mirror of
https://github.com/liberatedsystems/RNode_Firmware_CE.git
synced 2024-12-26 07:59:23 -05:00
5652 lines
272 KiB
Python
Executable File
5652 lines
272 KiB
Python
Executable File
#!/usr/bin/env python3
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#
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# SPDX-FileCopyrightText: 2014-2022 Fredrik Ahlberg, Angus Gratton, Espressif Systems (Shanghai) CO LTD, other contributors as noted.
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#
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# SPDX-License-Identifier: GPL-2.0-or-later
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from __future__ import division, print_function
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import argparse
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import base64
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import binascii
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import copy
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import hashlib
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import inspect
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import io
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import itertools
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import os
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import re
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import shlex
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import string
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import struct
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import sys
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import time
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import zlib
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try:
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import serial
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except ImportError:
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print("Pyserial is not installed for %s. Check the README for installation instructions." % (sys.executable))
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raise
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# check 'serial' is 'pyserial' and not 'serial' https://github.com/espressif/esptool/issues/269
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try:
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if "serialization" in serial.__doc__ and "deserialization" in serial.__doc__:
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raise ImportError("""
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esptool.py depends on pyserial, but there is a conflict with a currently installed package named 'serial'.
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You may be able to work around this by 'pip uninstall serial; pip install pyserial' \
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but this may break other installed Python software that depends on 'serial'.
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There is no good fix for this right now, apart from configuring virtualenvs. \
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See https://github.com/espressif/esptool/issues/269#issuecomment-385298196 for discussion of the underlying issue(s).""")
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except TypeError:
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pass # __doc__ returns None for pyserial
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try:
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import serial.tools.list_ports as list_ports
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except ImportError:
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print("The installed version (%s) of pyserial appears to be too old for esptool.py (Python interpreter %s). "
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"Check the README for installation instructions." % (sys.VERSION, sys.executable))
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raise
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except Exception:
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if sys.platform == "darwin":
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# swallow the exception, this is a known issue in pyserial+macOS Big Sur preview ref https://github.com/espressif/esptool/issues/540
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list_ports = None
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else:
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raise
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__version__ = "3.3.3"
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MAX_UINT32 = 0xffffffff
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MAX_UINT24 = 0xffffff
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DEFAULT_TIMEOUT = 3 # timeout for most flash operations
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START_FLASH_TIMEOUT = 20 # timeout for starting flash (may perform erase)
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CHIP_ERASE_TIMEOUT = 120 # timeout for full chip erase
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MAX_TIMEOUT = CHIP_ERASE_TIMEOUT * 2 # longest any command can run
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SYNC_TIMEOUT = 0.1 # timeout for syncing with bootloader
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MD5_TIMEOUT_PER_MB = 8 # timeout (per megabyte) for calculating md5sum
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ERASE_REGION_TIMEOUT_PER_MB = 30 # timeout (per megabyte) for erasing a region
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ERASE_WRITE_TIMEOUT_PER_MB = 40 # timeout (per megabyte) for erasing and writing data
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MEM_END_ROM_TIMEOUT = 0.05 # special short timeout for ESP_MEM_END, as it may never respond
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DEFAULT_SERIAL_WRITE_TIMEOUT = 10 # timeout for serial port write
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DEFAULT_CONNECT_ATTEMPTS = 7 # default number of times to try connection
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WRITE_BLOCK_ATTEMPTS = 3 # number of times to try writing a data block
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SUPPORTED_CHIPS = ['esp8266', 'esp32', 'esp32s2', 'esp32s3beta2', 'esp32s3', 'esp32c3', 'esp32c6beta', 'esp32h2beta1', 'esp32h2beta2', 'esp32c2']
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def timeout_per_mb(seconds_per_mb, size_bytes):
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""" Scales timeouts which are size-specific """
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result = seconds_per_mb * (size_bytes / 1e6)
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if result < DEFAULT_TIMEOUT:
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return DEFAULT_TIMEOUT
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return result
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def _chip_to_rom_loader(chip):
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return {
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'esp8266': ESP8266ROM,
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'esp32': ESP32ROM,
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'esp32s2': ESP32S2ROM,
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'esp32s3beta2': ESP32S3BETA2ROM,
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'esp32s3': ESP32S3ROM,
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'esp32c3': ESP32C3ROM,
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'esp32c6beta': ESP32C6BETAROM,
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'esp32h2beta1': ESP32H2BETA1ROM,
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'esp32h2beta2': ESP32H2BETA2ROM,
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'esp32c2': ESP32C2ROM,
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}[chip]
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def get_default_connected_device(serial_list, port, connect_attempts, initial_baud, chip='auto', trace=False,
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before='default_reset'):
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_esp = None
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for each_port in reversed(serial_list):
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print("Serial port %s" % each_port)
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try:
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if chip == 'auto':
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_esp = ESPLoader.detect_chip(each_port, initial_baud, before, trace,
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connect_attempts)
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else:
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chip_class = _chip_to_rom_loader(chip)
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_esp = chip_class(each_port, initial_baud, trace)
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_esp.connect(before, connect_attempts)
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break
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except (FatalError, OSError) as err:
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if port is not None:
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raise
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print("%s failed to connect: %s" % (each_port, err))
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if _esp and _esp._port:
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_esp._port.close()
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_esp = None
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return _esp
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DETECTED_FLASH_SIZES = {
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0x12: "256KB",
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0x13: "512KB",
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0x14: "1MB",
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0x15: "2MB",
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0x16: "4MB",
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0x17: "8MB",
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0x18: "16MB",
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0x19: "32MB",
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0x1A: "64MB",
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0x1B: "128MB",
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0x1C: "256MB",
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0x20: "64MB",
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0x21: "128MB",
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0x22: "256MB",
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0x32: "256KB",
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0x33: "512KB",
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0x34: "1MB",
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0x35: "2MB",
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0x36: "4MB",
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0x37: "8MB",
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0x38: "16MB",
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0x39: "32MB",
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0x3A: "64MB",
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}
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def check_supported_function(func, check_func):
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"""
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Decorator implementation that wraps a check around an ESPLoader
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bootloader function to check if it's supported.
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This is used to capture the multidimensional differences in
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functionality between the ESP8266 & ESP32 (and later chips) ROM loaders, and the
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software stub that runs on these. Not possible to do this cleanly
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via inheritance alone.
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"""
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def inner(*args, **kwargs):
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obj = args[0]
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if check_func(obj):
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return func(*args, **kwargs)
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else:
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raise NotImplementedInROMError(obj, func)
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return inner
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def esp8266_function_only(func):
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""" Attribute for a function only supported on ESP8266 """
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return check_supported_function(func, lambda o: o.CHIP_NAME == "ESP8266")
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def stub_function_only(func):
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""" Attribute for a function only supported in the software stub loader """
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return check_supported_function(func, lambda o: o.IS_STUB)
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def stub_and_esp32_function_only(func):
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""" Attribute for a function only supported by software stubs or ESP32 and later chips ROM """
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return check_supported_function(func, lambda o: o.IS_STUB or isinstance(o, ESP32ROM))
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def esp32s3_or_newer_function_only(func):
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""" Attribute for a function only supported by ESP32S3 and later chips ROM """
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return check_supported_function(func, lambda o: isinstance(o, ESP32S3ROM) or isinstance(o, ESP32C3ROM))
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PYTHON2 = sys.version_info[0] < 3 # True if on pre-Python 3
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# Function to return nth byte of a bitstring
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# Different behaviour on Python 2 vs 3
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if PYTHON2:
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def byte(bitstr, index):
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return ord(bitstr[index])
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else:
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def byte(bitstr, index):
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return bitstr[index]
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# Provide a 'basestring' class on Python 3
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try:
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basestring
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except NameError:
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basestring = str
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def print_overwrite(message, last_line=False):
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""" Print a message, overwriting the currently printed line.
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If last_line is False, don't append a newline at the end (expecting another subsequent call will overwrite this one.)
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After a sequence of calls with last_line=False, call once with last_line=True.
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If output is not a TTY (for example redirected a pipe), no overwriting happens and this function is the same as print().
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"""
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if sys.stdout.isatty():
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print("\r%s" % message, end='\n' if last_line else '')
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else:
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print(message)
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def _mask_to_shift(mask):
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""" Return the index of the least significant bit in the mask """
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shift = 0
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while mask & 0x1 == 0:
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shift += 1
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mask >>= 1
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return shift
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class ESPLoader(object):
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""" Base class providing access to ESP ROM & software stub bootloaders.
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Subclasses provide ESP8266 & ESP32 Family specific functionality.
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Don't instantiate this base class directly, either instantiate a subclass or
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call ESPLoader.detect_chip() which will interrogate the chip and return the
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appropriate subclass instance.
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"""
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CHIP_NAME = "Espressif device"
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IS_STUB = False
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FPGA_SLOW_BOOT = False
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DEFAULT_PORT = "/dev/ttyUSB0"
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USES_RFC2217 = False
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# Commands supported by ESP8266 ROM bootloader
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ESP_FLASH_BEGIN = 0x02
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ESP_FLASH_DATA = 0x03
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ESP_FLASH_END = 0x04
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ESP_MEM_BEGIN = 0x05
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ESP_MEM_END = 0x06
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ESP_MEM_DATA = 0x07
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ESP_SYNC = 0x08
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ESP_WRITE_REG = 0x09
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ESP_READ_REG = 0x0a
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# Some comands supported by ESP32 and later chips ROM bootloader (or -8266 w/ stub)
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ESP_SPI_SET_PARAMS = 0x0B
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ESP_SPI_ATTACH = 0x0D
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ESP_READ_FLASH_SLOW = 0x0e # ROM only, much slower than the stub flash read
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ESP_CHANGE_BAUDRATE = 0x0F
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ESP_FLASH_DEFL_BEGIN = 0x10
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ESP_FLASH_DEFL_DATA = 0x11
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ESP_FLASH_DEFL_END = 0x12
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ESP_SPI_FLASH_MD5 = 0x13
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# Commands supported by ESP32-S2 and later chips ROM bootloader only
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ESP_GET_SECURITY_INFO = 0x14
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# Some commands supported by stub only
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ESP_ERASE_FLASH = 0xD0
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ESP_ERASE_REGION = 0xD1
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ESP_READ_FLASH = 0xD2
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ESP_RUN_USER_CODE = 0xD3
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# Flash encryption encrypted data command
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ESP_FLASH_ENCRYPT_DATA = 0xD4
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# Response code(s) sent by ROM
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ROM_INVALID_RECV_MSG = 0x05 # response if an invalid message is received
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# Maximum block sized for RAM and Flash writes, respectively.
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ESP_RAM_BLOCK = 0x1800
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FLASH_WRITE_SIZE = 0x400
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# Default baudrate. The ROM auto-bauds, so we can use more or less whatever we want.
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ESP_ROM_BAUD = 115200
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# First byte of the application image
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ESP_IMAGE_MAGIC = 0xe9
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# Initial state for the checksum routine
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ESP_CHECKSUM_MAGIC = 0xef
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# Flash sector size, minimum unit of erase.
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FLASH_SECTOR_SIZE = 0x1000
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UART_DATE_REG_ADDR = 0x60000078
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CHIP_DETECT_MAGIC_REG_ADDR = 0x40001000 # This ROM address has a different value on each chip model
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UART_CLKDIV_MASK = 0xFFFFF
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# Memory addresses
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IROM_MAP_START = 0x40200000
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IROM_MAP_END = 0x40300000
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# The number of bytes in the UART response that signify command status
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STATUS_BYTES_LENGTH = 2
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# Response to ESP_SYNC might indicate that flasher stub is running instead of the ROM bootloader
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sync_stub_detected = False
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# Device PIDs
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USB_JTAG_SERIAL_PID = 0x1001
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# Chip IDs that are no longer supported by esptool
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UNSUPPORTED_CHIPS = {6: "ESP32-S3(beta 3)"}
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def __init__(self, port=DEFAULT_PORT, baud=ESP_ROM_BAUD, trace_enabled=False):
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"""Base constructor for ESPLoader bootloader interaction
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Don't call this constructor, either instantiate ESP8266ROM
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or ESP32ROM, or use ESPLoader.detect_chip().
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This base class has all of the instance methods for bootloader
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functionality supported across various chips & stub
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loaders. Subclasses replace the functions they don't support
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with ones which throw NotImplementedInROMError().
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"""
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self.secure_download_mode = False # flag is set to True if esptool detects the ROM is in Secure Download Mode
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self.stub_is_disabled = False # flag is set to True if esptool detects conditions which require the stub to be disabled
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if isinstance(port, basestring):
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self._port = serial.serial_for_url(port)
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else:
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self._port = port
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self._slip_reader = slip_reader(self._port, self.trace)
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# setting baud rate in a separate step is a workaround for
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# CH341 driver on some Linux versions (this opens at 9600 then
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# sets), shouldn't matter for other platforms/drivers. See
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# https://github.com/espressif/esptool/issues/44#issuecomment-107094446
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self._set_port_baudrate(baud)
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self._trace_enabled = trace_enabled
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# set write timeout, to prevent esptool blocked at write forever.
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try:
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self._port.write_timeout = DEFAULT_SERIAL_WRITE_TIMEOUT
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except NotImplementedError:
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# no write timeout for RFC2217 ports
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# need to set the property back to None or it will continue to fail
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self._port.write_timeout = None
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@property
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def serial_port(self):
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return self._port.port
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def _set_port_baudrate(self, baud):
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try:
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self._port.baudrate = baud
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except IOError:
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raise FatalError("Failed to set baud rate %d. The driver may not support this rate." % baud)
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@staticmethod
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def detect_chip(port=DEFAULT_PORT, baud=ESP_ROM_BAUD, connect_mode='default_reset', trace_enabled=False,
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connect_attempts=DEFAULT_CONNECT_ATTEMPTS):
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""" Use serial access to detect the chip type.
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First, get_security_info command is sent to detect the ID of the chip
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(supported only by ESP32-C3 and later, works even in the Secure Download Mode).
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If this fails, we reconnect and fall-back to reading the magic number.
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It's mapped at a specific ROM address and has a different value on each chip model.
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This way we can use one memory read and compare it to the magic number for each chip type.
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This routine automatically performs ESPLoader.connect() (passing
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connect_mode parameter) as part of querying the chip.
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"""
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inst = None
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detect_port = ESPLoader(port, baud, trace_enabled=trace_enabled)
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if detect_port.serial_port.startswith("rfc2217:"):
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detect_port.USES_RFC2217 = True
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detect_port.connect(connect_mode, connect_attempts, detecting=True)
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try:
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print('Detecting chip type...', end='')
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res = detect_port.check_command('get security info', ESPLoader.ESP_GET_SECURITY_INFO, b'')
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res = struct.unpack("<IBBBBBBBBI", res[:16]) # 4b flags, 1b flash_crypt_cnt, 7*1b key_purposes, 4b chip_id
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chip_id = res[9] # 2/4 status bytes invariant
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for cls in [ESP32S3BETA2ROM, ESP32S3ROM, ESP32C3ROM, ESP32C6BETAROM, ESP32H2BETA1ROM, ESP32C2ROM, ESP32H2BETA2ROM]:
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if chip_id == cls.IMAGE_CHIP_ID:
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inst = cls(detect_port._port, baud, trace_enabled=trace_enabled)
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inst._post_connect()
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try:
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inst.read_reg(ESPLoader.CHIP_DETECT_MAGIC_REG_ADDR) # Dummy read to check Secure Download mode
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except UnsupportedCommandError:
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inst.secure_download_mode = True
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except (UnsupportedCommandError, struct.error, FatalError) as e:
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# UnsupportedCmdErr: ESP8266/ESP32 ROM | struct.err: ESP32-S2 | FatalErr: ESP8266/ESP32 STUB
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print(" Unsupported detection protocol, switching and trying again...")
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try:
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# ESP32/ESP8266 are reset after an unsupported command, need to connect again (not needed on ESP32-S2)
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if not isinstance(e, struct.error):
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detect_port.connect(connect_mode, connect_attempts, detecting=True, warnings=False)
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print('Detecting chip type...', end='')
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sys.stdout.flush()
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chip_magic_value = detect_port.read_reg(ESPLoader.CHIP_DETECT_MAGIC_REG_ADDR)
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for cls in [ESP8266ROM, ESP32ROM, ESP32S2ROM, ESP32S3BETA2ROM, ESP32S3ROM,
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ESP32C3ROM, ESP32C6BETAROM, ESP32H2BETA1ROM, ESP32C2ROM, ESP32H2BETA2ROM]:
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if chip_magic_value in cls.CHIP_DETECT_MAGIC_VALUE:
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inst = cls(detect_port._port, baud, trace_enabled=trace_enabled)
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inst._post_connect()
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inst.check_chip_id()
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except UnsupportedCommandError:
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raise FatalError("Unsupported Command Error received. Probably this means Secure Download Mode is enabled, "
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"autodetection will not work. Need to manually specify the chip.")
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finally:
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if inst is not None:
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print(' %s' % inst.CHIP_NAME, end='')
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if detect_port.sync_stub_detected:
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inst = inst.STUB_CLASS(inst)
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inst.sync_stub_detected = True
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print('') # end line
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return inst
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raise FatalError("Unexpected CHIP magic value 0x%08x. Failed to autodetect chip type." % (chip_magic_value))
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""" Read a SLIP packet from the serial port """
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def read(self):
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return next(self._slip_reader)
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""" Write bytes to the serial port while performing SLIP escaping """
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def write(self, packet):
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buf = b'\xc0' \
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+ (packet.replace(b'\xdb', b'\xdb\xdd').replace(b'\xc0', b'\xdb\xdc')) \
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+ b'\xc0'
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self.trace("Write %d bytes: %s", len(buf), HexFormatter(buf))
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self._port.write(buf)
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def trace(self, message, *format_args):
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if self._trace_enabled:
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now = time.time()
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try:
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delta = now - self._last_trace
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except AttributeError:
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delta = 0.0
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self._last_trace = now
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prefix = "TRACE +%.3f " % delta
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print(prefix + (message % format_args))
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|
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""" Calculate checksum of a blob, as it is defined by the ROM """
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@staticmethod
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def checksum(data, state=ESP_CHECKSUM_MAGIC):
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for b in data:
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if type(b) is int: # python 2/3 compat
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state ^= b
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|
else:
|
|
state ^= ord(b)
|
|
|
|
return state
|
|
|
|
""" Send a request and read the response """
|
|
def command(self, op=None, data=b"", chk=0, wait_response=True, timeout=DEFAULT_TIMEOUT):
|
|
saved_timeout = self._port.timeout
|
|
new_timeout = min(timeout, MAX_TIMEOUT)
|
|
if new_timeout != saved_timeout:
|
|
self._port.timeout = new_timeout
|
|
|
|
try:
|
|
if op is not None:
|
|
self.trace("command op=0x%02x data len=%s wait_response=%d timeout=%.3f data=%s",
|
|
op, len(data), 1 if wait_response else 0, timeout, HexFormatter(data))
|
|
pkt = struct.pack(b'<BBHI', 0x00, op, len(data), chk) + data
|
|
self.write(pkt)
|
|
|
|
if not wait_response:
|
|
return
|
|
|
|
# tries to get a response until that response has the
|
|
# same operation as the request or a retries limit has
|
|
# exceeded. This is needed for some esp8266s that
|
|
# reply with more sync responses than expected.
|
|
for retry in range(100):
|
|
p = self.read()
|
|
if len(p) < 8:
|
|
continue
|
|
(resp, op_ret, len_ret, val) = struct.unpack('<BBHI', p[:8])
|
|
if resp != 1:
|
|
continue
|
|
data = p[8:]
|
|
|
|
if op is None or op_ret == op:
|
|
return val, data
|
|
if byte(data, 0) != 0 and byte(data, 1) == self.ROM_INVALID_RECV_MSG:
|
|
self.flush_input() # Unsupported read_reg can result in more than one error response for some reason
|
|
raise UnsupportedCommandError(self, op)
|
|
|
|
finally:
|
|
if new_timeout != saved_timeout:
|
|
self._port.timeout = saved_timeout
|
|
|
|
raise FatalError("Response doesn't match request")
|
|
|
|
def check_command(self, op_description, op=None, data=b'', chk=0, timeout=DEFAULT_TIMEOUT):
|
|
"""
|
|
Execute a command with 'command', check the result code and throw an appropriate
|
|
FatalError if it fails.
|
|
|
|
Returns the "result" of a successful command.
|
|
"""
|
|
val, data = self.command(op, data, chk, timeout=timeout)
|
|
|
|
# things are a bit weird here, bear with us
|
|
|
|
# the status bytes are the last 2/4 bytes in the data (depending on chip)
|
|
if len(data) < self.STATUS_BYTES_LENGTH:
|
|
raise FatalError("Failed to %s. Only got %d byte status response." % (op_description, len(data)))
|
|
status_bytes = data[-self.STATUS_BYTES_LENGTH:]
|
|
# we only care if the first one is non-zero. If it is, the second byte is a reason.
|
|
if byte(status_bytes, 0) != 0:
|
|
raise FatalError.WithResult('Failed to %s' % op_description, status_bytes)
|
|
|
|
# if we had more data than just the status bytes, return it as the result
|
|
# (this is used by the md5sum command, maybe other commands?)
|
|
if len(data) > self.STATUS_BYTES_LENGTH:
|
|
return data[:-self.STATUS_BYTES_LENGTH]
|
|
else: # otherwise, just return the 'val' field which comes from the reply header (this is used by read_reg)
|
|
return val
|
|
|
|
def flush_input(self):
|
|
self._port.flushInput()
|
|
self._slip_reader = slip_reader(self._port, self.trace)
|
|
|
|
def sync(self):
|
|
val, _ = self.command(self.ESP_SYNC, b'\x07\x07\x12\x20' + 32 * b'\x55',
|
|
timeout=SYNC_TIMEOUT)
|
|
|
|
# ROM bootloaders send some non-zero "val" response. The flasher stub sends 0. If we receive 0 then it
|
|
# probably indicates that the chip wasn't or couldn't be reseted properly and esptool is talking to the
|
|
# flasher stub.
|
|
self.sync_stub_detected = val == 0
|
|
|
|
for _ in range(7):
|
|
val, _ = self.command()
|
|
self.sync_stub_detected &= val == 0
|
|
|
|
def _setDTR(self, state):
|
|
self._port.setDTR(state)
|
|
|
|
def _setRTS(self, state):
|
|
self._port.setRTS(state)
|
|
# Work-around for adapters on Windows using the usbser.sys driver:
|
|
# generate a dummy change to DTR so that the set-control-line-state
|
|
# request is sent with the updated RTS state and the same DTR state
|
|
self._port.setDTR(self._port.dtr)
|
|
|
|
def _get_pid(self):
|
|
if list_ports is None:
|
|
print("\nListing all serial ports is currently not available. Can't get device PID.")
|
|
return
|
|
active_port = self._port.port
|
|
|
|
# Pyserial only identifies regular ports, URL handlers are not supported
|
|
if not active_port.lower().startswith(("com", "/dev/")):
|
|
print("\nDevice PID identification is only supported on COM and /dev/ serial ports.")
|
|
return
|
|
# Return the real path if the active port is a symlink
|
|
if active_port.startswith("/dev/") and os.path.islink(active_port):
|
|
active_port = os.path.realpath(active_port)
|
|
|
|
# The "cu" (call-up) device has to be used for outgoing communication on MacOS
|
|
if sys.platform == "darwin" and "tty" in active_port:
|
|
active_port = [active_port, active_port.replace("tty", "cu")]
|
|
ports = list_ports.comports()
|
|
for p in ports:
|
|
if p.device in active_port:
|
|
return p.pid
|
|
print("\nFailed to get PID of a device on {}, using standard reset sequence.".format(active_port))
|
|
|
|
def bootloader_reset(self, usb_jtag_serial=False, extra_delay=False):
|
|
""" Issue a reset-to-bootloader, with USB-JTAG-Serial custom reset sequence option
|
|
"""
|
|
# RTS = either CH_PD/EN or nRESET (both active low = chip in reset)
|
|
# DTR = GPIO0 (active low = boot to flasher)
|
|
#
|
|
# DTR & RTS are active low signals,
|
|
# ie True = pin @ 0V, False = pin @ VCC.
|
|
if usb_jtag_serial:
|
|
# Custom reset sequence, which is required when the device
|
|
# is connecting via its USB-JTAG-Serial peripheral
|
|
self._setRTS(False)
|
|
self._setDTR(False) # Idle
|
|
time.sleep(0.1)
|
|
self._setDTR(True) # Set IO0
|
|
self._setRTS(False)
|
|
time.sleep(0.1)
|
|
self._setRTS(True) # Reset. Note dtr/rts calls inverted so we go through (1,1) instead of (0,0)
|
|
self._setDTR(False)
|
|
self._setRTS(True) # Extra RTS set for RTS as Windows only propagates DTR on RTS setting
|
|
time.sleep(0.1)
|
|
self._setDTR(False)
|
|
self._setRTS(False)
|
|
else:
|
|
# This fpga delay is for Espressif internal use
|
|
fpga_delay = True if self.FPGA_SLOW_BOOT and os.environ.get("ESPTOOL_ENV_FPGA", "").strip() == "1" else False
|
|
delay = 7 if fpga_delay else 0.5 if extra_delay else 0.05 # 0.5 needed for ESP32 rev0 and rev1
|
|
|
|
self._setDTR(False) # IO0=HIGH
|
|
self._setRTS(True) # EN=LOW, chip in reset
|
|
time.sleep(0.1)
|
|
self._setDTR(True) # IO0=LOW
|
|
self._setRTS(False) # EN=HIGH, chip out of reset
|
|
time.sleep(delay)
|
|
self._setDTR(False) # IO0=HIGH, done
|
|
|
|
def _connect_attempt(self, mode='default_reset', usb_jtag_serial=False, extra_delay=False):
|
|
""" A single connection attempt """
|
|
last_error = None
|
|
boot_log_detected = False
|
|
download_mode = False
|
|
|
|
# If we're doing no_sync, we're likely communicating as a pass through
|
|
# with an intermediate device to the ESP32
|
|
if mode == "no_reset_no_sync":
|
|
return last_error
|
|
|
|
if mode != 'no_reset':
|
|
if not self.USES_RFC2217: # Might block on rfc2217 ports
|
|
self._port.reset_input_buffer() # Empty serial buffer to isolate boot log
|
|
self.bootloader_reset(usb_jtag_serial, extra_delay)
|
|
|
|
# Detect the ROM boot log and check actual boot mode (ESP32 and later only)
|
|
waiting = self._port.inWaiting()
|
|
read_bytes = self._port.read(waiting)
|
|
data = re.search(b'boot:(0x[0-9a-fA-F]+)(.*waiting for download)?', read_bytes, re.DOTALL)
|
|
if data is not None:
|
|
boot_log_detected = True
|
|
boot_mode = data.group(1)
|
|
download_mode = data.group(2) is not None
|
|
|
|
for _ in range(5):
|
|
try:
|
|
self.flush_input()
|
|
self._port.flushOutput()
|
|
self.sync()
|
|
return None
|
|
except FatalError as e:
|
|
print('.', end='')
|
|
sys.stdout.flush()
|
|
time.sleep(0.05)
|
|
last_error = e
|
|
|
|
if boot_log_detected:
|
|
last_error = FatalError("Wrong boot mode detected ({})! The chip needs to be in download mode.".format(boot_mode.decode("utf-8")))
|
|
if download_mode:
|
|
last_error = FatalError("Download mode successfully detected, but getting no sync reply: The serial TX path seems to be down.")
|
|
return last_error
|
|
|
|
def get_memory_region(self, name):
|
|
""" Returns a tuple of (start, end) for the memory map entry with the given name, or None if it doesn't exist
|
|
"""
|
|
try:
|
|
return [(start, end) for (start, end, n) in self.MEMORY_MAP if n == name][0]
|
|
except IndexError:
|
|
return None
|
|
|
|
def connect(self, mode='default_reset', attempts=DEFAULT_CONNECT_ATTEMPTS, detecting=False, warnings=True):
|
|
""" Try connecting repeatedly until successful, or giving up """
|
|
if warnings and mode in ['no_reset', 'no_reset_no_sync']:
|
|
print('WARNING: Pre-connection option "{}" was selected.'.format(mode),
|
|
'Connection may fail if the chip is not in bootloader or flasher stub mode.')
|
|
print('Connecting...', end='')
|
|
sys.stdout.flush()
|
|
last_error = None
|
|
|
|
usb_jtag_serial = (mode == 'usb_reset') or (self._get_pid() == self.USB_JTAG_SERIAL_PID)
|
|
|
|
try:
|
|
for _, extra_delay in zip(range(attempts) if attempts > 0 else itertools.count(), itertools.cycle((False, True))):
|
|
last_error = self._connect_attempt(mode=mode, usb_jtag_serial=usb_jtag_serial, extra_delay=extra_delay)
|
|
if last_error is None:
|
|
break
|
|
finally:
|
|
print('') # end 'Connecting...' line
|
|
|
|
if last_error is not None:
|
|
raise FatalError('Failed to connect to {}: {}'
|
|
'\nFor troubleshooting steps visit: '
|
|
'https://docs.espressif.com/projects/esptool/en/latest/troubleshooting.html'.format(self.CHIP_NAME, last_error))
|
|
|
|
if not detecting:
|
|
try:
|
|
# check the date code registers match what we expect to see
|
|
chip_magic_value = self.read_reg(ESPLoader.CHIP_DETECT_MAGIC_REG_ADDR)
|
|
if chip_magic_value not in self.CHIP_DETECT_MAGIC_VALUE:
|
|
actually = None
|
|
for cls in [ESP8266ROM, ESP32ROM, ESP32S2ROM, ESP32S3BETA2ROM, ESP32S3ROM,
|
|
ESP32C3ROM, ESP32H2BETA1ROM, ESP32H2BETA2ROM, ESP32C2ROM, ESP32C6BETAROM]:
|
|
if chip_magic_value in cls.CHIP_DETECT_MAGIC_VALUE:
|
|
actually = cls
|
|
break
|
|
if warnings and actually is None:
|
|
print(("WARNING: This chip doesn't appear to be a %s (chip magic value 0x%08x). "
|
|
"Probably it is unsupported by this version of esptool.") % (self.CHIP_NAME, chip_magic_value))
|
|
else:
|
|
raise FatalError("This chip is %s not %s. Wrong --chip argument?" % (actually.CHIP_NAME, self.CHIP_NAME))
|
|
except UnsupportedCommandError:
|
|
self.secure_download_mode = True
|
|
self._post_connect()
|
|
self.check_chip_id()
|
|
|
|
def _post_connect(self):
|
|
"""
|
|
Additional initialization hook, may be overridden by the chip-specific class.
