boards/arm/mec172xevb_assy6906/support/mec172x_remote_flasher.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (c) 2023 Intel Corporation
 #
 # SPDX-License-Identifier: Apache-2.0

 '''
 This script allows flashing a mec172xevb_assy6906 board
 attached to a remote system.

 Usage:
   west flash -r misc-flasher -- mec172x_remote_flasher.py <remote host>

 Note:
 1. SSH access to remote host with write access to remote /tmp.
    Since the script does multiple SSH connections, it is a good idea
    to setup public key authentication and ssh-agent.
 2. Dediprog "dpcmd" available in path on remote host.
    (Can be compiled from https://github.com/DediProgSW/SF100Linux)
 3. SSH user must have permission to access USB devices,
    since dpcmd needs USB access to communicate with
    the Dediprog programmer attached to remote host.

 To use with twister, a hardware map file is needed.
 Here is a sample map file:

   - connected: true
     available: true
     id: mec172xevb_assy6906
     platform: mec172xevb_assy6906
     product: mec172xevb_assy6906
     runner: misc-flasher
     runner_params:
       - <ZEPHYR_BASE>/boards/arm/mec172xevb_assy6906/support/mec172x_remote_flasher.py
       - <remote host>
     serial_pty: "nc,<remote host>,<ser2net port>"

 The sample map file assumes the serial console is exposed via ser2net,
 and that it can be accessed using nc (netcat).

 To use twister:
   ./scripts/twister --hardware-map <hw map file> --device-testing

 Required:
 * Fabric (https://www.fabfile.org/)
 '''

 import argparse
 import hashlib
 import pathlib
 import sys

 from datetime import datetime

 import fabric
 from invoke.exceptions import UnexpectedExit

 def calc_sha256(spi_file):
     '''
     Calculate a SHA256 of the SPI binary content plus current
     date string.

     This is used for remote file name to avoid file name
     collision.
     '''
     sha256 = hashlib.sha256()

     # Use SPI file content to calculate SHA.
     with open(spi_file, "rb") as fbin:
         spi_data = fbin.read()
         sha256.update(spi_data)

     # Add a date/time to SHA to hopefully
     # further avoid file name collision.
     now = datetime.now().isoformat()
     sha256.update(now.encode("utf-8"))

     return sha256.hexdigest()

 def parse_args():
     '''
     Parse command line arguments.
     '''
     parser = argparse.ArgumentParser(allow_abbrev=False)

     # Fixed arguments
     parser.add_argument("build_dir",
                         help="Build directory")
     parser.add_argument("remote_host",
                         help="Remote host name or IP address")

     # Arguments about remote machine
     remote = parser.add_argument_group("Remote Machine")
     remote.add_argument("--remote-tmp", required=False,
                         help="Remote temporary directory to store SPI binary "
                              "[default=/tmp for Linux remote]")
     remote.add_argument("--dpcmd", required=False, default="dpcmd",
                         help="Full path to dpcmd on remote machine")

     # Remote machine type.
     # This affects how remote path is constructed.
     remote_type = remote.add_mutually_exclusive_group()
     remote_type.add_argument("--remote-is-linux", required=False,
                              default=True, action="store_true",
                              help="Set if remote machine is a Linux-like machine [default]")
     remote_type.add_argument("--remote-is-win", required=False,
                              action="store_true",
                              help="Set if remote machine is a Windows machine")

     return parser.parse_args()

 def main():
     '''
     Main
     '''
     args = parse_args()

     # Check for valid arguments and setup variables.
     if not args.remote_tmp:
         if args.remote_is_win:
             # Do not assume a default temporary on Windows,
             # as it is usually under user's directory and
             # we do not know enough to construct a valid path
             # at this time.
             print("[ERROR] --remote-tmp is required for --remote-is-win")
             sys.exit(1)

         if args.remote_is_linux:
             remote_tmp = pathlib.PurePosixPath("/tmp")
     else:
         if args.remote_is_win:
             remote_tmp = pathlib.PureWindowsPath(args.remote_tmp)
         elif args.remote_is_linux:
             remote_tmp = pathlib.PurePosixPath(args.remote_tmp)

     # Construct full path to SPI binary.
     spi_file_path = pathlib.Path(args.build_dir)
     spi_file_path = spi_file_path.joinpath("zephyr", "spi_image.bin")

     # Calculate a sha256 digest for SPI file.
     # This is used for remote file to avoid file name collision
     # if there are multiple MEC17x attached to remote machine
     # and all are trying to flash at same time.
     sha256 = calc_sha256(spi_file_path)

     # Construct full path on remote to store
     # the transferred SPI binary.
     remote_file_name = remote_tmp.joinpath(f"mec172x_{sha256}.bin")

     print(f"[INFO] Build directory: {args.build_dir}")
     print(f"[INFO] Remote host: {args.remote_host}")

     # Connect to remote host via SSH.
     ssh = fabric.Connection(args.remote_host, forward_agent=True)

     print("[INFO] Sending file...")
     print(f"[INFO]   Local SPI file: {spi_file_path}")
     print(f"[INFO]   Remote SPI file: {remote_file_name}")

     # Open SFTP channel, and send the SPI binary over.
     sftp = ssh.sftp()
     sftp.put(str(spi_file_path), str(remote_file_name))

     # Run dpcmd to flash the device.
     try:
         dpcmd_cmd = f"{args.dpcmd} --auto {str(remote_file_name)} --verify"
         print(f"[INFO] Invoking: {dpcmd_cmd}...")
         ssh.run(dpcmd_cmd)
     except UnexpectedExit:
         print("[ERR ] Cannot flashing SPI binary!")

