Marco Zecchini
Rtos API example
Diff: mbed-os/tools/flash_algo/flash_algo.py
- Revision:
- 0:9fca2b23d0ba
diff -r 000000000000 -r 9fca2b23d0ba mbed-os/tools/flash_algo/flash_algo.py
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/mbed-os/tools/flash_algo/flash_algo.py Sat Feb 23 12:13:36 2019 +0000
@@ -0,0 +1,359 @@
+#!/usr/bin/env python
+"""
+ mbed
+ Copyright (c) 2017-2017 ARM Limited
+
+ 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.
+"""
+
+from __future__ import print_function
+import os
+import struct
+import binascii
+import argparse
+import logging
+import StringIO
+import jinja2
+from collections import namedtuple
+from itertools import count
+
+from elftools.common.py3compat import bytes2str
+from elftools.elf.elffile import ELFFile
+from elftools.elf.sections import SymbolTableSection
+
+logger = logging.getLogger(__name__)
+logger.addHandler(logging.NullHandler())
+
+
+def main():
+ parser = argparse.ArgumentParser(description="Algo Extracter")
+ parser.add_argument("input", help="File to extract flash algo from")
+ parser.add_argument("template", default="py_blob.tmpl",
+ help="Template to use")
+ parser.add_argument("output", help="Output file")
+ args = parser.parse_args()
+
+ with open(args.input, "rb") as file_handle:
+ data = file_handle.read()
+ algo = PackFlashAlgo(data)
+ algo.process_template(args.template, args.output)
+
+
+class PackFlashAlgo(object):
+ """
+ Class to wrap a flash algo
+
+ This class is intended to provide easy access to the information
+ provided by a flash algorithm, such as symbols and the flash
+ algorithm itself.
+ """
+
+ REQUIRED_SYMBOLS = set([
+ "Init",
+ "UnInit",
+ "EraseSector",
+ "ProgramPage",
+ ])
+
+ EXTRA_SYMBOLS = set([
+ "BlankCheck",
+ "EraseChip",
+ "Verify",
+ ])
+
+ def __init__(self, data):
+ """Construct a PackFlashAlgorithm from an ElfFileSimple"""
+ self.elf = ElfFileSimple(data)
+ self.flash_info = PackFlashInfo(self.elf)
+
+ self.flash_start = self.flash_info.start
+ self.flash_size = self.flash_info.size
+ self.page_size = self.flash_info.page_size
+ self.sector_sizes = self.flash_info.sector_info_list
+
+ symbols = {}
+ symbols.update(_extract_symbols(self.elf, self.REQUIRED_SYMBOLS))
+ symbols.update(_extract_symbols(self.elf, self.EXTRA_SYMBOLS,
+ default=0xFFFFFFFF))
+ self.symbols = symbols
+
+ sections_to_find = (
+ ("PrgCode", "SHT_PROGBITS"),
+ ("PrgData", "SHT_PROGBITS"),
+ ("PrgData", "SHT_NOBITS"),
+ )
+
+ ro_rw_zi = _find_sections(self.elf, sections_to_find)
+ ro_rw_zi = _algo_fill_zi_if_missing(ro_rw_zi)
+ error_msg = _algo_check_for_section_problems(ro_rw_zi)
+ if error_msg is not None:
+ raise Exception(error_msg)
+
+ sect_ro, sect_rw, sect_zi = ro_rw_zi
+ self.ro_start = sect_ro["sh_addr"]
+ self.ro_size = sect_ro["sh_size"]
+ self.rw_start = sect_rw["sh_addr"]
+ self.rw_size = sect_rw["sh_size"]
+ self.zi_start = sect_zi["sh_addr"]
+ self.zi_size = sect_zi["sh_size"]
+
+ self.algo_data = _create_algo_bin(ro_rw_zi)
+
+ def format_algo_data(self, spaces, group_size, fmt):
+ """"
+ Return a string representing algo_data suitable for use in a template
+
+ The string is intended for use in a template.
