// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2009 XORP, Inc. // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License, Version // 2.1, June 1999 as published by the Free Software Foundation. // Redistribution and/or modification of this program under the terms of // any other version of the GNU Lesser General Public License is not // permitted. // // 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. For more details, // see the GNU Lesser General Public License, Version 2.1, a copy of // which can be found in the XORP LICENSE.lgpl file. // // XORP, Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA; // http://xorp.net // $XORP: xorp/libxorp/transaction.hh,v 1.15 2009/01/05 18:30:58 jtc Exp $ #ifndef __LIBXORP_TRANSACTION_HH__ #define __LIBXORP_TRANSACTION_HH__ #include "libxorp/xorp.h" #include "libxorp/eventloop.hh" #include "libxorp/ref_ptr.hh" #include <map> #include <list> /** * @short Base class for operations within a Transaction. * * TransactionOperations when realized through derived classes are * operations that can be held and dispatched at a later time. The * @ref TransactionManager class is provided as a container for * TransactionOperations. * * NB TransactionOperation is analogous to the Command pattern in the * BoF: Design Patterns , Erich Gamma, Richard Helm, Ralph Johnson, * John Vlissides, Addison Wesley, 1995, ISBN 0-201-63361-2. */ class TransactionOperation { public: /** * Destructor */ virtual ~TransactionOperation() {} /** * Dispatch operation * * @return true on success, false on error. */ virtual bool dispatch() = 0; /** * @return string representation of operation. */ virtual string str() const = 0; }; /** * @short A class for managing transactions. * * The TransactionManager creates, manages, and dispatches * transactions. A Transaction is comprised of a sequence of @ref * TransactionOperation s. Each transaction is uniquely identified by * a transaction id. */ class TransactionManager { public: typedef ref_ptr<TransactionOperation> Operation; /** * Constuctor with a given event loop, timeout, and max pending commits. * * @param e the EventLoop instance. * * @param timeout_ms the inter-operation addition timeout. If zero, * timeouts are not used, otherwise a timeout will occur * and the transaction aborted if the transaction is not * updated for timeout_ms. * * @param max_pending the maximum number of uncommitted transactions * pending commit. */ TransactionManager(EventLoop& e, uint32_t timeout_ms = 0, uint32_t max_pending = 10) : _e(e), _timeout_ms(timeout_ms), _max_pending(max_pending) { } /** * Destructor */ virtual ~TransactionManager() {} /** * Start transaction * * @param new_tid variable to assigned new transaction id. * * @return true on success, false if maximum number of pending * transactions is reached. */ bool start(uint32_t& new_tid); /** * Commit transaction * * @param tid the transaction ID. * @return true on success, false on error. */ bool commit(uint32_t tid); /** * Abort transaction * * @param tid the transaction ID. * @return true on success, false on error. */ bool abort(uint32_t tid); /** * Add operation to transaction. * * @param tid the transaction ID. * @param operation to be added. * @return true on success, false if tid is invalid. */ virtual bool add(uint32_t tid, const Operation& op); /** * Retrieve number of operations in pending transaction. * * @param tid the transaction ID. * * @param count variable to be assigned number of operations in * transaction. * * @return true if tid is valid, false otherwise. */ bool retrieve_size(uint32_t tid, uint32_t& count) const; /** * Get the inter-operation additional timeout. * * If the inter-operation addition timeout is zero, * timeouts are not used, otherwise a timeout will occur * and the transaction aborted if the transaction is not * updated for timeout_ms. * * @return the inter-operation additional timeout. */ uint32_t timeout_ms() const { return _timeout_ms; } /** * Get the maximum number of uncommited pending transactions. * * @return the maximum number of uncommitted transactions pending commit. */ uint32_t max_pending() const { return _max_pending; } /** * Get the current number of uncommited pending transactions. * * @return the current number of uncommitted transactions pending commit. */ uint32_t pending() const { return _transactions.size(); } protected: /** * Overrideable function that can be called before the first * operation in a commit is dispatched. * * Default implementation is a no-op. */ virtual void pre_commit(uint32_t tid); /** * Overrideable function that can be called after commit occurs * * Default implementation is a no-op. */ virtual void post_commit(uint32_t tid); /** * Overrideable function that is called immediately after an individual * operation is dispatched. * * Default implementation is a no-op. * * @param success whether the operation succeed. * * @param op the operation. */ virtual void operation_result(bool success, const TransactionOperation& op); /** * Flush operations in transaction list. May be use by @ref * operation_result methods to safely prevent further operations * being dispatched when errors are detected. flush() always * succeeds if transaction exists. * * @param tid transaction id of transaction to be flushed. * * @return true if transaction exists, false otherwise. */ bool flush(uint32_t tid); protected: /** * Transaction class, just a list of operations to be dispatched. * * It is defined here so classes derived from TransactionManager * can operate, eg sort operations in list, before committing transaction. */ struct Transaction { typedef list<Operation> OperationList; Transaction(TransactionManager& mgr, const XorpTimer& timeout_timer) : _mgr(mgr), _timeout_timer(timeout_timer), _op_count(0) {} Transaction(TransactionManager& mgr) : _mgr(mgr), _op_count(0) {} /** Add an operation to list */ void add(const Operation& op); /** Dispatch all operations on list */ void commit(); /** Flush all operations on list */ void flush(); /** Defer timeout by TransactionManagers timeout interval */ void defer_timeout(); /** Cancel timeout timer */ void cancel_timeout(); /** Get the list of operations */ OperationList& operations() { return _ops; } /** Get the length of the operations list. */ uint32_t size() const { return _op_count; } private: TransactionManager& _mgr; OperationList _ops; XorpTimer _timeout_timer; uint32_t _op_count; }; private: /** Called when timeout timer expires */ void timeout(uint32_t tid); /** Increment next transaction id by a randomized amount. */ void crank_tid(); private: typedef map<uint32_t, Transaction> TransactionDB; EventLoop& _e; TransactionDB _transactions; uint32_t _timeout_ms; uint32_t _max_pending; uint32_t _next_tid; friend class Transaction; // for Transaction to call operation_result() }; #endif // __LIBXORP_TRANSACTION_HH__