     # Remove temporary file.
     print(f"[INFO] Removing remote file {remote_file_name}")
     sftp.remove(str(remote_file_name))

     sftp.close()
     ssh.close()

 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2023 Intel Corporation
	#
	# SPDX-License-Identifier: Apache-2.0

	'''
	This script allows flashing a mec172xevb_assy6906 board
	attached to a remote system.

	Usage:
	west flash -r misc-flasher -- mec172x_remote_flasher.py <remote host>

	Note:
	1. SSH access to remote host with write access to remote /tmp.
	Since the script does multiple SSH connections, it is a good idea
	to setup public key authentication and ssh-agent.
	2. Dediprog "dpcmd" available in path on remote host.
	(Can be compiled from https://github.com/DediProgSW/SF100Linux)
	3. SSH user must have permission to access USB devices,
	since dpcmd needs USB access to communicate with
	the Dediprog programmer attached to remote host.

	To use with twister, a hardware map file is needed.
	Here is a sample map file:

	- connected: true
	available: true
	id: mec172xevb_assy6906
	platform: mec172xevb_assy6906
	product: mec172xevb_assy6906
	runner: misc-flasher
	runner_params:
	- <ZEPHYR_BASE>/boards/arm/mec172xevb_assy6906/support/mec172x_remote_flasher.py
	- <remote host>
	serial_pty: "nc,<remote host>,<ser2net port>"

	The sample map file assumes the serial console is exposed via ser2net,
	and that it can be accessed using nc (netcat).

	To use twister:
	./scripts/twister --hardware-map <hw map file> --device-testing

	Required:
	* Fabric (https://www.fabfile.org/)
	'''

	import argparse
	import hashlib
	import pathlib
	import sys

	from datetime import datetime

	import fabric
	from invoke.exceptions import UnexpectedExit

	def calc_sha256(spi_file):
	'''
	Calculate a SHA256 of the SPI binary content plus current
	date string.

	This is used for remote file name to avoid file name
	collision.
	'''
	sha256 = hashlib.sha256()

	# Use SPI file content to calculate SHA.
	with open(spi_file, "rb") as fbin:
	spi_data = fbin.read()
	sha256.update(spi_data)

	# Add a date/time to SHA to hopefully
	# further avoid file name collision.
	now = datetime.now().isoformat()
	sha256.update(now.encode("utf-8"))

	return sha256.hexdigest()

	def parse_args():
	'''
	Parse command line arguments.
	'''
	parser = argparse.ArgumentParser(allow_abbrev=False)

	# Fixed arguments
	parser.add_argument("build_dir",
	help="Build directory")
	parser.add_argument("remote_host",
	help="Remote host name or IP address")

	# Arguments about remote machine
	remote = parser.add_argument_group("Remote Machine")
	remote.add_argument("--remote-tmp", required=False,
	help="Remote temporary directory to store SPI binary "
	"[default=/tmp for Linux remote]")
	remote.add_argument("--dpcmd", required=False, default="dpcmd",
	help="Full path to dpcmd on remote machine")

	# Remote machine type.
	# This affects how remote path is constructed.
	remote_type = remote.add_mutually_exclusive_group()
	remote_type.add_argument("--remote-is-linux", required=False,
	default=True, action="store_true",
	help="Set if remote machine is a Linux-like machine [default]")
	remote_type.add_argument("--remote-is-win", required=False,
	action="store_true",
	help="Set if remote machine is a Windows machine")

	return parser.parse_args()

	def main():
	'''
	Main
	'''
	args = parse_args()

	# Check for valid arguments and setup variables.
	if not args.remote_tmp:
	if args.remote_is_win:
	# Do not assume a default temporary on Windows,
	# as it is usually under user's directory and
	# we do not know enough to construct a valid path
	# at this time.
	print("[ERROR] --remote-tmp is required for --remote-is-win")
	sys.exit(1)

	if args.remote_is_linux:
	remote_tmp = pathlib.PurePosixPath("/tmp")
	else:
	if args.remote_is_win:
	remote_tmp = pathlib.PureWindowsPath(args.remote_tmp)
	elif args.remote_is_linux:
	remote_tmp = pathlib.PurePosixPath(args.remote_tmp)

	# Construct full path to SPI binary.
	spi_file_path = pathlib.Path(args.build_dir)
	spi_file_path = spi_file_path.joinpath("zephyr", "spi_image.bin")

	# Calculate a sha256 digest for SPI file.
	# This is used for remote file to avoid file name collision
	# if there are multiple MEC17x attached to remote machine
	# and all are trying to flash at same time.
	sha256 = calc_sha256(spi_file_path)

	# Construct full path on remote to store
	# the transferred SPI binary.
	remote_file_name = remote_tmp.joinpath(f"mec172x_{sha256}.bin")

	print(f"[INFO] Build directory: {args.build_dir}")
	print(f"[INFO] Remote host: {args.remote_host}")

	# Connect to remote host via SSH.
	ssh = fabric.Connection(args.remote_host, forward_agent=True)

	print("[INFO] Sending file...")
	print(f"[INFO] Local SPI file: {spi_file_path}")
	print(f"[INFO] Remote SPI file: {remote_file_name}")

	# Open SFTP channel, and send the SPI binary over.
	sftp = ssh.sftp()
	sftp.put(str(spi_file_path), str(remote_file_name))

	# Run dpcmd to flash the device.
	try:
	dpcmd_cmd = f"{args.dpcmd} --auto {str(remote_file_name)} --verify"
	print(f"[INFO] Invoking: {dpcmd_cmd}...")
	ssh.run(dpcmd_cmd)
	except UnexpectedExit:
	print("[ERR ] Cannot flashing SPI binary!")

	# Remove temporary file.
	print(f"[INFO] Removing remote file {remote_file_name}")
	sftp.remove(str(remote_file_name))

	sftp.close()
	ssh.close()

	if __name__ == "__main__":
	main()