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authorJosh Blum <josh@joshknows.com>2011-06-16 12:32:50 -0700
committerJosh Blum <josh@joshknows.com>2011-06-16 12:32:50 -0700
commit4881ca44ce19826e5e73009a7a16e894ee0c1d8b (patch)
treef522eb921fe3c26fbbe08d223ca03b0d90172ff4 /host
parented04e666fa9ba06b33e2d9cc87bb9e89b32b945a (diff)
parentb0571f695431c6477214ab61d0770df3ff1023e3 (diff)
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Merge branch 'fw_updater'
Diffstat (limited to 'host')
-rwxr-xr-xhost/utils/usrp_n2xx_net_burner.py143
-rwxr-xr-xhost/utils/usrp_n2xx_net_burner_gui.py51
2 files changed, 178 insertions, 16 deletions
diff --git a/host/utils/usrp_n2xx_net_burner.py b/host/utils/usrp_n2xx_net_burner.py
index 06af8c860..1df300c76 100755
--- a/host/utils/usrp_n2xx_net_burner.py
+++ b/host/utils/usrp_n2xx_net_burner.py
@@ -17,8 +17,6 @@
#
# 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
@@ -28,6 +26,8 @@ import struct
import socket
import sys
import time
+import platform
+import subprocess
########################################################################
# constants
@@ -54,6 +54,14 @@ FLASH_DATA_PACKET_SIZE = 256
FLASH_ARGS_FMT = '!LLLLL256s'
FLASH_INFO_FMT = '!LLLLL256x'
FLASH_IP_FMT = '!LLLL260x'
+FLASH_HW_REV_FMT = '!LLLL260x'
+
+n2xx_revs = {
+ 0x0a00: ["n200_r3", "n200_r2"],
+ 0x0a10: ["n200_r4"],
+ 0x0a01: ["n210_r3", "n210_r2"],
+ 0x0a11: ["n210_r4"]
+ }
class update_id_t:
USRP2_FW_UPDATE_ID_WAT = ord(' ')
@@ -72,6 +80,8 @@ class update_id_t:
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_I_CAN_HAS_HW_REV_LOL = ord('v')
+ USRP2_FW_UPDATE_ID_HERES_TEH_HW_REV_OMG = ord('V')
USRP2_FW_UPDATE_ID_KTHXBAI = ord('~')
_seq = -1
@@ -92,12 +102,18 @@ def unpack_flash_info_fmt(s):
def unpack_flash_ip_fmt(s):
return struct.unpack(FLASH_IP_FMT, s) #(proto_ver, pktid, seq, ip_addr)
+def unpack_flash_hw_rev_fmt(s):
+ return struct.unpack(FLASH_HW_REV_FMT, s) #proto_ver, pktid, seq, hw_rev
+
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 pack_flash_hw_rev_fmt(proto_ver, pktid, seq, hw_rev):
+ return struct.pack(FLASH_HW_REV_FMT, proto_ver, pktid, seq, hw_rev)
+
def is_valid_fpga_image(fpga_image):
for i in range(0,63):
if fpga_image[i:i+1] == bytes(b'\xFF'): continue
@@ -107,6 +123,96 @@ def is_valid_fpga_image(fpga_image):
def is_valid_fw_image(fw_image):
return fw_image[:4] == bytes(b'\x0B\x0B\x0B\x0B')
+
+########################################################################
+# interface discovery and device enumeration
+########################################################################
+def get_interfaces():
+ if(platform.system() is "Windows"): return win_get_interfaces()
+ else: return unix_get_interfaces()
+
+def unix_get_interfaces():
+ ifconfig = subprocess.check_output("/sbin/ifconfig")
+ ip_addr_re = "cast\D*(\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})"
+ bcasts = re.findall(ip_addr_re, ifconfig)
+ return bcasts
+
+def win_get_interfaces():
+ from ctypes import Structure, windll, sizeof
+ from ctypes import POINTER, byref
+ from ctypes import c_ulong, c_uint, c_ubyte, c_char
+ MAX_ADAPTER_DESCRIPTION_LENGTH = 128
+ MAX_ADAPTER_NAME_LENGTH = 256
+ MAX_ADAPTER_ADDRESS_LENGTH = 8
+ class IP_ADDR_STRING(Structure):
+ pass
+ LP_IP_ADDR_STRING = POINTER(IP_ADDR_STRING)
+ IP_ADDR_STRING._fields_ = [
+ ("next", LP_IP_ADDR_STRING),
+ ("ipAddress", c_char * 16),
+ ("ipMask", c_char * 16),
+ ("context", c_ulong)]
+ class IP_ADAPTER_INFO (Structure):
+ pass
+ LP_IP_ADAPTER_INFO = POINTER(IP_ADAPTER_INFO)
+ IP_ADAPTER_INFO._fields_ = [
+ ("next", LP_IP_ADAPTER_INFO),
+ ("comboIndex", c_ulong),
+ ("adapterName", c_char * (MAX_ADAPTER_NAME_LENGTH + 4)),
+ ("description", c_char * (MAX_ADAPTER_DESCRIPTION_LENGTH + 4)),
+ ("addressLength", c_uint),
+ ("address", c_ubyte * MAX_ADAPTER_ADDRESS_LENGTH),
+ ("index", c_ulong),
+ ("type", c_uint),
+ ("dhcpEnabled", c_uint),
+ ("currentIpAddress", LP_IP_ADDR_STRING),
+ ("ipAddressList", IP_ADDR_STRING),
+ ("gatewayList", IP_ADDR_STRING),
+ ("dhcpServer", IP_ADDR_STRING),
+ ("haveWins", c_uint),
+ ("primaryWinsServer", IP_ADDR_STRING),
+ ("secondaryWinsServer", IP_ADDR_STRING),
+ ("leaseObtained", c_ulong),
+ ("leaseExpires", c_ulong)]
+ GetAdaptersInfo = windll.iphlpapi.GetAdaptersInfo
+ GetAdaptersInfo.restype = c_ulong
+ GetAdaptersInfo.argtypes = [LP_IP_ADAPTER_INFO, POINTER(c_ulong)]
+ adapterList = (IP_ADAPTER_INFO * 10)()
+ buflen = c_ulong(sizeof(adapterList))
+ rc = GetAdaptersInfo(byref(adapterList[0]), byref(buflen))
+ if rc == 0:
+ for a in adapterList:
+ adNode = a.ipAddressList
+ while True:
+ #convert ipAddr and ipMask into hex addrs that can be turned into a bcast addr
+ ipAddr = adNode.ipAddress.decode()
+ ipMask = adNode.ipMask.decode()
+ if ipAddr and ipMask:
+ hexAddr = struct.unpack("<L", socket.inet_aton(ipAddr))[0]
+ hexMask = struct.unpack("<L", socket.inet_aton(ipMask))[0]
+ if(hexAddr and hexMask): #don't broadcast on 255.255.255.255, that's just lame
+ yield socket.inet_ntoa(struct.pack("<L", (hexAddr & hexMask) | (~hexMask) & 0xFFFFFFFF))
+ adNode = adNode.next
+ if not adNode:
+ break
+
+def enumerate_devices():
+ for bcast_addr in get_interfaces():
+ sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
+ sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
+ sock.settimeout(0.1)
+ out_pkt = pack_flash_args_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_OHAI_LOL, 0, 0, 0)
+ sock.sendto(out_pkt, (bcast_addr, UDP_FW_UPDATE_PORT))
+ still_goin = True
+ while(still_goin):
+ try:
+ pkt = sock.recv(UDP_MAX_XFER_BYTES)
+ (proto_ver, pktid, rxseq, ip_addr) = unpack_flash_ip_fmt(pkt)
+ if(pktid == update_id_t.USRP2_FW_UPDATE_ID_OHAI_OMG):
+ yield socket.inet_ntoa(struct.pack("<L", socket.ntohl(ip_addr)))
+ except socket.timeout:
+ still_goin = False
+
########################################################################
# Burner class, holds a socket and send/recv routines
########################################################################
@@ -117,6 +223,7 @@ class burner_socket(object):
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
+ self.get_hw_rev()
def set_callbacks(self, progress_cb, status_cb):
self._progress_cb = progress_cb
@@ -137,14 +244,19 @@ class burner_socket(object):
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)
+ def get_hw_rev(self):
+ out_pkt = pack_flash_hw_rev_fmt(USRP2_FW_PROTO_VERSION, update_id_t.USRP2_FW_UPDATE_ID_I_CAN_HAS_HW_REV_LOL, seq(), 0)
+ in_pkt = self.send_and_recv(out_pkt)
+ (proto_ver, pktid, rxseq, hw_rev) = unpack_flash_hw_rev_fmt(in_pkt)
+ if(pktid != update_id_t.USRP2_FW_UPDATE_ID_HERES_TEH_HW_REV_OMG): hw_rev = 0
+ return socket.ntohs(hw_rev)
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)
@@ -157,10 +269,16 @@ class burner_socket(object):
def burn_fw(self, fw, fpga, reset, safe):
(flash_size, sector_size) = self.get_flash_info()
+ hw_rev = self.get_hw_rev()
- print("Flash size: %i\nSector size: %i\n\n" % (flash_size, sector_size))
+ if(hw_rev != 0): print("Hardware type: %s" % n2xx_revs[hw_rev][0])
+ print("Flash size: %i\nSector size: %i\n" % (flash_size, sector_size))
if fpga:
+ #validate fpga image name against hardware rev
+ if(hw_rev != 0 and not any(name in fpga for name in n2xx_revs[hw_rev])):
+ raise Exception("Error: incorrect FPGA image version. Please use the correct image for device %s" % n2xx_revs[hw_rev][0])
+
if safe: image_location = SAFE_FPGA_IMAGE_LOCATION_ADDR
else: image_location = PROD_FPGA_IMAGE_LOCATION_ADDR
@@ -172,7 +290,7 @@ class burner_socket(object):
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")
@@ -196,7 +314,7 @@ class burner_socket(object):
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")
@@ -218,7 +336,7 @@ class burner_socket(object):
(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)
@@ -305,7 +423,7 @@ class burner_socket(object):
(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)
@@ -342,6 +460,7 @@ def get_options():
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)
+ parser.add_option("--list", action="store_true", help="list possible network devices", default=False)
(options, args) = parser.parse_args()
return options
@@ -351,6 +470,12 @@ def get_options():
########################################################################
if __name__=='__main__':
options = get_options()
+
+ if options.list:
+ print('Possible network devices:')
+ print(' ' + '\n '.join(enumerate_devices()))
+ exit()
+
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.')
