Ollo/Wordclock
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
a2df4e3137
Wordclock/os/esptool.py

4019 lines
185 KiB
Python
Raw Normal View History

Changed to python3
2023-03-02 20:20:28 +01:00
#!/usr/bin/env python3
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
#
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# ESP8266 & ESP32 family ROM Bootloader Utility
# Copyright (C) 2014-2016 Fredrik Ahlberg, Angus Gratton, Espressif Systems (Shanghai) PTE LTD, other contributors as noted.
# https://github.com/espressif/esptool
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later version.
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
#
# This program is distributed in the hope that it will be useful, but WITHOUT
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
# Street, Fifth Floor, Boston, MA 02110-1301 USA.
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
from __future__ import division, print_function
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
import argparse
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
import base64
import binascii
import copy
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
import hashlib
import inspect
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
import io
import itertools
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
import os
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
import shlex
import string
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
import struct
import sys
import time
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
import zlib
try:
import serial
except ImportError:
print("Pyserial is not installed for %s. Check the README for installation instructions." % (sys.executable))
raise
# check 'serial' is 'pyserial' and not 'serial' https://github.com/espressif/esptool/issues/269
try:
if "serialization" in serial.__doc__ and "deserialization" in serial.__doc__:
raise ImportError("""
esptool.py depends on pyserial, but there is a conflict with a currently installed package named 'serial'.
You may be able to work around this by 'pip uninstall serial; pip install pyserial' \
but this may break other installed Python software that depends on 'serial'.
There is no good fix for this right now, apart from configuring virtualenvs. \
See https://github.com/espressif/esptool/issues/269#issuecomment-385298196 for discussion of the underlying issue(s).""")
except TypeError:
pass # __doc__ returns None for pyserial
try:
import serial.tools.list_ports as list_ports
except ImportError:
print("The installed version (%s) of pyserial appears to be too old for esptool.py (Python interpreter %s). "
"Check the README for installation instructions." % (sys.VERSION, sys.executable))
raise
except Exception:
if sys.platform == "darwin":
# swallow the exception, this is a known issue in pyserial+macOS Big Sur preview ref https://github.com/espressif/esptool/issues/540
list_ports = None
else:
raise
__version__ = "3.1-dev"
MAX_UINT32 = 0xffffffff
MAX_UINT24 = 0xffffff
DEFAULT_TIMEOUT = 3 # timeout for most flash operations
START_FLASH_TIMEOUT = 20 # timeout for starting flash (may perform erase)
CHIP_ERASE_TIMEOUT = 120 # timeout for full chip erase
MAX_TIMEOUT = CHIP_ERASE_TIMEOUT * 2 # longest any command can run
SYNC_TIMEOUT = 0.1 # timeout for syncing with bootloader
MD5_TIMEOUT_PER_MB = 8 # timeout (per megabyte) for calculating md5sum
ERASE_REGION_TIMEOUT_PER_MB = 30 # timeout (per megabyte) for erasing a region
COMP_BLOCK_WRITE_TIMEOUT_PER_MB = 3 # timeout (per megabyte) for writing compressed data
MEM_END_ROM_TIMEOUT = 0.05 # special short timeout for ESP_MEM_END, as it may never respond
DEFAULT_SERIAL_WRITE_TIMEOUT = 10 # timeout for serial port write
DEFAULT_CONNECT_ATTEMPTS = 7 # default number of times to try connection
def timeout_per_mb(seconds_per_mb, size_bytes):
""" Scales timeouts which are size-specific """
result = seconds_per_mb * (size_bytes / 1e6)
if result < DEFAULT_TIMEOUT:
return DEFAULT_TIMEOUT
return result
DETECTED_FLASH_SIZES = {0x12: '256KB', 0x13: '512KB', 0x14: '1MB',
0x15: '2MB', 0x16: '4MB', 0x17: '8MB', 0x18: '16MB'}
def check_supported_function(func, check_func):
"""
Decorator implementation that wraps a check around an ESPLoader
bootloader function to check if it's supported.
This is used to capture the multidimensional differences in
functionality between the ESP8266 & ESP32/32S2/32S3/32C3 ROM loaders, and the
software stub that runs on both. Not possible to do this cleanly
via inheritance alone.
"""
def inner(*args, **kwargs):
obj = args[0]
if check_func(obj):
return func(*args, **kwargs)
else:
raise NotImplementedInROMError(obj, func)
return inner
def stub_function_only(func):
""" Attribute for a function only supported in the software stub loader """
return check_supported_function(func, lambda o: o.IS_STUB)
def stub_and_esp32_function_only(func):
""" Attribute for a function only supported by software stubs or ESP32/32S2/32S3/32C3 ROM """
return check_supported_function(func, lambda o: o.IS_STUB or isinstance(o, ESP32ROM))
PYTHON2 = sys.version_info[0] < 3 # True if on pre-Python 3
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Function to return nth byte of a bitstring
# Different behaviour on Python 2 vs 3
if PYTHON2:
def byte(bitstr, index):
return ord(bitstr[index])
else:
def byte(bitstr, index):
return bitstr[index]
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Provide a 'basestring' class on Python 3
try:
basestring
except NameError:
basestring = str
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def print_overwrite(message, last_line=False):
""" Print a message, overwriting the currently printed line.
If last_line is False, don't append a newline at the end (expecting another subsequent call will overwrite this one.)
After a sequence of calls with last_line=False, call once with last_line=True.
If output is not a TTY (for example redirected a pipe), no overwriting happens and this function is the same as print().
"""
if sys.stdout.isatty():
print("\r%s" % message, end='\n' if last_line else '')
else:
print(message)
def _mask_to_shift(mask):
""" Return the index of the least significant bit in the mask """
shift = 0
while mask & 0x1 == 0:
shift += 1
mask >>= 1
return shift
def esp8266_function_only(func):
""" Attribute for a function only supported on ESP8266 """
return check_supported_function(func, lambda o: o.CHIP_NAME == "ESP8266")
class ESPLoader(object):
""" Base class providing access to ESP ROM & software stub bootloaders.
Subclasses provide ESP8266 & ESP32 specific functionality.
Don't instantiate this base class directly, either instantiate a subclass or
call ESPLoader.detect_chip() which will interrogate the chip and return the
appropriate subclass instance.
"""
CHIP_NAME = "Espressif device"
IS_STUB = False
DEFAULT_PORT = "/dev/ttyUSB0"
# Commands supported by ESP8266 ROM bootloader
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
ESP_FLASH_BEGIN = 0x02
ESP_FLASH_DATA = 0x03
ESP_FLASH_END = 0x04
ESP_MEM_BEGIN = 0x05
ESP_MEM_END = 0x06
ESP_MEM_DATA = 0x07
ESP_SYNC = 0x08
ESP_WRITE_REG = 0x09
ESP_READ_REG = 0x0a
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Some comands supported by ESP32 ROM bootloader (or -8266 w/ stub)
ESP_SPI_SET_PARAMS = 0x0B
ESP_SPI_ATTACH = 0x0D
ESP_READ_FLASH_SLOW = 0x0e # ROM only, much slower than the stub flash read
ESP_CHANGE_BAUDRATE = 0x0F
ESP_FLASH_DEFL_BEGIN = 0x10
ESP_FLASH_DEFL_DATA = 0x11
ESP_FLASH_DEFL_END = 0x12
ESP_SPI_FLASH_MD5 = 0x13
# Commands supported by ESP32-S2/S3/C3 ROM bootloader only
ESP_GET_SECURITY_INFO = 0x14
# Some commands supported by stub only
ESP_ERASE_FLASH = 0xD0
ESP_ERASE_REGION = 0xD1
ESP_READ_FLASH = 0xD2
ESP_RUN_USER_CODE = 0xD3
# Flash encryption encrypted data command
ESP_FLASH_ENCRYPT_DATA = 0xD4
# Response code(s) sent by ROM
ROM_INVALID_RECV_MSG = 0x05 # response if an invalid message is received
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
# Maximum block sized for RAM and Flash writes, respectively.
ESP_RAM_BLOCK = 0x1800
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
FLASH_WRITE_SIZE = 0x400
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
# Default baudrate. The ROM auto-bauds, so we can use more or less whatever we want.
ESP_ROM_BAUD = 115200
# First byte of the application image
ESP_IMAGE_MAGIC = 0xe9
# Initial state for the checksum routine
ESP_CHECKSUM_MAGIC = 0xef
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# Flash sector size, minimum unit of erase.
