void InstanceSaveManager::LoadResetTimes()
{
time_t now = time(NULL);
time_t today = (now / DAY) * DAY;
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid/heroic instances so those are skipped
typedef std::pair<uint32 /*PAIR32(map, difficulty)*/, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
// index instance ids by map/difficulty pairs for fast reset warning send
typedef std::multimap<uint32 /*PAIR32(map, difficulty)*/, uint32 /*instanceid*/ > ResetTimeMapDiffInstances;
ResetTimeMapDiffInstances mapDiffResetInstances;
QueryResult result = CharacterDatabase.Query("SELECT id, map, difficulty, resettime FROM instance ORDER BY id ASC");
if (result)
{
do
{
Field* fields = result->Fetch();
uint32 instanceId = fields[0].GetUInt32();
// Instances are pulled in ascending order from db and nextInstanceId is initialized with 1,
// so if the instance id is used, increment until we find the first unused one for a potential new instance
if (sMapMgr->GetNextInstanceId() == instanceId)
sMapMgr->SetNextInstanceId(instanceId + 1);
// Mark instance id as being used
sMapMgr->RegisterInstanceId(instanceId);
if (time_t resettime = time_t(fields[3].GetUInt32()))
{
uint32 mapid = fields[1].GetUInt16();
uint32 difficulty = fields[2].GetUInt8();
instResetTime[instanceId] = ResetTimeMapDiffType(MAKE_PAIR32(mapid, difficulty), resettime);
mapDiffResetInstances.insert(ResetTimeMapDiffInstances::value_type(MAKE_PAIR32(mapid, difficulty), instanceId));
}
}
while (result->NextRow());
// update reset time for normal instances with the max creature respawn time + X hours
if (PreparedQueryResult result2 = CharacterDatabase.Query(CharacterDatabase.GetPreparedStatement(CHAR_SEL_MAX_CREATURE_RESPAWNS)))
{
do
{
Field* fields = result2->Fetch();
uint32 instance = fields[1].GetUInt32();
time_t resettime = time_t(fields[0].GetUInt32() + 2 * HOUR);
InstResetTimeMapDiffType::iterator itr = instResetTime.find(instance);
if (itr != instResetTime.end() && itr->second.second != resettime)
{
CharacterDatabase.DirectPExecute("UPDATE instance SET resettime = '"UI64FMTD"' WHERE id = '%u'", uint64(resettime), instance);
itr->second.second = resettime;
}
}
while (result->NextRow());
}
// schedule the reset times
for (InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if (itr->second.second > now)
ScheduleReset(true, itr->second.second, InstResetEvent(0, PAIR32_LOPART(itr->second.first), Difficulty(PAIR32_HIPART(itr->second.first)), itr->first));
}
// load the global respawn times for raid/heroic instances
uint32 diff = sWorld->getIntConfig(CONFIG_INSTANCE_RESET_TIME_HOUR) * HOUR;
result = CharacterDatabase.Query("SELECT mapid, difficulty, resettime FROM instance_reset");
if (result)
{
do
{
Field* fields = result->Fetch();
uint32 mapid = fields[0].GetUInt16();
Difficulty difficulty = Difficulty(fields[1].GetUInt8());
uint64 oldresettime = fields[2].GetUInt32();
MapDifficulty const* mapDiff = GetMapDifficultyData(mapid, difficulty);
if (!mapDiff)
{
sLog->outError("InstanceSaveManager::LoadResetTimes: invalid mapid(%u)/difficulty(%u) pair in instance_reset!", mapid, difficulty);
CharacterDatabase.DirectPExecute("DELETE FROM instance_reset WHERE mapid = '%u' AND difficulty = '%u'", mapid, difficulty);
continue;
}
// update the reset time if the hour in the configs changes
uint64 newresettime = (oldresettime / DAY) * DAY + diff;
if (oldresettime != newresettime)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '%u' WHERE mapid = '%u' AND difficulty = '%u'", uint32(newresettime), mapid, difficulty);
SetResetTimeFor(mapid, difficulty, newresettime);
} while (result->NextRow());
}