diff --git a/host/utils/usrp_n2xx_net_burner_gui.py b/host/utils/usrp_n2xx_net_burner_gui.py
index 3b414a918..e2b79e72c 100755
--- a/host/utils/usrp_n2xx_net_burner_gui.py
+++ b/host/utils/usrp_n2xx_net_burner_gui.py
@@ -84,6 +84,45 @@ class ProgressBar(tkinter.Canvas):
if frac: self.create_rectangle(0, 0, fill_pixels, self._height, fill="#357EC7")
else: self.create_rectangle(0, 0, self._width, self._height, fill="#E8E8E8")
+class DeviceEntryWidget(tkinter.Frame):
+ """
+ Simple entry widget for getting the network device name.
+ Combines a label, entry, and helpful text box with hints.
+ """
+
+ def __init__(self, root, text=''):
+ tkinter.Frame.__init__(self, root)
+
+ tkinter.Button(self, text="Rescan for Devices", command=self._reload_cb).pack()
+
+ self._hints = tkinter.Listbox(self)
+ self._hints.bind("<<ListboxSelect>>", self._listbox_cb)
+ self._reload_cb()
+ self._hints.pack(expand=tkinter.YES, fill=tkinter.X)
+
+ frame = tkinter.Frame(self)
+ frame.pack()
+
+ tkinter.Label(frame, text="Network Address:").pack(side=tkinter.LEFT)
+ self._entry = tkinter.Entry(frame, width=50)
+ self._entry.insert(tkinter.END, text)
+ self._entry.pack(side=tkinter.LEFT)
+
+ def _reload_cb(self):
+ self._hints.delete(0, tkinter.END)
+ for hint in usrp_n2xx_net_burner.enumerate_devices():
+ self._hints.insert(tkinter.END, hint)
+
+ def _listbox_cb(self, event):
+ try:
+ sel = self._hints.get(self._hints.curselection()[0])
+ self._entry.delete(0, tkinter.END)
+ self._entry.insert(0, sel)
+ except Exception as e: print(e)
+
+ def get_devname(self):
+ return self._entry.get()
+
class SectionLabel(tkinter.Label):
"""
Make a text label with bold font.
@@ -115,10 +154,9 @@ class USRPN2XXNetBurnerApp(tkinter.Frame):
self._fpga_img_entry.pack()
#pack the destination entry widget
- SectionLabel(self, text="Select Address").pack(pady=5)
- self._addr_entry = tkinter.Entry(self, width=30)
- self._addr_entry.insert(tkinter.END, addr)
- self._addr_entry.pack()
+ SectionLabel(self, text="Select Device").pack(pady=5)
+ self._net_dev_entry = DeviceEntryWidget(self, text=addr)
+ self._net_dev_entry.pack()
#the do it button
SectionLabel(self, text="").pack(pady=5)
@@ -136,12 +174,10 @@ class USRPN2XXNetBurnerApp(tkinter.Frame):
self._pbar.pack(side=tkinter.RIGHT, expand=True)
def _burn(self):
- self._disable_input()
-
#grab strings from the gui
fw = self._fw_img_entry.get_filename()
fpga = self._fpga_img_entry.get_filename()
- addr = self._addr_entry.get()
+ addr = self._net_dev_entry.get_devname()
#check input
if not addr:
@@ -157,6 +193,7 @@ class USRPN2XXNetBurnerApp(tkinter.Frame):
tkinter.messagebox.showerror('Error:', 'FPGA image not found!')
return
+ self._disable_input()
try:
#make a new burner object and attempt the burner operation
burner = usrp_n2xx_net_burner.burner_socket(addr=addr)