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eqemu-server/common/patches/rof2.cpp
Michael Cook (mackal) b48a712887 Send bard effect stuff for RoF2 
Server side we still use the old system
Servers will need to update their items, PEQ's DB appears fine

RoF2 wasn't show anything, so we have to send it for them
2015-02-16 15:40:44 -05:00

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172 KiB
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#include "../global_define.h"
#include "../eqemu_logsys.h"
#include "rof2.h"
#include "../opcodemgr.h"
#include "../eq_stream_ident.h"
#include "../crc32.h"
#include "../eq_packet_structs.h"
#include "../misc_functions.h"
#include "../string_util.h"
#include "../item.h"
#include "rof2_structs.h"
#include "../rulesys.h"
#include <iostream>
#include <sstream>
namespace RoF2
{
static const char *name = "RoF2";
static OpcodeManager *opcodes = nullptr;
static Strategy struct_strategy;
char* SerializeItem(const ItemInst *inst, int16 slot_id, uint32 *length, uint8 depth, ItemPacketType packet_type);
// server to client inventory location converters
static inline structs::ItemSlotStruct ServerToRoF2Slot(uint32 serverSlot, ItemPacketType PacketType = ItemPacketInvalid);
static inline structs::MainInvItemSlotStruct ServerToRoF2MainInvSlot(uint32 serverSlot);
static inline uint32 ServerToRoF2CorpseSlot(uint32 serverCorpseSlot);
// client to server inventory location converters
static inline uint32 RoF2ToServerSlot(structs::ItemSlotStruct rof2Slot, ItemPacketType PacketType = ItemPacketInvalid);
static inline uint32 RoF2ToServerMainInvSlot(structs::MainInvItemSlotStruct rof2Slot);
static inline uint32 RoF2ToServerCorpseSlot(uint32 rof2CorpseSlot);
// server to client text link converter
static inline void ServerToRoF2TextLink(std::string& rof2TextLink, const std::string& serverTextLink);
// client to server text link converter
static inline void RoF2ToServerTextLink(std::string& serverTextLink, const std::string& rof2TextLink);
void Register(EQStreamIdentifier &into)
{
//create our opcode manager if we havent already
if (opcodes == nullptr) {
//TODO: get this file name from the config file
std::string opfile = "patch_";
opfile += name;
opfile += ".conf";
//load up the opcode manager.
//TODO: figure out how to support shared memory with multiple patches...
opcodes = new RegularOpcodeManager();
if (!opcodes->LoadOpcodes(opfile.c_str())) {
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Error loading opcodes file %s. Not registering patch %s.", opfile.c_str(), name);
return;
}
}
//ok, now we have what we need to register.
EQStream::Signature signature;
std::string pname;
//register our world signature.
pname = std::string(name) + "_world";
signature.ignore_eq_opcode = 0;
signature.first_length = sizeof(structs::LoginInfo_Struct);
signature.first_eq_opcode = opcodes->EmuToEQ(OP_SendLoginInfo);
into.RegisterPatch(signature, pname.c_str(), &opcodes, &struct_strategy);
//register our zone signature.
pname = std::string(name) + "_zone";
signature.ignore_eq_opcode = opcodes->EmuToEQ(OP_AckPacket);
signature.first_length = sizeof(structs::ClientZoneEntry_Struct);
signature.first_eq_opcode = opcodes->EmuToEQ(OP_ZoneEntry);
into.RegisterPatch(signature, pname.c_str(), &opcodes, &struct_strategy);
Log.Out(Logs::General, Logs::Netcode, "[IDENTIFY] Registered patch %s", name);
}
void Reload()
{
//we have a big problem to solve here when we switch back to shared memory
//opcode managers because we need to change the manager pointer, which means
//we need to go to every stream and replace it's manager.
if (opcodes != nullptr) {
//TODO: get this file name from the config file
std::string opfile = "patch_";
opfile += name;
opfile += ".conf";
if (!opcodes->ReloadOpcodes(opfile.c_str())) {
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Error reloading opcodes file %s for patch %s.", opfile.c_str(), name);
return;
}
Log.Out(Logs::General, Logs::Netcode, "[OPCODES] Reloaded opcodes for patch %s", name);
}
}
Strategy::Strategy() : StructStrategy()
{
//all opcodes default to passthrough.
#include "ss_register.h"
#include "rof2_ops.h"
}
std::string Strategy::Describe() const
{
std::string r;
r += "Patch ";
r += name;
return(r);
}
const ClientVersion Strategy::GetClientVersion() const
{
return ClientVersion::RoF2;
}
#include "ss_define.h"
// ENCODE methods
// RoF2 Specific Encodes Begin
ENCODE(OP_SendMembershipDetails)
{
ENCODE_LENGTH_EXACT(Membership_Details_Struct);
SETUP_DIRECT_ENCODE(Membership_Details_Struct, structs::Membership_Details_Struct);
eq->membership_setting_count = 72;
for (uint32 i = 0; i < emu->membership_setting_count; ++i) // 66
{
OUT(settings[i].setting_index);
OUT(settings[i].setting_id);
OUT(settings[i].setting_value);
}
// Last 6 new settings fields are all 0s on Live as of 12/29/14
eq->race_entry_count = emu->race_entry_count;
for (uint32 i = 0; i < emu->race_entry_count; ++i) // 15
{
OUT(membership_races[i].purchase_id);
OUT(membership_races[i].bitwise_entry);
}
eq->class_entry_count = emu->class_entry_count;
for (uint32 i = 0; i < emu->class_entry_count; ++i) // 15
{
OUT(membership_classes[i].purchase_id);
OUT(membership_classes[i].bitwise_entry);
}
eq->exit_url_length = emu->exit_url_length;
eq->exit_url_length2 = emu->exit_url_length2;
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 = 25; //emu->entrysize;
for (uint32 i = 0; i < emu->entrysize; ++i) // 21
{
OUT(entries[i]);
}
// Last 4 new entries are 0s on Live Silver as of 12/29/14
// Setting them each to 1 for now.
// This removes the "Buy Now" button from aug type 21 slots on items.
for (uint32 i = 21; i < 25; ++i) // 4
{
eq->entries[i] = 1;
}
FINISH_ENCODE();
}
// RoF2 Specific Encodes End
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;
eq->bard_focus_id = emu->bard_focus_id;
eq->knockback_angle = emu->sequence;
eq->unknown22 = 0;
OUT(type);
eq->damage = 0;
eq->unknown31 = 0;
OUT(spell);
eq->level2 = eq->level;
eq->effect_flag = emu->buff_unknown;
eq->unknown39 = 14;
eq->unknown43 = 0;
eq->unknown44 = 17;
eq->unknown45 = 0;
eq->unknown46 = -1;
eq->unknown50 = 0;
eq->unknown54 = 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->slot = ServerToRoF2MainInvSlot(emu->slot);
OUT(charges);
OUT(sell_price);
FINISH_ENCODE();
}
ENCODE(OP_AltCurrency)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *emu_buffer = in->pBuffer;
uint32 opcode = *((uint32*)emu_buffer);
if (opcode == 8) {
AltCurrencyPopulate_Struct *populate = (AltCurrencyPopulate_Struct*)emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_AltCurrency, sizeof(structs::AltCurrencyPopulate_Struct)
+ sizeof(structs::AltCurrencyPopulateEntry_Struct) * populate->count);
structs::AltCurrencyPopulate_Struct *out_populate = (structs::AltCurrencyPopulate_Struct*)outapp->pBuffer;
out_populate->opcode = populate->opcode;
out_populate->count = populate->count;
for (uint32 i = 0; i < populate->count; ++i) {
out_populate->entries[i].currency_number = populate->entries[i].currency_number;
out_populate->entries[i].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 {
EQApplicationPacket *outapp = new EQApplicationPacket(OP_AltCurrency, sizeof(AltCurrencyUpdate_Struct));
memcpy(outapp->pBuffer, emu_buffer, sizeof(AltCurrencyUpdate_Struct));
dest->FastQueuePacket(&outapp, ack_req);
}
//dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
ENCODE(OP_AltCurrencySell)
{
ENCODE_LENGTH_EXACT(AltCurrencySellItem_Struct);
SETUP_DIRECT_ENCODE(AltCurrencySellItem_Struct, structs::AltCurrencySellItem_Struct);
OUT(merchant_entity_id);
eq->slot_id = ServerToRoF2MainInvSlot(emu->slot_id);
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(value);
OUT(action);
FINISH_ENCODE();
}
ENCODE(OP_ApplyPoison)
{
ENCODE_LENGTH_EXACT(ApplyPoison_Struct);
SETUP_DIRECT_ENCODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
eq->inventorySlot = ServerToRoF2MainInvSlot(emu->inventorySlot);
OUT(success);
FINISH_ENCODE();
}
ENCODE(OP_AugmentInfo)
{
ENCODE_LENGTH_EXACT(AugmentInfo_Struct);
SETUP_DIRECT_ENCODE(AugmentInfo_Struct, structs::AugmentInfo_Struct);
OUT(itemid);
OUT(window);
strn0cpy(eq->augment_info, emu->augment_info, 64);
FINISH_ENCODE();
}
ENCODE(OP_Barter)
{
EQApplicationPacket *in = *p;
*p = nullptr;
char *Buffer = (char *)in->pBuffer;
uint32 SubAction = VARSTRUCT_DECODE_TYPE(uint32, Buffer);
if (SubAction != Barter_BuyerAppearance)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
unsigned char *__emu_buffer = in->pBuffer;
in->size = 80;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
char Name[64];
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, SubAction);
uint32 EntityID = VARSTRUCT_DECODE_TYPE(uint32, Buffer);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, EntityID);
uint8 Toggle = VARSTRUCT_DECODE_TYPE(uint8, Buffer);
VARSTRUCT_DECODE_STRING(Name, Buffer);
VARSTRUCT_ENCODE_STRING(OutBuffer, Name);
OutBuffer = (char *)in->pBuffer + 72;
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, Toggle);
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_BazaarSearch)
{
EQApplicationPacket *in = *p;
*p = nullptr;
char *Buffer = (char *)in->pBuffer;
uint8 SubAction = VARSTRUCT_DECODE_TYPE(uint8, Buffer);
if (SubAction != BazaarSearchResults)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
unsigned char *__emu_buffer = in->pBuffer;
BazaarSearchResults_Struct *emu = (BazaarSearchResults_Struct *)__emu_buffer;
int EntryCount = in->size / sizeof(BazaarSearchResults_Struct);
if (EntryCount == 0 || (in->size % sizeof(BazaarSearchResults_Struct)) != 0)
{
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(BazaarSearchResults_Struct));
delete in;
return;
}
in->size = EntryCount * sizeof(structs::BazaarSearchResults_Struct);
in->pBuffer = new unsigned char[in->size];
memset(in->pBuffer, 0, in->size);
structs::BazaarSearchResults_Struct *eq = (structs::BazaarSearchResults_Struct *)in->pBuffer;
for (int i = 0; i < EntryCount; ++i, ++emu, ++eq)
{
OUT(Beginning.Action);
OUT(SellerID);
memcpy(eq->SellerName, emu->SellerName, sizeof(eq->SellerName));
OUT(NumItems);
OUT(ItemID);
OUT(SerialNumber);
memcpy(eq->ItemName, emu->ItemName, sizeof(eq->ItemName));
OUT(Cost);
OUT(ItemStat);
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_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 RoF2. We should really be encoding for the older clients, not RoF2, 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(SpellBuffFade_Struct);
SETUP_DIRECT_ENCODE(SpellBuffFade_Struct, structs::SpellBuffFade_Struct_Live);
OUT(entityid);
eq->unknown004 = 2;
//eq->level = 80;
//eq->effect = 0;
OUT(level);
OUT(effect);
eq->unknown007 = 0;
eq->unknown008 = 1.0f;
OUT(spellid);
OUT(duration);
eq->playerId = 0x7cde;
OUT(slotid);
OUT(num_hits);
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(0x0271); // Unk
outapp->WriteUInt8(0); // Type of OP_BuffCreate packet ?
outapp->WriteUInt16(1); // 1 buff in this packet
outapp->WriteUInt32(emu->slotid);
outapp->WriteUInt32(0xffffffff); // SpellID (0xffff to remove)
outapp->WriteUInt32(0); // Duration
outapp->WriteUInt32(0); // ?
outapp->WriteUInt8(0); // Caster name
outapp->WriteUInt8(0); // Terminating byte
}
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);
__packet->size = sz;
__packet->pBuffer = new unsigned char[sz];
memset(__packet->pBuffer, 0, sz);
__packet->WriteUInt32(emu->entity_id);
__packet->WriteUInt32(0); // PlayerID ?
__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 (uint16 i = 0; i < emu->count; ++i)
{
uint16 buffslot = emu->entries[i].buff_slot;
// Not sure if this is needs amending for RoF2 yet.