ResetTimeMapDiffInstances::const_iterator in_itr;
// calculate new global reset times for expired instances and those that have never been reset yet
// add the global reset times to the priority queue
for (MapDifficultyMap::const_iterator itr = sMapDifficultyMap.begin(); itr != sMapDifficultyMap.end(); ++itr)
{
uint32 map_diff_pair = itr->first;
uint32 mapid = PAIR32_LOPART(map_diff_pair);
Difficulty difficulty = Difficulty(PAIR32_HIPART(map_diff_pair));
MapDifficulty const* mapDiff = &itr->second;
if (!mapDiff->resetTime)
continue;
// the reset_delay must be at least one day
uint32 period = uint32(((mapDiff->resetTime * sWorld->getRate(RATE_INSTANCE_RESET_TIME))/DAY) * DAY);
if (period < DAY)
period = DAY;
time_t t = GetResetTimeFor(mapid, difficulty);
if (!t)
{
// initialize the reset time
t = today + period + diff;
CharacterDatabase.DirectPExecute("INSERT INTO instance_reset VALUES ('%u', '%u', '%u')", mapid, difficulty, (uint32)t);
}
if (t < now)
{
// assume that expired instances have already been cleaned
// calculate the next reset time
t = (t / DAY) * DAY;
t += ((today - t) / period + 1) * period + diff;
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '"UI64FMTD"' WHERE mapid = '%u' AND difficulty= '%u'", (uint64)t, mapid, difficulty);
}
SetResetTimeFor(mapid, difficulty, t);
// schedule the global reset/warning
uint8 type;
for (type = 1; type < 4; ++type)
if (t - ResetTimeDelay[type-1] > now)
break;
ScheduleReset(true, t - ResetTimeDelay[type-1], InstResetEvent(type, mapid, difficulty, 0));
for (in_itr = mapDiffResetInstances.lower_bound(map_diff_pair); in_itr != mapDiffResetInstances.upper_bound(map_diff_pair); ++in_itr)
ScheduleReset(true, t - ResetTimeDelay[type-1], InstResetEvent(type, mapid, difficulty, in_itr->second));
}
}
void InstanceResetScheduler::LoadResetTimes()
{
time_t now = time(NULL);
time_t today = (now / DAY) * DAY;
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid/heroic instances so those are skipped
typedef std::pair<uint32 /*PAIR32(map,difficulty)*/, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
// index instance ids by map/difficulty pairs for fast reset warning send
typedef std::multimap<uint32 /*PAIR32(map,difficulty)*/, uint32 /*instanceid*/ > ResetTimeMapDiffInstances;
ResetTimeMapDiffInstances mapDiffResetInstances;
QueryResult *result = CharacterDatabase.Query("SELECT id, map, difficulty, resettime FROM instance WHERE resettime > 0");
if( result )
{
do
{
if(time_t resettime = time_t((*result)[3].GetUInt64()))
{
uint32 id = (*result)[0].GetUInt32();
uint32 mapid = (*result)[1].GetUInt32();
uint32 difficulty = (*result)[2].GetUInt32();
instResetTime[id] = ResetTimeMapDiffType(MAKE_PAIR32(mapid,difficulty), resettime);
mapDiffResetInstances.insert(ResetTimeMapDiffInstances::value_type(MAKE_PAIR32(mapid,difficulty),id));
}
}
while (result->NextRow());
delete result;
// update reset time for normal instances with the max creature respawn time + X hours
result = WorldDatabase.Query("SELECT MAX(respawntime), instance FROM creature_respawn WHERE instance > 0 GROUP BY instance");
if( result )
{
do
{
Field *fields = result->Fetch();
uint32 instance = fields[1].GetUInt32();
time_t resettime = time_t(fields[0].GetUInt64() + 2 * HOUR);
InstResetTimeMapDiffType::iterator itr = instResetTime.find(instance);
if(itr != instResetTime.end() && itr->second.second != resettime)
{
CharacterDatabase.DirectPExecute("UPDATE instance SET resettime = '"UI64FMTD"' WHERE id = '%u'", uint64(resettime), instance);
itr->second.second = resettime;
}
}
while (result->NextRow());
delete result;
}
// schedule the reset times
