esp-idf/tools/idf_py_actions/debug_ext.py
Ivan Grokhotkov 6467f5dd54 tools: idf.py: default to board/esp32s2-kaluga-1.cfg for ESP32-S2
NFC. Kaluga-1 config is same as devkitj + esp32s2.
2020-07-24 15:54:47 +02:00

378 lines
16 KiB
Python

import json
import os
import sys
import subprocess
import shlex
import time
import re
from threading import Thread
import threading
from idf_py_actions.errors import FatalError
from idf_py_actions.tools import ensure_build_directory
PYTHON = sys.executable
def action_extensions(base_actions, project_path):
OPENOCD_OUT_FILE = "openocd_out.txt"
GDBGUI_OUT_FILE = "gdbgui_out.txt"
# Internal dictionary of currently active processes, threads and their output files
processes = {"threads_to_join": [], "openocd_issues": None}
def _check_for_common_openocd_issues(file_name, print_all=True):
if processes["openocd_issues"] is not None:
return processes["openocd_issues"]
try:
message = "Please check JTAG connection!"
with open(file_name, "r") as f:
content = f.read()
if print_all:
print(content)
if re.search(r"Address already in use", content):
message = ("Please check if another process uses the mentioned ports. OpenOCD already running, perhaps in the background?\n"
"Please list all processes to check if OpenOCD is already running; if so, terminate it before starting OpenOCD from idf.py")
finally:
processes["openocd_issues"] = message
return message
def _check_openocd_errors(fail_if_openocd_failed, target, ctx):
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"no device found", content):
break
if re.search(r"Listening on port \d+ for gdb connections", content):
# expect OpenOCD has started successfully - stop watching
return
time.sleep(0.5)
else:
return
# OpenOCD exited or error message detected -> print possible output and terminate
raise FatalError('Action "{}" failed due to errors in OpenOCD:\n{}'.format(target, _check_for_common_openocd_issues(name)), ctx)
def _terminate_async_target(target):
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:
if target == "openocd":
print(_check_for_common_openocd_issues(processes[target + "_outfile_name"], print_all=False))
os.unlink(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_commandline_options(ctx):
""" Return all the command line options up to first action """
# This approach ignores argument parsing done Click
result = []
for arg in sys.argv:
if arg in ctx.command.commands_with_aliases:
break
result.append(arg)
return result
def create_local_gdbinit(gdbinit, elf_file):
with open(gdbinit, "w") as f:
f.write("target remote :3333\n")
if os.name == "nt":
elf_file = elf_file.replace('\\','\\\\')
f.write("symbol-file {}\n".format(elf_file))
f.write("mon reset halt\n")
f.write("flushregs\n")
f.write("thb app_main\n")
f.write("c\n")
def debug_cleanup():
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, ctx, args, **kwargs):
""" 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, ctx):
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, ctx, args, openocd_scripts, openocd_commands):
"""
Execute openocd as external tool
"""
OPENOCD_TAGET_CONFIG = {
"esp32": "-f board/esp32-wrover-kit-3.3v.cfg",
"esp32s2": "-f board/esp32s2-kaluga-1.cfg",
}
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"]
default_args = "-f interface/ftdi/esp32_devkitj_v1.cfg -f target/{}.cfg".format(target)
openocd_arguments = OPENOCD_TAGET_CONFIG.get(target, default_args)
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, "a+")
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 gdbui(action, ctx, args, gdbgui_port, gdbinit, require_openocd):
"""
Asynchronous GDB-UI target
"""
project_desc = get_project_desc(args, ctx)
local_dir = project_desc["build_dir"]
gdb = project_desc["monitor_toolprefix"] + "gdb"
