// // Copyright 2010-2011 Ettus Research LLC // // 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 3 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, see . // #include "dboard_ctor_args.hpp" #include #include #include #include #include #include #include #include #include #include #include #include using namespace uhd; using namespace uhd::usrp; /*********************************************************************** * dboard key class to use for look-up **********************************************************************/ class dboard_key_t{ public: dboard_key_t(const dboard_id_t &id = dboard_id_t::none(), bool restricted = false): _rx_id(id), _tx_id(id), _xcvr(false), _restricted(restricted) {} dboard_key_t(const dboard_id_t &rx_id, const dboard_id_t &tx_id, bool restricted = false): _rx_id(rx_id), _tx_id(tx_id), _xcvr(true), _restricted(restricted) {} dboard_id_t xx_id(void) const{ UHD_ASSERT_THROW(not this->is_xcvr()); return this->_rx_id; } dboard_id_t rx_id(void) const{ UHD_ASSERT_THROW(this->is_xcvr()); return this->_rx_id; } dboard_id_t tx_id(void) const{ UHD_ASSERT_THROW(this->is_xcvr()); return this->_tx_id; } bool is_xcvr(void) const{ return this->_xcvr; } bool is_restricted(void) const{ return this->_restricted; } private: dboard_id_t _rx_id, _tx_id; bool _xcvr; bool _restricted; }; bool operator==(const dboard_key_t &lhs, const dboard_key_t &rhs){ if (lhs.is_xcvr() and rhs.is_xcvr()) return lhs.rx_id() == rhs.rx_id() and lhs.tx_id() == rhs.tx_id(); if (not lhs.is_xcvr() and not rhs.is_xcvr()) return lhs.xx_id() == rhs.xx_id(); return false; } /*********************************************************************** * storage and registering for dboards **********************************************************************/ //dboard registry tuple: dboard constructor, canonical name, subdev names, container constructor typedef boost::tuple, dboard_manager::dboard_ctor_t> args_t; //map a dboard id to a dboard constructor typedef uhd::dict id_to_args_map_t; UHD_SINGLETON_FCN(id_to_args_map_t, get_id_to_args_map) static void register_dboard_key( const dboard_key_t &dboard_key, dboard_manager::dboard_ctor_t db_subdev_ctor, const std::string &name, const std::vector &subdev_names, dboard_manager::dboard_ctor_t db_container_ctor ){ UHD_LOGV(always) << "registering: " << name << std::endl; if (get_id_to_args_map().has_key(dboard_key)){ if (dboard_key.is_xcvr()) throw uhd::key_error(str(boost::format( "The dboard id pair [%s, %s] is already registered to %s." ) % dboard_key.rx_id().to_string() % dboard_key.tx_id().to_string() % get_id_to_args_map()[dboard_key].get<1>())); else throw uhd::key_error(str(boost::format( "The dboard id %s is already registered to %s." ) % dboard_key.xx_id().to_string() % get_id_to_args_map()[dboard_key].get<1>())); } get_id_to_args_map()[dboard_key] = args_t(db_subdev_ctor, name, subdev_names, db_container_ctor); } void dboard_manager::register_dboard( const dboard_id_t &dboard_id, dboard_ctor_t db_subdev_ctor, const std::string &name, const std::vector &subdev_names, dboard_ctor_t db_container_ctor ){ register_dboard_key(dboard_key_t(dboard_id), db_subdev_ctor, name, subdev_names, db_container_ctor); } void dboard_manager::register_dboard( const dboard_id_t &rx_dboard_id, const dboard_id_t &tx_dboard_id, dboard_ctor_t db_subdev_ctor, const std::string &name, const std::vector &subdev_names, dboard_ctor_t