for(InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if(itr->second.second > now)
ScheduleReset(true, itr->second.second, InstanceResetEvent(0, PAIR32_LOPART(itr->second.first),Difficulty(PAIR32_HIPART(itr->second.first)),itr->first));
}
// load the global respawn times for raid/heroic instances
uint32 diff = sWorld.getConfig(CONFIG_UINT32_INSTANCE_RESET_TIME_HOUR) * HOUR;
result = CharacterDatabase.Query("SELECT mapid, difficulty, resettime FROM instance_reset");
if(result)
{
do
{
Field *fields = result->Fetch();
uint32 mapid = fields[0].GetUInt32();
Difficulty difficulty = Difficulty(fields[1].GetUInt32());
uint64 oldresettime = fields[2].GetUInt64();
MapDifficulty const* mapDiff = GetMapDifficultyData(mapid,difficulty);
if(!mapDiff)
{
sLog.outError("InstanceSaveManager::LoadResetTimes: invalid mapid(%u)/difficulty(%u) pair in instance_reset!", mapid, difficulty);
CharacterDatabase.DirectPExecute("DELETE FROM instance_reset WHERE mapid = '%u' AND difficulty = '%u'", mapid,difficulty);
continue;
}
// update the reset time if the hour in the configs changes
uint64 newresettime = (oldresettime / DAY) * DAY + diff;
if(oldresettime != newresettime)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '"UI64FMTD"' WHERE mapid = '%u' AND difficulty = '%u'", newresettime, mapid, difficulty);
SetResetTimeFor(mapid,difficulty,newresettime);
} while(result->NextRow());
delete result;
}
// clean expired instances, references to them will be deleted in CleanupInstances
// must be done before calculating new reset times
m_InstanceSaves._CleanupExpiredInstancesAtTime(now);
// calculate new global reset times for expired instances and those that have never been reset yet
// add the global reset times to the priority queue
for(MapDifficultyMap::const_iterator itr = sMapDifficultyMap.begin(); itr != sMapDifficultyMap.end(); ++itr)
{
uint32 map_diff_pair = itr->first;
uint32 mapid = PAIR32_LOPART(map_diff_pair);
Difficulty difficulty = Difficulty(PAIR32_HIPART(map_diff_pair));
MapDifficulty const* mapDiff = &itr->second;
if (!mapDiff->resetTime)
continue;
// the reset_delay must be at least one day
uint32 period = uint32(mapDiff->resetTime / DAY * sWorld.getConfig(CONFIG_FLOAT_RATE_INSTANCE_RESET_TIME)) * DAY;
if (period < DAY)
period = DAY;
time_t t = GetResetTimeFor(mapid,difficulty);
if(!t)
{
// initialize the reset time
t = today + period + diff;
CharacterDatabase.DirectPExecute("INSERT INTO instance_reset VALUES ('%u','%u','"UI64FMTD"')", mapid, difficulty, (uint64)t);
}
if(t < now)
{
// assume that expired instances have already been cleaned
// calculate the next reset time
t = (t / DAY) * DAY;
t += ((today - t) / period + 1) * period + diff;
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '"UI64FMTD"' WHERE mapid = '%u' AND difficulty= '%u'", (uint64)t, mapid, difficulty);
}
SetResetTimeFor(mapid,difficulty,t);
// schedule the global reset/warning
uint8 type = 1;
static int tim[4] = {3600, 900, 300, 60};
for(; type < 4; type++)
if(t - tim[type-1] > now)
break;
for(ResetTimeMapDiffInstances::const_iterator in_itr = mapDiffResetInstances.lower_bound(map_diff_pair);
in_itr != mapDiffResetInstances.upper_bound(map_diff_pair); ++in_itr)
{
ScheduleReset(true, t - tim[type-1], InstanceResetEvent(type, mapid, difficulty, in_itr->second));
}
}
}
void InstanceResetScheduler::LoadResetTimes()
{
time_t now = time(NULL);
time_t today = (now / DAY) * DAY;
time_t oldest_reset_time = now;
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid/heroic instances so those are skipped
typedef std::pair<uint32 /*PAIR32(map,difficulty)*/, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