if (emu->entries[i].buff_slot >= 25)
{
buffslot += 17;
}
__packet->WriteUInt32(buffslot);
__packet->WriteUInt32(emu->entries[i].spell_id);
__packet->WriteUInt32(emu->entries[i].tics_remaining);
__packet->WriteUInt32(emu->entries[i].num_hits); // Unknown
__packet->WriteString("");
}
__packet->WriteUInt8(!emu->all_buffs); // 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);
if (emu->slot == 10)
eq->slot = 13;
else
OUT(slot);
OUT(spell_id);
eq->inventoryslot = ServerToRoF2Slot(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;
ServerToRoF2TextLink(new_message, old_message);
//in->size = strlen(emu->sender) + 1 + strlen(emu->targetname) + 1 + strlen(emu->message) + 1 + 36;
in->size = strlen(emu->sender) + strlen(emu->targetname) + new_message.length() + 39;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->sender);
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->targetname);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->language);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->chan_num);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->skill_in_language);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint16, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, 0); // Unknown
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_CharInventory)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
if (in->size == 0) {
in->size = 4;
in->pBuffer = new uchar[in->size];
*((uint32 *)in->pBuffer) = 0;
dest->FastQueuePacket(&in, ack_req);
return;
}
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
int ItemCount = in->size / sizeof(InternalSerializedItem_Struct);
if (ItemCount == 0 || (in->size % sizeof(InternalSerializedItem_Struct)) != 0) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d",
opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(InternalSerializedItem_Struct));
delete in;
return;
}
InternalSerializedItem_Struct *eq = (InternalSerializedItem_Struct *)in->pBuffer;
in->pBuffer = new uchar[4];
*(uint32 *)in->pBuffer = ItemCount;
in->size = 4;
for (int r = 0; r < ItemCount; r++, eq++) {
uint32 Length = 0;
char* Serialized = SerializeItem((const ItemInst*)eq->inst, eq->slot_id, &Length, 0, ItemPacketCharInventory);
if (Serialized) {
uchar *OldBuffer = in->pBuffer;
in->pBuffer = new uchar[in->size + Length];
memcpy(in->pBuffer, OldBuffer, in->size);
safe_delete_array(OldBuffer);
memcpy(in->pBuffer + in->size, Serialized, Length);
in->size += Length;
safe_delete_array(Serialized);
}
else {
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Serialization failed on item slot %d during OP_CharInventory. Item skipped.", eq->slot_id);
}
}
delete[] __emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Sending inventory to client");
//Log.Hex(Logs::Netcode, in->pBuffer, in->size);
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_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(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);
eq->sequence = emu->sequence;
FINISH_ENCODE();
}
ENCODE(OP_DeleteCharge) { ENCODE_FORWARD(OP_MoveItem); }
ENCODE(OP_DeleteItem)
{
ENCODE_LENGTH_EXACT(DeleteItem_Struct);
SETUP_DIRECT_ENCODE(DeleteItem_Struct, structs::DeleteItem_Struct);
eq->from_slot = ServerToRoF2Slot(emu->from_slot);
eq->to_slot = ServerToRoF2Slot(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_DzCompass)
{
SETUP_VAR_ENCODE(ExpeditionCompass_Struct);
ALLOC_VAR_ENCODE(structs::ExpeditionCompass_Struct, sizeof(structs::ExpeditionInfo_Struct) + sizeof(structs::ExpeditionCompassEntry_Struct) * emu->count);
OUT(count);
for (uint32 i = 0; i < emu->count; ++i)
{
OUT(entries[i].x);
OUT(entries[i].y);
OUT(entries[i].z);
}
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionEndsWarning)
{
ENCODE_LENGTH_EXACT(ExpeditionExpireWarning);
SETUP_DIRECT_ENCODE(ExpeditionExpireWarning, structs::ExpeditionExpireWarning);
OUT(minutes_remaining);
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionInfo)
{
ENCODE_LENGTH_EXACT(ExpeditionInfo_Struct);
SETUP_DIRECT_ENCODE(ExpeditionInfo_Struct, structs::ExpeditionInfo_Struct);
OUT(max_players);
eq->unknown004 = 785316192;
eq->unknown008 = 435601;
strncpy(eq->expedition_name, emu->expedition_name, sizeof(eq->expedition_name));
strncpy(eq->leader_name, emu->leader_name, sizeof(eq->leader_name));
FINISH_ENCODE();
}
ENCODE(OP_DzExpeditionList)
{
SETUP_VAR_ENCODE(ExpeditionLockoutList_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&emu->count, sizeof(uint32));
for (uint32 i = 0; i < emu->count; ++i)
{
ss.write(emu->entries[i].expedition, strlen(emu->entries[i].expedition));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&emu->entries[i].time_left, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write(emu->entries[i].expedition_event, strlen(emu->entries[i].expedition_event));
ss.write((const char*)&null_term, sizeof(char));
}
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzJoinExpeditionConfirm)
{
ENCODE_LENGTH_EXACT(ExpeditionJoinPrompt_Struct);
SETUP_DIRECT_ENCODE(ExpeditionJoinPrompt_Struct, structs::ExpeditionJoinPrompt_Struct);
strncpy(eq->expedition_name, emu->expedition_name, sizeof(eq->expedition_name));
strncpy(eq->player_name, emu->player_name, sizeof(eq->player_name));
FINISH_ENCODE();
}
ENCODE(OP_DzLeaderStatus)
{
SETUP_VAR_ENCODE(ExpeditionLeaderSet_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write(emu->leader_name, strlen(emu->leader_name));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));//0xffffffff
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&client_id, sizeof(uint32));//1
ss.write((const char*)&client_id, sizeof(uint32));
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_DzMemberList)
{
SETUP_VAR_ENCODE(ExpeditionMemberList_Struct);
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
uint32 client_id = 0;
uint8 null_term = 0;
ss.write((const char*)&client_id, sizeof(uint32));
ss.write((const char*)&emu->count, sizeof(uint32));
for (uint32 i = 0; i < emu->count; ++i)
{
ss.write(emu->entries[i].name, strlen(emu->entries[i].name));
ss.write((const char*)&null_term, sizeof(char));
ss.write((const char*)&emu->entries[i].status, sizeof(char));
}
__packet->size = ss.str().length();
__packet->pBuffer = new unsigned char[__packet->size];
memcpy(__packet->pBuffer, ss.str().c_str(), __packet->size);
FINISH_ENCODE();
}
ENCODE(OP_Emote)
{
EQApplicationPacket *in = *p;
*p = nullptr;
Emote_Struct *emu = (Emote_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
std::string old_message = emu->message;
std::string new_message;
ServerToRoF2TextLink(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; }
ServerToRoF2TextLink(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, 0); // Normally 0, but seen (float)255.0 as well
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, 0); // Unknown
VARSTRUCT_ENCODE_TYPE(float, OutBuffer, 1); // Need to add emu->size to struct
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, membername = %s", gjs->yourname, gjs->membername);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupDisbandYou, sizeof(structs::GroupGeneric_Struct));
structs::GroupGeneric_Struct *ggs = (structs::GroupGeneric_Struct*)outapp->pBuffer;
memcpy(ggs->name1, gjs->yourname, sizeof(ggs->name1));
memcpy(ggs->name2, gjs->membername, sizeof(ggs->name1));
dest->FastQueuePacket(&outapp);
// Make an empty GLAA packet to clear out their useable GLAAs
//
outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
dest->FastQueuePacket(&outapp);
delete in;
return;
}
//if(gjs->action == groupActLeave)
// Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Group Leave, yourname = %s, membername = %s", gjs->yourname, gjs->membername);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupDisbandOther, sizeof(structs::GroupGeneric_Struct));
structs::GroupGeneric_Struct *ggs = (structs::GroupGeneric_Struct*)outapp->pBuffer;
memcpy(ggs->name1, gjs->yourname, sizeof(ggs->name1));
memcpy(ggs->name2, gjs->membername, sizeof(ggs->name2));
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp);
delete in;
return;
}
if (in->size == sizeof(GroupUpdate2_Struct))
{
// Group Update2
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Struct is GroupUpdate2");
unsigned char *__emu_buffer = in->pBuffer;
GroupUpdate2_Struct *gu2 = (GroupUpdate2_Struct*)__emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Yourname is %s", gu2->yourname);
int MemberCount = 1;
int PacketLength = 8 + strlen(gu2->leadersname) + 1 + 22 + strlen(gu2->yourname) + 1;
for (int i = 0; i < 5; ++i)
{
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Membername[%i] is %s", i, gu2->membername[i]);
if (gu2->membername[i][0] != '\0')
{
PacketLength += (22 + strlen(gu2->membername[i]) + 1);
++MemberCount;
}
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Leadername is %s", gu2->leadersname);
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupUpdateB, PacketLength);
char *Buffer = (char *)outapp->pBuffer;
// Header
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Think this should be SpawnID, but it doesn't seem to matter
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, MemberCount);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->leadersname);
// Leader
//
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->yourname);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
//VARSTRUCT_ENCODE_STRING(Buffer, "");
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // This is a string
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x46); // Observed 0x41 and 0x46 here
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, 0);
int MemberNumber = 1;
for (int i = 0; i < 5; ++i)
{
if (gu2->membername[i][0] == '\0')
continue;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, MemberNumber++);
VARSTRUCT_ENCODE_STRING(Buffer, gu2->membername[i]);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
//VARSTRUCT_ENCODE_STRING(Buffer, "");
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // This is a string
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0x41); // Observed 0x41 and 0x46 here
VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // Low byte is Main Assist Flag
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0);
VARSTRUCT_ENCODE_TYPE(uint16, Buffer, 0);
}
//Log.Hex(Logs::Netcode, outapp->pBuffer, outapp->size);
dest->FastQueuePacket(&outapp);
outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
GroupLeadershipAAUpdate_Struct *GLAAus = (GroupLeadershipAAUpdate_Struct*)outapp->pBuffer;
GLAAus->NPCMarkerID = gu2->NPCMarkerID;
memcpy(&GLAAus->LeaderAAs, &gu2->leader_aas, sizeof(GLAAus->LeaderAAs));
dest->FastQueuePacket(&outapp);
delete in;
return;
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Generic GroupUpdate, yourname = %s, membername = %s", gjs->yourname, gjs->membername);
ENCODE_LENGTH_EXACT(GroupJoin_Struct);
SETUP_DIRECT_ENCODE(GroupJoin_Struct, structs::GroupJoin_Struct);
memcpy(eq->membername, emu->membername, sizeof(eq->membername));
EQApplicationPacket *outapp = new EQApplicationPacket(OP_GroupLeadershipAAUpdate, sizeof(GroupLeadershipAAUpdate_Struct));
GroupLeadershipAAUpdate_Struct *GLAAus = (GroupLeadershipAAUpdate_Struct*)outapp->pBuffer;
GLAAus->NPCMarkerID = emu->NPCMarkerID;
memcpy(&GLAAus->LeaderAAs, &emu->leader_aas, sizeof(GLAAus->LeaderAAs));
//Log.Hex(Logs::Netcode, __packet->pBuffer, __packet->size);
FINISH_ENCODE();
dest->FastQueuePacket(&outapp);
}
ENCODE(OP_GuildMemberList)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
Internal_GuildMembers_Struct *emu = (Internal_GuildMembers_Struct *)in->pBuffer;
//make a new EQ buffer.
uint32 pnl = strlen(emu->player_name);
uint32 length = sizeof(structs::GuildMembers_Struct) + pnl +
emu->count*sizeof(structs::GuildMemberEntry_Struct)
+ emu->name_length + emu->note_length;
in->pBuffer = new uint8[length];
in->size = length;
//no memset since we fill every byte.
uint8 *buffer;
buffer = in->pBuffer;
//easier way to setup GuildMembers_Struct
//set prefix name
strcpy((char *)buffer, emu->player_name);
buffer += pnl;
*buffer = '\0';
buffer++;
// 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(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_InterruptCast)
{
ENCODE_LENGTH_EXACT(InterruptCast_Struct);
SETUP_DIRECT_ENCODE(InterruptCast_Struct, structs::InterruptCast_Struct);
OUT(spawnid);
OUT(messageid);
FINISH_ENCODE();
}
ENCODE(OP_ItemLinkResponse) { ENCODE_FORWARD(OP_ItemPacket); }
ENCODE(OP_ItemPacket)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
ItemPacket_Struct *old_item_pkt = (ItemPacket_Struct *)__emu_buffer;
InternalSerializedItem_Struct *int_struct = (InternalSerializedItem_Struct *)(old_item_pkt->SerializedItem);
uint32 length;
char *serialized = SerializeItem((ItemInst *)int_struct->inst, int_struct->slot_id, &length, 0, old_item_pkt->PacketType);
if (!serialized) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Serialization failed on item slot %d.", int_struct->slot_id);
delete in;
return;
}
in->size = length + 4;
in->pBuffer = new unsigned char[in->size];
ItemPacket_Struct *new_item_pkt = (ItemPacket_Struct *)in->pBuffer;
new_item_pkt->PacketType = old_item_pkt->PacketType;
memcpy(new_item_pkt->SerializedItem, serialized, length);
delete[] __emu_buffer;
safe_delete_array(serialized);
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_ItemVerifyReply)
{
ENCODE_LENGTH_EXACT(ItemVerifyReply_Struct);
SETUP_DIRECT_ENCODE(ItemVerifyReply_Struct, structs::ItemVerifyReply_Struct);
eq->slot = ServerToRoF2Slot(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);
OUT(lootee);
OUT(looter);
eq->slot_id = ServerToRoF2CorpseSlot(emu->slot_id);
OUT(auto_loot);
FINISH_ENCODE();
}
ENCODE(OP_ManaChange)
{
ENCODE_LENGTH_EXACT(ManaChange_Struct);
SETUP_DIRECT_ENCODE(ManaChange_Struct, structs::ManaChange_Struct);
OUT(new_mana);
OUT(stamina);
OUT(spell_id);
eq->unknown16 = -1; // Self Interrupt/Success = -1, Fizzle = 1, Other Interrupt = 2?
