Clone of official tools
memap.py
- Committer:
- screamer
- Date:
- 2016-07-14
- Revision:
- 13:ab47a20b66f0
- Parent:
- 9:2d27d77ada5c
- Child:
- 22:9e85236d8716
File content as of revision 13:ab47a20b66f0:
#!/usr/bin/env python # pylint: disable=too-many-arguments, too-many-locals, too-many-branches, too-many-lines, line-too-long, too-many-nested-blocks, too-many-public-methods, too-many-instance-attributes # pylint: disable=invalid-name, missing-docstring # Memory Map File Analyser for ARM mbed import sys import os import re import csv import json import argparse from prettytable import PrettyTable debug = False class MemapParser(object): def __init__(self): """ General initialization """ # list of all modules and their sections self.modules = dict() self.misc_flash_sections = ('.interrupts', '.flash_config') self.other_sections = ('.interrupts_ram', '.init', '.ARM.extab', \ '.ARM.exidx', '.ARM.attributes', '.eh_frame', \ '.init_array', '.fini_array', '.jcr', '.stab', \ '.stabstr', '.ARM.exidx', '.ARM') # sections to print info (generic for all toolchains) self.sections = ('.text', '.data', '.bss', '.heap', '.stack') # sections must be defined in this order to take irrelevant out self.all_sections = self.sections + self.other_sections + \ self.misc_flash_sections + ('unknown', 'OUTPUT') self.print_sections = ('.text', '.data', '.bss') # list of all object files and mappting to module names self.object_to_module = dict() def module_add(self, module_name, size, section): """ Adds a module / section to the list """ if module_name in self.modules: self.modules[module_name][section] += size else: temp_dic = dict() for section_idx in self.all_sections: temp_dic[section_idx] = 0 temp_dic[section] = size self.modules[module_name] = temp_dic def check_new_section_gcc(self, line): """ Check whether a new section in a map file has been detected (only applies to gcc) """ for i in self.all_sections: if line.startswith(i): return i # should name of the section (assuming it's a known one) if line.startswith('.'): return 'unknown' # all others are clasified are unknown else: return False # everything else, means no change in section def path_object_to_module_name(self, txt): """ Parses path to object file and extracts module / object data """ txt = txt.replace('\\', '/') rex_mbed_os_name = r'^.+mbed-os\/(.+)\/(.+\.o)$' test_rex_mbed_os_name = re.match(rex_mbed_os_name, txt) if test_rex_mbed_os_name: object_name = test_rex_mbed_os_name.group(2) data = test_rex_mbed_os_name.group(1).split('/') ndata = len(data) if ndata == 1: module_name = data[0] else: module_name = data[0] + '/' + data[1] return [module_name, object_name] else: return ['Misc', ""] def parse_section_gcc(self, line): """ Parse data from a section of gcc map file """ # examples # 0x00004308 0x7c ./.build/K64F/GCC_ARM/mbed-os/hal/targets/hal/TARGET_Freescale/TARGET_KPSDK_MCUS/spi_api.o # .text 0x00000608 0x198 ./.build/K64F/GCC_ARM/mbed-os/core/mbed-rtos/rtx/TARGET_CORTEX_M/TARGET_RTOS_M4_M7/TOOLCHAIN_GCC/HAL_CM4.o rex_address_len_name = r'^\s+.*0x(\w{8,16})\s+0x(\w+)\s(.+)$' test_address_len_name = re.match(rex_address_len_name, line) if test_address_len_name: if int(test_address_len_name.group(2), 16) == 0: # size == 0 return ["", 0] # no valid entry else: m_name, m_object = self.path_object_to_module_name(test_address_len_name.group(3)) m_size = int(test_address_len_name.group(2), 16) return [m_name, m_size] else: # special corner case for *fill* sections # example # *fill* 0x0000abe4 0x4 rex_address_len = r'^\s+\*fill\*\s+0x(\w{8,16})\s+0x(\w+).