QueryResult *result = CharacterDatabase.Query("SELECT id, map, difficulty, resettime FROM instance WHERE resettime > 0");
if( result )
{
do
{
if(time_t resettime = time_t((*result)[3].GetUInt64()))
{
uint32 id = (*result)[0].GetUInt32();
uint32 mapid = (*result)[1].GetUInt32();
uint32 difficulty = (*result)[2].GetUInt32();
instResetTime[id] = ResetTimeMapDiffType(MAKE_PAIR32(mapid,difficulty), resettime);
}
}
while (result->NextRow());
delete result;
// update reset time for normal instances with the max creature respawn time + X hours
result = CharacterDatabase.Query("SELECT MAX(respawntime), instance FROM creature_respawn WHERE instance > 0 GROUP BY instance");
if( result )
{
do
{
Field *fields = result->Fetch();
uint32 instance = fields[1].GetUInt32();
time_t resettime = time_t(fields[0].GetUInt64() + 2 * HOUR);
InstResetTimeMapDiffType::iterator itr = instResetTime.find(instance);
if(itr != instResetTime.end() && itr->second.second != resettime)
{
CharacterDatabase.DirectPExecute("UPDATE instance SET resettime = '"UI64FMTD"' WHERE id = '%u'", uint64(resettime), instance);
itr->second.second = resettime;
}
}
while (result->NextRow());
delete result;
}
// schedule the reset times
for(InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if(itr->second.second > now)
ScheduleReset(true, itr->second.second, InstanceResetEvent(RESET_EVENT_DUNGEON, PAIR32_LOPART(itr->second.first),Difficulty(PAIR32_HIPART(itr->second.first)),itr->first));
}
// load the global respawn times for raid/heroic instances
uint32 diff = sWorld.getConfig(CONFIG_UINT32_INSTANCE_RESET_TIME_HOUR) * HOUR;
result = CharacterDatabase.Query("SELECT mapid, difficulty, resettime FROM instance_reset");
if(result)
{
do
{
Field *fields = result->Fetch();
uint32 mapid = fields[0].GetUInt32();
Difficulty difficulty = Difficulty(fields[1].GetUInt32());
uint64 oldresettime = fields[2].GetUInt64();
MapDifficulty const* mapDiff = GetMapDifficultyData(mapid,difficulty);
if(!mapDiff)
{
sLog.outError("InstanceSaveManager::LoadResetTimes: invalid mapid(%u)/difficulty(%u) pair in instance_reset!", mapid, difficulty);
CharacterDatabase.DirectPExecute("DELETE FROM instance_reset WHERE mapid = '%u' AND difficulty = '%u'", mapid,difficulty);
continue;
}
// update the reset time if the hour in the configs changes
uint32 offset = sMapStore.LookupEntry(mapid)->instanceResetOffset;
uint64 start_point = INSTANCE_RESET_SCHEDULE_START_TIME + offset + diff;
uint64 newresettime = start_point + uint32((oldresettime - start_point) / DAY) * DAY;
if(oldresettime != newresettime)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '"UI64FMTD"' WHERE mapid = '%u' AND difficulty = '%u'", newresettime, mapid, difficulty);
SetResetTimeFor(mapid,difficulty,newresettime);
} while(result->NextRow());
delete result;
}
// clean expired instances, references to them will be deleted in CleanupInstances
// must be done before calculating new reset times
m_InstanceSaves._CleanupExpiredInstancesAtTime(now);
// calculate new global reset times for expired instances and those that have never been reset yet
// add the global reset times to the priority queue
for(MapDifficultyMap::const_iterator itr = sMapDifficultyMap.begin(); itr != sMapDifficultyMap.end(); ++itr)
{
uint32 map_diff_pair = itr->first;
uint32 mapid = PAIR32_LOPART(map_diff_pair);
Difficulty difficulty = Difficulty(PAIR32_HIPART(map_diff_pair));
MapDifficulty const* mapDiff = &itr->second;
// skip mapDiff without global reset time
if (!mapDiff->resetTime)
continue;
uint32 period = GetMaxResetTimeFor(mapDiff);
time_t t = GetResetTimeFor(mapid,difficulty);