db_container_ctor ){ register_dboard_key(dboard_key_t(rx_dboard_id, tx_dboard_id), db_subdev_ctor, name, subdev_names, db_container_ctor); } void dboard_manager::register_dboard_restricted( const dboard_id_t &dboard_id, dboard_ctor_t db_subdev_ctor, const std::string &name, const std::vector &subdev_names, dboard_ctor_t db_container_ctor ){ register_dboard_key(dboard_key_t(dboard_id, true), db_subdev_ctor, name, subdev_names, db_container_ctor); } void dboard_manager::register_dboard_restricted( const dboard_id_t &rx_dboard_id, const dboard_id_t &tx_dboard_id, dboard_ctor_t db_subdev_ctor, const std::string &name, const std::vector &subdev_names, dboard_ctor_t db_container_ctor ){ register_dboard_key(dboard_key_t(rx_dboard_id, tx_dboard_id, true), db_subdev_ctor, name, subdev_names, db_container_ctor); } std::string dboard_id_t::to_cname(void) const{ std::string cname; BOOST_FOREACH(const dboard_key_t &key, get_id_to_args_map().keys()){ if ( (not key.is_xcvr() and *this == key.xx_id()) or (key.is_xcvr() and (*this == key.rx_id() or *this == key.tx_id())) ){ if (not cname.empty()) cname += ", "; cname += get_id_to_args_map()[key].get<1>(); } } return (cname.empty())? "Unknown" : cname; } std::string dboard_id_t::to_pp_string(void) const{ return str(boost::format("%s (%s)") % this->to_cname() % this->to_string()); } /*********************************************************************** * dboard manager implementation class **********************************************************************/ class dboard_manager_impl : public dboard_manager{ public: dboard_manager_impl( dboard_id_t rx_dboard_id, dboard_id_t tx_dboard_id, dboard_iface::sptr iface, property_tree::sptr subtree ); virtual ~dboard_manager_impl(void); inline const std::vector& get_rx_frontends() const { return _rx_frontends; } inline const std::vector& get_tx_frontends() const { return _tx_frontends; } private: void init(dboard_id_t, dboard_id_t, property_tree::sptr); //list of rx and tx dboards in this dboard_manager //each dboard here is actually a subdevice proxy //the subdevice proxy is internal to the cpp file uhd::dict _rx_dboards; uhd::dict _tx_dboards; std::vector _rx_frontends; std::vector _tx_frontends; dboard_iface::sptr _iface; void set_nice_dboard_if(void); }; /*********************************************************************** * make routine for dboard manager **********************************************************************/ dboard_manager::sptr dboard_manager::make( dboard_id_t rx_dboard_id, dboard_id_t tx_dboard_id, dboard_id_t gdboard_id, dboard_iface::sptr iface, property_tree::sptr subtree ){ return dboard_manager::sptr( new dboard_manager_impl( rx_dboard_id, (gdboard_id == dboard_id_t::none())? tx_dboard_id : gdboard_id, iface, subtree ) ); } /*********************************************************************** * implementation class methods **********************************************************************/ dboard_manager_impl::dboard_manager_impl( dboard_id_t rx_dboard_id, dboard_id_t tx_dboard_id, dboard_iface::sptr iface, property_tree::sptr subtree ): _iface(iface) { try{ this->init(rx_dboard_id, tx_dboard_id, subtree); } catch(const std::exception &e){ UHD_MSG(error) << boost::format( "The daughterboard manager encountered a recoverable error in init.\n" "Loading the \"unknown\" daughterboard implementations to continue.\n" "The daughterboard cannot operate until this error is resolved.