|
|
Gets called after connect, and after auto-detection.
|
|
"""
|
|
pass
|
|
|
|
def read_reg(self, addr, timeout=DEFAULT_TIMEOUT):
|
|
""" Read memory address in target """
|
|
# we don't call check_command here because read_reg() function is called
|
|
# when detecting chip type, and the way we check for success (STATUS_BYTES_LENGTH) is different
|
|
# for different chip types (!)
|
|
val, data = self.command(self.ESP_READ_REG, struct.pack('<I', addr), timeout=timeout)
|
|
if byte(data, 0) != 0:
|
|
raise FatalError.WithResult("Failed to read register address %08x" % addr, data)
|
|
return val
|
|
|
|
""" Write to memory address in target """
|
|
def write_reg(self, addr, value, mask=0xFFFFFFFF, delay_us=0, delay_after_us=0):
|
|
command = struct.pack('<IIII', addr, value, mask, delay_us)
|
|
if delay_after_us > 0:
|
|
# add a dummy write to a date register as an excuse to have a delay
|
|
command += struct.pack('<IIII', self.UART_DATE_REG_ADDR, 0, 0, delay_after_us)
|
|
|
|
return self.check_command("write target memory", self.ESP_WRITE_REG, command)
|
|
|
|
def update_reg(self, addr, mask, new_val):
|
|
""" Update register at 'addr', replace the bits masked out by 'mask'
|
|
with new_val. new_val is shifted left to match the LSB of 'mask'
|
|
|
|
Returns just-written value of register.
|
|
"""
|
|
shift = _mask_to_shift(mask)
|
|
val = self.read_reg(addr)
|
|
val &= ~mask
|
|
val |= (new_val << shift) & mask
|
|
self.write_reg(addr, val)
|
|
|
|
return val
|
|
|
|
""" Start downloading an application image to RAM """
|
|
def mem_begin(self, size, blocks, blocksize, offset):
|
|
if self.IS_STUB: # check we're not going to overwrite a running stub with this data
|
|
stub = self.STUB_CODE
|
|
load_start = offset
|
|
load_end = offset + size
|
|
for (start, end) in [(stub["data_start"], stub["data_start"] + len(stub["data"])),
|
|
(stub["text_start"], stub["text_start"] + len(stub["text"]))]:
|
|
if load_start < end and load_end > start:
|
|
raise FatalError(("Software loader is resident at 0x%08x-0x%08x. "
|
|
"Can't load binary at overlapping address range 0x%08x-0x%08x. "
|
|
"Either change binary loading address, or use the --no-stub "
|
|
"option to disable the software loader.") % (start, end, load_start, load_end))
|
|
|
|
return self.check_command("enter RAM download mode", self.ESP_MEM_BEGIN,
|
|
struct.pack('<IIII', size, blocks, blocksize, offset))
|
|
|
|
""" Send a block of an image to RAM """
|
|
def mem_block(self, data, seq):
|
|
return self.check_command("write to target RAM", self.ESP_MEM_DATA,
|
|
struct.pack('<IIII', len(data), seq, 0, 0) + data,
|
|
self.checksum(data))
|
|
|
|
""" Leave download mode and run the application """
|
|
def mem_finish(self, entrypoint=0):
|
|
# Sending ESP_MEM_END usually sends a correct response back, however sometimes
|
|
# (with ROM loader) the executed code may reset the UART or change the baud rate
|
|
# before the transmit FIFO is empty. So in these cases we set a short timeout and
|
|
# ignore errors.
|
|
timeout = DEFAULT_TIMEOUT if self.IS_STUB else MEM_END_ROM_TIMEOUT
|
|
data = struct.pack('<II', int(entrypoint == 0), entrypoint)
|
|
try:
|
|
return self.check_command("leave RAM download mode", self.ESP_MEM_END,
|
|
data=data, timeout=timeout)
|
|
except FatalError:
|
|
if self.IS_STUB:
|
|
raise
|
|
pass
|
|
|
|
""" Start downloading to Flash (performs an erase)
|
|
|
|
Returns number of blocks (of size self.FLASH_WRITE_SIZE) to write.
|
|
"""
|
|
def flash_begin(self, size, offset, begin_rom_encrypted=False):
|
|
num_blocks = (size + self.FLASH_WRITE_SIZE - 1) // self.FLASH_WRITE_SIZE
|
|
erase_size = self.get_erase_size(offset, size)
|
|
|
|
t = time.time()
|
|
if self.IS_STUB:
|
|
timeout = DEFAULT_TIMEOUT
|
|
else:
|
|
timeout = timeout_per_mb(ERASE_REGION_TIMEOUT_PER_MB, size) # ROM performs the erase up front
|
|
|
|
params = struct.pack('<IIII', erase_size, num_blocks, self.FLASH_WRITE_SIZE, offset)
|
|
if isinstance(self, (ESP32S2ROM, ESP32S3BETA2ROM, ESP32S3ROM, ESP32C3ROM,
|
|
ESP32C6BETAROM, ESP32H2BETA1ROM, ESP32C2ROM, ESP32H2BETA2ROM)) and not self.IS_STUB:
|
|
params += struct.pack('<I', 1 if begin_rom_encrypted else 0)
|
|
self.check_command("enter Flash download mode", self.ESP_FLASH_BEGIN,
|
|
params, timeout=timeout)
|
|
if size != 0 and not self.IS_STUB:
|
|
print("Took %.2fs to erase flash block" % (time.time() - t))
|
|
return num_blocks
|
|
|
|
def flash_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
|
|
"""Write block to flash, retry if fail"""
|
|
for attempts_left in range(WRITE_BLOCK_ATTEMPTS - 1, -1, -1):
|
|
try:
|
|
self.check_command(
|
|
"write to target Flash after seq %d" % seq,
|
|
self.ESP_FLASH_DATA,
|
|
struct.pack("<IIII", len(data), seq, 0, 0) + data,
|
|
self.checksum(data),
|
|
timeout=timeout,
|
|
)
|
|
break
|
|
except FatalError:
|
|
if attempts_left:
|
|
self.trace(
|
|
"Block write failed, "
|
|
"retrying with {} attempts left".format(attempts_left)
|
|
)
|
|
else:
|
|
raise
|
|
|
|
def flash_encrypt_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
|
|
"""Encrypt, write block to flash, retry if fail"""
|
|
if isinstance(self, (ESP32S2ROM, ESP32C3ROM, ESP32S3ROM, ESP32H2BETA1ROM, ESP32C2ROM, ESP32H2BETA2ROM)) and not self.IS_STUB:
|
|
# ROM support performs the encrypted writes via the normal write command,
|
|
# triggered by flash_begin(begin_rom_encrypted=True)
|
|
return self.flash_block(data, seq, timeout)
|
|
|
|
for attempts_left in range(WRITE_BLOCK_ATTEMPTS - 1, -1, -1):
|
|
try:
|
|
self.check_command(
|
|
"Write encrypted to target Flash after seq %d" % seq,
|
|
self.ESP_FLASH_ENCRYPT_DATA,
|
|
struct.pack("<IIII", len(data), seq, 0, 0) + data,
|
|
self.checksum(data),
|
|
timeout=timeout,
|
|
)
|
|
break
|
|
except FatalError:
|
|
if attempts_left:
|
|
self.trace(
|
|
"Encrypted block write failed, "
|
|
"retrying with {} attempts left".format(attempts_left)
|
|
)
|
|
else:
|
|
raise
|
|
|
|
""" Leave flash mode and run/reboot """
|
|
def flash_finish(self, reboot=False):
|
|
pkt = struct.pack('<I', int(not reboot))
|
|
# stub sends a reply to this command
|
|
self.check_command("leave Flash mode", self.ESP_FLASH_END, pkt)
|
|
|
|
""" Run application code in flash """
|
|
def run(self, reboot=False):
|
|
# Fake flash begin immediately followed by flash end
|
|
self.flash_begin(0, 0)
|
|
self.flash_finish(reboot)
|
|
|
|
""" Read SPI flash manufacturer and device id """
|
|
def flash_id(self):
|
|
SPIFLASH_RDID = 0x9F
|
|
return self.run_spiflash_command(SPIFLASH_RDID, b"", 24)
|
|
|
|
def get_security_info(self):
|
|
res = self.check_command('get security info', self.ESP_GET_SECURITY_INFO, b'')
|
|
esp32s2 = True if len(res) == 12 else False
|
|
res = struct.unpack("<IBBBBBBBB" if esp32s2 else "<IBBBBBBBBII", res)
|
|
return {
|
|
"flags": res[0],
|
|
"flash_crypt_cnt": res[1],
|
|
"key_purposes": res[2:9],
|
|
"chip_id": None if esp32s2 else res[9],
|
|
"api_version": None if esp32s2 else res[10],
|
|
}
|
|
|
|
@esp32s3_or_newer_function_only
|
|
def get_chip_id(self):
|
|
res = self.check_command('get security info', self.ESP_GET_SECURITY_INFO, b'')
|
|
res = struct.unpack("<IBBBBBBBBI", res[:16]) # 4b flags, 1b flash_crypt_cnt, 7*1b key_purposes, 4b chip_id
|
|
chip_id = res[9] # 2/4 status bytes invariant
|
|
return chip_id
|
|
|
|
@classmethod
|
|
def parse_flash_size_arg(cls, arg):
|
|
try:
|
|
return cls.FLASH_SIZES[arg]
|
|
except KeyError:
|
|
raise FatalError("Flash size '%s' is not supported by this chip type. Supported sizes: %s"
|
|
% (arg, ", ".join(cls.FLASH_SIZES.keys())))
|
|
|
|
@classmethod
|
|
def parse_flash_freq_arg(cls, arg):
|
|
try:
|
|
return cls.FLASH_FREQUENCY[arg]
|
|
except KeyError:
|
|
raise FatalError("Flash frequency '%s' is not supported by this chip type. Supported frequencies: %s"
|
|
% (arg, ", ".join(cls.FLASH_FREQUENCY.keys())))
|
|
|
|
def run_stub(self, stub=None):
|
|
if stub is None:
|
|
stub = self.STUB_CODE
|
|
|
|
if self.sync_stub_detected:
|
|
print("Stub is already running. No upload is necessary.")
|
|
return self.STUB_CLASS(self)
|
|
|
|
# Upload
|
|
print("Uploading stub...")
|
|
for field in ['text', 'data']:
|
|
if field in stub:
|
|
offs = stub[field + "_start"]
|
|
length = len(stub[field])
|
|
blocks = (length + self.ESP_RAM_BLOCK - 1) // self.ESP_RAM_BLOCK
|
|
self.mem_begin(length, blocks, self.ESP_RAM_BLOCK, offs)
|
|
for seq in range(blocks):
|
|
from_offs = seq * self.ESP_RAM_BLOCK
|
|
to_offs = from_offs + self.ESP_RAM_BLOCK
|
|
self.mem_block(stub[field][from_offs:to_offs], seq)
|
|
print("Running stub...")
|
|
self.mem_finish(stub['entry'])
|
|
|
|
p = self.read()
|
|
if p != b'OHAI':
|
|
raise FatalError("Failed to start stub. Unexpected response: %s" % p)
|
|
print("Stub running...")
|
|
return self.STUB_CLASS(self)
|
|
|
|
@stub_and_esp32_function_only
|
|
def flash_defl_begin(self, size, compsize, offset):
|
|
""" Start downloading compressed data to Flash (performs an erase)
|
|
|
|
Returns number of blocks (size self.FLASH_WRITE_SIZE) to write.
|
|
"""
|
|
num_blocks = (compsize + self.FLASH_WRITE_SIZE - 1) // self.FLASH_WRITE_SIZE
|
|
erase_blocks = (size + self.FLASH_WRITE_SIZE - 1) // self.FLASH_WRITE_SIZE
|
|
|
|
t = time.time()
|
|
if self.IS_STUB:
|
|
write_size = size # stub expects number of bytes here, manages erasing internally
|
|
timeout = DEFAULT_TIMEOUT
|
|
else:
|
|
write_size = erase_blocks * self.FLASH_WRITE_SIZE # ROM expects rounded up to erase block size
|
|
timeout = timeout_per_mb(ERASE_REGION_TIMEOUT_PER_MB, write_size) # ROM performs the erase up front
|
|
print("Compressed %d bytes to %d..." % (size, compsize))
|
|
params = struct.pack('<IIII', write_size, num_blocks, self.FLASH_WRITE_SIZE, offset)
|
|
if isinstance(self, (ESP32S2ROM, ESP32S3BETA2ROM, ESP32S3ROM, ESP32C3ROM,
|
|
ESP32C6BETAROM, ESP32H2BETA1ROM, ESP32C2ROM, ESP32H2BETA2ROM)) and not self.IS_STUB:
|
|
params += struct.pack('<I', 0) # extra param is to enter encrypted flash mode via ROM (not supported currently)
|
|
self.check_command("enter compressed flash mode", self.ESP_FLASH_DEFL_BEGIN, params, timeout=timeout)
|
|
if size != 0 and not self.IS_STUB:
|
|
# (stub erases as it writes, but ROM loaders erase on begin)
|
|
print("Took %.2fs to erase flash block" % (time.time() - t))
|
|
return num_blocks
|
|
|
|
@stub_and_esp32_function_only
|
|
def flash_defl_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
|
|
"""Write block to flash, send compressed, retry if fail"""
|
|
for attempts_left in range(WRITE_BLOCK_ATTEMPTS - 1, -1, -1):
|
|
try:
|
|
self.check_command(
|
|
"write compressed data to flash after seq %d" % seq,
|
|
self.ESP_FLASH_DEFL_DATA,
|
|
struct.pack("<IIII", len(data), seq, 0, 0) + data,
|
|
self.checksum(data),
|
|
timeout=timeout,
|
|
)
|
|
break
|
|
except FatalError:
|
|
if attempts_left:
|
|
self.trace(
|
|
"Compressed block write failed, "
|
|
"retrying with {} attempts left".format(attempts_left)
|
|
)
|
|
else:
|
|
raise
|
|
|
|
""" Leave compressed flash mode and run/reboot """
|
|
@stub_and_esp32_function_only
|
|
def flash_defl_finish(self, reboot=False):
|
|
if not reboot and not self.IS_STUB:
|
|
# skip sending flash_finish to ROM loader, as this
|
|
# exits the bootloader. Stub doesn't do this.
|
|
return
|
|
pkt = struct.pack('<I', int(not reboot))
|
|
self.check_command("leave compressed flash mode", self.ESP_FLASH_DEFL_END, pkt)
|
|
self.in_bootloader = False
|
|
|
|
@stub_and_esp32_function_only
|
|
def flash_md5sum(self, addr, size):
|
|
# the MD5 command returns additional bytes in the standard
|
|
# command reply slot
|
|
timeout = timeout_per_mb(MD5_TIMEOUT_PER_MB, size)
|
|
res = self.check_command('calculate md5sum', self.ESP_SPI_FLASH_MD5, struct.pack('<IIII', addr, size, 0, 0),
|
|
timeout=timeout)
|
|
|
|
if len(res) == 32:
|
|
return res.decode("utf-8") # already hex formatted
|
|
elif len(res) == 16:
|
|
return hexify(res).lower()
|
|
else:
|
|
raise FatalError("MD5Sum command returned unexpected result: %r" % res)
|
|
|
|
@stub_and_esp32_function_only
|
|
def change_baud(self, baud):
|
|
print("Changing baud rate to %d" % baud)
|
|
# stub takes the new baud rate and the old one
|
|
second_arg = self._port.baudrate if self.IS_STUB else 0
|
|
self.command(self.ESP_CHANGE_BAUDRATE, struct.pack('<II', baud, second_arg))
|
|
print("Changed.")
|
|
self._set_port_baudrate(baud)
|
|
time.sleep(0.05) # get rid of crap sent during baud rate change
|
|
self.flush_input()
|
|
|
|
@stub_function_only
|
|
def erase_flash(self):
|
|
# depending on flash chip model the erase may take this long (maybe longer!)
|
|
self.check_command("erase flash", self.ESP_ERASE_FLASH,
|
|
timeout=CHIP_ERASE_TIMEOUT)
|
|
|
|
@stub_function_only
|
|
def erase_region(self, offset, size):
|
|
if offset % self.FLASH_SECTOR_SIZE != 0:
|
|
raise FatalError("Offset to erase from must be a multiple of 4096")
|
|
if size % self.FLASH_SECTOR_SIZE != 0:
|
|
raise FatalError("Size of data to erase must be a multiple of 4096")
|
|
timeout = timeout_per_mb(ERASE_REGION_TIMEOUT_PER_MB, size)
|
|
self.check_command("erase region", self.ESP_ERASE_REGION, struct.pack('<II', offset, size), timeout=timeout)
|
|
|
|
def read_flash_slow(self, offset, length, progress_fn):
|
|
raise NotImplementedInROMError(self, self.read_flash_slow)
|
|
|
|
def read_flash(self, offset, length, progress_fn=None):
|
|
if not self.IS_STUB:
|
|
return self.read_flash_slow(offset, length, progress_fn) # ROM-only routine
|
|
|
|
# issue a standard bootloader command to trigger the read
|
|
self.check_command("read flash", self.ESP_READ_FLASH,
|
|
struct.pack('<IIII',
|
|
offset,
|
|
length,
|
|
self.FLASH_SECTOR_SIZE,
|
|
64))
|
|
# now we expect (length // block_size) SLIP frames with the data
|
|
data = b''
|
|
while len(data) < length:
|
|
p = self.read()
|
|
data += p
|
|
if len(data) < length and len(p) < self.FLASH_SECTOR_SIZE:
|
|
raise FatalError('Corrupt data, expected 0x%x bytes but received 0x%x bytes' % (self.FLASH_SECTOR_SIZE, len(p)))
|
|
self.write(struct.pack('<I', len(data)))
|
|
if progress_fn and (len(data) % 1024 == 0 or len(data) == length):
|
|
progress_fn(len(data), length)
|
|
if progress_fn:
|
|
progress_fn(len(data), length)
|
|
if len(data) > length:
|
|
raise FatalError('Read more than expected')
|
|
|
|
digest_frame = self.read()
|
|
if len(digest_frame) != 16:
|
|
raise FatalError('Expected digest, got: %s' % hexify(digest_frame))
|
|
expected_digest = hexify(digest_frame).upper()
|
|
digest = hashlib.md5(data).hexdigest().upper()
|
|
if digest != expected_digest:
|
|
raise FatalError('Digest mismatch: expected %s, got %s' % (expected_digest, digest))
|
|
return data
|
|
|
|
def flash_spi_attach(self, hspi_arg):
|
|
"""Send SPI attach command to enable the SPI flash pins
|
|
|
|
ESP8266 ROM does this when you send flash_begin, ESP32 ROM
|
|
has it as a SPI command.
|
|
"""
|
|
# last 3 bytes in ESP_SPI_ATTACH argument are reserved values
|
|
arg = struct.pack('<I', hspi_arg)
|
|
if not self.IS_STUB:
|
|
# ESP32 ROM loader takes additional 'is legacy' arg, which is not
|
|
# currently supported in the stub loader or esptool.py (as it's not usually needed.)
|
|
is_legacy = 0
|
|
arg += struct.pack('BBBB', is_legacy, 0, 0, 0)
|
|
self.check_command("configure SPI flash pins", ESP32ROM.ESP_SPI_ATTACH, arg)
|
|
|
|
def flash_set_parameters(self, size):
|
|
"""Tell the ESP bootloader the parameters of the chip
|
|
|
|
Corresponds to the "flashchip" data structure that the ROM
|
|
has in RAM.
|
|
|
|
'size' is in bytes.
|
|
|
|
All other flash parameters are currently hardcoded (on ESP8266
|
|
these are mostly ignored by ROM code, on ESP32 I'm not sure.)
|
|
"""
|
|
fl_id = 0
|
|
total_size = size
|
|
block_size = 64 * 1024
|
|
sector_size = 4 * 1024
|
|
page_size = 256
|
|
status_mask = 0xffff
|
|
self.check_command("set SPI params", ESP32ROM.ESP_SPI_SET_PARAMS,
|
|
struct.pack('<IIIIII', fl_id, total_size, block_size, sector_size, page_size, status_mask))
|
|
|
|
def run_spiflash_command(self, spiflash_command, data=b"", read_bits=0, addr=None, addr_len=0, dummy_len=0):
|
|
"""Run an arbitrary SPI flash command.
|
|
|
|
This function uses the "USR_COMMAND" functionality in the ESP
|
|
SPI hardware, rather than the precanned commands supported by
|
|
hardware. So the value of spiflash_command is an actual command
|
|
byte, sent over the wire.
|
|
|
|
After writing command byte, writes 'data' to MOSI and then
|
|
reads back 'read_bits' of reply on MISO. Result is a number.
|
|
"""
|
|
|
|
# SPI_USR register flags
|
|
SPI_USR_COMMAND = (1 << 31)
|
|
SPI_USR_ADDR = (1 << 30)
|
|
SPI_USR_DUMMY = (1 << 29)
|
|
SPI_USR_MISO = (1 << 28)
|
|
SPI_USR_MOSI = (1 << 27)
|
|
|
|
# SPI registers, base address differs ESP32* vs 8266
|
|
base = self.SPI_REG_BASE
|
|
SPI_CMD_REG = base + 0x00
|
|
SPI_ADDR_REG = base + 0x04
|
|
SPI_USR_REG = base + self.SPI_USR_OFFS
|
|
SPI_USR1_REG = base + self.SPI_USR1_OFFS
|
|
SPI_USR2_REG = base + self.SPI_USR2_OFFS
|
|
SPI_W0_REG = base + self.SPI_W0_OFFS
|
|
|
|
# following two registers are ESP32 and later chips only
|
|
if self.SPI_MOSI_DLEN_OFFS is not None:
|
|
# ESP32 and later chips have a more sophisticated way to set up "user" commands
|
|
def set_data_lengths(mosi_bits, miso_bits):
|
|
SPI_MOSI_DLEN_REG = base + self.SPI_MOSI_DLEN_OFFS
|
|
SPI_MISO_DLEN_REG = base + self.SPI_MISO_DLEN_OFFS
|
|
if mosi_bits > 0:
|
|
self.write_reg(SPI_MOSI_DLEN_REG, mosi_bits - 1)
|
|
if miso_bits > 0:
|
|
self.write_reg(SPI_MISO_DLEN_REG, miso_bits - 1)
|
|
flags = 0
|
|
if dummy_len > 0:
|
|
flags |= (dummy_len - 1)
|
|
if addr_len > 0:
|
|
flags |= (addr_len - 1) << SPI_USR_ADDR_LEN_SHIFT
|
|
if flags:
|
|
self.write_reg(SPI_USR1_REG, flags)
|
|
else:
|
|
def set_data_lengths(mosi_bits, miso_bits):
|
|
SPI_DATA_LEN_REG = SPI_USR1_REG
|
|
SPI_MOSI_BITLEN_S = 17
|
|
SPI_MISO_BITLEN_S = 8
|
|
mosi_mask = 0 if (mosi_bits == 0) else (mosi_bits - 1)
|
|
miso_mask = 0 if (miso_bits == 0) else (miso_bits - 1)
|
|
flags = (miso_mask << SPI_MISO_BITLEN_S) | (mosi_mask << SPI_MOSI_BITLEN_S)
|
|
if dummy_len > 0:
|
|
flags |= (dummy_len - 1)
|
|
if addr_len > 0:
|
|
flags |= (addr_len - 1) << SPI_USR_ADDR_LEN_SHIFT
|
|
self.write_reg(SPI_DATA_LEN_REG, flags)
|
|
|
|
# SPI peripheral "command" bitmasks for SPI_CMD_REG
|
|
SPI_CMD_USR = (1 << 18)
|
|
|
|
# shift values
|
|
SPI_USR2_COMMAND_LEN_SHIFT = 28
|
|
SPI_USR_ADDR_LEN_SHIFT = 26
|
|
|
|
if read_bits > 32:
|
|
raise FatalError("Reading more than 32 bits back from a SPI flash operation is unsupported")
|
|
if len(data) > 64:
|
|
raise FatalError("Writing more than 64 bytes of data with one SPI command is unsupported")
|
|
|
|
data_bits = len(data) * 8
|
|
old_spi_usr = self.read_reg(SPI_USR_REG)
|
|
old_spi_usr2 = self.read_reg(SPI_USR2_REG)
|
|
flags = SPI_USR_COMMAND
|
|
if read_bits > 0:
|
|
flags |= SPI_USR_MISO
|
|
if data_bits > 0:
|
|
flags |= SPI_USR_MOSI
|
|
if addr_len > 0:
|
|
flags |= SPI_USR_ADDR
|
|
if dummy_len > 0:
|
|
flags |= SPI_USR_DUMMY
|
|
set_data_lengths(data_bits, read_bits)
|
|
self.write_reg(SPI_USR_REG, flags)
|
|
self.write_reg(SPI_USR2_REG,
|
|
(7 << SPI_USR2_COMMAND_LEN_SHIFT) | spiflash_command)
|
|
if addr and addr_len > 0:
|
|
self.write_reg(SPI_ADDR_REG, addr)
|
|
if data_bits == 0:
|
|
self.write_reg(SPI_W0_REG, 0) # clear data register before we read it
|
|
else:
|
|
data = pad_to(data, 4, b'\00') # pad to 32-bit multiple
|
|
words = struct.unpack("I" * (len(data) // 4), data)
|
|
next_reg = SPI_W0_REG
|
|
for word in words:
|
|
self.write_reg(next_reg, word)
|
|
next_reg += 4
|
|
self.write_reg(SPI_CMD_REG, SPI_CMD_USR)
|
|
|
|
def wait_done():
|
|
for _ in range(10):
|
|
if (self.read_reg(SPI_CMD_REG) & SPI_CMD_USR) == 0:
|
|
return
|
|
raise FatalError("SPI command did not complete in time")
|
|
wait_done()
|
|
|
|
status = self.read_reg(SPI_W0_REG)
|
|
# restore some SPI controller registers
|
|
self.write_reg(SPI_USR_REG, old_spi_usr)
|
|
self.write_reg(SPI_USR2_REG, old_spi_usr2)
|
|
return status
|
|
|
|
def read_spiflash_sfdp(self, addr, read_bits):
|
|
CMD_RDSFDP = 0x5A
|
|
return self.run_spiflash_command(CMD_RDSFDP, read_bits=read_bits, addr=addr, addr_len=24, dummy_len=8)
|
|
|
|
def read_status(self, num_bytes=2):
|
|
"""Read up to 24 bits (num_bytes) of SPI flash status register contents
|
|
via RDSR, RDSR2, RDSR3 commands
|
|
|
|
Not all SPI flash supports all three commands. The upper 1 or 2
|
|
bytes may be 0xFF.
|
|
"""
|
|
SPIFLASH_RDSR = 0x05
|
|
SPIFLASH_RDSR2 = 0x35
|
|
SPIFLASH_RDSR3 = 0x15
|
|
|
|
status = 0
|
|
shift = 0
|
|
for cmd in [SPIFLASH_RDSR, SPIFLASH_RDSR2, SPIFLASH_RDSR3][0:num_bytes]:
|
|
status += self.run_spiflash_command(cmd, read_bits=8) << shift
|
|
shift += 8
|
|
return status
|
|
|
|
def write_status(self, new_status, num_bytes=2, set_non_volatile=False):
|
|
"""Write up to 24 bits (num_bytes) of new status register
|
|
|
|
num_bytes can be 1, 2 or 3.
|
|
|
|
Not all flash supports the additional commands to write the
|
|
second and third byte of the status register. When writing 2
|
|
bytes, esptool also sends a 16-byte WRSR command (as some
|
|
flash types use this instead of WRSR2.)
|
|
|
|
If the set_non_volatile flag is set, non-volatile bits will
|
|
be set as well as volatile ones (WREN used instead of WEVSR).
|
|
|
|
"""
|
|
SPIFLASH_WRSR = 0x01
|
|
SPIFLASH_WRSR2 = 0x31
|
|
SPIFLASH_WRSR3 = 0x11
|
|
SPIFLASH_WEVSR = 0x50
|
|
SPIFLASH_WREN = 0x06
|
|
SPIFLASH_WRDI = 0x04
|
|
|
|
enable_cmd = SPIFLASH_WREN if set_non_volatile else SPIFLASH_WEVSR
|
|
|
|
# try using a 16-bit WRSR (not supported by all chips)
|
|
# this may be redundant, but shouldn't hurt
|
|
if num_bytes == 2:
|
|
self.run_spiflash_command(enable_cmd)
|
|
self.run_spiflash_command(SPIFLASH_WRSR, struct.pack("<H", new_status))
|
|
|
|
# also try using individual commands (also not supported by all chips for num_bytes 2 & 3)
|
|
for cmd in [SPIFLASH_WRSR, SPIFLASH_WRSR2, SPIFLASH_WRSR3][0:num_bytes]:
|
|
self.run_spiflash_command(enable_cmd)
|
|
self.run_spiflash_command(cmd, struct.pack("B", new_status & 0xFF))
|
|
new_status >>= 8
|
|
|
|
self.run_spiflash_command(SPIFLASH_WRDI)
|
|
|
|
def get_crystal_freq(self):
|
|
# Figure out the crystal frequency from the UART clock divider
|
|
# Returns a normalized value in integer MHz (40 or 26 are the only supported values)
|
|
#
|
|
# The logic here is:
|
|
# - We know that our baud rate and the ESP UART baud rate are roughly the same, or we couldn't communicate
|
|
# - We can read the UART clock divider register to know how the ESP derives this from the APB bus frequency
|
|
# - Multiplying these two together gives us the bus frequency which is either the crystal frequency (ESP32)
|
|
# or double the crystal frequency (ESP8266). See the self.XTAL_CLK_DIVIDER parameter for this factor.
|
|
uart_div = self.read_reg(self.UART_CLKDIV_REG) & self.UART_CLKDIV_MASK
|
|
est_xtal = (self._port.baudrate * uart_div) / 1e6 / self.XTAL_CLK_DIVIDER
|
|
norm_xtal = 40 if est_xtal > 33 else 26
|
|
if abs(norm_xtal - est_xtal) > 1:
|
|
print("WARNING: Detected crystal freq %.2fMHz is quite different to normalized freq %dMHz. Unsupported crystal in use?" % (est_xtal, norm_xtal))
|
|
return norm_xtal
|
|
|
|
def hard_reset(self):
|
|
print('Hard resetting via RTS pin...')