if gdbinit is None:
gdbinit = os.path.join(local_dir, 'gdbinit')
create_local_gdbinit(gdbinit, os.path.join(args.build_dir, project_desc["app_elf"]))
args = ["gdbgui", "-g", gdb, '--gdb-args="-x={}"'.format(gdbinit)]
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, "a+")
try:
process = subprocess.Popen(args, stdout=gdbgui_out, stderr=subprocess.STDOUT, bufsize=1)
except Exception as e:
print(e)
raise FatalError("Error starting gdbgui. Please make sure gdbgui can be started", 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, global_args, tasks):
def move_to_front(task_name):
for index, task in enumerate(tasks):
if task.name == task_name:
tasks.insert(0, tasks.pop(index))
break
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 run_gdb(gdb_args):
p = subprocess.Popen(gdb_args)
processes["gdb"] = p
return p.wait()
def gdbtui(action, ctx, args, gdbinit, require_openocd):
"""
Synchronous GDB target with text ui mode
"""
gdb(action, ctx, args, 1, gdbinit, require_openocd)
def gdb(action, ctx, args, gdb_tui, gdbinit, require_openocd):
"""
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)
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)
elf_file = os.path.join(args.build_dir, project_desc["app_elf"])
if not os.path.exists(elf_file):
raise FatalError("ELF file not found. You need to build & flash the project before running debug targets", ctx)
gdb = project_desc["monitor_toolprefix"] + "gdb"
local_dir = project_desc["build_dir"]
if gdbinit is None:
gdbinit = os.path.join(local_dir, 'gdbinit')
create_local_gdbinit(gdbinit, elf_file)
args = [gdb, '-x={}'.format(gdbinit)]
if gdb_tui is not None:
args += ['-tui']
t = Thread(target=run_gdb, args=(args, ))
t.start()
while True:
try:
t.join()
break
except KeyboardInterrupt:
# Catching Keyboard interrupt, as this is used for breaking running program in gdb
continue
finally:
watch_openocd.join()
processes["threads_to_join"].remove(watch_openocd)
fail_if_openocd_failed = {
"names": ["--require-openocd", "--require_openocd"],
"help":
("Fail this target if openocd (this targets dependency) failed.\n"),
"is_flag": True,
"default": False,
}
gdbinit = {
"names": ["--gdbinit"],
"help": ("Specify the name of gdbinit file to use\n"),
"default": None,
}
debug_actions = {
"global_action_callbacks": [global_callback],
"actions": {
"openocd": {
"callback": openocd,
"help": "Run openocd from current path",
"options": [
{
"names": ["--openocd-scripts", "--openocd_scripts"],
"help":
("Script directory for openocd cfg files.\n"),
"default":
None,
},
{
"names": ["--openocd-commands", "--openocd_commands"],
"help":
("Command line arguments for openocd.\n"),
"default": None,
}
],
"order_dependencies": ["all", "flash"],
},
"gdb": {
"callback": gdb,
"help": "Run the GDB.",
"options": [
{
"names": ["--gdb-tui", "--gdb_tui"],
"help":
("run gdb in TUI mode\n"),
"default":
None,
}, gdbinit, fail_if_openocd_failed
],
"order_dependencies": ["all", "flash"],
},
"gdbgui": {
"callback": gdbui,
"help": "GDB UI in default browser.",
"options": [
{
"names": ["--gdbgui-port", "--gdbgui_port"],
"help":
("The port on which gdbgui will be hosted. Default: 5000\n"),
"default":
None,
}, gdbinit, fail_if_openocd_failed
],
"order_dependencies": ["all", "flash"],
},
"gdbtui": {
"callback": gdbtui,
"help": "GDB TUI mode.",
"options": [gdbinit, fail_if_openocd_failed],
"order_dependencies": ["all", "flash"],
},
"post_debug": {
"callback": post_debug,
"help": "Utility target to read the output of async debug action and stop them.",
"options": [
{
"names": ["--block", "--block"],
"help":
("Set to 1 for blocking the console on the outputs of async debug actions\n"),
"default": 0,
},
],
"order_dependencies": [],
},
},
}
return debug_actions