espressif_tinyusb/hw/mcu/sony/cxd56/tools/flash_writer.py

#! /usr/bin/env python3

# Copyright (C) 2018 Sony Semiconductor Solutions Corp.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# 1. Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in
#    the documentation and/or other materials provided with the
#    distribution.
# 3. Neither the name NuttX nor the names of its contributors may be
#    used to endorse or promote products derived from this software
#    without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
# OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
# AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
#

import time
import sys
import os
import struct
import glob
import fnmatch
import errno
import telnetlib
import argparse
import shutil
import subprocess
import re
import xmodem

import_serial_module = True

# When SDK release, plase set SDK_RELEASE as True.
SDK_RELEASE = False

if SDK_RELEASE :
	PRINT_RAW_COMMAND = False
	REBOOT_AT_END = True
else :
	PRINT_RAW_COMMAND = True
	REBOOT_AT_END = True

try:
	import serial
except:
	import_serial_module = False

# supported environment various
# CXD56_PORT
# CXD56_TELNETSRV_PORT
# CXD56_TELNETSRV_IP

PROTOCOL_SERIAL = 0
PROTOCOL_TELNET = 1

MAX_DOT_COUNT = 70

# configure parameters and default value
class ConfigArgs:
	PROTOCOL_TYPE = None
	SERIAL_PORT = "COM1"
	SERVER_PORT = 4569
	SERVER_IP = "localhost"
	EOL = bytes([10])
	WAIT_RESET = True
	AUTO_RESET = False
	DTR_RESET = False
	XMODEM_BAUD = 0
	NO_SET_BOOTABLE = False
	PACKAGE_NAME = []
	FILE_NAME = []
	ERASE_NAME = []
	PKGSYS_NAME = []
	PKGAPP_NAME = []
	PKGUPD_NAME = []

ROM_MSG = [b"Welcome to nash"]
XMDM_MSG = "Waiting for XMODEM (CRC or 1K) transfer. Ctrl-X to cancel."

class ConfigArgsLoader():
	def __init__(self):
		self.parser = argparse.ArgumentParser(formatter_class=argparse.RawTextHelpFormatter)
		self.parser.add_argument("package_name", help="the name of the package to install", nargs='*')
		self.parser.add_argument("-f", "--file", dest="file_name", help="save file", action='append')
		self.parser.add_argument("-e", "--erase", dest="erase_name", help="erase file", action='append')

		self.parser.add_argument("-S", "--sys", dest="pkgsys_name", help="the name of the system package to install", action='append')
		self.parser.add_argument("-A", "--app", dest="pkgapp_name", help="the name of the application package to install", action='append')
		self.parser.add_argument("-U", "--upd", dest="pkgupd_name", help="the name of the updater package to install", action='append')

		self.parser.add_argument("-a", "--auto-reset", dest="auto_reset",
									action="store_true", default=None,
									help="try to auto reset develop board if possible")
		self.parser.add_argument("-d", "--dtr-reset", dest="dtr_reset",
									action="store_true", default=None,
									help="try to auto reset develop board if possible")
		self.parser.add_argument("-n", "--no-set-bootable", dest="no_set_bootable",
									action="store_true", default=None,
									help="not to set bootable")

		group = self.parser.add_argument_group()
		group.add_argument("-i", "--server-ip", dest="server_ip",
						   help="the ip address connected to the telnet server")
		group.add_argument("-p", "--server-port", dest="server_port", type=int,
						   help="the port connected to the telnet server")

		group = self.parser.add_argument_group()
		group.add_argument("-c", "--serial-port", dest="serial_port", help="the serial port")
		group.add_argument("-b", "--xmodem-baudrate", dest="xmodem_baud", help="Use the faster baudrate in xmodem")

		mutually_group = self.parser.add_mutually_exclusive_group()
		mutually_group.add_argument("-t", "--telnet-protocol", dest="telnet_protocol",
									action="store_true", default=None,
									help="use the telnet protocol for binary transmission")
		mutually_group.add_argument("-s", "--serial-protocol", dest="serial_protocol",
									action="store_true", default=None,
									help="use the serial port for binary transmission, default options")

		mutually_group2 = self.parser.add_mutually_exclusive_group()
		mutually_group2.add_argument("-F", "--force-wait-reset", dest="wait_reset",
									action="store_true", default=None,
									help="force wait for pressing RESET button")
		mutually_group2.add_argument("-N", "--no-wait-reset", dest="wait_reset",
									action="store_false", default=None,
									help="if possible, skip to wait for pressing RESET button")

	def update_config(self):
		args = self.parser.parse_args()

		ConfigArgs.PACKAGE_NAME = args.package_name
		ConfigArgs.FILE_NAME = args.file_name
		ConfigArgs.ERASE_NAME = args.erase_name
		ConfigArgs.PKGSYS_NAME = args.pkgsys_name
		ConfigArgs.PKGAPP_NAME = args.pkgapp_name
		ConfigArgs.PKGUPD_NAME = args.pkgupd_name

		# Get serial port or telnet server ip etc
		if args.serial_protocol == True:
			ConfigArgs.PROTOCOL_TYPE = PROTOCOL_SERIAL
		elif args.telnet_protocol == True:
			ConfigArgs.PROTOCOL_TYPE = PROTOCOL_TELNET

		if ConfigArgs.PROTOCOL_TYPE == None:
			proto = os.environ.get("CXD56_PROTOCOL")
			if proto is not None:
				if 's' in proto:
					ConfigArgs.PROTOCOL_TYPE = PROTOCOL_SERIAL
				elif 't' in proto:
					ConfigArgs.PROTOCOL_TYPE = PROTOCOL_TELNET

		if ConfigArgs.PROTOCOL_TYPE == None:
			ConfigArgs.PROTOCOL_TYPE = PROTOCOL_SERIAL

		if ConfigArgs.PROTOCOL_TYPE == PROTOCOL_SERIAL:
			if args.serial_port is not None:
				ConfigArgs.SERIAL_PORT = args.serial_port
			else:
				# Get serial port from the environment
				port = os.environ.get("CXD56_PORT")
				if port is not None:
					ConfigArgs.SERIAL_PORT = port
				else:
					print("CXD56_PORT is not set, Use " + ConfigArgs.SERIAL_PORT + ".")
		else:
			ConfigArgs.PROTOCOL_TYPE = PROTOCOL_TELNET
			if args.server_port is not None:
				ConfigArgs.SERVER_PORT = args.server_port
			else:
				port = os.environ.get("CXD56_TELNETSRV_PORT")
				if port is not None:
					ConfigArgs.SERVER_PORT = port
				else:
					print("CXD56_TELNETSRV_PORT is not set, Use " + str(ConfigArgs.SERVER_PORT) + ".")
			if args.server_ip is not None:
				ConfigArgs.SERVER_IP = args.server_ip
			else:
				ip = os.environ.get("CXD56_TELNETSRV_IP")
				if ip is not None:
					ConfigArgs.SERVER_IP = ip
				else:
					print("CXD56_TELNETSRV_IP is not set, Use " + ConfigArgs.SERVER_IP + ".")

		if args.xmodem_baud is not None:
			ConfigArgs.XMODEM_BAUD = args.xmodem_baud

		if args.auto_reset is not None:
			ConfigArgs.AUTO_RESET = args.auto_reset

		if args.dtr_reset is not None:
			ConfigArgs.DTR_RESET = args.dtr_reset

		if args.no_set_bootable is not None:
			ConfigArgs.NO_SET_BOOTABLE = args.no_set_bootable

		if args.wait_reset is not None:
			ConfigArgs.WAIT_RESET = args.wait_reset

class TelnetDev:
	def __init__(self):
		srv_ipaddr = ConfigArgs.SERVER_IP
		srv_port = ConfigArgs.SERVER_PORT
		self.recvbuf = b'';
		try:
			self.telnet = telnetlib.Telnet(host=srv_ipaddr, port=srv_port, timeout=10)
			# There is a ack to be sent after connecting to the telnet server.
			self.telnet.write(b"\xff")
		except Exception as e:
			print("Cannot connect to the server %s:%d" % (srv_ipaddr, srv_port))
			sys.exit(e.args[0])