|
|
self._setRTS(True) # EN->LOW
|
|
time.sleep(0.1)
|
|
self._setRTS(False)
|
|
|
|
def soft_reset(self, stay_in_bootloader):
|
|
if not self.IS_STUB:
|
|
if stay_in_bootloader:
|
|
return # ROM bootloader is already in bootloader!
|
|
else:
|
|
# 'run user code' is as close to a soft reset as we can do
|
|
self.flash_begin(0, 0)
|
|
self.flash_finish(False)
|
|
else:
|
|
if stay_in_bootloader:
|
|
# soft resetting from the stub loader
|
|
# will re-load the ROM bootloader
|
|
self.flash_begin(0, 0)
|
|
self.flash_finish(True)
|
|
elif self.CHIP_NAME != "ESP8266":
|
|
raise FatalError("Soft resetting is currently only supported on ESP8266")
|
|
else:
|
|
# running user code from stub loader requires some hacks
|
|
# in the stub loader
|
|
self.command(self.ESP_RUN_USER_CODE, wait_response=False)
|
|
|
|
def check_chip_id(self):
|
|
try:
|
|
chip_id = self.get_chip_id()
|
|
if chip_id != self.IMAGE_CHIP_ID:
|
|
print("WARNING: Chip ID {} ({}) doesn't match expected Chip ID {}. esptool may not work correctly."
|
|
.format(chip_id, self.UNSUPPORTED_CHIPS.get(chip_id, 'Unknown'), self.IMAGE_CHIP_ID))
|
|
# Try to flash anyways by disabling stub
|
|
self.stub_is_disabled = True
|
|
except NotImplementedInROMError:
|
|
pass
|
|
|
|
|
|
class ESP8266ROM(ESPLoader):
|
|
""" Access class for ESP8266 ROM bootloader
|
|
"""
|
|
CHIP_NAME = "ESP8266"
|
|
IS_STUB = False
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0xfff0c101]
|
|
|
|
# OTP ROM addresses
|
|
ESP_OTP_MAC0 = 0x3ff00050
|
|
ESP_OTP_MAC1 = 0x3ff00054
|
|
ESP_OTP_MAC3 = 0x3ff0005c
|
|
|
|
SPI_REG_BASE = 0x60000200
|
|
SPI_USR_OFFS = 0x1c
|
|
SPI_USR1_OFFS = 0x20
|
|
SPI_USR2_OFFS = 0x24
|
|
SPI_MOSI_DLEN_OFFS = None
|
|
SPI_MISO_DLEN_OFFS = None
|
|
SPI_W0_OFFS = 0x40
|
|
|
|
UART_CLKDIV_REG = 0x60000014
|
|
|
|
XTAL_CLK_DIVIDER = 2
|
|
|
|
FLASH_SIZES = {
|
|
'512KB': 0x00,
|
|
'256KB': 0x10,
|
|
'1MB': 0x20,
|
|
'2MB': 0x30,
|
|
'4MB': 0x40,
|
|
'2MB-c1': 0x50,
|
|
'4MB-c1': 0x60,
|
|
'8MB': 0x80,
|
|
'16MB': 0x90,
|
|
}
|
|
|
|
FLASH_FREQUENCY = {
|
|
'80m': 0xf,
|
|
'40m': 0x0,
|
|
'26m': 0x1,
|
|
'20m': 0x2,
|
|
}
|
|
|
|
BOOTLOADER_FLASH_OFFSET = 0
|
|
|
|
MEMORY_MAP = [[0x3FF00000, 0x3FF00010, "DPORT"],
|
|
[0x3FFE8000, 0x40000000, "DRAM"],
|
|
[0x40100000, 0x40108000, "IRAM"],
|
|
[0x40201010, 0x402E1010, "IROM"]]
|
|
|
|
def get_efuses(self):
|
|
# Return the 128 bits of ESP8266 efuse as a single Python integer
|
|
result = self.read_reg(0x3ff0005c) << 96
|
|
result |= self.read_reg(0x3ff00058) << 64
|
|
result |= self.read_reg(0x3ff00054) << 32
|
|
result |= self.read_reg(0x3ff00050)
|
|
return result
|
|
|
|
def _get_flash_size(self, efuses):
|
|
# rX_Y = EFUSE_DATA_OUTX[Y]
|
|
r0_4 = (efuses & (1 << 4)) != 0
|
|
r3_25 = (efuses & (1 << 121)) != 0
|
|
r3_26 = (efuses & (1 << 122)) != 0
|
|
r3_27 = (efuses & (1 << 123)) != 0
|
|
|
|
if r0_4 and not r3_25:
|
|
if not r3_27 and not r3_26:
|
|
return 1
|
|
elif not r3_27 and r3_26:
|
|
return 2
|
|
if not r0_4 and r3_25:
|
|
if not r3_27 and not r3_26:
|
|
return 2
|
|
elif not r3_27 and r3_26:
|
|
return 4
|
|
return -1
|
|
|
|
def get_chip_description(self):
|
|
efuses = self.get_efuses()
|
|
is_8285 = (efuses & ((1 << 4) | 1 << 80)) != 0 # One or the other efuse bit is set for ESP8285
|
|
if is_8285:
|
|
flash_size = self._get_flash_size(efuses)
|
|
max_temp = (efuses & (1 << 5)) != 0 # This efuse bit identifies the max flash temperature
|
|
chip_name = {
|
|
1: "ESP8285H08" if max_temp else "ESP8285N08",
|
|
2: "ESP8285H16" if max_temp else "ESP8285N16"
|
|
}.get(flash_size, "ESP8285")
|
|
return chip_name
|
|
return "ESP8266EX"
|
|
|
|
def get_chip_features(self):
|
|
features = ["WiFi"]
|
|
if "ESP8285" in self.get_chip_description():
|
|
features += ["Embedded Flash"]
|
|
return features
|
|
|
|
def flash_spi_attach(self, hspi_arg):
|
|
if self.IS_STUB:
|
|
super(ESP8266ROM, self).flash_spi_attach(hspi_arg)
|
|
else:
|
|
# ESP8266 ROM has no flash_spi_attach command in serial protocol,
|
|
# but flash_begin will do it
|
|
self.flash_begin(0, 0)
|
|
|
|
def flash_set_parameters(self, size):
|
|
# not implemented in ROM, but OK to silently skip for ROM
|
|
if self.IS_STUB:
|
|
super(ESP8266ROM, self).flash_set_parameters(size)
|
|
|
|
def chip_id(self):
|
|
""" Read Chip ID from efuse - the equivalent of the SDK system_get_chip_id() function """
|
|
id0 = self.read_reg(self.ESP_OTP_MAC0)
|
|
id1 = self.read_reg(self.ESP_OTP_MAC1)
|
|
return (id0 >> 24) | ((id1 & MAX_UINT24) << 8)
|
|
|
|
def read_mac(self):
|
|
""" Read MAC from OTP ROM """
|
|
mac0 = self.read_reg(self.ESP_OTP_MAC0)
|
|
mac1 = self.read_reg(self.ESP_OTP_MAC1)
|
|
mac3 = self.read_reg(self.ESP_OTP_MAC3)
|
|
if (mac3 != 0):
|
|
oui = ((mac3 >> 16) & 0xff, (mac3 >> 8) & 0xff, mac3 & 0xff)
|
|
elif ((mac1 >> 16) & 0xff) == 0:
|
|
oui = (0x18, 0xfe, 0x34)
|
|
elif ((mac1 >> 16) & 0xff) == 1:
|
|
oui = (0xac, 0xd0, 0x74)
|
|
else:
|
|
raise FatalError("Unknown OUI")
|
|
return oui + ((mac1 >> 8) & 0xff, mac1 & 0xff, (mac0 >> 24) & 0xff)
|
|
|
|
def get_erase_size(self, offset, size):
|
|
""" Calculate an erase size given a specific size in bytes.
|
|
|
|
Provides a workaround for the bootloader erase bug."""
|
|
|
|
sectors_per_block = 16
|
|
sector_size = self.FLASH_SECTOR_SIZE
|
|
num_sectors = (size + sector_size - 1) // sector_size
|
|
start_sector = offset // sector_size
|
|
|
|
head_sectors = sectors_per_block - (start_sector % sectors_per_block)
|
|
if num_sectors < head_sectors:
|
|
head_sectors = num_sectors
|
|
|
|
if num_sectors < 2 * head_sectors:
|
|
return (num_sectors + 1) // 2 * sector_size
|
|
else:
|
|
return (num_sectors - head_sectors) * sector_size
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
raise NotImplementedInROMError("Overriding VDDSDIO setting only applies to ESP32")
|
|
|
|
|
|
class ESP8266StubLoader(ESP8266ROM):
|
|
""" Access class for ESP8266 stub loader, runs on top of ROM.
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
def get_erase_size(self, offset, size):
|
|
return size # stub doesn't have same size bug as ROM loader
|
|
|
|
|
|
ESP8266ROM.STUB_CLASS = ESP8266StubLoader
|
|
|
|
|
|
class ESP32ROM(ESPLoader):
|
|
"""Access class for ESP32 ROM bootloader
|
|
|
|
"""
|
|
CHIP_NAME = "ESP32"
|
|
IMAGE_CHIP_ID = 0
|
|
IS_STUB = False
|
|
|
|
FPGA_SLOW_BOOT = True
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0x00f01d83]
|
|
|
|
IROM_MAP_START = 0x400d0000
|
|
IROM_MAP_END = 0x40400000
|
|
|
|
DROM_MAP_START = 0x3F400000
|
|
DROM_MAP_END = 0x3F800000
|
|
|
|
# ESP32 uses a 4 byte status reply
|
|
STATUS_BYTES_LENGTH = 4
|
|
|
|
SPI_REG_BASE = 0x3ff42000
|
|
SPI_USR_OFFS = 0x1c
|
|
SPI_USR1_OFFS = 0x20
|
|
SPI_USR2_OFFS = 0x24
|
|
SPI_MOSI_DLEN_OFFS = 0x28
|
|
SPI_MISO_DLEN_OFFS = 0x2c
|
|
EFUSE_RD_REG_BASE = 0x3ff5a000
|
|
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG = EFUSE_RD_REG_BASE + 0x18
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT = (1 << 7) # EFUSE_RD_DISABLE_DL_ENCRYPT
|
|
|
|
DR_REG_SYSCON_BASE = 0x3ff66000
|
|
APB_CTL_DATE_ADDR = DR_REG_SYSCON_BASE + 0x7C
|
|
APB_CTL_DATE_V = 0x1
|
|
APB_CTL_DATE_S = 31
|
|
|
|
SPI_W0_OFFS = 0x80
|
|
|
|
UART_CLKDIV_REG = 0x3ff40014
|
|
|
|
XTAL_CLK_DIVIDER = 1
|
|
|
|
FLASH_SIZES = {
|
|
'1MB': 0x00,
|
|
'2MB': 0x10,
|
|
'4MB': 0x20,
|
|
'8MB': 0x30,
|
|
'16MB': 0x40,
|
|
'32MB': 0x50,
|
|
'64MB': 0x60,
|
|
'128MB': 0x70
|
|
}
|
|
|
|
FLASH_FREQUENCY = {
|
|
'80m': 0xf,
|
|
'40m': 0x0,
|
|
'26m': 0x1,
|
|
'20m': 0x2,
|
|
}
|
|
|
|
BOOTLOADER_FLASH_OFFSET = 0x1000
|
|
|
|
OVERRIDE_VDDSDIO_CHOICES = ["1.8V", "1.9V", "OFF"]
|
|
|
|
MEMORY_MAP = [[0x00000000, 0x00010000, "PADDING"],
|
|
[0x3F400000, 0x3F800000, "DROM"],
|
|
[0x3F800000, 0x3FC00000, "EXTRAM_DATA"],
|
|
[0x3FF80000, 0x3FF82000, "RTC_DRAM"],
|
|
[0x3FF90000, 0x40000000, "BYTE_ACCESSIBLE"],
|
|
[0x3FFAE000, 0x40000000, "DRAM"],
|
|
[0x3FFE0000, 0x3FFFFFFC, "DIRAM_DRAM"],
|
|
[0x40000000, 0x40070000, "IROM"],
|
|
[0x40070000, 0x40078000, "CACHE_PRO"],
|
|
[0x40078000, 0x40080000, "CACHE_APP"],
|
|
[0x40080000, 0x400A0000, "IRAM"],
|
|
[0x400A0000, 0x400BFFFC, "DIRAM_IRAM"],
|
|
[0x400C0000, 0x400C2000, "RTC_IRAM"],
|
|
[0x400D0000, 0x40400000, "IROM"],
|
|
[0x50000000, 0x50002000, "RTC_DATA"]]
|
|
|
|
FLASH_ENCRYPTED_WRITE_ALIGN = 32
|
|
|
|
""" Try to read the BLOCK1 (encryption key) and check if it is valid """
|
|
|
|
def is_flash_encryption_key_valid(self):
|
|
|
|
""" Bit 0 of efuse_rd_disable[3:0] is mapped to BLOCK1
|
|
this bit is at position 16 in EFUSE_BLK0_RDATA0_REG """
|
|
word0 = self.read_efuse(0)
|
|
rd_disable = (word0 >> 16) & 0x1
|
|
|
|
# reading of BLOCK1 is NOT ALLOWED so we assume valid key is programmed
|
|
if rd_disable:
|
|
return True
|
|
else:
|
|
# reading of BLOCK1 is ALLOWED so we will read and verify for non-zero.
|
|
# When ESP32 has not generated AES/encryption key in BLOCK1, the contents will be readable and 0.
|
|
# If the flash encryption is enabled it is expected to have a valid non-zero key. We break out on
|
|
# first occurance of non-zero value
|
|
key_word = [0] * 7
|
|
for i in range(len(key_word)):
|
|
key_word[i] = self.read_efuse(14 + i)
|
|
# key is non-zero so break & return
|
|
if key_word[i] != 0:
|
|
return True
|
|
return False
|
|
|
|
def get_flash_crypt_config(self):
|
|
""" For flash encryption related commands we need to make sure
|
|
user has programmed all the relevant efuse correctly so before
|
|
writing encrypted write_flash_encrypt esptool will verify the values
|
|
of flash_crypt_config to be non zero if they are not read
|
|
protected. If the values are zero a warning will be printed
|
|
|
|
bit 3 in efuse_rd_disable[3:0] is mapped to flash_crypt_config
|
|
this bit is at position 19 in EFUSE_BLK0_RDATA0_REG """
|
|
word0 = self.read_efuse(0)
|
|
rd_disable = (word0 >> 19) & 0x1
|
|
|
|
if rd_disable == 0:
|
|
""" we can read the flash_crypt_config efuse value
|
|
so go & read it (EFUSE_BLK0_RDATA5_REG[31:28]) """
|
|
word5 = self.read_efuse(5)
|
|
word5 = (word5 >> 28) & 0xF
|
|
return word5
|
|
else:
|
|
# if read of the efuse is disabled we assume it is set correctly
|
|
return 0xF
|
|
|
|
def get_encrypted_download_disabled(self):
|
|
if self.read_reg(self.EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG) & self.EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
def get_pkg_version(self):
|
|
word3 = self.read_efuse(3)
|
|
pkg_version = (word3 >> 9) & 0x07
|
|
pkg_version += ((word3 >> 2) & 0x1) << 3
|
|
return pkg_version
|
|
|
|
# Returns new version format based on major and minor versions
|
|
def get_chip_full_revision(self):
|
|
return self.get_major_chip_version() * 100 + self.get_minor_chip_version()
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return self.get_major_chip_version()
|
|
|
|
def get_minor_chip_version(self):
|
|
return (self.read_efuse(5) >> 24) & 0x3
|
|
|
|
def get_major_chip_version(self):
|
|
rev_bit0 = (self.read_efuse(3) >> 15) & 0x1
|
|
rev_bit1 = (self.read_efuse(5) >> 20) & 0x1
|
|
apb_ctl_date = self.read_reg(self.APB_CTL_DATE_ADDR)
|
|
rev_bit2 = (apb_ctl_date >> self.APB_CTL_DATE_S) & self.APB_CTL_DATE_V
|
|
combine_value = (rev_bit2 << 2) | (rev_bit1 << 1) | rev_bit0
|
|
|
|
revision = {
|
|
0: 0,
|
|
1: 1,
|
|
3: 2,
|
|
7: 3,
|
|
}.get(combine_value, 0)
|
|
return revision
|
|
|
|
def get_chip_description(self):
|
|
pkg_version = self.get_pkg_version()
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
rev3 = major_rev == 3
|
|
single_core = self.read_efuse(3) & (1 << 0) # CHIP_VER DIS_APP_CPU
|
|
|
|
chip_name = {
|
|
0: "ESP32-S0WDQ6" if single_core else "ESP32-D0WDQ6",
|
|
1: "ESP32-S0WD" if single_core else "ESP32-D0WD",
|
|
2: "ESP32-D2WD",
|
|
4: "ESP32-U4WDH",
|
|
5: "ESP32-PICO-V3" if rev3 else "ESP32-PICO-D4",
|
|
6: "ESP32-PICO-V3-02",
|
|
7: "ESP32-D0WDR2-V3",
|
|
}.get(pkg_version, "unknown ESP32")
|
|
|
|
# ESP32-D0WD-V3, ESP32-D0WDQ6-V3
|
|
if chip_name.startswith("ESP32-D0WD") and rev3:
|
|
chip_name += "-V3"
|
|
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
def get_chip_features(self):
|
|
features = ["WiFi"]
|
|
word3 = self.read_efuse(3)
|
|
|
|
# names of variables in this section are lowercase
|
|
# versions of EFUSE names as documented in TRM and
|
|
# ESP-IDF efuse_reg.h
|
|
|
|
chip_ver_dis_bt = word3 & (1 << 1)
|
|
if chip_ver_dis_bt == 0:
|
|
features += ["BT"]
|
|
|
|
chip_ver_dis_app_cpu = word3 & (1 << 0)
|
|
if chip_ver_dis_app_cpu:
|
|
features += ["Single Core"]
|
|
else:
|
|
features += ["Dual Core"]
|
|
|
|
chip_cpu_freq_rated = word3 & (1 << 13)
|
|
if chip_cpu_freq_rated:
|
|
chip_cpu_freq_low = word3 & (1 << 12)
|
|
if chip_cpu_freq_low:
|
|
features += ["160MHz"]
|
|
else:
|
|
features += ["240MHz"]
|
|
|
|
pkg_version = self.get_pkg_version()
|
|
if pkg_version in [2, 4, 5, 6]:
|
|
features += ["Embedded Flash"]
|
|
|
|
if pkg_version == 6:
|
|
features += ["Embedded PSRAM"]
|
|
|
|
word4 = self.read_efuse(4)
|
|
adc_vref = (word4 >> 8) & 0x1F
|
|
if adc_vref:
|
|
features += ["VRef calibration in efuse"]
|
|
|
|
blk3_part_res = word3 >> 14 & 0x1
|
|
if blk3_part_res:
|
|
features += ["BLK3 partially reserved"]
|
|
|
|
word6 = self.read_efuse(6)
|
|
coding_scheme = word6 & 0x3
|
|
features += ["Coding Scheme %s" % {
|
|
0: "None",
|
|
1: "3/4",
|
|
2: "Repeat (UNSUPPORTED)",
|
|
3: "Invalid"}[coding_scheme]]
|
|
|
|
return features
|
|
|
|
def read_efuse(self, n):
|
|
""" Read the nth word of the ESP3x EFUSE region. """
|
|
return self.read_reg(self.EFUSE_RD_REG_BASE + (4 * n))
|
|
|
|
def chip_id(self):
|
|
raise NotSupportedError(self, "chip_id")
|
|
|
|
def read_mac(self):
|
|
""" Read MAC from EFUSE region """
|
|
words = [self.read_efuse(2), self.read_efuse(1)]
|
|
bitstring = struct.pack(">II", *words)
|
|
bitstring = bitstring[2:8] # trim the 2 byte CRC
|
|
try:
|
|
return tuple(ord(b) for b in bitstring)
|
|
except TypeError: # Python 3, bitstring elements are already bytes
|
|
return tuple(bitstring)
|
|
|
|
def get_erase_size(self, offset, size):
|
|
return size
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
new_voltage = new_voltage.upper()
|
|
if new_voltage not in self.OVERRIDE_VDDSDIO_CHOICES:
|
|
raise FatalError("The only accepted VDDSDIO overrides are '1.8V', '1.9V' and 'OFF'")
|
|
RTC_CNTL_SDIO_CONF_REG = 0x3ff48074
|
|
RTC_CNTL_XPD_SDIO_REG = (1 << 31)
|
|
RTC_CNTL_DREFH_SDIO_M = (3 << 29)
|
|
RTC_CNTL_DREFM_SDIO_M = (3 << 27)
|
|
RTC_CNTL_DREFL_SDIO_M = (3 << 25)
|
|
# RTC_CNTL_SDIO_TIEH = (1 << 23) # not used here, setting TIEH=1 would set 3.3V output, not safe for esptool.py to do
|
|
RTC_CNTL_SDIO_FORCE = (1 << 22)
|
|
RTC_CNTL_SDIO_PD_EN = (1 << 21)
|
|
|
|
reg_val = RTC_CNTL_SDIO_FORCE # override efuse setting
|
|
reg_val |= RTC_CNTL_SDIO_PD_EN
|
|
if new_voltage != "OFF":
|
|
reg_val |= RTC_CNTL_XPD_SDIO_REG # enable internal LDO
|
|
if new_voltage == "1.9V":
|
|
reg_val |= (RTC_CNTL_DREFH_SDIO_M | RTC_CNTL_DREFM_SDIO_M | RTC_CNTL_DREFL_SDIO_M) # boost voltage
|
|
self.write_reg(RTC_CNTL_SDIO_CONF_REG, reg_val)
|
|
print("VDDSDIO regulator set to %s" % new_voltage)
|
|
|
|
def read_flash_slow(self, offset, length, progress_fn):
|
|
BLOCK_LEN = 64 # ROM read limit per command (this limit is why it's so slow)
|
|
|
|
data = b''
|
|
while len(data) < length:
|
|
block_len = min(BLOCK_LEN, length - len(data))
|
|
r = self.check_command("read flash block", self.ESP_READ_FLASH_SLOW,
|
|
struct.pack('<II', offset + len(data), block_len))
|
|
if len(r) < block_len:
|
|
raise FatalError("Expected %d byte block, got %d bytes. Serial errors?" % (block_len, len(r)))
|
|
data += r[:block_len] # command always returns 64 byte buffer, regardless of how many bytes were actually read from flash
|
|
if progress_fn and (len(data) % 1024 == 0 or len(data) == length):
|
|
progress_fn(len(data), length)
|
|
return data
|
|
|
|
|
|
class ESP32S2ROM(ESP32ROM):
|
|
CHIP_NAME = "ESP32-S2"
|
|
IMAGE_CHIP_ID = 2
|
|
|
|
FPGA_SLOW_BOOT = False
|
|
|
|
IROM_MAP_START = 0x40080000
|
|
IROM_MAP_END = 0x40b80000
|
|
DROM_MAP_START = 0x3F000000
|
|
DROM_MAP_END = 0x3F3F0000
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0x000007c6]
|
|
|
|
SPI_REG_BASE = 0x3f402000
|
|
SPI_USR_OFFS = 0x18
|
|
SPI_USR1_OFFS = 0x1c
|
|
SPI_USR2_OFFS = 0x20
|
|
SPI_MOSI_DLEN_OFFS = 0x24
|
|
SPI_MISO_DLEN_OFFS = 0x28
|
|
SPI_W0_OFFS = 0x58
|
|
|
|
MAC_EFUSE_REG = 0x3f41A044 # ESP32-S2 has special block for MAC efuses
|
|
|
|
UART_CLKDIV_REG = 0x3f400014
|
|
|
|
FLASH_ENCRYPTED_WRITE_ALIGN = 16
|
|
|
|
# todo: use espefuse APIs to get this info
|
|
EFUSE_BASE = 0x3f41A000
|
|
EFUSE_RD_REG_BASE = EFUSE_BASE + 0x030 # BLOCK0 read base address
|
|
EFUSE_BLOCK1_ADDR = EFUSE_BASE + 0x044
|
|
EFUSE_BLOCK2_ADDR = EFUSE_BASE + 0x05C
|
|
|
|
EFUSE_PURPOSE_KEY0_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY0_SHIFT = 24
|
|
EFUSE_PURPOSE_KEY1_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY1_SHIFT = 28
|
|
EFUSE_PURPOSE_KEY2_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY2_SHIFT = 0
|
|
EFUSE_PURPOSE_KEY3_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY3_SHIFT = 4
|
|
EFUSE_PURPOSE_KEY4_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY4_SHIFT = 8
|
|
EFUSE_PURPOSE_KEY5_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY5_SHIFT = 12
|
|
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG = EFUSE_RD_REG_BASE
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT = 1 << 19
|
|
|
|
PURPOSE_VAL_XTS_AES256_KEY_1 = 2
|
|
PURPOSE_VAL_XTS_AES256_KEY_2 = 3
|
|
PURPOSE_VAL_XTS_AES128_KEY = 4
|
|
|
|
UARTDEV_BUF_NO = 0x3ffffd14 # Variable in ROM .bss which indicates the port in use
|
|
UARTDEV_BUF_NO_USB = 2 # Value of the above variable indicating that USB is in use
|
|
|
|
USB_RAM_BLOCK = 0x800 # Max block size USB CDC is used
|
|
|
|
GPIO_STRAP_REG = 0x3f404038
|
|
GPIO_STRAP_SPI_BOOT_MASK = 0x8 # Not download mode
|
|
RTC_CNTL_OPTION1_REG = 0x3f408128
|
|
RTC_CNTL_FORCE_DOWNLOAD_BOOT_MASK = 0x1 # Is download mode forced over USB?
|
|
|
|
MEMORY_MAP = [[0x00000000, 0x00010000, "PADDING"],
|
|
[0x3F000000, 0x3FF80000, "DROM"],
|
|
[0x3F500000, 0x3FF80000, "EXTRAM_DATA"],
|
|
[0x3FF9E000, 0x3FFA0000, "RTC_DRAM"],
|
|
[0x3FF9E000, 0x40000000, "BYTE_ACCESSIBLE"],
|
|
[0x3FF9E000, 0x40072000, "MEM_INTERNAL"],
|
|
[0x3FFB0000, 0x40000000, "DRAM"],
|
|
[0x40000000, 0x4001A100, "IROM_MASK"],
|
|
[0x40020000, 0x40070000, "IRAM"],
|
|
[0x40070000, 0x40072000, "RTC_IRAM"],
|
|
[0x40080000, 0x40800000, "IROM"],
|
|
[0x50000000, 0x50002000, "RTC_DATA"]]
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return self.get_major_chip_version()
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 4
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 0) & 0x0F
|
|
|
|
def get_minor_chip_version(self):
|
|
hi_num_word = 3
|
|
hi = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * hi_num_word)) >> 20) & 0x01
|
|
low_num_word = 4
|
|
low = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * low_num_word)) >> 4) & 0x07
|
|
return (hi << 3) + low
|
|
|
|
def get_major_chip_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 18) & 0x03
|
|
|
|
def get_flash_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 21) & 0x0F
|
|
|
|
def get_psram_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 28) & 0x0F
|
|
|
|
def get_block2_version(self):
|
|
# BLK_VERSION_MINOR
|
|
num_word = 4
|
|
return (self.read_reg(self.EFUSE_BLOCK2_ADDR + (4 * num_word)) >> 4) & 0x07
|
|
|
|
def get_chip_description(self):
|
|
chip_name = {
|
|
0: "ESP32-S2",
|
|
1: "ESP32-S2FH2",
|
|
2: "ESP32-S2FH4",
|
|
102: "ESP32-S2FNR2",
|
|
100: "ESP32-S2R2",
|
|
}.get(self.get_flash_version() + self.get_psram_version() * 100, "unknown ESP32-S2")
|
|
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
def get_chip_features(self):
|
|
features = ["WiFi"]
|
|
|
|
if self.secure_download_mode:
|
|
features += ["Secure Download Mode Enabled"]
|
|
|
|
flash_version = {
|
|
0: "No Embedded Flash",
|
|
1: "Embedded Flash 2MB",
|
|
2: "Embedded Flash 4MB",
|
|
}.get(self.get_flash_version(), "Unknown Embedded Flash")
|
|
features += [flash_version]
|
|
|
|
psram_version = {
|
|
0: "No Embedded PSRAM",
|
|
1: "Embedded PSRAM 2MB",
|
|
2: "Embedded PSRAM 4MB",
|
|
}.get(self.get_psram_version(), "Unknown Embedded PSRAM")
|
|
features += [psram_version]
|
|
|
|
block2_version = {
|
|
0: "No calibration in BLK2 of efuse",
|
|
1: "ADC and temperature sensor calibration in BLK2 of efuse V1",
|
|
2: "ADC and temperature sensor calibration in BLK2 of efuse V2",
|
|
}.get(self.get_block2_version(), "Unknown Calibration in BLK2")
|
|
features += [block2_version]
|
|
|
|
return features
|
|
|
|
def get_crystal_freq(self):
|
|
# ESP32-S2 XTAL is fixed to 40MHz
|
|
return 40
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
raise NotImplementedInROMError("VDD_SDIO overrides are not supported for ESP32-S2")
|
|
|
|
def read_mac(self):
|
|
mac0 = self.read_reg(self.MAC_EFUSE_REG)
|
|
mac1 = self.read_reg(self.MAC_EFUSE_REG + 4) # only bottom 16 bits are MAC
|
|
bitstring = struct.pack(">II", mac1, mac0)[2:]
|
|
try:
|
|
return tuple(ord(b) for b in bitstring)
|
|
except TypeError: # Python 3, bitstring elements are already bytes
|
|
return tuple(bitstring)
|
|
|
|
def get_flash_crypt_config(self):
|
|
return None # doesn't exist on ESP32-S2
|
|
|
|
def get_key_block_purpose(self, key_block):
|
|
if key_block < 0 or key_block > 5:
|
|
raise FatalError("Valid key block numbers must be in range 0-5")
|
|
|
|
reg, shift = [(self.EFUSE_PURPOSE_KEY0_REG, self.EFUSE_PURPOSE_KEY0_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY1_REG, self.EFUSE_PURPOSE_KEY1_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY2_REG, self.EFUSE_PURPOSE_KEY2_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY3_REG, self.EFUSE_PURPOSE_KEY3_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY4_REG, self.EFUSE_PURPOSE_KEY4_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY5_REG, self.EFUSE_PURPOSE_KEY5_SHIFT)][key_block]
|
|
return (self.read_reg(reg) >> shift) & 0xF
|
|
|
|
def is_flash_encryption_key_valid(self):
|
|
# Need to see either an AES-128 key or two AES-256 keys
|
|
purposes = [self.get_key_block_purpose(b) for b in range(6)]
|
|
|
|
if any(p == self.PURPOSE_VAL_XTS_AES128_KEY for p in purposes):
|
|
return True
|
|
|
|
return any(p == self.PURPOSE_VAL_XTS_AES256_KEY_1 for p in purposes) \
|
|
and any(p == self.PURPOSE_VAL_XTS_AES256_KEY_2 for p in purposes)
|
|
|
|
def uses_usb(self, _cache=[]):
|
|
if self.secure_download_mode:
|
|
return False # can't detect native USB in secure download mode
|
|
if not _cache:
|
|
buf_no = self.read_reg(self.UARTDEV_BUF_NO) & 0xff
|
|
_cache.append(buf_no == self.UARTDEV_BUF_NO_USB)
|
|
return _cache[0]
|
|
|
|
def _post_connect(self):
|
|
if self.uses_usb():
|
|
self.ESP_RAM_BLOCK = self.USB_RAM_BLOCK
|
|
|
|
def _check_if_can_reset(self):
|
|
"""
|
|
Check the strapping register to see if we can reset out of download mode.