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
FLASH_SECTOR_SIZE = 0x1000
UART_DATE_REG_ADDR = 0x60000078
CHIP_DETECT_MAGIC_REG_ADDR = 0x40001000 # This ROM address has a different value on each chip model
UART_CLKDIV_MASK = 0xFFFFF
# Memory addresses
IROM_MAP_START = 0x40200000
IROM_MAP_END = 0x40300000
# The number of bytes in the UART response that signify command status
STATUS_BYTES_LENGTH = 2
def __init__(self, port=DEFAULT_PORT, baud=ESP_ROM_BAUD, trace_enabled=False):
"""Base constructor for ESPLoader bootloader interaction
Don't call this constructor, either instantiate ESP8266ROM
or ESP32ROM, or use ESPLoader.detect_chip().
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
This base class has all of the instance methods for bootloader
functionality supported across various chips & stub
loaders. Subclasses replace the functions they don't support
with ones which throw NotImplementedInROMError().
"""
self.secure_download_mode = False # flag is set to True if esptool detects the ROM is in Secure Download Mode
if isinstance(port, basestring):
self._port = serial.serial_for_url(port)
else:
self._port = port
self._slip_reader = slip_reader(self._port, self.trace)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# setting baud rate in a separate step is a workaround for
# CH341 driver on some Linux versions (this opens at 9600 then
# sets), shouldn't matter for other platforms/drivers. See
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# https://github.com/espressif/esptool/issues/44#issuecomment-107094446
self._set_port_baudrate(baud)
self._trace_enabled = trace_enabled
# set write timeout, to prevent esptool blocked at write forever.
try:
self._port.write_timeout = DEFAULT_SERIAL_WRITE_TIMEOUT
except NotImplementedError:
# no write timeout for RFC2217 ports
# need to set the property back to None or it will continue to fail
self._port.write_timeout = None
def _set_port_baudrate(self, baud):
try:
self._port.baudrate = baud
except IOError:
raise FatalError("Failed to set baud rate %d. The driver may not support this rate." % baud)
@staticmethod
def detect_chip(port=DEFAULT_PORT, baud=ESP_ROM_BAUD, connect_mode='default_reset', trace_enabled=False,
connect_attempts=DEFAULT_CONNECT_ATTEMPTS):
""" Use serial access to detect the chip type.
We use the UART's datecode register for this, it's mapped at
the same address on ESP8266 & ESP32 so we can use one
memory read and compare to the datecode register for each chip
type.
This routine automatically performs ESPLoader.connect() (passing
connect_mode parameter) as part of querying the chip.
"""
detect_port = ESPLoader(port, baud, trace_enabled=trace_enabled)
detect_port.connect(connect_mode, connect_attempts, detecting=True)
try:
print('Detecting chip type...', end='')
sys.stdout.flush()
chip_magic_value = detect_port.read_reg(ESPLoader.CHIP_DETECT_MAGIC_REG_ADDR)
for cls in [ESP8266ROM, ESP32ROM, ESP32S2ROM, ESP32S3BETA2ROM, ESP32C3ROM]:
if chip_magic_value == cls.CHIP_DETECT_MAGIC_VALUE:
# don't connect a second time
inst = cls(detect_port._port, baud, trace_enabled=trace_enabled)
inst._post_connect()
print(' %s' % inst.CHIP_NAME, end='')
return inst
except UnsupportedCommandError:
raise FatalError("Unsupported Command Error received. Probably this means Secure Download Mode is enabled, "
"autodetection will not work. Need to manually specify the chip.")
finally:
print('') # end line
raise FatalError("Unexpected CHIP magic value 0x%08x. Failed to autodetect chip type." % (chip_magic_value))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
""" Read a SLIP packet from the serial port """
def read(self):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
return next(self._slip_reader)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Write bytes to the serial port while performing SLIP escaping """
def write(self, packet):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
buf = b'\xc0' \
+ (packet.replace(b'\xdb', b'\xdb\xdd').replace(b'\xc0', b'\xdb\xdc')) \
+ b'\xc0'
self.trace("Write %d bytes: %s", len(buf), HexFormatter(buf))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
self._port.write(buf)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def trace(self, message, *format_args):
if self._trace_enabled:
now = time.time()
try:
delta = now - self._last_trace
except AttributeError:
delta = 0.0
self._last_trace = now
prefix = "TRACE +%.3f " % delta
print(prefix + (message % format_args))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Calculate checksum of a blob, as it is defined by the ROM """
@staticmethod
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def checksum(data, state=ESP_CHECKSUM_MAGIC):
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for b in data:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if type(b) is int: # python 2/3 compat
state ^= b
else:
state ^= ord(b)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
return state
""" Send a request and read the response """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
raise FatalError("Response doesn't match request")
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
def sync(self):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
self.command(self.ESP_SYNC, b'\x07\x07\x12\x20' + 32 * b'\x55',
timeout=SYNC_TIMEOUT)
for i in range(7):
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
self.command()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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 _connect_attempt(self, mode='default_reset', esp32r0_delay=False):
""" A single connection attempt, with esp32r0 workaround options """
# esp32r0_delay is a workaround for bugs with the most common auto reset
# circuit and Windows, if the EN pin on the dev board does not have
# enough capacitance.
#
# Newer dev boards shouldn't have this problem (higher value capacitor
# on the EN pin), and ESP32 revision 1 can't use this workaround as it
# relies on a silicon bug.
#
# Details: https://github.com/espressif/esptool/issues/136
last_error = None
# 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
# issue reset-to-bootloader:
# 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 mode != 'no_reset':
self._setDTR(False) # IO0=HIGH
self._setRTS(True) # EN=LOW, chip in reset
time.sleep(0.1)
if esp32r0_delay:
# Some chips are more likely to trigger the esp32r0
# watchdog reset silicon bug if they're held with EN=LOW
# for a longer period
time.sleep(1.2)
self._setDTR(True) # IO0=LOW
self._setRTS(False) # EN=HIGH, chip out of reset
if esp32r0_delay:
# Sleep longer after reset.
# This workaround only works on revision 0 ESP32 chips,
# it exploits a silicon bug spurious watchdog reset.
time.sleep(0.4) # allow watchdog reset to occur
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
time.sleep(0.05)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
self._setDTR(False) # IO0=HIGH, done
for _ in range(5):
try:
self.flush_input()
self._port.flushOutput()
self.sync()
return None
except FatalError as e:
if esp32r0_delay:
print('_', end='')
else:
print('.', end='')
sys.stdout.flush()
time.sleep(0.05)
last_error = e
return last_error
def connect(self, mode='default_reset', attempts=DEFAULT_CONNECT_ATTEMPTS, detecting=False):
""" Try connecting repeatedly until successful, or giving up """
print('Connecting...', end='')
sys.stdout.flush()
last_error = None
try:
for _ in range(attempts) if attempts > 0 else itertools.count():
last_error = self._connect_attempt(mode=mode, esp32r0_delay=False)
if last_error is None:
break
last_error = self._connect_attempt(mode=mode, esp32r0_delay=True)
if last_error is None:
break
finally:
print('') # end 'Connecting...' line
if last_error is not None:
raise FatalError('Failed to connect to %s: %s' % (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 != self.CHIP_DETECT_MAGIC_VALUE:
actually = None
for cls in [ESP8266ROM, ESP32ROM, ESP32S2ROM, ESP32S3BETA2ROM, ESP32C3ROM]:
if chip_magic_value == cls.CHIP_DETECT_MAGIC_VALUE:
actually = cls
break
if 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()
def _post_connect(self):
"""
Additional initialization hook, may be overridden by the chip-specific class.
