// // Copyright 2014-2015 Ettus Research LLC // // SPDX-License-Identifier: GPL-3.0 // #include #include #include #include #include #include #include #include #include "b200_iface.hpp" #include "b200_impl.hpp" using namespace uhd; using namespace uhd::usrp; using namespace uhd::transport; namespace uhd{ static b200_iface::sptr get_b200_iface(const image_loader::image_loader_args_t& image_loader_args, mboard_eeprom_t &mb_eeprom, usb_device_handle::sptr& handle, bool user_specified){ std::vector dev_handles = get_b200_device_handles(image_loader_args.args); std::vector applicable_dev_handles; b200_iface::sptr iface; mboard_eeprom_t eeprom; // Internal use if(dev_handles.size() > 0){ for(usb_device_handle::sptr dev_handle: dev_handles){ if(dev_handle->firmware_loaded()){ iface = b200_iface::make(usb_control::make(dev_handle, 0)); eeprom = b200_impl::get_mb_eeprom(iface); if(user_specified){ if(image_loader_args.args.has_key("serial") and eeprom.get("serial") != image_loader_args.args.get("serial")){ continue; } if(image_loader_args.args.has_key("name") and eeprom.get("name") != image_loader_args.args.get("name")){ continue; } applicable_dev_handles.push_back(dev_handle); } else applicable_dev_handles.push_back(dev_handle); } } // At this point, we should have a single B2XX if(applicable_dev_handles.size() == 1){ mb_eeprom = eeprom; handle = applicable_dev_handles[0]; return iface; } else if(applicable_dev_handles.size() > 1){ std::string err_msg = "Could not resolve given args to a single B2XX device.\n" "Applicable devices:\n"; for (usb_device_handle::sptr dev_handle: applicable_dev_handles) { eeprom = b200_impl::get_mb_eeprom( b200_iface::make(usb_control::make(dev_handle, 0)) ); err_msg += str(boost::format(" * %s (serial=%s)\n") % B2XX_STR_NAMES.get(get_b200_product(dev_handle, mb_eeprom), "B2XX") % mb_eeprom.get("serial")); } err_msg += "\nSpecify one of these devices with the given args to load an image onto it."; throw uhd::runtime_error(err_msg); } } // No applicable devices found, return empty sptr so we can exit iface.reset(); mb_eeprom = eeprom; return iface; } static bool b200_image_loader(const image_loader::image_loader_args_t &image_loader_args){ if(!image_loader_args.load_fpga) return false; bool user_specified = (image_loader_args.args.has_key("serial") or image_loader_args.args.has_key("name")); // See if a B2x0 with the given args is found mboard_eeprom_t mb_eeprom; usb_device_handle::sptr handle; b200_iface::sptr iface = get_b200_iface(image_loader_args, mb_eeprom, handle, user_specified); if(!iface) return false; // No initialized B2x0 found std::string fpga_path; if(image_loader_args.fpga_path == ""){ /* * Normally, we can auto-generate the FPGA filename from what's in the EEPROM, * but if the applicable value is not in the EEPROM, the user must give a specific * filename for us to use. */ std::string product = mb_eeprom.get("product"); if(not B2XX_PRODUCT_ID.has_key(boost::lexical_cast(product))){ if(user_specified){ // The user specified a bad device but expects us to know what it is throw uhd::runtime_error("Could not determine model. You must manually specify an FPGA image filename."); } else{ return false; } } else{ fpga_path = find_image_path(B2XX_FPGA_FILE_NAME.get(get_b200_product(handle, mb_eeprom))); } } else fpga_path = image_loader_args.fpga_path; std::cout << boost::format("Unit: USRP %s (%s)") % B2XX_STR_NAMES.get(get_b200_product(handle, mb_eeprom), "B2XX") % mb_eeprom.get("serial") << std::endl; iface->load_fpga(fpga_path, true); return true; } UHD_STATIC_BLOCK(register_b200_image_loader){ std::string recovery_instructions = "This device is likely in an unusable state. Power-cycle the\n" "device, and the firmware/FPGA will be reloaded the next time\n" "UHD uses the device."; image_loader::register_image_loader("b200", b200_image_loader, recovery_instructions); } } /* namespace uhd */