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rg_tool.py
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rg_tool.py
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#!/usr/bin/env python
import argparse
import math
import subprocess
import hashlib
import shutil
import serial
import time
import sys
import re
import os
IDF_PATH = os.getenv("IDF_PATH")
PRJ_PATH = sys.path[0] # os.getcwd()
if not IDF_PATH:
exit("IDF_PATH is not defined.")
def read_file(filepath):
with open(filepath, "rb") as f: return f.read()
def shell_exec(cmd):
return subprocess.check_output(cmd, shell=True).decode().rstrip()
def debug_print(text):
print("\033[0;33m%s\033[0m" % text)
os.chdir(PRJ_PATH)
exec(read_file("rg_config.py"))
symbols_cache = dict()
class Symbol:
def __init__(self, address, name, source="??:?", inlined=None):
self.address = int(str(address), 0)
self.name = name
self.source = os.path.normpath(source)
self.inlined = inlined
self.hash = hashlib.sha1(bytes(self.source + self.name, "UTF-8")).hexdigest()
def __str__(self):
text = "0x%x: %s at %s" % (self.address, self.name, self.source)
if self.inlined:
text += "\ninlined by %s" % str(self.inlined)
return text.replace("\n", "\n ")
class CallBranch:
def __init__(self, name, parent=None):
self.name = name
self.parent = parent
self.run_time = 0;
self.children = dict()
def add_frame(self, caller, callee, num_calls, run_time):
if callee.hash not in self.children:
self.children[callee.hash] = [caller, callee, num_calls, run_time]
else:
self.children[callee.hash][2] += num_calls
self.children[callee.hash][3] += run_time
self.run_time += run_time
def find_symbol(elf_file, addr):
try:
if addr not in symbols_cache:
symbols_cache[addr] = Symbol(0, "??")
lines = shell_exec(["xtensa-esp32-elf-addr2line", "-ifCe", elf_file, addr]).splitlines()
if len(lines) > 2:
symbols_cache[addr] = Symbol(addr, lines[0], lines[1], Symbol(0, lines[2], lines[3]))
elif len(lines) == 2:
symbols_cache[addr] = Symbol(addr, lines[0], lines[1])
except:
pass
return symbols_cache[addr]
def analyze_profile(frames):
flatten = True # False is currently not working correctly
tree = dict()
for caller, callee, num_calls, run_time in frames:
branch = '*' if flatten else caller.name + "@" + os.path.basename(caller.source)
if branch not in tree:
tree[branch] = CallBranch(branch, caller)
tree[branch].add_frame(caller, callee, num_calls, run_time)
tree_sorted = sorted(tree.values(), key=lambda x: x.run_time, reverse=True)
for branch in tree_sorted:
if branch.run_time < 100_000:
continue
debug_print("%-68s %dms" % (branch.name, branch.run_time / 1000))
children = sorted(branch.children.values(), key=lambda x: x[3], reverse=True)
for caller, callee, num_calls, run_time in children:
if run_time < 10_000:
continue
debug_print(" %-32s %-20s %-10d %dms"
% (callee.name, os.path.basename(callee.source), num_calls, run_time / 1000))
debug_print("")
def build_firmware(targets):
os.chdir(PRJ_PATH)
args = [
sys.executable,
"tools/mkfw.py",
("%s_%s.fw" % (PROJECT_NAME, PROJECT_VER)).lower(),
("%s %s" % (PROJECT_NAME, PROJECT_VER)),
PROJECT_TILE
]
for target in targets:
part = PROJECT_APPS[target]
args += [str(0), str(part[0]), str(part[1]), target, os.path.join(target, "build", target + ".bin")]
subprocess.run(args, check=True)
def clean_app(target):
print("Cleaning up app '%s'..." % target)
try: # idf.py fullclean
shutil.rmtree(os.path.join(PRJ_PATH, target, "build"))
print("Done.\n")
except FileNotFoundError:
print("Nothing to do.\n")
def build_app(target, with_debugging=False, with_profiling=False, with_netplay=False):
# To do: clean up if any of the flags changed since last build
print("Building app '%s'" % target)
os.chdir(os.path.join(PRJ_PATH, target))
os.putenv("ENABLE_PROFILING", "1" if with_profiling else "0")
os.putenv("ENABLE_DEBUGGING", "1" if with_debugging else "0")
os.putenv("ENABLE_NETPLAY", "1" if with_netplay else "0")
subprocess.run(["idf.py", "app"], shell=True, check=True)
print("Patching esp_image_header_t to skip sha256 on boot...")