|
|
"""
|
|
if os.getenv("ESPTOOL_TESTING") is not None:
|
|
print("ESPTOOL_TESTING is set, ignoring strapping mode check")
|
|
# Esptool tests over USB CDC run with GPIO0 strapped low, don't complain in this case.
|
|
return
|
|
strap_reg = self.read_reg(self.GPIO_STRAP_REG)
|
|
force_dl_reg = self.read_reg(self.RTC_CNTL_OPTION1_REG)
|
|
if strap_reg & self.GPIO_STRAP_SPI_BOOT_MASK == 0 and force_dl_reg & self.RTC_CNTL_FORCE_DOWNLOAD_BOOT_MASK == 0:
|
|
print("WARNING: {} chip was placed into download mode using GPIO0.\n"
|
|
"esptool.py can not exit the download mode over USB. "
|
|
"To run the app, reset the chip manually.\n"
|
|
"To suppress this note, set --after option to 'no_reset'.".format(self.get_chip_description()))
|
|
raise SystemExit(1)
|
|
|
|
def hard_reset(self):
|
|
if self.uses_usb():
|
|
self._check_if_can_reset()
|
|
|
|
print('Hard resetting via RTS pin...')
|
|
self._setRTS(True) # EN->LOW
|
|
if self.uses_usb():
|
|
# Give the chip some time to come out of reset, to be able to handle further DTR/RTS transitions
|
|
time.sleep(0.2)
|
|
self._setRTS(False)
|
|
time.sleep(0.2)
|
|
else:
|
|
time.sleep(0.1)
|
|
self._setRTS(False)
|
|
|
|
|
|
class ESP32S3ROM(ESP32ROM):
|
|
CHIP_NAME = "ESP32-S3"
|
|
|
|
IMAGE_CHIP_ID = 9
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0x9]
|
|
|
|
BOOTLOADER_FLASH_OFFSET = 0x0
|
|
|
|
FPGA_SLOW_BOOT = False
|
|
|
|
IROM_MAP_START = 0x42000000
|
|
IROM_MAP_END = 0x44000000
|
|
DROM_MAP_START = 0x3c000000
|
|
DROM_MAP_END = 0x3e000000
|
|
|
|
UART_DATE_REG_ADDR = 0x60000080
|
|
|
|
SPI_REG_BASE = 0x60002000
|
|
SPI_USR_OFFS = 0x18
|
|
SPI_USR1_OFFS = 0x1c
|
|
SPI_USR2_OFFS = 0x20
|
|
SPI_MOSI_DLEN_OFFS = 0x24
|
|
SPI_MISO_DLEN_OFFS = 0x28
|
|
SPI_W0_OFFS = 0x58
|
|
|
|
FLASH_ENCRYPTED_WRITE_ALIGN = 16
|
|
|
|
# todo: use espefuse APIs to get this info
|
|
EFUSE_BASE = 0x60007000 # BLOCK0 read base address
|
|
MAC_EFUSE_REG = EFUSE_BASE + 0x044
|
|
EFUSE_BLOCK1_ADDR = EFUSE_BASE + 0x44
|
|
EFUSE_BLOCK2_ADDR = EFUSE_BASE + 0x5C
|
|
EFUSE_RD_REG_BASE = EFUSE_BASE + 0x030 # BLOCK0 read base address
|
|
|
|
EFUSE_PURPOSE_KEY0_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY0_SHIFT = 24
|
|
EFUSE_PURPOSE_KEY1_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY1_SHIFT = 28
|
|
EFUSE_PURPOSE_KEY2_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY2_SHIFT = 0
|
|
EFUSE_PURPOSE_KEY3_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY3_SHIFT = 4
|
|
EFUSE_PURPOSE_KEY4_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY4_SHIFT = 8
|
|
EFUSE_PURPOSE_KEY5_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY5_SHIFT = 12
|
|
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG = EFUSE_RD_REG_BASE
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT = 1 << 20
|
|
|
|
PURPOSE_VAL_XTS_AES256_KEY_1 = 2
|
|
PURPOSE_VAL_XTS_AES256_KEY_2 = 3
|
|
PURPOSE_VAL_XTS_AES128_KEY = 4
|
|
|
|
UARTDEV_BUF_NO = 0x3fcef14c # Variable in ROM .bss which indicates the port in use
|
|
UARTDEV_BUF_NO_USB = 3 # Value of the above variable indicating that USB is in use
|
|
|
|
USB_RAM_BLOCK = 0x800 # Max block size USB CDC is used
|
|
|
|
GPIO_STRAP_REG = 0x60004038
|
|
GPIO_STRAP_SPI_BOOT_MASK = 0x8 # Not download mode
|
|
RTC_CNTL_OPTION1_REG = 0x6000812C
|
|
RTC_CNTL_FORCE_DOWNLOAD_BOOT_MASK = 0x1 # Is download mode forced over USB?
|
|
|
|
UART_CLKDIV_REG = 0x60000014
|
|
|
|
MEMORY_MAP = [[0x00000000, 0x00010000, "PADDING"],
|
|
[0x3C000000, 0x3D000000, "DROM"],
|
|
[0x3D000000, 0x3E000000, "EXTRAM_DATA"],
|
|
[0x600FE000, 0x60100000, "RTC_DRAM"],
|
|
[0x3FC88000, 0x3FD00000, "BYTE_ACCESSIBLE"],
|
|
[0x3FC88000, 0x403E2000, "MEM_INTERNAL"],
|
|
[0x3FC88000, 0x3FD00000, "DRAM"],
|
|
[0x40000000, 0x4001A100, "IROM_MASK"],
|
|
[0x40370000, 0x403E0000, "IRAM"],
|
|
[0x600FE000, 0x60100000, "RTC_IRAM"],
|
|
[0x42000000, 0x42800000, "IROM"],
|
|
[0x50000000, 0x50002000, "RTC_DATA"]]
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return self.get_minor_chip_version()
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 21) & 0x07
|
|
|
|
def is_eco0(self, minor_raw):
|
|
# Workaround: The major version field was allocated to other purposes
|
|
# when block version is v1.1.
|
|
# Luckily only chip v0.0 have this kind of block version and efuse usage.
|
|
return (
|
|
(minor_raw & 0x7) == 0 and self.get_blk_version_major() == 1 and self.get_blk_version_minor() == 1
|
|
)
|
|
|
|
def get_minor_chip_version(self):
|
|
minor_raw = self.get_raw_minor_chip_version()
|
|
if self.is_eco0(minor_raw):
|
|
return 0
|
|
return minor_raw
|
|
|
|
def get_raw_minor_chip_version(self):
|
|
hi_num_word = 5
|
|
hi = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * hi_num_word)) >> 23) & 0x01
|
|
low_num_word = 3
|
|
low = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * low_num_word)) >> 18) & 0x07
|
|
return (hi << 3) + low
|
|
|
|
def get_blk_version_major(self):
|
|
num_word = 4
|
|
return (self.read_reg(self.EFUSE_BLOCK2_ADDR + (4 * num_word)) >> 0) & 0x03
|
|
|
|
def get_blk_version_minor(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 24) & 0x07
|
|
|
|
def get_major_chip_version(self):
|
|
minor_raw = self.get_raw_minor_chip_version()
|
|
if self.is_eco0(minor_raw):
|
|
return 0
|
|
return self.get_raw_major_chip_version()
|
|
|
|
def get_raw_major_chip_version(self):
|
|
num_word = 5
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 24) & 0x03
|
|
|
|
def get_chip_description(self):
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (self.CHIP_NAME, major_rev, minor_rev)
|
|
|
|
def get_chip_features(self):
|
|
return ["WiFi", "BLE"]
|
|
|
|
def get_crystal_freq(self):
|
|
# ESP32S3 XTAL is fixed to 40MHz
|
|
return 40
|
|
|
|
def get_flash_crypt_config(self):
|
|
return None # doesn't exist on ESP32-S3
|
|
|
|
def get_key_block_purpose(self, key_block):
|
|
if key_block < 0 or key_block > 5:
|
|
raise FatalError("Valid key block numbers must be in range 0-5")
|
|
|
|
reg, shift = [(self.EFUSE_PURPOSE_KEY0_REG, self.EFUSE_PURPOSE_KEY0_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY1_REG, self.EFUSE_PURPOSE_KEY1_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY2_REG, self.EFUSE_PURPOSE_KEY2_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY3_REG, self.EFUSE_PURPOSE_KEY3_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY4_REG, self.EFUSE_PURPOSE_KEY4_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY5_REG, self.EFUSE_PURPOSE_KEY5_SHIFT)][key_block]
|
|
return (self.read_reg(reg) >> shift) & 0xF
|
|
|
|
def is_flash_encryption_key_valid(self):
|
|
# Need to see either an AES-128 key or two AES-256 keys
|
|
purposes = [self.get_key_block_purpose(b) for b in range(6)]
|
|
|
|
if any(p == self.PURPOSE_VAL_XTS_AES128_KEY for p in purposes):
|
|
return True
|
|
|
|
return any(p == self.PURPOSE_VAL_XTS_AES256_KEY_1 for p in purposes) \
|
|
and any(p == self.PURPOSE_VAL_XTS_AES256_KEY_2 for p in purposes)
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
raise NotImplementedInROMError("VDD_SDIO overrides are not supported for ESP32-S3")
|
|
|
|
def read_mac(self):
|
|
mac0 = self.read_reg(self.MAC_EFUSE_REG)
|
|
mac1 = self.read_reg(self.MAC_EFUSE_REG + 4) # only bottom 16 bits are MAC
|
|
bitstring = struct.pack(">II", mac1, mac0)[2:]
|
|
try:
|
|
return tuple(ord(b) for b in bitstring)
|
|
except TypeError: # Python 3, bitstring elements are already bytes
|
|
return tuple(bitstring)
|
|
|
|
def uses_usb(self, _cache=[]):
|
|
if self.secure_download_mode:
|
|
return False # can't detect native USB in secure download mode
|
|
if not _cache:
|
|
buf_no = self.read_reg(self.UARTDEV_BUF_NO) & 0xff
|
|
_cache.append(buf_no == self.UARTDEV_BUF_NO_USB)
|
|
return _cache[0]
|
|
|
|
def _post_connect(self):
|
|
if self.uses_usb():
|
|
self.ESP_RAM_BLOCK = self.USB_RAM_BLOCK
|
|
|
|
def _check_if_can_reset(self):
|
|
"""
|
|
Check the strapping register to see if we can reset out of download mode.
|
|
"""
|
|
if os.getenv("ESPTOOL_TESTING") is not None:
|
|
print("ESPTOOL_TESTING is set, ignoring strapping mode check")
|
|
# Esptool tests over USB CDC run with GPIO0 strapped low, don't complain in this case.
|
|
return
|
|
strap_reg = self.read_reg(self.GPIO_STRAP_REG)
|
|
force_dl_reg = self.read_reg(self.RTC_CNTL_OPTION1_REG)
|
|
if strap_reg & self.GPIO_STRAP_SPI_BOOT_MASK == 0 and force_dl_reg & self.RTC_CNTL_FORCE_DOWNLOAD_BOOT_MASK == 0:
|
|
print("WARNING: {} chip was placed into download mode using GPIO0.\n"
|
|
"esptool.py can not exit the download mode over USB. "
|
|
"To run the app, reset the chip manually.\n"
|
|
"To suppress this note, set --after option to 'no_reset'.".format(self.get_chip_description()))
|
|
raise SystemExit(1)
|
|
|
|
def hard_reset(self):
|
|
if self.uses_usb():
|
|
self._check_if_can_reset()
|
|
|
|
print('Hard resetting via RTS pin...')
|
|
self._setRTS(True) # EN->LOW
|
|
if self.uses_usb():
|
|
# Give the chip some time to come out of reset, to be able to handle further DTR/RTS transitions
|
|
time.sleep(0.2)
|
|
self._setRTS(False)
|
|
time.sleep(0.2)
|
|
else:
|
|
time.sleep(0.1)
|
|
self._setRTS(False)
|
|
|
|
|
|
class ESP32S3BETA2ROM(ESP32S3ROM):
|
|
CHIP_NAME = "ESP32-S3(beta2)"
|
|
IMAGE_CHIP_ID = 4
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0xeb004136]
|
|
|
|
EFUSE_BASE = 0x6001A000 # BLOCK0 read base address
|
|
|
|
def get_chip_description(self):
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (self.CHIP_NAME, major_rev, minor_rev)
|
|
|
|
|
|
class ESP32C3ROM(ESP32ROM):
|
|
CHIP_NAME = "ESP32-C3"
|
|
IMAGE_CHIP_ID = 5
|
|
|
|
FPGA_SLOW_BOOT = False
|
|
|
|
IROM_MAP_START = 0x42000000
|
|
IROM_MAP_END = 0x42800000
|
|
DROM_MAP_START = 0x3c000000
|
|
DROM_MAP_END = 0x3c800000
|
|
|
|
SPI_REG_BASE = 0x60002000
|
|
SPI_USR_OFFS = 0x18
|
|
SPI_USR1_OFFS = 0x1C
|
|
SPI_USR2_OFFS = 0x20
|
|
SPI_MOSI_DLEN_OFFS = 0x24
|
|
SPI_MISO_DLEN_OFFS = 0x28
|
|
SPI_W0_OFFS = 0x58
|
|
|
|
BOOTLOADER_FLASH_OFFSET = 0x0
|
|
|
|
# Magic value for ESP32C3 eco 1+2 and ESP32C3 eco3 respectivly
|
|
CHIP_DETECT_MAGIC_VALUE = [0x6921506f, 0x1b31506f]
|
|
|
|
UART_DATE_REG_ADDR = 0x60000000 + 0x7c
|
|
|
|
EFUSE_BASE = 0x60008800
|
|
EFUSE_BLOCK1_ADDR = EFUSE_BASE + 0x044
|
|
MAC_EFUSE_REG = EFUSE_BASE + 0x044
|
|
|
|
EFUSE_RD_REG_BASE = EFUSE_BASE + 0x030 # BLOCK0 read base address
|
|
|
|
EFUSE_PURPOSE_KEY0_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY0_SHIFT = 24
|
|
EFUSE_PURPOSE_KEY1_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY1_SHIFT = 28
|
|
EFUSE_PURPOSE_KEY2_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY2_SHIFT = 0
|
|
EFUSE_PURPOSE_KEY3_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY3_SHIFT = 4
|
|
EFUSE_PURPOSE_KEY4_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY4_SHIFT = 8
|
|
EFUSE_PURPOSE_KEY5_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY5_SHIFT = 12
|
|
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG = EFUSE_RD_REG_BASE
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT = 1 << 20
|
|
|
|
PURPOSE_VAL_XTS_AES128_KEY = 4
|
|
|
|
GPIO_STRAP_REG = 0x3f404038
|
|
|
|
FLASH_ENCRYPTED_WRITE_ALIGN = 16
|
|
|
|
MEMORY_MAP = [[0x00000000, 0x00010000, "PADDING"],
|
|
[0x3C000000, 0x3C800000, "DROM"],
|
|
[0x3FC80000, 0x3FCE0000, "DRAM"],
|
|
[0x3FC88000, 0x3FD00000, "BYTE_ACCESSIBLE"],
|
|
[0x3FF00000, 0x3FF20000, "DROM_MASK"],
|
|
[0x40000000, 0x40060000, "IROM_MASK"],
|
|
[0x42000000, 0x42800000, "IROM"],
|
|
[0x4037C000, 0x403E0000, "IRAM"],
|
|
[0x50000000, 0x50002000, "RTC_IRAM"],
|
|
[0x50000000, 0x50002000, "RTC_DRAM"],
|
|
[0x600FE000, 0x60100000, "MEM_INTERNAL2"]]
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return self.get_minor_chip_version()
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 21) & 0x07
|
|
|
|
def get_minor_chip_version(self):
|
|
hi_num_word = 5
|
|
hi = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * hi_num_word)) >> 23) & 0x01
|
|
low_num_word = 3
|
|
low = (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * low_num_word)) >> 18) & 0x07
|
|
return (hi << 3) + low
|
|
|
|
def get_major_chip_version(self):
|
|
num_word = 5
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 24) & 0x03
|
|
|
|
def get_chip_description(self):
|
|
chip_name = {
|
|
0: "ESP32-C3",
|
|
}.get(self.get_pkg_version(), "unknown ESP32-C3")
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
def get_chip_features(self):
|
|
return ["Wi-Fi"]
|
|
|
|
def get_crystal_freq(self):
|
|
# ESP32C3 XTAL is fixed to 40MHz
|
|
return 40
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
raise NotImplementedInROMError("VDD_SDIO overrides are not supported for ESP32-C3")
|
|
|
|
def read_mac(self):
|
|
mac0 = self.read_reg(self.MAC_EFUSE_REG)
|
|
mac1 = self.read_reg(self.MAC_EFUSE_REG + 4) # only bottom 16 bits are MAC
|
|
bitstring = struct.pack(">II", mac1, mac0)[2:]
|
|
try:
|
|
return tuple(ord(b) for b in bitstring)
|
|
except TypeError: # Python 3, bitstring elements are already bytes
|
|
return tuple(bitstring)
|
|
|
|
def get_flash_crypt_config(self):
|
|
return None # doesn't exist on ESP32-C3
|
|
|
|
def get_key_block_purpose(self, key_block):
|
|
if key_block < 0 or key_block > 5:
|
|
raise FatalError("Valid key block numbers must be in range 0-5")
|
|
|
|
reg, shift = [(self.EFUSE_PURPOSE_KEY0_REG, self.EFUSE_PURPOSE_KEY0_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY1_REG, self.EFUSE_PURPOSE_KEY1_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY2_REG, self.EFUSE_PURPOSE_KEY2_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY3_REG, self.EFUSE_PURPOSE_KEY3_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY4_REG, self.EFUSE_PURPOSE_KEY4_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY5_REG, self.EFUSE_PURPOSE_KEY5_SHIFT)][key_block]
|
|
return (self.read_reg(reg) >> shift) & 0xF
|
|
|
|
def is_flash_encryption_key_valid(self):
|
|
# Need to see an AES-128 key
|
|
purposes = [self.get_key_block_purpose(b) for b in range(6)]
|
|
|
|
return any(p == self.PURPOSE_VAL_XTS_AES128_KEY for p in purposes)
|
|
|
|
|
|
class ESP32H2BETA1ROM(ESP32ROM):
|
|
CHIP_NAME = "ESP32-H2(beta1)"
|
|
IMAGE_CHIP_ID = 10
|
|
|
|
IROM_MAP_START = 0x42000000
|
|
IROM_MAP_END = 0x42800000
|
|
DROM_MAP_START = 0x3c000000
|
|
DROM_MAP_END = 0x3c800000
|
|
|
|
SPI_REG_BASE = 0x60002000
|
|
SPI_USR_OFFS = 0x18
|
|
SPI_USR1_OFFS = 0x1C
|
|
SPI_USR2_OFFS = 0x20
|
|
SPI_MOSI_DLEN_OFFS = 0x24
|
|
SPI_MISO_DLEN_OFFS = 0x28
|
|
SPI_W0_OFFS = 0x58
|
|
|
|
BOOTLOADER_FLASH_OFFSET = 0x0
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0xca26cc22]
|
|
|
|
UART_DATE_REG_ADDR = 0x60000000 + 0x7c
|
|
|
|
EFUSE_BASE = 0x6001A000
|
|
EFUSE_BLOCK1_ADDR = EFUSE_BASE + 0x044
|
|
MAC_EFUSE_REG = EFUSE_BASE + 0x044
|
|
|
|
EFUSE_RD_REG_BASE = EFUSE_BASE + 0x030 # BLOCK0 read base address
|
|
|
|
EFUSE_PURPOSE_KEY0_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY0_SHIFT = 24
|
|
EFUSE_PURPOSE_KEY1_REG = EFUSE_BASE + 0x34
|
|
EFUSE_PURPOSE_KEY1_SHIFT = 28
|
|
EFUSE_PURPOSE_KEY2_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY2_SHIFT = 0
|
|
EFUSE_PURPOSE_KEY3_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY3_SHIFT = 4
|
|
EFUSE_PURPOSE_KEY4_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY4_SHIFT = 8
|
|
EFUSE_PURPOSE_KEY5_REG = EFUSE_BASE + 0x38
|
|
EFUSE_PURPOSE_KEY5_SHIFT = 12
|
|
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT_REG = EFUSE_RD_REG_BASE
|
|
EFUSE_DIS_DOWNLOAD_MANUAL_ENCRYPT = 1 << 20
|
|
|
|
PURPOSE_VAL_XTS_AES128_KEY = 4
|
|
|
|
GPIO_STRAP_REG = 0x3f404038
|
|
|
|
FLASH_ENCRYPTED_WRITE_ALIGN = 16
|
|
|
|
MEMORY_MAP = []
|
|
|
|
FLASH_FREQUENCY = {
|
|
'48m': 0xf,
|
|
'24m': 0x0,
|
|
'16m': 0x1,
|
|
'12m': 0x2,
|
|
}
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return 0
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 4
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 0) & 0x07
|
|
|
|
def get_minor_chip_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 18) & 0x07
|
|
|
|
def get_major_chip_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 21) & 0x03
|
|
|
|
def get_chip_description(self):
|
|
chip_name = {
|
|
0: "ESP32-H2",
|
|
}.get(self.get_pkg_version(), "unknown ESP32-H2")
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
def get_chip_features(self):
|
|
return ["BLE/802.15.4"]
|
|
|
|
def get_crystal_freq(self):
|
|
return 32
|
|
|
|
def override_vddsdio(self, new_voltage):
|
|
raise NotImplementedInROMError("VDD_SDIO overrides are not supported for ESP32-H2")
|
|
|
|
def read_mac(self):
|
|
mac0 = self.read_reg(self.MAC_EFUSE_REG)
|
|
mac1 = self.read_reg(self.MAC_EFUSE_REG + 4) # only bottom 16 bits are MAC
|
|
bitstring = struct.pack(">II", mac1, mac0)[2:]
|
|
try:
|
|
return tuple(ord(b) for b in bitstring)
|
|
except TypeError: # Python 3, bitstring elements are already bytes
|
|
return tuple(bitstring)
|
|
|
|
def get_flash_crypt_config(self):
|
|
return None # doesn't exist on ESP32-H2
|
|
|
|
def get_key_block_purpose(self, key_block):
|
|
if key_block < 0 or key_block > 5:
|
|
raise FatalError("Valid key block numbers must be in range 0-5")
|
|
|
|
reg, shift = [(self.EFUSE_PURPOSE_KEY0_REG, self.EFUSE_PURPOSE_KEY0_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY1_REG, self.EFUSE_PURPOSE_KEY1_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY2_REG, self.EFUSE_PURPOSE_KEY2_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY3_REG, self.EFUSE_PURPOSE_KEY3_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY4_REG, self.EFUSE_PURPOSE_KEY4_SHIFT),
|
|
(self.EFUSE_PURPOSE_KEY5_REG, self.EFUSE_PURPOSE_KEY5_SHIFT)][key_block]
|
|
return (self.read_reg(reg) >> shift) & 0xF
|
|
|
|
def is_flash_encryption_key_valid(self):
|
|
# Need to see an AES-128 key
|
|
purposes = [self.get_key_block_purpose(b) for b in range(6)]
|
|
|
|
return any(p == self.PURPOSE_VAL_XTS_AES128_KEY for p in purposes)
|
|
|
|
|
|
class ESP32H2BETA2ROM(ESP32H2BETA1ROM):
|
|
CHIP_NAME = "ESP32-H2(beta2)"
|
|
IMAGE_CHIP_ID = 14
|
|
|
|
def get_chip_description(self):
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (self.CHIP_NAME, major_rev, minor_rev)
|
|
|
|
|
|
class ESP32C2ROM(ESP32C3ROM):
|
|
CHIP_NAME = "ESP32-C2"
|
|
IMAGE_CHIP_ID = 12
|
|
|
|
IROM_MAP_START = 0x42000000
|
|
IROM_MAP_END = 0x42400000
|
|
DROM_MAP_START = 0x3c000000
|
|
DROM_MAP_END = 0x3c400000
|
|
|
|
# Magic value for ESP32C2 ECO0 and ECO1 respectively
|
|
CHIP_DETECT_MAGIC_VALUE = [0x6F51306F, 0x7c41a06f]
|
|
|
|
EFUSE_BASE = 0x60008800
|
|
EFUSE_BLOCK2_ADDR = EFUSE_BASE + 0x040
|
|
MAC_EFUSE_REG = EFUSE_BASE + 0x040
|
|
|
|
FLASH_FREQUENCY = {
|
|
'60m': 0xf,
|
|
'30m': 0x0,
|
|
'20m': 0x1,
|
|
'15m': 0x2,
|
|
}
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return self.get_major_chip_version()
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 1
|
|
return (self.read_reg(self.EFUSE_BLOCK2_ADDR + (4 * num_word)) >> 22) & 0x07
|
|
|
|
def get_chip_description(self):
|
|
chip_name = {
|
|
0: "ESP32-C2",
|
|
1: "ESP32-C2",
|
|
}.get(self.get_pkg_version(), "unknown ESP32-C2")
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
def get_minor_chip_version(self):
|
|
num_word = 1
|
|
return (self.read_reg(self.EFUSE_BLOCK2_ADDR + (4 * num_word)) >> 16) & 0xF
|
|
|
|
def get_major_chip_version(self):
|
|
num_word = 1
|
|
return (self.read_reg(self.EFUSE_BLOCK2_ADDR + (4 * num_word)) >> 20) & 0x3
|
|
|
|
def _post_connect(self):
|
|
# ESP32C2 ECO0 is no longer supported by the flasher stub
|
|
if self.get_chip_revision() == 0:
|
|
self.stub_is_disabled = True
|
|
self.IS_STUB = False
|
|
|
|
|
|
class ESP32C6BETAROM(ESP32C3ROM):
|
|
CHIP_NAME = "ESP32-C6(beta)"
|
|
IMAGE_CHIP_ID = 7
|
|
|
|
CHIP_DETECT_MAGIC_VALUE = [0x0da1806f]
|
|
|
|
UART_DATE_REG_ADDR = 0x00000500
|
|
|
|
# Returns old version format (ECO number). Use the new format get_chip_full_revision().
|
|
def get_chip_revision(self):
|
|
return 0
|
|
|
|
def get_pkg_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 29) & 0x07
|
|
|
|
def get_minor_chip_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 18) & 0x0F
|
|
|
|
def get_major_chip_version(self):
|
|
num_word = 3
|
|
return (self.read_reg(self.EFUSE_BLOCK1_ADDR + (4 * num_word)) >> 22) & 0x03
|
|
|
|
def get_chip_description(self):
|
|
chip_name = {
|
|
0: "ESP32-C6",
|
|
}.get(self.get_pkg_version(), "unknown ESP32-C6")
|
|
major_rev = self.get_major_chip_version()
|
|
minor_rev = self.get_minor_chip_version()
|
|
return "%s (revision v%d.%d)" % (chip_name, major_rev, minor_rev)
|
|
|
|
|
|
class ESP32StubLoader(ESP32ROM):
|
|
""" Access class for ESP32 stub loader, runs on top of ROM.
