;
hdrf.unknowna3 = 0;
hdrf.unknowna4 = 0xffffffff;
hdrf.unknowna5 = 0;
hdrf.ItemClass = item->ItemClass;
ob.write((const char*)&hdrf, sizeof(RoF::structs::ItemSerializationHeaderFinish));
if (strlen(item->Name) > 0)
ob.write(item->Name, strlen(item->Name));
ob.write("\0", 1);
if (strlen(item->Lore) > 0)
ob.write(item->Lore, strlen(item->Lore));
ob.write("\0", 1);
if (strlen(item->IDFile) > 0)
ob.write(item->IDFile, strlen(item->IDFile));
ob.write("\0", 1);
ob.write("\0", 1);
RoF::structs::ItemBodyStruct ibs;
memset(&ibs, 0, sizeof(RoF::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 = 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.SkillModMax = item->SkillModMax;
ibs.SkillModType = (int8)(item->SkillModType);
ibs.SkillModExtra = 0;
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 > 100) ? 100 : item->ReqLevel);
ibs.RecLevel = ((item->RecLevel > 100) ? 100 : 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.Prestige = 0;
ibs.ItemType = item->ItemType;
ibs.Material = item->Material;
ibs.MaterialUnknown1 = 0;
ibs.EliteMaterial = item->EliteMaterial;
ibs.HerosForgeModel = item->HerosForgeModel;
ibs.MaterialUnknown2 = 0;
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;
ob.write((const char*)&ibs, sizeof(RoF::structs::ItemBodyStruct));
//charm text
if (strlen(item->CharmFile) > 0)
ob.write((const char*)item->CharmFile, strlen(item->CharmFile));
ob.write("\0", 1);
RoF::structs::ItemSecondaryBodyStruct isbs;
memset(&isbs, 0, sizeof(RoF::structs::ItemSecondaryBodyStruct));
isbs.augtype = item->AugType;
isbs.augdistiller = 65535;
isbs.augrestrict = item->AugRestrict;
for (int index = invaug::SOCKET_BEGIN; index <= invaug::SOCKET_END; ++index) {
isbs.augslots[index].type = item->AugSlotType[index];
isbs.augslots[index].visible = item->AugSlotVisible[index];
isbs.augslots[index].unknown = item->AugSlotUnk2[index];
}
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;
ob.write((const char*)&isbs, sizeof(RoF::structs::ItemSecondaryBodyStruct));
if (strlen(item->Filename) > 0)
ob.write((const char*)item->Filename, strlen(item->Filename));
ob.write("\0", 1);
RoF::structs::ItemTertiaryBodyStruct itbs;
memset(&itbs, 0, sizeof(RoF::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.unknown3 = 0xffffffff;
itbs.unknown4 = 0;
itbs.no_pet = item->NoPet;
itbs.unknown5 = 0;
itbs.potion_belt_enabled = item->PotionBelt;
itbs.potion_belt_slots = item->PotionBeltSlots;
itbs.stacksize = (inst->IsStackable() ? item->StackSize : 0);
itbs.no_transfer = item->NoTransfer;
itbs.expendablearrow = item->ExpendableArrow;
// Done to hack older clients to label expendable fishing poles as such
// July 28th, 2018 patch
if (item->ItemType == EQ::item::ItemTypeFishingPole && item->SubType == 0) {
itbs.expendablearrow = 1;
}
itbs.unknown8 = 0;
itbs.unknown9 = 0;
itbs.unknown10 = 0;
itbs.unknown11 = 0;
itbs.unknown12 = 0;
itbs.unknown13 = 0;
itbs.unknown14 = 0;
ob.write((const char*)&itbs, sizeof(RoF::structs::ItemTertiaryBodyStruct));
// Effect Structures Broken down to allow variable length strings for effect names
int32 effect_unknown = 0;
RoF::structs::ClickEffectStruct ices;
memset(&ices, 0, sizeof(RoF::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;
