/* dbx_tree: tree database driver for Miranda IM Copyright 2007-2010 Michael "Protogenes" Kunz, This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "Events.h" #ifndef _MSC_VER #include "savestrings_gcc.h" #endif CEventsTypeManager::CEventsTypeManager(CEntities & Entities, CSettings & Settings) : m_Entities(Entities), m_Settings(Settings), m_Map() { m_Settings._EnsureModuleExists("$EventTypes"); } CEventsTypeManager::~CEventsTypeManager() { TTypeMap::iterator it = m_Map.begin(); while (it != m_Map.end()) { delete [] it->second->ModuleName; delete it->second; ++it; } } uint32_t CEventsTypeManager::MakeGlobalID(char* Module, uint32_t EventType) { uint32_t l = static_cast(strlen(Module)); void * buf = malloc(l + sizeof(uint32_t)); memcpy(buf, Module, l); memcpy(((char*)buf) + l, &EventType, sizeof(uint32_t)); uint32_t h = Hash(buf, l + sizeof(uint32_t)); free(buf); char * m; uint32_t t; while (GetType(h, m, t) && ((t != EventType) || (strcmp(m, Module) != 0))) { ++h; } return h; } bool CEventsTypeManager::GetType(uint32_t GlobalID, char * & Module, uint32_t & EventType) { TTypeMap::iterator it = m_Map.find(GlobalID); if (it == m_Map.end()) { char n[256]; TDBTSettingDescriptor d = {0,0,0,0,0,0,0,0}; d.cbSize = sizeof(d); d.Entity = m_Entities.getRootEntity(); d.pszSettingName = n; TDBTSetting sid = {0,0,0,0}; TDBTSetting sname = {0,0,0,0}; sid.cbSize = sizeof(sid); sid.Descriptor = &d; sid.Type = DBT_ST_INT; sname.cbSize = sizeof(sname); sname.Descriptor = &d; sname.Type = DBT_ST_ANSI; sprintf_s(n, "$EventTypes/%08x/ModuleID", GlobalID); TDBTSettingHandle h = m_Settings.ReadSetting(sid); if ((h != DBT_INVALIDPARAM) && (h != 0)) { sprintf_s(n, "$EventTypes/%08x/ModuleName", GlobalID); d.Flags = 0; h = m_Settings.ReadSetting(sname); if ((h != DBT_INVALIDPARAM) && (h != 0)) { PEventType t = new TEventType; t->EventType = sid.Value.Int; t->ModuleName = new char[sname.Value.Length]; strcpy_s(t->ModuleName, sname.Value.Length, sname.Value.pAnsi); m_Map.insert(std::make_pair(GlobalID, t)); mir_free(sname.Value.pAnsi); Module = t->ModuleName; EventType = t->EventType; return true; } } } else { Module = it->second->ModuleName; EventType = it->second->EventType; return true; } return false; } uint32_t CEventsTypeManager::EnsureIDExists(char* Module, uint32_t EventType) { uint32_t res = MakeGlobalID(Module, EventType); char * m; uint32_t t; if (!GetType(res, m, t)) { char n[256]; TDBTSettingDescriptor d = {0,0,0,0,0,0,0,0}; d.cbSize = sizeof(d); d.pszSettingName = n; d.Entity = m_Entities.getRootEntity(); TDBTSetting s = {0,0,0,0}; s.cbSize = sizeof(s); s.Descriptor = &d; sprintf_s(n, "$EventTypes/%08x/ModuleID", res); s.Type = DBT_ST_INT; s.Value.Int = EventType; m_Settings.WriteSetting(s); sprintf_s(n, "$EventTypes/%08x/ModuleName", res); d.Flags = 0; s.Type = DBT_ST_ANSI; s.Value.Length = static_cast(strlen(Module) + 1); s.Value.pAnsi = Module; m_Settings.WriteSetting(s); m_Settings._EnsureModuleExists(Module); } return res; } CEvents::CEvents( CBlockManager & BlockManager, CEncryptionManager & EncryptionManager, CEntities & Entities, CSettings & Settings ) : m_BlockManager(BlockManager), m_EncryptionManager(EncryptionManager), m_Entities(Entities), m_Types(Entities, Settings), m_EntityEventsMap() { m_Entities._sigDeleteEvents().connect(this, &CEvents::onDeleteEvents); m_Entities._sigTransferEvents().connect(this, &CEvents::onTransferEvents); } CEvents::~CEvents() { TEntityEventsMap::iterator