	def readline(self, size=None):
		res = b''
		ch = b''
		while ch != ConfigArgs.EOL:
			ch = self.getc_raw(1, timeout=0.1)
			if ch == b'':
				return res
			res += ch
		return res

	def getc_raw(self, size, timeout=1):
		res = b''
		tm = time.monotonic()
		while size > 0:
			while self.recvbuf == b'':
				self.recvbuf = self.telnet.read_eager()
				if self.recvbuf == b'':
					if (time.monotonic() - tm) > timeout:
						return res
					time.sleep(0.1)
			res += self.recvbuf[0:1]
			self.recvbuf = self.recvbuf[1:]
			size -= 1
		return res

	def write(self, buffer):
		self.telnet.write(buffer)

	def discard_inputs(self, timeout=1.0):
		while True:
			ch = self.getc_raw(1, timeout=timeout)
			if ch == b'':
				break

	def getc(self, size, timeout=1):
		c = self.getc_raw(size, timeout)
		return c

	def putc(self, buffer, timeout=1):
		self.telnet.write(buffer)
		self.show_progress(len(buffer))

	def reboot(self):
		# no-op
		pass

	def set_file_size(self, filesize):
		self.bytes_transfered = 0
		self.filesize = filesize
		self.count = 0

	def show_progress(self, sendsize):
		if PRINT_RAW_COMMAND:
			if self.count < MAX_DOT_COUNT:
				self.bytes_transfered = self.bytes_transfered + sendsize
				cur_count = int(self.bytes_transfered * MAX_DOT_COUNT / self.filesize)
				if MAX_DOT_COUNT < cur_count:
					cur_count = MAX_DOT_COUNT
				for idx in range(cur_count - self.count):
					print('#',end='')
					sys.stdout.flush()
				self.count = cur_count
				if self.count == MAX_DOT_COUNT:
					print("\n")

class SerialDev:
	def __init__(self):
		if import_serial_module is False:
			print("Cannot import serial module, maybe it's not install yet.")
			print("\n", end="")
			print("Please install python-setuptool by Cygwin installer.")
			print("After that use easy_intall command to install serial module")
			print("    $ cd tool/")
			print("    $ python3 -m easy_install pyserial-2.7.tar.gz")
			quit()
		else:
			port = ConfigArgs.SERIAL_PORT
			try:
				self.serial = serial.Serial(port, baudrate=115200,
					parity=serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE,
					bytesize=serial.EIGHTBITS, timeout=0.1)
			except Exception as e:
				print("Cannot open port : " + port)
				sys.exit(e.args[0])

	def readline(self, size=None):
		return self.serial.readline(size)

	def write(self, buffer):
		self.serial.write(buffer)
		self.serial.flush()

	def discard_inputs(self, timeout=1.0):
		time.sleep(timeout)
		self.serial.flushInput()

	def getc(self, size, timeout=1):
		self.serial.timeout = timeout
		c = self.serial.read(size)
		self.serial.timeout = 0.1
		return c

	def putc(self, buffer, timeout=1):
		self.serial.timeout = timeout
		self.serial.write(buffer)
		self.serial.flush()
		self.serial.timeout = 0.1
		self.show_progress(len(buffer))

	# Note: windows platform dependent code
	def putc_win(self, buffer, timeout=1):
		self.serial.write(buffer)
		self.show_progress(len(buffer))
		while True:
			if self.serial.out_waiting == 0:
				break

	def setBaudrate(self, baudrate):
#		self.serial.setBaudrate(baudrate)
		self.serial.baudrate = baudrate

	def reboot(self):
		# Target Reset by DTR
		self.serial.setDTR(False)
		self.serial.setDTR(True)
		self.serial.setDTR(False)

	def set_file_size(self, filesize):
		self.bytes_transfered = 0
		self.filesize = filesize
		self.count = 0