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32ROM.STUB_CLASS = ESP32StubLoader
|
|
|
|
|
|
class ESP32S2StubLoader(ESP32S2ROM):
|
|
""" Access class for ESP32-S2 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
if rom_loader.uses_usb():
|
|
self.ESP_RAM_BLOCK = self.USB_RAM_BLOCK
|
|
self.FLASH_WRITE_SIZE = self.USB_RAM_BLOCK
|
|
|
|
|
|
ESP32S2ROM.STUB_CLASS = ESP32S2StubLoader
|
|
|
|
|
|
class ESP32S3BETA2StubLoader(ESP32S3BETA2ROM):
|
|
""" Access class for ESP32S3 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32S3BETA2ROM.STUB_CLASS = ESP32S3BETA2StubLoader
|
|
|
|
|
|
class ESP32S3StubLoader(ESP32S3ROM):
|
|
""" Access class for ESP32S3 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
if rom_loader.uses_usb():
|
|
self.ESP_RAM_BLOCK = self.USB_RAM_BLOCK
|
|
self.FLASH_WRITE_SIZE = self.USB_RAM_BLOCK
|
|
|
|
|
|
ESP32S3ROM.STUB_CLASS = ESP32S3StubLoader
|
|
|
|
|
|
class ESP32C3StubLoader(ESP32C3ROM):
|
|
""" Access class for ESP32C3 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32C3ROM.STUB_CLASS = ESP32C3StubLoader
|
|
|
|
|
|
class ESP32H2BETA1StubLoader(ESP32H2BETA1ROM):
|
|
""" Access class for ESP32H2BETA1 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32H2BETA1ROM.STUB_CLASS = ESP32H2BETA1StubLoader
|
|
|
|
|
|
class ESP32H2BETA2StubLoader(ESP32H2BETA2ROM):
|
|
""" Access class for ESP32H2BETA2 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32H2BETA2ROM.STUB_CLASS = ESP32H2BETA2StubLoader
|
|
|
|
|
|
class ESP32C2StubLoader(ESP32C2ROM):
|
|
""" Access class for ESP32C2 stub loader, runs on top of ROM.
|
|
|
|
(Basically the same as ESP32StubLoader, but different base class.
|
|
Can possibly be made into a mixin.)
|
|
"""
|
|
FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
|
|
STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
|
|
IS_STUB = True
|
|
|
|
def __init__(self, rom_loader):
|
|
self.secure_download_mode = rom_loader.secure_download_mode
|
|
self._port = rom_loader._port
|
|
self._trace_enabled = rom_loader._trace_enabled
|
|
self.flush_input() # resets _slip_reader
|
|
|
|
|
|
ESP32C2ROM.STUB_CLASS = ESP32C2StubLoader
|
|
|
|
|
|
class ESPBOOTLOADER(object):
|
|
""" These are constants related to software ESP8266 bootloader, working with 'v2' image files """
|
|
|
|
# First byte of the "v2" application image
|
|
IMAGE_V2_MAGIC = 0xea
|
|
|
|
# First 'segment' value in a "v2" application image, appears to be a constant version value?
|
|
IMAGE_V2_SEGMENT = 4
|
|
|
|
|
|
def LoadFirmwareImage(chip, filename):
|
|
""" Load a firmware image. Can be for any supported SoC.
|
|
|
|
ESP8266 images will be examined to determine if they are original ROM firmware images (ESP8266ROMFirmwareImage)
|
|
or "v2" OTA bootloader images.
|
|
|
|
Returns a BaseFirmwareImage subclass, either ESP8266ROMFirmwareImage (v1) or ESP8266V2FirmwareImage (v2).
|
|
"""
|
|
chip = re.sub(r"[-()]", "", chip.lower())
|
|
with open(filename, 'rb') as f:
|
|
if chip == 'esp32':
|
|
return ESP32FirmwareImage(f)
|
|
elif chip == "esp32s2":
|
|
return ESP32S2FirmwareImage(f)
|
|
elif chip == "esp32s3beta2":
|
|
return ESP32S3BETA2FirmwareImage(f)
|
|
elif chip == "esp32s3":
|
|
return ESP32S3FirmwareImage(f)
|
|
elif chip == 'esp32c3':
|
|
return ESP32C3FirmwareImage(f)
|
|
elif chip == 'esp32c6beta':
|
|
return ESP32C6BETAFirmwareImage(f)
|
|
elif chip == 'esp32h2beta1':
|
|
return ESP32H2BETA1FirmwareImage(f)
|
|
elif chip == 'esp32h2beta2':
|
|
return ESP32H2BETA2FirmwareImage(f)
|
|
elif chip == 'esp32c2':
|
|
return ESP32C2FirmwareImage(f)
|
|
else: # Otherwise, ESP8266 so look at magic to determine the image type
|
|
magic = ord(f.read(1))
|
|
f.seek(0)
|
|
if magic == ESPLoader.ESP_IMAGE_MAGIC:
|
|
return ESP8266ROMFirmwareImage(f)
|
|
elif magic == ESPBOOTLOADER.IMAGE_V2_MAGIC:
|
|
return ESP8266V2FirmwareImage(f)
|
|
else:
|
|
raise FatalError("Invalid image magic number: %d" % magic)
|
|
|
|
|
|
class ImageSegment(object):
|
|
""" Wrapper class for a segment in an ESP image
|
|
(very similar to a section in an ELFImage also) """
|
|
def __init__(self, addr, data, file_offs=None):
|
|
self.addr = addr
|
|
self.data = data
|
|
self.file_offs = file_offs
|
|
self.include_in_checksum = True
|
|
if self.addr != 0:
|
|
self.pad_to_alignment(4) # pad all "real" ImageSegments 4 byte aligned length
|
|
|
|
def copy_with_new_addr(self, new_addr):
|
|
""" Return a new ImageSegment with same data, but mapped at
|
|
a new address. """
|
|
return ImageSegment(new_addr, self.data, 0)
|
|
|
|
def split_image(self, split_len):
|
|
""" Return a new ImageSegment which splits "split_len" bytes
|
|
from the beginning of the data. Remaining bytes are kept in
|
|
this segment object (and the start address is adjusted to match.) """
|
|
result = copy.copy(self)
|
|
result.data = self.data[:split_len]
|
|
self.data = self.data[split_len:]
|
|
self.addr += split_len
|
|
self.file_offs = None
|
|
result.file_offs = None
|
|
return result
|
|
|
|
def __repr__(self):
|
|
r = "len 0x%05x load 0x%08x" % (len(self.data), self.addr)
|
|
if self.file_offs is not None:
|
|
r += " file_offs 0x%08x" % (self.file_offs)
|
|
return r
|
|
|
|
def get_memory_type(self, image):
|
|
"""
|
|
Return a list describing the memory type(s) that is covered by this
|
|
segment's start address.
|
|
"""
|
|
return [map_range[2] for map_range in image.ROM_LOADER.MEMORY_MAP if map_range[0] <= self.addr < map_range[1]]
|
|
|
|
def pad_to_alignment(self, alignment):
|
|
self.data = pad_to(self.data, alignment, b'\x00')
|
|
|
|
|
|
class ELFSection(ImageSegment):
|
|
""" Wrapper class for a section in an ELF image, has a section
|
|
name as well as the common properties of an ImageSegment. """
|
|
def __init__(self, name, addr, data):
|
|
super(ELFSection, self).__init__(addr, data)
|
|
self.name = name.decode("utf-8")
|
|
|
|
def __repr__(self):
|
|
return "%s %s" % (self.name, super(ELFSection, self).__repr__())
|
|
|
|
|
|
class BaseFirmwareImage(object):
|
|
SEG_HEADER_LEN = 8
|
|
SHA256_DIGEST_LEN = 32
|
|
|
|
""" Base class with common firmware image functions """
|
|
def __init__(self):
|
|
self.segments = []
|
|
self.entrypoint = 0
|
|
self.elf_sha256 = None
|
|
self.elf_sha256_offset = 0
|
|
self.pad_to_size = 0
|
|
|
|
def load_common_header(self, load_file, expected_magic):
|
|
(magic, segments, self.flash_mode, self.flash_size_freq, self.entrypoint) = struct.unpack('<BBBBI', load_file.read(8))
|
|
|
|
if magic != expected_magic:
|
|
raise FatalError('Invalid firmware image magic=0x%x' % (magic))
|
|
return segments
|
|
|
|
def verify(self):
|
|
if len(self.segments) > 16:
|
|
raise FatalError('Invalid segment count %d (max 16). Usually this indicates a linker script problem.' % len(self.segments))
|
|
|
|
def load_segment(self, f, is_irom_segment=False):
|
|
""" Load the next segment from the image file """
|
|
file_offs = f.tell()
|
|
(offset, size) = struct.unpack('<II', f.read(8))
|
|
self.warn_if_unusual_segment(offset, size, is_irom_segment)
|
|
segment_data = f.read(size)
|
|
if len(segment_data) < size:
|
|
raise FatalError('End of file reading segment 0x%x, length %d (actual length %d)' % (offset, size, len(segment_data)))
|
|
segment = ImageSegment(offset, segment_data, file_offs)
|
|
self.segments.append(segment)
|
|
return segment
|
|
|
|
def warn_if_unusual_segment(self, offset, size, is_irom_segment):
|
|
if not is_irom_segment:
|
|
if offset > 0x40200000 or offset < 0x3ffe0000 or size > 65536:
|
|
print('WARNING: Suspicious segment 0x%x, length %d' % (offset, size))
|
|
|
|
def maybe_patch_segment_data(self, f, segment_data):
|
|
"""If SHA256 digest of the ELF file needs to be inserted into this segment, do so. Returns segment data."""
|
|
segment_len = len(segment_data)
|
|
file_pos = f.tell() # file_pos is position in the .bin file
|
|
if self.elf_sha256_offset >= file_pos and self.elf_sha256_offset < file_pos + segment_len:
|
|
# SHA256 digest needs to be patched into this binary segment,
|
|
# calculate offset of the digest inside the binary segment.
|
|
patch_offset = self.elf_sha256_offset - file_pos
|
|
# Sanity checks
|
|
if patch_offset < self.SEG_HEADER_LEN or patch_offset + self.SHA256_DIGEST_LEN > segment_len:
|
|
raise FatalError('Cannot place SHA256 digest on segment boundary'
|
|
'(elf_sha256_offset=%d, file_pos=%d, segment_size=%d)' %
|
|
(self.elf_sha256_offset, file_pos, segment_len))
|
|
# offset relative to the data part
|
|
patch_offset -= self.SEG_HEADER_LEN
|
|
if segment_data[patch_offset:patch_offset + self.SHA256_DIGEST_LEN] != b'\x00' * self.SHA256_DIGEST_LEN:
|
|
raise FatalError('Contents of segment at SHA256 digest offset 0x%x are not all zero. Refusing to overwrite.' %
|
|
self.elf_sha256_offset)
|
|
assert len(self.elf_sha256) == self.SHA256_DIGEST_LEN
|
|
segment_data = segment_data[0:patch_offset] + self.elf_sha256 + \
|
|
segment_data[patch_offset + self.SHA256_DIGEST_LEN:]
|
|
return segment_data
|
|
|
|
def save_segment(self, f, segment, checksum=None):
|
|
""" Save the next segment to the image file, return next checksum value if provided """
|
|
segment_data = self.maybe_patch_segment_data(f, segment.data)
|
|
f.write(struct.pack('<II', segment.addr, len(segment_data)))
|
|
f.write(segment_data)
|
|
if checksum is not None:
|
|
return ESPLoader.checksum(segment_data, checksum)
|
|
|
|
def read_checksum(self, f):
|
|
""" Return ESPLoader checksum from end of just-read image """
|
|
# Skip the padding. The checksum is stored in the last byte so that the
|
|
# file is a multiple of 16 bytes.
|
|
align_file_position(f, 16)
|
|
return ord(f.read(1))
|
|
|
|
def calculate_checksum(self):
|
|
""" Calculate checksum of loaded image, based on segments in
|
|
segment array.
|
|
"""
|
|
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
|
|
for seg in self.segments:
|
|
if seg.include_in_checksum:
|
|
checksum = ESPLoader.checksum(seg.data, checksum)
|
|
return checksum
|
|
|
|
def append_checksum(self, f, checksum):
|
|
""" Append ESPLoader checksum to the just-written image """
|
|
align_file_position(f, 16)
|
|
f.write(struct.pack(b'B', checksum))
|
|
|
|
def write_common_header(self, f, segments):
|
|
f.write(struct.pack('<BBBBI', ESPLoader.ESP_IMAGE_MAGIC, len(segments),
|
|
self.flash_mode, self.flash_size_freq, self.entrypoint))
|
|
|
|
def is_irom_addr(self, addr):
|
|
""" Returns True if an address starts in the irom region.
|
|
Valid for ESP8266 only.
|
|
"""
|
|
return ESP8266ROM.IROM_MAP_START <= addr < ESP8266ROM.IROM_MAP_END
|
|
|
|
def get_irom_segment(self):
|
|
irom_segments = [s for s in self.segments if self.is_irom_addr(s.addr)]
|
|
if len(irom_segments) > 0:
|
|
if len(irom_segments) != 1:
|
|
raise FatalError('Found %d segments that could be irom0. Bad ELF file?' % len(irom_segments))
|
|
return irom_segments[0]
|
|
return None
|
|
|
|
def get_non_irom_segments(self):
|
|
irom_segment = self.get_irom_segment()
|
|
return [s for s in self.segments if s != irom_segment]
|
|
|
|
def merge_adjacent_segments(self):
|
|
if not self.segments:
|
|
return # nothing to merge
|
|
|
|
segments = []
|
|
# The easiest way to merge the sections is the browse them backward.
|
|
for i in range(len(self.segments) - 1, 0, -1):
|
|
# elem is the previous section, the one `next_elem` may need to be
|
|
# merged in
|
|
elem = self.segments[i - 1]
|
|
next_elem = self.segments[i]
|
|
if all((elem.get_memory_type(self) == next_elem.get_memory_type(self),
|
|
elem.include_in_checksum == next_elem.include_in_checksum,
|
|
next_elem.addr == elem.addr + len(elem.data))):
|
|
# Merge any segment that ends where the next one starts, without spanning memory types
|
|
#
|
|
# (don't 'pad' any gaps here as they may be excluded from the image due to 'noinit'
|
|
# or other reasons.)
|
|
elem.data += next_elem.data
|
|
else:
|
|
# The section next_elem cannot be merged into the previous one,
|
|
# which means it needs to be part of the final segments.
|
|
# As we are browsing the list backward, the elements need to be
|
|
# inserted at the beginning of the final list.
|
|
segments.insert(0, next_elem)
|
|
|
|
# The first segment will always be here as it cannot be merged into any
|
|
# "previous" section.
|
|
segments.insert(0, self.segments[0])
|
|
|
|
# note: we could sort segments here as well, but the ordering of segments is sometimes
|
|
# important for other reasons (like embedded ELF SHA-256), so we assume that the linker
|
|
# script will have produced any adjacent sections in linear order in the ELF, anyhow.
|
|
self.segments = segments
|
|
|
|
def set_mmu_page_size(self, size):
|
|
""" If supported, this should be overridden by the chip-specific class. Gets called in elf2image. """
|
|
print('WARNING: Changing MMU page size is not supported on {}! Defaulting to 64KB.'.format(self.ROM_LOADER.CHIP_NAME))
|
|
|
|
|
|
class ESP8266ROMFirmwareImage(BaseFirmwareImage):
|
|
""" 'Version 1' firmware image, segments loaded directly by the ROM bootloader. """
|
|
|
|
ROM_LOADER = ESP8266ROM
|
|
|
|
def __init__(self, load_file=None):
|
|
super(ESP8266ROMFirmwareImage, self).__init__()
|
|
self.flash_mode = 0
|
|
self.flash_size_freq = 0
|
|
self.version = 1
|
|
|
|
if load_file is not None:
|
|
segments = self.load_common_header(load_file, ESPLoader.ESP_IMAGE_MAGIC)
|
|
|
|
for _ in range(segments):
|
|
self.load_segment(load_file)
|
|
self.checksum = self.read_checksum(load_file)
|
|
|
|
self.verify()
|
|
|
|
def default_output_name(self, input_file):
|
|
""" Derive a default output name from the ELF name. """
|
|
return input_file + '-'
|
|
|
|
def save(self, basename):
|
|
""" Save a set of V1 images for flashing. Parameter is a base filename. """
|
|
# IROM data goes in its own plain binary file
|
|
irom_segment = self.get_irom_segment()
|
|
if irom_segment is not None:
|
|
with open("%s0x%05x.bin" % (basename, irom_segment.addr - ESP8266ROM.IROM_MAP_START), "wb") as f:
|
|
f.write(irom_segment.data)
|
|
|
|
# everything but IROM goes at 0x00000 in an image file
|
|
normal_segments = self.get_non_irom_segments()
|
|
with open("%s0x00000.bin" % basename, 'wb') as f:
|
|
self.write_common_header(f, normal_segments)
|
|
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
|
|
for segment in normal_segments:
|
|
checksum = self.save_segment(f, segment, checksum)
|
|
self.append_checksum(f, checksum)
|
|
|
|
|
|
ESP8266ROM.BOOTLOADER_IMAGE = ESP8266ROMFirmwareImage
|
|
|
|
|
|
class ESP8266V2FirmwareImage(BaseFirmwareImage):
|
|
""" 'Version 2' firmware image, segments loaded by software bootloader stub
|
|
(ie Espressif bootloader or rboot)
|
|
"""
|
|
|
|
ROM_LOADER = ESP8266ROM
|
|
|
|
def __init__(self, load_file=None):
|
|
super(ESP8266V2FirmwareImage, self).__init__()
|
|
self.version = 2
|
|
if load_file is not None:
|
|
segments = self.load_common_header(load_file, ESPBOOTLOADER.IMAGE_V2_MAGIC)
|
|
if segments != ESPBOOTLOADER.IMAGE_V2_SEGMENT:
|
|
# segment count is not really segment count here, but we expect to see '4'
|
|
print('Warning: V2 header has unexpected "segment" count %d (usually 4)' % segments)
|
|
|
|
# irom segment comes before the second header
|
|
#
|
|
# the file is saved in the image with a zero load address
|
|
# in the header, so we need to calculate a load address
|
|
irom_segment = self.load_segment(load_file, True)
|
|
irom_segment.addr = 0 # for actual mapped addr, add ESP8266ROM.IROM_MAP_START + flashing_addr + 8
|
|
irom_segment.include_in_checksum = False
|
|
|
|
first_flash_mode = self.flash_mode
|
|
first_flash_size_freq = self.flash_size_freq
|
|
first_entrypoint = self.entrypoint
|
|
# load the second header
|
|
|
|
segments = self.load_common_header(load_file, ESPLoader.ESP_IMAGE_MAGIC)
|
|
|
|
if first_flash_mode != self.flash_mode:
|
|
print('WARNING: Flash mode value in first header (0x%02x) disagrees with second (0x%02x). Using second value.'
|
|
% (first_flash_mode, self.flash_mode))
|
|
if first_flash_size_freq != self.flash_size_freq:
|
|
print('WARNING: Flash size/freq value in first header (0x%02x) disagrees with second (0x%02x). Using second value.'
|
|
% (first_flash_size_freq, self.flash_size_freq))
|
|
if first_entrypoint != self.entrypoint:
|
|
print('WARNING: Entrypoint address in first header (0x%08x) disagrees with second header (0x%08x). Using second value.'
|
|
% (first_entrypoint, self.entrypoint))
|
|
|
|
# load all the usual segments
|
|
for _ in range(segments):
|
|
self.load_segment(load_file)
|
|
self.checksum = self.read_checksum(load_file)
|
|
|
|
self.verify()
|
|
|
|
def default_output_name(self, input_file):
|
|
""" Derive a default output name from the ELF name. """
|
|
irom_segment = self.get_irom_segment()
|
|
if irom_segment is not None:
|
|
irom_offs = irom_segment.addr - ESP8266ROM.IROM_MAP_START
|
|
else:
|
|
irom_offs = 0
|
|
return "%s-0x%05x.bin" % (os.path.splitext(input_file)[0],
|
|
irom_offs & ~(ESPLoader.FLASH_SECTOR_SIZE - 1))
|
|
|
|
def save(self, filename):
|
|
with open(filename, 'wb') as f:
|
|
# Save first header for irom0 segment
|
|
f.write(struct.pack(b'<BBBBI', ESPBOOTLOADER.IMAGE_V2_MAGIC, ESPBOOTLOADER.IMAGE_V2_SEGMENT,
|
|
self.flash_mode, self.flash_size_freq, self.entrypoint))
|
|
|
|
irom_segment = self.get_irom_segment()
|
|
if irom_segment is not None:
|
|
# save irom0 segment, make sure it has load addr 0 in the file
|
|
irom_segment = irom_segment.copy_with_new_addr(0)
|
|
irom_segment.pad_to_alignment(16) # irom_segment must end on a 16 byte boundary
|
|
self.save_segment(f, irom_segment)
|
|
|
|
# second header, matches V1 header and contains loadable segments
|
|
normal_segments = self.get_non_irom_segments()
|
|
self.write_common_header(f, normal_segments)
|
|
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
|
|
for segment in normal_segments:
|
|
checksum = self.save_segment(f, segment, checksum)
|
|
self.append_checksum(f, checksum)
|
|
|
|
# calculate a crc32 of entire file and append
|
|
# (algorithm used by recent 8266 SDK bootloaders)
|
|
with open(filename, 'rb') as f:
|
|
crc = esp8266_crc32(f.read())
|
|
with open(filename, 'ab') as f:
|
|
f.write(struct.pack(b'<I', crc))
|
|
|
|
|
|
def esp8266_crc32(data):
|
|
"""
|
|
CRC32 algorithm used by 8266 SDK bootloader (and gen_appbin.py).
|
|
"""
|
|
crc = binascii.crc32(data, 0) & 0xFFFFFFFF
|
|
if crc & 0x80000000:
|
|
return crc ^ 0xFFFFFFFF
|
|
else:
|
|
return crc + 1
|
|
|
|
|
|
class ESP32FirmwareImage(BaseFirmwareImage):
|
|
""" ESP32 firmware image is very similar to V1 ESP8266 image,
|
|
except with an additional 16 byte reserved header at top of image,
|
|
and because of new flash mapping capabilities the flash-mapped regions
|
|
can be placed in the normal image (just @ 64kB padded offsets).
|
|
"""
|
|
|
|
ROM_LOADER = ESP32ROM
|
|
|
|
# ROM bootloader will read the wp_pin field if SPI flash
|
|
# pins are remapped via flash. IDF actually enables QIO only
|
|
# from software bootloader, so this can be ignored. But needs
|
|
# to be set to this value so ROM bootloader will skip it.
|
|
WP_PIN_DISABLED = 0xEE
|
|
|
|
EXTENDED_HEADER_STRUCT_FMT = "<BBBBHBHH" + ("B" * 4) + "B"
|
|
|
|
IROM_ALIGN = 65536
|
|
|
|
def __init__(self, load_file=None):
|
|
super(ESP32FirmwareImage, self).__init__()
|
|
self.secure_pad = None
|
|
self.flash_mode = 0
|
|
self.flash_size_freq = 0
|
|
self.version = 1
|
|
self.wp_pin = self.WP_PIN_DISABLED
|
|
# SPI pin drive levels
|
|
self.clk_drv = 0
|
|
self.q_drv = 0
|
|
self.d_drv = 0
|
|
self.cs_drv = 0
|
|
self.hd_drv = 0
|
|
self.wp_drv = 0
|
|
self.min_rev = 0
|
|
self.min_rev_full = 0
|
|
self.max_rev_full = 0
|
|
|
|
self.append_digest = True
|
|
|
|
if load_file is not None:
|
|
start = load_file.tell()
|
|
|
|
segments = self.load_common_header(load_file, ESPLoader.ESP_IMAGE_MAGIC)
|
|
self.load_extended_header(load_file)
|
|
|
|
for _ in range(segments):
|
|
self.load_segment(load_file)
|
|
self.checksum = self.read_checksum(load_file)
|
|
|
|
if self.append_digest:
|
|
end = load_file.tell()
|
|
self.stored_digest = load_file.read(32)
|
|
load_file.seek(start)
|
|
calc_digest = hashlib.sha256()
|
|
calc_digest.update(load_file.read(end - start))
|
|
self.calc_digest = calc_digest.digest() # TODO: decide what to do here?
|
|
|
|
self.verify()
|
|
|
|
def is_flash_addr(self, addr):
|
|
return (self.ROM_LOADER.IROM_MAP_START <= addr < self.ROM_LOADER.IROM_MAP_END) \
|
|
or (self.ROM_LOADER.DROM_MAP_START <= addr < self.ROM_LOADER.DROM_MAP_END)
|
|
|
|
def default_output_name(self, input_file):
|
|
""" Derive a default output name from the ELF name. """
|
|
return "%s.bin" % (os.path.splitext(input_file)[0])
|
|
|
|
def warn_if_unusual_segment(self, offset, size, is_irom_segment):
|
|
pass # TODO: add warnings for ESP32 segment offset/size combinations that are wrong
|
|
|
|
def save(self, filename):
|
|
total_segments = 0
|
|
with io.BytesIO() as f: # write file to memory first
|
|
self.write_common_header(f, self.segments)
|
|
|
|
# first 4 bytes of header are read by ROM bootloader for SPI
|
|
# config, but currently unused
|
|
self.save_extended_header(f)
|
|
|
|
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
|
|
|
|
# split segments into flash-mapped vs ram-loaded, and take copies so we can mutate them
|
|
flash_segments = [copy.deepcopy(s) for s in sorted(self.segments, key=lambda s:s.addr) if self.is_flash_addr(s.addr)]
|
|
ram_segments = [copy.deepcopy(s) for s in sorted(self.segments, key=lambda s:s.addr) if not self.is_flash_addr(s.addr)]
|
|
|
|
# check for multiple ELF sections that are mapped in the same flash mapping region.
|
|
# this is usually a sign of a broken linker script, but if you have a legitimate
|
|
# use case then let us know
|
|
if len(flash_segments) > 0:
|
|
last_addr = flash_segments[0].addr
|
|
for segment in flash_segments[1:]:
|
|
if segment.addr // self.IROM_ALIGN == last_addr // self.IROM_ALIGN:
|
|
raise FatalError(("Segment loaded at 0x%08x lands in same 64KB flash mapping as segment loaded at 0x%08x. "
|
|
"Can't generate binary. Suggest changing linker script or ELF to merge sections.") %
|
|
(segment.addr, last_addr))
|
|
last_addr = segment.addr
|
|
|
|
def get_alignment_data_needed(segment):
|
|
# Actual alignment (in data bytes) required for a segment header: positioned so that
|
|
# after we write the next 8 byte header, file_offs % IROM_ALIGN == segment.addr % IROM_ALIGN
|
|
#
|
|
# (this is because the segment's vaddr may not be IROM_ALIGNed, more likely is aligned
|
|
# IROM_ALIGN+0x18 to account for the binary file header
|
|
align_past = (segment.addr % self.IROM_ALIGN) - self.SEG_HEADER_LEN
|
|
pad_len = (self.IROM_ALIGN - (f.tell() % self.IROM_ALIGN)) + align_past
|
|
if pad_len == 0 or pad_len == self.IROM_ALIGN:
|
|
return 0 # already aligned
|
|
|
|
# subtract SEG_HEADER_LEN a second time, as the padding block has a header as well
|
|
pad_len -= self.SEG_HEADER_LEN
|
|
if pad_len < 0:
|
|
pad_len += self.IROM_ALIGN
|
|
return pad_len
|
|
|
|
# try to fit each flash segment on a 64kB aligned boundary
|
|
# by padding with parts of the non-flash segments...
|
|
while len(flash_segments) > 0:
|
|
segment = flash_segments[0]
|
|
pad_len = get_alignment_data_needed(segment)
|
|
if pad_len > 0: # need to pad
|
|
if len(ram_segments) > 0 and pad_len > self.SEG_HEADER_LEN:
|
|
pad_segment = ram_segments[0].split_image(pad_len)
|
|
if len(ram_segments[0].data) == 0:
|
|
ram_segments.pop(0)
|
|
else:
|
|
pad_segment = ImageSegment(0, b'\x00' * pad_len, f.tell())
|
|
checksum = self.save_segment(f, pad_segment, checksum)
|
|
total_segments += 1
|
|
else:
|
|
# write the flash segment
|
|
assert (f.tell() + 8) % self.IROM_ALIGN == segment.addr % self.IROM_ALIGN
|
|
checksum = self.save_flash_segment(f, segment, checksum)
|
|
flash_segments.pop(0)
|
|
total_segments += 1
|
|
|
|
# flash segments all written, so write any remaining RAM segments
|
|
for segment in ram_segments:
|
|
checksum = self.save_segment(f, segment, checksum)
|
|
total_segments += 1
|
|
|
|
if self.secure_pad:
|
|
# pad the image so that after signing it will end on a a 64KB boundary.
|
|
# This ensures all mapped flash content will be verified.
|
|
if not self.append_digest:
|
|
raise FatalError("secure_pad only applies if a SHA-256 digest is also appended to the image")
|
|
align_past = (f.tell() + self.SEG_HEADER_LEN) % self.IROM_ALIGN
|
|
# 16 byte aligned checksum (force the alignment to simplify calculations)
|
|
checksum_space = 16
|
|
if self.secure_pad == '1':
|
|
# after checksum: SHA-256 digest + (to be added by signing process) version, signature + 12 trailing bytes due to alignment
|
|
space_after_checksum = 32 + 4 + 64 + 12
|
|
elif self.secure_pad == '2': # Secure Boot V2
|
|
# after checksum: SHA-256 digest + signature sector, but we place signature sector after the 64KB boundary
|
|
space_after_checksum = 32
|
|
pad_len = (self.IROM_ALIGN - align_past - checksum_space - space_after_checksum) % self.IROM_ALIGN
|
|
pad_segment = ImageSegment(0, b'\x00' * pad_len, f.tell())
|
|
|
|
checksum = self.save_segment(f, pad_segment, checksum)
|
|
total_segments += 1
|
|
|
|
# done writing segments
|
|
self.append_checksum(f, checksum)
|
|
image_length = f.tell()
|
|
|
|
if self.secure_pad:
|
|
assert ((image_length + space_after_checksum) % self.IROM_ALIGN) == 0
|
|
|
|
# kinda hacky: go back to the initial header and write the new segment count
|
|
# that includes padding segments. This header is not checksummed
|
|
f.seek(1)
|
|
try:
|
|
f.write(chr(total_segments))
|
|
except TypeError: # Python 3
|
|
f.write(bytes([total_segments]))
|
|
|
|
if self.append_digest:
|
|
# calculate the SHA256 of the whole file and append it
|
|
f.seek(0)
|
|
digest = hashlib.sha256()
|
|
digest.update(f.read(image_length))
|
|
f.write(digest.digest())
|
|
|
|
if self.pad_to_size:
|
|
image_length = f.tell()
|
|
if image_length % self.pad_to_size != 0:
|
|
pad_by = self.pad_to_size - (image_length % self.pad_to_size)
|
|
f.write(b"\xff" * pad_by)
|
|
|
|
with open(filename, 'wb') as real_file:
|
|
real_file.write(f.getvalue())
|
|
|
|
def save_flash_segment(self, f, segment, checksum=None):
|
|
""" Save the next segment to the image file, return next checksum value if provided """
|
|
segment_end_pos = f.tell() + len(segment.data) + self.SEG_HEADER_LEN
|
|
segment_len_remainder = segment_end_pos % self.IROM_ALIGN
|
|
if segment_len_remainder < 0x24:
|
|
# Work around a bug in ESP-IDF 2nd stage bootloader, that it didn't map the
|
|
# last MMU page, if an IROM/DROM segment was < 0x24 bytes over the page boundary.
|
|
segment.data += b'\x00' * (0x24 - segment_len_remainder)
|
|
return self.save_segment(f, segment, checksum)
|
|
|
|
def load_extended_header(self, load_file):
|
|
def split_byte(n):
|
|
return (n & 0x0F, (n >> 4) & 0x0F)
|
|
|
|
fields = list(struct.unpack(self.EXTENDED_HEADER_STRUCT_FMT, load_file.read(16)))
|
|
|
|
self.wp_pin = fields[0]
|
|
|
|
# SPI pin drive stengths are two per byte
|
|
self.clk_drv, self.q_drv = split_byte(fields[1])
|
|
self.d_drv, self.cs_drv = split_byte(fields[2])
|
|
self.hd_drv, self.wp_drv = split_byte(fields[3])
|
|
|
|
chip_id = fields[4]
|
|
if chip_id != self.ROM_LOADER.IMAGE_CHIP_ID:
|
|
print(("Unexpected chip id in image. Expected %d but value was %d. "
|
|
"Is this image for a different chip model?") % (self.ROM_LOADER.IMAGE_CHIP_ID, chip_id))
|
|
|
|
self.min_rev = fields[5]
|
|
self.min_rev_full = fields[6]
|
|
self.max_rev_full = fields[7]
|
|
|
|
# reserved fields in the middle should all be zero
|
|
if any(f for f in fields[8:-1] if f != 0):
|
|
print("Warning: some reserved header fields have non-zero values. This image may be from a newer esptool.py?")