FINISH_ENCODE();
}
ENCODE(OP_MercenaryDataResponse)
{
//consume the packet
EQApplicationPacket *in = *p;
*p = nullptr;
//store away the emu struct
unsigned char *__emu_buffer = in->pBuffer;
MercenaryMerchantList_Struct *emu = (MercenaryMerchantList_Struct *)__emu_buffer;
char *Buffer = (char *)in->pBuffer;
int PacketSize = sizeof(structs::MercenaryMerchantList_Struct) - 4 + emu->MercTypeCount * 4;
PacketSize += (sizeof(structs::MercenaryListEntry_Struct) - sizeof(structs::MercenaryStance_Struct)) * emu->MercCount;
uint32 r;
uint32 k;
for (r = 0; r < emu->MercCount; r++)
{
PacketSize += sizeof(structs::MercenaryStance_Struct) * emu->Mercs[r].StanceCount;
}
EQApplicationPacket *outapp = new EQApplicationPacket(OP_MercenaryDataResponse, PacketSize);
Buffer = (char *)outapp->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercTypeCount);
for (r = 0; r < emu->MercTypeCount; r++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercGrades[r]);
}
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->MercCount);
for (r = 0; r < emu->MercCount; r++)
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercID);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].MercSubType);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].PurchaseCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].UpkeepCost);
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->Mercs[r].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);
eq->from_slot = ServerToRoF2Slot(emu->from_slot);
eq->to_slot = ServerToRoF2Slot(emu->to_slot);
OUT(number_in_stack);
FINISH_ENCODE();
}
ENCODE(OP_NewSpawn) { ENCODE_FORWARD(OP_ZoneSpawns); }
ENCODE(OP_NewZone)
{
SETUP_DIRECT_ENCODE(NewZone_Struct, structs::NewZone_Struct);
OUT_str(char_name);
OUT_str(zone_short_name);
OUT_str(zone_long_name);
OUT(ztype);
int r;
for (r = 0; r < 4; r++) {
OUT(fog_red[r]);
OUT(fog_green[r]);
OUT(fog_blue[r]);
OUT(fog_minclip[r]);
OUT(fog_maxclip[r]);
}
OUT(gravity);
OUT(time_type);
for (r = 0; r < 4; r++) {
OUT(rain_chance[r]);
}
for (r = 0; r < 4; r++) {
OUT(rain_duration[r]);
}
for (r = 0; r < 4; r++) {
OUT(snow_chance[r]);
}
for (r = 0; r < 4; r++) {
OUT(snow_duration[r]);
}
for (r = 0; r < 32; r++) {
eq->unknown537[r] = 0xFF; //observed
}
OUT(sky);
OUT(zone_exp_multiplier);
OUT(safe_y);
OUT(safe_x);
OUT(safe_z);
OUT(max_z);
OUT(underworld);
OUT(minclip);
OUT(maxclip);
OUT_str(zone_short_name2);
OUT(zone_id);
OUT(zone_instance);
OUT(SuspendBuffs);
eq->FogDensity = emu->fog_density;
/*fill in some unknowns with observed values, hopefully it will help */
eq->unknown569 = 0;
eq->unknown571 = 0;
eq->unknown572 = 4;
eq->unknown576 = 2;
eq->unknown580 = 0;
eq->unknown800 = -1;
eq->unknown844 = 600;
eq->unknown848 = 2008; // Guild Lobby observed value
eq->unknown880 = 50;
eq->unknown884 = 10;
eq->unknown888 = 1;
eq->unknown889 = 0;
eq->unknown890 = 1;
eq->unknown891 = 0;
eq->unknown892 = 0;
eq->unknown893 = 0;
eq->fall_damage = 0; // 0 = Fall Damage on, 1 = Fall Damage off
eq->unknown895 = 0;
eq->unknown896 = 180;
eq->unknown900 = 180;
eq->unknown904 = 180;
eq->unknown908 = 2;
eq->unknown912 = 2;
eq->unknown932 = -1; // Set from PoK Example
eq->unknown936 = -1; // Set from PoK Example
eq->unknown944 = 1.0; // Set from PoK Example
eq->unknown948 = 0; // New on Live as of Dec 15 2014
eq->unknown952 = 100; // New on Live as of Dec 15 2014
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(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_OpenNewTasksWindow)
{
AvailableTaskHeader_Struct* __emu_AvailableTaskHeader;
AvailableTaskData1_Struct* __emu_AvailableTaskData1;
AvailableTaskData2_Struct* __emu_AvailableTaskData2;
AvailableTaskTrailer_Struct* __emu_AvailableTaskTrailer;
structs::AvailableTaskHeader_Struct* __eq_AvailableTaskHeader;
structs::AvailableTaskData1_Struct* __eq_AvailableTaskData1;
structs::AvailableTaskData2_Struct* __eq_AvailableTaskData2;
structs::AvailableTaskTrailer_Struct* __eq_AvailableTaskTrailer;
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
__emu_AvailableTaskHeader = (AvailableTaskHeader_Struct*)__emu_buffer;
// For each task, SoF has an extra uint32 and what appears to be space for a null terminated string.
//
in->size = in->size + (__emu_AvailableTaskHeader->TaskCount * 5);
in->pBuffer = new unsigned char[in->size];
unsigned char *__eq_buffer = in->pBuffer;
__eq_AvailableTaskHeader = (structs::AvailableTaskHeader_Struct*)__eq_buffer;
char *__eq_ptr, *__emu_Ptr;
// Copy Header
//
//
__eq_AvailableTaskHeader->TaskCount = __emu_AvailableTaskHeader->TaskCount;
__eq_AvailableTaskHeader->unknown1 = __emu_AvailableTaskHeader->unknown1;
__eq_AvailableTaskHeader->TaskGiver = __emu_AvailableTaskHeader->TaskGiver;
__emu_Ptr = (char *) __emu_AvailableTaskHeader + sizeof(AvailableTaskHeader_Struct);
__eq_ptr = (char *) __eq_AvailableTaskHeader + sizeof(structs::AvailableTaskHeader_Struct);
for(uint32 i=0; i<__emu_AvailableTaskHeader->TaskCount; i++) {
__emu_AvailableTaskData1 = (AvailableTaskData1_Struct*)__emu_Ptr;
__eq_AvailableTaskData1 = (structs::AvailableTaskData1_Struct*)__eq_ptr;
__eq_AvailableTaskData1->TaskID = __emu_AvailableTaskData1->TaskID;
// This next unknown seems to affect the colour of the task title. 0x3f80000 is what I have seen
// in RoF2 packets. Changing it to 0x3f000000 makes the title red.
__eq_AvailableTaskData1->unknown1 = 0x3f800000;
__eq_AvailableTaskData1->TimeLimit = __emu_AvailableTaskData1->TimeLimit;
__eq_AvailableTaskData1->unknown2 = __emu_AvailableTaskData1->unknown2;
__emu_Ptr += sizeof(AvailableTaskData1_Struct);
__eq_ptr += sizeof(structs::AvailableTaskData1_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Title
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
strcpy(__eq_ptr, __emu_Ptr); // Description
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
__eq_ptr[0] = 0;
__eq_ptr += strlen(__eq_ptr) + 1;
__emu_AvailableTaskData2 = (AvailableTaskData2_Struct*)__emu_Ptr;
__eq_AvailableTaskData2 = (structs::AvailableTaskData2_Struct*)__eq_ptr;
__eq_AvailableTaskData2->unknown1 = __emu_AvailableTaskData2->unknown1;
__eq_AvailableTaskData2->unknown2 = __emu_AvailableTaskData2->unknown2;
__eq_AvailableTaskData2->unknown3 = __emu_AvailableTaskData2->unknown3;
__eq_AvailableTaskData2->unknown4 = __emu_AvailableTaskData2->unknown4;
__emu_Ptr += sizeof(AvailableTaskData2_Struct);
__eq_ptr += sizeof(structs::AvailableTaskData2_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
__emu_AvailableTaskTrailer = (AvailableTaskTrailer_Struct*)__emu_Ptr;
__eq_AvailableTaskTrailer = (structs::AvailableTaskTrailer_Struct*)__eq_ptr;
__eq_AvailableTaskTrailer->ItemCount = __emu_AvailableTaskTrailer->ItemCount;
__eq_AvailableTaskTrailer->unknown1 = __emu_AvailableTaskTrailer->unknown1;
__eq_AvailableTaskTrailer->unknown2 = __emu_AvailableTaskTrailer->unknown2;
__eq_AvailableTaskTrailer->StartZone = __emu_AvailableTaskTrailer->StartZone;
__emu_Ptr += sizeof(AvailableTaskTrailer_Struct);
__eq_ptr += sizeof(structs::AvailableTaskTrailer_Struct);
strcpy(__eq_ptr, __emu_Ptr); // Unknown string
__emu_Ptr += strlen(__emu_Ptr) + 1;
__eq_ptr += strlen(__eq_ptr) + 1;
}
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
*/
ENCODE(OP_PetBuffWindow)
{
// The format of the RoF2 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 < BUFF_COUNT; ++i)
{
if (emu->spellid[i])
{
__packet->WriteUInt32(i);
__packet->WriteUInt32(emu->spellid[i]);
__packet->WriteUInt32(emu->ticsremaining[i]);
__packet->WriteUInt32(0); // Unknown
__packet->WriteString("");
}
}
__packet->WriteUInt8(0); // Unknown
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
EQApplicationPacket *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].zoneId);
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 = 0; r < 9; r++)
{
outapp->WriteUInt32(emu->item_material[r]);
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(9); // Equipment2 count
for (int r = 0; r < 9; r++)
{
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
}
outapp->WriteUInt32(9); // Tint Count
for (int r = 0; r < 7; r++)
{
outapp->WriteUInt32(emu->item_tint[r].color);
}
// Write zeroes for extra two tint values
outapp->WriteUInt32(0);
outapp->WriteUInt32(0);
outapp->WriteUInt32(9); // Tint2 Count
for (int r = 0; r < 7; r++)
{
outapp->WriteUInt32(emu->item_tint[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 0
outapp->WriteUInt8(0xff); // Unknown 0xff
outapp->WriteUInt8(1); // Unknown 1
outapp->WriteUInt8(0xff); // Unknown 0xff
outapp->WriteUInt8(1); // Unknown 1
outapp->WriteFloat(5.0f); // Height
outapp->WriteFloat(3.0f); // Unknown 3.0
outapp->WriteFloat(2.5f); // Unknown 2.5
outapp->WriteFloat(5.5f); // Unknown 5.5
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(0);
}
// 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(25); // Unknown count
for (uint32 r = 0; r < 25; r++)
{
outapp->WriteUInt32(0); // Unknown
}
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(structs::MAX_PP_SPELLBOOK); // Spellbook slots
for (uint32 r = 0; r < MAX_PP_SPELLBOOK; r++)
{
outapp->WriteUInt32(emu->spell_book[r]);
}
// zeroes for the rest of the spellbook slots
for (uint32 r = 0; r < structs::MAX_PP_SPELLBOOK - MAX_PP_SPELLBOOK; r++)
{
outapp->WriteUInt32(0xFFFFFFFFU);
}
outapp->WriteUInt32(structs::MAX_PP_MEMSPELL); // Memorised spell slots
for (uint32 r = 0; r < MAX_PP_MEMSPELL; r++)
{
outapp->WriteUInt32(emu->mem_spells[r]);
}
// zeroes for the rest of the slots
for (uint32 r = 0; r < structs::MAX_PP_MEMSPELL - MAX_PP_MEMSPELL; r++)
{
outapp->WriteUInt32(0xFFFFFFFFU);
}
outapp->WriteUInt32(13); // Unknown count
for (uint32 r = 0; r < 13; r++)
{
outapp->WriteUInt32(0); // Unknown
}
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(structs::BUFF_COUNT);
for (uint32 r = 0; r < BUFF_COUNT; r++)
{
float instrument_mod = 0.0f;
uint8 slotid = emu->buffs[r].slotid;
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;
slotid = 2;
player_id = 0x000717fd;
}
else
{
slotid = 0;
}
outapp->WriteUInt8(0); // Had this as slot, but always appears to be 0 on live.
outapp->WriteFloat(instrument_mod);
outapp->WriteUInt32(player_id);
outapp->WriteUInt8(0);
outapp->WriteUInt32(emu->buffs[r].counters);
//outapp->WriteUInt8(emu->buffs[r].bard_modifier);
outapp->WriteUInt32(emu->buffs[r].duration);
outapp->WriteUInt8(emu->buffs[r].level);
outapp->WriteUInt32(emu->buffs[r].spellid);
outapp->WriteUInt32(slotid); // Only ever seen 2
outapp->WriteUInt32(0);
outapp->WriteUInt8(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 Window Tab Count
outapp->WriteUInt32(0); // 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(structs::MAX_PLAYER_BANDOLIER);
for (uint32 r = 0; r < EmuConstants::BANDOLIERS_COUNT; r++)
{
outapp->WriteString(emu->bandoliers[r].name);
for (uint32 j = 0; j < EmuConstants::BANDOLIER_SIZE; ++j)
{
outapp->WriteString(emu->bandoliers[r].items[j].item_name);
outapp->WriteUInt32(emu->bandoliers[r].items[j].item_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);
}
}
}
for (uint32 r = 0; r < structs::MAX_PLAYER_BANDOLIER - EmuConstants::BANDOLIERS_COUNT; r++)
{
outapp->WriteString("");
for (uint32 j = 0; j < EmuConstants::BANDOLIER_SIZE; ++j)
{
outapp->WriteString("");
outapp->WriteUInt32(0);
outapp->WriteSInt32(-1);
}
}
outapp->WriteUInt32(structs::MAX_POTIONS_IN_BELT);
for (uint32 r = 0; r < EmuConstants::POTION_BELT_SIZE; r++)
{
outapp->WriteString(emu->potionbelt.items[r].item_name);
outapp->WriteUInt32(emu->potionbelt.items[r].item_id);
if (emu->potionbelt.items[r].icon)
{
outapp->WriteSInt32(emu->potionbelt.items[r].icon);
}
else
{
outapp->WriteSInt32(-1);
}
}
for (uint32 r = 0; r < structs::MAX_POTIONS_IN_BELT - EmuConstants::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 ?