if(!t || t < now)
{
bool existsInDB = bool(t);
uint32 offset = sMapStore.LookupEntry(mapid)->instanceResetOffset;
uint64 start_point = INSTANCE_RESET_SCHEDULE_START_TIME + offset + diff;
t = start_point + uint32(ceil(float(now - start_point) / period) * period);
if(existsInDB)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '"UI64FMTD"' WHERE mapid = '%u' AND difficulty= '%u'", (uint64)t, mapid, difficulty);
else
CharacterDatabase.DirectPExecute("INSERT INTO instance_reset VALUES ('%u','%u','"UI64FMTD"')", mapid, difficulty, (uint64)t);
}
SetResetTimeFor(mapid,difficulty,t);
// schedule the global reset/warning
ResetEventType type = RESET_EVENT_INFORM_1;
for(; type < RESET_EVENT_INFORM_LAST; type = ResetEventType(type+1))
if(t - resetEventTypeDelay[type] > now)
break;
ScheduleReset(true, t - resetEventTypeDelay[type], InstanceResetEvent(type, mapid, difficulty, 0));
}
}
void DungeonResetScheduler::LoadResetTimes()
{
time_t const now = time(NULL);
time_t const today = (now / DAY) * DAY;
time_t const nextWeek = today + (7 * DAY);
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid/heroic instances so those are skipped
typedef std::pair<uint32 /*PAIR32(map,difficulty)*/, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
QueryResult *result = CharacterDatabase.Query("SELECT id, map, difficulty, resettime FROM instance WHERE resettime > 0");
if( result )
{
do
{
if (time_t resettime = time_t((*result)[3].GetUInt64()))
{
uint32 id = (*result)[0].GetUInt32();
uint32 mapid = (*result)[1].GetUInt32();
uint32 difficulty = (*result)[2].GetUInt32();
MapEntry const* mapEntry = sMapStore.LookupEntry(mapid);
MapDifficultyEntry const* mapDiff = GetMapDifficultyData(mapid,Difficulty(difficulty));
if (!mapEntry || !mapEntry->IsDungeon() || !mapDiff)
{
sMapPersistentStateMgr.DeleteInstanceFromDB(id);
continue;
}
//if in DBC no resettime - sedule resettime from DB
if (!mapDiff->resetTime)
instResetTime[id] = ResetTimeMapDiffType(MAKE_PAIR32(mapid,difficulty), resettime);
}
}
while (result->NextRow());
delete result;
// update reset time for normal instances with the max creature respawn time + X hours
result = CharacterDatabase.Query("SELECT MAX(respawntime), instance FROM creature_respawn WHERE instance > 0 GROUP BY instance");
if( result )
{
do
{
Field* fields = result->Fetch();
time_t resettime = time_t(fields[0].GetUInt64() + 2 * HOUR);
uint32 instance = fields[1].GetUInt32();
InstResetTimeMapDiffType::iterator itr = instResetTime.find(instance);
if(itr != instResetTime.end() && itr->second.second != resettime)
{
CharacterDatabase.DirectPExecute("UPDATE instance SET resettime = '" UI64FMTD "' WHERE id = '%u'", uint64(resettime), instance);
itr->second.second = resettime;
}
}
while (result->NextRow());
delete result;
}
// schedule the reset times
for(InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if(itr->second.second > now)
ScheduleReset(true, itr->second.second, DungeonResetEvent(RESET_EVENT_NORMAL_DUNGEON, PAIR32_LOPART(itr->second.first),Difficulty(PAIR32_HIPART(itr->second.first)),itr->first));
}
// load the global respawn times for raid/heroic instances
uint32 diff = sWorld.getConfig(CONFIG_UINT32_INSTANCE_RESET_TIME_HOUR) * HOUR;
result = CharacterDatabase.Query("SELECT mapid, difficulty, resettime FROM instance_reset");
if(result)
{
do
{
Field* fields = result->Fetch();
time_t oldresettime;
uint32 mapid = fields[0].GetUInt32();
Difficulty difficulty = Difficulty(fields[1].GetUInt32());
uint64 _oldresettime = fields[2].GetUInt64();
if (_oldresettime > uint64(time(NULL) + INSTANCE_MAX_RESET_OFFSET))
{
MapDifficultyEntry const* mapDiff = GetMapDifficultyData(mapid,Difficulty(difficulty));
