scripts/py/gen_fpga_mem_map.py - ml/ethos-u/ml-embedded-evaluation-kit - Gitiles

 #  Copyright (c) 2021 Arm Limited. All rights reserved.
 #  SPDX-License-Identifier: Apache-2.0
 #
 #  Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 #  You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 #  Unless required by applicable law or agreed to in writing, software
 #  distributed under the License is distributed on an "AS IS" BASIS,
 #  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 #  See the License for the specific language governing permissions and
 #  limitations under the License.

 import os
 from argparse import ArgumentParser

 """
 This file is used as part of post build steps to generate 'images.txt' file
 which can be copied over onto the MPS3 board's SD card. The purpose is to
 limit having to manually edit the file based on different load regions that
 the build scatter file might dictate.
 """

 def is_commented(line):
     if (line.startswith(";")):
         return True
     else:
         return False


 def is_load_rom(line):
     load_region_specifiers = ['LOAD_ROM', 'LD_ROM', 'LOAD_REGION']

     for load_specifier in load_region_specifiers:
         if line.startswith(load_specifier):
             return True

     return False


 class TargetSubsystem:

     def __init__(self, target_subsystem_name: str):
         """
         Constructor for target class.
         Arguments:
             target_subsystem_name: name of the target subsystem
         """
         # Dict with mem map and binary names we expect
         self.subsystems = {
             "sse-300": {
                 "mmap_mcc" : {
                     # FPGA addr |  MCC addr  |
                     "0x00000000": "0x00000000", # ITCM (NS)
                     "0x01000000": "0x02000000", # BRAM or FPGA's data SRAM (NS)
                     "0x60000000": "0x08000000", # DDR (NS)
                     "0x70000000": "0x0c000000"  # DDR (S)
                 },
                 "bin_names": {
                     0: "itcm.bin",
                     1: "dram.bin"
                 }
             }
         }

         self.name = target_subsystem_name


     def is_supported(self, target_subsystem: str) -> bool:
         """
         Checks if the target subsystem exists within systems
         supported by this script
         """
         if target_subsystem in self.subsystems.keys():
             return True

         print(f"Platforms supported: {self.subsystems.keys()}")
         return False


     def mps3_mappings(self) -> dict:
         """
         Returns the FPGA <--> MCC address translations
         as a dict
         """
         if self.is_supported(self.name):
             return self.subsystems[self.name]['mmap_mcc']
         return {}


     def mps3_bin_names(self) -> dict:
         """
         Returns expected binary names for the executable built
         for Cortex-M55 or Cortex-M55+Ethos-U55 targets in the
         form of a dict with index and name
         """
         if self.is_supported(self.name):
             return self.subsystems[self.name]['bin_names']

         return {}


 def main(args):
     """
     Generates the output txt file with MCC to FPGA address mapping used
     that is used by the MCC on FPGA to load executable regions into
     correct regions in memory.
     """
     # List out arguments used:
     scatter_file_path = args.scatter_file_path
     target_subsystem_name = args.target_subsystem
     output_file_path = args.output_file_path

     target = TargetSubsystem(target_subsystem_name=target_subsystem_name)

     if target.is_supported(target_subsystem_name) != True:
         print(f'Target {target_subsystem_name} not supported.')
         return

     with open(scatter_file_path,'r') as scatter_file:
         lines_read = scatter_file.readlines()
         str_list = []

         bin_names = None
         mem_map = None

         mem_map = target.mps3_mappings()
         bin_names = target.mps3_bin_names()

         str_list.append("TITLE: Arm MPS3 FPGA prototyping board Images Configuration File\n")
         str_list.append("[IMAGES]\n\n")

         cnt = 0
         for line in lines_read:
             if is_commented(line) or is_load_rom(line) != True:
                 continue

             addr = line.split()[1]

             if mem_map.get(addr, None) == None:
                 raise RuntimeError(
                     'Translation for this address unavailable')
             if cnt > len(bin_names):
                 raise RuntimeError(
                     f"bin names len exceeded: {cnt}")

             str_list.append("IMAGE" + str(cnt) + "ADDRESS: " +
                 mem_map[addr] + " ; MCC@" + mem_map[addr] +
                 " <=> FPGA@"  + addr + "\n")
             str_list.append("IMAGE" + str(cnt) + "UPDATE: AUTO\n")
             str_list.append("IMAGE" + str(cnt) + "FILE: \SOFTWARE\\" +
                 bin_names[cnt] + "\n\n")
             cnt += 1

         if cnt > 0 and cnt < 33:
             str_list.insert(2,
                 "TOTALIMAGES: {} ;Number of Images (Max: 32)\n\n".format(
                     cnt))
         else:
             raise RuntimeError('Invalid image count')

         if os.path.exists(output_file_path):
             os.remove(output_file_path)
         print(''.join(str_list), file=open(output_file_path, "a"))


 if __name__ == "__main__":
     parser = ArgumentParser()
     parser.add_argument("--scatter_file_path", type=str, required=True,
                         help="Path to the scatter file")
     parser.add_argument("--target_subsystem", type=str, required=True,
                         help="Target subsystem in use")
     parser.add_argument("--output_file_path", type=str, required=True,
                         help="Output file path")
     args = parser.parse_args()
     main(args)
	# Copyright (c) 2021 Arm Limited. All rights reserved.
	# SPDX-License-Identifier: Apache-2.0
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import os
	from argparse import ArgumentParser

