/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #include "db_ido_mysql/idomysqlconnection.hpp" #include "db_ido_mysql/idomysqlconnection-ti.cpp" #include "db_ido/dbtype.hpp" #include "db_ido/dbvalue.hpp" #include "base/logger.hpp" #include "base/objectlock.hpp" #include "base/convert.hpp" #include "base/utility.hpp" #include "base/perfdatavalue.hpp" #include "base/application.hpp" #include "base/configtype.hpp" #include "base/exception.hpp" #include "base/statsfunction.hpp" #include "base/defer.hpp" #include using namespace icinga; REGISTER_TYPE(IdoMysqlConnection); REGISTER_STATSFUNCTION(IdoMysqlConnection, &IdoMysqlConnection::StatsFunc); const char * IdoMysqlConnection::GetLatestSchemaVersion() const noexcept { return "1.15.1"; } const char * IdoMysqlConnection::GetCompatSchemaVersion() const noexcept { return "1.14.3"; } void IdoMysqlConnection::OnConfigLoaded() { ObjectImpl::OnConfigLoaded(); m_QueryQueue.SetName("IdoMysqlConnection, " + GetName()); Library shimLibrary{"mysql_shim"}; auto create_mysql_shim = shimLibrary.GetSymbolAddress("create_mysql_shim"); m_Mysql.reset(create_mysql_shim()); std::swap(m_Library, shimLibrary); } void IdoMysqlConnection::StatsFunc(const Dictionary::Ptr& status, const Array::Ptr& perfdata) { DictionaryData nodes; for (const IdoMysqlConnection::Ptr& idomysqlconnection : ConfigType::GetObjectsByType()) { size_t queryQueueItems = idomysqlconnection->m_QueryQueue.GetLength(); double queryQueueItemRate = idomysqlconnection->m_QueryQueue.GetTaskCount(60) / 60.0; nodes.emplace_back(idomysqlconnection->GetName(), new Dictionary({ { "version", idomysqlconnection->GetSchemaVersion() }, { "instance_name", idomysqlconnection->GetInstanceName() }, { "connected", idomysqlconnection->GetConnected() }, { "query_queue_items", queryQueueItems }, { "query_queue_item_rate", queryQueueItemRate } })); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_queries_rate", idomysqlconnection->GetQueryCount(60) / 60.0)); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_queries_1min", idomysqlconnection->GetQueryCount(60))); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_queries_5mins", idomysqlconnection->GetQueryCount(5 * 60))); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_queries_15mins", idomysqlconnection->GetQueryCount(15 * 60))); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_query_queue_items", queryQueueItems)); perfdata->Add(new PerfdataValue("idomysqlconnection_" + idomysqlconnection->GetName() + "_query_queue_item_rate", queryQueueItemRate)); } status->Set("idomysqlconnection", new Dictionary(std::move(nodes))); } void IdoMysqlConnection::Resume() { Log(LogInformation, "IdoMysqlConnection") << "'" << GetName() << "' resumed."; SetConnected(false); m_QueryQueue.SetExceptionCallback([this](boost::exception_ptr exp) { ExceptionHandler(std::move(exp)); }); /* Immediately try to connect on Resume() without timer. */ m_QueryQueue.Enqueue([this]() { Reconnect(); }, PriorityImmediate); m_TxTimer = Timer::Create(); m_TxTimer->SetInterval(1); m_TxTimer->OnTimerExpired.connect([this](const Timer * const&) { NewTransaction(); }); m_TxTimer->Start(); m_ReconnectTimer = Timer::Create(); m_ReconnectTimer->SetInterval(10); m_ReconnectTimer->OnTimerExpired.connect([this](const Timer * const&){ ReconnectTimerHandler(); }); m_ReconnectTimer->Start(); /* Start with queries after connect. */ DbConnection::Resume(); ASSERT(m_Mysql->thread_safe()); } void IdoMysqlConnection::Pause() { Log(LogDebug, "IdoMysqlConnection") << "Attempting to pause '" << GetName() << "'."; DbConnection::Pause(); m_ReconnectTimer->Stop(true); m_TxTimer->Stop(true); #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Rescheduling disconnect task."; #endif /* I2_DEBUG */ Log(LogInformation, "IdoMysqlConnection") << "'" << GetName() << "' paused."; } void IdoMysqlConnection::ExceptionHandler(boost::exception_ptr exp) { Log(LogCritical, "IdoMysqlConnection", "Exception during database operation: Verify that your database is operational!"); Log(LogDebug, "IdoMysqlConnection") << "Exception during database operation: " << DiagnosticInformation(std::move(exp)); if (GetConnected()) { m_Mysql->close(&m_Connection); SetConnected(false); } } void IdoMysqlConnection::AssertOnWorkQueue() { ASSERT(m_QueryQueue.IsWorkerThread()); } void IdoMysqlConnection::Disconnect() { AssertOnWorkQueue(); if (!GetConnected()) return; Query("COMMIT"); m_Mysql->close(&m_Connection); SetConnected(false); Log(LogInformation, "IdoMysqlConnection") << "Disconnected from '" << GetName() << "' database '" << GetDatabase() << "'."; } void IdoMysqlConnection::NewTransaction() { if (IsPaused() && GetPauseCalled()) return; #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling new transaction and finishing async queries."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this]() { InternalNewTransaction(); }, PriorityHigh); } void IdoMysqlConnection::InternalNewTransaction() { AssertOnWorkQueue(); if (!GetConnected()) return; IncreasePendingQueries(2); AsyncQuery("COMMIT"); AsyncQuery("BEGIN"); FinishAsyncQueries(); } void IdoMysqlConnection::ReconnectTimerHandler() { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling reconnect task."; #endif /* I2_DEBUG */ /* Only allow Reconnect events with high priority. */ m_QueryQueue.Enqueue([this]() { Reconnect(); }, PriorityImmediate); } void IdoMysqlConnection::Reconnect() { AssertOnWorkQueue(); if (!IsActive()) return; CONTEXT("Reconnecting to MySQL IDO database '" << GetName() << "'"); double startTime = Utility::GetTime(); SetShouldConnect(true); bool reconnect = false; /* Ensure to close old connections first. */ if (GetConnected()) { /* Check if we're really still connected */ if (m_Mysql->ping(&m_Connection) == 0) return; m_Mysql->close(&m_Connection); SetConnected(false); reconnect = true; } Log(LogDebug, "IdoMysqlConnection") << "Reconnect: Clearing ID cache."; ClearIDCache(); String ihost, isocket_path, iuser, ipasswd, idb; String isslKey, isslCert, isslCa, isslCaPath, isslCipher; const char *host, *socket_path, *user , *passwd, *db; const char *sslKey, *sslCert, *sslCa, *sslCaPath, *sslCipher; bool enableSsl; long port; ihost = GetHost(); isocket_path = GetSocketPath(); iuser = GetUser(); ipasswd = GetPassword(); idb = GetDatabase(); enableSsl = GetEnableSsl(); isslKey = GetSslKey(); isslCert = GetSslCert(); isslCa = GetSslCa(); isslCaPath = GetSslCapath(); isslCipher = GetSslCipher(); host = (!ihost.IsEmpty()) ? ihost.CStr() : nullptr; port = GetPort(); socket_path = (!isocket_path.IsEmpty()) ? isocket_path.CStr() : nullptr; user = (!iuser.IsEmpty()) ? iuser.CStr() : nullptr; passwd = (!ipasswd.IsEmpty()) ? ipasswd.CStr() : nullptr; db = (!idb.IsEmpty()) ? idb.CStr() : nullptr; sslKey = (!isslKey.IsEmpty()) ? isslKey.CStr() : nullptr; sslCert = (!isslCert.IsEmpty()) ? isslCert.CStr() : nullptr; sslCa = (!isslCa.IsEmpty()) ? isslCa.CStr() : nullptr; sslCaPath = (!isslCaPath.IsEmpty()) ? isslCaPath.CStr() : nullptr; sslCipher = (!isslCipher.IsEmpty()) ? isslCipher.CStr() : nullptr; /* connection */ if (!m_Mysql->init(&m_Connection)) { Log(LogCritical, "IdoMysqlConnection") << "mysql_init() failed: out of memory"; BOOST_THROW_EXCEPTION(std::bad_alloc()); } /* Read "latin1" (here, in the schema and in Icinga Web) as "bytes". Icinga 2 and Icinga Web use byte-strings everywhere and every byte-string is a valid latin1 string. This way the (actually mostly UTF-8) bytes are transferred end-to-end as-is. */ m_Mysql->options(&m_Connection, MYSQL_SET_CHARSET_NAME, "latin1"); if (enableSsl) m_Mysql->ssl_set(&m_Connection, sslKey, sslCert, sslCa, sslCaPath, sslCipher); if (!m_Mysql->real_connect(&m_Connection, host, user, passwd, db, port, socket_path, CLIENT_FOUND_ROWS | CLIENT_MULTI_STATEMENTS)) { Log(LogCritical, "IdoMysqlConnection") << "Connection to database '" << db << "' with user '" << user << "' on '" << host << ":" << port << "' " << (enableSsl ? "(SSL enabled) " : "") << "failed: \"" << m_Mysql->error(&m_Connection) << "\""; BOOST_THROW_EXCEPTION(std::runtime_error(m_Mysql->error(&m_Connection))); } Log(LogNotice, "IdoMysqlConnection") << "Reconnect: '" << GetName() << "' is now connected to database '" << GetDatabase() << "'."; SetConnected(true); IdoMysqlResult result = Query("SELECT @@global.max_allowed_packet AS max_allowed_packet"); Dictionary::Ptr row = FetchRow(result); if (row) m_MaxPacketSize = row->Get("max_allowed_packet"); else m_MaxPacketSize = 64 * 1024; DiscardRows(result); String dbVersionName = "idoutils"; result = Query("SELECT version FROM " + GetTablePrefix() + "dbversion WHERE name='" + Escape(dbVersionName) + "'"); row = FetchRow(result); if (!row) { m_Mysql->close(&m_Connection); SetConnected(false); Log(LogCritical, "IdoMysqlConnection", "Schema does not provide any valid version! Verify your schema installation."); BOOST_THROW_EXCEPTION(std::runtime_error("Invalid schema.")); } DiscardRows(result); String version = row->Get("version"); SetSchemaVersion(version); if (Utility::CompareVersion(GetCompatSchemaVersion(), version) < 0) { m_Mysql->close(&m_Connection); SetConnected(false); Log(LogCritical, "IdoMysqlConnection") << "Schema version '" << version << "' does not match the required version '" << GetCompatSchemaVersion() << "' (or newer)! Please check the upgrade documentation at " << "https://icinga.com/docs/icinga2/latest/doc/16-upgrading-icinga-2/#upgrading-mysql-db"; BOOST_THROW_EXCEPTION(std::runtime_error("Schema version mismatch.")); } String instanceName = GetInstanceName(); result = Query("SELECT instance_id FROM " + GetTablePrefix() + "instances WHERE instance_name = '" + Escape(instanceName) + "'"); row = FetchRow(result); if (!row) { Query("INSERT INTO " + GetTablePrefix() + "instances (instance_name, instance_description) VALUES ('" + Escape(instanceName) + "', '" + Escape(GetInstanceDescription()) + "')"); m_InstanceID = GetLastInsertID(); } else { m_InstanceID = DbReference(row->Get("instance_id")); } DiscardRows(result); Endpoint::Ptr my_endpoint = Endpoint::GetLocalEndpoint(); /* we have an endpoint in a cluster setup, so decide if we can proceed here */ if (my_endpoint && GetHAMode() == HARunOnce) { /* get the current endpoint writing to programstatus table */ result = Query("SELECT UNIX_TIMESTAMP(status_update_time) AS status_update_time, endpoint_name FROM " + GetTablePrefix() + "programstatus WHERE instance_id = " + Convert::ToString(m_InstanceID)); row = FetchRow(result); DiscardRows(result); String endpoint_name; if (row) endpoint_name = row->Get("endpoint_name"); else Log(LogNotice, "IdoMysqlConnection", "Empty program status table"); /* if we did not write into the database earlier, another instance is active */ if (endpoint_name != my_endpoint->GetName()) { double status_update_time; if (row) status_update_time = row->Get("status_update_time"); else status_update_time = 0; double now = Utility::GetTime(); double status_update_age = now - status_update_time; double failoverTimeout = GetFailoverTimeout(); if (status_update_age < failoverTimeout) { Log(LogInformation, "IdoMysqlConnection") << "Last update by endpoint '" << endpoint_name << "' was " << status_update_age << "s ago (< failover timeout of " << failoverTimeout << "s). Retrying."; m_Mysql->close(&m_Connection); SetConnected(false); SetShouldConnect(false); return; } /* activate the IDO only, if we're authoritative in this zone */ if (IsPaused()) { Log(LogNotice, "IdoMysqlConnection") << "Local endpoint '" << my_endpoint->GetName() << "' is not authoritative, bailing out."; m_Mysql->close(&m_Connection); SetConnected(false); return; } SetLastFailover(now); Log(LogInformation, "IdoMysqlConnection") << "Last update by endpoint '" << endpoint_name << "' was " << status_update_age << "s ago. Taking over '" << GetName() << "' in HA zone '" << Zone::GetLocalZone()->GetName() << "'."; } Log(LogNotice, "IdoMysqlConnection", "Enabling IDO connection in HA zone."); } Log(LogInformation, "IdoMysqlConnection") << "MySQL IDO instance id: " << static_cast(m_InstanceID) << " (schema version: '" + version + "')"; /* set session time zone to utc */ Query("SET SESSION TIME_ZONE='+00:00'"); Query("SET SESSION SQL_MODE='NO_AUTO_VALUE_ON_ZERO'"); Query("BEGIN"); /* update programstatus table */ UpdateProgramStatus(); /* record connection */ Query("INSERT INTO " + GetTablePrefix() + "conninfo " + "(instance_id, connect_time, last_checkin_time, agent_name, agent_version, connect_type, data_start_time) VALUES (" + Convert::ToString(static_cast(m_InstanceID)) + ", NOW(), NOW(), 'icinga2 db_ido_mysql', '" + Escape(Application::GetAppVersion()) + "', '" + (reconnect ? "RECONNECT" : "INITIAL") + "', NOW())"); /* clear config tables for the initial config dump */ PrepareDatabase(); std::ostringstream q1buf; q1buf << "SELECT object_id, objecttype_id, name1, name2, is_active FROM " + GetTablePrefix() + "objects WHERE instance_id = " << static_cast(m_InstanceID); result = Query(q1buf.str()); std::vector activeDbObjs; while ((row = FetchRow(result))) { DbType::Ptr dbtype = DbType::GetByID(row->Get("objecttype_id")); if (!dbtype) continue; DbObject::Ptr dbobj = dbtype->GetOrCreateObjectByName(row->Get("name1"), row->Get("name2")); SetObjectID(dbobj, DbReference(row->Get("object_id"))); bool active = row->Get("is_active"); SetObjectActive(dbobj, active); if (active) activeDbObjs.emplace_back(std::move(dbobj)); } SetIDCacheValid(true); EnableActiveChangedHandler(); for (const DbObject::Ptr& dbobj : activeDbObjs) { if (dbobj->GetObject()) continue; Log(LogNotice, "IdoMysqlConnection") << "Deactivate deleted object name1: '" << dbobj->GetName1() << "' name2: '" << dbobj->GetName2() + "'."; DeactivateObject(dbobj); } UpdateAllObjects(); #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling session table clear and finish connect task."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this]() { ClearTablesBySession(); }, PriorityNormal); m_QueryQueue.Enqueue([this, startTime]() { FinishConnect(startTime); }, PriorityNormal); } void IdoMysqlConnection::FinishConnect(double startTime) { AssertOnWorkQueue(); if (!GetConnected() || IsPaused()) return; FinishAsyncQueries(); Log(LogInformation, "IdoMysqlConnection") << "Finished reconnecting to '" << GetName() << "' database '" << GetDatabase() << "' in " << std::setw(2) << Utility::GetTime() - startTime << " second(s)."; Query("COMMIT"); Query("BEGIN"); } void IdoMysqlConnection::ClearTablesBySession() { /* delete all comments and downtimes without current session token */ ClearTableBySession("comments"); ClearTableBySession("scheduleddowntime"); } void IdoMysqlConnection::ClearTableBySession(const String& table) { Query("DELETE FROM " + GetTablePrefix() + table + " WHERE instance_id = " + Convert::ToString(static_cast(m_InstanceID)) + " AND session_token <> " + Convert::ToString(GetSessionToken())); } void IdoMysqlConnection::AsyncQuery(const String& query, const std::function& callback) { AssertOnWorkQueue(); IdoAsyncQuery aq; aq.Query = query; /* XXX: Important: The callback must not immediately execute a query, but enqueue it! * See https://github.com/Icinga/icinga2/issues/4603 for details. */ aq.Callback = callback; m_AsyncQueries.emplace_back(std::move(aq)); } void IdoMysqlConnection::FinishAsyncQueries() { std::vector queries; m_AsyncQueries.swap(queries); std::vector::size_type offset = 0; // This will be executed if there is a problem with executing the queries, // at which point this function throws an exception and the queries should // not be listed as still pending in the queue. Defer decreaseQueries ([this, &offset, &queries]() { auto lostQueries = queries.size() - offset; if (lostQueries > 0) { DecreasePendingQueries(lostQueries); } }); while (offset < queries.size()) { std::ostringstream querybuf; std::vector::size_type count = 0; size_t num_bytes = 0; Defer decreaseQueries ([this, &offset, &count]() { offset += count; DecreasePendingQueries(count); m_UncommittedAsyncQueries += count; }); for (std::vector::size_type i = offset; i < queries.size(); i++) { const IdoAsyncQuery& aq = queries[i]; size_t size_query = aq.Query.GetLength() + 1; if (count > 0) { if (num_bytes + size_query > m_MaxPacketSize - 512) break; querybuf << ";"; } IncreaseQueryCount(); count++; Log(LogDebug, "IdoMysqlConnection") << "Query: " << aq.Query; querybuf << aq.Query; num_bytes += size_query; } String query = querybuf.str(); if (m_Mysql->query(&m_Connection, query.CStr()) != 0) { std::ostringstream msgbuf; String message = m_Mysql->error(&m_Connection); msgbuf << "Error \"" << message << "\" when executing query \"" << query << "\""; Log(LogCritical, "IdoMysqlConnection", msgbuf.str()); BOOST_THROW_EXCEPTION( database_error() << errinfo_message(m_Mysql->error(&m_Connection)) << errinfo_database_query(query) ); } for (std::vector::size_type i = offset; i < offset + count; i++) { const IdoAsyncQuery& aq = queries[i]; MYSQL_RES *result = m_Mysql->store_result(&m_Connection); m_AffectedRows = m_Mysql->affected_rows(&m_Connection); IdoMysqlResult iresult; if (!result) { if (m_Mysql->field_count(&m_Connection) > 0) { std::ostringstream msgbuf; String message = m_Mysql->error(&m_Connection); msgbuf << "Error \"" << message << "\" when executing query \"" << aq.Query << "\""; Log(LogCritical, "IdoMysqlConnection", msgbuf.str()); BOOST_THROW_EXCEPTION( database_error() << errinfo_message(m_Mysql->error(&m_Connection)) << errinfo_database_query(query) ); } } else iresult = IdoMysqlResult(result, [this](MYSQL_RES* result) { m_Mysql->free_result(result); }); if (aq.Callback) aq.Callback(iresult); if (m_Mysql->next_result(&m_Connection) > 0) { std::ostringstream msgbuf; String message = m_Mysql->error(&m_Connection); msgbuf << "Error \"" << message << "\" when executing query \"" << query << "\""; Log(LogCritical, "IdoMysqlConnection", msgbuf.str()); BOOST_THROW_EXCEPTION( database_error() << errinfo_message(m_Mysql->error(&m_Connection)) << errinfo_database_query(query) ); } } } if (m_UncommittedAsyncQueries > 25000) { m_UncommittedAsyncQueries = 0; Query("COMMIT"); Query("BEGIN"); } } IdoMysqlResult IdoMysqlConnection::Query(const String& query) { AssertOnWorkQueue(); IncreasePendingQueries(1); Defer decreaseQueries ([this]() { DecreasePendingQueries(1); }); /* finish all async queries to maintain the right order for queries */ FinishAsyncQueries(); Log(LogDebug, "IdoMysqlConnection") << "Query: " << query; IncreaseQueryCount(); if (m_Mysql->query(&m_Connection, query.CStr()) != 0) { std::ostringstream msgbuf; String message = m_Mysql->error(&m_Connection); msgbuf << "Error \"" << message << "\" when executing query \"" << query << "\""; Log(LogCritical, "IdoMysqlConnection", msgbuf.str()); BOOST_THROW_EXCEPTION( database_error() << errinfo_message(m_Mysql->error(&m_Connection)) << errinfo_database_query(query) ); } MYSQL_RES *result = m_Mysql->store_result(&m_Connection); m_AffectedRows = m_Mysql->affected_rows(&m_Connection); if (!result) { if (m_Mysql->field_count(&m_Connection) > 0) { std::ostringstream msgbuf; String message = m_Mysql->error(&m_Connection); msgbuf << "Error \"" << message << "\" when executing query \"" << query << "\""; Log(LogCritical, "IdoMysqlConnection", msgbuf.str()); BOOST_THROW_EXCEPTION( database_error() << errinfo_message(m_Mysql->error(&m_Connection)) << errinfo_database_query(query) ); } return IdoMysqlResult(); } return IdoMysqlResult(result, [this](MYSQL_RES* result) { m_Mysql->free_result(result); }); } DbReference IdoMysqlConnection::GetLastInsertID() { AssertOnWorkQueue(); return {static_cast(m_Mysql->insert_id(&m_Connection))}; } int IdoMysqlConnection::GetAffectedRows() { AssertOnWorkQueue(); return m_AffectedRows; } String IdoMysqlConnection::Escape(const String& s) { AssertOnWorkQueue(); String utf8s = Utility::ValidateUTF8(s); size_t length = utf8s.GetLength(); auto *to = new char[utf8s.GetLength() * 2 + 1]; m_Mysql->real_escape_string(&m_Connection, to, utf8s.CStr(), length); String result = String(to); delete [] to; return result; } Dictionary::Ptr IdoMysqlConnection::FetchRow(const IdoMysqlResult& result) { AssertOnWorkQueue(); MYSQL_ROW row; MYSQL_FIELD *field; unsigned long *lengths, i; row = m_Mysql->fetch_row(result.get()); if (!row) return nullptr; lengths = m_Mysql->fetch_lengths(result.get()); if (!lengths) return nullptr; Dictionary::Ptr dict = new Dictionary(); m_Mysql->field_seek(result.get(), 0); for (field = m_Mysql->fetch_field(result.get()), i = 0; field; field = m_Mysql->fetch_field(result.get()), i++) dict->Set(field->name, String(row[i], row[i] + lengths[i])); return dict; } void IdoMysqlConnection::DiscardRows(const IdoMysqlResult& result) { Dictionary::Ptr row; while ((row = FetchRow(result))) ; /* empty loop body */ } void IdoMysqlConnection::ActivateObject(const DbObject::Ptr& dbobj) { if (IsPaused()) return; #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling object activation task for '" << dbobj->GetName1() << "!" << dbobj->GetName2() << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, dbobj]() { InternalActivateObject(dbobj); }, PriorityNormal); } void IdoMysqlConnection::InternalActivateObject(const DbObject::Ptr& dbobj) { AssertOnWorkQueue(); if (IsPaused()) return; if (!GetConnected()) return; DbReference dbref = GetObjectID(dbobj); std::ostringstream qbuf; if (!dbref.IsValid()) { if (!dbobj->GetName2().IsEmpty()) { qbuf << "INSERT INTO " + GetTablePrefix() + "objects (instance_id, objecttype_id, name1, name2, is_active) VALUES (" << static_cast(m_InstanceID) << ", " << dbobj->GetType()->GetTypeID() << ", " << "'" << Escape(dbobj->GetName1()) << "', '" << Escape(dbobj->GetName2()) << "', 1)"; } else { qbuf << "INSERT INTO " + GetTablePrefix() + "objects (instance_id, objecttype_id, name1, is_active) VALUES (" << static_cast(m_InstanceID) << ", " << dbobj->GetType()->GetTypeID() << ", " << "'" << Escape(dbobj->GetName1()) << "', 1)"; } Query(qbuf.str()); SetObjectID(dbobj, GetLastInsertID()); } else { qbuf << "UPDATE " + GetTablePrefix() + "objects SET is_active = 1 WHERE object_id = " << static_cast(dbref); IncreasePendingQueries(1); AsyncQuery(qbuf.str()); } } void IdoMysqlConnection::DeactivateObject(const DbObject::Ptr& dbobj) { if (IsPaused()) return; #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling object deactivation task for '" << dbobj->GetName1() << "!" << dbobj->GetName2() << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, dbobj]() { InternalDeactivateObject(dbobj); }, PriorityNormal); } void IdoMysqlConnection::InternalDeactivateObject(const DbObject::Ptr& dbobj) { AssertOnWorkQueue(); if (IsPaused()) return; if (!GetConnected()) return; DbReference dbref = GetObjectID(dbobj); if (!dbref.IsValid()) return; std::ostringstream qbuf; qbuf << "UPDATE " + GetTablePrefix() + "objects SET is_active = 0 WHERE object_id = " << static_cast(dbref); IncreasePendingQueries(1); AsyncQuery(qbuf.str()); /* Note that we're _NOT_ clearing the db refs via SetReference/SetConfigUpdate/SetStatusUpdate * because the object is still in the database. */ SetObjectActive(dbobj, false); } bool IdoMysqlConnection::FieldToEscapedString(const String& key, const Value& value, Value *result) { if (key == "instance_id") { *result = static_cast(m_InstanceID); return true; } else if (key == "session_token") { *result = GetSessionToken(); return true; } Value rawvalue = DbValue::ExtractValue(value); if (rawvalue.GetType() == ValueEmpty) { *result = "NULL"; } else if (rawvalue.IsObjectType()) { DbObject::Ptr dbobjcol = DbObject::GetOrCreateByObject(rawvalue); if (!dbobjcol) { *result = 0; return true; } if (!IsIDCacheValid()) return false; DbReference dbrefcol; if (DbValue::IsObjectInsertID(value)) { dbrefcol = GetInsertID(dbobjcol); if (!dbrefcol.IsValid()) return false; } else { dbrefcol = GetObjectID(dbobjcol); if (!dbrefcol.IsValid()) { InternalActivateObject(dbobjcol); dbrefcol = GetObjectID(dbobjcol); if (!dbrefcol.IsValid()) return false; } } *result = static_cast(dbrefcol); } else if (DbValue::IsTimestamp(value)) { long ts = rawvalue; std::ostringstream msgbuf; msgbuf << "FROM_UNIXTIME(" << ts << ")"; *result = Value(msgbuf.str()); } else if (DbValue::IsObjectInsertID(value)) { auto id = static_cast(rawvalue); if (id <= 0) return false; *result = id; return true; } else { Value fvalue; if (rawvalue.IsBoolean()) fvalue = Convert::ToLong(rawvalue); else fvalue = rawvalue; *result = "'" + Escape(fvalue) + "'"; } return true; } void IdoMysqlConnection::ExecuteQuery(const DbQuery& query) { if (IsPaused() && GetPauseCalled()) return; ASSERT(query.Category != DbCatInvalid); #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling execute query task, type " << query.Type << ", table '" << query.Table << "'."; #endif /* I2_DEBUG */ IncreasePendingQueries(1); m_QueryQueue.Enqueue([this, query]() { InternalExecuteQuery(query, -1); }, query.Priority, true); } void