i = m_EntityEventsMap.begin(); while (i != m_EntityEventsMap.end()) { delete i->second->RealTree; delete i->second->VirtualTree; delete i->second; ++i; } } void CEvents::onRootChanged(void* EventsTree, CEventsTree::TNodeRef NewRoot) { m_Entities._setEventsRoot(reinterpret_cast(EventsTree)->Entity(), NewRoot); } void CEvents::onDeleteEventCallback(void * Tree, const TEventKey & Key, uint32_t Param) { m_BlockManager.DeleteBlock(Key.Event); } void CEvents::onDeleteVirtualEventCallback(void * Tree, const TEventKey & Key, uint32_t Param) { m_BlockManager.DeleteBlock(Key.Event); } void CEvents::onDeleteEvents(CEntities * Entities, TDBTEntityHandle hEntity) { PEntityEventsRecord record = getEntityRecord(hEntity); if (record == NULL) return; m_Entities._setEventsRoot(hEntity, 0); if (record->VirtualCount) { CVirtualEventsTree::TDeleteCallback callback; callback.connect(this, &CEvents::onDeleteVirtualEventCallback); record->VirtualTree->DeleteTree(&callback, hEntity); } delete record->VirtualTree; CEventsTree::TDeleteCallback callback; callback.connect(this, &CEvents::onDeleteEventCallback); record->RealTree->DeleteTree(&callback, hEntity); delete record->RealTree; m_EntityEventsMap.erase(hEntity); } void CEvents::onTransferEvents(CEntities * Entities, TDBTEntityHandle Source, TDBTEntityHandle Dest) { PEntityEventsRecord record = getEntityRecord(Source); if (record == NULL) return; if (record->VirtualCount) { TEventKey key = {0,0}; CVirtualEventsTree::iterator i = record->VirtualTree->LowerBound(key); while (i) { uint32_t sig = cEventSignature; uint32_t size = 0; TEvent * tmp = m_BlockManager.ReadBlock(i->Event, size, sig); if (tmp) { tmp->Entity = Dest; m_BlockManager.UpdateBlock(i->Event); } ++i; } } { TEventKey key = {0,0}; CEventsTree::iterator i = record->RealTree->LowerBound(key); while (i) { uint32_t sig = cEventSignature; uint32_t size = 0; TEvent * tmp = m_BlockManager.ReadBlock(i->Event, size, sig); if (tmp) { tmp->Entity = Dest; m_BlockManager.UpdateBlock(i->Event); } ++i; } m_Entities._setEventsRoot(Source, 0); m_Entities._setEventsRoot(Dest, record->RealTree->getRoot()); m_Entities._adjustEventCount(Dest, m_Entities._getEventCount(Source)); m_Entities._getFirstUnreadEvent(Source, key.Event, key.TimeStamp); m_Entities._setFirstUnreadEvent(Dest, key.Event, key.TimeStamp); } record->VirtualTree->Entity(Dest); record->RealTree->Entity(Dest); m_EntityEventsMap.erase(Source); m_EntityEventsMap.insert(std::make_pair(Dest, record)); } CEvents::PEntityEventsRecord CEvents::getEntityRecord(TDBTEntityHandle hEntity) { TEntityEventsMap::iterator i = m_EntityEventsMap.find(hEntity); if (i != m_EntityEventsMap.end()) return i->second; uint32_t root = m_Entities._getEventsRoot(hEntity); if (root == DBT_INVALIDPARAM) return NULL; PEntityEventsRecord res = new TEntityEventsRecord; res->RealTree = new CEventsTree(m_BlockManager, root, hEntity); res->RealTree->sigRootChanged().connect(this, &CEvents::onRootChanged); res->VirtualTree = new CVirtualEventsTree(hEntity); res->VirtualCount = 0; res->FirstVirtualUnread.TimeStamp = 0; res->FirstVirtualUnread.Event = 0; m_EntityEventsMap.insert(std::make_pair(hEntity, res)); return res; } inline uint32_t