+
+ :param spaces: The number of leading spaces for each line
+ :param group_size: number of elements per line (element type
+ depends of format)
+ :param fmt: - format to create - can be either "hex" or "c"
+ """
+ padding = " " * spaces
+ if fmt == "hex":
+ blob = binascii.b2a_hex(self.algo_data)
+ line_list = []
+ for i in xrange(0, len(blob), group_size):
+ line_list.append('"' + blob[i:i + group_size] + '"')
+ return ("\n" + padding).join(line_list)
+ elif fmt == "c":
+ blob = self.algo_data[:]
+ pad_size = 0 if len(blob) % 4 == 0 else 4 - len(blob) % 4
+ blob = blob + "\x00" * pad_size
+ integer_list = struct.unpack("<" + "L" * (len(blob) / 4), blob)
+ line_list = []
+ for pos in range(0, len(integer_list), group_size):
+ group = ["0x%08x" % value for value in
+ integer_list[pos:pos + group_size]]
+ line_list.append(", ".join(group))
+ return (",\n" + padding).join(line_list)
+ else:
+ raise Exception("Unsupported format %s" % fmt)
+
+ def process_template(self, template_path, output_path, data_dict=None):
+ """
+ Generate output from the supplied template
+
+ All the public methods and fields of this class can be accessed from
+ the template via "algo".
+
+ :param template_path: Relative or absolute file path to the template
+ :param output_path: Relative or absolute file path to create
+ :param data_dict: Additional data to use when generating
+ """
+ if data_dict is None:
+ data_dict = {}
+ else:
+ assert isinstance(data_dict, dict)
+ data_dict = dict(data_dict)
+ assert "algo" not in data_dict, "algo already set by user data"
+ data_dict["algo"] = self
+
+ with open(template_path) as file_handle:
+ template_text = file_handle.read()
+
+ template = jinja2.Template(template_text)
+ target_text = template.render(data_dict)
+
+ with open(output_path, "wb") as file_handle:
+ file_handle.write(target_text)
+
+
+def _extract_symbols(simple_elf, symbols, default=None):
+ """Fill 'symbols' field with required flash algo symbols"""
+ to_ret = {}
+ for symbol in symbols:
+ if symbol not in simple_elf.symbols:
+ if default is not None:
+ to_ret[symbol] = default
+ continue
+ raise Exception("Missing symbol %s" % symbol)
+ to_ret[symbol] = simple_elf.symbols[symbol].value
+ return to_ret
+
+
+def _find_sections(elf, name_type_pairs):
+ """Return a list of sections the same length and order of the input list"""
+ sections = [None] * len(name_type_pairs)
+ for section in elf.iter_sections():
+ section_name = bytes2str(section.name)
+ section_type = section["sh_type"]
+ for i, name_and_type in enumerate(name_type_pairs):
+ if name_and_type != (section_name, section_type):
+ continue
+ if sections[i] is not None:
+ raise Exception("Elf contains duplicate section %s attr %s" %
+ (section_name, section_type))
+ sections[i] = section
+ return sections
+
+
+def _algo_fill_zi_if_missing(ro_rw_zi):
+ """Create an empty zi section if it is missing"""
+ s_ro, s_rw, s_zi = ro_rw_zi
+ if s_rw is None:
+ return ro_rw_zi
+ if s_zi is not None:
+ return ro_rw_zi
+ s_zi = {
+ "sh_addr": s_rw["sh_addr"] + s_rw["sh_size"],
+ "sh_size": 0
+ }
+ return s_ro, s_rw, s_zi
+
+
+def _algo_check_for_section_problems(ro_rw_zi):
+ """Return a string describing any errors with the layout or None if good"""
+ s_ro, s_rw, s_zi = ro_rw_zi
+ if s_ro is None:
+ return "RO section is missing"
+ if s_rw is None:
+ return "RW section is missing"
+ if s_zi is None:
+ return "ZI section is missing"
+ if s_ro["sh_addr"] != 0:
+ return "RO section does not start at address 0"
+ if s_ro["sh_addr"] + s_ro["sh_size"] != s_rw["sh_addr"]:
+ return "RW section does not follow RO section"
+ if s_rw["sh_addr"] + s_rw["sh_size"] != s_zi["sh_addr"]:
+ return "ZI section does not follow RW section"
+ return None
+
+
+def _create_algo_bin(ro_rw_zi):
+ """Create a binary blob of the flash algo which can execute from ram"""
+ sect_ro, sect_rw, sect_zi = ro_rw_zi
+ algo_size = sect_ro["sh_size"] + sect_rw["sh_size"] + sect_zi["sh_size"]
+ algo_data = bytearray(algo_size)
+ for section in (sect_ro, sect_rw):