*$' test_address_len = re.match(rex_address_len, line) if test_address_len: if int(test_address_len.group(2), 16) == 0: # size == 0 return ["", 0] # no valid entry else: m_name = 'Fill' m_size = int(test_address_len.group(2), 16) return [m_name, m_size] else: return ["", 0] # no valid entry def parse_map_file_gcc(self, file_desc): """ Main logic to decode gcc map files """ current_section = 'unknown' with file_desc as infile: # Search area to parse for line in infile: if line.startswith('Linker script and memory map'): current_section = "unknown" break # Start decoding the map file for line in infile: change_section = self.check_new_section_gcc(line) if change_section == "OUTPUT": # finish parsing file: exit break elif change_section != False: current_section = change_section [module_name, module_size] = self.parse_section_gcc(line) if module_size == 0 or module_name == "": pass else: self.module_add(module_name, module_size, current_section) if debug: print "Line: %s" % line, print "Module: %s\tSection: %s\tSize: %s" % (module_name, current_section, module_size) raw_input("----------") def parse_section_armcc(self, line): """ Parse data from an armcc map file """ # Examples of armcc map file: # Base_Addr Size Type Attr Idx E Section Name Object # 0x00000000 0x00000400 Data RO 11222 RESET startup_MK64F12.o # 0x00000410 0x00000008 Code RO 49364 * !!!main c_w.l(__main.o) rex_armcc = r'^\s+0x(\w{8})\s+0x(\w{8})\s+(\w+)\s+(\w+)\s+(\d+)\s+[*]?.+\s+(.+)$' test_rex_armcc = re.match(rex_armcc, line) if test_rex_armcc: size = int(test_rex_armcc.group(2), 16) if test_rex_armcc.group(4) == 'RO': section = '.text' else: if test_rex_armcc.group(3) == 'Data': section = '.data' elif test_rex_armcc.group(3) == 'Zero': section = '.bss' else: print "BUG armcc map parser" raw_input() # lookup object in dictionary and return module name object_name = test_rex_armcc.group(6) if object_name in self.object_to_module: module_name = self.object_to_module[object_name] else: module_name = 'Misc' return [module_name, size, section] else: return ["", 0, ""] # no valid entry def parse_section_iar(self, line): """ Parse data from an IAR map file """ # Examples of IAR map file: # Section Kind Address Size Object # .intvec ro code 0x00000000 0x198 startup_MK64F12.o [15] # .rodata const 0x00000198 0x0 zero_init3.o [133] # .iar.init_table const 0x00008384 0x2c - Linker created - # Initializer bytes const 0x00000198 0xb2 <for P3 s0> # .data inited 0x20000000 0xd4 driverAtmelRFInterface.o [70] # .bss zero 0x20000598 0x318 RTX_Conf_CM.o [4] # .iar.dynexit uninit 0x20001448 0x204 <Block tail> # HEAP uninit 0x20001650 0x10000 <Block tail> rex_iar = r'^\s+(.+)\s+(zero|const|ro code|inited|uninit)\s+0x(\w{8})\s+0x(\w+)\s+(.+)\s.+$' test_rex_iar = re.match(rex_iar, line) if test_rex_iar: size = int(test_rex_iar.group(4), 16) if test_rex_iar.group(2) == 'const' or test_rex_iar.group(2) == 'ro code': section = '.text' elif test_rex_iar.group(2) == 'zero' or test_rex_iar.group(2) == 'uninit': if test_rex_iar.group(1)[0:4] == 'HEAP': section = '.heap' elif test_rex_iar.group(1)[0:6] == 'CSTACK': section = '.stack' else: section = '.bss' # default section elif test_rex_iar.group(2) == 'inited': section = '.data' else: print "BUG IAR map parser" raw_input() # lookup object in dictionary and return module name object_name = test_rex_iar.group(5) if object_name in self.object_to_module: module_name = self.object_to_module[object_name] else: module_name = 'Misc' return [module_name, size, section] else: return ["", 0, ""] # no valid entry def parse_map_file_armcc(self, file_desc): """ Main logic to decode armcc map