# SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: Apache-2.0 import json import os import re import shlex import shutil import subprocess import sys import threading import time from textwrap import indent from threading import Thread from typing import Any from typing import Dict from typing import List from typing import Optional from typing import Tuple from typing import Union from click import INT from click.core import Context from esp_coredump import CoreDump from idf_py_actions.constants import OPENOCD_TAGET_CONFIG from idf_py_actions.constants import OPENOCD_TAGET_CONFIG_DEFAULT from idf_py_actions.errors import FatalError from idf_py_actions.serial_ext import BAUD_RATE from idf_py_actions.serial_ext import PORT from idf_py_actions.tools import ensure_build_directory from idf_py_actions.tools import generate_hints from idf_py_actions.tools import get_default_serial_port from idf_py_actions.tools import get_sdkconfig_value from idf_py_actions.tools import PropertyDict from idf_py_actions.tools import yellow_print PYTHON = sys.executable ESP_ROM_INFO_FILE = 'roms.json' GDBINIT_PYTHON_TEMPLATE = ''' # Add Python GDB extensions python import sys sys.path = {sys_path} import freertos_gdb end ''' GDBINIT_PYTHON_NOT_SUPPORTED = ''' # Python scripting is not supported in this copy of GDB. # Please make sure that your Python distribution contains Python shared library. ''' GDBINIT_BOOTLOADER_ADD_SYMBOLS = ''' # Load bootloader symbols set confirm off add-symbol-file {boot_elf} set confirm on ''' GDBINIT_BOOTLOADER_NOT_FOUND = ''' # Bootloader elf was not found ''' GDBINIT_APP_ADD_SYMBOLS = ''' # Load application file file {app_elf} ''' GDBINIT_CONNECT = ''' # Connect to the default openocd-esp port and break on app_main() set remotetimeout 10 target remote :3333 monitor reset halt maintenance flush register-cache thbreak app_main continue ''' GDBINIT_MAIN = ''' source {py_extensions} source {symbols} source {connect} ''' def get_openocd_arguments(target: str) -> str: default_args = OPENOCD_TAGET_CONFIG_DEFAULT.format(target=target) return str(OPENOCD_TAGET_CONFIG.get(target, default_args)) def chip_rev_to_int(chip_rev: Optional[str]) -> Union[int, None]: # The chip rev will be derived from the elf file if none are returned. # The chip rev must be supplied for coredump files generated with idf versions less than 5.1 in order to load # rom elf file. if not chip_rev or not all(c.isdigit() or c == '.' for c in chip_rev): return None if '.' not in chip_rev: chip_rev += '.0' major, minor = map(int, chip_rev.split('.')) return major * 100 + minor def action_extensions(base_actions: Dict, project_path: str) -> Dict: OPENOCD_OUT_FILE = 'openocd_out.txt' GDBGUI_OUT_FILE = 'gdbgui_out.txt' # Internal dictionary of currently active processes, threads and their output files processes: Dict = {'threads_to_join': [], 'allow_hints': True} def _print_hints(file_name: str) -> None: if not processes['allow_hints']: return for hint in generate_hints(file_name): if sys.stderr.isatty(): yellow_print(hint) else: # Hints go to stderr. Flush stdout, so hints are printed last. sys.stdout.flush() print(hint, file=sys.stderr) def _check_openocd_errors(fail_if_openocd_failed: Dict, target: str, ctx: Context) -> None: if fail_if_openocd_failed: if 'openocd' in processes and processes['openocd'] is not None: p = processes['openocd'] name = processes['openocd_outfile_name'] # watch OpenOCD (for 5x500ms) to check if it hasn't terminated or outputs an error for _ in range(5): if p.poll() is not None: print('OpenOCD exited with {}'.format(p.poll())) break with open(name, 'r') as f: content = f.read() if re.search(r'Listening on port \d+ for gdb connections', content): # expect OpenOCD has started successfully - stop watching return time.sleep(0.5) # OpenOCD exited or is not listening -> print full log and terminate with open(name, 'r') as f: print(f.read()) raise FatalError('Action "{}" failed due to errors in OpenOCD'.format(target), ctx) def _terminate_async_target(target: str) -> None: if target in processes and processes[target] is not None: try: if target + '_outfile' in