	def show_progress(self, sendsize):
		if PRINT_RAW_COMMAND:
			if self.count < MAX_DOT_COUNT:
				self.bytes_transfered = self.bytes_transfered + sendsize
				cur_count = int(self.bytes_transfered * MAX_DOT_COUNT / self.filesize)
				if MAX_DOT_COUNT < cur_count:
					cur_count = MAX_DOT_COUNT
				for idx in range(cur_count - self.count):
					print('#',end='')
					sys.stdout.flush()
				self.count = cur_count
				if self.count == MAX_DOT_COUNT:
					print("\n")

class FlashWriter:
	def __init__(self, protocol_sel=PROTOCOL_SERIAL):
		if protocol_sel == PROTOCOL_TELNET:
			self.serial = TelnetDev()
		else:
			self.serial = SerialDev()

	def cancel_autoboot(self) :
		boot_msg = ''
		self.serial.reboot()  # Target reboot before send 'r'
		while boot_msg == '' :
			rx = self.serial.readline().strip()
			self.serial.write(b"r")  # Send "r" key to avoid auto boot
			for msg in ROM_MSG :
				if msg in rx :
					boot_msg = msg
					break
		while True :
			rx = self.serial.readline().decode(errors="replace").strip()
			if "updater" in rx :
				# Workaround : Sometime first character is dropped.
				# Send line feed as air shot before actual command.
				self.serial.write(b"\n")    # Send line feed
				self.serial.discard_inputs()# Clear input buffer to sync
				return boot_msg.decode(errors="ignore")

	def recv(self):
		rx = self.serial.readline()
		if PRINT_RAW_COMMAND :
			serial_line = rx.decode(errors="replace")
			if serial_line.strip() != "" and not serial_line.startswith(XMDM_MSG):
				print(serial_line, end="")
		return rx

	def wait(self, string):
		while True:
			rx = self.recv()
			if string.encode() in rx:
				time.sleep(0.1)
				break

	def wait_for_prompt(self):
		prompt_pat = re.compile(b"updater")
		while True:
			rx = self.recv()
			if prompt_pat.search(rx):
				time.sleep(0.1)
				break

	def send(self, string):
		self.serial.write(str(string).encode() + b"\n")
		rx = self.serial.readline()
		if PRINT_RAW_COMMAND :
			print(rx.decode(errors="replace"), end="")

	def read_output(self, prompt_text) :
		output = []
		while True :
			rx = self.serial.readline()
			if prompt_text.encode() in rx :
				time.sleep(0.1)
				break
			if rx != "" :
				output.append(rx.decode(errors="ignore").rstrip())
		return output

	def install_files(self, files, command) :
		if ConfigArgs.XMODEM_BAUD:
			command += " -b " + ConfigArgs.XMODEM_BAUD
		if os.name == 'nt':
			modem = xmodem.XMODEM(self.serial.getc, self.serial.putc_win, 'xmodem1k')
		else:
			modem = xmodem.XMODEM(self.serial.getc, self.serial.putc, 'xmodem1k')
		for file in files:
			with open(file, "rb") as bin :
				self.send(command)
				print("Install " + file)
				self.wait(XMDM_MSG)
				print("|0%" +
						"-" * (int(MAX_DOT_COUNT / 2) - 6) +
						"50%" +
						"-" * (MAX_DOT_COUNT - int(MAX_DOT_COUNT / 2) - 5) +
						"100%|")
				if ConfigArgs.XMODEM_BAUD:
					self.serial.setBaudrate(ConfigArgs.XMODEM_BAUD)
					self.serial.discard_inputs() # Clear input buffer to sync
				self.serial.set_file_size(os.path.getsize(file))
				modem.send(bin)
				if ConfigArgs.XMODEM_BAUD:
					self.serial.setBaudrate(115200)
			self.wait_for_prompt()