Gets called after connect, and after auto-detection.
"""
pass
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
def read_reg(self, addr):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" 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))
if byte(data, 0) != 0:
raise FatalError.WithResult("Failed to read register address %08x" % addr, data)
return val
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Write to memory address in target """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Start downloading an application image to RAM """
def mem_begin(self, size, blocks, blocksize, offset):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Send a block of an image to RAM """
def mem_block(self, data, seq):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
return self.check_command("write to target RAM", self.ESP_MEM_DATA,
struct.pack('<IIII', len(data), seq, 0, 0) + data,
self.checksum(data))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Leave download mode and run the application """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def mem_finish(self, entrypoint=0):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# 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
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" Start downloading to Flash (performs an erase)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
t = time.time()
if self.IS_STUB:
timeout = DEFAULT_TIMEOUT
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
else:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
timeout = timeout_per_mb(ERASE_REGION_TIMEOUT_PER_MB, size) # ROM performs the erase up front
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
params = struct.pack('<IIII', erase_size, num_blocks, self.FLASH_WRITE_SIZE, offset)
if isinstance(self, (ESP32S2ROM, ESP32S3BETA2ROM, ESP32C3ROM)) 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
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Write block to flash """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def flash_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
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)
""" Encrypt before writing to flash """
def flash_encrypt_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
if isinstance(self, (ESP32S2ROM, ESP32C3ROM)) 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)
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Leave flash mode and run/reboot """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def flash_finish(self, reboot=False):
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
pkt = struct.pack('<I', int(not reboot))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# stub sends a reply to this command
self.check_command("leave Flash mode", self.ESP_FLASH_END, pkt)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
""" Run application code in flash """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def run(self, reboot=False):
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
# Fake flash begin immediately followed by flash end
self.flash_begin(0, 0)
self.flash_finish(reboot)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" 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):
# TODO: this only works on the ESP32S2 ROM code loader and needs to work in stub loader also
res = self.check_command('get security info', self.ESP_GET_SECURITY_INFO, b'')
res = struct.unpack("<IBBBBBBBB", res)
flags, flash_crypt_cnt, key_purposes = res[0], res[1], res[2:]
# TODO: pack this as some kind of better data type
return (flags, flash_crypt_cnt, key_purposes)
def parse_flash_size_arg(self, arg):
try:
return self.FLASH_SIZES[arg]
except KeyError:
raise FatalError("Flash size '%s' is not supported by this chip type. Supported sizes: %s"
% (arg, ", ".join(self.FLASH_SIZES.keys())))
def run_stub(self, stub=None):
if stub is None:
if self.IS_STUB:
raise FatalError("Not possible for a stub to load another stub (memory likely to overlap.)")
stub = self.STUB_CODE
# 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, ESP32C3ROM)) 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
""" Write block to flash, send compressed """
@stub_and_esp32_function_only
def flash_defl_block(self, data, seq, timeout=DEFAULT_TIMEOUT):
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)
""" 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):
"""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_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_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 & 32S2/32C3 only
if self.SPI_MOSI_DLEN_OFFS is not None:
# ESP32/32S2/32C3 has 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)
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)
self.write_reg(SPI_DATA_LEN_REG,
(miso_mask << SPI_MISO_BITLEN_S) | (
mosi_mask << SPI_MOSI_BITLEN_S))
# SPI peripheral "command" bitmasks for SPI_CMD_REG
SPI_CMD_USR = (1 << 18)
# shift values
SPI_USR2_COMMAND_LEN_SHIFT = 28
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
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 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_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):
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)
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,
}
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_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
return "ESP8285" if is_8285 else "ESP8266EX"
def get_chip_features(self):
features = ["WiFi"]
if self.get_chip_description() == "ESP8285":
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
def read_mac(self):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" Read MAC from OTP ROM """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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:
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
oui = (0x18, 0xfe, 0x34)
elif ((mac1 >> 16) & 0xff) == 1:
oui = (0xac, 0xd0, 0x74)
else:
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
raise FatalError("Unknown OUI")
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
return oui + ((mac1 >> 8) & 0xff, mac1 & 0xff, (mac0 >> 24) & 0xff)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
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
SPI_W0_OFFS = 0x80
UART_CLKDIV_REG = 0x3ff40014
XTAL_CLK_DIVIDER = 1
FLASH_SIZES = {
'1MB': 0x00,
'2MB': 0x10,
'4MB': 0x20,
'8MB': 0x30,
'16MB': 0x40
}
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
def get_chip_revision(self):
word3 = self.read_efuse(3)
word5 = self.read_efuse(5)
apb_ctl_date = self.read_reg(self.DR_REG_SYSCON_BASE + 0x7C)
rev_bit0 = (word3 >> 15) & 0x1
rev_bit1 = (word5 >> 20) & 0x1
rev_bit2 = (apb_ctl_date >> 31) & 0x1
if rev_bit0:
if rev_bit1:
if rev_bit2:
return 3
else:
return 2
else:
return 1
return 0
def get_chip_description(self):
pkg_version = self.get_pkg_version()
chip_revision = self.get_chip_revision()
rev3 = (chip_revision == 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",
}.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 %d)" % (chip_name, chip_revision)
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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def chip_id(self):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
raise NotSupportedError(self, "chip_id")
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
class ESP32S2ROM(ESP32ROM):
CHIP_NAME = "ESP32-S2"
IMAGE_CHIP_ID = 2
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_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"]]
def get_pkg_version(self):
num_word = 3
block1_addr = self.EFUSE_BASE + 0x044
word3 = self.read_reg(block1_addr + (4 * num_word))
pkg_version = (word3 >> 21) & 0x0F
return pkg_version
def get_chip_description(self):
chip_name = {
0: "ESP32-S2",
1: "ESP32-S2FH16",
2: "ESP32-S2FH32",
}.get(self.get_pkg_version(), "unknown ESP32-S2")
return "%s" % (chip_name)
def get_chip_features(self):
features = ["WiFi"]
if self.secure_download_mode:
features += ["Secure Download Mode Enabled"]
pkg_version = self.get_pkg_version()
if pkg_version in [1, 2]:
if pkg_version == 1:
features += ["Embedded 2MB Flash"]
elif pkg_version == 2:
features += ["Embedded 4MB Flash"]
features += ["105C temp rating"]
num_word = 4
block2_addr = self.EFUSE_BASE + 0x05C
word4 = self.read_reg(block2_addr + (4 * num_word))
block2_version = (word4 >> 4) & 0x07
if block2_version == 1:
features += ["ADC and temperature sensor calibration in BLK2 of efuse"]
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")
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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("ERROR: {} 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 error, 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()
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:
self._setRTS(False)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
class ESP32S3BETA2ROM(ESP32ROM):
CHIP_NAME = "ESP32-S3(beta2)"
IMAGE_CHIP_ID = 4
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
IROM_MAP_START = 0x42000000
IROM_MAP_END = 0x44000000
DROM_MAP_START = 0x3c000000
DROM_MAP_END = 0x3e000000
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
UART_DATE_REG_ADDR = 0x60000080
CHIP_DETECT_MAGIC_VALUE = 0xeb004136
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
EFUSE_REG_BASE = 0x6001A030 # BLOCK0 read base address
MAC_EFUSE_REG = 0x6001A000 # ESP32S3 has special block for MAC efuses
UART_CLKDIV_REG = 0x60000014
GPIO_STRAP_REG = 0x60004038
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"]]
def get_chip_description(self):
return "ESP32-S3(beta2)"
def get_chip_features(self):
return ["WiFi", "BLE"]
def get_crystal_freq(self):
# ESP32S3 XTAL is fixed to 40MHz
return 40
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)
class ESP32C3ROM(ESP32ROM):
CHIP_NAME = "ESP32-C3"
IMAGE_CHIP_ID = 5
IROM_MAP_START = 0x42000000
IROM_MAP_END = 0x42800000
DROM_MAP_START = 0x3c000000
DROM_MAP_END = 0x3c800000
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 = 0xA8
BOOTLOADER_FLASH_OFFSET = 0x0
CHIP_DETECT_MAGIC_VALUE = 0x6921506f
UART_DATE_REG_ADDR = 0x60000000 + 0x7c
EFUSE_BASE = 0x60008800
MAC_EFUSE_REG = EFUSE_BASE + 0x044
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"]]
def get_pkg_version(self):
num_word = 3
block1_addr = self.EFUSE_BASE + 0x044
word3 = self.read_reg(block1_addr + (4 * num_word))
pkg_version = (word3 >> 21) & 0x0F
return pkg_version
def get_chip_description(self):
chip_name = {
0: "ESP32-C3",
}.get(self.get_pkg_version(), "unknown ESP32-C3")
return "%s" % (chip_name)
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)
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 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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
class ESPBOOTLOADER(object):
""" These are constants related to software ESP 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
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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.
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
Returns a BaseFirmwareImage subclass, either ESP8266ROMFirmwareImage (v1) or ESP8266V2FirmwareImage (v2).
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
"""
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
chip = chip.lower().replace("-", "")
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
with open(filename, 'rb') as f:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if chip == 'esp32':
return ESP32FirmwareImage(f)
elif chip == "esp32s2":
return ESP32S2FirmwareImage(f)
elif chip == "esp32s3beta2":
return ESP32S3BETA2FirmwareImage(f)
elif chip == 'esp32c3':
return ESP32C3FirmwareImage(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 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__())
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
class BaseFirmwareImage(object):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
SEG_HEADER_LEN = 8
SHA256_DIGEST_LEN = 32
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
""" Base class with common firmware image functions """
def __init__(self):
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
self.segments = []
self.entrypoint = 0
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
self.elf_sha256 = None
self.elf_sha256_offset = 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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def load_segment(self, f, is_irom_segment=False):
""" Load the next segment from the image file """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
file_offs = f.tell()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
(offset, size) = struct.unpack('<II', f.read(8))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
self.warn_if_unusual_segment(offset, size, is_irom_segment)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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)))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
segment = ImageSegment(offset, segment_data, file_offs)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.segments.append(segment)
return segment
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def save_segment(self, f, segment, checksum=None):
""" Save the next segment to the image file, return next checksum value if provided """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
segment_data = self.maybe_patch_segment_data(f, segment.data)
f.write(struct.pack('<II', segment.addr, len(segment_data)))
f.write(segment_data)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
if checksum is not None:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
return ESPLoader.checksum(segment_data, checksum)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def read_checksum(self, f):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" Return ESPLoader checksum from end of just-read image """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# 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))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def append_checksum(self, f, checksum):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
""" Append ESPLoader checksum to the just-written image """
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
align_file_position(f, 16)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
f.write(struct.pack(b'B', checksum))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def write_common_header(self, f, segments):
f.write(struct.pack('<BBBBI', ESPLoader.ESP_IMAGE_MAGIC, len(segments),
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.flash_mode, self.flash_size_freq, self.entrypoint))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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]
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
class ESP8266ROMFirmwareImage(BaseFirmwareImage):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
""" 'Version 1' firmware image, segments loaded directly by the ROM bootloader. """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
ROM_LOADER = ESP8266ROM
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def __init__(self, load_file=None):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
super(ESP8266ROMFirmwareImage, self).__init__()
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
self.flash_mode = 0
self.flash_size_freq = 0
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.version = 1
if load_file is not None:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
segments = self.load_common_header(load_file, ESPLoader.ESP_IMAGE_MAGIC)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
for _ in range(segments):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.load_segment(load_file)
self.checksum = self.read_checksum(load_file)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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:
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
checksum = self.save_segment(f, segment, checksum)
self.append_checksum(f, checksum)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
ESP8266ROM.BOOTLOADER_IMAGE = ESP8266ROMFirmwareImage
class ESP8266V2FirmwareImage(BaseFirmwareImage):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
""" 'Version 2' firmware image, segments loaded by software bootloader stub
(ie Espressif bootloader or rboot)
"""
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
ROM_LOADER = ESP8266ROM
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def __init__(self, load_file=None):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
super(ESP8266V2FirmwareImage, self).__init__()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.version = 2
if load_file is not None:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
segments = self.load_common_header(load_file, ESPBOOTLOADER.IMAGE_V2_MAGIC)
if segments != ESPBOOTLOADER.IMAGE_V2_SEGMENT:
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# segment count is not really segment count here, but we expect to see '4'
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('Warning: V2 header has unexpected "segment" count %d (usually 4)' % segments)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# irom segment comes before the second header
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
#
# 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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('WARNING: Entrypoint address in first header (0x%08x) disagrees with second header (0x%08x). Using second value.'
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
% (first_entrypoint, self.entrypoint))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# load all the usual segments
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
for _ in range(segments):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.load_segment(load_file)
self.checksum = self.read_checksum(load_file)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def save(self, filename):
with open(filename, 'wb') as f:
# Save first header for irom0 segment
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
f.write(struct.pack(b'<BBBBI', ESPBOOTLOADER.IMAGE_V2_MAGIC, ESPBOOTLOADER.IMAGE_V2_SEGMENT,
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
self.flash_mode, self.flash_size_freq, self.entrypoint))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# second header, matches V1 header and contains loadable segments
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
normal_segments = self.get_non_irom_segments()
self.write_common_header(f, normal_segments)
checksum = ESPLoader.ESP_CHECKSUM_MAGIC
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
for segment in normal_segments:
checksum = self.save_segment(f, segment, checksum)
self.append_checksum(f, checksum)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# 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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Backwards compatibility for previous API, remove in esptool.py V3
ESPFirmwareImage = ESP8266ROMFirmwareImage
OTAFirmwareImage = ESP8266V2FirmwareImage
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 = "<BBBBHB" + ("B" * 8) + "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.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 (we can merge segments here, but as a rule you probably
# want to merge them in your linker script.)
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
try:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
f.write(chr(total_segments))
except TypeError: # Python 3
f.write(bytes([total_segments]))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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())
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
with open(filename, 'wb') as real_file:
real_file.write(f.getvalue())
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
# reserved fields in the middle should all be zero
if any(f for f in fields[6:-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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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]
fields += [0] * 8 # padding
fields += [append_digest]
packed = struct.pack(self.EXTENDED_HEADER_STRUCT_FMT, *fields)
save_file.write(packed)
ESP32ROM.BOOTLOADER_IMAGE = ESP32FirmwareImage
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
class ESP32S2FirmwareImage(ESP32FirmwareImage):
""" ESP32S2 Firmware Image almost exactly the same as ESP32FirmwareImage """
ROM_LOADER = ESP32S2ROM
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
ESP32S2ROM.BOOTLOADER_IMAGE = ESP32S2FirmwareImage
class ESP32S3BETA2FirmwareImage(ESP32FirmwareImage):
""" ESP32S3 Firmware Image almost exactly the same as ESP32FirmwareImage """
ROM_LOADER = ESP32S3BETA2ROM
ESP32S3BETA2ROM.BOOTLOADER_IMAGE = ESP32S3BETA2FirmwareImage
class ESP32C3FirmwareImage(ESP32FirmwareImage):
""" ESP32C3 Firmware Image almost exactly the same as ESP32FirmwareImage """
ROM_LOADER = ESP32C3ROM
ESP32C3ROM.BOOTLOADER_IMAGE = ESP32C3FirmwareImage
class ELFFile(object):
SEC_TYPE_PROGBITS = 0x01
SEC_TYPE_STRTAB = 0x03
LEN_SEC_HEADER = 0x28
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)
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] == ELFFile.SEC_TYPE_PROGBITS]
# 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 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):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
"""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
while True:
waiting = port.inWaiting()
read_bytes = port.read(1 if waiting == 0 else waiting)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if read_bytes == b'':
waiting_for = "header" if partial_packet is None else "content"
trace_function("Timed out waiting for packet %s", waiting_for)
raise FatalError("Timed out waiting for packet %s" % waiting_for)
trace_function("Read %d bytes: %s", len(read_bytes), HexFormatter(read_bytes))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
for b in read_bytes:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if type(b) is int:
b = bytes([b]) # python 2/3 compat
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
if partial_packet is None: # waiting for packet header
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if b == b'\xc0':
partial_packet = b""
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
else:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)' % hexify(b))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
elif in_escape: # part-way through escape sequence
in_escape = False
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if b == b'\xdc':
partial_packet += b'\xc0'
elif b == b'\xdd':
partial_packet += b'\xdb'
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
else:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
in_escape = True
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
elif b == b'\xc0': # end of packet
trace_function("Received full packet: %s", HexFormatter(partial_packet))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
yield partial_packet
partial_packet = None
else: # normal byte in packet
partial_packet += b
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
def arg_auto_int(x):
return int(x, 0)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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.
"""
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
return (int(a) + int(b) - 1) // int(b)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
class FatalError(RuntimeError):
"""
Wrapper class for runtime errors that aren't caused by internal bugs, but by
ESP8266 responses or input content.
"""
def __init__(self, message):
RuntimeError.__init__(self, message)
@staticmethod
def WithResult(message, result):
"""
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
Return a fatal error object that appends the hex values of
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'result' as a string formatted argument.
"""
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
message += " (result was %s)" % hexify(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__))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
class NotSupportedError(FatalError):
def __init__(self, esp, function_name):
FatalError.__init__(self, "Function %s is not supported for %s." % (function_name, esp.CHIP_NAME))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# "Operation" commands, executable at command line. One function each
#
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Each function takes either two args (<ESPLoader instance>, <args>) or a single <args>
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# argument.
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def load_ram(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = LoadFirmwareImage(esp.CHIP_NAME, args.filename)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('RAM boot...')
for seg in image.segments:
size = len(seg.data)
print('Downloading %d bytes at %08x...' % (size, seg.addr), end=' ')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
sys.stdout.flush()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
esp.mem_begin(size, div_roundup(size, esp.ESP_RAM_BLOCK), esp.ESP_RAM_BLOCK, seg.addr)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
seq = 0
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
while len(seg.data) > 0:
esp.mem_block(seg.data[0:esp.ESP_RAM_BLOCK], seq)
seg.data = seg.data[esp.ESP_RAM_BLOCK:]
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
seq += 1
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('done!')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('All segments done, executing at %08x' % image.entrypoint)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
esp.mem_finish(image.entrypoint)
def read_mem(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('0x%08x = 0x%08x' % (args.address, esp.read_reg(args.address)))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def write_mem(esp, args):
esp.write_reg(args.address, args.value, args.mask, 0)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('Wrote %08x, mask %08x to %08x' % (args.value, args.mask, args.address))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def dump_mem(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# 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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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 = {'40m': 0, '26m': 1, '20m': 2, '80m': 0xf}[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, 2) # seek to 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)
""" 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)
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
written = 0
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
t = time.time()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
while len(image) > 0:
print_overwrite('Writing at 0x%08x... (%d %%)' % (address + seq * esp.FLASH_WRITE_SIZE, 100 * (seq + 1) // blocks))
sys.stdout.flush()
block = image[0:esp.FLASH_WRITE_SIZE]
if compress:
esp.flash_defl_block(block, seq, timeout=timeout_per_mb(COMP_BLOCK_WRITE_TIMEOUT_PER_MB, uncsize))
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)
image = image[esp.FLASH_WRITE_SIZE:]
seq += 1
written += len(block)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
t = time.time() - t
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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, written, address, t, speed_msg), last_line=True)
else:
if t > 0.0:
speed_msg = " (%.1f kbit/s)" % (written / t * 8 / 1000)
print_overwrite('Wrote %d bytes at 0x%08x in %.1f seconds%s...' % (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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
if args.verify:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def image_info(args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = LoadFirmwareImage(args.chip, args.filename)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
print('Image version: %d' % image.version)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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
seg_name = ", ".join([seg_range[2] for seg_range in image.ROM_LOADER.MEMORY_MAP if seg_range[0] <= seg.addr < seg_range[1]])
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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def make_image(args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = ESP8266ROMFirmwareImage()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
with open(seg, 'rb') as f:
data = f.read()
image.segments.append(ImageSegment(addr, data))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
image.entrypoint = args.entrypoint
image.save(args.output)
def elf2image(args):
e = ELFFile(args.input)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if args.chip == 'auto': # Default to ESP8266 for backwards compatibility
print("Creating image for ESP8266...")
args.chip = 'esp8266'
if args.chip == 'esp32':
image = ESP32FirmwareImage()
if args.secure_pad:
image.secure_pad = '1'
elif args.secure_pad_v2:
image.secure_pad = '2'
image.min_rev = int(args.min_rev)
elif args.chip == 'esp32s2':
image = ESP32S2FirmwareImage()
if args.secure_pad_v2:
image.secure_pad = '2'
image.min_rev = 0
elif args.chip == 'esp32s3beta2':
image = ESP32S3BETA2FirmwareImage()
if args.secure_pad_v2:
image.secure_pad = '2'
image.min_rev = 0
elif args.chip == 'esp32c3':
image = ESP32C3FirmwareImage()
if args.secure_pad_v2:
image.secure_pad = '2'
image.min_rev = 0
elif args.version == '1': # ESP8266
image = ESP8266ROMFirmwareImage()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
else:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = ESP8266V2FirmwareImage()
image.entrypoint = e.entrypoint
image.segments = e.sections # ELFSection is a subclass of ImageSegment
image.flash_mode = {'qio': 0, 'qout': 1, 'dio': 2, 'dout': 3}[args.flash_mode]
image.flash_size_freq = image.ROM_LOADER.FLASH_SIZES[args.flash_size]
image.flash_size_freq += {'40m': 0, '26m': 1, '20m': 2, '80m': 0xf}[args.flash_freq]
if args.elf_sha256_offset:
image.elf_sha256 = e.sha256()
image.elf_sha256_offset = args.elf_sha256_offset
image.verify()
if args.output is None:
args.output = image.default_output_name(args.input)
image.save(args.output)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def read_mac(esp, args):
mac = esp.read_mac()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def print_mac(label, mac):
print('%s: %s' % (label, ':'.join(map(lambda x: '%02x' % x, mac))))
print_mac("MAC", mac)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def chip_id(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def erase_flash(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def run(esp, args):
esp.run()
def flash_id(esp, args):
flash_id = esp.flash_id()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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")))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def read_flash(esp, args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
t = time.time()
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
data = esp.read_flash(args.address, args.size, flash_progress)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
t = time.time() - t
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def verify_flash(esp, args):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
differences = False
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
for address, argfile in args.addr_filename:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = pad_to(argfile.read(), 4)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
argfile.seek(0) # rewind in case we need it again
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
image = _update_image_flash_params(esp, address, args, image)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
image_size = len(image)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('Verifying 0x%x (%d) bytes @ 0x%08x in flash against %s...' % (image_size, image_size, address, argfile.name))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# Try digest first, only read if there are differences.