ob.write((const char*)&ices, sizeof(RoF::structs::ClickEffectStruct));
if (strlen(item->ClickName) > 0)
ob.write((const char*)item->ClickName, strlen(item->ClickName));
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // clickunk7
RoF::structs::ProcEffectStruct ipes;
memset(&ipes, 0, sizeof(RoF::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;
ob.write((const char*)&ipes, sizeof(RoF::structs::ProcEffectStruct));
if (strlen(item->ProcName) > 0)
ob.write((const char*)item->ProcName, strlen(item->ProcName));
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // unknown5
RoF::structs::WornEffectStruct iwes;
memset(&iwes, 0, sizeof(RoF::structs::WornEffectStruct));
iwes.effect = item->Worn.Effect;
iwes.level2 = item->Worn.Level2;
iwes.type = item->Worn.Type;
iwes.level = item->Worn.Level;
ob.write((const char*)&iwes, sizeof(RoF::structs::WornEffectStruct));
if (strlen(item->WornName) > 0)
ob.write((const char*)item->WornName, strlen(item->WornName));
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
RoF::structs::WornEffectStruct ifes;
memset(&ifes, 0, sizeof(RoF::structs::WornEffectStruct));
ifes.effect = item->Focus.Effect;
ifes.level2 = item->Focus.Level2;
ifes.type = item->Focus.Type;
ifes.level = item->Focus.Level;
ob.write((const char*)&ifes, sizeof(RoF::structs::WornEffectStruct));
if (strlen(item->FocusName) > 0)
ob.write((const char*)item->FocusName, strlen(item->FocusName));
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
RoF::structs::WornEffectStruct ises;
memset(&ises, 0, sizeof(RoF::structs::WornEffectStruct));
ises.effect = item->Scroll.Effect;
ises.level2 = item->Scroll.Level2;
ises.type = item->Scroll.Type;
ises.level = item->Scroll.Level;
ob.write((const char*)&ises, sizeof(RoF::structs::WornEffectStruct));
if (strlen(item->ScrollName) > 0)
ob.write((const char*)item->ScrollName, strlen(item->ScrollName));
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// Bard Effect?
RoF::structs::WornEffectStruct ibes;
memset(&ibes, 0, sizeof(RoF::structs::WornEffectStruct));
ibes.effect = 0xffffffff;
ibes.level2 = 0;
ibes.type = 0;
ibes.level = 0;
//ibes.unknown6 = 0xffffffff;
ob.write((const char*)&ibes, sizeof(RoF::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 */
ob.write("\0", 1);
ob.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// End of Effects
RoF::structs::ItemQuaternaryBodyStruct iqbs;
memset(&iqbs, 0, sizeof(RoF::structs::ItemQuaternaryBodyStruct));
iqbs.scriptfileid = item->ScriptFileID;
iqbs.quest_item = item->QuestItemFlag;
iqbs.Power = 0;
iqbs.Purity = item->Purity;
iqbs.unknown16 = 0;
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.SubType = item->SubType;
iqbs.unknown28 = 0;
iqbs.unknown30 = 0;
iqbs.unknown39 = 1;
ob.write((const char*)&iqbs, sizeof(RoF::structs::ItemQuaternaryBodyStruct));
EQ::OutBuffer::pos_type count_pos = ob.tellp();
uint32 subitem_count = 0;
ob.write((const char*)&subitem_count, sizeof(uint32));
// moved outside of loop since it is not modified within that scope
int16 SubSlotNumber = EQ::invbag::SLOT_INVALID;
if (slot_id_in <= EQ::invslot::GENERAL_END && slot_id_in >= EQ::invslot::GENERAL_BEGIN)
SubSlotNumber = EQ::invbag::GENERAL_BAGS_BEGIN + ((slot_id_in - EQ::invslot::GENERAL_BEGIN) * EQ::invbag::SLOT_COUNT);
