/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2009 Daniel De Graaf * Copyright (C) 2007 Dennis Friis * Copyright (C) 2004-2006 Craig Edwards * Copyright (C) 2006 Oliver Lupton * * This file is part of InspIRCd. InspIRCd is free software: you can * redistribute it and/or modify it under the terms of the GNU General Public * License as published by the Free Software Foundation, version 2. * * 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, see . */ #include "inspircd.h" #include "base.h" #include #ifdef INSPIRCD_ENABLE_RTTI #include #endif classbase::classbase() { if (ServerInstance) ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "classbase::+ @%p", (void*)this); } CullResult classbase::cull() { if (ServerInstance) #ifdef INSPIRCD_ENABLE_RTTI ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "classbase::-%s @%p", typeid(*this).name(), (void*)this); #else ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "classbase::- @%p", (void*)this); #endif return CullResult(); } classbase::~classbase() { if (ServerInstance) ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "classbase::~ @%p", (void*)this); } CullResult::CullResult() { } // This trick detects heap allocations of refcountbase objects static void* last_heap = NULL; void* refcountbase::operator new(size_t size) { last_heap = ::operator new(size); return last_heap; } void refcountbase::operator delete(void* obj) { if (last_heap == obj) last_heap = NULL; ::operator delete(obj); } refcountbase::refcountbase() : refcount(0) { if (this != last_heap) throw CoreException("Reference allocate on the stack!"); } refcountbase::~refcountbase() { if (refcount && ServerInstance) ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "refcountbase::~ @%p with refcount %d", (void*)this, refcount); } usecountbase::~usecountbase() { if (usecount && ServerInstance) ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "usecountbase::~ @%p with refcount %d", (void*)this, usecount); } ServiceProvider::~ServiceProvider() { } ExtensionItem::ExtensionItem(const std::string& Key, ExtensibleType exttype, Module* mod) : ServiceProvider(mod, Key, SERVICE_METADATA) , type(exttype) { } ExtensionItem::~ExtensionItem() { } void* ExtensionItem::get_raw(const Extensible* container) const { Extensible::ExtensibleStore::const_iterator i = container->extensions.find(const_cast(this)); if (i == container->extensions.end()) return NULL; return i->second; } void* ExtensionItem::set_raw(Extensible* container, void* value) { std::pair rv = container->extensions.insert(std::make_pair(this, value)); if (rv.second) { return NULL; } else { void* old = rv.first->second; rv.first->second = value; return old; } } void* ExtensionItem::unset_raw(Extensible* container) { Extensible::ExtensibleStore::iterator i = container->extensions.find(this); if (i == container->extensions.end()) return NULL; void* rv = i->second; container->extensions.erase(i); return rv; } bool ExtensionManager::Register(ExtensionItem* item) { return types.insert(std::make_pair(item->name, item)).second; } void ExtensionManager::BeginUnregister(Module* module, std::vector >& list) { ExtMap::iterator i = types.begin(); while (i != types.end()) { ExtMap::iterator me = i++; ExtensionItem* item = me->second; if (item->creator == module) { list.push_back(item); types.erase(me); } } } ExtensionItem* ExtensionManager::GetItem(const std::string& name) { ExtMap::iterator i = types.find(name); if (i == types.end()) return NULL; return i->second; } void Extensible::doUnhookExtensions(const std::vector >& toRemove) { for(std::vector >::const_iterator i = toRemove.begin(); i != toRemove.end(); ++i) { ExtensionItem* item = *i; ExtensibleStore::iterator e = extensions.find(item); if (e != extensions.end()) { item->free(e->second); extensions.erase(e); } } } Extensible::Extensible() : culled(false) { } CullResult Extensible::cull() { FreeAllExtItems(); culled = true; return classbase::cull(); } void Extensible::FreeAllExtItems() { for(ExtensibleStore::iterator i = extensions.begin(); i != extensions.end(); ++i) { i->first->free(i->second); } extensions.clear(); } Extensible::~Extensible() { if ((!extensions.empty() || !culled) && ServerInstance) ServerInstance->Logs->Log("CULLLIST", LOG_DEBUG, "Extensible destructor called without cull @%p", (void*)this); } LocalExtItem::LocalExtItem(const std::string& Key, ExtensibleType exttype, Module* mod) : ExtensionItem(Key, exttype, mod) { } LocalExtItem::~LocalExtItem() { } std::string LocalExtItem::serialize(SerializeFormat format, const Extensible* container, void* item) const { return ""; } void LocalExtItem::unserialize(SerializeFormat format, Extensible* container, const std::string& value) { } LocalStringExt::LocalStringExt(const std::string& Key, ExtensibleType exttype, Module* Owner) : SimpleExtItem(Key, exttype, Owner) { } LocalStringExt::~LocalStringExt() { } std::string LocalStringExt::serialize(SerializeFormat format, const Extensible* container, void* item) const { if ((item) && (format != FORMAT_NETWORK)) return *static_cast(item); return ""; } void LocalStringExt::unserialize(SerializeFormat format, Extensible* container, const std::string& value) { if (format != FORMAT_NETWORK) set(container, value); } LocalIntExt::LocalIntExt(const std::string& Key, ExtensibleType exttype, Module* mod) : LocalExtItem(Key, exttype, mod) { } LocalIntExt::~LocalIntExt() { } std::string LocalIntExt::serialize(SerializeFormat format, const Extensible* container, void* item) const { if (format == FORMAT_NETWORK) return ""; return ConvToStr(reinterpret_cast(item)); } void LocalIntExt::unserialize(SerializeFormat format, Extensible* container, const std::string& value) { if (format != FORMAT_NETWORK) set(container, ConvToInt(value)); } intptr_t LocalIntExt::get(const Extensible* container) const { return reinterpret_cast(get_raw(container)); } intptr_t LocalIntExt::set(Extensible* container, intptr_t value) { if (value) return reinterpret_cast(set_raw(container, reinterpret_cast(value))); else return reinterpret_cast(unset_raw(container)); } void LocalIntExt::free(void*) { } StringExtItem::StringExtItem(const std::string& Key, ExtensibleType exttype, Module* mod) : ExtensionItem(Key, exttype, mod) { } StringExtItem::~StringExtItem() { } std::string* StringExtItem::get(const Extensible* container) const { return static_cast(get_raw(container)); } std::string StringExtItem::serialize(SerializeFormat format, const Extensible* container, void* item) const { return item ? *static_cast(item) : ""; } void StringExtItem::unserialize(SerializeFormat format, Extensible* container, const std::string& value) { if (value.empty()) unset(container); else set(container, value); } void StringExtItem::set(Extensible* container, const std::string& value) { void* old = set_raw(container, new std::string(value)); delete static_cast(old); } void StringExtItem::unset(Extensible* container) { void* old = unset_raw(container); delete static_cast(old); } void StringExtItem::free(void* item) { delete static_cast(item); } ModuleException::ModuleException(const std::string &message, Module* who) : CoreException(message, who ? who->ModuleSourceFile : "A Module") { }