#!/usr/bin/env python # # 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 . # # TODO: make it autodetect UHD devices # TODO: you should probably watch sequence numbers # TODO: validate images in 1) size and 2) header content so you can't write a Justin Bieber MP3 to Flash import optparse import math import os import re import struct import socket import sys import time ######################################################################## # constants ######################################################################## UDP_FW_UPDATE_PORT = 49154 UDP_MAX_XFER_BYTES = 1024 UDP_TIMEOUT = 3 UDP_POLL_INTERVAL = 0.10 #in seconds USRP2_FW_PROTO_VERSION = 7 #should be unused after r6 #from bootloader_utils.h FPGA_IMAGE_SIZE_BYTES = 1572864 FW_IMAGE_SIZE_BYTES = 31744 SAFE_FPGA_IMAGE_LOCATION_ADDR = 0x00000000 SAFE_FW_IMAGE_LOCATION_ADDR = 0x003F0000 PROD_FPGA_IMAGE_LOCATION_ADDR = 0x00180000 PROD_FW_IMAGE_LOCATION_ADDR = 0x00300000 FLASH_DATA_PACKET_SIZE = 256 #see fw_common.h FLASH_ARGS_FMT = '!LLLLL256s' FLASH_INFO_FMT = '!LLLLL256x' FLASH_IP_FMT = '!LLLL260x' class update_id_t: USRP2_FW_UPDATE_ID_WAT = ord(' ') USRP2_FW_UPDATE_ID_OHAI_LOL = ord('a') USRP2_FW_UPDATE_ID_OHAI_OMG = ord('A') USRP2_FW_UPDATE_ID_WATS_TEH_FLASH_INFO_LOL = ord('f') USRP2_FW_UPDATE_ID_HERES_TEH_FLASH_INFO_OMG = ord('F') USRP2_FW_UPDATE_ID_ERASE_TEH_FLASHES_LOL = ord('e') USRP2_FW_UPDATE_ID_ERASING_TEH_FLASHES_OMG = ord('E') USRP2_FW_UPDATE_ID_R_U_DONE_ERASING_LOL = ord('d') USRP2_FW_UPDATE_ID_IM_DONE_ERASING_OMG = ord('D') USRP2_FW_UPDATE_ID_NOPE_NOT_DONE_ERASING_OMG = ord('B') USRP2_FW_UPDATE_ID_WRITE_TEH_FLASHES_LOL = ord('w') USRP2_FW_UPDATE_ID_WROTE_TEH_FLASHES_OMG = ord('W') USRP2_FW_UPDATE_ID_READ_TEH_FLASHES_LOL = ord('r') USRP2_FW_UPDATE_ID_KK_READ_TEH_FLASHES_OMG = ord('R') USRP2_FW_UPDATE_ID_RESET_MAH_COMPUTORZ_LOL = ord('s') USRP2_FW_UPDATE_ID_RESETTIN_TEH_COMPUTORZ_OMG = ord('S') USRP2_FW_UPDATE_ID_KTHXBAI = ord('~') _seq = -1 def seq(): global _seq _seq = _seq+1 return _seq ######################################################################## # helper functions ######################################################################## def unpack_flash_args_fmt(s): return struct.unpack(FLASH_ARGS_FMT, s) #(proto_ver, pktid, seq, flash_addr, length, data) def unpack_flash_info_fmt(s): return struct.unpack(FLASH_INFO_FMT, s) #(proto_ver, pktid, seq, sector_size_bytes, memory_size_bytes) def unpack_flash_ip_fmt(s): return struct.unpack(FLASH_IP_FMT, s) #(proto_ver, pktid, seq, ip_addr) def pack_flash_args_fmt(proto_ver, pktid, seq, flash_addr, length, data=bytes()): return struct.pack(FLASH_ARGS_FMT, proto_ver, pktid, seq, flash_addr, length, data) def pack_flash_info_fmt(proto_ver, pktid, seq, sector_size_bytes, memory_size_bytes): return struct.pack(FLASH_INFO_FMT, proto_ver, pktid, seq, sector_size_bytes, memory_size_bytes) def is_valid_fpga_image(fpga_image): for i in range(0,63): if fpga_image[i:i+1] == bytes(b'\xFF'): continue if fpga_image[i:i+2] == bytes(b'\xAA\x99'): return True return False def is_valid_fw_image(fw_image): return fw_image[:4] == bytes(b'\x0B\x0B\x0B\x0B') ######################################################################## # Burner class, holds a socket and send/recv routines ######################################################################## class burner_socket(object): def __init__(self, addr): self._sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) self._sock.settimeout(UDP_TIMEOUT) self._sock.connect((addr, UDP_FW_UPDATE_PORT)) self.set_callbacks(lambda *a: None, lambda *a: None) self.init_update() #check that the device is there def set_callbacks(self, progress_cb, status_cb): self._progress_cb = progress_cb self._status_cb = status_cb def send_and_recv(self, pkt): self._sock.send(pkt) return self._sock.recv(UDP_MAX_XFER_BYTES) #just here to validate comms def init_update(self): out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_OHAI_LOL, seq(), 0, 0) try: in_pkt = self.send_and_recv(out_pkt) except socket.timeout: raise Exception("No response from device") (proto_ver, pktid, rxseq, ip_addr) = unpack_flash_ip_fmt(in_pkt) if pktid == update_id_t.USRP2_FW_UPDATE_ID_OHAI_OMG: print("USRP-N2XX found.") else: raise Exception("Invalid reply received from device.") # print "Incoming:\n\tVer: %i\n\tID: %c\n\tSeq: %i\n\tIP: %i\n" % (proto_ver, chr(pktid), rxseq, ip_addr) memory_size_bytes = 0 sector_size_bytes = 0 def get_flash_info(self): if (self.memory_size_bytes != 0) and (self.sector_size_bytes != 0): return (self.memory_size_bytes, self.sector_size_bytes) out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_WATS_TEH_FLASH_INFO_LOL, seq(), 0, 0) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, self.sector_size_bytes, self.memory_size_bytes) = unpack_flash_info_fmt(in_pkt) if pktid != update_id_t.USRP2_FW_UPDATE_ID_HERES_TEH_FLASH_INFO_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) return (self.memory_size_bytes, self.sector_size_bytes) def burn_fw(self, fw, fpga, reset, safe): (flash_size, sector_size) = self.get_flash_info() print("Flash size: %i\nSector size: %i\n\n" % (flash_size, sector_size)) if fpga: if safe: image_location = SAFE_FPGA_IMAGE_LOCATION_ADDR else: image_location = PROD_FPGA_IMAGE_LOCATION_ADDR fpga_file = open(fpga, 'rb') fpga_image = fpga_file.read() if len(fpga_image) > FPGA_IMAGE_SIZE_BYTES: raise Exception("Error: FPGA image file too large.") if not is_valid_fpga_image(fpga_image): raise Exception("Error: Invalid FPGA image file.") if (len(fpga_image) + image_location) > flash_size: raise Exception("Error: Cannot write past end of device") print("Begin FPGA write: this should take about 1 minute...") start_time = time.time() self.erase_image(image_location, FPGA_IMAGE_SIZE_BYTES) self.write_image(fpga_image, image_location) self.verify_image(fpga_image, image_location) print("Time elapsed: %f seconds"%(time.time() - start_time)) print("\n\n") if fw: if safe: image_location = SAFE_FW_IMAGE_LOCATION_ADDR else: image_location = PROD_FW_IMAGE_LOCATION_ADDR fw_file = open(fw, 'rb') fw_image = fw_file.read() if len(fw_image) > FW_IMAGE_SIZE_BYTES: raise Exception("Error: Firmware image file too large.") if not is_valid_fw_image(fw_image): raise Exception("Error: Invalid firmware image file.") if (len(fw_image) + image_location) > flash_size: raise Exception("Error: Cannot write past end of device") print("Begin firmware write: this should take about 1 second...") start_time = time.time() self.erase_image(image_location, FW_IMAGE_SIZE_BYTES) self.write_image(fw_image, image_location) self.verify_image(fw_image, image_location) print("Time elapsed: %f seconds"%(time.time() - start_time)) print("\n\n") if reset: self.reset_usrp() def write_image(self, image, addr): print("Writing image") self._status_cb("Writing") writedata = image #we split the image into smaller (256B) bits and send them down the wire (mem_size, sector_size) = self.get_flash_info() if (addr + len(writedata)) > mem_size: raise Exception("Error: Cannot write past end of device") while writedata: out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_WRITE_TEH_FLASHES_LOL, seq(), addr, FLASH_DATA_PACKET_SIZE, writedata[:FLASH_DATA_PACKET_SIZE]) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid != update_id_t.USRP2_FW_UPDATE_ID_WROTE_TEH_FLASHES_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) writedata = writedata[FLASH_DATA_PACKET_SIZE:] addr += FLASH_DATA_PACKET_SIZE self._progress_cb(float(len(image)-len(writedata))/len(image)) def verify_image(self, image, addr): print("Verifying data") self._status_cb("Verifying") readsize = len(image) readdata = bytes() while readsize > 0: if readsize < FLASH_DATA_PACKET_SIZE: thisreadsize = readsize else: thisreadsize = FLASH_DATA_PACKET_SIZE out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_READ_TEH_FLASHES_LOL, seq(), addr, thisreadsize) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid != update_id_t.USRP2_FW_UPDATE_ID_KK_READ_TEH_FLASHES_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) readdata += data[:thisreadsize] readsize -= FLASH_DATA_PACKET_SIZE addr += FLASH_DATA_PACKET_SIZE self._progress_cb(float(len(readdata))/len(image)) print("Read back %i bytes" % len(readdata)) # print readdata # for i in range(256, 512): # print "out: %i in: %i" % (ord(image[i]), ord(readdata[i])) if readdata != image: raise Exception("Verify failed. Image did not write correctly.") else: print("Success.") def read_image(self, image, size, addr): print("Reading image") readsize = size readdata = str() while readsize > 0: if readsize < FLASH_DATA_PACKET_SIZE: thisreadsize = readsize else: thisreadsize = FLASH_DATA_PACKET_SIZE