blackmagic/scripts/stm32_mem.py

263 lines
7.0 KiB
Python
Executable File

#!/usr/bin/env python
#
# stm32_mem.py: STM32 memory access using USB DFU class
# Copyright (C) 2011 Black Sphere Technologies
# Copyright (C) 2017 Uwe Bonnes (bon@elektron.ikp.physik.tu-darmstadt.de)
# Written by Gareth McMullin <gareth@blacksphere.co.nz>
#
# 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 <http://www.gnu.org/licenses/>.
from time import sleep
import struct
import os
from sys import stdout, argv
import argparse
import usb
import dfu
CMD_GETCOMMANDS = 0x00
CMD_SETADDRESSPOINTER = 0x21
CMD_ERASE = 0x41
def stm32_erase(dev, addr):
erase_cmd = struct.pack("<BL", CMD_ERASE, addr)
dev.download(0, erase_cmd)
while True:
status = dev.get_status()
if status.bState == dfu.STATE_DFU_DOWNLOAD_BUSY:
sleep(status.bwPollTimeout / 1000.0)
if status.bState == dfu.STATE_DFU_DOWNLOAD_IDLE:
break
def stm32_set_address(dev, addr):
set_address_cmd = struct.pack("<BL", CMD_SETADDRESSPOINTER, addr)
dev.download(0, set_address_cmd)
while True:
status = dev.get_status()
if status.bState == dfu.STATE_DFU_DOWNLOAD_BUSY:
sleep(status.bwPollTimeout / 1000.0)
if status.bState == dfu.STATE_DFU_DOWNLOAD_IDLE:
break
def stm32_write(dev, data):
dev.download(2, data)
while True:
status = dev.get_status()
if status.bState == dfu.STATE_DFU_DOWNLOAD_BUSY:
sleep(status.bwPollTimeout / 1000.0)
if status.bState == dfu.STATE_DFU_DOWNLOAD_IDLE:
break
def stm32_read(dev):
data = dev.upload(2, 1024)
while True:
status = dev.get_status()
if status.bState == dfu.STATE_DFU_DOWNLOAD_BUSY:
sleep(status.bwPollTimeout / 1000.0)
if status.bState == dfu.STATE_DFU_UPLOAD_IDLE:
break
return data
def stm32_manifest(dev):
dev.download(0, "")
while True:
try:
status = dev.get_status()
except:
return
sleep(status.bwPollTimeout / 1000.0)
if status.bState == dfu.STATE_DFU_MANIFEST:
break
def stm32_scan(args, test):
devs = dfu.finddevs()
bmp_devs = []
bmp = 0
if not devs:
if test == True:
return
print("No DFU devices found!")
exit(-1)
for dev in devs:
try:
dfudev = dfu.dfu_device(*dev)
except:
# Exceptions are raised when current user doesn't have permissions
# for the specified USB device, but the device scan needs to
# continue
continue
man = dfudev.handle.getString(dfudev.dev.iManufacturer, 30)
if man == b"Black Sphere Technologies":
bmp = bmp + 1
bmp_devs.append(dev)
if bmp == 0:
if test == True:
return
print("No compatible device found\n")
exit(-1)
if bmp > 1 and not args.serial_target:
if test == True:
return
print("Found multiple devices:\n")
for dev in bmp_devs:
dfudev = dfu.dfu_device(*dev)
man = dfudev.handle.getString(dfudev.dev.iManufacturer, 30)
product = dfudev.handle.getString(dfudev.dev.iProduct, 96)
serial_no = dfudev.handle.getString(dfudev.dev.iSerialNumber, 30)
print("Device ID:\t %04x:%04x" % (dfudev.dev.idVendor, dfudev.dev.idProduct))
print("Manufacturer:\t %s" % man)
print("Product:\t %s" % product)
print("Serial:\t\t %s\n" % serial_no)
print("Select device with serial number!")
exit (-1)
for dev in bmp_devs:
dfudev = dfu.dfu_device(*dev)
man = dfudev.handle.getString(dfudev.dev.iManufacturer, 30)
product = dfudev.handle.getString(dfudev.dev.iProduct, 96)
serial_no = dfudev.handle.getString(dfudev.dev.iSerialNumber, 30)
if args.serial_target:
if man == "Black Sphere Technologies" and serial_no == args.serial_target:
break
else:
if man == "Black Sphere Technologies":
break
print("Device ID:\t %04x:%04x" % (dfudev.dev.idVendor, dfudev.dev.idProduct))
print("Manufacturer:\t %s" % man)
print("Product:\t %s" % product)
print("Serial:\t\t %s" % serial_no)
if args.serial_target and serial_no != args.serial_target:
print("Serial number doesn't match!\n")
exit(-2)
return dfudev
if __name__ == "__main__":
print("-")
print("USB Device Firmware Upgrade - Host Utility -- version 1.2")
print("Copyright (C) 2011 Black Sphere Technologies")
print("License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>")
print("-")
parser = argparse.ArgumentParser()
parser.add_argument("progfile", help="Binary file to program")
parser.add_argument("-s", "--serial_target", help="Match Serial Number")
parser.add_argument("-a", "--address", help="Start address for firmware")
parser.add_argument("-m", "--manifest", help="Start application, if in DFU mode", action='store_true')
args = parser.parse_args()
dfudev = stm32_scan(args, False)
try:
state = dfudev.get_state()
except:
if args.manifest : exit(0)
print("Failed to read device state! Assuming APP_IDLE")
state = dfu.STATE_APP_IDLE
if state == dfu.STATE_APP_IDLE:
try:
dfudev.detach()
except:
pass
dfudev.release()
print("Invoking DFU Device")
timeout = 0
while True :
sleep(0.5)
timeout = timeout + 0.5
dfudev = stm32_scan(args, True)
if dfudev: break
if timeout > 5 :
print("Error: DFU device did not appear")
exit(-1)
if args.manifest :
stm32_manifest(dfudev)
print("Invoking Application Device")
exit(0)
dfudev.make_idle()
file = open(args.progfile, "rb")
if (os.path.getsize(args.progfile) > 0x1f800):
print("File too large")
exit(0)
bin = file.read()
product = dfudev.handle.getString(dfudev.dev.iProduct, 64)
if args.address :
start = int(args.address, 0)
else :
if b"F4" in product:
start = 0x8004000
else:
start = 0x8002000
addr = start
while bin:
print ("Programming memory at 0x%08X\r" % addr),
stdout.flush()
try:
# STM DFU bootloader erases always.
# BPM Bootloader only erases once per sector
# To support the STM DFU bootloader, the interface descriptor must
# get evaluated and erase called only once per sector!
stm32_erase(dfudev, addr)
except:
print("\nErase Timed out\n")
break
try:
stm32_set_address(dfudev, addr)
except:
print("\nSet Address Timed out\n")
break
stm32_write(dfudev, bin[:1024])
bin = bin[1024:]
addr += 1024
file.seek(0)
bin = file.read()
len = len(bin)
addr = start
print("-")
while bin:
try:
stm32_set_address(dfudev, addr)
data = stm32_read(dfudev)
except:
# Abort silent if bootloader does not support upload
break
print ("Verifying memory at 0x%08X\r" % addr),
stdout.flush()
if len > 1024 :
size = 1024
else :
size = len
if bin[:size] != bytearray(data[:size]) :
print ("\nMitmatch in block at 0x%08X" % addr)
break;
bin = bin[1024:]
addr += 1024
len -= 1024
if len <= 0 :
print("\nVerified!")
stm32_manifest(dfudev)
print("All operations complete!\n")