// // Copyright 2014 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include #include #include #include #include #include using namespace uhd; using namespace uhd::rfnoc; /*********************************************************************** * Streaming operations **********************************************************************/ void source_block_ctrl_base::issue_stream_cmd( const uhd::stream_cmd_t &stream_cmd, const size_t chan ) { UHD_RFNOC_BLOCK_TRACE() << "source_block_ctrl_base::issue_stream_cmd()" ; if (_upstream_nodes.empty()) { UHD_LOGGER_WARNING("RFNOC") << "issue_stream_cmd() not implemented for " << get_block_id() ; return; } for(const node_ctrl_base::node_map_pair_t upstream_node: _upstream_nodes) { source_node_ctrl::sptr this_upstream_block_ctrl = boost::dynamic_pointer_cast(upstream_node.second.lock()); this_upstream_block_ctrl->issue_stream_cmd(stream_cmd, chan); } } /*********************************************************************** * Stream signatures **********************************************************************/ stream_sig_t source_block_ctrl_base::get_output_signature(size_t block_port) const { if (not _tree->exists(_root_path / "ports" / "out" / block_port)) { throw uhd::runtime_error(str( boost::format("Invalid port number %d for block %s") % block_port % unique_id() )); } return _resolve_port_def( _tree->access(_root_path / "ports" / "out" / block_port).get() ); } std::vector source_block_ctrl_base::get_output_ports() const { std::vector output_ports; output_ports.reserve(_tree->list(_root_path / "ports" / "out").size()); for(const std::string port: _tree->list(_root_path / "ports" / "out")) { output_ports.push_back(boost::lexical_cast(port)); } return output_ports; } /*********************************************************************** * FPGA Configuration **********************************************************************/ void source_block_ctrl_base::set_destination( uint32_t next_address, size_t output_block_port ) { UHD_RFNOC_BLOCK_TRACE() << "source_block_ctrl_base::set_destination() " << uhd::sid_t(next_address) ; sid_t new_sid(next_address); new_sid.set_src(get_address(output_block_port)); UHD_RFNOC_BLOCK_TRACE() << " Setting SID: " << new_sid << " "; sr_write(SR_NEXT_DST_SID, (1<<16) | next_address, output_block_port); } void source_block_ctrl_base::configure_flow_control_out( bool enable_fc_output, size_t buf_size_bytes, size_t pkt_limit, size_t block_port, UHD_UNUSED(const uhd::sid_t &sid) ) { UHD_RFNOC_BLOCK_TRACE() << "source_block_ctrl_base::configure_flow_control_out() buf_size_bytes==" << buf_size_bytes; if (buf_size_bytes == 0) { throw uhd::runtime_error(str( boost::format("Invalid window size %d for block %s. Window size cannot be 0 bytes.") % buf_size_bytes % unique_id() )); } //Disable flow control entirely and let all upstream data flush out //We need to do this every time the window is changed because //a) We don't know what state the flow-control module was left in // in the previous run (it should still be enabled) //b) Changing the window size where data is buffered upstream may // result in stale packets entering the stream. sr_write(SR_FLOW_CTRL_EN, 0, block_port); //Wait for data to flush out. //In the FPGA we are guaranteed that all buffered packets are more-or-less consecutive. //1ms@200MHz = 200,000 cycles of "flush time". //200k cycles = 200k * 8 bytes (64 bits) = 1.6MB of data that can be flushed. //Typically in the FPGA we have buffering in the order of kilobytes so waiting for 1MB //to flush is more than enough time. //TODO: Enhancement. We should get feedback from the FPGA about when the source_flow_control // module is done flushing. std::this_thread::sleep_for(std::chrono::milliseconds(1)); //Enable source flow control module and conditionally enable byte based and/or packet count //based flow control const bool enable_byte_fc = (buf_size_bytes != 0); const bool enable_pkt_cnt_fc = (pkt_limit != 0); const size_t config = enable_fc_output + (enable_byte_fc << 1) + (enable_pkt_cnt_fc << 2); //Resize the FC window. //Precondition: No data can be buffered upstream. if (enable_byte_fc) { sr_write(SR_FLOW_CTRL_WINDOW_SIZE, buf_size_bytes, block_port); } if (enable_pkt_cnt_fc) { sr_write(SR_FLOW_CTRL_PKT_LIMIT, pkt_limit, block_port); } //Enable the FC window. //Precondition: The window size and/or packet limit must be set. sr_write(SR_FLOW_CTRL_EN, config, block_port); } /*********************************************************************** * Hooks **********************************************************************/ size_t source_block_ctrl_base::_request_output_port( const size_t suggested_port, const uhd::device_addr_t & ) const { const std::set valid_output_ports = utils::str_list_to_set(_tree->list(_root_path / "ports" / "out")); return utils::node_map_find_first_free(_downstream_nodes, suggested_port, valid_output_ports); } // vim: sw=4 et: