// // Copyright 2014 Ettus Research LLC // // SPDX-License-Identifier: GPL-3.0 // #include #include #include using namespace uhd::rfnoc; std::string node_ctrl_base::unique_id() const { // Most instantiations will override this, so we don't need anything // more elegant here. return str(boost::format("%08X") % size_t(this)); } void node_ctrl_base::clear() { UHD_RFNOC_BLOCK_TRACE() << "node_ctrl_base::clear() " ; // Reset connections: _upstream_nodes.clear(); _downstream_nodes.clear(); } void node_ctrl_base::_register_downstream_node( node_ctrl_base::sptr, size_t ) { throw uhd::runtime_error("Attempting to register a downstream block on a non-source node."); } void node_ctrl_base::_register_upstream_node( node_ctrl_base::sptr, size_t ) { throw uhd::runtime_error("Attempting to register an upstream block on a non-sink node."); } void node_ctrl_base::set_downstream_port( const size_t this_port, const size_t remote_port ) { if (not _downstream_nodes.count(this_port) and remote_port != ANY_PORT) { throw uhd::value_error(str( boost::format("[%s] Cannot set remote downstream port: Port %d not connected.") % unique_id() % this_port )); } _downstream_ports[this_port] = remote_port; } size_t node_ctrl_base::get_downstream_port(const size_t this_port) { if (not _downstream_ports.count(this_port) or not _downstream_nodes.count(this_port) or _downstream_ports[this_port] == ANY_PORT) { throw uhd::value_error(str( boost::format("[%s] Cannot retrieve remote downstream port: Port %d not connected.") % unique_id() % this_port )); } return _downstream_ports[this_port]; } void node_ctrl_base::set_upstream_port( const size_t this_port, const size_t remote_port ) { if (not _upstream_nodes.count(this_port) and remote_port != ANY_PORT) { throw uhd::value_error(str( boost::format("[%s] Cannot set remote upstream port: Port %d not connected.") % unique_id() % this_port )); } _upstream_ports[this_port] = remote_port; } size_t node_ctrl_base::get_upstream_port(const size_t this_port) { if (not _upstream_ports.count(this_port) or not _upstream_nodes.count(this_port) or _upstream_ports[this_port] == ANY_PORT) { throw uhd::value_error(str( boost::format("[%s] Cannot retrieve remote upstream port: Port %d not connected.") % unique_id() % this_port )); } return _upstream_ports[this_port]; } void node_ctrl_base::disconnect() { // Notify neighbours: for (node_map_t::iterator i = _downstream_nodes.begin(); i != _downstream_nodes.end(); ++i) { sptr downstream_node = i->second.lock(); if (not downstream_node) { // Actually this is not OK continue; } downstream_node->disconnect_input_port(_downstream_ports[i->first]); } for (node_map_t::iterator i = _upstream_nodes.begin(); i != _upstream_nodes.end(); ++i) { sptr upstream_node = i->second.lock(); if (not upstream_node) { // Actually this is not OK continue; } upstream_node->disconnect_output_port(_upstream_ports[i->first]); } // Clear own maps: _downstream_nodes.clear(); _downstream_ports.clear(); _upstream_nodes.clear(); _upstream_ports.clear(); } void node_ctrl_base::disconnect_output_port(const size_t output_port) { if (_downstream_nodes.count(output_port) == 0 or _downstream_ports.count(output_port) == 0) { throw uhd::assertion_error(str(boost::format("[%s] Attempting to disconnect output port %u, which is not registered as connected!") % unique_id() % output_port)); } _downstream_nodes.erase(output_port); _downstream_ports.erase(output_port); } void node_ctrl_base::disconnect_input_port(const size_t input_port) { if (_upstream_nodes.count(input_port) == 0 or _upstream_ports.count(input_port) == 0) { throw uhd::assertion_error(str(boost::format("[%s] Attempting to disconnect input port %u, which is not registered as connected!") % unique_id() % input_port)); } _upstream_nodes.erase(input_port); _upstream_ports.erase(input_port); }