CEvents::adjustVirtualEventCount(PEntityEventsRecord Record, int32_t Adjust) { if (((Adjust < 0) && ((uint32_t)(-Adjust) <= Record->VirtualCount)) || ((Adjust > 0) && ((0xffffffff - Record->VirtualCount) > (uint32_t)Adjust))) { Record->VirtualCount += Adjust; } return Record->VirtualCount; } inline bool CEvents::MarkEventsTree(TEventBase::iterator Iterator, TDBTEventHandle FirstUnread) { uint32_t sig, size; bool b = true; bool res = false; while (Iterator && b) { sig = cEventSignature; size = 0; TEvent * event = m_BlockManager.ReadBlock(Iterator->Event, size, sig); if (event) { if (Iterator->Event == FirstUnread) res = true; if ((event->Flags & DBT_EF_READ) == 0) { event->Flags |= DBT_EF_READ; m_BlockManager.UpdateBlock(Iterator->Event); --Iterator; } else { b = false; } } else { --Iterator; } } return res; } inline void CEvents::FindNextUnreadEvent(TEventBase::iterator & Iterator) { uint32_t sig, size; while (Iterator) { sig = cEventSignature; size = 0; TEvent * event = m_BlockManager.ReadBlock(Iterator->Event, size, sig); if (event) { if (event->Flags & DBT_EF_READ) ++Iterator; else return; } else { ++Iterator; } } } unsigned int CEvents::GetBlobSize(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; CBlockManager::ReadTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return DBT_INVALIDPARAM; return event->DataLength; } unsigned int CEvents::Get(TDBTEventHandle hEvent, TDBTEvent & Event) { uint32_t sig = cEventSignature; uint32_t size = 0; CBlockManager::ReadTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return DBT_INVALIDPARAM; uint8_t * blob = reinterpret_cast(event + 1); if (!m_Types.GetType(event->Type, Event.ModuleName, Event.EventType)) { Event.EventType = event->Type; Event.ModuleName = "???"; } Event.Flags = event->Flags; if (m_BlockManager.IsForcedVirtual(hEvent)) Event.Flags |= DBT_EF_VIRTUAL; Event.Timestamp = event->TimeStamp; if (Event.cbBlob < event->DataLength) Event.pBlob = (uint8_t*) mir_realloc(Event.pBlob, event->DataLength); memcpy(Event.pBlob, blob, event->DataLength); Event.cbBlob = event->DataLength; return 0; } unsigned int CEvents::GetCount(TDBTEntityHandle hEntity) { CBlockManager::ReadTransaction trans(m_BlockManager); uint32_t res = m_Entities._getEventCount(hEntity); PEntityEventsRecord record = getEntityRecord(hEntity); if ((res == DBT_INVALIDPARAM) || !record) return DBT_INVALIDPARAM; res = res + record->VirtualCount; // access to Virtual Count need sync, too return res; } unsigned int CEvents::Delete(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; TEventKey key = {0, hEvent}; CBlockManager::WriteTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return DBT_INVALIDPARAM; key.TimeStamp = event->TimeStamp; PEntityEventsRecord record = getEntityRecord(event->Entity); if (!record) return DBT_INVALIDPARAM; if (m_BlockManager.IsForcedVirtual(hEvent)) { if (record->VirtualTree->Delete(key)) { adjustVirtualEventCount(record, -1); if (record->FirstVirtualUnread.Event == hEvent) { CVirtualEventsTree::iterator vi = record->VirtualTree->LowerBound(key); FindNextUnreadEvent(vi); if (vi) { record->FirstVirtualUnread = *vi; } else { record->FirstVirtualUnread.TimeStamp = 0; record->FirstVirtualUnread.Event = 0; } } } } else { // real event if (record->RealTree->Delete(key)) { m_Entities._adjustEventCount(event->Entity, -1); TEventKey