|
|
|
|
append_digest = fields[-1] # last byte is append_digest
|
|
if append_digest in [0, 1]:
|
|
self.append_digest = (append_digest == 1)
|
|
else:
|
|
raise RuntimeError("Invalid value for append_digest field (0x%02x). Should be 0 or 1.", append_digest)
|
|
|
|
def save_extended_header(self, save_file):
|
|
def join_byte(ln, hn):
|
|
return (ln & 0x0F) + ((hn & 0x0F) << 4)
|
|
|
|
append_digest = 1 if self.append_digest else 0
|
|
|
|
fields = [self.wp_pin,
|
|
join_byte(self.clk_drv, self.q_drv),
|
|
join_byte(self.d_drv, self.cs_drv),
|
|
join_byte(self.hd_drv, self.wp_drv),
|
|
self.ROM_LOADER.IMAGE_CHIP_ID,
|
|
self.min_rev,
|
|
self.min_rev_full,
|
|
self.max_rev_full]
|
|
fields += [0] * 4 # padding
|
|
fields += [append_digest]
|
|
|
|
packed = struct.pack(self.EXTENDED_HEADER_STRUCT_FMT, *fields)
|
|
save_file.write(packed)
|
|
|
|
|
|
class ESP8266V3FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP8266 V3 firmware image is very similar to ESP32 image
|
|
"""
|
|
|
|
EXTENDED_HEADER_STRUCT_FMT = "B" * 16
|
|
|
|
def is_flash_addr(self, addr):
|
|
return (addr > ESP8266ROM.IROM_MAP_START)
|
|
|
|
def save(self, filename):
|
|
total_segments = 0
|
|
with io.BytesIO() as f: # write file to memory first
|
|
self.write_common_header(f, self.segments)
|
|
|
|
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
|
|
|
|
# split segments into flash-mapped vs ram-loaded, and take copies so we can mutate them
|
|
flash_segments = [copy.deepcopy(s) for s in sorted(self.segments, key=lambda s:s.addr) if self.is_flash_addr(s.addr) and len(s.data)]
|
|
ram_segments = [copy.deepcopy(s) for s in sorted(self.segments, key=lambda s:s.addr) if not self.is_flash_addr(s.addr) and len(s.data)]
|
|
|
|
# check for multiple ELF sections that are mapped in the same flash mapping region.
|
|
# this is usually a sign of a broken linker script, but if you have a legitimate
|
|
# use case then let us know
|
|
if len(flash_segments) > 0:
|
|
last_addr = flash_segments[0].addr
|
|
for segment in flash_segments[1:]:
|
|
if segment.addr // self.IROM_ALIGN == last_addr // self.IROM_ALIGN:
|
|
raise FatalError(("Segment loaded at 0x%08x lands in same 64KB flash mapping as segment loaded at 0x%08x. "
|
|
"Can't generate binary. Suggest changing linker script or ELF to merge sections.") %
|
|
(segment.addr, last_addr))
|
|
last_addr = segment.addr
|
|
|
|
# try to fit each flash segment on a 64kB aligned boundary
|
|
# by padding with parts of the non-flash segments...
|
|
while len(flash_segments) > 0:
|
|
segment = flash_segments[0]
|
|
# remove 8 bytes empty data for insert segment header
|
|
if segment.name == '.flash.rodata':
|
|
segment.data = segment.data[8:]
|
|
# write the flash segment
|
|
checksum = self.save_segment(f, segment, checksum)
|
|
flash_segments.pop(0)
|
|
total_segments += 1
|
|
|
|
# flash segments all written, so write any remaining RAM segments
|
|
for segment in ram_segments:
|
|
checksum = self.save_segment(f, segment, checksum)
|
|
total_segments += 1
|
|
|
|
# done writing segments
|
|
self.append_checksum(f, checksum)
|
|
image_length = f.tell()
|
|
|
|
# kinda hacky: go back to the initial header and write the new segment count
|
|
# that includes padding segments. This header is not checksummed
|
|
f.seek(1)
|
|
try:
|
|
f.write(chr(total_segments))
|
|
except TypeError: # Python 3
|
|
f.write(bytes([total_segments]))
|
|
|
|
if self.append_digest:
|
|
# calculate the SHA256 of the whole file and append it
|
|
f.seek(0)
|
|
digest = hashlib.sha256()
|
|
digest.update(f.read(image_length))
|
|
f.write(digest.digest())
|
|
|
|
with open(filename, 'wb') as real_file:
|
|
real_file.write(f.getvalue())
|
|
|
|
def load_extended_header(self, load_file):
|
|
def split_byte(n):
|
|
return (n & 0x0F, (n >> 4) & 0x0F)
|
|
|
|
fields = list(struct.unpack(self.EXTENDED_HEADER_STRUCT_FMT, load_file.read(16)))
|
|
|
|
self.wp_pin = fields[0]
|
|
|
|
# SPI pin drive stengths are two per byte
|
|
self.clk_drv, self.q_drv = split_byte(fields[1])
|
|
self.d_drv, self.cs_drv = split_byte(fields[2])
|
|
self.hd_drv, self.wp_drv = split_byte(fields[3])
|
|
|
|
if fields[15] in [0, 1]:
|
|
self.append_digest = (fields[15] == 1)
|
|
else:
|
|
raise RuntimeError("Invalid value for append_digest field (0x%02x). Should be 0 or 1.", fields[15])
|
|
|
|
# remaining fields in the middle should all be zero
|
|
if any(f for f in fields[4:15] if f != 0):
|
|
print("Warning: some reserved header fields have non-zero values. This image may be from a newer esptool.py?")
|
|
|
|
|
|
ESP32ROM.BOOTLOADER_IMAGE = ESP32FirmwareImage
|
|
|
|
|
|
class ESP32S2FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32S2 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32S2ROM
|
|
|
|
|
|
ESP32S2ROM.BOOTLOADER_IMAGE = ESP32S2FirmwareImage
|
|
|
|
|
|
class ESP32S3BETA2FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32S3 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32S3BETA2ROM
|
|
|
|
|
|
ESP32S3BETA2ROM.BOOTLOADER_IMAGE = ESP32S3BETA2FirmwareImage
|
|
|
|
|
|
class ESP32S3FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32S3 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32S3ROM
|
|
|
|
|
|
ESP32S3ROM.BOOTLOADER_IMAGE = ESP32S3FirmwareImage
|
|
|
|
|
|
class ESP32C3FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32C3 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32C3ROM
|
|
|
|
|
|
ESP32C3ROM.BOOTLOADER_IMAGE = ESP32C3FirmwareImage
|
|
|
|
|
|
class ESP32C6BETAFirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32C6 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32C6BETAROM
|
|
|
|
|
|
ESP32C6BETAROM.BOOTLOADER_IMAGE = ESP32C6BETAFirmwareImage
|
|
|
|
|
|
class ESP32H2BETA1FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32H2 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32H2BETA1ROM
|
|
|
|
|
|
ESP32H2BETA1ROM.BOOTLOADER_IMAGE = ESP32H2BETA1FirmwareImage
|
|
|
|
|
|
class ESP32H2BETA2FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32H2 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32H2BETA2ROM
|
|
|
|
|
|
ESP32H2BETA2ROM.BOOTLOADER_IMAGE = ESP32H2BETA2FirmwareImage
|
|
|
|
|
|
class ESP32C2FirmwareImage(ESP32FirmwareImage):
|
|
""" ESP32C2 Firmware Image almost exactly the same as ESP32FirmwareImage """
|
|
ROM_LOADER = ESP32C2ROM
|
|
|
|
def set_mmu_page_size(self, size):
|
|
if size not in [16384, 32768, 65536]:
|
|
raise FatalError("{} is not a valid page size.".format(size))
|
|
self.IROM_ALIGN = size
|
|
|
|
|
|
ESP32C2ROM.BOOTLOADER_IMAGE = ESP32C2FirmwareImage
|
|
|
|
|
|
class ELFFile(object):
|
|
SEC_TYPE_PROGBITS = 0x01
|
|
SEC_TYPE_STRTAB = 0x03
|
|
SEC_TYPE_INITARRAY = 0x0e
|
|
SEC_TYPE_FINIARRAY = 0x0f
|
|
|
|
PROG_SEC_TYPES = (SEC_TYPE_PROGBITS, SEC_TYPE_INITARRAY, SEC_TYPE_FINIARRAY)
|
|
|
|
LEN_SEC_HEADER = 0x28
|
|
|
|
SEG_TYPE_LOAD = 0x01
|
|
LEN_SEG_HEADER = 0x20
|
|
|
|
def __init__(self, name):
|
|
# Load sections from the ELF file
|
|
self.name = name
|
|
with open(self.name, 'rb') as f:
|
|
self._read_elf_file(f)
|
|
|
|
def get_section(self, section_name):
|
|
for s in self.sections:
|
|
if s.name == section_name:
|
|
return s
|
|
raise ValueError("No section %s in ELF file" % section_name)
|
|
|
|
def _read_elf_file(self, f):
|
|
# read the ELF file header
|
|
LEN_FILE_HEADER = 0x34
|
|
try:
|
|
(ident, _type, machine, _version,
|
|
self.entrypoint, _phoff, shoff, _flags,
|
|
_ehsize, _phentsize, _phnum, shentsize,
|
|
shnum, shstrndx) = struct.unpack("<16sHHLLLLLHHHHHH", f.read(LEN_FILE_HEADER))
|
|
except struct.error as e:
|
|
raise FatalError("Failed to read a valid ELF header from %s: %s" % (self.name, e))
|
|
|
|
if byte(ident, 0) != 0x7f or ident[1:4] != b'ELF':
|
|
raise FatalError("%s has invalid ELF magic header" % self.name)
|
|
if machine not in [0x5e, 0xf3]:
|
|
raise FatalError("%s does not appear to be an Xtensa or an RISCV ELF file. e_machine=%04x" % (self.name, machine))
|
|
if shentsize != self.LEN_SEC_HEADER:
|
|
raise FatalError("%s has unexpected section header entry size 0x%x (not 0x%x)" % (self.name, shentsize, self.LEN_SEC_HEADER))
|
|
if shnum == 0:
|
|
raise FatalError("%s has 0 section headers" % (self.name))
|
|
self._read_sections(f, shoff, shnum, shstrndx)
|
|
self._read_segments(f, _phoff, _phnum, shstrndx)
|
|
|
|
def _read_sections(self, f, section_header_offs, section_header_count, shstrndx):
|
|
f.seek(section_header_offs)
|
|
len_bytes = section_header_count * self.LEN_SEC_HEADER
|
|
section_header = f.read(len_bytes)
|
|
if len(section_header) == 0:
|
|
raise FatalError("No section header found at offset %04x in ELF file." % section_header_offs)
|
|
if len(section_header) != (len_bytes):
|
|
raise FatalError("Only read 0x%x bytes from section header (expected 0x%x.) Truncated ELF file?" % (len(section_header), len_bytes))
|
|
|
|
# walk through the section header and extract all sections
|
|
section_header_offsets = range(0, len(section_header), self.LEN_SEC_HEADER)
|
|
|
|
def read_section_header(offs):
|
|
name_offs, sec_type, _flags, lma, sec_offs, size = struct.unpack_from("<LLLLLL", section_header[offs:])
|
|
return (name_offs, sec_type, lma, size, sec_offs)
|
|
all_sections = [read_section_header(offs) for offs in section_header_offsets]
|
|
prog_sections = [s for s in all_sections if s[1] in ELFFile.PROG_SEC_TYPES]
|
|
|
|
# search for the string table section
|
|
if not (shstrndx * self.LEN_SEC_HEADER) in section_header_offsets:
|
|
raise FatalError("ELF file has no STRTAB section at shstrndx %d" % shstrndx)
|
|
_, sec_type, _, sec_size, sec_offs = read_section_header(shstrndx * self.LEN_SEC_HEADER)
|
|
if sec_type != ELFFile.SEC_TYPE_STRTAB:
|
|
print('WARNING: ELF file has incorrect STRTAB section type 0x%02x' % sec_type)
|
|
f.seek(sec_offs)
|
|
string_table = f.read(sec_size)
|
|
|
|
# build the real list of ELFSections by reading the actual section names from the
|
|
# string table section, and actual data for each section from the ELF file itself
|
|
def lookup_string(offs):
|
|
raw = string_table[offs:]
|
|
return raw[:raw.index(b'\x00')]
|
|
|
|
def read_data(offs, size):
|
|
f.seek(offs)
|
|
return f.read(size)
|
|
|
|
prog_sections = [ELFSection(lookup_string(n_offs), lma, read_data(offs, size)) for (n_offs, _type, lma, size, offs) in prog_sections
|
|
if lma != 0 and size > 0]
|
|
self.sections = prog_sections
|
|
|
|
def _read_segments(self, f, segment_header_offs, segment_header_count, shstrndx):
|
|
f.seek(segment_header_offs)
|
|
len_bytes = segment_header_count * self.LEN_SEG_HEADER
|
|
segment_header = f.read(len_bytes)
|
|
if len(segment_header) == 0:
|
|
raise FatalError("No segment header found at offset %04x in ELF file." % segment_header_offs)
|
|
if len(segment_header) != (len_bytes):
|
|
raise FatalError("Only read 0x%x bytes from segment header (expected 0x%x.) Truncated ELF file?" % (len(segment_header), len_bytes))
|
|
|
|
# walk through the segment header and extract all segments
|
|
segment_header_offsets = range(0, len(segment_header), self.LEN_SEG_HEADER)
|
|
|
|
def read_segment_header(offs):
|
|
seg_type, seg_offs, _vaddr, lma, size, _memsize, _flags, _align = struct.unpack_from("<LLLLLLLL", segment_header[offs:])
|
|
return (seg_type, lma, size, seg_offs)
|
|
all_segments = [read_segment_header(offs) for offs in segment_header_offsets]
|
|
prog_segments = [s for s in all_segments if s[0] == ELFFile.SEG_TYPE_LOAD]
|
|
|
|
def read_data(offs, size):
|
|
f.seek(offs)
|
|
return f.read(size)
|
|
|
|
prog_segments = [ELFSection(b'PHDR', lma, read_data(offs, size)) for (_type, lma, size, offs) in prog_segments
|
|
if lma != 0 and size > 0]
|
|
self.segments = prog_segments
|
|
|
|
def sha256(self):
|
|
# return SHA256 hash of the input ELF file
|
|
sha256 = hashlib.sha256()
|
|
with open(self.name, 'rb') as f:
|
|
sha256.update(f.read())
|
|
return sha256.digest()
|
|
|
|
|
|
def slip_reader(port, trace_function):
|
|
"""Generator to read SLIP packets from a serial port.
|
|
Yields one full SLIP packet at a time, raises exception on timeout or invalid data.
|
|
|
|
Designed to avoid too many calls to serial.read(1), which can bog
|
|
down on slow systems.
|
|
"""
|
|
partial_packet = None
|
|
in_escape = False
|
|
successful_slip = False
|
|
while True:
|
|
waiting = port.inWaiting()
|
|
read_bytes = port.read(1 if waiting == 0 else waiting)
|
|
if read_bytes == b'':
|
|
if partial_packet is None: # fail due to no data
|
|
msg = "Serial data stream stopped: Possible serial noise or corruption." if successful_slip else "No serial data received."
|
|
else: # fail during packet transfer
|
|
msg = "Packet content transfer stopped (received {} bytes)".format(len(partial_packet))
|
|
trace_function(msg)
|
|
raise FatalError(msg)
|
|
trace_function("Read %d bytes: %s", len(read_bytes), HexFormatter(read_bytes))
|
|
for b in read_bytes:
|
|
if type(b) is int:
|
|
b = bytes([b]) # python 2/3 compat
|
|
|
|
if partial_packet is None: # waiting for packet header
|
|
if b == b'\xc0':
|
|
partial_packet = b""
|
|
else:
|
|
trace_function("Read invalid data: %s", HexFormatter(read_bytes))
|
|
trace_function("Remaining data in serial buffer: %s", HexFormatter(port.read(port.inWaiting())))
|
|
raise FatalError('Invalid head of packet (0x%s): Possible serial noise or corruption.' % hexify(b))
|
|
elif in_escape: # part-way through escape sequence
|
|
in_escape = False
|
|
if b == b'\xdc':
|
|
partial_packet += b'\xc0'
|
|
elif b == b'\xdd':
|
|
partial_packet += b'\xdb'
|
|
else:
|
|
trace_function("Read invalid data: %s", HexFormatter(read_bytes))
|
|
trace_function("Remaining data in serial buffer: %s", HexFormatter(port.read(port.inWaiting())))
|
|
raise FatalError('Invalid SLIP escape (0xdb, 0x%s)' % (hexify(b)))
|
|
elif b == b'\xdb': # start of escape sequence
|
|
in_escape = True
|
|
elif b == b'\xc0': # end of packet
|
|
trace_function("Received full packet: %s", HexFormatter(partial_packet))
|
|
yield partial_packet
|
|
partial_packet = None
|
|
successful_slip = True
|
|
else: # normal byte in packet
|
|
partial_packet += b
|
|
|
|
|
|
def arg_auto_int(x):
|
|
return int(x, 0)
|
|
|
|
|
|
def format_chip_name(c):
|
|
""" Normalize chip name from user input """
|
|
c = c.lower().replace('-', '')
|
|
if c == 'esp8684': # TODO: Delete alias, ESPTOOL-389
|
|
print('WARNING: Chip name ESP8684 is deprecated in favor of ESP32-C2 and will be removed in a future release. Using ESP32-C2 instead.')
|
|
return 'esp32c2'
|
|
return c
|
|
|
|
|
|
def div_roundup(a, b):
|
|
""" Return a/b rounded up to nearest integer,
|
|
equivalent result to int(math.ceil(float(int(a)) / float(int(b))), only
|
|
without possible floating point accuracy errors.
|
|
"""
|
|
return (int(a) + int(b) - 1) // int(b)
|
|
|
|
|
|
def align_file_position(f, size):
|
|
""" Align the position in the file to the next block of specified size """
|
|
align = (size - 1) - (f.tell() % size)
|
|
f.seek(align, 1)
|
|
|
|
|
|
def flash_size_bytes(size):
|
|
""" Given a flash size of the type passed in args.flash_size
|
|
(ie 512KB or 1MB) then return the size in bytes.
|
|
"""
|
|
if "MB" in size:
|
|
return int(size[:size.index("MB")]) * 1024 * 1024
|
|
elif "KB" in size:
|
|
return int(size[:size.index("KB")]) * 1024
|
|
else:
|
|
raise FatalError("Unknown size %s" % size)
|
|
|
|
|
|
def hexify(s, uppercase=True):
|
|
format_str = '%02X' if uppercase else '%02x'
|
|
if not PYTHON2:
|
|
return ''.join(format_str % c for c in s)
|
|
else:
|
|
return ''.join(format_str % ord(c) for c in s)
|
|
|
|
|
|
class HexFormatter(object):
|
|
"""
|
|
Wrapper class which takes binary data in its constructor
|
|
and returns a hex string as it's __str__ method.
|
|
|
|
This is intended for "lazy formatting" of trace() output
|
|
in hex format. Avoids overhead (significant on slow computers)
|
|
of generating long hex strings even if tracing is disabled.
|
|
|
|
Note that this doesn't save any overhead if passed as an
|
|
argument to "%", only when passed to trace()
|
|
|
|
If auto_split is set (default), any long line (> 16 bytes) will be
|
|
printed as separately indented lines, with ASCII decoding at the end
|
|
of each line.
|
|
"""
|
|
def __init__(self, binary_string, auto_split=True):
|
|
self._s = binary_string
|
|
self._auto_split = auto_split
|
|
|
|
def __str__(self):
|
|
if self._auto_split and len(self._s) > 16:
|
|
result = ""
|
|
s = self._s
|
|
while len(s) > 0:
|
|
line = s[:16]
|
|
ascii_line = "".join(c if (c == ' ' or (c in string.printable and c not in string.whitespace))
|
|
else '.' for c in line.decode('ascii', 'replace'))
|
|
s = s[16:]
|
|
result += "\n %-16s %-16s | %s" % (hexify(line[:8], False), hexify(line[8:], False), ascii_line)
|
|
return result
|
|
else:
|
|
return hexify(self._s, False)
|
|
|
|
|
|
def pad_to(data, alignment, pad_character=b'\xFF'):
|
|
""" Pad to the next alignment boundary """
|
|
pad_mod = len(data) % alignment
|
|
if pad_mod != 0:
|
|
data += pad_character * (alignment - pad_mod)
|
|
return data
|
|
|
|
|
|
class FatalError(RuntimeError):
|
|
"""
|
|
Wrapper class for runtime errors that aren't caused by internal bugs, but by
|
|
ESP ROM responses or input content.
|
|
"""
|
|
def __init__(self, message):
|
|
RuntimeError.__init__(self, message)
|
|
|
|
@staticmethod
|
|
def WithResult(message, result):
|
|
"""
|
|
Return a fatal error object that appends the hex values of
|
|
'result' and its meaning as a string formatted argument.
|
|
"""
|
|
|
|
err_defs = {
|
|
0x101: 'Out of memory',
|
|
0x102: 'Invalid argument',
|
|
0x103: 'Invalid state',
|
|
0x104: 'Invalid size',
|
|
0x105: 'Requested resource not found',
|
|
0x106: 'Operation or feature not supported',
|
|
0x107: 'Operation timed out',
|
|
0x108: 'Received response was invalid',
|
|
0x109: 'CRC or checksum was invalid',
|
|
0x10A: 'Version was invalid',
|
|
0x10B: 'MAC address was invalid',
|
|
# Flasher stub error codes
|
|
0xC000: 'Bad data length',
|
|
0xC100: 'Bad data checksum',
|
|
0xC200: 'Bad blocksize',
|
|
0xC300: 'Invalid command',
|
|
0xC400: 'Failed SPI operation',
|
|
0xC500: 'Failed SPI unlock',
|
|
0xC600: 'Not in flash mode',
|
|
0xC700: 'Inflate error',
|
|
0xC800: 'Not enough data',
|
|
0xC900: 'Too much data',
|
|
0xFF00: 'Command not implemented',
|
|
}
|
|
|
|
err_code = struct.unpack(">H", result[:2])
|
|
message += " (result was {}: {})".format(hexify(result), err_defs.get(err_code[0], 'Unknown result'))
|
|
return FatalError(message)
|
|
|
|
|
|
class NotImplementedInROMError(FatalError):
|
|
"""
|
|
Wrapper class for the error thrown when a particular ESP bootloader function
|
|
is not implemented in the ROM bootloader.
|
|
"""
|
|
def __init__(self, bootloader, func):
|
|
FatalError.__init__(self, "%s ROM does not support function %s." % (bootloader.CHIP_NAME, func.__name__))
|
|
|
|
|
|
class NotSupportedError(FatalError):
|
|
def __init__(self, esp, function_name):
|
|
FatalError.__init__(self, "Function %s is not supported for %s." % (function_name, esp.CHIP_NAME))
|
|
|
|
# "Operation" commands, executable at command line. One function each
|
|
#
|
|
# Each function takes either two args (<ESPLoader instance>, <args>) or a single <args>
|
|
# argument.
|
|
|
|
|
|
class UnsupportedCommandError(RuntimeError):
|
|
"""
|
|
Wrapper class for when ROM loader returns an invalid command response.
|
|
|
|
Usually this indicates the loader is running in Secure Download Mode.
|
|
"""
|
|
def __init__(self, esp, op):
|
|
if esp.secure_download_mode:
|
|
msg = "This command (0x%x) is not supported in Secure Download Mode" % op
|
|
else:
|
|
msg = "Invalid (unsupported) command 0x%x" % op
|
|
RuntimeError.__init__(self, msg)
|
|
|
|
|
|
def load_ram(esp, args):
|
|
image = LoadFirmwareImage(esp.CHIP_NAME, args.filename)
|
|
|
|
print('RAM boot...')
|
|
for seg in image.segments:
|
|
size = len(seg.data)
|
|
print('Downloading %d bytes at %08x...' % (size, seg.addr), end=' ')
|
|
sys.stdout.flush()
|
|
esp.mem_begin(size, div_roundup(size, esp.ESP_RAM_BLOCK), esp.ESP_RAM_BLOCK, seg.addr)
|
|
|
|
seq = 0
|
|
while len(seg.data) > 0:
|
|
esp.mem_block(seg.data[0:esp.ESP_RAM_BLOCK], seq)
|
|
seg.data = seg.data[esp.ESP_RAM_BLOCK:]
|
|
seq += 1
|
|
print('done!')
|
|
|
|
print('All segments done, executing at %08x' % image.entrypoint)
|
|
esp.mem_finish(image.entrypoint)
|
|
|
|
|
|
def read_mem(esp, args):
|
|
print('0x%08x = 0x%08x' % (args.address, esp.read_reg(args.address)))
|
|
|
|
|
|
def write_mem(esp, args):
|
|
esp.write_reg(args.address, args.value, args.mask, 0)
|
|
print('Wrote %08x, mask %08x to %08x' % (args.value, args.mask, args.address))
|
|
|
|
|
|
def dump_mem(esp, args):
|
|
with open(args.filename, 'wb') as f:
|
|
for i in range(args.size // 4):
|
|
d = esp.read_reg(args.address + (i * 4))
|
|
f.write(struct.pack(b'<I', d))
|
|
if f.tell() % 1024 == 0:
|
|
print_overwrite('%d bytes read... (%d %%)' % (f.tell(),
|
|
f.tell() * 100 // args.size))
|
|
sys.stdout.flush()
|
|
print_overwrite("Read %d bytes" % f.tell(), last_line=True)
|
|
print('Done!')
|
|
|
|
|
|
def detect_flash_size(esp, args):
|
|
if args.flash_size == 'detect':
|
|
if esp.secure_download_mode:
|
|
raise FatalError("Detecting flash size is not supported in secure download mode. Need to manually specify flash size.")
|
|
flash_id = esp.flash_id()
|
|
size_id = flash_id >> 16
|
|
args.flash_size = DETECTED_FLASH_SIZES.get(size_id)
|
|
if args.flash_size is None:
|
|
print('Warning: Could not auto-detect Flash size (FlashID=0x%x, SizeID=0x%x), defaulting to 4MB' % (flash_id, size_id))
|
|
args.flash_size = '4MB'
|
|
else:
|
|
print('Auto-detected Flash size:', args.flash_size)
|
|
|
|
|
|
def _update_image_flash_params(esp, address, args, image):
|
|
""" Modify the flash mode & size bytes if this looks like an executable bootloader image """
|
|
if len(image) < 8:
|
|
return image # not long enough to be a bootloader image
|
|
|
|
# unpack the (potential) image header
|
|
magic, _, flash_mode, flash_size_freq = struct.unpack("BBBB", image[:4])
|
|
if address != esp.BOOTLOADER_FLASH_OFFSET:
|
|
return image # not flashing bootloader offset, so don't modify this
|
|
|
|
if (args.flash_mode, args.flash_freq, args.flash_size) == ('keep',) * 3:
|
|
return image # all settings are 'keep', not modifying anything
|
|
|
|
# easy check if this is an image: does it start with a magic byte?
|
|
if magic != esp.ESP_IMAGE_MAGIC:
|
|
print("Warning: Image file at 0x%x doesn't look like an image file, so not changing any flash settings." % address)
|
|
return image
|
|
|
|
# make sure this really is an image, and not just data that
|
|
# starts with esp.ESP_IMAGE_MAGIC (mostly a problem for encrypted
|
|
# images that happen to start with a magic byte
|
|
try:
|
|
test_image = esp.BOOTLOADER_IMAGE(io.BytesIO(image))
|
|
test_image.verify()
|
|
except Exception:
|
|
print("Warning: Image file at 0x%x is not a valid %s image, so not changing any flash settings." % (address, esp.CHIP_NAME))
|
|
return image
|
|
|
|
if args.flash_mode != 'keep':
|
|
flash_mode = {'qio': 0, 'qout': 1, 'dio': 2, 'dout': 3}[args.flash_mode]
|
|
|
|
flash_freq = flash_size_freq & 0x0F
|
|
if args.flash_freq != 'keep':
|
|
flash_freq = esp.parse_flash_freq_arg(args.flash_freq)
|
|
|
|
flash_size = flash_size_freq & 0xF0
|
|
if args.flash_size != 'keep':
|
|
flash_size = esp.parse_flash_size_arg(args.flash_size)
|
|
|
|
flash_params = struct.pack(b'BB', flash_mode, flash_size + flash_freq)
|
|
if flash_params != image[2:4]:
|
|
print('Flash params set to 0x%04x' % struct.unpack(">H", flash_params))
|
|
image = image[0:2] + flash_params + image[4:]
|
|
return image
|
|
|
|
|
|
def write_flash(esp, args):
|
|
# set args.compress based on default behaviour:
|
|
# -> if either --compress or --no-compress is set, honour that
|
|
# -> otherwise, set --compress unless --no-stub is set
|
|
if args.compress is None and not args.no_compress:
|
|
args.compress = not args.no_stub
|
|
|
|
# In case we have encrypted files to write, we first do few sanity checks before actual flash
|
|
if args.encrypt or args.encrypt_files is not None:
|
|
do_write = True
|
|
|
|
if not esp.secure_download_mode:
|
|
if esp.get_encrypted_download_disabled():
|
|
raise FatalError("This chip has encrypt functionality in UART download mode disabled. "
|
|
"This is the Flash Encryption configuration for Production mode instead of Development mode.")