oldresettime = DungeonResetScheduler::CalculateNextResetTime(mapDiff);
sLog.outErrorDb("Wrong reset time in group_instance corrected to: %ld", oldresettime);
}
else
oldresettime = time_t(_oldresettime);
MapEntry const* mapEntry = sMapStore.LookupEntry(mapid);
if (!mapEntry || !mapEntry->IsDungeon() || !GetMapDifficultyData(mapid,difficulty))
{
sLog.outError("MapPersistentStateManager::LoadResetTimes: invalid mapid(%u)/difficulty(%u) pair in instance_reset!", mapid, difficulty);
CharacterDatabase.DirectPExecute("DELETE FROM instance_reset WHERE mapid = '%u' AND difficulty = '%u'", mapid,difficulty);
continue;
}
// update the reset time if the hour in the configs changes
time_t newresettime = (oldresettime / DAY) * DAY + diff;
if(oldresettime != newresettime && newresettime > now)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '" UI64FMTD "' WHERE mapid = '%u' AND difficulty = '%u'", (uint64)newresettime, mapid, difficulty);
SetResetTimeFor(mapid,difficulty,newresettime);
} while(result->NextRow());
delete result;
}
// clean expired instances, references to them will be deleted in CleanupInstances
// must be done before calculating new reset times
m_InstanceSaves._CleanupExpiredInstancesAtTime(now);
// calculate new global reset times for expired instances and those that have never been reset yet
// add the global reset times to the priority queue
for(MapDifficultyMap::const_iterator itr = sMapDifficultyMap.begin(); itr != sMapDifficultyMap.end(); ++itr)
{
uint32 map_diff_pair = itr->first;
uint32 mapid = PAIR32_LOPART(map_diff_pair);
Difficulty difficulty = Difficulty(PAIR32_HIPART(map_diff_pair));
MapDifficultyEntry const* mapDiff = itr->second;
// skip mapDiff without global reset time
if (!mapDiff->resetTime)
continue;
MapEntry const* mapEntry = sMapStore.LookupEntry(mapid);
if (!mapEntry || !mapEntry->IsDungeon())
continue;
//time_t period = GetMaxResetTimeFor(mapDiff);
time_t t = GetResetTimeFor(mapid,difficulty);
if (!t || t < now || t > nextWeek)
{
t = CalculateNextResetTime(mapDiff);
CharacterDatabase.DirectPExecute("REPLACE INTO instance_reset VALUES ('%u','%u','" UI64FMTD "')", mapid, difficulty, (uint64)t);
}
SetResetTimeFor(mapid,difficulty,t);
// schedule the global reset/warning
ResetEventType type = RESET_EVENT_INFORM_1;
for (; type < RESET_EVENT_INFORM_LAST; type = ResetEventType(type + 1))
if (t > time_t(now + resetEventTypeDelay[type]))
break;
ScheduleReset(true, t - resetEventTypeDelay[type], DungeonResetEvent(type, mapid, difficulty, 0));
}
}
void InstanceSaveManager::LoadResetTimes()
{
time_t now = time(NULL);
time_t today = (now / DAY) * DAY;
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid instances so those are skipped
typedef std::pair<uint32, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
// index instance ids by map pairs for fast reset warning send
typedef std::multimap<uint32, uint32 /*instanceid*/ > ResetTimeMapDiffInstances;
ResetTimeMapDiffInstances mapDiffResetInstances;
QueryResult result = CharacterDatabase.Query("SELECT id, map, resettime FROM instance ORDER BY id ASC");
if (result)
{
do
{
Field* fields = result->Fetch();
uint32 instanceId = fields[0].GetUInt32();
// Instances are pulled in ascending order from db and nextInstanceId is initialized with 1,
// so if the instance id is used, increment until we find the first unused one for a potential new instance
if (sMapMgr->GetNextInstanceId() == instanceId)
sMapMgr->SetNextInstanceId(instanceId + 1);
// Mark instance id as being used
sMapMgr->RegisterInstanceId(instanceId);
if (time_t resettime = time_t(fields[3].GetUInt32()))