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
digest = esp.flash_md5sum(address, image_size)
expected_digest = hashlib.md5(image).hexdigest()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
if digest == expected_digest:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('-- verify OK (digest matched)')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
continue
else:
differences = True
if getattr(args, 'diff', 'no') != 'yes':
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('-- verify FAILED (digest mismatch)')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
continue
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
flash = esp.read_flash(address, image_size)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
assert flash != image
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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 new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
for d in diff:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
if differences:
raise FatalError("Verify failed.")
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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):
(flags, flash_crypt_cnt, key_purposes) = esp.get_security_info()
# TODO: better display
print('Flags: 0x%08x (%s)' % (flags, bin(flags)))
print('Flash_Crypt_Cnt: 0x%x' % flash_crypt_cnt)
print('Key_Purposes: %s' % (key_purposes,))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def version(args):
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print(__version__)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
#
# End of operations functions
#
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def main(custom_commandline=None):
"""
Main function for esptool
custom_commandline - 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'].
"""
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parser = argparse.ArgumentParser(description='esptool.py v%s - ESP8266 ROM Bootloader Utility' % __version__, prog='esptool')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
parser.add_argument('--chip', '-c',
help='Target chip type',
type=lambda c: c.lower().replace('-', ''), # support ESP32-S2, etc.
choices=['auto', 'esp8266', 'esp32', 'esp32s2', 'esp32s3beta2', 'esp32c3'],
default=os.environ.get('ESPTOOL_CHIP', 'auto'))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser.add_argument(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'--port', '-p',
help='Serial port device',
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
default=os.environ.get('ESPTOOL_PORT', None))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser.add_argument(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'--baud', '-b',
help='Serial port baud rate used when flashing/reading',
type=arg_auto_int,
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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', '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'],
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))
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
subparsers = parser.add_subparsers(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
dest='operation',
help='Run esptool {command} -h for additional help')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_load_ram = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'load_ram',
help='Download an image to RAM and execute')
parser_load_ram.add_argument('filename', help='Firmware image')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_dump_mem = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'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')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_read_mem = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'read_mem',
help='Read arbitrary memory location')
parser_read_mem.add_argument('address', help='Address to read', type=arg_auto_int)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_write_mem = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'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)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def add_spi_flash_subparsers(parent, is_elf2image):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
""" Add common parser arguments for SPI flash properties """
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
extra_keep_args = [] if is_elf2image else ['keep']
auto_detect = not is_elf2image
if auto_detect:
extra_fs_message = ", detect, or keep"
else:
extra_fs_message = ""
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parent.add_argument('--flash_freq', '-ff', help='SPI Flash frequency',
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
choices=extra_keep_args + ['40m', '26m', '20m', '80m'],
default=os.environ.get('ESPTOOL_FF', '40m' if is_elf2image else 'keep'))
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parent.add_argument('--flash_mode', '-fm', help='SPI Flash mode',
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
choices=extra_keep_args + ['qio', 'qout', 'dio', 'dout'],
default=os.environ.get('ESPTOOL_FM', 'qio' if is_elf2image else 'keep'))
parent.add_argument('--flash_size', '-fs', help='SPI Flash size in MegaBytes (1MB, 2MB, 4MB, 8MB, 16M)'
' plus ESP8266-only (256KB, 512KB, 2MB-c1, 4MB-c1)' + extra_fs_message,
action=FlashSizeAction, auto_detect=auto_detect,
default=os.environ.get('ESPTOOL_FS', '1MB' if is_elf2image else 'keep'))
add_spi_connection_arg(parent)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_write_flash = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'write_flash',
help='Write a binary blob to flash')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parser_write_flash.add_argument('addr_filename', metavar='<address> <filename>', help='Address followed by binary filename, separated by space',
action=AddrFilenamePairAction)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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, is_elf2image=False)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parser_write_flash.add_argument('--no-progress', '-p', help='Suppress progress output', action="store_true")
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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")
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
subparsers.add_parser(
'run',
help='Run application code in flash')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_image_info = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'image_info',
help='Dump headers from an application image')
parser_image_info.add_argument('filename', help='Image file to parse')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_make_image = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
parser_elf2image = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'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)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
parser_elf2image.add_argument('--version', '-e', help='Output image version', choices=['1', '2'], default='1')
parser_elf2image.add_argument('--min-rev', '-r', help='Minimum chip revision', choices=['0', '1', '2', '3'], default='0')
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)
add_spi_flash_subparsers(parser_elf2image, is_elf2image=True)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
subparsers.add_parser(
'read_mac',
help='Read MAC address from OTP ROM')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
subparsers.add_parser(
'chip_id',
help='Read Chip ID from OTP ROM')
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
parser_flash_id = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'flash_id',
help='Read SPI flash manufacturer and device ID')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
parser_read_flash = subparsers.add_parser(
'read_flash',
help='Read SPI flash content')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
add_spi_connection_arg(parser_read_flash)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
add_spi_flash_subparsers(parser_verify_flash, is_elf2image=False)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
parser_erase_flash = subparsers.add_parser(
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
'erase_flash',
help='Perform Chip Erase on SPI flash')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
subparsers.add_parser(
'version', help='Print esptool version')
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
subparsers.add_parser('get_security_info', help='Get some security-related data')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# 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
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
expand_file_arguments()
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
args = parser.parse_args(custom_commandline)
print('esptool.py v%s' % __version__)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
# operation function can take 1 arg (args), 2 args (esp, arg)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# 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.")
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
operation_func = globals()[args.operation]
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
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:
if list_ports is None:
raise FatalError("Listing all serial ports is currently not available on this operating system version. "
"Specify the port when running esptool.py")
ser_list = sorted(ports.device for ports in list_ports.comports())
print("Found %d serial ports" % len(ser_list))
else:
ser_list = [args.port]
esp = None
for each_port in reversed(ser_list):
print("Serial port %s" % each_port)
try:
if args.chip == 'auto':
esp = ESPLoader.detect_chip(each_port, initial_baud, args.before, args.trace,
args.connect_attempts)
else:
chip_class = {
'esp8266': ESP8266ROM,
'esp32': ESP32ROM,
'esp32s2': ESP32S2ROM,
'esp32s3beta2': ESP32S3BETA2ROM,
'esp32c3': ESP32C3ROM,
}[args.chip]
esp = chip_class(each_port, initial_baud, args.trace)
esp.connect(args.before, args.connect_attempts)
break
except (FatalError, OSError) as err:
if args.port is not None:
raise
print("%s failed to connect: %s" % (each_port, err))
esp = None
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
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)
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))
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':
print('Hard resetting via RTS pin...')
esp.hard_reset()
elif args.after == 'soft_reset':
print('Soft resetting...')