else if (slot_id_in == EQ::invslot::slotCursor)
SubSlotNumber = EQ::invbag::CURSOR_BAG_BEGIN;
else if (slot_id_in <= EQ::invslot::BANK_END && slot_id_in >= EQ::invslot::BANK_BEGIN)
SubSlotNumber = EQ::invbag::BANK_BAGS_BEGIN + ((slot_id_in - EQ::invslot::BANK_BEGIN) * EQ::invbag::SLOT_COUNT);
else if (slot_id_in <= EQ::invslot::SHARED_BANK_END && slot_id_in >= EQ::invslot::SHARED_BANK_BEGIN)
SubSlotNumber = EQ::invbag::SHARED_BANK_BAGS_BEGIN + ((slot_id_in - EQ::invslot::SHARED_BANK_BEGIN) * EQ::invbag::SLOT_COUNT);
else
SubSlotNumber = slot_id_in; // not sure if this is the best way to handle this..leaving for now
if (SubSlotNumber != EQ::invbag::SLOT_INVALID) {
for (uint32 index = EQ::invbag::SLOT_BEGIN; index <= EQ::invbag::SLOT_END; ++index) {
EQ::ItemInstance* sub = inst->GetItem(index);
if (!sub)
continue;
ob.write((const char*)&index, sizeof(uint32));
SerializeItem(ob, sub, SubSlotNumber, (depth + 1), packet_type);
++subitem_count;
}
if (subitem_count)
ob.overwrite(count_pos, (const char*)&subitem_count, sizeof(uint32));
}
}
static inline structs::InventorySlot_Struct ServerToRoFSlot(uint32 server_slot)
{
structs::InventorySlot_Struct RoFSlot{};
RoFSlot.Type = invtype::TYPE_INVALID;
RoFSlot.Unknown02 = INULL;
RoFSlot.Slot = invslot::SLOT_INVALID;
RoFSlot.SubIndex = invbag::SLOT_INVALID;
RoFSlot.AugIndex = invaug::SOCKET_INVALID;
RoFSlot.Unknown01 = INULL;
uint32 temp_slot = (uint32) EQ::invslot::SLOT_INVALID;
if (server_slot < EQ::invtype::POSSESSIONS_SIZE) {
RoFSlot.Type = invtype::typePossessions;
RoFSlot.Slot = server_slot;
}
else if (server_slot <= EQ::invbag::CURSOR_BAG_END && server_slot >= EQ::invbag::GENERAL_BAGS_BEGIN) {
temp_slot = server_slot - EQ::invbag::GENERAL_BAGS_BEGIN;
RoFSlot.Type = invtype::typePossessions;
RoFSlot.Slot = invslot::GENERAL_BEGIN + (temp_slot / EQ::invbag::SLOT_COUNT);
RoFSlot.SubIndex = temp_slot - ((RoFSlot.Slot - invslot::GENERAL_BEGIN) * EQ::invbag::SLOT_COUNT);
}
else if (server_slot <= EQ::invslot::TRIBUTE_END && server_slot >= EQ::invslot::TRIBUTE_BEGIN) {
RoFSlot.Type = invtype::typeTribute;
RoFSlot.Slot = server_slot - EQ::invslot::TRIBUTE_BEGIN;
}
else if (server_slot <= EQ::invslot::GUILD_TRIBUTE_END && server_slot >= EQ::invslot::GUILD_TRIBUTE_BEGIN) {
RoFSlot.Type = invtype::typeGuildTribute;
RoFSlot.Slot = server_slot - EQ::invslot::GUILD_TRIBUTE_BEGIN;
}
else if (server_slot == EQ::invslot::SLOT_TRADESKILL_EXPERIMENT_COMBINE) {
RoFSlot.Type = invtype::typeWorld;
}
else if (server_slot <= EQ::invslot::BANK_END && server_slot >= EQ::invslot::BANK_BEGIN) {
RoFSlot.Type = invtype::typeBank;
RoFSlot.Slot = server_slot - EQ::invslot::BANK_BEGIN;
}
else if (server_slot <= EQ::invbag::BANK_BAGS_END && server_slot >= EQ::invbag::BANK_BAGS_BEGIN) {
temp_slot = server_slot - EQ::invbag::BANK_BAGS_BEGIN;
RoFSlot.Type = invtype::typeBank;
RoFSlot.Slot = temp_slot / EQ::invbag::SLOT_COUNT;
RoFSlot.SubIndex = temp_slot - (RoFSlot.Slot * EQ::invbag::SLOT_COUNT);
}
else if (server_slot <= EQ::invslot::SHARED_BANK_END && server_slot >= EQ::invslot::SHARED_BANK_BEGIN) {
RoFSlot.Type = invtype::typeSharedBank;
RoFSlot.Slot = server_slot - EQ::invslot::SHARED_BANK_BEGIN;
}
else if (server_slot <= EQ::invbag::SHARED_BANK_BAGS_END && server_slot >= EQ::invbag::SHARED_BANK_BAGS_BEGIN) {