{
uint32 mapid = fields[1].GetUInt16();
instResetTime[instanceId] = ResetTimeMapDiffType(MAKE_PAIR32(mapid), resettime);
mapDiffResetInstances.insert(ResetTimeMapDiffInstances::value_type(MAKE_PAIR32(mapid), instanceId));
}
}
while (result->NextRow());
// update reset time for normal instances with the max creature respawn time + X hours
if (PreparedQueryResult result2 = CharacterDatabase.Query(CharacterDatabase.GetPreparedStatement(CHAR_SEL_MAX_CREATURE_RESPAWNS)))
{
do
{
Field* fields = result2->Fetch();
uint32 instance = fields[1].GetUInt32();
time_t resettime = time_t(fields[0].GetUInt32() + 2 * HOUR);
InstResetTimeMapDiffType::iterator itr = instResetTime.find(instance);
if (itr != instResetTime.end() && itr->second.second != resettime)
{
CharacterDatabase.DirectPExecute("UPDATE instance SET resettime = '"UI64FMTD"' WHERE id = '%u'", uint64(resettime), instance);
itr->second.second = resettime;
}
}
while (result->NextRow());
}
// schedule the reset times
for (InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if (itr->second.second > now)
ScheduleReset(true, itr->second.second, InstResetEvent(0, PAIR32_LOPART(itr->second.first), itr->first));
}
// load the global respawn times for raid instances
uint32 diff = sWorld->getIntConfig(CONFIG_INSTANCE_RESET_TIME_HOUR) * HOUR;
result = CharacterDatabase.Query("SELECT mapid, resettime FROM instance_reset");
if (result)
{
do
{
Field* fields = result->Fetch();
uint32 mapid = fields[0].GetUInt16();
uint64 oldresettime = fields[2].GetUInt32();
// update the reset time if the hour in the configs changes
uint64 newresettime = (oldresettime / DAY) * DAY + diff;
if (oldresettime != newresettime)
CharacterDatabase.DirectPExecute("UPDATE instance_reset SET resettime = '%u' WHERE mapid = '%u'", uint32(newresettime), mapid);
SetResetTimeFor(mapid, newresettime);
} while (result->NextRow());
}
ResetTimeMapDiffInstances::const_iterator in_itr;
}
void InstanceSaveManager::LoadResetTimes()
{
time_t now = GameTime::GetGameTime();
time_t today = (now / DAY) * DAY;
// NOTE: Use DirectPExecute for tables that will be queried later
// get the current reset times for normal instances (these may need to be updated)
// these are only kept in memory for InstanceSaves that are loaded later
// resettime = 0 in the DB for raid/heroic instances so those are skipped
typedef std::pair<uint32 /*PAIR32(map, difficulty)*/, time_t> ResetTimeMapDiffType;
typedef std::map<uint32, ResetTimeMapDiffType> InstResetTimeMapDiffType;
InstResetTimeMapDiffType instResetTime;
// index instance ids by map/difficulty pairs for fast reset warning send
typedef std::multimap<uint32 /*PAIR32(map, difficulty)*/, uint32 /*instanceid*/ > ResetTimeMapDiffInstances;
typedef std::pair<ResetTimeMapDiffInstances::const_iterator, ResetTimeMapDiffInstances::const_iterator> ResetTimeMapDiffInstancesBounds;
ResetTimeMapDiffInstances mapDiffResetInstances;
if (QueryResult result = CharacterDatabase.Query("SELECT id, map, difficulty, resettime FROM instance ORDER BY id ASC"))
{
do
{
Field* fields = result->Fetch();
uint32 instanceId = fields[0].GetUInt32();
// Mark instance id as being used
sMapMgr->RegisterInstanceId(instanceId);
if (time_t resettime = time_t(fields[3].GetUInt64()))
{
uint32 mapid = fields[1].GetUInt16();
uint32 difficulty = fields[2].GetUInt8();
instResetTime[instanceId] = ResetTimeMapDiffType(MAKE_PAIR32(mapid, difficulty), resettime);
mapDiffResetInstances.insert(ResetTimeMapDiffInstances::value_type(MAKE_PAIR32(mapid, difficulty), instanceId));
}
}
while (result->NextRow());
// schedule the reset times