out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_READ_TEH_FLASHES_LOL, seq(), addr, thisreadsize) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid != update_id_t.USRP2_FW_UPDATE_ID_KK_READ_TEH_FLASHES_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) readdata += data[:thisreadsize] readsize -= FLASH_DATA_PACKET_SIZE addr += FLASH_DATA_PACKET_SIZE print("Read back %i bytes" % len(readdata)) #write to disk f = open(image, 'w') f.write(readdata) f.close() def reset_usrp(self): out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_RESET_MAH_COMPUTORZ_LOL, seq(), 0, 0) try: in_pkt = self.send_and_recv(out_pkt) except socket.timeout: return (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid == update_id_t.USRP2_FW_UPDATE_ID_RESETTIN_TEH_COMPUTORZ_OMG: raise Exception("Device failed to reset.") def erase_image(self, addr, length): self._status_cb("Erasing") #get flash info first (flash_size, sector_size) = self.get_flash_info() if (addr + length) > flash_size: raise Exception("Cannot erase past end of device") out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_ERASE_TEH_FLASHES_LOL, seq(), addr, length) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid != update_id_t.USRP2_FW_UPDATE_ID_ERASING_TEH_FLASHES_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) print("Erasing %i bytes at %i" % (length, addr)) start_time = time.time() #now wait for it to finish while(True): out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_R_U_DONE_ERASING_LOL, seq(), 0, 0) in_pkt = self.send_and_recv(out_pkt) (proto_ver, pktid, rxseq, flash_addr, rxlength, data) = unpack_flash_args_fmt(in_pkt) if pktid == update_id_t.USRP2_FW_UPDATE_ID_IM_DONE_ERASING_OMG: break elif pktid != update_id_t.USRP2_FW_UPDATE_ID_NOPE_NOT_DONE_ERASING_OMG: raise Exception("Invalid reply %c from device." % (chr(pktid))) time.sleep(0.01) #decrease network overhead by waiting a bit before polling self._progress_cb(min(1.0, (time.time() - start_time)/(length/80e3))) ######################################################################## # command line options ######################################################################## def get_options(): parser = optparse.OptionParser() parser.add_option("--addr", type="string", help="USRP-N2XX device address", default='') parser.add_option("--fw", type="string", help="firmware image path (optional)", default='') parser.add_option("--fpga", type="string", help="fpga image path (optional)", default='') parser.add_option("--reset", action="store_true", help="reset the device after writing", default=False) parser.add_option("--read", action="store_true", help="read to file instead of write from file", default=False) parser.add_option("--overwrite-safe", action="store_true", help="never ever use this option", default=False) (options, args) = parser.parse_args() return options ######################################################################## # main ######################################################################## if __name__=='__main__': options = get_options() if not options.addr: raise Exception('no address specified') if not options.fpga and not options.fw and not options.reset: raise Exception('Must specify either a firmware image or FPGA image, and/or reset.') if options.overwrite_safe and not options.read: print("Are you REALLY, REALLY sure you want to overwrite the safe image? This is ALMOST ALWAYS a terrible idea.") print("If your image is faulty, your USRP2+ will become a brick until reprogrammed via JTAG.") response = input("""Type "yes" to continue, or anything else to quit: """) if response != "yes": sys.exit(0) burner = burner_socket(addr=options.addr) if options.read: if options.fw: file = options.fw if os.path.isfile(file): response = input("File already exists -- overwrite? (y/n) ") if response != "y": sys.exit(0) size = FW_IMAGE_SIZE_BYTES addr = SAFE_FW_IMAGE_LOCATION_ADDR if options.overwrite_safe else PROD_FW_IMAGE_LOCATION_ADDR burner.read_image(file, size, addr) if options.fpga: file = options.fpga if os.path.isfile(file): response = input("File already exists -- overwrite? (y/n) ") if response != "y": sys.exit(0) size = FPGA_IMAGE_SIZE_BYTES addr = SAFE_FPGA_IMAGE_LOCATION_ADDR if options.overwrite_safe else PROD_FPGA_IMAGE_LOCATION_ADDR burner.read_image(file, size, addr) else: burner.burn_fw(fw=options.fw, fpga=options.fpga, reset=options.reset, safe=options.overwrite_safe)