files """ with file_desc as infile: # Search area to parse for line in infile: if line.startswith(' Base Addr Size'): break # Start decoding the map file for line in infile: [name, size, section] = self.parse_section_armcc(line) if size == 0 or name == "" or section == "": pass else: self.module_add(name, size, section) def parse_map_file_iar(self, file_desc): """ Main logic to decode armcc map files """ with file_desc as infile: # Search area to parse for line in infile: if line.startswith(' Section '): break # Start decoding the map file for line in infile: [name, size, section] = self.parse_section_iar(line) if size == 0 or name == "" or section == "": pass else: self.module_add(name, size, section) def search_objects(self, path, toolchain): """ Check whether the specified map file matches with the toolchain. Searches for object files and creates mapping: object --> module """ path = path.replace('\\', '/') # check location of map file rex = r'^(.+\/)' + re.escape(toolchain) + r'\/(.+\.map)$' test_rex = re.match(rex, path) if test_rex: search_path = test_rex.group(1) + toolchain + '/mbed-os/' else: # It looks this is not an mbed project # object-to-module mapping cannot be generated print "Warning: specified toolchain doesn't match with path to the memory map file." return for root, dir, obj_files in os.walk(search_path): for obj_file in obj_files: if obj_file.endswith(".o"): module_name, object_name = self.path_object_to_module_name(os.path.join(root, obj_file)) if object_name in self.object_to_module: if debug: print "WARNING: multiple usages of object file: %s" % object_name print " Current: %s" % self.object_to_module[object_name] print " New: %s" % module_name print " " else: self.object_to_module.update({object_name:module_name}) def generate_output(self, export_format, file_output=None): """ Generates summary of memory map data Parameters json_mode: generates output in json formal (True/False) file_desc: descriptor (either stdout or file) """ try: if file_output: file_desc = open(file_output, 'wb') else: file_desc = sys.stdout except IOError as error: print "I/O error({0}): {1}".format(error.errno, error.strerror) return False # Calculate misc flash sections misc_flash_mem = 0 for i in self.modules: for k in self.misc_flash_sections: if self.modules[i][k]: misc_flash_mem += self.modules[i][k] # Create table columns = ['Module'] for i in list(self.print_sections): columns.append(i) table = PrettyTable(columns) table.align["Module"] = "l" for i in list(self.print_sections): table.align[i] = 'r' subtotal = dict() for k in self.sections: subtotal[k] = 0 json_obj = [] for i in sorted(self.modules): row = [] row.append(i) for k in self.sections: subtotal[k] += self.modules[i][k] for k in self.print_sections: row.append(self.modules[i][k]) json_obj.append({"module":i, "size":{\ k:self.modules[i][k] for k in self.print_sections}}) table.add_row(row) subtotal_row = ['Subtotals'] for k in self.print_sections: subtotal_row.append(subtotal[k]) table.add_row(subtotal_row) if export_format == 'json': json_obj.append({\ 'summary':{\ 'total_static_ram':(subtotal['.data']+subtotal['.bss']),\ 'allocated_heap':(subtotal['.heap']),\ 'allocated_stack':(subtotal['.stack']),\ 'total_ram':(subtotal['.data']+subtotal['.bss']+subtotal['.heap']+subtotal['.stack']),\ 'total_flash':(subtotal['.text']+subtotal['.data']+misc_flash_mem),}}) file_desc.write(json.dumps(json_obj, indent=4)) file_desc.write('\n') elif export_format == 'csv-ci': # CSV format for the CI system csv_writer = csv.writer(file_desc, delimiter=',', quoting=csv.QUOTE_NONE) csv_module_section = [] csv_sizes = [] for i in sorted(self.modules): for k in self.print_sections: csv_module_section += [i+k] csv_sizes += [self.modules[i][k]] csv_module_section += ['total_static_ram'] csv_sizes += [subtotal['.data']+subtotal['.bss']] csv_module_section += ['allocated_heap'] if subtotal['.heap'] == 0: csv_sizes += ['unknown'] else: csv_sizes += [subtotal['.heap']] csv_module_section += ['allocated_stack'] if subtotal['.stack'] == 0: csv_sizes += ['unknown'] else: csv_sizes += [subtotal['.stack']] csv_module_section += ['total_ram'] csv_sizes += [subtotal['.data']+subtotal['.bss']+subtotal['.heap']+subtotal['.stack']] csv_module_section += ['total_flash'] csv_sizes += [subtotal['.text']+subtotal['.data']+misc_flash_mem] csv_writer.writerow(csv_module_section) csv_writer.writerow(csv_sizes) else: # default format is 'table' file_desc.write(table.get_string()) file_desc.write('\n') if subtotal['.heap'] == 0: file_desc.write("Allocated Heap: unknown\n") else: file_desc.write("Allocated Heap: %s bytes\n" % str(subtotal['.heap'])) if subtotal['.stack'] == 0: file_desc.write("Allocated Stack: unknown\n") else: file_desc.write("Allocated Stack: %s bytes\n" % str(subtotal['.stack'])) file_desc.write("Total Static RAM memory (data + bss): %s bytes\n" % (str(subtotal['.data']+subtotal['.bss']))) file_desc.write("Total RAM memory (data + bss + heap + stack): %s bytes\n" % (str(subtotal['.data']+subtotal['.bss']+subtotal['.heap']+subtotal['.stack']))) file_desc.write("Total Flash memory (text + data + misc): %s bytes\n" % (str(subtotal['.text']+subtotal['.data']+misc_flash_mem))) if file_desc is not sys.stdout: file_desc.close() return True def parse(self, mapfile, toolchain): """ Parse and decode map file depending on the toolchain """ try: file_input = open(mapfile, 'rt') except IOError as error: print "I/O error({0}): {1}".format(error.errno, error.strerror) return False if toolchain == "ARM" or toolchain == "ARM_STD" or toolchain == "ARM_MICRO": self.search_objects(os.path.abspath(mapfile), "ARM") self.parse_map_file_armcc(file_input) elif toolchain == "GCC_ARM": self.parse_map_file_gcc(file_input) elif toolchain == "IAR": self.search_objects(os.path.abspath(mapfile), toolchain) self.parse_map_file_iar(file_input) else: return False file_input.close() return True def main(): version = '0.3.11' # Parser handling parser = argparse.ArgumentParser(description="Memory Map File Analyser for ARM mbed\nversion %s" % version) parser.add_argument('file', help='memory map file') parser.add_argument('-t', '--toolchain', dest='toolchain', help='select a toolchain used to build the memory map file (ARM, GCC_ARM, IAR)',\ required=True) parser.add_argument('-o', '--output', help='output file name', required=False) parser.add_argument('-e', '--export', dest='export', required=False,\ help="export format (examples: 'json', 'csv-ci', 'table': default)") parser.add_argument('-v', '--version', action='version', version=version) # Parse/run command if len(sys.argv) <= 1: parser.print_help() sys.exit(1) args, remainder = parser.parse_known_args() # Create memap object memap = MemapParser() # Parse and decode a map file if args.file and args.toolchain: if memap.parse(args.file, args.toolchain) is False: print "Unknown toolchain for memory statistics %s" % args.toolchain sys.exit(0) # default export format is table if not args.export: args.export = 'table' # Write output in file if args.output != None: memap.generate_output(args.export, args.output) else: # Write output in screen memap.generate_output(args.export) sys.exit(0) if __name__ == "__main__": main()