temp_slot = server_slot - EQ::invbag::SHARED_BANK_BAGS_BEGIN;
RoFSlot.Type = invtype::typeSharedBank;
RoFSlot.Slot = temp_slot / EQ::invbag::SLOT_COUNT;
RoFSlot.SubIndex = temp_slot - (RoFSlot.Slot * EQ::invbag::SLOT_COUNT);
}
else if (server_slot <= EQ::invslot::TRADE_END && server_slot >= EQ::invslot::TRADE_BEGIN) {
RoFSlot.Type = invtype::typeTrade;
RoFSlot.Slot = server_slot - EQ::invslot::TRADE_BEGIN;
}
else if (server_slot <= EQ::invbag::TRADE_BAGS_END && server_slot >= EQ::invbag::TRADE_BAGS_BEGIN) {
temp_slot = server_slot - EQ::invbag::TRADE_BAGS_BEGIN;
RoFSlot.Type = invtype::typeTrade;
RoFSlot.Slot = temp_slot / EQ::invbag::SLOT_COUNT;
RoFSlot.SubIndex = temp_slot - (RoFSlot.Slot * EQ::invbag::SLOT_COUNT);
}
else if (server_slot <= EQ::invslot::WORLD_END && server_slot >= EQ::invslot::WORLD_BEGIN) {
RoFSlot.Type = invtype::typeWorld;
RoFSlot.Slot = server_slot - EQ::invslot::WORLD_BEGIN;
}
Log(Logs::Detail,
Logs::Netcode,
"Convert Server Slot %i to RoF Slot [%i, %i, %i, %i] (unk2: %i, unk1: %i)",
server_slot,
RoFSlot.Type,
RoFSlot.Slot,
RoFSlot.SubIndex,
RoFSlot.AugIndex,
RoFSlot.Unknown02,
RoFSlot.Unknown01);
return RoFSlot;
}
static inline structs::InventorySlot_Struct ServerToRoFCorpseSlot(uint32 server_corpse_slot)
{
structs::InventorySlot_Struct RoFSlot{};
RoFSlot.Type = invtype::TYPE_INVALID;
RoFSlot.Unknown02 = INULL;
RoFSlot.Slot = static_cast<int16>(ServerToRoFCorpseMainSlot(server_corpse_slot));
RoFSlot.SubIndex = invbag::SLOT_INVALID;
RoFSlot.AugIndex = invaug::SOCKET_INVALID;
RoFSlot.Unknown01 = INULL;
if (RoFSlot.Slot != invslot::SLOT_INVALID)
RoFSlot.Type = invtype::typeCorpse;
Log(Logs::Detail,
Logs::Netcode,
"Convert Server Corpse Slot %i to RoF Corpse Slot [%i, %i, %i, %i] (unk2: %i, unk1: %i)",
server_corpse_slot,
RoFSlot.Type,
RoFSlot.Slot,
RoFSlot.SubIndex,
RoFSlot.AugIndex,
RoFSlot.Unknown02,
RoFSlot.Unknown01);
return RoFSlot;
}
static inline uint32 ServerToRoFCorpseMainSlot(uint32 server_corpse_slot)
{
uint32 RoFSlot = invslot::SLOT_INVALID;
if (server_corpse_slot <= EQ::invslot::CORPSE_END && server_corpse_slot >= EQ::invslot::CORPSE_BEGIN) {
RoFSlot = server_corpse_slot;
}
LogNetcode("Convert Server Corpse Slot [{}] to RoF Corpse Main Slot [{}]", server_corpse_slot, RoFSlot);
return RoFSlot;
}
static inline structs::TypelessInventorySlot_Struct ServerToRoFTypelessSlot(uint32 server_slot, int16 server_type)
{
structs::TypelessInventorySlot_Struct RoFSlot;
RoFSlot.Slot = invslot::SLOT_INVALID;
RoFSlot.SubIndex = invbag::SLOT_INVALID;
RoFSlot.AugIndex = invaug::SOCKET_INVALID;
RoFSlot.Unknown01 = INULL;
uint32 TempSlot = EQ::invslot::SLOT_INVALID;
if (server_type == EQ::invtype::typePossessions) {
if (server_slot < EQ::invtype::POSSESSIONS_SIZE) {
RoFSlot.Slot = server_slot;
}
else if (server_slot <= EQ::invbag::CURSOR_BAG_END && server_slot >= EQ::invbag::GENERAL_BAGS_BEGIN) {
TempSlot = server_slot - EQ::invbag::GENERAL_BAGS_BEGIN;
RoFSlot.Slot = invslot::GENERAL_BEGIN + (TempSlot / EQ::invbag::SLOT_COUNT);
RoFSlot.SubIndex = TempSlot - ((RoFSlot.Slot - invslot::GENERAL_BEGIN) * EQ::invbag::SLOT_COUNT);
}
}
Log(Logs::Detail, Logs::Netcode, "Convert Server Slot %i to RoF Typeless Slot [%i, %i, %i] (implied type: %i, unk1: %i)",