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(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(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
outapp->WriteUInt8(0); // Unknown
outapp->WriteUInt32(0); // Unknown
outapp->WriteUInt64(emu->exp); // int32 in client
outapp->WriteUInt8(5); // Unknown - Seen 5 on Live - Eye Height?
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(0); // Unknown
outapp->WriteSInt32(-1); // Unknown
outapp->WriteSInt32(-1); // 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(EmuConstants::TRIBUTE_SIZE);
for (uint32 r = 0; r < EmuConstants::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
for (uint32 r = 0; r < 125; 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->WriteUInt32(0); // Unknown
outapp->WriteUInt32(0); // Krono - itemid 88888 Hard coded in client?
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
for (uint32 r = 0; r < 1024; 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
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Player Profile Packet is %i bytes", outapp->GetWritePosition());
unsigned char *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;
unsigned char * __emu_buffer = inapp->pBuffer;
RaidCreate_Struct *raid_create = (RaidCreate_Struct*)__emu_buffer;
EQApplicationPacket *outapp_create = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct *general = (structs::RaidGeneral_Struct*)outapp_create->pBuffer;
general->action = 8;
general->parameter = 1;
strn0cpy(general->leader_name, raid_create->leader_name, 64);
strn0cpy(general->player_name, raid_create->leader_name, 64);
dest->FastQueuePacket(&outapp_create);
safe_delete(inapp);
}
ENCODE(OP_RaidUpdate)
{
EQApplicationPacket *inapp = *p;
*p = nullptr;
unsigned char * __emu_buffer = inapp->pBuffer;
RaidGeneral_Struct *raid_gen = (RaidGeneral_Struct*)__emu_buffer;
if (raid_gen->action == 0) // raid add has longer length than other raid updates
{
RaidAddMember_Struct* in_add_member = (RaidAddMember_Struct*)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidAddMember_Struct));
structs::RaidAddMember_Struct *add_member = (structs::RaidAddMember_Struct*)outapp->pBuffer;
add_member->raidGen.action = in_add_member->raidGen.action;
add_member->raidGen.parameter = in_add_member->raidGen.parameter;
strn0cpy(add_member->raidGen.leader_name, in_add_member->raidGen.leader_name, 64);
strn0cpy(add_member->raidGen.player_name, in_add_member->raidGen.player_name, 64);
add_member->_class = in_add_member->_class;
add_member->level = in_add_member->level;
add_member->isGroupLeader = in_add_member->isGroupLeader;
add_member->flags[0] = in_add_member->flags[0];
add_member->flags[1] = in_add_member->flags[1];
add_member->flags[2] = in_add_member->flags[2];
add_member->flags[3] = in_add_member->flags[3];
add_member->flags[4] = in_add_member->flags[4];
dest->FastQueuePacket(&outapp);
}
else if (raid_gen->action == 35)
{
RaidMOTD_Struct *inmotd = (RaidMOTD_Struct *)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidMOTD_Struct) + strlen(inmotd->motd) + 1);
structs::RaidMOTD_Struct *outmotd = (structs::RaidMOTD_Struct *)outapp->pBuffer;
outmotd->general.action = inmotd->general.action;
strn0cpy(outmotd->general.player_name, inmotd->general.player_name, 64);
strn0cpy(outmotd->motd, inmotd->motd, strlen(inmotd->motd) + 1);
dest->FastQueuePacket(&outapp);
}
else if (raid_gen->action == 14 || raid_gen->action == 30)
{
RaidLeadershipUpdate_Struct *inlaa = (RaidLeadershipUpdate_Struct *)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidLeadershipUpdate_Struct));
structs::RaidLeadershipUpdate_Struct *outlaa = (structs::RaidLeadershipUpdate_Struct *)outapp->pBuffer;
outlaa->action = inlaa->action;
strn0cpy(outlaa->player_name, inlaa->player_name, 64);
strn0cpy(outlaa->leader_name, inlaa->leader_name, 64);
memcpy(&outlaa->raid, &inlaa->raid, sizeof(RaidLeadershipAA_Struct));
dest->FastQueuePacket(&outapp);
}
else
{
RaidGeneral_Struct* in_raid_general = (RaidGeneral_Struct*)__emu_buffer;
EQApplicationPacket *outapp = new EQApplicationPacket(OP_RaidUpdate, sizeof(structs::RaidGeneral_Struct));
structs::RaidGeneral_Struct *raid_general = (structs::RaidGeneral_Struct*)outapp->pBuffer;
strn0cpy(raid_general->leader_name, in_raid_general->leader_name, 64);
strn0cpy(raid_general->player_name, in_raid_general->player_name, 64);
raid_general->action = in_raid_general->action;
raid_general->parameter = in_raid_general->parameter;
dest->FastQueuePacket(&outapp);
}
safe_delete(inapp);
}
ENCODE(OP_ReadBook)
{
ENCODE_LENGTH_ATLEAST(BookText_Struct);
SETUP_DIRECT_ENCODE(BookText_Struct, structs::BookRequest_Struct);
if (emu->window == 0xFF)
eq->window = 0xFFFFFFFF;
else
eq->window = emu->window;
OUT(type);
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 = ServerToRoF2Slot(emu->unknown1);
structs::ItemSlotStruct RoF2Slot;
RoF2Slot.SlotType = 8; // Observed
RoF2Slot.Unknown02 = 0;
RoF2Slot.MainSlot = 0xffff;
RoF2Slot.SubSlot = 0xffff;
RoF2Slot.AugSlot = 0xffff;
RoF2Slot.Unknown01 = 0;
eq->unknown_slot = RoF2Slot;
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 + 1;
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_skill = emu->aa_list[i].aa_skill;
eq->aa_list[i].aa_value = emu->aa_list[i].aa_value;
eq->aa_list[i].unknown08 = emu->aa_list[i].unknown08;
}
FINISH_ENCODE();
}
ENCODE(OP_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)
{
ENCODE_LENGTH_ATLEAST(SendAA_Struct);
SETUP_VAR_ENCODE(SendAA_Struct);
ALLOC_VAR_ENCODE(structs::SendAA_Struct, sizeof(structs::SendAA_Struct) + emu->total_abilities*sizeof(structs::AA_Ability));
// Check clientver field to verify this AA should be sent for SoF
// clientver 1 is for all clients and 5 is for Live
if (emu->clientver <= 5)
{
OUT(id);
eq->unknown004 = 1;
//eq->hotkey_sid = (emu->hotkey_sid==4294967295UL)?0:(emu->id - emu->current_level + 1);
//eq->hotkey_sid2 = (emu->hotkey_sid2==4294967295UL)?0:(emu->id - emu->current_level + 1);
//eq->title_sid = emu->id - emu->current_level + 1;
//eq->desc_sid = emu->id - emu->current_level + 1;
eq->hotkey_sid = (emu->hotkey_sid == 4294967295UL) ? -1 : (emu->sof_next_skill);
eq->hotkey_sid2 = (emu->hotkey_sid2 == 4294967295UL) ? -1 : (emu->sof_next_skill);
eq->title_sid = emu->sof_next_skill;
eq->desc_sid = emu->sof_next_skill;
OUT(class_type);
OUT(cost);
OUT(seq);
OUT(current_level);
eq->unknown037 = 1; // Introduced during HoT
OUT(prereq_skill);
eq->unknown045 = 1; // New Mar 21 2012 - Seen 1
OUT(prereq_minpoints);
eq->type = emu->sof_type;
OUT(spellid);
eq->unknown057 = 1; // Introduced during HoT
OUT(spell_type);
OUT(spell_refresh);
OUT(classes);
OUT(berserker);
//eq->max_level = emu->sof_max_level;
OUT(max_level);
OUT(last_id);
OUT(next_id);
OUT(cost2);
eq->aa_expansion = emu->aa_expansion;
eq->special_category = emu->special_category;
OUT(total_abilities);
unsigned int r;
for (r = 0; r < emu->total_abilities; r++) {
OUT(abilities[r].skill_id);
OUT(abilities[r].base1);
OUT(abilities[r].base2);
OUT(abilities[r].slot);
}
}
FINISH_ENCODE();
}
ENCODE(OP_SendCharInfo)
{
ENCODE_LENGTH_EXACT(CharacterSelect_Struct);
SETUP_VAR_ENCODE(CharacterSelect_Struct);
//EQApplicationPacket *packet = *p;
//const CharacterSelect_Struct *emu = (CharacterSelect_Struct *) packet->pBuffer;
int char_count;
int namelen = 0;
for (char_count = 0; char_count < 10; char_count++) {
if (emu->name[char_count][0] == '\0')
break;
if (strcmp(emu->name[char_count], "<none>") == 0)
break;
namelen += strlen(emu->name[char_count]);
}
int total_length = sizeof(structs::CharacterSelect_Struct)
+ char_count * sizeof(structs::CharacterSelectEntry_Struct)
+ namelen;
ALLOC_VAR_ENCODE(structs::CharacterSelect_Struct, total_length);
//unsigned char *eq_buffer = new unsigned char[total_length];
//structs::CharacterSelect_Struct *eq_head = (structs::CharacterSelect_Struct *) eq_buffer;
eq->char_count = char_count;
//eq->total_chars = 10;
unsigned char *bufptr = (unsigned char *)eq->entries;
int r;
for (r = 0; r < char_count; r++) {
{ //pre-name section...
structs::CharacterSelectEntry_Struct *eq2 = (structs::CharacterSelectEntry_Struct *) bufptr;
memcpy(eq2->name, emu->name[r], strlen(emu->name[r]) + 1);
}
//adjust for name.
bufptr += strlen(emu->name[r]);
{ //post-name section...
structs::CharacterSelectEntry_Struct *eq2 = (structs::CharacterSelectEntry_Struct *) bufptr;
eq2->class_ = emu->class_[r];
eq2->race = emu->race[r];
eq2->level = emu->level[r];
eq2->class_2 = emu->class_[r];
eq2->race2 = emu->race[r];
eq2->zone = emu->zone[r];
eq2->instance = 0;
eq2->gender = emu->gender[r];
eq2->face = emu->face[r];
int k;
for (k = 0; k < _MaterialCount; k++) {
eq2->equip[k].material = emu->equip[r][k].material;
eq2->equip[k].unknown1 = emu->equip[r][k].unknown1;
eq2->equip[k].elitematerial = emu->equip[r][k].elitematerial;
eq2->equip[k].heroforgemodel = emu->equip[r][k].heroforgemodel;
eq2->equip[k].material2 = emu->equip[r][k].material2;
eq2->equip[k].color.color = emu->equip[r][k].color.color;
}
eq2->u15 = 0xff;
eq2->u19 = 0xFF;
eq2->drakkin_tattoo = emu->drakkin_tattoo[r];
eq2->drakkin_details = emu->drakkin_details[r];
eq2->deity = emu->deity[r];
eq2->primary = emu->primary[r];
eq2->secondary = emu->secondary[r];
eq2->haircolor = emu->haircolor[r];
eq2->beardcolor = emu->beardcolor[r];
eq2->eyecolor1 = emu->eyecolor1[r];
eq2->eyecolor2 = emu->eyecolor2[r];
eq2->hairstyle = emu->hairstyle[r];
eq2->beard = emu->beard[r];
eq2->char_enabled = 1;
eq2->tutorial = emu->tutorial[r];
eq2->drakkin_heritage = emu->drakkin_heritage[r];
eq2->unknown1 = 0;
eq2->gohome = emu->gohome[r];
eq2->LastLogin = 1212696584;
eq2->unknown2 = 0;
}
bufptr += sizeof(structs::CharacterSelectEntry_Struct);
}
FINISH_ENCODE();
}
ENCODE(OP_SendZonepoints)
{
SETUP_VAR_ENCODE(ZonePoints);
ALLOC_VAR_ENCODE(structs::ZonePoints, sizeof(structs::ZonePoints) + sizeof(structs::ZonePoint_Entry) * (emu->count + 1));
eq->count = emu->count;
for (uint32 i = 0; i < emu->count; ++i)
{
eq->zpe[i].iterator = emu->zpe[i].iterator;
eq->zpe[i].x = emu->zpe[i].x;
eq->zpe[i].y = emu->zpe[i].y;
eq->zpe[i].z = emu->zpe[i].z;
eq->zpe[i].heading = emu->zpe[i].heading;
eq->zpe[i].zoneid = emu->zpe[i].zoneid;
eq->zpe[i].zoneinstance = emu->zpe[i].zoneinstance;
}
FINISH_ENCODE();
}
ENCODE(OP_SetGuildRank)
{
ENCODE_LENGTH_EXACT(GuildSetRank_Struct);
SETUP_DIRECT_ENCODE(GuildSetRank_Struct, structs::GuildSetRank_Struct);
eq->GuildID = emu->Unknown00;
/* Translate older ranks to new values */
switch (emu->Rank) {
case 0: { eq->Rank = 5; break; } // GUILD_MEMBER 0
case 1: { eq->Rank = 3; break; } // GUILD_OFFICER 1
case 2: { eq->Rank = 1; break; } // GUILD_LEADER 2
default: { eq->Rank = emu->Rank; break; }
}
memcpy(eq->MemberName, emu->MemberName, sizeof(eq->MemberName));
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->itemslot = ServerToRoF2MainInvSlot(emu->itemslot);
//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 != AT_Size)
{
dest->FastQueuePacket(&in, ack_req);
return;
}
EQApplicationPacket *outapp = new EQApplicationPacket(OP_ChangeSize, sizeof(ChangeSize_Struct));
ChangeSize_Struct *css = (ChangeSize_Struct *)outapp->pBuffer;
css->EntityID = sas->spawn_id;
css->Size = (float)sas->parameter;
css->Unknown08 = 0;
css->Unknown12 = 1.0f;
dest->FastQueuePacket(&outapp, ack_req);
delete in;
}
ENCODE(OP_SpawnDoor)
{
SETUP_VAR_ENCODE(Door_Struct);
int door_count = __packet->size / sizeof(Door_Struct);
int total_length = door_count * sizeof(structs::Door_Struct);
ALLOC_VAR_ENCODE(structs::Door_Struct, total_length);
int r;
for (r = 0; r < door_count; r++) {
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;
SpecialMesg_Struct *emu = (SpecialMesg_Struct *)in->pBuffer;
unsigned char *__emu_buffer = in->pBuffer;
std::string old_message = &emu->message[strlen(emu->sayer)];
std::string new_message;
ServerToRoF2TextLink(new_message, old_message);
//in->size = 3 + 4 + 4 + strlen(emu->sayer) + 1 + 12 + new_message.length() + 1;