\n" ) << e.what() << std::endl; //clean up the stuff added by the call above if (subtree->exists("rx_frontends")) subtree->remove("rx_frontends"); if (subtree->exists("tx_frontends")) subtree->remove("tx_frontends"); if (subtree->exists("iface")) subtree->remove("iface"); this->init(dboard_id_t::none(), dboard_id_t::none(), subtree); } } void dboard_manager_impl::init( dboard_id_t rx_dboard_id, dboard_id_t tx_dboard_id, property_tree::sptr subtree ){ //find the dboard key matches for the dboard ids dboard_key_t rx_dboard_key, tx_dboard_key, xcvr_dboard_key; BOOST_FOREACH(const dboard_key_t &key, get_id_to_args_map().keys()){ if (key.is_xcvr()){ if (rx_dboard_id == key.rx_id() and tx_dboard_id == key.tx_id()) xcvr_dboard_key = key; if (rx_dboard_id == key.rx_id()) rx_dboard_key = key; //kept to handle warning if (tx_dboard_id == key.tx_id()) tx_dboard_key = key; //kept to handle warning } else{ if (rx_dboard_id == key.xx_id()) rx_dboard_key = key; if (tx_dboard_id == key.xx_id()) tx_dboard_key = key; } } //warn for invalid dboard id xcvr combinations if (not xcvr_dboard_key.is_xcvr() and (rx_dboard_key.is_xcvr() or tx_dboard_key.is_xcvr())){ UHD_MSG(warning) << boost::format( "Unknown transceiver board ID combination.\n" "Is your daughter-board mounted properly?\n" "RX dboard ID: %s\n" "TX dboard ID: %s\n" ) % rx_dboard_id.to_pp_string() % tx_dboard_id.to_pp_string(); } //initialize the gpio pins before creating subdevs set_nice_dboard_if(); //conditionally register the dboard iface in the tree if (not (rx_dboard_key.is_restricted() or tx_dboard_key.is_restricted() or xcvr_dboard_key.is_restricted())) { subtree->create("iface").set(_iface); } //dboard constructor args dboard_ctor_args_t db_ctor_args; db_ctor_args.db_iface = _iface; //make xcvr subdevs if (xcvr_dboard_key.is_xcvr()){ //extract data for the xcvr dboard key dboard_ctor_t subdev_ctor; std::string name; std::vector subdevs; dboard_ctor_t container_ctor; boost::tie(subdev_ctor, name, subdevs, container_ctor) = get_id_to_args_map()[xcvr_dboard_key]; //create the container class. //a container class exists per N subdevs registered in a register_dboard* call db_ctor_args.sd_name = "common"; db_ctor_args.rx_id = rx_dboard_id; db_ctor_args.tx_id = tx_dboard_id; db_ctor_args.rx_subtree = subtree->subtree("rx_frontends/" + db_ctor_args.sd_name); db_ctor_args.tx_subtree = subtree->subtree("tx_frontends/" + db_ctor_args.sd_name); if (container_ctor) { db_ctor_args.rx_container = container_ctor(&db_ctor_args); } else { db_ctor_args.rx_container = dboard_base::sptr(); } db_ctor_args.tx_container = db_ctor_args.rx_container; //Same TX and RX container //create the xcvr object for each subdevice BOOST_FOREACH(const std::string &subdev, subdevs){ db_ctor_args.sd_name = subdev; db_ctor_args.rx_subtree = subtree->subtree("rx_frontends/" + db_ctor_args.sd_name); db_ctor_args.tx_subtree = subtree->subtree("tx_frontends/" + db_ctor_args.sd_name); dboard_base::sptr xcvr_dboard = subdev_ctor(&db_ctor_args); _rx_dboards[subdev] = xcvr_dboard; _tx_dboards[subdev] = xcvr_dboard; xcvr_dboard->initialize(); } //initialize the container after all subdevs have been created if (container_ctor) { db_ctor_args.rx_container->initialize(); } //Populate frontend names in-order. //We cannot use _xx_dboards.keys() here because of the ordering requirement _rx_frontends = subdevs; _tx_frontends = subdevs; } //make