/* Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012 Her Majesty the Queen in Right of Canada (Communications Research Center Canada) Written by Matthias P. Braendli, matthias.braendli@mpb.li, 2012 This module adds remote-control capability to some of the dabmod modules. see testremotecontrol/test.cpp for an example of how to use this. */ /* This file is part of ODR-DabMod. ODR-DabMod 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 3 of the License, or (at your option) any later version. ODR-DabMod 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 ODR-DabMod. If not, see . */ #ifndef _REMOTECONTROL_H #define _REMOTECONTROL_H #include #include #include #include #include #include #include #include #include #include #include #include #define RC_ADD_PARAMETER(p, desc) { \ std::vector p; \ p.push_back(#p); \ p.push_back(desc); \ m_parameters.push_back(p); \ } class ParameterError : public std::exception { public: ParameterError(std::string message) : m_message(message) {} ~ParameterError() throw() {}; const char* what() const throw() { return m_message.c_str(); } private: std::string m_message; }; class RemoteControllable; /* Remote controllers (that recieve orders from the user) * must implement BaseRemoteController */ class BaseRemoteController { public: /* Add a new controllable under this controller's command */ virtual void enrol(RemoteControllable* controllable) = 0; /* When this returns one, the remote controller cannot be * used anymore, and must be restarted by dabmux */ virtual bool fault_detected() = 0; /* In case of a fault, the remote controller can be * restarted. */ virtual void restart() = 0; }; /* Objects that support remote control must implement the following class */ class RemoteControllable { public: RemoteControllable(std::string name) : m_name(name) {} /* return a short name used to identify the controllable. * It might be used in the commands the user has to type, so keep * it short */ virtual std::string get_rc_name() const { return m_name; } /* Tell the controllable to enrol at the given controller */ virtual void enrol_at(BaseRemoteController& controller) { controller.enrol(this); } /* Return a list of possible parameters that can be set */ virtual std::list get_supported_parameters() const { std::list parameterlist; for (std::list< std::vector >::const_iterator it = m_parameters.begin(); it != m_parameters.end(); ++it) { parameterlist.push_back((*it)[0]); } return parameterlist; } /* Return a mapping of the descriptions of all parameters */ virtual std::list< std::vector > get_parameter_descriptions() const { return m_parameters; } /* Base function to set parameters. */ virtual void set_parameter(const std::string& parameter, const std::string& value) = 0; /* Getting a parameter always returns a string. */ virtual const std::string get_parameter(const std::string& parameter) const = 0; protected: std::string m_name; std::list< std::vector > m_parameters; }; /* Implements a Remote controller based on a simple telnet CLI * that listens on localhost */ class RemoteControllerTelnet : public BaseRemoteController { public: RemoteControllerTelnet() : m_running(false), m_fault(false), m_port(0) { } RemoteControllerTelnet(int port) : m_running(true), m_fault(false), m_child_thread(&RemoteControllerTelnet::process, this, 0), m_port(port) { } ~RemoteControllerTelnet() { m_running = false; m_fault = false; if (m_port) { m_child_thread.interrupt(); m_child_thread.join(); } } void enrol(RemoteControllable* controllable) { m_cohort.push_back(controllable); } virtual bool fault_detected() { return m_fault; }; virtual void restart(); private: void restart_thread(long); void process(long); void dispatch_command(boost::asio::ip::tcp::socket& socket, std::string command); void reply(boost::asio::ip::tcp::socket& socket, std::string message); RemoteControllerTelnet& operator=(const RemoteControllerTelnet& other); RemoteControllerTelnet(const RemoteControllerTelnet& other); std::vector tokenise_(std::string message) { std::vector all_tokens; boost::char_separator sep(" "); boost::tokenizer< boost::char_separator > tokens(message, sep); BOOST_FOREACH (const std::string& t, tokens) { all_tokens.push_back(t); } return all_tokens; } RemoteControllable* get_controllable_(std::string name) { for (std::list::iterator it = m_cohort.begin(); it != m_cohort.end(); ++it) { if ((*it)->get_rc_name() == name) { return *it; } } throw ParameterError("Module name unknown"); } std::list< std::vector > get_parameter_descriptions_(std::string name) { RemoteControllable* controllable = get_controllable_(name); return controllable->get_parameter_descriptions(); } std::list get_param_list_(std::string name) { RemoteControllable* controllable = get_controllable_(name); return controllable->get_supported_parameters(); } std::list< std::vector > get_param_list_values_(std::string name) { RemoteControllable* controllable = get_controllable_(name); std::list< std::vector > allparams; std::list params = controllable->get_supported_parameters(); for (std::list::iterator it = params.begin(); it != params.end(); ++it) { std::vector item; item.push_back(*it); item.push_back(controllable->get_parameter(*it)); allparams.push_back(item); } return allparams; } std::string get_param_(std::string name, std::string param) { RemoteControllable* controllable = get_controllable_(name); return controllable->get_parameter(param); } void set_param_(std::string name, std::string param, std::string value) { RemoteControllable* controllable = get_controllable_(name); return controllable->set_parameter(param, value); } bool m_running; /* This is set to true if a fault occurred */ bool m_fault; boost::thread m_restarter_thread; boost::thread m_child_thread; /* This controller commands the controllables in the cohort */ std::list m_cohort; std::string m_welcome; std::string m_prompt; int m_port; }; /* The Dummy remote controller does nothing, and never fails */ class RemoteControllerDummy : public BaseRemoteController { public: void enrol(RemoteControllable* controllable) {}; bool fault_detected() { return false; }; virtual void restart() {}; }; #endif