in->size = strlen(emu->sayer) + new_message.length() + 25;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[0]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[1]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->header[2]);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->msg_type);
VARSTRUCT_ENCODE_TYPE(uint32, OutBuffer, emu->target_spawn_id);
VARSTRUCT_ENCODE_STRING(OutBuffer, emu->sayer);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[0]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[1]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[2]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[3]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[4]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[5]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[6]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[7]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[8]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[9]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[10]);
VARSTRUCT_ENCODE_TYPE(uint8, OutBuffer, emu->unknown12[11]);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
}
ENCODE(OP_Stun)
{
ENCODE_LENGTH_EXACT(Stun_Struct);
SETUP_DIRECT_ENCODE(Stun_Struct, structs::Stun_Struct);
OUT(duration);
eq->unknown005 = 163;
eq->unknown006 = 67;
FINISH_ENCODE();
}
ENCODE(OP_TargetBuffs) { ENCODE_FORWARD(OP_BuffCreate); }
ENCODE(OP_TaskDescription)
{
EQApplicationPacket *in = *p;
*p = nullptr;
unsigned char *__emu_buffer = in->pBuffer;
char *InBuffer = (char *)in->pBuffer;
char *block_start = InBuffer;
InBuffer += sizeof(TaskDescriptionHeader_Struct);
uint32 title_size = strlen(InBuffer) + 1;
InBuffer += title_size;
TaskDescriptionData1_Struct *emu_tdd1 = (TaskDescriptionData1_Struct *)InBuffer;
emu_tdd1->StartTime = (time(nullptr) - emu_tdd1->StartTime); // RoF2 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);
std::string old_message = InBuffer; // start 'Reward' as string
std::string new_message;
ServerToRoF2TextLink(new_message, old_message);
in->size = sizeof(TaskDescriptionHeader_Struct) + sizeof(TaskDescriptionData1_Struct)+
sizeof(TaskDescriptionData2_Struct) + sizeof(TaskDescriptionTrailer_Struct)+
title_size + description_size + new_message.length() + 1;
in->pBuffer = new unsigned char[in->size];
char *OutBuffer = (char *)in->pBuffer;
memcpy(OutBuffer, block_start, (InBuffer - block_start));
OutBuffer += (InBuffer - block_start);
VARSTRUCT_ENCODE_STRING(OutBuffer, new_message.c_str());
InBuffer += strlen(InBuffer) + 1;
memcpy(OutBuffer, InBuffer, sizeof(TaskDescriptionTrailer_Struct));
delete[] __emu_buffer;
dest->FastQueuePacket(&in, ack_req);
#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); // RoF2 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);
EQApplicationPacket *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)
{
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(Track_Struct));
delete in;
return;
}
int PacketSize = 2;
for (int i = 0; i < EntryCount; ++i, ++emu)
PacketSize += (13 + 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_pet);
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++)
{
eq->items[i].Unknown18 = 0;
if (i < 80) {
snprintf(eq->items[i].SerialNumber, sizeof(eq->items[i].SerialNumber), "%016d", emu->SerialNumber[i]);
eq->ItemCost[i] = emu->ItemCost[i];
}
else {
snprintf(eq->items[i].SerialNumber, sizeof(eq->items[i].SerialNumber), "%016d", 0);
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));
//snprintf(eq->SerialNumber, sizeof(eq->SerialNumber), "%016d", 0);
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_TraderDelItem)
{
ENCODE_LENGTH_EXACT(TraderDelItem_Struct);
SETUP_DIRECT_ENCODE(TraderDelItem_Struct, structs::TraderDelItem_Struct);
OUT(TraderID);
snprintf(eq->SerialNumber, sizeof(eq->SerialNumber), "%016d", emu->ItemID);
Log.Out(Logs::Detail, Logs::Trading, "ENCODE(OP_TraderDelItem): TraderID %d, SerialNumber: %d", emu->TraderID, emu->ItemID);
FINISH_ENCODE();
}
ENCODE(OP_TraderShop)
{
uint32 psize = (*p)->size;
if (psize == sizeof(TraderClick_Struct))
{
ENCODE_LENGTH_EXACT(TraderClick_Struct);
SETUP_DIRECT_ENCODE(TraderClick_Struct, structs::TraderClick_Struct);
eq->Code = 28; // Seen on Live
OUT(TraderID);
OUT(Approval);
FINISH_ENCODE();
}
else if (psize == sizeof(TraderBuy_Struct))
{
ENCODE_LENGTH_EXACT(TraderBuy_Struct);
SETUP_DIRECT_ENCODE(TraderBuy_Struct, structs::TraderBuy_Struct);
OUT(Action);
OUT(TraderID);
//memcpy(eq->BuyerName, emu->BuyerName, sizeof(eq->BuyerName));
//memcpy(eq->SellerName, emu->SellerName, sizeof(eq->SellerName));
memcpy(eq->ItemName, emu->ItemName, sizeof(eq->ItemName));
OUT(ItemID);
OUT(AlreadySold);
OUT(Price);
OUT(Quantity);
snprintf(eq->SerialNumber, sizeof(eq->SerialNumber), "%016d", emu->ItemID);
Log.Out(Logs::Detail, Logs::Trading, "ENCODE(OP_TraderShop): Buy Action %d, Price %d, Trader %d, ItemID %d, Quantity %d, ItemName, %s",
eq->Action, eq->Price, eq->TraderID, eq->ItemID, eq->Quantity, emu->ItemName);
FINISH_ENCODE();
}
else
{
Log.Out(Logs::Detail, Logs::Trading, "ENCODE(OP_TraderShop): Encode Size Unknown (%d)", psize);
}
}
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->slot = ServerToRoF2Slot(emu->slot);
OUT(quantity);
OUT(tribute_master_id);
OUT(tribute_points);
FINISH_ENCODE();
}
ENCODE(OP_VetRewardsAvaliable)
{
EQApplicationPacket *inapp = *p;
unsigned char * __emu_buffer = inapp->pBuffer;
uint32 count = ((*p)->Size() / sizeof(InternalVeteranReward));
*p = nullptr;
EQApplicationPacket *outapp_create = new EQApplicationPacket(OP_VetRewardsAvaliable, (sizeof(structs::VeteranReward)*count));
uchar *old_data = __emu_buffer;
uchar *data = outapp_create->pBuffer;
for (unsigned int i = 0; i < count; ++i)
{
structs::VeteranReward *vr = (structs::VeteranReward*)data;
InternalVeteranReward *ivr = (InternalVeteranReward*)old_data;
vr->claim_count = ivr->claim_count;
vr->claim_id = ivr->claim_id;
vr->number_available = ivr->number_available;
for (int x = 0; x < 8; ++x)
{
vr->items[x].item_id = ivr->items[x].item_id;
strncpy(vr->items[x].item_name, ivr->items[x].item_name, sizeof(vr->items[x].item_name));
vr->items[x].charges = ivr->items[x].charges;
}
old_data += sizeof(InternalVeteranReward);
data += sizeof(structs::VeteranReward);
}
dest->FastQueuePacket(&outapp_create);
delete inapp;
}
ENCODE(OP_WearChange)
{
ENCODE_LENGTH_EXACT(WearChange_Struct);
SETUP_DIRECT_ENCODE(WearChange_Struct, structs::WearChange_Struct);
OUT(spawn_id);
OUT(material);
OUT(unknown06);
OUT(elite_material);
OUT(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;
EQApplicationPacket *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);
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) {
Log.Out(Logs::General, Logs::Netcode, "[STRUCTS] Wrong size on outbound %s: Got %d, expected multiple of %d", opcodes->EmuToName(in->GetOpcode()), in->size, sizeof(Spawn_Struct));
delete in;
return;
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[STRUCTS] Spawn name is [%s]", emu->name);
emu = (Spawn_Struct *)__emu_buffer;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[STRUCTS] Spawn packet size is %i, entries = %i", in->size, entrycount);
char *Buffer = (char *)in->pBuffer, *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[0] = 0;
emu->suffix[0] = 0;
if (strlen(emu->title))
PacketSize += strlen(emu->title) + 1;
if (strlen(emu->suffix))
PacketSize += strlen(emu->suffix) + 1;
bool ShowName = 1;
if (emu->bodytype >= 66)
{
emu->race = 127;
emu->bodytype = 11;
emu->gender = 0;
ShowName = 0;
}
float SpawnSize = emu->size;
if (!((emu->NPC == 0) || (emu->race <= 12) || (emu->race == 128) || (emu->race == 130) || (emu->race == 330) || (emu->race == 522)))
{
PacketSize += 60;
if (emu->size == 0)
{
emu->size = 6;
SpawnSize = 6;
}
}
else
PacketSize += 216;
if (SpawnSize == 0)
{
SpawnSize = 3;
}
EQApplicationPacket *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 - 0.7); // 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);
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_TYPE(uint8, Buffer, 100); // LiveUnknown1 12/06/14 (possibly mana percent?)
//VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 10); // LiveUnknown2 12/06/14
//VARSTRUCT_ENCODE_TYPE(uint8, Buffer, 0); // LiveUnknown3 12/06/14
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, 0); // unknown14 - Stance 64 = normal 4 = aggressive 40 = stun/mezzed
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown15
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown16
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0); // unknown17
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff); // unknown18
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, 0xffffffff); // unknown19
if ((emu->NPC == 0) || (emu->race <= 12) || (emu->race == 128) || (emu->race == 130) || (emu->race == 330) || (emu->race == 522))
{
for (k = 0; k < 9; ++k)
{
{
VARSTRUCT_ENCODE_TYPE(uint32, Buffer, emu->colors[k].color);
}
}
structs::EquipStruct *Equipment = (structs::EquipStruct *)Buffer;
for (k = 0; k < 9; k++) {
Equipment[k].material = emu->equipment[k].material;
Equipment[k].unknown1 = emu->equipment[k].unknown1;
Equipment[k].elitematerial = emu->equipment[k].elitematerial;
Equipment[k].heroforgemodel = emu->equipment[k].heroforgemodel;
Equipment[k].material2 = emu->equipment[k].material2;
}
Buffer += (sizeof(structs::EquipStruct) * 9);
}
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[MaterialPrimary].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[MaterialSecondary].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->y = emu->y;
Position->deltaZ = emu->deltaZ;
Position->deltaX = emu->deltaX;
Position->x = emu->x;
Position->heading = emu->heading;
Position->deltaHeading = emu->deltaHeading;
Position->z = emu->z;
Position->animation = emu->animation;
Position->deltaY = emu->deltaY;
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))
{
Log.Out(Logs::General, Logs::Netcode, "[ERROR] SPAWN ENCODE LOGIC PROBLEM: Buffer pointer is now %i 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 = RoF2ToServerMainInvSlot(eq->slot);
IN(charges);
IN(sell_price);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AltCurrencySell)
{
DECODE_LENGTH_EXACT(structs::AltCurrencySellItem_Struct);
SETUP_DIRECT_DECODE(AltCurrencySellItem_Struct, structs::AltCurrencySellItem_Struct);
IN(merchant_entity_id);
emu->slot_id = RoF2ToServerMainInvSlot(eq->slot_id);
IN(charges);
IN(cost);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AltCurrencySellSelection)
{
DECODE_LENGTH_EXACT(structs::AltCurrencySelectItem_Struct);
SETUP_DIRECT_DECODE(AltCurrencySelectItem_Struct, structs::AltCurrencySelectItem_Struct);
IN(merchant_entity_id);
emu->slot_id = RoF2ToServerMainInvSlot(eq->slot_id);
FINISH_DIRECT_DECODE();
}
DECODE(OP_ApplyPoison)
{
DECODE_LENGTH_EXACT(structs::ApplyPoison_Struct);
SETUP_DIRECT_DECODE(ApplyPoison_Struct, structs::ApplyPoison_Struct);
emu->inventorySlot = RoF2ToServerMainInvSlot(eq->inventorySlot);
IN(success);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AugmentInfo)
{
DECODE_LENGTH_EXACT(structs::AugmentInfo_Struct);
SETUP_DIRECT_DECODE(AugmentInfo_Struct, structs::AugmentInfo_Struct);
IN(itemid);
IN(window);
FINISH_DIRECT_DECODE();
}
DECODE(OP_AugmentItem)
{
DECODE_LENGTH_EXACT(structs::AugmentItem_Struct);
SETUP_DIRECT_DECODE(AugmentItem_Struct, structs::AugmentItem_Struct);
emu->container_slot = RoF2ToServerSlot(eq->container_slot);
emu->augment_slot = RoF2ToServerSlot(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);
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::SpellBuffFade_Struct_Live);
SETUP_DIRECT_DECODE(SpellBuffFade_Struct, structs::SpellBuffFade_Struct_Live);
IN(entityid);
//IN(slot);
IN(level);
IN(effect);
IN(spellid);
IN(duration);
IN(slotid);
IN(bufffade);
FINISH_DIRECT_DECODE();
}
DECODE(OP_BuffRemoveRequest)
{
// This is to cater for the fact that short buff box buffs start at 30 as opposed to 25 in prior clients.