tx and rx subdevs (separate subdevs for rx and tx dboards) else { //force the rx key to the unknown board for bad combinations if (rx_dboard_key.is_xcvr() or rx_dboard_key.xx_id() == dboard_id_t::none()){ rx_dboard_key = dboard_key_t(0xfff1); } //extract data for the rx dboard key dboard_ctor_t rx_dboard_ctor; std::string rx_name; std::vector rx_subdevs; dboard_ctor_t rx_cont_ctor; boost::tie(rx_dboard_ctor, rx_name, rx_subdevs, rx_cont_ctor) = get_id_to_args_map()[rx_dboard_key]; //create the container class. //a container class exists per N subdevs registered in a register_dboard* call db_ctor_args.sd_name = "common"; db_ctor_args.rx_id = rx_dboard_id; db_ctor_args.tx_id = dboard_id_t::none(); db_ctor_args.rx_subtree = subtree->subtree("rx_frontends/" + db_ctor_args.sd_name); db_ctor_args.tx_subtree = property_tree::sptr(); if (rx_cont_ctor) { db_ctor_args.rx_container = rx_cont_ctor(&db_ctor_args); } else { db_ctor_args.rx_container = dboard_base::sptr(); } //make the rx subdevs BOOST_FOREACH(const std::string &subdev, rx_subdevs){ db_ctor_args.sd_name = subdev; db_ctor_args.rx_subtree = subtree->subtree("rx_frontends/" + db_ctor_args.sd_name); _rx_dboards[subdev] = rx_dboard_ctor(&db_ctor_args); _rx_dboards[subdev]->initialize(); } //initialize the container after all subdevs have been created if (rx_cont_ctor) { db_ctor_args.rx_container->initialize(); } //force the tx key to the unknown board for bad combinations if (tx_dboard_key.is_xcvr() or tx_dboard_key.xx_id() == dboard_id_t::none()){ tx_dboard_key = dboard_key_t(0xfff0); } //extract data for the tx dboard key dboard_ctor_t tx_dboard_ctor; std::string tx_name; std::vector tx_subdevs; dboard_ctor_t tx_cont_ctor; boost::tie(tx_dboard_ctor, tx_name, tx_subdevs, tx_cont_ctor) = get_id_to_args_map()[tx_dboard_key]; //create the container class. //a container class exists per N subdevs registered in a register_dboard* call db_ctor_args.sd_name = "common"; db_ctor_args.rx_id = dboard_id_t::none(); db_ctor_args.tx_id = tx_dboard_id; db_ctor_args.rx_subtree = property_tree::sptr(); db_ctor_args.tx_subtree = subtree->subtree("tx_frontends/" + db_ctor_args.sd_name); if (tx_cont_ctor) { db_ctor_args.tx_container = tx_cont_ctor(&db_ctor_args); } else { db_ctor_args.tx_container = dboard_base::sptr(); } //make the tx subdevs BOOST_FOREACH(const std::string &subdev, tx_subdevs){ db_ctor_args.sd_name = subdev; db_ctor_args.tx_subtree = subtree->subtree("tx_frontends/" + db_ctor_args.sd_name); _tx_dboards[subdev] = tx_dboard_ctor(&db_ctor_args); _tx_dboards[subdev]->initialize(); } //initialize the container after all subdevs have been created if (tx_cont_ctor) { db_ctor_args.tx_container->initialize(); } //Populate frontend names in-order. //We cannot use _xx_dboards.keys() here because of the ordering requirement _rx_frontends = rx_subdevs; _tx_frontends = tx_subdevs; } } dboard_manager_impl::~dboard_manager_impl(void){UHD_SAFE_CALL( set_nice_dboard_if(); )} void dboard_manager_impl::set_nice_dboard_if(void){ //make a list of possible unit types std::vector units = boost::assign::list_of (dboard_iface::UNIT_RX) (dboard_iface::UNIT_TX) ; //set nice settings on each unit BOOST_FOREACH(dboard_iface::unit_t unit, units){ _iface->set_gpio_ddr(unit, 0x0000); //all inputs _iface->set_gpio_out(unit, 0x0000); //all low _iface->set_pin_ctrl(unit, 0x0000); //all gpio _iface->set_clock_enabled(unit, false); //clock off } }