IdoMysqlConnection::ExecuteMultipleQueries(const std::vector& queries) { if (IsPaused()) return; if (queries.empty()) return; #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling multiple execute query task, type " << queries[0].Type << ", table '" << queries[0].Table << "'."; #endif /* I2_DEBUG */ IncreasePendingQueries(queries.size()); m_QueryQueue.Enqueue([this, queries]() { InternalExecuteMultipleQueries(queries); }, queries[0].Priority, true); } bool IdoMysqlConnection::CanExecuteQuery(const DbQuery& query) { if (query.Object && !IsIDCacheValid()) return false; if (query.WhereCriteria) { ObjectLock olock(query.WhereCriteria); Value value; for (const Dictionary::Pair& kv : query.WhereCriteria) { if (!FieldToEscapedString(kv.first, kv.second, &value)) return false; } } if (query.Fields) { ObjectLock olock(query.Fields); for (const Dictionary::Pair& kv : query.Fields) { Value value; if (!FieldToEscapedString(kv.first, kv.second, &value)) return false; } } return true; } void IdoMysqlConnection::InternalExecuteMultipleQueries(const std::vector& queries) { AssertOnWorkQueue(); if (IsPaused()) { DecreasePendingQueries(queries.size()); return; } if (!GetConnected()) { DecreasePendingQueries(queries.size()); return; } for (const DbQuery& query : queries) { ASSERT(query.Type == DbQueryNewTransaction || query.Category != DbCatInvalid); if (!CanExecuteQuery(query)) { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling multiple execute query task again: Cannot execute query now. Type '" << query.Type << "', table '" << query.Table << "', queue size: '" << GetPendingQueryCount() << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, queries]() { InternalExecuteMultipleQueries(queries); }, query.Priority); return; } } for (const DbQuery& query : queries) { InternalExecuteQuery(query); } } void IdoMysqlConnection::InternalExecuteQuery(const DbQuery& query, int typeOverride) { AssertOnWorkQueue(); if (IsPaused() && GetPauseCalled()) { DecreasePendingQueries(1); return; } if (!GetConnected()) { DecreasePendingQueries(1); return; } if (query.Type == DbQueryNewTransaction) { DecreasePendingQueries(1); InternalNewTransaction(); return; } /* check whether we're allowed to execute the query first */ if (GetCategoryFilter() != DbCatEverything && (query.Category & GetCategoryFilter()) == 0) { DecreasePendingQueries(1); return; } if (query.Object && query.Object->GetObject()->GetExtension("agent_check").ToBool()) { DecreasePendingQueries(1); return; } /* check if there are missing object/insert ids and re-enqueue the query */ if (!CanExecuteQuery(query)) { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling execute query task again: Cannot execute query now. Type '" << typeOverride << "', table '" << query.Table << "', queue size: '" << GetPendingQueryCount() << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, query, typeOverride]() { InternalExecuteQuery(query, typeOverride); }, query.Priority); return; } std::ostringstream qbuf, where; int type; if (query.WhereCriteria) { where << " WHERE "; ObjectLock olock(query.WhereCriteria); Value value; bool first = true; for (const Dictionary::Pair& kv : query.WhereCriteria) { if (!FieldToEscapedString(kv.first, kv.second, &value)) { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling execute query task again: Cannot execute query now. Type '" << typeOverride << "', table '" << query.Table << "', queue size: '" << GetPendingQueryCount() << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, query]() { InternalExecuteQuery(query, -1); }, query.Priority); return; } if (!first) where << " AND "; where << kv.first << " = " << value; if (first) first = false; } } type = (typeOverride != -1) ? typeOverride : query.Type; bool upsert = false; if ((type & DbQueryInsert) && (type & DbQueryUpdate)) { bool hasid = false; if (query.Object) { if (query.ConfigUpdate) hasid = GetConfigUpdate(query.Object); else if (query.StatusUpdate) hasid = GetStatusUpdate(query.Object); } if (!hasid) upsert = true; type = DbQueryUpdate; } if ((type & DbQueryInsert) && (type & DbQueryDelete)) { std::ostringstream