//
DECODE_LENGTH_EXACT(structs::BuffRemoveRequest_Struct);
SETUP_DIRECT_DECODE(BuffRemoveRequest_Struct, structs::BuffRemoveRequest_Struct);
emu->SlotID = (eq->SlotID < 42) ? eq->SlotID : (eq->SlotID - 17);
IN(EntityID);
FINISH_DIRECT_DECODE();
}
DECODE(OP_CastSpell)
{
DECODE_LENGTH_EXACT(structs::CastSpell_Struct);
SETUP_DIRECT_DECODE(CastSpell_Struct, structs::CastSpell_Struct);
if (eq->slot == 13)
emu->slot = 10;
else
IN(slot);
IN(spell_id);
emu->inventoryslot = RoF2ToServerSlot(eq->inventoryslot);
//IN(inventoryslot);
IN(target_id);
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;
RoF2ToServerTextLink(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(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 = RoF2ToServerSlot(eq->slot);
IN(auto_consumed);
IN(type);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Damage)
{
DECODE_LENGTH_EXACT(structs::CombatDamage_Struct);
SETUP_DIRECT_DECODE(CombatDamage_Struct, structs::CombatDamage_Struct);
IN(target);
IN(source);
IN(type);
IN(spellid);
IN(damage);
emu->sequence = eq->sequence;
FINISH_DIRECT_DECODE();
}
DECODE(OP_DeleteItem)
{
DECODE_LENGTH_EXACT(structs::DeleteItem_Struct);
SETUP_DIRECT_DECODE(DeleteItem_Struct, structs::DeleteItem_Struct);
emu->from_slot = RoF2ToServerSlot(eq->from_slot);
emu->to_slot = RoF2ToServerSlot(eq->to_slot);
IN(number_in_stack);
FINISH_DIRECT_DECODE();
}
DECODE(OP_Emote)
{
unsigned char *__eq_buffer = __packet->pBuffer;
std::string old_message = (char *)&__eq_buffer[4]; // unknown01 offset
std::string new_message;
RoF2ToServerTextLink(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_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 = 0; r < EmuConstants::ITEM_COMMON_SIZE; 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 = RoF2ToServerSlot(eq->slot);
IN(target);
FINISH_DIRECT_DECODE();
}
DECODE(OP_LoadSpellSet)
{
DECODE_LENGTH_EXACT(structs::LoadSpellSet_Struct);
SETUP_DIRECT_DECODE(LoadSpellSet_Struct, structs::LoadSpellSet_Struct);
for (unsigned int i = 0; i < MAX_PP_MEMSPELL; ++i)
{
if (eq->spell[i] == 0)
emu->spell[i] = 0xFFFFFFFF;
else
emu->spell[i] = eq->spell[i];
}
FINISH_DIRECT_DECODE();
}
DECODE(OP_LootItem)
{
DECODE_LENGTH_EXACT(structs::LootingItem_Struct);
SETUP_DIRECT_DECODE(LootingItem_Struct, structs::LootingItem_Struct);
IN(lootee);
IN(looter);
emu->slot_id = RoF2ToServerCorpseSlot(eq->slot_id);
IN(auto_loot);
FINISH_DIRECT_DECODE();
}
DECODE(OP_MoveItem)
{
DECODE_LENGTH_EXACT(structs::MoveItem_Struct);
SETUP_DIRECT_DECODE(MoveItem_Struct, structs::MoveItem_Struct);
Log.Out(Logs::General, Logs::Netcode, "[RoF2] MoveItem SlotType from %i to %i, MainSlot from %i to %i, SubSlot from %i to %i, AugSlot from %i to %i, Unknown01 from %i to %i, Number %u", eq->from_slot.SlotType, eq->to_slot.SlotType, eq->from_slot.MainSlot, eq->to_slot.MainSlot, eq->from_slot.SubSlot, eq->to_slot.SubSlot, eq->from_slot.AugSlot, eq->to_slot.AugSlot, eq->from_slot.Unknown01, eq->to_slot.Unknown01, eq->number_in_stack);
emu->from_slot = RoF2ToServerSlot(eq->from_slot);
emu->to_slot = RoF2ToServerSlot(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);
emu->unknown = eq->unknown04;
FINISH_DIRECT_DECODE();
}
DECODE(OP_RaidInvite)
{
DECODE_LENGTH_ATLEAST(structs::RaidGeneral_Struct);
// This is a switch on the RaidGeneral action
switch (*(uint32 *)__packet->pBuffer) {
case 35: { // raidMOTD
// we don't have a nice macro for this
structs::RaidMOTD_Struct *__eq_buffer = (structs::RaidMOTD_Struct *)__packet->pBuffer;
__eq_buffer->motd[1023] = '\0';
size_t motd_size = strlen(__eq_buffer->motd) + 1;
__packet->size = sizeof(RaidMOTD_Struct) + motd_size;
__packet->pBuffer = new unsigned char[__packet->size];
RaidMOTD_Struct *emu = (RaidMOTD_Struct *)__packet->pBuffer;
structs::RaidMOTD_Struct *eq = (structs::RaidMOTD_Struct *)__eq_buffer;
strn0cpy(emu->general.player_name, eq->general.player_name, 64);
strn0cpy(emu->motd, eq->motd, motd_size);
IN(general.action);
IN(general.parameter);
FINISH_DIRECT_DECODE();
break;
}
case 36: { // raidPlayerNote unhandled
break;
}
default: {
DECODE_LENGTH_EXACT(structs::RaidGeneral_Struct);
SETUP_DIRECT_DECODE(RaidGeneral_Struct, structs::RaidGeneral_Struct);
strn0cpy(emu->leader_name, eq->leader_name, 64);
strn0cpy(emu->player_name, eq->player_name, 64);
IN(action);
IN(parameter);
FINISH_DIRECT_DECODE();
break;
}
}
}
DECODE(OP_ReadBook)
{
DECODE_LENGTH_EXACT(structs::BookRequest_Struct);
SETUP_DIRECT_DECODE(BookRequest_Struct, structs::BookRequest_Struct);
IN(type);
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 = RoF2ToServerSlot(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 RoF2
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 = RoF2ToServerMainInvSlot(eq->itemslot);
//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);
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);
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);
emu->Code = eq->Code; // 11 = Start Trader, 2 = End Trader, 22 = ? - Guessing
FINISH_DIRECT_DECODE();
}
}
DECODE(OP_TraderBuy)
{
DECODE_LENGTH_EXACT(structs::TraderBuy_Struct);
SETUP_DIRECT_DECODE(TraderBuy_Struct, structs::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_TraderShop)
{
uint32 psize = __packet->size;
if (psize == sizeof(structs::TraderClick_Struct))
{
DECODE_LENGTH_EXACT(structs::TraderClick_Struct);
SETUP_DIRECT_DECODE(TraderClick_Struct, structs::TraderClick_Struct);
IN(TraderID);
IN(Approval);
FINISH_DIRECT_DECODE();
}
else if (psize == sizeof(structs::TraderBuy_Struct))
{
DECODE_LENGTH_EXACT(structs::TraderBuy_Struct);
SETUP_DIRECT_DECODE(TraderBuy_Struct, structs::TraderBuy_Struct);
IN(Action);
IN(Price);
IN(TraderID);
memcpy(emu->ItemName, eq->ItemName, sizeof(emu->ItemName));
IN(ItemID);
IN(Quantity);
Log.Out(Logs::Detail, Logs::Trading, "DECODE(OP_TraderShop): (Unknowns) Unknown004 %d, Unknown008 %d, Unknown012 %d, Unknown076 %d, Unknown276 %d",
eq->Unknown004, eq->Unknown008, eq->Unknown012, eq->Unknown076, eq->Unknown276);
Log.Out(Logs::Detail, Logs::Trading, "DECODE(OP_TraderShop): Buy Action %d, Price %d, Trader %d, ItemID %d, Quantity %d, ItemName, %s",
eq->Action, eq->Price, eq->TraderID, eq->ItemID, eq->Quantity, eq->ItemName);
FINISH_DIRECT_DECODE();
}
else if (psize == 4)
{
Log.Out(Logs::Detail, Logs::Trading, "DECODE(OP_TraderShop): Forwarding packet as-is with size 4");
}
else
{
Log.Out(Logs::Detail, Logs::Trading, "DECODE(OP_TraderShop): Decode Size Unknown (%d)", psize);
}
}
DECODE(OP_TradeSkillCombine)
{
DECODE_LENGTH_EXACT(structs::NewCombine_Struct);
SETUP_DIRECT_DECODE(NewCombine_Struct, structs::NewCombine_Struct);
int16 slot_id = RoF2ToServerSlot(eq->container_slot);
if (slot_id == 4000) {
slot_id = legacy::SLOT_TRADESKILL; // 1000
}
emu->container_slot = slot_id;
emu->guildtribute_slot = RoF2ToServerSlot(eq->guildtribute_slot); // this should only return INVALID_INDEX until implemented -U
FINISH_DIRECT_DECODE();
}
DECODE(OP_TributeItem)
{
DECODE_LENGTH_EXACT(structs::TributeItem_Struct);
SETUP_DIRECT_DECODE(TributeItem_Struct, structs::TributeItem_Struct);
emu->slot = RoF2ToServerSlot(eq->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_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;
}
char* SerializeItem(const ItemInst *inst, int16 slot_id_in, uint32 *length, uint8 depth, ItemPacketType packet_type)
{
int ornamentationAugtype = RuleI(Character, OrnamentationAugmentType);
uint8 null_term = 0;
bool stackable = inst->IsStackable();
uint32 merchant_slot = inst->GetMerchantSlot();
uint32 charges = inst->GetCharges();
if (!stackable && charges > 254)
charges = 0xFFFFFFFF;
std::stringstream ss(std::stringstream::in | std::stringstream::out | std::stringstream::binary);
const Item_Struct *item = inst->GetUnscaledItem();
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] Serialize called for: %s", item->Name);
RoF2::structs::ItemSerializationHeader hdr;
//sprintf(hdr.unknown000, "06e0002Y1W00");
snprintf(hdr.unknown000, sizeof(hdr.unknown000), "%016d", item->ID);
hdr.stacksize = stackable ? charges : 1;
hdr.unknown004 = 0;
structs::ItemSlotStruct slot_id = ServerToRoF2Slot(slot_id_in, packet_type);
hdr.slot_type = (merchant_slot == 0) ? slot_id.SlotType : 9; // 9 is merchant 20 is reclaim items?