with open("build/" + target + ".bin", "r+b") as fp:
fp.seek(23)
fp.write(b"\0")
print("Done.\n")
def find_app(target, offset, app_offset=None):
if app_offset != None:
return int(str(app_offset), 0)
offset = int(str(offset), 0)
for key, value in PROJECT_APPS.items():
if key == target:
return offset
offset += math.ceil(value[1] / 0x10000) * 0x10000
def flash_app(target, port, offset=0x100000):
print("Flashing app '%s' at offset %s" % (target, hex(offset)))
subprocess.run([
sys.executable,
os.path.join(IDF_PATH, "components", "esptool_py", "esptool", "esptool.py"),
"--chip", "esp32",
"--port", port,
"--baud", "1152000",
"--before", "default_reset",
"write_flash",
"--flash_mode", "qio",
"--flash_freq", "80m",
"--flash_size", "detect",
hex(offset),
os.path.join(PRJ_PATH, target, "build", target + ".bin"),
], check=True)
print("Done.\n")
def monitor_app(target, port, baudrate=115200):
print("Starting monitor for app '%s'" % target)
mon = serial.Serial(port, baudrate=baudrate, timeout=0)
elf = os.path.join(PRJ_PATH, target, "build", target + ".elf")
mon.setDTR(False)
mon.setRTS(False)
# To do: detect ctrl+r ctrl+c etc
profile_frames = list()
line_bytes = b''
while 1:
if mon.in_waiting == 0:
sys.stdout.flush()
time.sleep(0.010)
continue
byte = mon.read()
if byte != b"\n":
sys.stdout.buffer.write(byte) # byte.decode()
line_bytes += byte
else:
line = line_bytes.decode(errors="ignore").rstrip()
line_bytes = b''
# check for debug data meant to be analyzed, not displayed
m = re.match(r"^RGD:([A-Z0-9]+):([A-Z0-9]+)\s*(.*)$", line)
if m:
rg_debug_ns = m.group(1)
rg_debug_cmd = m.group(2)
rg_debug_arg = m.group(3)
sys.stdout.buffer.write(b"\r") # Clear the line
if rg_debug_ns == "PROF":
if rg_debug_cmd == "BEGIN":
profile_frames.clear()
if rg_debug_cmd == "END":
analyze_profile(profile_frames)
if rg_debug_cmd == "DATA":
m = re.match(r"([x0-9a-f]+)\s([x0-9a-f]+)\s(\d+)\s(\d+)", rg_debug_arg)
if m:
profile_frames.append([
find_symbol(elf, m.group(1)),
find_symbol(elf, m.group(2)),
int(m.group(3)),
int(m.group(4)),
])
continue
sys.stdout.buffer.write(b"\n")
# check for symbol addresses
for addr in re.findall(r"0x4[0-9a-fA-F]{7}", line):
symbol = find_symbol(elf, addr)
if symbol and "??:" not in symbol.source:
debug_print(symbol)
parser = argparse.ArgumentParser(description="Retro-Go build tool")
parser.add_argument(
# To do: Learn to use subcommands instead...
"command", choices=["build-fw", "build", "clean", "flash", "monitor", "run"],
)
parser.add_argument(
"targets", nargs="*", default="all", choices=["all"] + list(PROJECT_APPS.keys())
)
parser.add_argument(
"--compact-fw", action="store_const", const=True, help="Ignore the partition sizes set in rg_config.py when building .fw"
)
parser.add_argument(
"--with-netplay", action="store_const", const=True, help="Build with netplay enabled"
)
parser.add_argument(
"--with-profiling", action="store_const", const=True, help="Build with profiling enabled"
)
parser.add_argument(
"--with-debugging", action="store_const", const=True, help="Build with debugging enabled"
)
parser.add_argument(
"--port", default="COM3", help="Serial port to use for flash and monitor"
)
parser.add_argument(
"--offset", default="0x100000", help="Flash offset where %s is installed" % PROJECT_NAME,
)
parser.add_argument(
"--app-offset", default=None, help="Absolute offset where target will be flashed"
)
args = parser.parse_args()
command = args.command
targets = args.targets if "all" not in args.targets else PROJECT_APPS.keys()
if command == "build-fw":
for target in targets:
clean_app(target)
build_app(target, args.with_debugging, args.with_profiling, args.with_netplay)
build_firmware(targets)
if command == "build":
for target in targets:
build_app(target,args.with_debugging, args.with_profiling, args.with_netplay)
if command == "clean":
for target in targets:
clean_app(target)
if command == "flash":
for target in targets:
flash_app(target, args.port, find_app(target, args.offset, args.app_offset))
if command == "monitor":
monitor_app(targets[0], args.port)
if command == "run":
build_app(targets[0], args.with_debugging, args.with_profiling, args.with_netplay)
flash_app(targets[0], args.port, find_app(targets[0], args.offset, args.app_offset))
monitor_app(targets[0], args.port)
print("All done!")