processes: processes[target + '_outfile'].close() p = processes[target] if p.poll() is None: p.terminate() # waiting 10x100ms for the process to terminate gracefully for _ in range(10): if p.poll() is not None: break time.sleep(0.1) else: p.kill() if target + '_outfile_name' in processes: _print_hints(processes[target + '_outfile_name']) except Exception as e: print(e) print('Failed to close/kill {}'.format(target)) processes[target] = None # to indicate this has ended def _get_espcoredump_instance(ctx: Context, args: PropertyDict, gdb_timeout_sec: Optional[int] = None, core: Optional[str] = None, chip_rev: Optional[str] = None, save_core: Optional[str] = None) -> CoreDump: ensure_build_directory(args, ctx.info_name) project_desc = get_project_desc(args, ctx) coredump_to_flash_config = get_sdkconfig_value(project_desc['config_file'], 'CONFIG_ESP_COREDUMP_ENABLE_TO_FLASH') coredump_to_flash = coredump_to_flash_config.rstrip().endswith('y') if coredump_to_flash_config else False prog = os.path.join(project_desc['build_dir'], project_desc['app_elf']) espcoredump_kwargs = dict() espcoredump_kwargs['baud'] = args.baud espcoredump_kwargs['gdb_timeout_sec'] = gdb_timeout_sec espcoredump_kwargs['chip_rev'] = chip_rev_to_int(chip_rev) # for reproducible builds extra_gdbinit_file = project_desc.get('debug_prefix_map_gdbinit', None) if extra_gdbinit_file: espcoredump_kwargs['extra_gdbinit_file'] = extra_gdbinit_file if core: espcoredump_kwargs['core'] = core espcoredump_kwargs['core_format'] = 'auto' espcoredump_kwargs['chip'] = get_sdkconfig_value(project_desc['config_file'], 'CONFIG_IDF_TARGET') elif coredump_to_flash: # If the core dump is read from flash, we don't need to specify the --core-format argument at all. # The format will be determined automatically args.port = args.port or get_default_serial_port() else: print('Path to core dump file is not provided. ' "Core dump can't be read from flash since this option is not enabled in menuconfig") sys.exit(1) espcoredump_kwargs['port'] = args.port espcoredump_kwargs['parttable_off'] = get_sdkconfig_value(project_desc['config_file'], 'CONFIG_PARTITION_TABLE_OFFSET') if save_core: espcoredump_kwargs['save_core'] = save_core espcoredump_kwargs['prog'] = prog # compatibility check for esp-coredump < 1.5.2 try: coredump = CoreDump(**espcoredump_kwargs) except TypeError as e: # 'parttable_off' was added in esp-coredump 1.5.2 # remove argument and retry without it if 'parttable_off' in str(e): espcoredump_kwargs.pop('parttable_off') coredump = CoreDump(**espcoredump_kwargs) else: raise return coredump def is_gdb_with_python(gdb: str) -> bool: # execute simple python command to check is it supported return subprocess.run([gdb, '--batch-silent', '--ex', 'python import os'], stderr=subprocess.DEVNULL).returncode == 0 def get_normalized_path(path: str) -> str: if os.name == 'nt': return os.path.normpath(path).replace('\\', '\\\\') return path def get_rom_if_condition_str(date_addr: int, date_str: str) -> str: r = [] for i in range(0, len(date_str), 4): value = hex(int.from_bytes(bytes(date_str[i:i + 4], 'utf-8'), 'little')) r.append(f'(*(int*) {hex(date_addr + i)}) == {value}') return 'if ' + ' && '.join(r) def generate_gdbinit_rom_add_symbols(target: str) -> str: base_ident = ' ' rom_elfs_dir = os.getenv('ESP_ROM_ELF_DIR') if not rom_elfs_dir: raise FatalError( 'ESP_ROM_ELF_DIR environment variable is not defined. Please try to run IDF "install" and "export" scripts.') with open(os.path.join(os.path.dirname(os.path.realpath(__file__)), ESP_ROM_INFO_FILE), 'r') as f: roms = json.load(f) if target not in roms: msg_body = f'Target "{target}" was not found in "{ESP_ROM_INFO_FILE}". Please check IDF integrity.' # noqa: E713 if os.getenv('ESP_IDF_GDB_TESTING'): raise FatalError(msg_body) print(f'Warning: {msg_body}') return f'# {msg_body}' r = ['', f'# Load {target} ROM ELF symbols'] r.append('define target hookpost-remote') r.append('set confirm off') # Since GDB does not have 'else if' statement than we use nested 'if..else' instead. for i, k in enumerate(roms[target], 1): indent_str = base_ident * i rom_file = get_normalized_path(os.path.join(rom_elfs_dir, f'{target}_rev{k["rev"]}_rom.elf')) build_date_addr = int(k['build_date_str_addr'], base=16) r.append(indent(f'# if $_streq((char *) {hex(build_date_addr)}, "{k["build_date_str"]}")', indent_str)) r.append(indent(get_rom_if_condition_str(build_date_addr, k['build_date_str']), indent_str)) r.append(indent(f'add-symbol-file {rom_file}', indent_str + base_ident)) r.append(indent('else', indent_str)) if i == len(roms[target]): # In case no one known ROM ELF fits - print error and exit with error code 1 indent_str += base_ident msg_body = f'unknown {target} ROM revision.' if os.getenv('ESP_IDF_GDB_TESTING'): r.append(indent(f'echo Error: {msg_body}\\n', indent_str)) r.append(indent('quit 1', indent_str)) else: r.append(indent(f'echo Warning: {msg_body}\\n', indent_str)) # Close 'else' operators for i in range(len(roms[target]), 0, -1): r.append(indent('end', base_ident * i)) r.append('set confirm on') r.append('end') r.append('') return '\n'.join(r) raise FatalError(f'{ESP_ROM_INFO_FILE} file not found. Please check IDF integrity.') def generate_gdbinit_files(gdb: str, gdbinit: Optional[str], project_desc: Dict[str, Any]) -> None: app_elf = get_normalized_path(os.path.join(project_desc['build_dir'], project_desc['app_elf'])) if not os.path.exists(app_elf): raise FatalError('ELF file not found. You need to build & flash the project before running debug targets') # Recreate empty 'gdbinit' directory gdbinit_dir = '/'.join([project_desc['build_dir'], 'gdbinit']) if os.path.isfile(gdbinit_dir): os.remove(gdbinit_dir) elif os.path.isdir(gdbinit_dir): shutil.rmtree(gdbinit_dir) os.mkdir(gdbinit_dir) # Prepare gdbinit for Python GDB extensions import py_extensions = '/'.join([gdbinit_dir, 'py_extensions']) with open(py_extensions, 'w') as f: if is_gdb_with_python(gdb): f.write(GDBINIT_PYTHON_TEMPLATE.format(sys_path=sys.path)) else: f.write(GDBINIT_PYTHON_NOT_SUPPORTED) # Prepare gdbinit for related ELFs symbols load symbols = '/'.join([gdbinit_dir, 'symbols']) with open(symbols, 'w') as f: boot_elf = get_normalized_path(project_desc['bootloader_elf']) if 'bootloader_elf' in project_desc else None if boot_elf and os.path.exists(boot_elf): f.write(GDBINIT_BOOTLOADER_ADD_SYMBOLS.format(boot_elf=boot_elf)) else: f.write(GDBINIT_BOOTLOADER_NOT_FOUND) f.write(generate_gdbinit_rom_add_symbols(project_desc['target'])) f.write(GDBINIT_APP_ADD_SYMBOLS.format(app_elf=app_elf)) # Generate the gdbinit for target connect if no custom gdbinit is present if not gdbinit: gdbinit = '/'.join([gdbinit_dir, 'connect']) with open(gdbinit, 'w') as f: f.write(GDBINIT_CONNECT) with open(os.path.join(gdbinit_dir, 'gdbinit'), 'w') as f: f.write(GDBINIT_MAIN.format(py_extensions=py_extensions, symbols=symbols, connect=gdbinit)) def debug_cleanup() -> None: print('cleaning up debug targets') for t in processes['threads_to_join']: if threading.currentThread() != t: t.join() _terminate_async_target('openocd') _terminate_async_target('gdbgui') _terminate_async_target('gdb') def post_debug(action: str, ctx: Context, args: PropertyDict, **kwargs: str) -> None: """ Deal with asynchronous targets, such as openocd running in background """ if kwargs['block'] == 1: for target in ['openocd', 'gdbgui']: if target in processes and processes[target] is not None: break else: return try: p = processes[target] name = processes[target + '_outfile_name'] pos = 0 while True: with open(name, 'r') as f: f.seek(pos) for line in f: print(line.rstrip()) pos = f.tell() if p.poll() is not None: print('"{}" exited with {}'.format(target, p.poll())) break time.sleep(0.5) except KeyboardInterrupt: print('Terminated -> exiting debug utility targets') _terminate_async_target('openocd') _terminate_async_target('gdbgui') def get_project_desc(args: PropertyDict, ctx: Context) -> Any: desc_path = os.path.join(args.build_dir, 'project_description.json') if not os.path.exists(desc_path): ensure_build_directory(args, ctx.info_name) with open(desc_path, 'r') as f: project_desc = json.load(f) return project_desc def openocd(action: str, ctx: Context, args: PropertyDict, openocd_scripts: Optional[str], openocd_commands: str) -> None: """ Execute openocd as external tool """ if os.getenv('OPENOCD_SCRIPTS') is None: raise FatalError('OPENOCD_SCRIPTS not found in the environment: Please run export.sh/export.bat', ctx) openocd_arguments = os.getenv('OPENOCD_COMMANDS') if openocd_commands is None else openocd_commands project_desc = get_project_desc(args, ctx) if openocd_arguments is None: # use default value if commands not defined in the environment nor command line target = project_desc['target'] openocd_arguments = get_openocd_arguments(target) print( 'Note: OpenOCD cfg not found (via env variable OPENOCD_COMMANDS nor as a --openocd-commands argument)\n' 'OpenOCD arguments default to: "{}"'.format(openocd_arguments)) # script directory is taken from the environment by OpenOCD, update only if command line arguments to override if openocd_scripts is not None: openocd_arguments += ' -s {}'.format(openocd_scripts) local_dir = project_desc['build_dir'] args = ['openocd'] + shlex.split(openocd_arguments) openocd_out_name = os.path.join(local_dir, OPENOCD_OUT_FILE) openocd_out = open(openocd_out_name, 'w') try: process = subprocess.Popen(args, stdout=openocd_out, stderr=subprocess.STDOUT, bufsize=1) except Exception as e: print(e) raise FatalError( 'Error starting openocd. Please make sure it is installed and is present in executable paths', ctx) processes['openocd'] = process processes['openocd_outfile'] = openocd_out processes['openocd_outfile_name'] = openocd_out_name print('OpenOCD started as a background task {}'.format(process.pid)) def get_gdb_args(project_desc: Dict[str, Any]) -> List: gdbinit = os.path.join(project_desc['build_dir'], 'gdbinit', 'gdbinit') args = ['-x={}'.format(gdbinit)] debug_prefix_gdbinit = project_desc.get('debug_prefix_map_gdbinit') if debug_prefix_gdbinit: args.append('-ix={}'.format(debug_prefix_gdbinit)) return args def _get_gdbgui_version(ctx: Context) -> Tuple[int, ...]: completed_process = subprocess.run(['gdbgui', '--version'], stdout=subprocess.PIPE, stderr=subprocess.STDOUT) captured_output = completed_process.stdout.decode('utf-8', 'ignore') if completed_process.returncode != 0: if sys.version_info[:2] >= (3, 11) and sys.platform == 'win32': raise SystemExit('Unfortunately, gdbgui is supported only with Python 3.10 or older. ' 'See: https://github.com/espressif/esp-idf/issues/10116. ' 'Please use "idf.py gdb" or debug in Eclipse/Vscode instead.') raise FatalError('Error starting gdbgui. Please make sure gdbgui has been installed with ' '"install.{sh,bat,ps1,fish} --enable-gdbgui" and can be started. ' f'Error: {captured_output}', ctx) v = re.search(r'(\d+)(?:\.(\d+))?(?:\.(\d+))?(?:\.(\d+))?', captured_output) if not v: raise SystemExit(f'Error: "gdbgui --version" returned "{captured_output}"') return tuple(int(i) if i else 0 for i in (v[1], v[2], v[3], v[4])) def gdbui(action: str, ctx: Context, args: PropertyDict, gdbgui_port: Optional[str], gdbinit: Optional[str], require_openocd: bool) -> None: """ Asynchronous GDB-UI target """ project_desc = get_project_desc(args, ctx) local_dir = project_desc['build_dir'] gdb = project_desc['monitor_toolprefix'] + 'gdb' generate_gdbinit_files(gdb, gdbinit, project_desc) gdbgui_version = _get_gdbgui_version(ctx) gdb_args_list = get_gdb_args(project_desc) if gdbgui_version >= (0, 14, 0, 0): # See breaking changes https://github.com/cs01/gdbgui/blob/master/CHANGELOG.md#01400, especially the # replacement of command line arguments. gdb_args = ' '.join(gdb_args_list) args = ['gdbgui', '-g', ' '.join((gdb, gdb_args))] else: # this is a workaround for gdbgui # gdbgui is using shlex.split for the --gdb-args option. When the input is: # - '"-x=foo -x=bar"', would return ['foo bar'] # - '-x=foo', would return ['-x', 'foo'] and mess up the former option '--gdb-args' # so for one item, use extra double quotes. for more items, use no extra double quotes. gdb_args = '"{}"'.format(' '.join(gdb_args_list)) if len(gdb_args_list) == 1 else ' '.join(gdb_args_list) args = ['gdbgui', '-g', gdb, '--gdb-args', gdb_args] if gdbgui_port is not None: args += ['--port', gdbgui_port] gdbgui_out_name = os.path.join(local_dir, GDBGUI_OUT_FILE) gdbgui_out = open(gdbgui_out_name, 'w') env = os.environ.copy() # The only known solution for https://github.com/cs01/gdbgui/issues/359 is to set the following environment # variable. The greenlet package cannot be downgraded for compatibility with other requirements (gdbgui, # pygdbmi). env['PURE_PYTHON'] = '1' try: print('Running: ', args) process = subprocess.Popen(args, stdout=gdbgui_out, stderr=subprocess.STDOUT, bufsize=1, env=env) except (OSError, subprocess.CalledProcessError) as e: print(e) raise FatalError('Error starting gdbgui', ctx) processes['gdbgui'] = process processes['gdbgui_outfile'] = gdbgui_out processes['gdbgui_outfile_name'] = gdbgui_out_name print('gdbgui started as a background task {}'.format(process.pid)) _check_openocd_errors(fail_if_openocd_failed, action, ctx) def global_callback(ctx: Context, global_args: PropertyDict, tasks: List) -> None: def move_to_front(task_name: str) -> None: for index, task in enumerate(tasks): if task.name == task_name: tasks.insert(0, tasks.pop(index)) break processes['allow_hints'] = not ctx.params['no_hints'] debug_targets = any([task.name in ('openocd', 'gdbgui') for task in tasks]) if debug_targets: # Register the meta cleanup callback -> called on FatalError ctx.meta['cleanup'] = debug_cleanup move_to_front('gdbgui') # possibly 2nd move_to_front('openocd') # always 1st # followed by "monitor", "gdb" or "gdbtui" in any order post_action = ctx.invoke(ctx.command.get_command(ctx, 'post_debug')) if any([task.name in ('monitor', 'gdb', 'gdbtui') for task in tasks]): post_action.action_args['block'] = 0 else: post_action.action_args['block'] = 1 tasks.append(post_action) # always last if any([task.name == 'openocd' for task in tasks]): for task in tasks: if task.name in ('gdb', 'gdbgui', 'gdbtui'): task.action_args['require_openocd'] = True def gdbtui(action: str, ctx: Context, args: PropertyDict, gdbinit: str, require_openocd: bool) -> None: """ Synchronous GDB target with text ui mode """ gdb(action, ctx, args, False, 1, gdbinit, require_openocd) def gdb(action: str, ctx: Context, args: PropertyDict, batch: bool, gdb_tui: Optional[int], gdbinit: Optional[str], require_openocd: bool) -> None: """ Synchronous GDB target """ watch_openocd = Thread(target=_check_openocd_errors, args=(fail_if_openocd_failed, action, ctx,)) watch_openocd.start() processes['threads_to_join'].append(watch_openocd) project_desc = get_project_desc(args, ctx) gdb = project_desc['monitor_toolprefix'] + 'gdb' generate_gdbinit_files(gdb, gdbinit, project_desc) args = [gdb, *get_gdb_args(project_desc)] if gdb_tui is not None: args += ['-tui'] if batch: args += ['--batch'] p = subprocess.Popen(args) processes['gdb'] = p while True: try: p.wait() break except KeyboardInterrupt: # Catching Keyboard interrupt, as this is used for breaking running program in gdb continue finally: watch_openocd.join() try: processes['threads_to_join'].remove(watch_openocd) except ValueError: # Valid scenario: watch_openocd task won't be in the list if openocd not started from idf.py pass def coredump_info(action: str, ctx: Context, args: PropertyDict, gdb_timeout_sec: int, core: Optional[str] = None, chip_rev: Optional[str] = None, save_core: Optional[str] = None) -> None: espcoredump = _get_espcoredump_instance(ctx=ctx, args=args, gdb_timeout_sec=gdb_timeout_sec, core=core, chip_rev=chip_rev, save_core=save_core) espcoredump.info_corefile() def coredump_debug(action: str, ctx: Context, args: PropertyDict, core: Optional[str] = None, chip_rev: Optional[str] = None, save_core: Optional[str] = None) -> None: espcoredump = _get_espcoredump_instance(ctx=ctx, args=args, core=core, chip_rev=chip_rev, save_core=save_core) espcoredump.dbg_corefile() coredump_base = [ { 'names': ['--core', '-c'], 'help': 'Path to core dump file (if skipped core dump will be read from flash)', }, { 'names': ['--chip-rev'], 'help': 'Specify the chip revision (e.g., 0.1). If provided, the corresponding ROM ELF file will be used ' 'for decoding the core dump, improving stack traces. This is only needed for core dumps from IDF ' '