hdr.main_slot = (merchant_slot == 0) ? slot_id.MainSlot : merchant_slot;
hdr.sub_slot = (merchant_slot == 0) ? slot_id.SubSlot : 0xffff;
hdr.aug_slot = (merchant_slot == 0) ? slot_id.AugSlot : 0xffff;
hdr.price = inst->GetPrice();
hdr.merchant_slot = (merchant_slot == 0) ? 1 : inst->GetMerchantCount();
hdr.scaled_value = inst->IsScaling() ? inst->GetExp() / 100 : 0;
hdr.instance_id = (merchant_slot == 0) ? inst->GetSerialNumber() : merchant_slot;
hdr.unknown028 = 0;
hdr.last_cast_time = inst->GetRecastTimestamp();
hdr.charges = (stackable ? (item->MaxCharges ? 1 : 0) : charges);
hdr.inst_nodrop = inst->IsAttuned() ? 1 : 0;
hdr.unknown044 = 0;
hdr.unknown048 = 0;
hdr.unknown052 = 0;
hdr.isEvolving = item->EvolvingLevel > 0 ? 1 : 0;
ss.write((const char*)&hdr, sizeof(RoF2::structs::ItemSerializationHeader));
if (item->EvolvingLevel > 0) {
RoF2::structs::EvolvingItem evotop;
evotop.unknown001 = 0;
evotop.unknown002 = 0;
evotop.unknown003 = 0;
evotop.unknown004 = 0;
evotop.evoLevel = item->EvolvingLevel;
evotop.progress = 95.512;
evotop.Activated = 1;
evotop.evomaxlevel = 7;
ss.write((const char*)&evotop, sizeof(RoF2::structs::EvolvingItem));
}
//ORNAMENT IDFILE / ICON
uint32 ornaIcon = 0;
uint32 heroModel = 0;
if (inst->GetOrnamentationIDFile() && inst->GetOrnamentationIcon())
{
char tmp[30]; memset(tmp, 0x0, 30); sprintf(tmp, "IT%d", inst->GetOrnamentationIDFile());
//Mainhand
ss.write(tmp, strlen(tmp));
ss.write((const char*)&null_term, sizeof(uint8));
//Offhand
ss.write(tmp, strlen(tmp));
ss.write((const char*)&null_term, sizeof(uint8));
ornaIcon = inst->GetOrnamentationIcon();
heroModel = inst->GetOrnamentHeroModel(Inventory::CalcMaterialFromSlot(slot_id_in));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8)); // no main hand Ornamentation
ss.write((const char*)&null_term, sizeof(uint8)); // no off hand Ornamentation
}
RoF2::structs::ItemSerializationHeaderFinish hdrf;
hdrf.ornamentIcon = ornaIcon;
hdrf.unknowna1 = 0xffffffff;
hdrf.ornamentHeroModel = heroModel;
hdrf.unknown063 = 0;
hdrf.Copied = 0;
hdrf.unknowna4 = 0xffffffff;
hdrf.unknowna5 = 0;
hdrf.ItemClass = item->ItemClass;
ss.write((const char*)&hdrf, sizeof(RoF2::structs::ItemSerializationHeaderFinish));
if (strlen(item->Name) > 0)
{
ss.write(item->Name, strlen(item->Name));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
if (strlen(item->Lore) > 0)
{
ss.write(item->Lore, strlen(item->Lore));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
if (strlen(item->IDFile) > 0)
{
ss.write(item->IDFile, strlen(item->IDFile));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&null_term, sizeof(uint8));
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody struct is %i bytes", sizeof(RoF2::structs::ItemBodyStruct));
RoF2::structs::ItemBodyStruct ibs;
memset(&ibs, 0, sizeof(RoF2::structs::ItemBodyStruct));
ibs.id = item->ID;
ibs.weight = item->Weight;
ibs.norent = item->NoRent;
ibs.nodrop = item->NoDrop;
ibs.attune = item->Attuneable;
ibs.size = item->Size;
ibs.slots = SwapBits21and22(item->Slots);
ibs.price = item->Price;
ibs.icon = item->Icon;
ibs.unknown1 = 1;
ibs.unknown2 = 1;
ibs.BenefitFlag = item->BenefitFlag;
ibs.tradeskills = item->Tradeskills;
ibs.CR = item->CR;
ibs.DR = item->DR;
ibs.PR = item->PR;
ibs.MR = item->MR;
ibs.FR = item->FR;
ibs.SVCorruption = item->SVCorruption;
ibs.AStr = item->AStr;
ibs.ASta = item->ASta;
ibs.AAgi = item->AAgi;
ibs.ADex = item->ADex;
ibs.ACha = item->ACha;
ibs.AInt = item->AInt;
ibs.AWis = item->AWis;
ibs.HP = item->HP;
ibs.Mana = item->Mana;
ibs.Endur = item->Endur;
ibs.AC = item->AC;
ibs.regen = item->Regen;
ibs.mana_regen = item->ManaRegen;
ibs.end_regen = item->EnduranceRegen;
ibs.Classes = item->Classes;
ibs.Races = item->Races;
ibs.Deity = item->Deity;
ibs.SkillModValue = item->SkillModValue;
ibs.SkillModMax = 0xffffffff;
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;
if (item->ReqLevel > 100)
ibs.ReqLevel = 100;
ibs.RecLevel = item->RecLevel;
if (item->RecLevel > 100)
ibs.RecLevel = 100;
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;
ss.write((const char*)&ibs, sizeof(RoF2::structs::ItemBodyStruct));
//charm text
if (strlen(item->CharmFile) > 0)
{
ss.write((const char*)item->CharmFile, strlen(item->CharmFile));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody secondary struct is %i bytes", sizeof(RoF2::structs::ItemSecondaryBodyStruct));
RoF2::structs::ItemSecondaryBodyStruct isbs;
memset(&isbs, 0, sizeof(RoF2::structs::ItemSecondaryBodyStruct));
isbs.augtype = item->AugType;
isbs.augrestrict2 = -1;
isbs.augrestrict = item->AugRestrict;
for (int x = AUG_BEGIN; x < consts::ITEM_COMMON_SIZE; x++)
{
isbs.augslots[x].type = item->AugSlotType[x];
isbs.augslots[x].visible = item->AugSlotVisible[x];
isbs.augslots[x].unknown = item->AugSlotUnk2[x];
}
isbs.ldonpoint_type = item->PointType;
isbs.ldontheme = item->LDoNTheme;
isbs.ldonprice = item->LDoNPrice;
isbs.ldonsellbackrate = item->LDoNSellBackRate;
isbs.ldonsold = item->LDoNSold;
isbs.bagtype = item->BagType;
isbs.bagslots = item->BagSlots;
isbs.bagsize = item->BagSize;
isbs.wreduction = item->BagWR;
isbs.book = item->Book;
isbs.booktype = item->BookType;
ss.write((const char*)&isbs, sizeof(RoF2::structs::ItemSecondaryBodyStruct));
if (strlen(item->Filename) > 0)
{
ss.write((const char*)item->Filename, strlen(item->Filename));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody tertiary struct is %i bytes", sizeof(RoF2::structs::ItemTertiaryBodyStruct));
RoF2::structs::ItemTertiaryBodyStruct itbs;
memset(&itbs, 0, sizeof(RoF2::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 = stackable ? item->StackSize : 0;
itbs.no_transfer = item->NoTransfer;
itbs.expendablearrow = item->ExpendableArrow;
itbs.unknown8 = 0;
itbs.unknown9 = 0;
itbs.unknown10 = 0;
itbs.unknown11 = 0;
itbs.unknown12 = 0;
itbs.unknown13 = 0;
itbs.unknown14 = 0;
ss.write((const char*)&itbs, sizeof(RoF2::structs::ItemTertiaryBodyStruct));
// Effect Structures Broken down to allow variable length strings for effect names
int32 effect_unknown = 0;
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody Click effect struct is %i bytes", sizeof(RoF2::structs::ClickEffectStruct));
RoF2::structs::ClickEffectStruct ices;
memset(&ices, 0, sizeof(RoF2::structs::ClickEffectStruct));
ices.effect = item->Click.Effect;
ices.level2 = item->Click.Level2;
ices.type = item->Click.Type;
ices.level = item->Click.Level;
ices.max_charges = item->MaxCharges;
ices.cast_time = item->CastTime;
ices.recast = item->RecastDelay;
ices.recast_type = item->RecastType;
ss.write((const char*)&ices, sizeof(RoF2::structs::ClickEffectStruct));
if (strlen(item->ClickName) > 0)
{
ss.write((const char*)item->ClickName, strlen(item->ClickName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // clickunk7
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody proc effect struct is %i bytes", sizeof(RoF2::structs::ProcEffectStruct));
RoF2::structs::ProcEffectStruct ipes;
memset(&ipes, 0, sizeof(RoF2::structs::ProcEffectStruct));
ipes.effect = item->Proc.Effect;
ipes.level2 = item->Proc.Level2;
ipes.type = item->Proc.Type;
ipes.level = item->Proc.Level;
ipes.procrate = item->ProcRate;
ss.write((const char*)&ipes, sizeof(RoF2::structs::ProcEffectStruct));
if (strlen(item->ProcName) > 0)
{
ss.write((const char*)item->ProcName, strlen(item->ProcName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown5
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody worn effect struct is %i bytes", sizeof(RoF2::structs::WornEffectStruct));
RoF2::structs::WornEffectStruct iwes;
memset(&iwes, 0, sizeof(RoF2::structs::WornEffectStruct));
iwes.effect = item->Worn.Effect;
iwes.level2 = item->Worn.Level2;
iwes.type = item->Worn.Type;
iwes.level = item->Worn.Level;
ss.write((const char*)&iwes, sizeof(RoF2::structs::WornEffectStruct));
if (strlen(item->WornName) > 0)
{
ss.write((const char*)item->WornName, strlen(item->WornName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
RoF2::structs::WornEffectStruct ifes;
memset(&ifes, 0, sizeof(RoF2::structs::WornEffectStruct));
ifes.effect = item->Focus.Effect;
ifes.level2 = item->Focus.Level2;
ifes.type = item->Focus.Type;
ifes.level = item->Focus.Level;
ss.write((const char*)&ifes, sizeof(RoF2::structs::WornEffectStruct));
if (strlen(item->FocusName) > 0)
{
ss.write((const char*)item->FocusName, strlen(item->FocusName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
RoF2::structs::WornEffectStruct ises;
memset(&ises, 0, sizeof(RoF2::structs::WornEffectStruct));
ises.effect = item->Scroll.Effect;
ises.level2 = item->Scroll.Level2;
ises.type = item->Scroll.Type;
ises.level = item->Scroll.Level;
ss.write((const char*)&ises, sizeof(RoF2::structs::WornEffectStruct));
if (strlen(item->ScrollName) > 0)
{
ss.write((const char*)item->ScrollName, strlen(item->ScrollName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else
{
ss.write((const char*)&null_term, sizeof(uint8));
}
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// Bard Effect?
RoF2::structs::WornEffectStruct ibes;
memset(&ibes, 0, sizeof(RoF2::structs::WornEffectStruct));
ibes.effect = item->Bard.Effect;
ibes.level2 = item->Bard.Level2;
ibes.type = item->Bard.Type;
ibes.level = item->Bard.Level;
//ibes.unknown6 = 0xffffffff;
ss.write((const char*)&ibes, sizeof(RoF2::structs::WornEffectStruct));
/*
if(strlen(item->BardName) > 0)
{
ss.write((const char*)item->BardName, strlen(item->BardName));
ss.write((const char*)&null_term, sizeof(uint8));
}
else */
ss.write((const char*)&null_term, sizeof(uint8));
ss.write((const char*)&effect_unknown, sizeof(int32)); // unknown6
// End of Effects
//Log.LogDebugType(Logs::General, Logs::Netcode, "[ERROR] ItemBody Quaternary effect struct is %i bytes", sizeof(RoF2::structs::ItemQuaternaryBodyStruct));
RoF2::structs::ItemQuaternaryBodyStruct iqbs;
memset(&iqbs, 0, sizeof(RoF2::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;
//unknown18; //Power Source Capacity or evolve filename?
//evolve_string; // Some String, but being evolution related is just a guess
iqbs.Heirloom = 0;
iqbs.Placeable = 0;
iqbs.unknown28 = -1;
iqbs.unknown30 = -1;
iqbs.NoZone = 0;
iqbs.NoGround = 0;
iqbs.unknown37a = 0; // (guessed position) New to RoF2
iqbs.unknown38 = 0;
iqbs.unknown39 = 1;
iqbs.subitem_count = 0;
char *SubSerializations[10]; // <watch>
uint32 SubLengths[10];
for (int x = SUB_BEGIN; x < EmuConstants::ITEM_CONTAINER_SIZE; ++x) {
SubSerializations[x] = nullptr;
const ItemInst* subitem = ((const ItemInst*)inst)->GetItem(x);
if (subitem) {
int SubSlotNumber;
iqbs.subitem_count++;
if (slot_id_in >= EmuConstants::GENERAL_BEGIN && slot_id_in <= EmuConstants::GENERAL_END) // (< 30) - no cursor?
//SubSlotNumber = (((slot_id_in + 3) * 10) + x + 1);
SubSlotNumber = (((slot_id_in + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + x + 1);
else if (slot_id_in >= EmuConstants::BANK_BEGIN && slot_id_in <= EmuConstants::BANK_END)
//SubSlotNumber = (((slot_id_in - 2000) * 10) + 2030 + x + 1);
SubSlotNumber = (((slot_id_in - EmuConstants::BANK_BEGIN) * EmuConstants::ITEM_CONTAINER_SIZE) + EmuConstants::BANK_BAGS_BEGIN + x);
else if (slot_id_in >= EmuConstants::SHARED_BANK_BEGIN && slot_id_in <= EmuConstants::SHARED_BANK_END)
//SubSlotNumber = (((slot_id_in - 2500) * 10) + 2530 + x + 1);
SubSlotNumber = (((slot_id_in - EmuConstants::SHARED_BANK_BEGIN) * EmuConstants::ITEM_CONTAINER_SIZE) + EmuConstants::SHARED_BANK_BAGS_BEGIN + x);
else
SubSlotNumber = slot_id_in; // ???????