	def save_files(self, files) :
		if ConfigArgs.XMODEM_BAUD:
			command = "save_file -b " + ConfigArgs.XMODEM_BAUD + " -x "
		else:
			command = "save_file -x "
		if os.name == 'nt':
			modem = xmodem.XMODEM(self.serial.getc, self.serial.putc_win, 'xmodem1k')
		else:
			modem = xmodem.XMODEM(self.serial.getc, self.serial.putc, 'xmodem1k')
		for file in files:
			with open(file, "rb") as bin :
				self.send(command + os.path.basename(file))
				print("Save " + file)
				self.wait(XMDM_MSG)
				if ConfigArgs.XMODEM_BAUD:
					self.serial.setBaudrate(ConfigArgs.XMODEM_BAUD)
					self.serial.discard_inputs() # Clear input buffer to sync
				self.serial.set_file_size(os.path.getsize(file))
				modem.send(bin)
				if ConfigArgs.XMODEM_BAUD:
					self.serial.setBaudrate(115200)
				self.wait_for_prompt()
				self.send("chmod d+rw " + os.path.basename(file))
				self.wait_for_prompt()

	def delete_files(self, files) :
		for file in files :
			self.delete_binary(file)

	def delete_binary(self, bin_name) :
		self.send("rm " + bin_name)
		self.wait_for_prompt()

def main():
	try:
		config_loader = ConfigArgsLoader()
		config_loader.update_config()
	except:
		return errno.EINVAL

	# Wait to reset the board
	writer = FlashWriter(ConfigArgs.PROTOCOL_TYPE)

	do_wait_reset = True
	if ConfigArgs.AUTO_RESET:
		if subprocess.call("cd " + sys.path[0] + "; ./reset_board.sh", shell=True) == 0:
			print("auto reset board sucess!!")
			do_wait_reset = False
			bootrom_msg = writer.cancel_autoboot()

	if ConfigArgs.DTR_RESET:
		do_wait_reset = False
		bootrom_msg = writer.cancel_autoboot()

	if ConfigArgs.WAIT_RESET == False and do_wait_reset == True:
		rx = writer.recv()
		time.sleep(1)
		for i in range(3):
			writer.send("")
			rx = writer.recv()
			if "updater".encode() in rx:
				# No need to wait for reset
				do_wait_reset = False
				break
			time.sleep(1)

	if do_wait_reset:
		# Wait to reset the board
		print('Please press RESET button on target board')
		sys.stdout.flush()
		bootrom_msg = writer.cancel_autoboot()

	# Remove files
	if ConfigArgs.ERASE_NAME :
		print(">>> Remove exisiting files ...")
		writer.delete_files(ConfigArgs.ERASE_NAME)

	# Install files
	if ConfigArgs.PACKAGE_NAME or ConfigArgs.PKGSYS_NAME or ConfigArgs.PKGAPP_NAME or ConfigArgs.PKGUPD_NAME:
		print(">>> Install files ...")
	if ConfigArgs.PACKAGE_NAME :
		writer.install_files(ConfigArgs.PACKAGE_NAME, "install")
	if ConfigArgs.PKGSYS_NAME :
		writer.install_files(ConfigArgs.PKGSYS_NAME, "install")
	if ConfigArgs.PKGAPP_NAME :
		writer.install_files(ConfigArgs.PKGAPP_NAME, "install")
	if ConfigArgs.PKGUPD_NAME :
		writer.install_files(ConfigArgs.PKGUPD_NAME, "install -k updater.key")

	# Save files
	if ConfigArgs.FILE_NAME :
		print(">>> Save files ...")
		writer.save_files(ConfigArgs.FILE_NAME)

	# Set auto boot
	if not ConfigArgs.NO_SET_BOOTABLE:
		print(">>> Save Configuration to FlashROM ...")
		writer.send("set bootable M0P")
		writer.wait_for_prompt()

	# Sync all cached data to flash
	writer.send("sync")
	writer.wait_for_prompt()

	if REBOOT_AT_END :
		print("Restarting the board ...")
		writer.send("reboot")

	return 0

if __name__ == "__main__":
	try:
		sys.exit(main())
	except KeyboardInterrupt:
		print("Canceled by keyboard interrupt.")
		pass