+ start = section["sh_addr"]
+ size = section["sh_size"]
+ data = section.data()
+ assert len(data) == size
+ algo_data[start:start + size] = data
+ return algo_data
+
+
+class PackFlashInfo(object):
+ """Wrapper class for the non-executable information in an FLM file"""
+
+ FLASH_DEVICE_STRUCT = "<H128sHLLLLBxxxLL"
+ FLASH_SECTORS_STRUCT = "<LL"
+ FLASH_SECTORS_STRUCT_SIZE = struct.calcsize(FLASH_SECTORS_STRUCT)
+ SECTOR_END = 0xFFFFFFFF
+
+ def __init__(self, elf_simple):
+ dev_info = elf_simple.symbols["FlashDevice"]
+ info_start = dev_info.value
+ info_size = struct.calcsize(self.FLASH_DEVICE_STRUCT)
+ data = elf_simple.read(info_start, info_size)
+ values = struct.unpack(self.FLASH_DEVICE_STRUCT, data)
+
+ self.version = values[0]
+ self.name = values[1].strip("\x00")
+ self.type = values[2]
+ self.start = values[3]
+ self.size = values[4]
+ self.page_size = values[5]
+ self.value_empty = values[7]
+ self.prog_timeout_ms = values[8]
+ self.erase_timeout_ms = values[9]
+
+ sector_gen = self._sector_and_sz_itr(elf_simple,
+ info_start + info_size)
+ self.sector_info_list = list(sector_gen)
+
+ def __str__(self):
+ desc = ""
+ desc += "Flash Device:" + os.linesep
+ desc += " name=%s" % self.name + os.linesep
+ desc += " version=0x%x" % self.version + os.linesep
+ desc += " type=%i" % self.type + os.linesep
+ desc += " start=0x%x" % self.start + os.linesep
+ desc += " size=0x%x" % self.size + os.linesep
+ desc += " page_size=0x%x" % self.page_size + os.linesep
+ desc += " value_empty=0x%x" % self.value_empty + os.linesep
+ desc += " prog_timeout_ms=%i" % self.prog_timeout_ms + os.linesep
+ desc += " erase_timeout_ms=%i" % self.erase_timeout_ms + os.linesep
+ desc += " sectors:" + os.linesep
+ for sector_start, sector_size in self.sector_info_list:
+ desc += (" start=0x%x, size=0x%x" %
+ (sector_start, sector_size) + os.linesep)
+ return desc
+
+ def _sector_and_sz_itr(self, elf_simple, data_start):
+ """Iterator which returns starting address and sector size"""
+ for entry_start in count(data_start, self.FLASH_SECTORS_STRUCT_SIZE):
+ data = elf_simple.read(entry_start, self.FLASH_SECTORS_STRUCT_SIZE)
+ size, start = struct.unpack(self.FLASH_SECTORS_STRUCT, data)
+ start_and_size = start, size
+ if start_and_size == (self.SECTOR_END, self.SECTOR_END):
+ return
+ yield start_and_size
+
+
+SymbolSimple = namedtuple("SymbolSimple", "name, value, size")
+
+
+class ElfFileSimple(ELFFile):
+ """Wrapper for elf object which allows easy access to symbols and rom"""
+
+ def __init__(self, data):
+ """Construct a ElfFileSimple from bytes or a bytearray"""
+ super(ElfFileSimple, self).__init__(StringIO.StringIO(data))
+ self.symbols = self._read_symbol_table()
+
+ def _read_symbol_table(self):
+ """Read the symbol table into the field "symbols" for easy use"""
+ section = self.get_section_by_name(b".symtab")
+ if not section:
+ raise Exception("Missing symbol table")
+
+ if not isinstance(section, SymbolTableSection):
+ raise Exception("Invalid symbol table section")
+
+ symbols = {}
+ for symbol in section.iter_symbols():
+ name_str = bytes2str(symbol.name)
+ if name_str in symbols:
+ logging.debug("Duplicate symbol %s", name_str)
+ symbols[name_str] = SymbolSimple(name_str, symbol["st_value"],
+ symbol["st_size"])
+ return symbols
+
+ def read(self, addr, size):
+ """Read program data from the elf file
+
+ :param addr: physical address (load address) to read from
+ :param size: number of bytes to read
+ :return: Requested data or None if address is unmapped
+ """
+ for segment in self.iter_segments():
+ seg_addr = segment["p_paddr"]
+ seg_size = min(segment["p_memsz"], segment["p_filesz"])
+ if addr >= seg_addr + seg_size:
+ continue
+ if addr + size <= seg_addr:
+ continue
+ # There is at least some overlap
+
+ if addr >= seg_addr and addr + size <= seg_addr + seg_size:
+ # Region is fully contained
+ data = segment.data()
+ start = addr - seg_addr
+ return data[start:start + size]
+
+
+if __name__ == '__main__':
+ main()