qdel; qdel << "DELETE FROM " << GetTablePrefix() << query.Table << where.str(); IncreasePendingQueries(1); AsyncQuery(qdel.str()); type = DbQueryInsert; } switch (type) { case DbQueryInsert: qbuf << "INSERT INTO " << GetTablePrefix() << query.Table; break; case DbQueryUpdate: qbuf << "UPDATE " << GetTablePrefix() << query.Table << " SET"; break; case DbQueryDelete: qbuf << "DELETE FROM " << GetTablePrefix() << query.Table; break; default: VERIFY(!"Invalid query type."); } if (type == DbQueryInsert || type == DbQueryUpdate) { std::ostringstream colbuf, valbuf; if (type == DbQueryUpdate && query.Fields->GetLength() == 0) return; ObjectLock olock(query.Fields); bool first = true; for (const Dictionary::Pair& kv : query.Fields) { Value value; if (!FieldToEscapedString(kv.first, kv.second, &value)) { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Scheduling execute query task again: Cannot extract required INSERT/UPDATE fields, key '" << kv.first << "', val '" << kv.second << "', type " << typeOverride << ", table '" << query.Table << "'."; #endif /* I2_DEBUG */ m_QueryQueue.Enqueue([this, query]() { InternalExecuteQuery(query, -1); }, query.Priority); return; } if (type == DbQueryInsert) { if (!first) { colbuf << ", "; valbuf << ", "; } colbuf << kv.first; valbuf << value; } else { if (!first) qbuf << ", "; qbuf << " " << kv.first << " = " << value; } if (first) first = false; } if (type == DbQueryInsert) qbuf << " (" << colbuf.str() << ") VALUES (" << valbuf.str() << ")"; } if (type != DbQueryInsert) qbuf << where.str(); AsyncQuery(qbuf.str(), [this, query, type, upsert](const IdoMysqlResult&) { FinishExecuteQuery(query, type, upsert); }); } void IdoMysqlConnection::FinishExecuteQuery(const DbQuery& query, int type, bool upsert) { if (upsert && GetAffectedRows() == 0) { #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Rescheduling DELETE/INSERT query: Upsert UPDATE did not affect rows, type " << type << ", table '" << query.Table << "'."; #endif /* I2_DEBUG */ IncreasePendingQueries(1); m_QueryQueue.Enqueue([this, query]() { InternalExecuteQuery(query, DbQueryDelete | DbQueryInsert); }, query.Priority); return; } if (type == DbQueryInsert && query.Object) { if (query.ConfigUpdate) { SetInsertID(query.Object, GetLastInsertID()); SetConfigUpdate(query.Object, true); } else if (query.StatusUpdate) SetStatusUpdate(query.Object, true); } if (type == DbQueryInsert && query.Table == "notifications" && query.NotificationInsertID) query.NotificationInsertID->SetValue(static_cast(GetLastInsertID())); } void IdoMysqlConnection::CleanUpExecuteQuery(const String& table, const String& time_column, double max_age) { if (IsPaused()) return; #ifdef I2_DEBUG /* I2_DEBUG */ Log(LogDebug, "IdoMysqlConnection") << "Rescheduling cleanup query for table '" << table << "' and column '" << time_column << "'. max_age is set to '" << max_age << "'."; #endif /* I2_DEBUG */ IncreasePendingQueries(1); m_QueryQueue.Enqueue([this, table, time_column, max_age]() { InternalCleanUpExecuteQuery(table, time_column, max_age); }, PriorityLow, true); } void IdoMysqlConnection::InternalCleanUpExecuteQuery(const String& table, const String& time_column, double max_age) { AssertOnWorkQueue(); if (IsPaused()) { DecreasePendingQueries(1); return; } if (!GetConnected()) { DecreasePendingQueries(1); return; } AsyncQuery("DELETE FROM " + GetTablePrefix() + table + " WHERE instance_id = " + Convert::ToString(static_cast(m_InstanceID)) + " AND " + time_column + " < FROM_UNIXTIME(" + Convert::ToString(static_cast(max_age)) + ")"); } void IdoMysqlConnection::FillIDCache(const DbType::Ptr& type) { String query = "SELECT " + type->GetIDColumn() + " AS object_id, " + type->GetTable() + "_id, config_hash FROM " + GetTablePrefix() + type->GetTable() + "s"; IdoMysqlResult result = Query(query); Dictionary::Ptr row; while ((row = FetchRow(result))) { DbReference dbref(row->Get("object_id")); SetInsertID(type, dbref, DbReference(row->Get(type->GetTable() + "_id"))); SetConfigHash(type, dbref, row->Get("config_hash")); } } int IdoMysqlConnection::GetPendingQueryCount() const { return m_QueryQueue.GetLength(); }