for (InstResetTimeMapDiffType::iterator itr = instResetTime.begin(); itr != instResetTime.end(); ++itr)
if (itr->second.second > now)
ScheduleReset(true, itr->second.second, InstResetEvent(0, PAIR32_LOPART(itr->second.first), Difficulty(PAIR32_HIPART(itr->second.first)), itr->first));
}
// load the global respawn times for raid/heroic instances
uint32 diff = sWorld->getIntConfig(CONFIG_INSTANCE_RESET_TIME_HOUR) * HOUR;
if (QueryResult result = CharacterDatabase.Query("SELECT mapid, difficulty, resettime FROM instance_reset"))
{
do
{
Field* fields = result->Fetch();
uint32 mapid = fields[0].GetUInt16();
Difficulty difficulty = Difficulty(fields[1].GetUInt8());
uint64 oldresettime = fields[2].GetUInt64();
MapDifficulty const* mapDiff = GetMapDifficultyData(mapid, difficulty);
if (!mapDiff)
{
TC_LOG_ERROR("misc", "InstanceSaveManager::LoadResetTimes: invalid mapid(%u)/difficulty(%u) pair in instance_reset!", mapid, difficulty);
PreparedStatement* stmt = CharacterDatabase.GetPreparedStatement(CHAR_DEL_GLOBAL_INSTANCE_RESETTIME);
stmt->setUInt16(0, uint16(mapid));
stmt->setUInt8(1, uint8(difficulty));
CharacterDatabase.DirectExecute(stmt);
continue;
}
// update the reset time if the hour in the configs changes
uint64 newresettime = (oldresettime / DAY) * DAY + diff;
if (oldresettime != newresettime)
{
PreparedStatement* stmt = CharacterDatabase.GetPreparedStatement(CHAR_UPD_GLOBAL_INSTANCE_RESETTIME);
stmt->setUInt64(0, uint64(newresettime));
stmt->setUInt16(1, uint16(mapid));
stmt->setUInt8(2, uint8(difficulty));
CharacterDatabase.DirectExecute(stmt);
}
InitializeResetTimeFor(mapid, difficulty, newresettime);
} while (result->NextRow());
}
// calculate new global reset times for expired instances and those that have never been reset yet
// add the global reset times to the priority queue
for (MapDifficultyMap::const_iterator itr = sMapDifficultyMap.begin(); itr != sMapDifficultyMap.end(); ++itr)
{
uint32 map_diff_pair = itr->first;
uint32 mapid = PAIR32_LOPART(map_diff_pair);
Difficulty difficulty = Difficulty(PAIR32_HIPART(map_diff_pair));
MapDifficulty const* mapDiff = &itr->second;
if (!mapDiff->resetTime)
continue;
// the reset_delay must be at least one day
uint32 period = uint32(((mapDiff->resetTime * sWorld->getRate(RATE_INSTANCE_RESET_TIME))/DAY) * DAY);
if (period < DAY)
period = DAY;
time_t t = GetResetTimeFor(mapid, difficulty);
if (!t)
{
// initialize the reset time
t = today + period + diff;
PreparedStatement* stmt = CharacterDatabase.GetPreparedStatement(CHAR_INS_GLOBAL_INSTANCE_RESETTIME);
stmt->setUInt16(0, uint16(mapid));
stmt->setUInt8(1, uint8(difficulty));
stmt->setUInt64(2, uint64(t));
CharacterDatabase.DirectExecute(stmt);
}
if (t < now)
{
// assume that expired instances have already been cleaned
// calculate the next reset time
t = (t / DAY) * DAY;
t += ((today - t) / period + 1) * period + diff;
PreparedStatement* stmt = CharacterDatabase.GetPreparedStatement(CHAR_UPD_GLOBAL_INSTANCE_RESETTIME);
stmt->setUInt64(0, uint64(t));
stmt->setUInt16(1, uint16(mapid));
stmt->setUInt8(2, uint8(difficulty));
CharacterDatabase.DirectExecute(stmt);
}
InitializeResetTimeFor(mapid, difficulty, t);
// schedule the global reset/warning
uint8 type;
for (type = 1; type < 4; ++type)
if (t - ResetTimeDelay[type-1] > now)
break;
ScheduleReset(true, t - ResetTimeDelay[type-1], InstResetEvent(type, mapid, difficulty, 0));
ResetTimeMapDiffInstancesBounds range = mapDiffResetInstances.equal_range(map_diff_pair);
for (; range.first != range.second; ++range.first)
ScheduleReset(true, t - ResetTimeDelay[type-1], InstResetEvent(type, mapid, difficulty, range.first->second));
}
}