|
|
|
|
crypt_cfg_efuse = esp.get_flash_crypt_config()
|
|
|
|
if crypt_cfg_efuse is not None and crypt_cfg_efuse != 0xF:
|
|
print('Unexpected FLASH_CRYPT_CONFIG value: 0x%x' % (crypt_cfg_efuse))
|
|
do_write = False
|
|
|
|
enc_key_valid = esp.is_flash_encryption_key_valid()
|
|
|
|
if not enc_key_valid:
|
|
print('Flash encryption key is not programmed')
|
|
do_write = False
|
|
|
|
# Determine which files list contain the ones to encrypt
|
|
files_to_encrypt = args.addr_filename if args.encrypt else args.encrypt_files
|
|
|
|
for address, argfile in files_to_encrypt:
|
|
if address % esp.FLASH_ENCRYPTED_WRITE_ALIGN:
|
|
print("File %s address 0x%x is not %d byte aligned, can't flash encrypted" %
|
|
(argfile.name, address, esp.FLASH_ENCRYPTED_WRITE_ALIGN))
|
|
do_write = False
|
|
|
|
if not do_write and not args.ignore_flash_encryption_efuse_setting:
|
|
raise FatalError("Can't perform encrypted flash write, consult Flash Encryption documentation for more information")
|
|
|
|
# verify file sizes fit in flash
|
|
if args.flash_size != 'keep': # TODO: check this even with 'keep'
|
|
flash_end = flash_size_bytes(args.flash_size)
|
|
for address, argfile in args.addr_filename:
|
|
argfile.seek(0, os.SEEK_END)
|
|
if address + argfile.tell() > flash_end:
|
|
raise FatalError(("File %s (length %d) at offset %d will not fit in %d bytes of flash. "
|
|
"Use --flash_size argument, or change flashing address.")
|
|
% (argfile.name, argfile.tell(), address, flash_end))
|
|
argfile.seek(0)
|
|
|
|
if args.erase_all:
|
|
erase_flash(esp, args)
|
|
else:
|
|
for address, argfile in args.addr_filename:
|
|
argfile.seek(0, os.SEEK_END)
|
|
write_end = address + argfile.tell()
|
|
argfile.seek(0)
|
|
bytes_over = address % esp.FLASH_SECTOR_SIZE
|
|
if bytes_over != 0:
|
|
print("WARNING: Flash address {:#010x} is not aligned to a {:#x} byte flash sector. "
|
|
"{:#x} bytes before this address will be erased."
|
|
.format(address, esp.FLASH_SECTOR_SIZE, bytes_over))
|
|
# Print the address range of to-be-erased flash memory region
|
|
print("Flash will be erased from {:#010x} to {:#010x}..."
|
|
.format(address - bytes_over, div_roundup(write_end, esp.FLASH_SECTOR_SIZE) * esp.FLASH_SECTOR_SIZE - 1))
|
|
|
|
""" Create a list describing all the files we have to flash. Each entry holds an "encrypt" flag
|
|
marking whether the file needs encryption or not. This list needs to be sorted.
|
|
|
|
First, append to each entry of our addr_filename list the flag args.encrypt
|
|
For example, if addr_filename is [(0x1000, "partition.bin"), (0x8000, "bootloader")],
|
|
all_files will be [(0x1000, "partition.bin", args.encrypt), (0x8000, "bootloader", args.encrypt)],
|
|
where, of course, args.encrypt is either True or False
|
|
"""
|
|
all_files = [(offs, filename, args.encrypt) for (offs, filename) in args.addr_filename]
|
|
|
|
"""Now do the same with encrypt_files list, if defined.
|
|
In this case, the flag is True
|
|
"""
|
|
if args.encrypt_files is not None:
|
|
encrypted_files_flag = [(offs, filename, True) for (offs, filename) in args.encrypt_files]
|
|
|
|
# Concatenate both lists and sort them.
|
|
# As both list are already sorted, we could simply do a merge instead,
|
|
# but for the sake of simplicity and because the lists are very small,
|
|
# let's use sorted.
|
|
all_files = sorted(all_files + encrypted_files_flag, key=lambda x: x[0])
|
|
|
|
for address, argfile, encrypted in all_files:
|
|
compress = args.compress
|
|
|
|
# Check whether we can compress the current file before flashing
|
|
if compress and encrypted:
|
|
print('\nWARNING: - compress and encrypt options are mutually exclusive ')
|
|
print('Will flash %s uncompressed' % argfile.name)
|
|
compress = False
|
|
|
|
if args.no_stub:
|
|
print('Erasing flash...')
|
|
image = pad_to(argfile.read(), esp.FLASH_ENCRYPTED_WRITE_ALIGN if encrypted else 4)
|
|
if len(image) == 0:
|
|
print('WARNING: File %s is empty' % argfile.name)
|
|
continue
|
|
image = _update_image_flash_params(esp, address, args, image)
|
|
calcmd5 = hashlib.md5(image).hexdigest()
|
|
uncsize = len(image)
|
|
if compress:
|
|
uncimage = image
|
|
image = zlib.compress(uncimage, 9)
|
|
# Decompress the compressed binary a block at a time, to dynamically calculate the
|
|
# timeout based on the real write size
|
|
decompress = zlib.decompressobj()
|
|
blocks = esp.flash_defl_begin(uncsize, len(image), address)
|
|
else:
|
|
blocks = esp.flash_begin(uncsize, address, begin_rom_encrypted=encrypted)
|
|
argfile.seek(0) # in case we need it again
|
|
seq = 0
|
|
bytes_sent = 0 # bytes sent on wire
|
|
bytes_written = 0 # bytes written to flash
|
|
t = time.time()
|
|
|
|
timeout = DEFAULT_TIMEOUT
|
|
|
|
while len(image) > 0:
|
|
print_overwrite('Writing at 0x%08x... (%d %%)' % (address + bytes_written, 100 * (seq + 1) // blocks))
|
|
sys.stdout.flush()
|
|
block = image[0:esp.FLASH_WRITE_SIZE]
|
|
if compress:
|
|
# feeding each compressed block into the decompressor lets us see block-by-block how much will be written
|
|
block_uncompressed = len(decompress.decompress(block))
|
|
bytes_written += block_uncompressed
|
|
block_timeout = max(DEFAULT_TIMEOUT, timeout_per_mb(ERASE_WRITE_TIMEOUT_PER_MB, block_uncompressed))
|
|
if not esp.IS_STUB:
|
|
timeout = block_timeout # ROM code writes block to flash before ACKing
|
|
esp.flash_defl_block(block, seq, timeout=timeout)
|
|
if esp.IS_STUB:
|
|
timeout = block_timeout # Stub ACKs when block is received, then writes to flash while receiving the block after it
|
|
else:
|
|
# Pad the last block
|
|
block = block + b'\xff' * (esp.FLASH_WRITE_SIZE - len(block))
|
|
if encrypted:
|
|
esp.flash_encrypt_block(block, seq)
|
|
else:
|
|
esp.flash_block(block, seq)
|
|
bytes_written += len(block)
|
|
bytes_sent += len(block)
|
|
image = image[esp.FLASH_WRITE_SIZE:]
|
|
seq += 1
|
|
|
|
if esp.IS_STUB:
|
|
# Stub only writes each block to flash after 'ack'ing the receive, so do a final dummy operation which will
|
|
# not be 'ack'ed until the last block has actually been written out to flash
|
|
esp.read_reg(ESPLoader.CHIP_DETECT_MAGIC_REG_ADDR, timeout=timeout)
|
|
|
|
t = time.time() - t
|
|
speed_msg = ""
|
|
if compress:
|
|
if t > 0.0:
|
|
speed_msg = " (effective %.1f kbit/s)" % (uncsize / t * 8 / 1000)
|
|
print_overwrite('Wrote %d bytes (%d compressed) at 0x%08x in %.1f seconds%s...' % (uncsize,
|
|
bytes_sent,
|
|
address, t, speed_msg), last_line=True)
|
|
else:
|
|
if t > 0.0:
|
|
speed_msg = " (%.1f kbit/s)" % (bytes_written / t * 8 / 1000)
|
|
print_overwrite('Wrote %d bytes at 0x%08x in %.1f seconds%s...' % (bytes_written, address, t, speed_msg), last_line=True)
|
|
|
|
if not encrypted and not esp.secure_download_mode:
|
|
try:
|
|
res = esp.flash_md5sum(address, uncsize)
|
|
if res != calcmd5:
|
|
print('File md5: %s' % calcmd5)
|
|
print('Flash md5: %s' % res)
|
|
print('MD5 of 0xFF is %s' % (hashlib.md5(b'\xFF' * uncsize).hexdigest()))
|
|
raise FatalError("MD5 of file does not match data in flash!")
|
|
else:
|
|
print('Hash of data verified.')
|
|
except NotImplementedInROMError:
|
|
pass
|
|
|
|
print('\nLeaving...')
|
|
|
|
if esp.IS_STUB:
|
|
# skip sending flash_finish to ROM loader here,
|
|
# as it causes the loader to exit and run user code
|
|
esp.flash_begin(0, 0)
|
|
|
|
# Get the "encrypted" flag for the last file flashed
|
|
# Note: all_files list contains triplets like:
|
|
# (address: Integer, filename: String, encrypted: Boolean)
|
|
last_file_encrypted = all_files[-1][2]
|
|
|
|
# Check whether the last file flashed was compressed or not
|
|
if args.compress and not last_file_encrypted:
|
|
esp.flash_defl_finish(False)
|
|
else:
|
|
esp.flash_finish(False)
|
|
|
|
if args.verify:
|
|
print('Verifying just-written flash...')
|
|
print('(This option is deprecated, flash contents are now always read back after flashing.)')
|
|
# If some encrypted files have been flashed print a warning saying that we won't check them
|
|
if args.encrypt or args.encrypt_files is not None:
|
|
print('WARNING: - cannot verify encrypted files, they will be ignored')
|
|
# Call verify_flash function only if there at least one non-encrypted file flashed
|
|
if not args.encrypt:
|
|
verify_flash(esp, args)
|
|
|
|
|
|
def image_info(args):
|
|
if args.chip == "auto":
|
|
print("WARNING: --chip not specified, defaulting to ESP8266.")
|
|
image = LoadFirmwareImage(args.chip, args.filename)
|
|
print('Image version: %d' % image.version)
|
|
if args.chip != 'auto' and args.chip != 'esp8266':
|
|
print(
|
|
"Minimal chip revision:",
|
|
"v{}.{},".format(image.min_rev_full // 100, image.min_rev_full % 100),
|
|
"(legacy min_rev = {})".format(image.min_rev)
|
|
)
|
|
print(
|
|
"Maximal chip revision:",
|
|
"v{}.{}".format(image.max_rev_full // 100, image.max_rev_full % 100),
|
|
)
|
|
print('Entry point: %08x' % image.entrypoint if image.entrypoint != 0 else 'Entry point not set')
|
|
print('%d segments' % len(image.segments))
|
|
print()
|
|
idx = 0
|
|
for seg in image.segments:
|
|
idx += 1
|
|
segs = seg.get_memory_type(image)
|
|
seg_name = ",".join(segs)
|
|
print('Segment %d: %r [%s]' % (idx, seg, seg_name))
|
|
calc_checksum = image.calculate_checksum()
|
|
print('Checksum: %02x (%s)' % (image.checksum,
|
|
'valid' if image.checksum == calc_checksum else 'invalid - calculated %02x' % calc_checksum))
|
|
try:
|
|
digest_msg = 'Not appended'
|
|
if image.append_digest:
|
|
is_valid = image.stored_digest == image.calc_digest
|
|
digest_msg = "%s (%s)" % (hexify(image.calc_digest).lower(),
|
|
"valid" if is_valid else "invalid")
|
|
print('Validation Hash: %s' % digest_msg)
|
|
except AttributeError:
|
|
pass # ESP8266 image has no append_digest field
|
|
|
|
|
|
def make_image(args):
|
|
image = ESP8266ROMFirmwareImage()
|
|
if len(args.segfile) == 0:
|
|
raise FatalError('No segments specified')
|
|
if len(args.segfile) != len(args.segaddr):
|
|
raise FatalError('Number of specified files does not match number of specified addresses')
|
|
for (seg, addr) in zip(args.segfile, args.segaddr):
|
|
with open(seg, 'rb') as f:
|
|
data = f.read()
|
|
image.segments.append(ImageSegment(addr, data))
|
|
image.entrypoint = args.entrypoint
|
|
image.save(args.output)
|
|
|
|
|
|
def elf2image(args):
|
|
e = ELFFile(args.input)
|
|
if args.chip == 'auto': # Default to ESP8266 for backwards compatibility
|
|
args.chip = 'esp8266'
|
|
|
|
print("Creating {} image...".format(args.chip))
|
|
|
|
if args.chip == 'esp32':
|
|
image = ESP32FirmwareImage()
|
|
if args.secure_pad:
|
|
image.secure_pad = '1'
|
|
elif args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32s2':
|
|
image = ESP32S2FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32s3beta2':
|
|
image = ESP32S3BETA2FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32s3':
|
|
image = ESP32S3FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32c3':
|
|
image = ESP32C3FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32c6beta':
|
|
image = ESP32C6BETAFirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32h2beta1':
|
|
image = ESP32H2BETA1FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32h2beta2':
|
|
image = ESP32H2BETA2FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.chip == 'esp32c2':
|
|
image = ESP32C2FirmwareImage()
|
|
if args.secure_pad_v2:
|
|
image.secure_pad = '2'
|
|
elif args.version == '1': # ESP8266
|
|
image = ESP8266ROMFirmwareImage()
|
|
elif args.version == '2':
|
|
image = ESP8266V2FirmwareImage()
|
|
else:
|
|
image = ESP8266V3FirmwareImage()
|
|
image.entrypoint = e.entrypoint
|
|
image.flash_mode = {'qio': 0, 'qout': 1, 'dio': 2, 'dout': 3}[args.flash_mode]
|
|
|
|
if args.chip != 'esp8266':
|
|
image.min_rev = args.min_rev
|
|
image.min_rev_full = args.min_rev_full
|
|
image.max_rev_full = args.max_rev_full
|
|
|
|
if args.flash_mmu_page_size:
|
|
image.set_mmu_page_size(flash_size_bytes(args.flash_mmu_page_size))
|
|
|
|
# ELFSection is a subclass of ImageSegment, so can use interchangeably
|
|
image.segments = e.segments if args.use_segments else e.sections
|
|
|
|
if args.pad_to_size:
|
|
image.pad_to_size = flash_size_bytes(args.pad_to_size)
|
|
|
|
image.flash_size_freq = image.ROM_LOADER.parse_flash_size_arg(args.flash_size)
|
|
image.flash_size_freq += image.ROM_LOADER.parse_flash_freq_arg(args.flash_freq)
|
|
|
|
if args.elf_sha256_offset:
|
|
image.elf_sha256 = e.sha256()
|
|
image.elf_sha256_offset = args.elf_sha256_offset
|
|
|
|
before = len(image.segments)
|
|
image.merge_adjacent_segments()
|
|
if len(image.segments) != before:
|
|
delta = before - len(image.segments)
|
|
print("Merged %d ELF section%s" % (delta, "s" if delta > 1 else ""))
|
|
|
|
image.verify()
|
|
|
|
if args.output is None:
|
|
args.output = image.default_output_name(args.input)
|
|
image.save(args.output)
|
|
|
|
print("Successfully created {} image.".format(args.chip))
|
|
|
|
|
|
def read_mac(esp, args):
|
|
mac = esp.read_mac()
|
|
|
|
def print_mac(label, mac):
|
|
print('%s: %s' % (label, ':'.join(map(lambda x: '%02x' % x, mac))))
|
|
print_mac("MAC", mac)
|
|
|
|
|
|
def chip_id(esp, args):
|
|
try:
|
|
chipid = esp.chip_id()
|
|
print('Chip ID: 0x%08x' % chipid)
|
|
except NotSupportedError:
|
|
print('Warning: %s has no Chip ID. Reading MAC instead.' % esp.CHIP_NAME)
|
|
read_mac(esp, args)
|
|
|
|
|
|
def erase_flash(esp, args):
|
|
print('Erasing flash (this may take a while)...')
|
|
t = time.time()
|
|
esp.erase_flash()
|
|
print('Chip erase completed successfully in %.1fs' % (time.time() - t))
|
|
|
|
|
|
def erase_region(esp, args):
|
|
print('Erasing region (may be slow depending on size)...')
|
|
t = time.time()
|
|
esp.erase_region(args.address, args.size)
|
|
print('Erase completed successfully in %.1f seconds.' % (time.time() - t))
|
|
|
|
|
|
def run(esp, args):
|
|
esp.run()
|
|
|
|
|
|
def flash_id(esp, args):
|
|
flash_id = esp.flash_id()
|
|
print('Manufacturer: %02x' % (flash_id & 0xff))
|
|
flid_lowbyte = (flash_id >> 16) & 0xFF
|
|
print('Device: %02x%02x' % ((flash_id >> 8) & 0xff, flid_lowbyte))
|
|
print('Detected flash size: %s' % (DETECTED_FLASH_SIZES.get(flid_lowbyte, "Unknown")))
|
|
|
|
|
|
def read_flash(esp, args):
|
|
if args.no_progress:
|
|
flash_progress = None
|
|
else:
|
|
def flash_progress(progress, length):
|
|
msg = '%d (%d %%)' % (progress, progress * 100.0 / length)
|
|
padding = '\b' * len(msg)
|
|
if progress == length:
|
|
padding = '\n'
|
|
sys.stdout.write(msg + padding)
|
|
sys.stdout.flush()
|
|
t = time.time()
|
|
data = esp.read_flash(args.address, args.size, flash_progress)
|
|
t = time.time() - t
|
|
print_overwrite('Read %d bytes at 0x%x in %.1f seconds (%.1f kbit/s)...'
|
|
% (len(data), args.address, t, len(data) / t * 8 / 1000), last_line=True)
|
|
with open(args.filename, 'wb') as f:
|
|
f.write(data)
|
|
|
|
|
|
def verify_flash(esp, args):
|
|
differences = False
|
|
|
|
for address, argfile in args.addr_filename:
|
|
image = pad_to(argfile.read(), 4)
|
|
argfile.seek(0) # rewind in case we need it again
|
|
|
|
image = _update_image_flash_params(esp, address, args, image)
|
|
|
|
image_size = len(image)
|
|
print('Verifying 0x%x (%d) bytes @ 0x%08x in flash against %s...' % (image_size, image_size, address, argfile.name))
|
|
# Try digest first, only read if there are differences.
|
|
digest = esp.flash_md5sum(address, image_size)
|
|
expected_digest = hashlib.md5(image).hexdigest()
|
|
if digest == expected_digest:
|
|
print('-- verify OK (digest matched)')
|
|
continue
|
|
else:
|
|
differences = True
|
|
if getattr(args, 'diff', 'no') != 'yes':
|
|
print('-- verify FAILED (digest mismatch)')
|
|
continue
|
|
|
|
flash = esp.read_flash(address, image_size)
|
|
assert flash != image
|
|
diff = [i for i in range(image_size) if flash[i] != image[i]]
|
|
print('-- verify FAILED: %d differences, first @ 0x%08x' % (len(diff), address + diff[0]))
|
|
for d in diff:
|
|
flash_byte = flash[d]
|
|
image_byte = image[d]
|
|
if PYTHON2:
|
|
flash_byte = ord(flash_byte)
|
|
image_byte = ord(image_byte)
|
|
print(' %08x %02x %02x' % (address + d, flash_byte, image_byte))
|
|
if differences:
|
|
raise FatalError("Verify failed.")
|
|
|
|
|
|
def read_flash_status(esp, args):
|
|
print('Status value: 0x%04x' % esp.read_status(args.bytes))
|
|
|
|
|
|
def write_flash_status(esp, args):
|
|
fmt = "0x%%0%dx" % (args.bytes * 2)
|
|
args.value = args.value & ((1 << (args.bytes * 8)) - 1)
|
|
print(('Initial flash status: ' + fmt) % esp.read_status(args.bytes))
|
|
print(('Setting flash status: ' + fmt) % args.value)
|
|
esp.write_status(args.value, args.bytes, args.non_volatile)
|
|
print(('After flash status: ' + fmt) % esp.read_status(args.bytes))
|
|
|
|
|
|
def get_security_info(esp, args):
|
|
si = esp.get_security_info()
|
|
# TODO: better display and tests
|
|
print('Flags: {:#010x} ({})'.format(si["flags"], bin(si["flags"])))
|
|
print('Flash_Crypt_Cnt: {:#x}'.format(si["flash_crypt_cnt"]))
|
|
print('Key_Purposes: {}'.format(si["key_purposes"]))
|
|
if si["chip_id"] is not None and si["api_version"] is not None:
|
|
print('Chip_ID: {}'.format(si["chip_id"]))
|
|
print('Api_Version: {}'.format(si["api_version"]))
|
|
|
|
|
|
def merge_bin(args):
|
|
try:
|
|
chip_class = _chip_to_rom_loader(args.chip)
|
|
except KeyError:
|
|
msg = "Please specify the chip argument" if args.chip == "auto" else "Invalid chip choice: '{}'".format(args.chip)
|
|
msg = msg + " (choose from {})".format(', '.join(SUPPORTED_CHIPS))
|
|
raise FatalError(msg)
|
|
|
|
# sort the files by offset. The AddrFilenamePairAction has already checked for overlap
|
|
input_files = sorted(args.addr_filename, key=lambda x: x[0])
|
|
if not input_files:
|
|
raise FatalError("No input files specified")
|
|
first_addr = input_files[0][0]
|
|
if first_addr < args.target_offset:
|
|
raise FatalError("Output file target offset is 0x%x. Input file offset 0x%x is before this." % (args.target_offset, first_addr))
|
|
|
|
if args.format != 'raw':
|
|
raise FatalError("This version of esptool only supports the 'raw' output format")
|
|
|
|
with open(args.output, 'wb') as of:
|
|
def pad_to(flash_offs):
|
|
# account for output file offset if there is any
|
|
of.write(b'\xFF' * (flash_offs - args.target_offset - of.tell()))
|
|
for addr, argfile in input_files:
|
|
pad_to(addr)
|
|
image = argfile.read()
|
|
image = _update_image_flash_params(chip_class, addr, args, image)
|
|
of.write(image)
|
|
if args.fill_flash_size:
|
|
pad_to(flash_size_bytes(args.fill_flash_size))
|
|
print("Wrote 0x%x bytes to file %s, ready to flash to offset 0x%x" % (of.tell(), args.output, args.target_offset))
|
|
|
|
|
|
def version(args):
|
|
print(__version__)
|
|
|
|
#
|
|
# End of operations functions
|
|
#
|
|
|
|
|
|
def main(argv=None, esp=None):
|
|
"""
|
|
Main function for esptool
|
|
|
|
argv - Optional override for default arguments parsing (that uses sys.argv), can be a list of custom arguments
|
|
as strings. Arguments and their values need to be added as individual items to the list e.g. "-b 115200" thus
|
|
becomes ['-b', '115200'].
|
|
|
|
esp - Optional override of the connected device previously returned by get_default_connected_device()
|
|
"""
|
|
|
|
external_esp = esp is not None
|
|
|
|
parser = argparse.ArgumentParser(description='esptool.py v%s - Espressif chips ROM Bootloader Utility' % __version__, prog='esptool')
|
|
|
|
parser.add_argument('--chip', '-c',
|
|
help='Target chip type',
|
|
type=format_chip_name, # support ESP32-S2, etc.
|
|
choices=['auto'] + SUPPORTED_CHIPS,
|
|
default=os.environ.get('ESPTOOL_CHIP', 'auto'))
|
|
|
|
parser.add_argument(
|
|
'--port', '-p',
|
|
help='Serial port device',
|
|
default=os.environ.get('ESPTOOL_PORT', None))
|
|
|
|
parser.add_argument(
|
|
'--baud', '-b',
|
|
help='Serial port baud rate used when flashing/reading',
|
|
type=arg_auto_int,
|
|
default=os.environ.get('ESPTOOL_BAUD', ESPLoader.ESP_ROM_BAUD))
|
|
|
|
parser.add_argument(
|
|
'--before',
|
|
help='What to do before connecting to the chip',
|
|
choices=['default_reset', 'usb_reset', 'no_reset', 'no_reset_no_sync'],
|
|
default=os.environ.get('ESPTOOL_BEFORE', 'default_reset'))
|
|
|
|
parser.add_argument(
|
|
'--after', '-a',
|
|
help='What to do after esptool.py is finished',
|
|
choices=['hard_reset', 'soft_reset', 'no_reset', 'no_reset_stub'],
|
|
default=os.environ.get('ESPTOOL_AFTER', 'hard_reset'))
|
|
|
|
parser.add_argument(
|
|
'--no-stub',
|
|
help="Disable launching the flasher stub, only talk to ROM bootloader. Some features will not be available.",
|
|
action='store_true')
|
|
|
|
parser.add_argument(
|
|
'--trace', '-t',
|
|
help="Enable trace-level output of esptool.py interactions.",
|
|
action='store_true')
|
|
|
|
parser.add_argument(
|
|
'--override-vddsdio',
|
|
help="Override ESP32 VDDSDIO internal voltage regulator (use with care)",
|
|
choices=ESP32ROM.OVERRIDE_VDDSDIO_CHOICES,
|
|
nargs='?')
|
|
|
|
parser.add_argument(
|
|
'--connect-attempts',
|
|
help=('Number of attempts to connect, negative or 0 for infinite. '
|
|
'Default: %d.' % DEFAULT_CONNECT_ATTEMPTS),
|
|
type=int,
|
|
default=os.environ.get('ESPTOOL_CONNECT_ATTEMPTS', DEFAULT_CONNECT_ATTEMPTS))
|
|
|
|
subparsers = parser.add_subparsers(
|
|
dest='operation',
|
|
help='Run esptool {command} -h for additional help')
|
|
|
|
def add_spi_connection_arg(parent):
|
|
parent.add_argument('--spi-connection', '-sc', help='ESP32-only argument. Override default SPI Flash connection. '
|
|
'Value can be SPI, HSPI or a comma-separated list of 5 I/O numbers to use for SPI flash (CLK,Q,D,HD,CS).',
|
|
action=SpiConnectionAction)
|
|
|
|
parser_load_ram = subparsers.add_parser(
|
|
'load_ram',
|
|
help='Download an image to RAM and execute')
|
|
parser_load_ram.add_argument('filename', help='Firmware image')
|
|
|
|
parser_dump_mem = subparsers.add_parser(
|
|
'dump_mem',
|
|
help='Dump arbitrary memory to disk')
|
|
parser_dump_mem.add_argument('address', help='Base address', type=arg_auto_int)
|
|
parser_dump_mem.add_argument('size', help='Size of region to dump', type=arg_auto_int)
|
|
parser_dump_mem.add_argument('filename', help='Name of binary dump')
|
|
|
|
parser_read_mem = subparsers.add_parser(
|
|
'read_mem',
|
|
help='Read arbitrary memory location')
|
|
parser_read_mem.add_argument('address', help='Address to read', type=arg_auto_int)
|
|
|
|
parser_write_mem = subparsers.add_parser(
|
|
'write_mem',
|
|
help='Read-modify-write to arbitrary memory location')
|
|
parser_write_mem.add_argument('address', help='Address to write', type=arg_auto_int)
|
|
parser_write_mem.add_argument('value', help='Value', type=arg_auto_int)
|
|
parser_write_mem.add_argument('mask', help='Mask of bits to write', type=arg_auto_int, nargs='?', default='0xFFFFFFFF')
|
|
|
|
def add_spi_flash_subparsers(parent, allow_keep, auto_detect):
|
|
""" Add common parser arguments for SPI flash properties """
|
|
extra_keep_args = ['keep'] if allow_keep else []
|
|
|
|
if auto_detect and allow_keep:
|
|
extra_fs_message = ", detect, or keep"
|
|
elif auto_detect:
|
|
extra_fs_message = ", or detect"
|
|
elif allow_keep:
|
|
extra_fs_message = ", or keep"
|
|
else:
|
|
extra_fs_message = ""
|
|
|
|
parent.add_argument('--flash_freq', '-ff', help='SPI Flash frequency',
|
|
choices=extra_keep_args + ['80m', '60m', '48m', '40m', '30m', '26m', '24m', '20m', '16m', '15m', '12m'],
|
|
default=os.environ.get('ESPTOOL_FF', 'keep' if allow_keep else '40m'))
|
|
parent.add_argument('--flash_mode', '-fm', help='SPI Flash mode',
|
|
choices=extra_keep_args + ['qio', 'qout', 'dio', 'dout'],
|
|
default=os.environ.get('ESPTOOL_FM', 'keep' if allow_keep else 'qio'))
|
|
parent.add_argument('--flash_size', '-fs', help='SPI Flash size in MegaBytes (1MB, 2MB, 4MB, 8MB, 16MB, 32MB, 64MB, 128MB)'
|
|
' plus ESP8266-only (256KB, 512KB, 2MB-c1, 4MB-c1)' + extra_fs_message,
|
|
action=FlashSizeAction, auto_detect=auto_detect,
|
|
default=os.environ.get('ESPTOOL_FS', 'keep' if allow_keep else '1MB'))
|
|
add_spi_connection_arg(parent)
|
|
|
|
parser_write_flash = subparsers.add_parser(
|
|
'write_flash',
|
|
help='Write a binary blob to flash')
|
|
|
|
parser_write_flash.add_argument('addr_filename', metavar='<address> <filename>', help='Address followed by binary filename, separated by space',
|
|
action=AddrFilenamePairAction)
|
|
parser_write_flash.add_argument('--erase-all', '-e',
|
|
help='Erase all regions of flash (not just write areas) before programming',
|
|
action="store_true")
|
|
|
|
add_spi_flash_subparsers(parser_write_flash, allow_keep=True, auto_detect=True)
|
|
parser_write_flash.add_argument('--no-progress', '-p', help='Suppress progress output', action="store_true")
|
|
parser_write_flash.add_argument('--verify', help='Verify just-written data on flash '
|
|
'(mostly superfluous, data is read back during flashing)', action='store_true')
|
|
parser_write_flash.add_argument('--encrypt', help='Apply flash encryption when writing data (required correct efuse settings)',
|
|
action='store_true')
|
|
# In order to not break backward compatibility, our list of encrypted files to flash is a new parameter
|
|
parser_write_flash.add_argument('--encrypt-files', metavar='<address> <filename>',
|
|
help='Files to be encrypted on the flash. Address followed by binary filename, separated by space.',
|
|
action=AddrFilenamePairAction)
|
|
parser_write_flash.add_argument('--ignore-flash-encryption-efuse-setting', help='Ignore flash encryption efuse settings ',
|
|
action='store_true')
|
|
|
|
compress_args = parser_write_flash.add_mutually_exclusive_group(required=False)
|
|
compress_args.add_argument('--compress', '-z', help='Compress data in transfer (default unless --no-stub is specified)',
|
|
action="store_true", default=None)
|
|
compress_args.add_argument('--no-compress', '-u', help='Disable data compression during transfer (default if --no-stub is specified)',
|
|
action="store_true")
|
|
|
|
subparsers.add_parser(
|
|
'run',
|
|
help='Run application code in flash')
|
|
|
|
parser_image_info = subparsers.add_parser(
|
|
'image_info',
|
|
help='Dump headers from an application image')
|
|
parser_image_info.add_argument('filename', help='Image file to parse')
|
|
|
|
parser_make_image = subparsers.add_parser(
|
|
'make_image',
|
|
help='Create an application image from binary files')
|
|
parser_make_image.add_argument('output', help='Output image file')
|
|
parser_make_image.add_argument('--segfile', '-f', action='append', help='Segment input file')
|
|
parser_make_image.add_argument('--segaddr', '-a', action='append', help='Segment base address', type=arg_auto_int)
|
|
parser_make_image.add_argument('--entrypoint', '-e', help='Address of entry point', type=arg_auto_int, default=0)
|
|
|
|
parser_elf2image = subparsers.add_parser(
|
|
'elf2image',
|
|
help='Create an application image from ELF file')
|
|
parser_elf2image.add_argument('input', help='Input ELF file')
|
|
parser_elf2image.add_argument('--output', '-o', help='Output filename prefix (for version 1 image), or filename (for version 2 single image)', type=str)
|
|
parser_elf2image.add_argument('--version', '-e', help='Output image version', choices=['1', '2', '3'], default='1')
|
|
parser_elf2image.add_argument(
|
|
# kept for compatibility
|
|
# Minimum chip revision (deprecated, consider using --min-rev-full)
|
|
"--min-rev",
|
|
"-r",
|
|
# In v3 we do not do help=argparse.SUPPRESS because
|
|
# it should remain visible.
|
|
help="Minimal chip revision (ECO version format)",
|
|
type=int,
|
|
choices=range(256),
|
|
metavar="{0, ... 255}",
|
|
default=0,
|
|
)
|
|
parser_elf2image.add_argument(
|
|
"--min-rev-full",
|
|
help="Minimal chip revision (in format: major * 100 + minor)",
|
|
type=int,
|
|
choices=range(65536),
|
|
metavar="{0, ... 65535}",
|
|
default=0,
|
|
)
|
|
parser_elf2image.add_argument(
|
|
"--max-rev-full",
|
|
help="Maximal chip revision (in format: major * 100 + minor)",
|
|
type=int,
|
|
choices=range(65536),
|
|
metavar="{0, ... 65535}",
|
|
default=65535,
|
|
)
|
|
parser_elf2image.add_argument('--secure-pad', action='store_true',
|
|
help='Pad image so once signed it will end on a 64KB boundary. For Secure Boot v1 images only.')