server_slot, RoFSlot.Slot, RoFSlot.SubIndex, RoFSlot.AugIndex, server_type, RoFSlot.Unknown01);
return RoFSlot;
}
static inline uint32 RoFToServerSlot(structs::InventorySlot_Struct rof_slot) {
if (rof_slot.AugIndex < invaug::SOCKET_INVALID || rof_slot.AugIndex >= invaug::SOCKET_COUNT) {
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Slot [%i, %i, %i, %i] (unk2: %i, unk1: %i) to Server Slot %i",
rof_slot.Type,
rof_slot.Slot,
rof_slot.SubIndex,
rof_slot.AugIndex,
rof_slot.Unknown02,
rof_slot.Unknown01,
EQ::invslot::SLOT_INVALID);
return EQ::invslot::SLOT_INVALID;
}
uint32 server_slot = EQ::invslot::SLOT_INVALID;
uint32 temp_slot = invslot::SLOT_INVALID;
switch (rof_slot.Type) {
case invtype::typePossessions: {
if (rof_slot.Slot >= invslot::POSSESSIONS_BEGIN && rof_slot.Slot <= invslot::POSSESSIONS_END) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
if (rof_slot.Slot < invslot::GENERAL_BEGIN)
return EQ::invslot::SLOT_INVALID;
temp_slot = (rof_slot.Slot - invslot::GENERAL_BEGIN) * invbag::SLOT_COUNT;
server_slot = EQ::invbag::GENERAL_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeBank: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::BANK_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::BANK_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::BANK_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeSharedBank: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::SHARED_BANK_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::SHARED_BANK_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::SHARED_BANK_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeTrade: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::TRADE_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::TRADE_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::TRADE_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeWorld: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::WORLD_SIZE) {
server_slot = EQ::invslot::WORLD_BEGIN + rof_slot.Slot;
}
else if (rof_slot.Slot == invslot::SLOT_INVALID) {
server_slot = EQ::invslot::SLOT_TRADESKILL_EXPERIMENT_COMBINE;
}
break;
}
case invtype::typeLimbo: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::LIMBO_SIZE) {
server_slot = EQ::invslot::slotCursor;
}
break;
}
case invtype::typeTribute: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::TRIBUTE_SIZE) {
server_slot = EQ::invslot::TRIBUTE_BEGIN + rof_slot.Slot;
}
break;
}
case invtype::typeGuildTribute: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::GUILD_TRIBUTE_SIZE) {
server_slot = EQ::invslot::GUILD_TRIBUTE_BEGIN + rof_slot.Slot;
}
break;
}
case invtype::typeCorpse: {
if (rof_slot.Slot >= invslot::CORPSE_BEGIN && rof_slot.Slot <= invslot::CORPSE_END) {
server_slot = rof_slot.Slot;
}
break;
}
default: {
break;
}
}
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Slot [%i, %i, %i, %i] (unk2: %i, unk1: %i) to Server Slot %i",
rof_slot.Type,
rof_slot.Slot,
rof_slot.SubIndex,
rof_slot.AugIndex,
rof_slot.Unknown02,
rof_slot.Unknown01,
server_slot);
return server_slot;
}
static inline uint32 RoFToServerCorpseSlot(structs::InventorySlot_Struct rof_corpse_slot)
{
uint32 server_slot = EQ::invslot::SLOT_INVALID;