/*
// TEST CODE: <watch>
SubSlotNumber = Inventory::CalcSlotID(slot_id_in, x);
*/
SubSerializations[x] = SerializeItem(subitem, SubSlotNumber, &SubLengths[x], depth + 1, packet_type);
}
}
ss.write((const char*)&iqbs, sizeof(RoF2::structs::ItemQuaternaryBodyStruct));
for (int x = SUB_BEGIN; x < EmuConstants::ITEM_CONTAINER_SIZE; ++x) {
if (SubSerializations[x]) {
ss.write((const char*)&x, sizeof(uint32));
ss.write(SubSerializations[x], SubLengths[x]);
safe_delete_array(SubSerializations[x]);
}
}
char* item_serial = new char[ss.tellp()];
memset(item_serial, 0, ss.tellp());
memcpy(item_serial, ss.str().c_str(), ss.tellp());
*length = ss.tellp();
return item_serial;
}
static inline structs::ItemSlotStruct ServerToRoF2Slot(uint32 serverSlot, ItemPacketType PacketType)
{
structs::ItemSlotStruct RoF2Slot;
RoF2Slot.SlotType = INVALID_INDEX;
RoF2Slot.Unknown02 = NOT_USED;
RoF2Slot.MainSlot = INVALID_INDEX;
RoF2Slot.SubSlot = INVALID_INDEX;
RoF2Slot.AugSlot = INVALID_INDEX;
RoF2Slot.Unknown01 = NOT_USED;
uint32 TempSlot = 0;
if (serverSlot < 56 || serverSlot == MainPowerSource) { // Main Inventory and Cursor
if (PacketType == ItemPacketLoot)
{
RoF2Slot.SlotType = maps::MapCorpse;
RoF2Slot.MainSlot = serverSlot - EmuConstants::CORPSE_BEGIN;
}
else
{
RoF2Slot.SlotType = maps::MapPossessions;
RoF2Slot.MainSlot = serverSlot;
}
if (serverSlot == MainPowerSource)
RoF2Slot.MainSlot = slots::MainPowerSource;
else if (serverSlot >= MainCursor && PacketType != ItemPacketLoot) // Cursor and Extended Corpse Inventory
RoF2Slot.MainSlot += 3;
else if (serverSlot >= MainAmmo) // (> 20)
RoF2Slot.MainSlot += 1;
}
/*else if (ServerSlot < 51) { // Cursor Buffer
RoF2Slot.SlotType = maps::MapLimbo;
RoF2Slot.MainSlot = ServerSlot - 31;
}*/
else if (serverSlot >= EmuConstants::GENERAL_BAGS_BEGIN && serverSlot <= EmuConstants::CURSOR_BAG_END) { // (> 250 && < 341)
RoF2Slot.SlotType = maps::MapPossessions;
TempSlot = serverSlot - 1;
RoF2Slot.MainSlot = int(TempSlot / EmuConstants::ITEM_CONTAINER_SIZE) - 2;
RoF2Slot.SubSlot = TempSlot - ((RoF2Slot.MainSlot + 2) * EmuConstants::ITEM_CONTAINER_SIZE);
if (RoF2Slot.MainSlot >= slots::MainGeneral9) // (> 30)
RoF2Slot.MainSlot = slots::MainCursor;
}
else if (serverSlot >= EmuConstants::TRIBUTE_BEGIN && serverSlot <= EmuConstants::TRIBUTE_END) { // Tribute
RoF2Slot.SlotType = maps::MapTribute;
RoF2Slot.MainSlot = serverSlot - EmuConstants::TRIBUTE_BEGIN;
}
else if (serverSlot >= EmuConstants::BANK_BEGIN && serverSlot <= EmuConstants::BANK_BAGS_END) {
RoF2Slot.SlotType = maps::MapBank;
TempSlot = serverSlot - EmuConstants::BANK_BEGIN;
RoF2Slot.MainSlot = TempSlot;
if (TempSlot > 30) { // (> 30)
RoF2Slot.MainSlot = int(TempSlot / EmuConstants::ITEM_CONTAINER_SIZE) - 3;
RoF2Slot.SubSlot = TempSlot - ((RoF2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE);
}
}
else if (serverSlot >= EmuConstants::SHARED_BANK_BEGIN && serverSlot <= EmuConstants::SHARED_BANK_BAGS_END) {
RoF2Slot.SlotType = maps::MapSharedBank;
TempSlot = serverSlot - EmuConstants::SHARED_BANK_BEGIN;
RoF2Slot.MainSlot = TempSlot;
if (TempSlot > 30) { // (> 30)
RoF2Slot.MainSlot = int(TempSlot / EmuConstants::ITEM_CONTAINER_SIZE) - 3;
RoF2Slot.SubSlot = TempSlot - ((RoF2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE);
}
}
else if (serverSlot >= EmuConstants::TRADE_BEGIN && serverSlot <= EmuConstants::TRADE_BAGS_END) {
RoF2Slot.SlotType = maps::MapTrade;
TempSlot = serverSlot - EmuConstants::TRADE_BEGIN;
RoF2Slot.MainSlot = TempSlot;
if (TempSlot > 30) {
RoF2Slot.MainSlot = int(TempSlot / EmuConstants::ITEM_CONTAINER_SIZE) - 3;
RoF2Slot.SubSlot = TempSlot - ((RoF2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE);
}
/*
// OLD CODE:
if (TempSlot > 99) {
if (TempSlot > 100)
RoF2Slot.MainSlot = int((TempSlot - 100) / 10);
else
RoF2Slot.MainSlot = 0;
RoF2Slot.SubSlot = TempSlot - (100 + RoF2Slot.MainSlot);
}
*/
}
else if (serverSlot >= EmuConstants::WORLD_BEGIN && serverSlot <= EmuConstants::WORLD_END) {
RoF2Slot.SlotType = maps::MapWorld;
TempSlot = serverSlot - EmuConstants::WORLD_BEGIN;
RoF2Slot.MainSlot = TempSlot;
}
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Convert Server Slot %i to RoF2 Slots: Type %i, Unk2 %i, Main %i, Sub %i, Aug %i, Unk1 %i", serverSlot, RoF2Slot.SlotType, RoF2Slot.Unknown02, RoF2Slot.MainSlot, RoF2Slot.SubSlot, RoF2Slot.AugSlot, RoF2Slot.Unknown01);
return RoF2Slot;
}
static inline structs::MainInvItemSlotStruct ServerToRoF2MainInvSlot(uint32 serverSlot)
{
structs::MainInvItemSlotStruct RoF2Slot;
RoF2Slot.MainSlot = INVALID_INDEX;
RoF2Slot.SubSlot = INVALID_INDEX;
RoF2Slot.AugSlot = INVALID_INDEX;
RoF2Slot.Unknown01 = NOT_USED;
uint32 TempSlot = 0;
if (serverSlot < 56 || serverSlot == MainPowerSource) { // (< 52)
RoF2Slot.MainSlot = serverSlot;
if (serverSlot == MainPowerSource)
RoF2Slot.MainSlot = slots::MainPowerSource;
else if (serverSlot >= MainCursor) // Cursor and Extended Corpse Inventory
RoF2Slot.MainSlot += 3;
else if (serverSlot >= MainAmmo) // Ammo and Personl Inventory
RoF2Slot.MainSlot += 1;
/*else if (ServerSlot >= MainCursor) { // Cursor
RoF2Slot.MainSlot = slots::MainCursor;
if (ServerSlot > 30)
RoF2Slot.SubSlot = (ServerSlot + 3) - 33;
}*/
}
else if (serverSlot >= EmuConstants::GENERAL_BAGS_BEGIN && serverSlot <= EmuConstants::CURSOR_BAG_END) {
TempSlot = serverSlot - 1;
RoF2Slot.MainSlot = int(TempSlot / EmuConstants::ITEM_CONTAINER_SIZE) - 2;
RoF2Slot.SubSlot = TempSlot - ((RoF2Slot.MainSlot + 2) * EmuConstants::ITEM_CONTAINER_SIZE);
}
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Convert Server Slot %i to RoF2 Slots: Main %i, Sub %i, Aug %i, Unk1 %i", serverSlot, RoF2Slot.MainSlot, RoF2Slot.SubSlot, RoF2Slot.AugSlot, RoF2Slot.Unknown01);
return RoF2Slot;
}
static inline uint32 ServerToRoF2CorpseSlot(uint32 serverCorpseSlot)
{
return (serverCorpseSlot - EmuConstants::CORPSE_BEGIN + 1);
}
static inline uint32 RoF2ToServerSlot(structs::ItemSlotStruct rof2Slot, ItemPacketType PacketType)
{
uint32 ServerSlot = INVALID_INDEX;
uint32 TempSlot = 0;
if (rof2Slot.SlotType == maps::MapPossessions && rof2Slot.MainSlot < 57) { // Worn/Personal Inventory and Cursor (< 51)
if (rof2Slot.MainSlot == slots::MainPowerSource)
TempSlot = MainPowerSource;
else if (rof2Slot.MainSlot >= slots::MainCursor) // Cursor and Extended Corpse Inventory
TempSlot = rof2Slot.MainSlot - 3;
/*else if (RoF2Slot.MainSlot == slots::MainGeneral9 || RoF2Slot.MainSlot == slots::MainGeneral10) { // 9th and 10th RoF2 inventory/corpse slots
// Need to figure out what to do when we get these
// The slot range of 0 - client_max is cross-utilized between player inventory and corpse inventory.
// In the case of RoF2, player inventory is addressed as 0 - 33 and corpse inventory is addressed as 23 - 56.
// We 'could' assign the two new inventory slots as 9997 and 9998, and then work around their bag
// slot assignments, but doing so may disrupt our ability to utilize the corpse looting range properly.
// For now, it's probably best to leave as-is and let this work itself out in the inventory rework.
}*/
else if (rof2Slot.MainSlot >= slots::MainAmmo) // Ammo and Main Inventory
TempSlot = rof2Slot.MainSlot - 1;
else // Worn Slots
TempSlot = rof2Slot.MainSlot;
if (rof2Slot.SubSlot >= SUB_BEGIN) // Bag Slots
TempSlot = ((TempSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + rof2Slot.SubSlot + 1;
ServerSlot = TempSlot;
}
else if (rof2Slot.SlotType == maps::MapBank) {
TempSlot = EmuConstants::BANK_BEGIN;
if (rof2Slot.SubSlot >= SUB_BEGIN)
TempSlot += ((rof2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + rof2Slot.SubSlot + 1;
else
TempSlot += rof2Slot.MainSlot;
ServerSlot = TempSlot;
}
else if (rof2Slot.SlotType == maps::MapSharedBank) {
TempSlot = EmuConstants::SHARED_BANK_BEGIN;
if (rof2Slot.SubSlot >= SUB_BEGIN)
TempSlot += ((rof2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + rof2Slot.SubSlot + 1;
else
TempSlot += rof2Slot.MainSlot;
ServerSlot = TempSlot;
}
else if (rof2Slot.SlotType == maps::MapTrade) {
TempSlot = EmuConstants::TRADE_BEGIN;
if (rof2Slot.SubSlot >= SUB_BEGIN)
TempSlot += ((rof2Slot.MainSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + rof2Slot.SubSlot + 1;
// OLD CODE:
//TempSlot += 100 + (RoF2Slot.MainSlot * EmuConstants::ITEM_CONTAINER_SIZE) + RoF2Slot.SubSlot;
else
TempSlot += rof2Slot.MainSlot;
ServerSlot = TempSlot;
}
else if (rof2Slot.SlotType == maps::MapWorld) {
TempSlot = EmuConstants::WORLD_BEGIN;
if (rof2Slot.MainSlot >= SUB_BEGIN)
TempSlot += rof2Slot.MainSlot;
ServerSlot = TempSlot;
}
/*else if (RoF2Slot.SlotType == maps::MapLimbo) { // Cursor Buffer
TempSlot = 31;
if (RoF2Slot.MainSlot >= 0)
TempSlot += RoF2Slot.MainSlot;
ServerSlot = TempSlot;
}*/
else if (rof2Slot.SlotType == maps::MapGuildTribute) {
ServerSlot = INVALID_INDEX;
}
else if (rof2Slot.SlotType == maps::MapCorpse) {
ServerSlot = rof2Slot.MainSlot + EmuConstants::CORPSE_BEGIN;
}
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Convert RoF2 Slots: Type %i, Unk2 %i, Main %i, Sub %i, Aug %i, Unk1 %i to Server Slot %i", rof2Slot.SlotType, rof2Slot.Unknown02, rof2Slot.MainSlot, rof2Slot.SubSlot, rof2Slot.AugSlot, rof2Slot.Unknown01, ServerSlot);
return ServerSlot;
}
static inline uint32 RoF2ToServerMainInvSlot(structs::MainInvItemSlotStruct rof2Slot)
{
uint32 ServerSlot = INVALID_INDEX;
uint32 TempSlot = 0;
if (rof2Slot.MainSlot < 57) { // Worn/Personal Inventory and Cursor (< 33)
if (rof2Slot.MainSlot == slots::MainPowerSource)
TempSlot = MainPowerSource;
else if (rof2Slot.MainSlot >= slots::MainCursor) // Cursor and Extended Corpse Inventory
TempSlot = rof2Slot.MainSlot - 3;
/*else if (RoF2Slot.MainSlot == slots::MainGeneral9 || RoF2Slot.MainSlot == slots::MainGeneral10) { // 9th and 10th RoF2 inventory slots
// Need to figure out what to do when we get these
// Same as above
}*/
else if (rof2Slot.MainSlot >= slots::MainAmmo) // Main Inventory and Ammo Slots
TempSlot = rof2Slot.MainSlot - 1;
else
TempSlot = rof2Slot.MainSlot;
if (rof2Slot.SubSlot >= SUB_BEGIN) // Bag Slots
TempSlot = ((TempSlot + 3) * EmuConstants::ITEM_CONTAINER_SIZE) + rof2Slot.SubSlot + 1;
ServerSlot = TempSlot;
}
Log.Out(Logs::General, Logs::Netcode, "[ERROR] Convert RoF2 Slots: Main %i, Sub %i, Aug %i, Unk1 %i to Server Slot %i", rof2Slot.MainSlot, rof2Slot.SubSlot, rof2Slot.AugSlot, rof2Slot.Unknown01, ServerSlot);
return ServerSlot;
}
static inline uint32 RoF2ToServerCorpseSlot(uint32 rof2CorpseSlot)
{
return (rof2CorpseSlot + EmuConstants::CORPSE_BEGIN - 1);
}
static inline void ServerToRoF2TextLink(std::string& rof2TextLink, const std::string& serverTextLink)
{
if ((consts::TEXT_LINK_BODY_LENGTH == EmuConstants::TEXT_LINK_BODY_LENGTH) || (serverTextLink.find('\x12') == std::string::npos)) {
rof2TextLink = serverTextLink;
return;
}
auto segments = SplitString(serverTextLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= EmuConstants::TEXT_LINK_BODY_LENGTH) {
rof2TextLink.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)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// Diff:
rof2TextLink.push_back('\x12');
rof2TextLink.append(segments[segment_iter]);
rof2TextLink.push_back('\x12');
}
else {
rof2TextLink.append(segments[segment_iter]);
}
}
}
static inline void RoF2ToServerTextLink(std::string& serverTextLink, const std::string& rof2TextLink)
{
if ((EmuConstants::TEXT_LINK_BODY_LENGTH == consts::TEXT_LINK_BODY_LENGTH) || (rof2TextLink.find('\x12') == std::string::npos)) {
serverTextLink = rof2TextLink;
return;
}
auto segments = SplitString(rof2TextLink, '\x12');
for (size_t segment_iter = 0; segment_iter < segments.size(); ++segment_iter) {
if (segment_iter & 1) {
if (segments[segment_iter].length() <= consts::TEXT_LINK_BODY_LENGTH) {
serverTextLink.append(segments[segment_iter]);
// TODO: log size mismatch error
continue;
}
// Idx: 0 1 6 11 16 21 26 31 36 37 41 43 48 (Source)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// RoF2: X XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX XXXXX X XXXX XX XXXXX XXXXXXXX (56)
// Diff:
serverTextLink.push_back('\x12');
serverTextLink.append(segments[segment_iter]);
serverTextLink.push_back('\x12');
}
else {
serverTextLink.append(segments[segment_iter]);
}
}
}
}
// end namespace RoF2
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