|
|
parser_elf2image.add_argument('--secure-pad-v2', action='store_true',
|
|
help='Pad image to 64KB, so once signed its signature sector will start at the next 64K block. '
|
|
'For Secure Boot v2 images only.')
|
|
parser_elf2image.add_argument('--elf-sha256-offset', help='If set, insert SHA256 hash (32 bytes) of the input ELF file at specified offset in the binary.',
|
|
type=arg_auto_int, default=None)
|
|
parser_elf2image.add_argument('--use_segments', help='If set, ELF segments will be used instead of ELF sections to genereate the image.',
|
|
action='store_true')
|
|
parser_elf2image.add_argument('--flash-mmu-page-size', help="Change flash MMU page size.", choices=['64KB', '32KB', '16KB'])
|
|
parser_elf2image.add_argument(
|
|
"--pad-to-size",
|
|
help="The block size with which the final binary image after padding must be aligned to. Value 0xFF is used for padding, similar to erase_flash",
|
|
default=None,
|
|
)
|
|
add_spi_flash_subparsers(parser_elf2image, allow_keep=False, auto_detect=False)
|
|
|
|
subparsers.add_parser(
|
|
'read_mac',
|
|
help='Read MAC address from OTP ROM')
|
|
|
|
subparsers.add_parser(
|
|
'chip_id',
|
|
help='Read Chip ID from OTP ROM')
|
|
|
|
parser_flash_id = subparsers.add_parser(
|
|
'flash_id',
|
|
help='Read SPI flash manufacturer and device ID')
|
|
add_spi_connection_arg(parser_flash_id)
|
|
|
|
parser_read_status = subparsers.add_parser(
|
|
'read_flash_status',
|
|
help='Read SPI flash status register')
|
|
|
|
add_spi_connection_arg(parser_read_status)
|
|
parser_read_status.add_argument('--bytes', help='Number of bytes to read (1-3)', type=int, choices=[1, 2, 3], default=2)
|
|
|
|
parser_write_status = subparsers.add_parser(
|
|
'write_flash_status',
|
|
help='Write SPI flash status register')
|
|
|
|
add_spi_connection_arg(parser_write_status)
|
|
parser_write_status.add_argument('--non-volatile', help='Write non-volatile bits (use with caution)', action='store_true')
|
|
parser_write_status.add_argument('--bytes', help='Number of status bytes to write (1-3)', type=int, choices=[1, 2, 3], default=2)
|
|
parser_write_status.add_argument('value', help='New value', type=arg_auto_int)
|
|
|
|
parser_read_flash = subparsers.add_parser(
|
|
'read_flash',
|
|
help='Read SPI flash content')
|
|
add_spi_connection_arg(parser_read_flash)
|
|
parser_read_flash.add_argument('address', help='Start address', type=arg_auto_int)
|
|
parser_read_flash.add_argument('size', help='Size of region to dump', type=arg_auto_int)
|
|
parser_read_flash.add_argument('filename', help='Name of binary dump')
|
|
parser_read_flash.add_argument('--no-progress', '-p', help='Suppress progress output', action="store_true")
|
|
|
|
parser_verify_flash = subparsers.add_parser(
|
|
'verify_flash',
|
|
help='Verify a binary blob against flash')
|
|
parser_verify_flash.add_argument('addr_filename', help='Address and binary file to verify there, separated by space',
|
|
action=AddrFilenamePairAction)
|
|
parser_verify_flash.add_argument('--diff', '-d', help='Show differences',
|
|
choices=['no', 'yes'], default='no')
|
|
add_spi_flash_subparsers(parser_verify_flash, allow_keep=True, auto_detect=True)
|
|
|
|
parser_erase_flash = subparsers.add_parser(
|
|
'erase_flash',
|
|
help='Perform Chip Erase on SPI flash')
|
|
add_spi_connection_arg(parser_erase_flash)
|
|
|
|
parser_erase_region = subparsers.add_parser(
|
|
'erase_region',
|
|
help='Erase a region of the flash')
|
|
add_spi_connection_arg(parser_erase_region)
|
|
parser_erase_region.add_argument('address', help='Start address (must be multiple of 4096)', type=arg_auto_int)
|
|
parser_erase_region.add_argument('size', help='Size of region to erase (must be multiple of 4096)', type=arg_auto_int)
|
|
|
|
parser_merge_bin = subparsers.add_parser(
|
|
'merge_bin',
|
|
help='Merge multiple raw binary files into a single file for later flashing')
|
|
|
|
parser_merge_bin.add_argument('--output', '-o', help='Output filename', type=str, required=True)
|
|
parser_merge_bin.add_argument('--format', '-f', help='Format of the output file', choices='raw', default='raw') # for future expansion
|
|
add_spi_flash_subparsers(parser_merge_bin, allow_keep=True, auto_detect=False)
|
|
|
|
parser_merge_bin.add_argument('--target-offset', '-t', help='Target offset where the output file will be flashed',
|
|
type=arg_auto_int, default=0)
|
|
parser_merge_bin.add_argument('--fill-flash-size', help='If set, the final binary file will be padded with FF '
|
|
'bytes up to this flash size.', action=FlashSizeAction)
|
|
parser_merge_bin.add_argument('addr_filename', metavar='<address> <filename>',
|
|
help='Address followed by binary filename, separated by space',
|
|
action=AddrFilenamePairAction)
|
|
|
|
subparsers.add_parser('get_security_info', help='Get some security-related data')
|
|
|
|
subparsers.add_parser('version', help='Print esptool version')
|
|
|
|
# internal sanity check - every operation matches a module function of the same name
|
|
for operation in subparsers.choices.keys():
|
|
assert operation in globals(), "%s should be a module function" % operation
|
|
|
|
argv = expand_file_arguments(argv or sys.argv[1:])
|
|
|
|
args = parser.parse_args(argv)
|
|
print('esptool.py v%s' % __version__)
|
|
|
|
# operation function can take 1 arg (args), 2 args (esp, arg)
|
|
# or be a member function of the ESPLoader class.
|
|
|
|
if args.operation is None:
|
|
parser.print_help()
|
|
sys.exit(1)
|
|
|
|
# Forbid the usage of both --encrypt, which means encrypt all the given files,
|
|
# and --encrypt-files, which represents the list of files to encrypt.
|
|
# The reason is that allowing both at the same time increases the chances of
|
|
# having contradictory lists (e.g. one file not available in one of list).
|
|
if args.operation == "write_flash" and args.encrypt and args.encrypt_files is not None:
|
|
raise FatalError("Options --encrypt and --encrypt-files must not be specified at the same time.")
|
|
|
|
operation_func = globals()[args.operation]
|
|
|
|
if PYTHON2:
|
|
# This function is depreciated in Python3
|
|
operation_args = inspect.getargspec(operation_func).args
|
|
else:
|
|
operation_args = inspect.getfullargspec(operation_func).args
|
|
|
|
if operation_args[0] == 'esp': # operation function takes an ESPLoader connection object
|
|
if args.before != "no_reset_no_sync":
|
|
initial_baud = min(ESPLoader.ESP_ROM_BAUD, args.baud) # don't sync faster than the default baud rate
|
|
else:
|
|
initial_baud = args.baud
|
|
|
|
if args.port is None:
|
|
ser_list = get_port_list()
|
|
print("Found %d serial ports" % len(ser_list))
|
|
else:
|
|
ser_list = [args.port]
|
|
esp = esp or get_default_connected_device(ser_list, port=args.port, connect_attempts=args.connect_attempts,
|
|
initial_baud=initial_baud, chip=args.chip, trace=args.trace,
|
|
before=args.before)
|
|
|
|
if esp is None:
|
|
raise FatalError("Could not connect to an Espressif device on any of the %d available serial ports." % len(ser_list))
|
|
|
|
if esp.secure_download_mode:
|
|
print("Chip is %s in Secure Download Mode" % esp.CHIP_NAME)
|
|
else:
|
|
print("Chip is %s" % (esp.get_chip_description()))
|
|
print("Features: %s" % ", ".join(esp.get_chip_features()))
|
|
print("Crystal is %dMHz" % esp.get_crystal_freq())
|
|
read_mac(esp, args)
|
|
|
|
if not args.no_stub:
|
|
if esp.secure_download_mode:
|
|
print("WARNING: Stub loader is not supported in Secure Download Mode, setting --no-stub")
|
|
args.no_stub = True
|
|
elif not esp.IS_STUB and esp.stub_is_disabled:
|
|
print("WARNING: Stub loader has been disabled for compatibility, setting --no-stub")
|
|
args.no_stub = True
|
|
else:
|
|
esp = esp.run_stub()
|
|
|
|
if args.override_vddsdio:
|
|
esp.override_vddsdio(args.override_vddsdio)
|
|
|
|
if args.baud > initial_baud:
|
|
try:
|
|
esp.change_baud(args.baud)
|
|
except NotImplementedInROMError:
|
|
print("WARNING: ROM doesn't support changing baud rate. Keeping initial baud rate %d" % initial_baud)
|
|
|
|
# override common SPI flash parameter stuff if configured to do so
|
|
if hasattr(args, "spi_connection") and args.spi_connection is not None:
|
|
if esp.CHIP_NAME != "ESP32":
|
|
raise FatalError("Chip %s does not support --spi-connection option." % esp.CHIP_NAME)
|
|
print("Configuring SPI flash mode...")
|
|
esp.flash_spi_attach(args.spi_connection)
|
|
elif args.no_stub:
|
|
print("Enabling default SPI flash mode...")
|
|
# ROM loader doesn't enable flash unless we explicitly do it
|
|
esp.flash_spi_attach(0)
|
|
|
|
# XMC chip startup sequence
|
|
XMC_VENDOR_ID = 0x20
|
|
|
|
def is_xmc_chip_strict():
|
|
id = esp.flash_id()
|
|
rdid = ((id & 0xff) << 16) | ((id >> 16) & 0xff) | (id & 0xff00)
|
|
|
|
vendor_id = ((rdid >> 16) & 0xFF)
|
|
mfid = ((rdid >> 8) & 0xFF)
|
|
cpid = (rdid & 0xFF)
|
|
|
|
if vendor_id != XMC_VENDOR_ID:
|
|
return False
|
|
|
|
matched = False
|
|
if mfid == 0x40:
|
|
if cpid >= 0x13 and cpid <= 0x20:
|
|
matched = True
|
|
elif mfid == 0x41:
|
|
if cpid >= 0x17 and cpid <= 0x20:
|
|
matched = True
|
|
elif mfid == 0x50:
|
|
if cpid >= 0x15 and cpid <= 0x16:
|
|
matched = True
|
|
return matched
|
|
|
|
def flash_xmc_startup():
|
|
# If the RDID value is a valid XMC one, may skip the flow
|
|
fast_check = True
|
|
if fast_check and is_xmc_chip_strict():
|
|
return # Successful XMC flash chip boot-up detected by RDID, skipping.
|
|
|
|
sfdp_mfid_addr = 0x10
|
|
mf_id = esp.read_spiflash_sfdp(sfdp_mfid_addr, 8)
|
|
if mf_id != XMC_VENDOR_ID: # Non-XMC chip detected by SFDP Read, skipping.
|
|
return
|
|
|
|
print("WARNING: XMC flash chip boot-up failure detected! Running XMC25QHxxC startup flow")
|
|
esp.run_spiflash_command(0xB9) # Enter DPD
|
|
esp.run_spiflash_command(0x79) # Enter UDPD
|
|
esp.run_spiflash_command(0xFF) # Exit UDPD
|
|
time.sleep(0.002) # Delay tXUDPD
|
|
esp.run_spiflash_command(0xAB) # Release Power-Down
|
|
time.sleep(0.00002)
|
|
# Check for success
|
|
if not is_xmc_chip_strict():
|
|
print("WARNING: XMC flash boot-up fix failed.")
|
|
print("XMC flash chip boot-up fix successful!")
|
|
|
|
# Check flash chip connection
|
|
if not esp.secure_download_mode:
|
|
try:
|
|
flash_id = esp.flash_id()
|
|
if flash_id in (0xffffff, 0x000000):
|
|
print('WARNING: Failed to communicate with the flash chip, read/write operations will fail. '
|
|
'Try checking the chip connections or removing any other hardware connected to IOs.')
|
|
except Exception as e:
|
|
esp.trace('Unable to verify flash chip connection ({}).'.format(e))
|
|
|
|
# Check if XMC SPI flash chip booted-up successfully, fix if not
|
|
if not esp.secure_download_mode:
|
|
try:
|
|
flash_xmc_startup()
|
|
except Exception as e:
|
|
esp.trace('Unable to perform XMC flash chip startup sequence ({}).'.format(e))
|
|
|
|
if hasattr(args, "flash_size"):
|
|
print("Configuring flash size...")
|
|
detect_flash_size(esp, args)
|
|
if args.flash_size != 'keep': # TODO: should set this even with 'keep'
|
|
esp.flash_set_parameters(flash_size_bytes(args.flash_size))
|
|
# Check if stub supports chosen flash size
|
|
if esp.IS_STUB and args.flash_size in ('32MB', '64MB', '128MB'):
|
|
print("WARNING: Flasher stub doesn't fully support flash size larger than 16MB, in case of failure use --no-stub.")
|
|
|
|
if esp.IS_STUB and hasattr(args, "address") and hasattr(args, "size"):
|
|
if args.address + args.size > 0x1000000:
|
|
print("WARNING: Flasher stub doesn't fully support flash size larger than 16MB, in case of failure use --no-stub.")
|
|
|
|
try:
|
|
operation_func(esp, args)
|
|
finally:
|
|
try: # Clean up AddrFilenamePairAction files
|
|
for address, argfile in args.addr_filename:
|
|
argfile.close()
|
|
except AttributeError:
|
|
pass
|
|
|
|
# Handle post-operation behaviour (reset or other)
|
|
if operation_func == load_ram:
|
|
# the ESP is now running the loaded image, so let it run
|
|
print('Exiting immediately.')
|
|
elif args.after == 'hard_reset':
|
|
esp.hard_reset()
|
|
elif args.after == 'soft_reset':
|
|
print('Soft resetting...')
|
|
# flash_finish will trigger a soft reset
|
|
esp.soft_reset(False)
|
|
elif args.after == 'no_reset_stub':
|
|
print('Staying in flasher stub.')
|
|
else: # args.after == 'no_reset'
|
|
print('Staying in bootloader.')
|
|
if esp.IS_STUB:
|
|
esp.soft_reset(True) # exit stub back to ROM loader
|
|
|
|
if not external_esp:
|
|
esp._port.close()
|
|
|
|
else:
|
|
operation_func(args)
|
|
|
|
|
|
def get_port_list():
|
|
if list_ports is None:
|
|
raise FatalError("Listing all serial ports is currently not available. Please try to specify the port when "
|
|
"running esptool.py or update the pyserial package to the latest version")
|
|
return sorted(ports.device for ports in list_ports.comports())
|
|
|
|
|
|
def expand_file_arguments(argv):
|
|
""" Any argument starting with "@" gets replaced with all values read from a text file.
|
|
Text file arguments can be split by newline or by space.
|
|
Values are added "as-is", as if they were specified in this order on the command line.
|
|
"""
|
|
new_args = []
|
|
expanded = False
|
|
for arg in argv:
|
|
if arg.startswith("@"):
|
|
expanded = True
|
|
with open(arg[1:], "r") as f:
|
|
for line in f.readlines():
|
|
new_args += shlex.split(line)
|
|
else:
|
|
new_args.append(arg)
|
|
if expanded:
|
|
print("esptool.py %s" % (" ".join(new_args[1:])))
|
|
return new_args
|
|
return argv
|
|
|
|
|
|
class FlashSizeAction(argparse.Action):
|
|
""" Custom flash size parser class to support backwards compatibility with megabit size arguments.
|
|
|
|
(At next major relase, remove deprecated sizes and this can become a 'normal' choices= argument again.)
|
|
"""
|
|
def __init__(self, option_strings, dest, nargs=1, auto_detect=False, **kwargs):
|
|
super(FlashSizeAction, self).__init__(option_strings, dest, nargs, **kwargs)
|
|
self._auto_detect = auto_detect
|
|
|
|
def __call__(self, parser, namespace, values, option_string=None):
|
|
try:
|
|
value = {
|
|
'2m': '256KB',
|
|
'4m': '512KB',
|
|
'8m': '1MB',
|
|
'16m': '2MB',
|
|
'32m': '4MB',
|
|
'16m-c1': '2MB-c1',
|
|
'32m-c1': '4MB-c1',
|
|
}[values[0]]
|
|
print("WARNING: Flash size arguments in megabits like '%s' are deprecated." % (values[0]))
|
|
print("Please use the equivalent size '%s'." % (value))
|
|
print("Megabit arguments may be removed in a future release.")
|
|
except KeyError:
|
|
value = values[0]
|
|
|
|
known_sizes = dict(ESP8266ROM.FLASH_SIZES)
|
|
known_sizes.update(ESP32ROM.FLASH_SIZES)
|
|
if self._auto_detect:
|
|
known_sizes['detect'] = 'detect'
|
|
known_sizes['keep'] = 'keep'
|
|
if value not in known_sizes:
|
|
raise argparse.ArgumentError(self, '%s is not a known flash size. Known sizes: %s' % (value, ", ".join(known_sizes.keys())))
|
|
setattr(namespace, self.dest, value)
|
|
|
|
|
|
class SpiConnectionAction(argparse.Action):
|
|
""" Custom action to parse 'spi connection' override. Values are SPI, HSPI, or a sequence of 5 pin numbers separated by commas.
|
|
"""
|
|
def __call__(self, parser, namespace, value, option_string=None):
|
|
if value.upper() == "SPI":
|
|
value = 0
|
|
elif value.upper() == "HSPI":
|
|
value = 1
|
|
elif "," in value:
|
|
values = value.split(",")
|
|
if len(values) != 5:
|
|
raise argparse.ArgumentError(self, '%s is not a valid list of comma-separate pin numbers. Must be 5 numbers - CLK,Q,D,HD,CS.' % value)
|
|
try:
|
|
values = tuple(int(v, 0) for v in values)
|
|
except ValueError:
|
|
raise argparse.ArgumentError(self, '%s is not a valid argument. All pins must be numeric values' % values)
|
|
if any([v for v in values if v > 33 or v < 0]):
|
|
raise argparse.ArgumentError(self, 'Pin numbers must be in the range 0-33.')
|
|
# encode the pin numbers as a 32-bit integer with packed 6-bit values, the same way ESP32 ROM takes them
|
|
# TODO: make this less ESP32 ROM specific somehow...
|
|
clk, q, d, hd, cs = values
|
|
value = (hd << 24) | (cs << 18) | (d << 12) | (q << 6) | clk
|
|
else:
|
|
raise argparse.ArgumentError(self, '%s is not a valid spi-connection value. '
|
|
'Values are SPI, HSPI, or a sequence of 5 pin numbers CLK,Q,D,HD,CS).' % value)
|
|
setattr(namespace, self.dest, value)
|
|
|
|
|
|
class AddrFilenamePairAction(argparse.Action):
|
|
""" Custom parser class for the address/filename pairs passed as arguments """
|
|
def __init__(self, option_strings, dest, nargs='+', **kwargs):
|
|
super(AddrFilenamePairAction, self).__init__(option_strings, dest, nargs, **kwargs)
|
|
|
|
def __call__(self, parser, namespace, values, option_string=None):
|
|
# validate pair arguments
|
|
pairs = []
|
|
for i in range(0, len(values), 2):
|
|
try:
|
|
address = int(values[i], 0)
|
|
except ValueError:
|
|
raise argparse.ArgumentError(self, 'Address "%s" must be a number' % values[i])
|
|
try:
|
|
argfile = open(values[i + 1], 'rb')
|
|
except IOError as e:
|
|
raise argparse.ArgumentError(self, e)
|
|
except IndexError:
|
|
raise argparse.ArgumentError(self, 'Must be pairs of an address and the binary filename to write there')
|
|
pairs.append((address, argfile))
|
|
|
|
# Sort the addresses and check for overlapping
|
|
end = 0
|
|
for address, argfile in sorted(pairs, key=lambda x: x[0]):
|
|
argfile.seek(0, 2) # seek to end
|
|
size = argfile.tell()
|
|
argfile.seek(0)
|
|
sector_start = address & ~(ESPLoader.FLASH_SECTOR_SIZE - 1)
|
|
sector_end = ((address + size + ESPLoader.FLASH_SECTOR_SIZE - 1) & ~(ESPLoader.FLASH_SECTOR_SIZE - 1)) - 1
|
|
if sector_start < end:
|
|
message = 'Detected overlap at address: 0x%x for file: %s' % (address, argfile.name)
|
|
raise argparse.ArgumentError(self, message)
|
|
end = sector_end
|
|
setattr(namespace, self.dest, pairs)
|
|
|
|
|
|
# Binary stub code (see flasher_stub dir for source & details)
|
|
ESP8266ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
eNq9Pftj1DbS/4rthCQbkiLZXq/Mo2w2yQItXCEcKddL28gvelxpwzZXcj34/vbP85Jl7yaB67U/LFl5ZWk0M5q3xH8265/OF//evB1oNUlNmmTjeCfYrOy5bZ8VmycXypxcGH1y0dT328aYP2n7Ue0nbj9J+5lw\
|
|
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|
|
sia6FsXKK9HJAvclGGmo+SA64E6lc/oD7+zJ/iJlbNphEqBJo/0uQVTzvRyEV3e960QOTGz8ZRT+h3eHuhf0AP6/FTJlzCV3TfjrkjQ8lMLgQ5GgO11o03J4tR8PkXuP4NhA0+DlB7a/oyAwZb6+66WfxcrNPK/N\
|
|
yxJ+uniFiFHsLiBCo/4BZ0AAe6UXeFCZd623HE5RUKZVxzSYnBqcbER8WctSWkRuRiuAw8c4FR4ZiUa8sXoRGWcs4T1oY/QOEBrsjTdC9UW7DI/nfWNZSdF7rTPR3KvYe6gkimwNa7PgwpgmwzsFEjgCU4xHTw+8\
|
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i+zS7hCdIGaCxzAVM5AuInfyRGkw6IuDYw6n1JNMYmmRD4Ch4hd8Msm8EEq8yoyjz8Gj4y6Myb3aRWwB/LEPP8ROLlsCBWEo8tgCO2M4m2Ous2v8DjJLWT6/DpCl66mxzCDD4c+DRP7nBcoULr0T+9jtfpa7pr//\
|
|
5dwuzr3/OyU1/H+n+L8kk1ilxnz4f3giyVw=\
|
|
""")))
|
|
ESP32ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
eNqVWm1z2zYS/iuyEtmRL+kAFEUCvutEdh3ZTtKp3TaKk1PvSoJkk7uMx3Z0Y8VN/vth3wiQUtO7D7JJEFzsLnaffQF/31vV69XewaDcW66V8T+1XDfp0+Vau+gGLtqbIl2u69LfVDAtPMkO4XLHXxf+1yzXTg1g\
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|
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|
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|
|
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|
|
UWCYq78Px9NO35wTz4Uc1+ofWDEV8V7yqVQjFZahUz/Mq2XMSW3S0egvgGel2YW1bkj6SocoWrBxOjz935VzXx6ggFrA4bvhJjlko5i5lZEXFtxRL20bgdXqOlB27p5gBI82uWKWl7R8JiJnL/kWrU3fslUy3yTH\
|
|
J/k+AcJ/U60tgUxhPE+20echd62yMZ8PYJjNCACLKZ8R6ZR9CS0uP3s1j76NAROxbRXzgTQMXMOA5bYgNEcCBXN2OX8fcMFyryhMsGdv5o1MOB0tUmI1HP6kW7BMDwRAv9l8arTuD87/0a4AVp5xHyEs8vjPAHN3\
|
|
S26polZG9pq10Tk3bL/kk4XawuFR+FoL8xv8iCoJHzYY1qqkSgo/AJp8pq5pyB93abrKd4e0FaZX426cp6vxA1kXfXUohBtoWNGaw/Zcfi98mEWs4ewnfHi17cy+ks/0RLSs8+owsNLV1d7jAX4u+s+Pq+IWPhrV\
|
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Kk+niVdi6p/UV6vbT+2gnurMD1bFqoi+LuWzjT1+EhOaZGo6TdMv/wXshTKs\
|
|
""")))
|
|
ESP32S2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
eNqVW3t33TQS/yo3TvNsu0i2ry13YfMALild6AvSwuacxZbtcvb05CRpIEkp+9lX87LG9i2wf9zGlqXRSDP6zUv9bee6u73eebRods5ujQs/A7+fzm6tVy/0wC+1v39223cHoU9sLo7gz0b4UIdff3brzQJagGQa\
|
|
vvXVqHk3/JMvwmOVh1+YqktDSxF+Sz0bDFzSQGfD32JEJLAC5AMF54j7GtrMdSBn1HKapAcuQmsZugKNHOgAs3ZEsKJutg2tAw/fLQ4PvjOHB7TCwC2MaSeMBAbCrA6ezL3TE/qKPeu/0nM8I/wehFnhL/9RPyeM\
|
|
dLAzXlbSECXjaeFxPl4UMtOovawmjFXpz/QQW3BXT+/mKwgUP4TWFBaRGJAjSGG+CvgdEr+dMBv6BRFUdWSla9V++Slb1WRBY67Wz0kbPG0zlkcb1l8gID/skC9EzhvCijsGhjdJO2vYchdX4WvSWAe9YOthV1EE\
|
|
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|
|
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|
|
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|
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|
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+rqe/Hebvj3Y4S8jQkWaGpP//j8geRE3\
|
|
""")))
|
|
ESP32S3BETA2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
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|
|
""")))
|
|
ESP32S3ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
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ycpyUbqszLs3zcXm6kYeWrMy8LD2G88/JVad6rv8Ri+U5aUrCvv5/wDWE/uZ\
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""")))
|
|
ESP32C3ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
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|
2JPh/i7GZklhkqv/AdnBtYo=\
|
|
""")))
|
|
ESP32C6BETAROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
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a/I8sbZITLxST2cXnxeD/X6viIOhnJX6dihAFZ1pX4a7sxibJc4k8/8BksMRng==\
|
|
""")))
|
|
ESP32H2BETA1ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
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|
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9SAhj0c/Jp+HlEUfpZDdk9peiU6fNMuTFXyyu563HKlLAb+WfWIAUBreEEIoJhWfEcCY5Iv8ZKAt/kT6UFQfv2xfAa+v9kMcqLKzrTcIa28An3/g8nGLWj57vn+CyyeTaaeHT5Rgtr9Zo5c9//VhWl7hlU9r8jyx\
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tkhMuNJcTK8+zQf7/V4RButyWuq7oQBVcKZtGe7OYmyWOJPM/gf0hhEn\
|
|
""")))
|
|
ESP32H2BETA2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
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|
|
""")))
|
|
ESP32C2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
|
|
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|
|
KIFWbaN3AEV3WWOKRSRZdk2K1AOp6hXfdOWNSbrBNeiqw62x0WRt/lF8Zu1T/t2QeVAcKr9YIqR/yD3ApzT4SFmBt2vz5+1L2OvLxxH+6/z17TeIZm9gO3/H4yctKvj86eMjPD6aznpdeEICs/PtBr2R+ePHWXWO\
|
|
9zKtKYrU2jI18UlzOjv/vBhMkkEZB0M1q/QFThhVdKYdGe5TMQOXuSKf/xdxa/YZ\
|
|
""")))
|
|
|
|
|
|
def _main():
|
|
try:
|
|
main()
|
|
except FatalError as e:
|
|
print('\nA fatal error occurred: %s' % e)
|
|
sys.exit(2)
|
|
|
|
|
|
if __name__ == '__main__':
|
|
_main()
|