if (rof_corpse_slot.Type != invtype::typeCorpse || rof_corpse_slot.SubIndex != invbag::SLOT_INVALID || rof_corpse_slot.AugIndex != invaug::SOCKET_INVALID) {
server_slot = EQ::invslot::SLOT_INVALID;
}
else {
server_slot = RoFToServerCorpseMainSlot(rof_corpse_slot.Slot);
}
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Slot [%i, %i, %i, %i] (unk2: %i, unk1: %i) to Server Slot %i",
rof_corpse_slot.Type,
rof_corpse_slot.Slot,
rof_corpse_slot.SubIndex,
rof_corpse_slot.AugIndex,
rof_corpse_slot.Unknown02,
rof_corpse_slot.Unknown01,
server_slot);
return server_slot;
}
static inline uint32 RoFToServerCorpseMainSlot(uint32 rof_corpse_slot) {
uint32 server_slot = EQ::invslot::SLOT_INVALID;
if (rof_corpse_slot <= invslot::CORPSE_END && rof_corpse_slot >= invslot::CORPSE_BEGIN) {
server_slot = rof_corpse_slot;
}
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Corpse Main Slot %i to Server Corpse Slot %i",
rof_corpse_slot,
server_slot);
return server_slot;
}
static inline uint32 RoFToServerTypelessSlot(structs::TypelessInventorySlot_Struct rof_slot, int16 rof_type) {
if (rof_slot.AugIndex < invaug::SOCKET_INVALID || rof_slot.AugIndex >= invaug::SOCKET_COUNT) {
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Typeless Slot [%i, %i, %i] (implied type: %i, unk1: %i) to Server Slot %i",
rof_slot.Slot,
rof_slot.SubIndex,
rof_slot.AugIndex,
rof_type,
rof_slot.Unknown01,
EQ::invslot::SLOT_INVALID);
return (uint32) EQ::invslot::SLOT_INVALID;
}
uint32 server_slot = EQ::invslot::SLOT_INVALID;
uint32 temp_slot = invslot::SLOT_INVALID;
switch (rof_type) {
case invtype::typePossessions: {
if (rof_slot.Slot >= invslot::POSSESSIONS_BEGIN && rof_slot.Slot <= invslot::POSSESSIONS_END) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
if (rof_slot.Slot < invslot::GENERAL_BEGIN)
return EQ::invslot::SLOT_INVALID;
temp_slot = (rof_slot.Slot - invslot::GENERAL_BEGIN) * invbag::SLOT_COUNT;
server_slot = EQ::invbag::GENERAL_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeBank: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::BANK_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::BANK_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::BANK_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeSharedBank: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::SHARED_BANK_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::SHARED_BANK_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::SHARED_BANK_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeTrade: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::TRADE_SIZE) {
if (rof_slot.SubIndex == invbag::SLOT_INVALID) {
server_slot = EQ::invslot::TRADE_BEGIN + rof_slot.Slot;
} else if (rof_slot.SubIndex >= invbag::SLOT_BEGIN && rof_slot.SubIndex <= invbag::SLOT_END) {
temp_slot = rof_slot.Slot * invbag::SLOT_COUNT;
server_slot = EQ::invbag::TRADE_BAGS_BEGIN + temp_slot + rof_slot.SubIndex;
}
}
break;
}
case invtype::typeWorld: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::WORLD_SIZE) {
server_slot = EQ::invslot::WORLD_BEGIN + rof_slot.Slot;
}
else if (rof_slot.Slot == invslot::SLOT_INVALID) {
server_slot = EQ::invslot::SLOT_TRADESKILL_EXPERIMENT_COMBINE;
}
break;
}
case invtype::typeLimbo: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::LIMBO_SIZE) {