# flash_finish will trigger a soft reset
esp.soft_reset(False)
else:
print('Staying in bootloader.')
if esp.IS_STUB:
esp.soft_reset(True) # exit stub back to ROM loader
esp._port.close()
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
else:
operation_func(args)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
def expand_file_arguments():
""" 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 sys.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:])))
sys.argv = new_args
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)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
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)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
def __call__(self, parser, namespace, values, option_string=None):
# validate pair arguments
pairs = []
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
for i in range(0, len(values), 2):
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
try:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
address = int(values[i], 0)
except ValueError:
raise argparse.ArgumentError(self, 'Address "%s" must be a number' % values[i])
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
try:
argfile = open(values[i + 1], 'rb')
except IOError as e:
raise argparse.ArgumentError(self, e)
except IndexError:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
raise argparse.ArgumentError(self, 'Must be pairs of an address and the binary filename to write there')
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
pairs.append((address, argfile))
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# 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
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
setattr(namespace, self.dest, pairs)
First test of word displaying functionality
2016-04-12 18:07:25 +02:00
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
# Binary stub code (see flasher_stub dir for source & details)
ESP8266ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
eNq9PHt/1Da2X8WehCQzJEWyPR6ZxzKZJNNQoIVwSeluehtbtunlVygM6ZJ2YT/79XnJsmeSkL7+yEO2LB2dc3Te0n82z6rzs83bQbF5cp6bk3OtTs6Vmja/9Ml5XcPP/AwetT9Z82Pw7f3mgZGuTcMo+pGeJvHb\
06n8d7jLH2SJGwp+ZzSljk7OLbRVEMDcUd78ipue45PzagLzNR1ygK1qhkgX8PZp00rgcxg6hX+0PGkGUWMA5KvnzbgqAAh+hG9mzVRjhExRX13sAZDwL/ebPYfft1P3YLCHv+XLZpKqoEnguwa4LLofNg8FBPqn\
AarCxd2OuiA8lR4nm7AUWrtJuwiXH/5w2PxqIfwOhpkDljqdvut0gk/iBpoSYb3dgK8s4ZQ7REc8DVBD8N/wwgKoQK9ybDkmMD4TCEdU97853H1AnJRbfpsnrrHVLFfBwA2WK0sUxwaCg0OfCtt1165X4AOwv+qZ\
sV02pBl6HdtJei95IYQ/12jm3/RGTFaByyB3Fq+MN0jRedPZLGbY22C1P0DMDcCCa8BIbrTM8pao78MIpexI4x4TzXTRQ4VpV+L2+ZPmV+U1dCSNux6YhfLmLxKvUUIjx8Yd74O6IzisDxkMVXlSRBVd0ruX2FNW\
t5IBVBdC2qcMgO4yVubTAxu5LMcKPaeERNfI28YLpOJ0f45/th/hn/NDx1Nf8X9F8oD/s/YL/q80Gf7X9C5laFhbhUuaPtqQufnbkGAC6DOQfrQ98ROtYRsP8rUBblJaXZQ3gspGeSPjyigH+RPlINqinPFWsbC1\
Dl8wRcRiq4gZU5b2gUp9bANI0cPBBHo36LBjoonSDAFsQGX3RuEBQ6S5EzzX4UeeWf/Gs+UolkbbThw1/wB6opDw3UKCT7X/9IiGL5eWA71QtA4IXQgEDQ8kioP1oCsfEfiAh4v7w/Hz6HOfv5Nd2Ij4rGIlQP9o\
+adgyBQvL2IoyxWkyZD6mjC15iA39JlO38s3jMCS3/QEfdY+1dFgFxhsgHId4LDr+GQ8e7oX5YMNZLVGKGgbT6B7wKrJ+LuMvo4j/APKC5WjVoOgBv2qt3bc3FvQY5APuuyk7WDwdI8ZRPlcBBo5Z11lWP9nMfVY\
0Krq/rwkZeooaFA2YcFcT4izdcwjW9Uwpqm8uaqKADAlAzYmGindbO7S+mIjatGFdN9koCJaVobLmkRf10xRm5IgQgGUvg/qWJ5X8hBsClOvyXOUG3MSj0rVezL4f7D5jNebkpJANZLSHhJGypagIpMCNmwz0fsW\
MGO9EbBPLR/OiQIyZuGNOf9VIIyEhp0ZbWpouq2aRAkBPJPO8KCB5Q2NXPeg3eFJAZl5+4nudDPpQ8c+HmCWAcvGbKYBcUsNPXS83cx5Js8UPWt+DKEi81iauvQmXPffxd6k/wV+AXR5JACILfyFPZk+IY5CSkxk\
mg0moJAiEVJIb/3LsrCpcxo3a5ZNn3V0XrC9Cx8u+h8eHxEoDa5R3+AmUdvUxdpbMO13PK0K0Bw+JvSAjV3pCQ2IbBRjH7B3EchXS3ORwaBLMvbkpZuunvyjeZN3RiOw7YqhQNuh1FuG/Fi8gPlXDLolw8VGss8d\
juc/CXalr2JuL2oh8KFQ6XDpVUKvbMoklhmU3mi7qRTZdQAMnOg1WkwVtVrZwYWcVbjd8gNK8u9RVI7fsRJIt31AZzIfgqUinCMEAXnZNCz4aJZjlMH3QOuBMI1gwhnqn/HPMLImVV/XsxDtAximjG+CLl4LviYR\
DKoJ7WISUiHxB/wQ7iPPEREoUvLa2o2EFo2BxZojIqx1hEVN5cQ0D5OB4IaptbkHgxQstGsanTTJTJgJ+CWeNs7jnvDbOph+JLfHR/iHlR7un5j0Bnl1+sleMI0Cej1pWQrViwK1FmzAsLI4zejM4nniaetqfE2s\