	"""
	This file is used as part of post build steps to generate 'images.txt' file
	which can be copied over onto the MPS3 board's SD card. The purpose is to
	limit having to manually edit the file based on different load regions that
	the build scatter file might dictate.
	"""

	def is_commented(line):
	if (line.startswith(";")):
	return True
	else:
	return False


	def is_load_rom(line):
	load_region_specifiers = ['LOAD_ROM', 'LD_ROM', 'LOAD_REGION']

	for load_specifier in load_region_specifiers:
	if line.startswith(load_specifier):
	return True

	return False


	class TargetSubsystem:

	def __init__(self, target_subsystem_name: str):
	"""
	Constructor for target class.
	Arguments:
	target_subsystem_name: name of the target subsystem
	"""
	# Dict with mem map and binary names we expect
	self.subsystems = {
	"sse-300": {
	"mmap_mcc" : {
	# FPGA addr \| MCC addr \|
	"0x00000000": "0x00000000", # ITCM (NS)
	"0x01000000": "0x02000000", # BRAM or FPGA's data SRAM (NS)
	"0x60000000": "0x08000000", # DDR (NS)
	"0x70000000": "0x0c000000" # DDR (S)
	},
	"bin_names": {
	0: "itcm.bin",
	1: "dram.bin"
	}
	}
	}

	self.name = target_subsystem_name


	def is_supported(self, target_subsystem: str) -> bool:
	"""
	Checks if the target subsystem exists within systems
	supported by this script
	"""
	if target_subsystem in self.subsystems.keys():
	return True

	print(f"Platforms supported: {self.subsystems.keys()}")
	return False


	def mps3_mappings(self) -> dict:
	"""
	Returns the FPGA <--> MCC address translations
	as a dict
	"""
	if self.is_supported(self.name):
	return self.subsystems[self.name]['mmap_mcc']
	return {}


	def mps3_bin_names(self) -> dict:
	"""
	Returns expected binary names for the executable built
	for Cortex-M55 or Cortex-M55+Ethos-U55 targets in the
	form of a dict with index and name
	"""
	if self.is_supported(self.name):
	return self.subsystems[self.name]['bin_names']

	return {}


	def main(args):
	"""
	Generates the output txt file with MCC to FPGA address mapping used
	that is used by the MCC on FPGA to load executable regions into
	correct regions in memory.
	"""
	# List out arguments used:
	scatter_file_path = args.scatter_file_path
	target_subsystem_name = args.target_subsystem
	output_file_path = args.output_file_path

	target = TargetSubsystem(target_subsystem_name=target_subsystem_name)

	if target.is_supported(target_subsystem_name) != True:
	print(f'Target {target_subsystem_name} not supported.')
	return

	with open(scatter_file_path,'r') as scatter_file:
	lines_read = scatter_file.readlines()
	str_list = []

	bin_names = None
	mem_map = None

	mem_map = target.mps3_mappings()
	bin_names = target.mps3_bin_names()

	str_list.append("TITLE: Arm MPS3 FPGA prototyping board Images Configuration File\n")
	str_list.append("[IMAGES]\n\n")

	cnt = 0
	for line in lines_read:
	if is_commented(line) or is_load_rom(line) != True:
	continue

	addr = line.split()[1]

	if mem_map.get(addr, None) == None:
	raise RuntimeError(
	'Translation for this address unavailable')
	if cnt > len(bin_names):
	raise RuntimeError(
	f"bin names len exceeded: {cnt}")

	str_list.append("IMAGE" + str(cnt) + "ADDRESS: " +
	mem_map[addr] + " ; MCC@" + mem_map[addr] +
	" <=> FPGA@" + addr + "\n")
	str_list.append("IMAGE" + str(cnt) + "UPDATE: AUTO\n")
	str_list.append("IMAGE" + str(cnt) + "FILE: \SOFTWARE\\" +
	bin_names[cnt] + "\n\n")
	cnt += 1

	if cnt > 0 and cnt < 33:
	str_list.insert(2,
	"TOTALIMAGES: {} ;Number of Images (Max: 32)\n\n".format(
	cnt))
	else:
	raise RuntimeError('Invalid image count')

	if os.path.exists(output_file_path):
	os.remove(output_file_path)
	print(''.join(str_list), file=open(output_file_path, "a"))


	if __name__ == "__main__":
	parser = ArgumentParser()
	parser.add_argument("--scatter_file_path", type=str, required=True,
	help="Path to the scatter file")
	parser.add_argument("--target_subsystem", type=str, required=True,
	help="Target subsystem in use")
	parser.add_argument("--output_file_path", type=str, required=True,
	help="Output file path")
	args = parser.parse_args()
	main(args)