server_slot = EQ::invslot::slotCursor;
}
break;
}
case invtype::typeTribute: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::TRIBUTE_SIZE) {
server_slot = EQ::invslot::TRIBUTE_BEGIN + rof_slot.Slot;
}
break;
}
case invtype::typeGuildTribute: {
if (rof_slot.Slot >= invslot::SLOT_BEGIN && rof_slot.Slot < invtype::GUILD_TRIBUTE_SIZE) {
server_slot = EQ::invslot::GUILD_TRIBUTE_BEGIN + rof_slot.Slot;
}
break;
}
case invtype::typeCorpse: {
if (rof_slot.Slot >= invslot::CORPSE_BEGIN && rof_slot.Slot <= invslot::CORPSE_END) {
server_slot = rof_slot.Slot;
}
break;
}
default: {
break;
}
}
Log(Logs::Detail,
Logs::Netcode,
"Convert RoF Typeless Slot [%i, %i, %i] (implied type: %i, unk1: %i) to Server Slot %i",
rof_slot.Slot,
rof_slot.SubIndex,
rof_slot.AugIndex,
rof_type,
rof_slot.Unknown01,
server_slot);
return server_slot;
}
static inline void ServerToRoFSayLink(std::string& rofSayLink, const std::string& serverSayLink)
{
if ((constants::SAY_LINK_BODY_SIZE == EQ::constants::SAY_LINK_BODY_SIZE) || (serverSayLink.find('\x12') == std::string::npos)) {
rofSayLink = serverSayLink;
return;
}
auto segments = Strings::Split(serverSayLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= EQ::constants::SAY_LINK_BODY_SIZE) {
rofSayLink.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)
// RoF: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX X XXXXX XXXXXXXX (55)
// Diff: ^
rofSayLink.push_back('\x12');
rofSayLink.append(segments[segment_iter].substr(0, 41));
if (segments[segment_iter][41] == '0')
rofSayLink.push_back(segments[segment_iter][42]);
else
rofSayLink.push_back('F');
rofSayLink.append(segments[segment_iter].substr(43));
rofSayLink.push_back('\x12');
}
else {
rofSayLink.append(segments[segment_iter]);
}
}
}
static inline void RoFToServerSayLink(std::string& serverSayLink, const std::string& rofSayLink)
{
if ((EQ::constants::SAY_LINK_BODY_SIZE == constants::SAY_LINK_BODY_SIZE) || (rofSayLink.find('\x12') == std::string::npos)) {
serverSayLink = rofSayLink;
return;
}
auto segments = Strings::Split(rofSayLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= constants::SAY_LINK_BODY_SIZE) {
serverSayLink.append(segments[segment_iter]);
// TODO: log size mismatch error
continue;
}
// Idx: 0 1 6 11 16 21 26 31 36 37 41 42 47 (Source)
// RoF: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX X XXXXX XXXXXXXX (55)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// Diff: ^
serverSayLink.push_back('\x12');
serverSayLink.append(segments[segment_iter].substr(0, 41));
serverSayLink.push_back('0');
serverSayLink.append(segments[segment_iter].substr(41));
serverSayLink.push_back('\x12');
}
else {
serverSayLink.append(segments[segment_iter]);
}
}
}
static inline spells::CastingSlot ServerToRoFCastingSlot(EQ::spells::CastingSlot slot)
{
switch (slot) {
case EQ::spells::CastingSlot::Gem1:
return spells::CastingSlot::Gem1;
case EQ::spells::CastingSlot::Gem2:
return spells::CastingSlot::Gem2;
case EQ::spells::CastingSlot::Gem3:
return spells::CastingSlot::Gem3;
case EQ::spells::CastingSlot::Gem4:
return spells::CastingSlot::Gem4;
case EQ::spells::CastingSlot::Gem5:
return spells::CastingSlot::Gem5;
case EQ::spells::CastingSlot::Gem6:
return spells::CastingSlot::Gem6;
case EQ::spells::CastingSlot::Gem7:
return spells::CastingSlot::Gem7;
case EQ::spells::CastingSlot::Gem8:
return spells::CastingSlot::Gem8;
case EQ::spells::CastingSlot::Gem9:
return spells::CastingSlot::Gem9;
case EQ::spells::CastingSlot::Gem10:
return spells::CastingSlot::Gem10;
case EQ::spells::CastingSlot::Gem11:
return spells::CastingSlot::Gem11;
case EQ::spells::CastingSlot::Gem12:
return spells::CastingSlot::Gem12;
case EQ::spells::CastingSlot::Item:
case EQ::spells::CastingSlot::PotionBelt:
return spells::CastingSlot::Item;
case EQ::spells::CastingSlot::Discipline:
return spells::CastingSlot::Discipline;
case EQ::spells::CastingSlot::AltAbility:
return spells::CastingSlot::AltAbility;
default: // we shouldn't have any issues with other slots ... just return something
return spells::CastingSlot::Discipline;
}
}
static inline EQ::spells::CastingSlot RoFToServerCastingSlot(spells::CastingSlot slot)
{
switch (slot) {
case spells::CastingSlot::Gem1:
return EQ::spells::CastingSlot::Gem1;
case spells::CastingSlot::Gem2:
return EQ::spells::CastingSlot::Gem2;
case spells::CastingSlot::Gem3:
return EQ::spells::CastingSlot::Gem3;
case spells::CastingSlot::Gem4:
return EQ::spells::CastingSlot::Gem4;
case spells::CastingSlot::Gem5:
return EQ::spells::CastingSlot::Gem5;
case spells::CastingSlot::Gem6:
return EQ::spells::CastingSlot::Gem6;
case spells::CastingSlot::Gem7:
return EQ::spells::CastingSlot::Gem7;
case spells::CastingSlot::Gem8:
return EQ::spells::CastingSlot::Gem8;
case spells::CastingSlot::Gem9:
return EQ::spells::CastingSlot::Gem9;
case spells::CastingSlot::Gem10:
return EQ::spells::CastingSlot::Gem10;
case spells::CastingSlot::Gem11:
return EQ::spells::CastingSlot::Gem11;
case spells::CastingSlot::Gem12:
return EQ::spells::CastingSlot::Gem12;
case spells::CastingSlot::Discipline:
return EQ::spells::CastingSlot::Discipline;
case spells::CastingSlot::Item:
return EQ::spells::CastingSlot::Item;
case spells::CastingSlot::AltAbility:
return EQ::spells::CastingSlot::AltAbility;
default: // we shouldn't have any issues with other slots ... just return something
return EQ::spells::CastingSlot::Discipline;
}
}
// these should be optimized out for RoF since they should all boil down to return index :P
// but lets leave it here for future proofing
static inline int ServerToRoFBuffSlot(int index)
{
// we're a disc
if (index >= EQ::spells::LONG_BUFFS + EQ::spells::SHORT_BUFFS)
return index - EQ::spells::LONG_BUFFS - EQ::spells::SHORT_BUFFS +
spells::LONG_BUFFS + spells::SHORT_BUFFS;
// we're a song
if (index >= EQ::spells::LONG_BUFFS)
return index - EQ::spells::LONG_BUFFS + spells::LONG_BUFFS;
// we're a normal buff
return index; // as long as we guard against bad slots server side, we should be fine
}
static inline int RoFToServerBuffSlot(int index)
{
// we're a disc
if (index >= spells::LONG_BUFFS + spells::SHORT_BUFFS)
return index - spells::LONG_BUFFS - spells::SHORT_BUFFS + EQ::spells::LONG_BUFFS +
EQ::spells::SHORT_BUFFS;
// we're a song
if (index >= spells::LONG_BUFFS)
return index - spells::LONG_BUFFS + EQ::spells::LONG_BUFFS;
// we're a normal buff
return index; // as long as we guard against bad slots server side, we should be fine
}
} /*RoF*/
Reference in New Issue View Git Blame Copy Permalink