unreadkey; m_Entities._getFirstUnreadEvent(event->Entity, unreadkey.Event, unreadkey.TimeStamp); if (unreadkey.Event == hEvent) { CEventsTree::iterator it = record->VirtualTree->LowerBound(key); FindNextUnreadEvent(it); if (it) { m_Entities._setFirstUnreadEvent(event->Entity, it->Event, it->TimeStamp); } else { m_Entities._setFirstUnreadEvent(event->Entity, 0, 0); } } } } m_BlockManager.DeleteBlock(hEvent); return 0; } TDBTEventHandle CEvents::Add(TDBTEntityHandle hEntity, TDBTEvent & Event) { TDBTEventHandle res = 0; TEvent * event; CBlockManager::WriteTransaction trans(m_BlockManager); uint32_t eflags = m_Entities.getFlags(hEntity); PEntityEventsRecord record = getEntityRecord(hEntity); if ((eflags == DBT_INVALIDPARAM) || ((eflags & (DBT_NF_IsGroup | DBT_NF_IsRoot)) == DBT_NF_IsGroup) || // forbid events in groups. but allow root to have system history !record) { return DBT_INVALIDPARAM; } if (eflags & DBT_NF_IsVirtual) hEntity = m_Entities.VirtualGetParent(hEntity); uint8_t *blobdata = Event.pBlob; bool bloballocated = false; if (Event.Flags & DBT_EF_VIRTUAL) { event = m_BlockManager.CreateBlockVirtual(res, cEventSignature, sizeof(TEvent) + Event.cbBlob); } else { event = m_BlockManager.CreateBlock(res, cEventSignature, sizeof(TEvent) + Event.cbBlob); } if (!event) return DBT_INVALIDPARAM; TEventKey key = {0,0}; event->TimeStamp = Event.Timestamp; event->Flags = Event.Flags & ~DBT_EF_VIRTUAL; event->Type = m_Types.EnsureIDExists(Event.ModuleName, Event.EventType); event->DataLength = Event.cbBlob; event->Entity = hEntity; key.TimeStamp = event->TimeStamp; key.Event = res; memcpy(event + 1, Event.pBlob, Event.cbBlob); m_BlockManager.UpdateBlock(res); if (Event.Flags & DBT_EF_VIRTUAL) { record->VirtualTree->Insert(key); adjustVirtualEventCount(record, +1); if (!(Event.Flags & DBT_EF_READ) && ((record->FirstVirtualUnread.Event == 0) || (key < record->FirstVirtualUnread))) { record->FirstVirtualUnread = key; } } else { record->RealTree->Insert(key); m_Entities._adjustEventCount(hEntity, +1); if (!(Event.Flags & DBT_EF_READ)) { TEventKey unreadkey; if (m_Entities._getFirstUnreadEvent(hEntity, unreadkey.Event, unreadkey.TimeStamp) && ((unreadkey.Event == 0) || (key < unreadkey))) { m_Entities._setFirstUnreadEvent(hEntity, key.Event, key.TimeStamp); } } } return res; } unsigned int CEvents::MarkRead(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; TEventKey key = {0, hEvent}; CBlockManager::WriteTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return DBT_INVALIDPARAM; key.TimeStamp = event->TimeStamp; if (event->Flags & DBT_EF_READ) return event->Flags; PEntityEventsRecord record = getEntityRecord(event->Entity); if (!record) return DBT_INVALIDPARAM; CEventsTree::iterator it = record->RealTree->UpperBound(key); CVirtualEventsTree::iterator vi = record->VirtualTree->UpperBound(key); m_Entities._getFirstUnreadEvent(event->Entity, key.Event, key.TimeStamp); if (MarkEventsTree(it, key.Event)) { FindNextUnreadEvent(++it); if (it) { m_Entities._setFirstUnreadEvent(event->Entity, it->Event, it->TimeStamp); } else { m_Entities._setFirstUnreadEvent(event->Entity, 0, 0); } } if (MarkEventsTree(vi, record->FirstVirtualUnread.Event)) { FindNextUnreadEvent(++vi); if (vi) { record->FirstVirtualUnread = *it; } else { record->FirstVirtualUnread.TimeStamp = 0; record->FirstVirtualUnread.Event = 0; } } return event->Flags | DBT_EF_READ; } unsigned int CEvents::WriteToDisk(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; TEventKey key; key.Event = hEvent; CBlockManager::WriteTransaction trans(m_BlockManager); if (!m_BlockManager.IsForcedVirtual(hEvent)) return DBT_INVALIDPARAM; TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event || (size < sizeof(TEvent))) return DBT_INVALIDPARAM; PEntityEventsRecord record = getEntityRecord(event->Entity); if (!record) return DBT_INVALIDPARAM; key.TimeStamp = event->TimeStamp; key.Event = hEvent; if (record->VirtualTree->Delete(key)) adjustVirtualEventCount(record, -1); if (record->RealTree->Insert(key)) m_Entities._adjustEventCount(event->Entity, +1); m_BlockManager.WriteBlockToDisk(hEvent); return 0; } TDBTEntityHandle CEvents::getEntity(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; CBlockManager::ReadTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return DBT_INVALIDPARAM; return event->Entity; } TDBTEventIterationHandle CEvents::IterationInit(TDBTEventIterFilter & Filter) { CBlockManager::ReadTransaction trans(m_BlockManager); PEntityEventsRecord record = getEntityRecord(Filter.hEntity); if (!record) return DBT_INVALIDPARAM; std::queue q; q.push(record->RealTree); q.push(record->VirtualTree); TDBTEntityIterFilter f = {0,0,0,0}; f.cbSize = sizeof(f); f.Options = Filter.Options; TDBTEntityIterationHandle citer = m_Entities.IterationInit(f, Filter.hEntity); if (citer != DBT_INVALIDPARAM) { m_Entities.IterationNext(citer); TDBTEntityHandle c = m_Entities.IterationNext(citer); while (c != 0) { record = getEntityRecord(c); if (record) { q.push(record->RealTree); q.push(record->VirtualTree); } c = m_Entities.IterationNext(citer); } m_Entities.IterationClose(citer); } for (unsigned j = 0; j < Filter.ExtraCount; ++j) { record = getEntityRecord(Filter.ExtraEntities[j]); if (record) { q.push(record->RealTree); q.push(record->VirtualTree); } } PEventIteration iter = new TEventIteration; iter->Filter = Filter; iter->LastEvent = 0; iter->Heap = NULL; TEventKey key; key.TimeStamp = Filter.tSince; key.Event = 0; while (!q.empty()) { TEventBase * b = q.front(); q.pop(); TEventBase::iterator it = b->LowerBound(key); if (it) { TEventBase::iterator * it2 = new TEventBase::iterator(it); it2->setManaged(); if (iter->Heap) { iter->Heap->Insert(*it2); } else { iter->Heap = new TEventsHeap(*it2, TEventsHeap::ITForward, true); } } } if (iter->Heap == NULL) { delete iter; iter = (PEventIteration)DBT_INVALIDPARAM; } return reinterpret_cast(iter); } TDBTEventHandle CEvents::IterationNext(TDBTEventIterationHandle Iteration) { PEventIteration iter = reinterpret_cast(Iteration); CBlockManager::ReadTransaction trans(m_BlockManager); TDBTEventHandle res = 0; TEventBase::iterator it = iter->Heap->Top(); while ((it) && (it.wasDeleted() || ((it->TimeStamp <= iter->Filter.tTill) && (it->Event == iter->LastEvent)))) { iter->Heap->Pop(); it = iter->Heap->Top(); } if ((it) && !it.wasDeleted() && (it->TimeStamp <= iter->Filter.tTill)) { res = it->Event; iter->Heap->Pop(); } if (res) { iter->LastEvent = res; if (iter->Filter.Event) { iter->Filter.Event->EventType = 0; Get(res, *iter->Filter.Event); } } return res; } unsigned int CEvents::IterationClose(TDBTEventIterationHandle Iteration) { PEventIteration iter = reinterpret_cast(Iteration); CBlockManager::ReadTransaction trans(m_BlockManager); delete iter->Heap; delete iter; return 0; } TDBTEventHandle CEvents::compFirstEvent(TDBTEntityHandle hEntity) { CBlockManager::ReadTransaction trans(m_BlockManager); TDBTEventHandle res = 0; PEntityEventsRecord record = getEntityRecord(hEntity); if (!record) return 0; TEventKey key = {0,0}; CEventsTree::iterator i = record->RealTree->LowerBound(key); CVirtualEventsTree::iterator vi = record->VirtualTree->LowerBound(key); if (i && vi) { if (*i < *vi) { res = i->Event; } else { res = vi->Event; } } else if (i) { res = i->Event; } else if (vi) { res = vi->Event; } return res; } TDBTEventHandle CEvents::compFirstUnreadEvent(TDBTEntityHandle hEntity) { CBlockManager::ReadTransaction trans(m_BlockManager); TDBTEventHandle res = 0; PEntityEventsRecord record = getEntityRecord(hEntity); if (!record) return 0; TEventKey key; m_Entities._getFirstUnreadEvent(hEntity, key.Event, key.TimeStamp); if (key.Event) { if (record->FirstVirtualUnread.Event && (record->FirstVirtualUnread < key)) { res = record->FirstVirtualUnread.Event; } else { res = key.Event; } } else if (record->FirstVirtualUnread.Event) { res = record->FirstVirtualUnread.Event; } return res; } TDBTEventHandle CEvents::compLastEvent(TDBTEntityHandle hEntity) { CBlockManager::ReadTransaction trans(m_BlockManager); TDBTEventHandle res = 0; PEntityEventsRecord record = getEntityRecord(hEntity); if (!record) return 0; TEventKey key = {0xffffffff, 0xffffffff}; CEventsTree::iterator i = record->RealTree->UpperBound(key); CVirtualEventsTree::iterator vi = record->VirtualTree->UpperBound(key); if (i && vi) { if (*i > *vi) { res = i->Event; } else { res = vi->Event; } } else if (i) { res = i->Event; } else if (vi) { res = vi->Event; } return res; } TDBTEventHandle CEvents::compNextEvent(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; CBlockManager::ReadTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return 0; TEventKey key = {event->TimeStamp, hEvent}; PEntityEventsRecord record = getEntityRecord(event->Entity); if (!record) return 0; if (key.Event == 0xffffffff) { if (key.TimeStamp == 0xffffffff) { return 0; } else { ++key.TimeStamp; } } else { ++key.Event; } CEventsTree::iterator i = record->RealTree->LowerBound(key); CVirtualEventsTree::iterator vi = record->VirtualTree->LowerBound(key); TDBTEventHandle res = 0; if (i && vi) { if (*i < *vi) { res = i->Event; } else { res = vi->Event; } } else if (i) { res = i->Event; } else if (vi) { res = vi->Event; } return res; } TDBTEventHandle CEvents::compPrevEvent(TDBTEventHandle hEvent) { uint32_t sig = cEventSignature; uint32_t size = 0; CBlockManager::ReadTransaction trans(m_BlockManager); TEvent * event = m_BlockManager.ReadBlock(hEvent, size, sig); if (!event) return 0; TEventKey key = {event->TimeStamp, hEvent}; PEntityEventsRecord record = getEntityRecord(event->Entity); if (!record) return 0; if (key.Event == 0) { if (key.TimeStamp == 0) { return 0; } else { --key.TimeStamp; } } else { --key.Event; } CEventsTree::iterator i = record->RealTree->UpperBound(key); CVirtualEventsTree::iterator vi = record->VirtualTree->UpperBound(key); TDBTEventHandle res = 0; if (i && vi) { if (*i > *vi) { res = i->Event; } else { res = vi->Event; } } else if (i) { res = i->Event; } else if (vi) { res = vi->Event; } return res; }