2PQWYiXyuhjqovuSsYpYkiL+VHqzFZImakFmMbRJO59G2GrFPfheaNqp+huW96jk0NoLeztAiUs69lHudtE3rU5yYyztRXqvq86XMgXMXra2pkYF8pR1r0PkYbvPdeyzzg5NVqs1QOn0H/Ab6bkK5dFRs2nKlGUb\
zBqd07SuK1iTk8kBjCju3or1gGwitvQoVeFQ6CrfHqLJ8zBGl/3hvthditQAMWdMMKCyADRAPECh1Q/2SNbq7yoRgjHmTN2ivTIt2lHBCrjpspu0Slaw7Qgu4Ph/2UPAph1/LyYR6Gt9TGPbycC3g2qyEBtFC7tp\
DKZfx/ZJwNYVWAsgYbIRtX10woyTkkRzrp9dmxCapSd4aCqJREPjrF+ygUAwMDchO9RzGS9sI0YVCJESJSgb3BgWqXoGN3qZVdfQDtlfrII14q0KmAw2XalAsBohmUY5tcN00OQSd6cAIRcz4TQaKb0OtGAnX/HZ\
EQw5nqH0x+HjrZ2D/2M6pGQeUG8Sd/GgtY9RzgVxEJHEqpUTqgeHonOAkv58OKd0O8rXL7b2B8RLzaj5iNkQDYZfWFFluL53xA8wQRGBRFX5I2oaYcoY7TkYPIvCEbzIUVsyPhr8bGYer+dghVKPCC3Y8W1aTBGF\
6TvaaHV1FK4X4ejtQzZ48v1XzynIYJKj/AZOcpNts0SY7WtofGgGQtadP6Z3ECaA/ZoD+jUSRI+3XgO0+RbCsnGUD+8+A+n8CfbaDrO3QQm36RvEpMJUrP8NMJLa26KXiIqI/NgTXwSKDCEPHtQH/DUgYkr4hTzV\
AMHytMLWFmvuai6ifBEilnHbvMU91XjlNjndgzFfo6tdwMYvFuH6nMMSrF1NFK4jcW6EjzkGO6HYVok71YgSPs+IrGjnsQLJI554Tb0C/H0kvwsBSU7BLevMTh+X0CNuIDlq5pzBnN82E05g4x6xmlaEYRN9R/LC\
qFuk1tGojP85aCydI4hEEpeARVlOYMN+aIWYjhvL5yhMiHfYjGUXMQieA7jHtMcpmhUkwvQmGHNgDk3nXfIFJGyho/yw3VS6nvKuyvW3aRs2VDXGnhW7kJY3NOIgVnUANv+83VlqhWAvG8qEQPlqe88hEP0oIL7i\
B0V6N+DvO0FWYAkgB/ODwH66JkRB2yJmKZ16I8K8c89HKVlpNSxCm6ooScgi2uFtsTNobSKS9FMRipqwZ20AfnmAAIP2AxDqd0QVlOMqWB8CHwTh7hA0EvkbVbxLVAGNWpfHMwrzrJ9s3h2xtumhLYtk5eAFXrb4\
ZyGp5brKik9iQaKvGftDXo6WHNGSC1r070ULL4o2JzY49DdlRCArDVjxmYBtDEV2kxgAQMjMelECe32e4M8r9hJh3bJ7OyyAsf/PWquskVYMLECxiioR47r0iAyiFQTLeY0kh/CYs5ERE2Z31eKY8q09ycQnSZjI\
EoG09j2xTpksLRHIGVK8DYBydC13SbzXZSSJkzoffDUQwAQRmiVFnXpWNIWcQpYB1UdOakXsWoPzTz52UKtTyEEkLxvwaxKG1jOzHaDbuIJeroPQOmDkXFMa3GVRUOACPJ5nq7OfcFktFbLfLxWEJV4T7Mjv6kw0\
sSN8h00QCJcuu7vH6GaV7LAVsjgnhT0mSjaUBu1c/Az/HggVn9MeQgxOjjlQa9jZsV5QLmYDBvAZXSYiwl87M+e+Br2aLNuW41mmm+y4cFeWoMH1G5q9hLykVU9AoKqXHD7QOPBL9tWwVT8miMDufXIjaFRrkY+d\
DSYGb+nbs0U4dsr1FVD81fPTnzGOA9yfzcmXAzIQGtBBMHPf6emsAjNIccgmXokSec6aKea9Xm+ISwBICVr5MngJegCjKhAqhkBjXc7gYSTCcUyLWoBF1a6rqPrrWoQxLYoWCJb/hCMYmYvbmNneCwB7gNEJCMdR\
YkK9penOwItBX4C6fKAuxEJZsgCgXwCdXjN67Pnc3yu/DWAR6IygfNkhJOgCxgXWq3VI1lgNGscIli0HHtswihNPA3a9IHxu0lNM3XBQvURZ1m5W0EK6nPdlCJt7rFrzS1Ur28Xps56ADc/cfEV44+UqW+Je1FXA\
LDVgSvTRqsALwJAQmaDaDH+CsXd/cjN4/cTKxgHjVgxNv2GKAp0qijEoEjCOJeKOBj7EcOABaqZ1BYlbNbBsnDrZf9+T/ei5hj8gR7IypCyOZ8Binlv1WZFsEmR8t9Xm3RwoW/COKuYKqlQi5VFELtzuy1CGoOU/\
Ec3+AV9tXkuvo2kXPkRCjFawVjO0Wh/th4c9nd/gsqPiweojdIZrqHQHGBG4T8Jd2xiihqDkkWcmKMPmLKGR8R95gQWE1up9X6yhHFD6Xyu3P5ZNoFmCyzzlWhjYOdFuiuBu4cKElOw5aPRZMI2in/VHRkJFEIwl\
RsBqmovHUfrx8giQKAWxCiOBNzFC9uNUmeHgceO07gzyLx4z3zRyzMk01uUx40TVL1qu1eSxRgNhZsKxjsIvprcADMg3VWJ2RUN4NyR0Y7o4ai2vSu3RIBhS0/tfUXwyw2T7V7ujIccreJ4h+dQgtfOcc0zVmCMo\
tYUCF8P7t05Ho5ASfLWdUZarVNMv2TWF6cwLCDMYltmFHa0jUbYRvDOwveJZng0ohrh3lYG/zXo+y5ZE4TZO+EZoC6Yimg6GHHUNzn+uzjmlW5DorTNPKZo2U8z4GORmFpq3AQa181sEWF1PB8Hbd7vHP7ShA5jN\
TCZ33p4zptUH1IcfoPn2rZ6FaoHfY1Sl8bNsRQY17mHDliPE33IN+EreEuQZV3ZA6ElD5imPvWSRkwOz8BZ8PZi9aBNZzeebJD9qjDEHtJ+ygLYPVofltI1y3pmF2uXiMEvAGDMVOBbMMJh6exnBRPYThaso4lUF\
w10yJdFmtewJJS66hKTh2VXSbmLbgJ99ZFWIzxSDlnBZi6EXuVoJzAcCRr13wTeMeIUTtsdICkxmIWccCtP4tDQ1IMGaAOkbfABQPqIACLO3v6nfFgOBf/Qh5IIHC90y9G6+heFmwHfATRna2vuzfHsRfkGyGxJ7\
LlDLZQcNXDsbW15GO2ujkcYrV4Awsu1kmFqv6gZssiGJojwVaZ5uSJ0Jo7/C7hAvASe6tqO1Kdgxit0bctcijDAGmgrkkFOUGoIgSCN0x8H6UNF8vc1taE/9kJnIoMb7FF7BIKT9SJa6p7NP4TU4VA2yt9RoA40q\
B1MmEqt4TwkETLekNy3afC+pRAf0y1LE6zNMIC2FGhAy9SOwzhTy7J9qID6lLu5drWaFXKj7EBdeSL3M2+D7qtoO9LzudiwhrEBiEG7ysH0Q1gIXqIgk9BBShYVH+vwl0f0UcRz5dI87dKdSA5VpGNYk85Oz5bI9\
3I283Dzh/aoLcR8SJDEUWmmsRU2Ck02Fwj4fnHZp/JjwlAHrOlp0zTpn9A3A26QkyMkm5AWSEGx3uwi3KC7xb4JKancWM2HUNqCKhRKGwtng+0/I8nfOrB/t81wgSnuEXwozp1kxhyBipX8itLZReZHFg3yDzHWK\
rS6uy6RQpZJydnMFZ14U4lmEG1e59B84lNWgY0N/RzjLyOW2EnB0mqim7zM0yora5TQAAvD50EH0g3KmQ7xRHT6lGYyj4+iWs/6AGtnJQt9gLQHWiSH7yt5OnLuBPnDf9WXR1vd7uUyCLXJfOFFQMyP7BLK1zRDw\
J3pVvvQzsL+21UwZBhs8B7DDE89IAFkuiav1bRg7vAO/76GNt2zWft2HurEAIZJTU60CuMoI020sH3zQ7+07wJwqqO0WEaXxlIZMHi7Dq+05WaVl+pL43qb3EHegOJywUqkoEDC6ql02SYoniTxfE9w89rdURy/N\
v2AObzvDHGBGQP0K5CUrUPlZ0lE9xQrVQ+lCVj0zT/W46iCOvUW96FdXA7HWyTzT46/UQJ8TwtWd+Gb5WUGjP1MDFX+bBtqluorLyY6GNRQ4KaY8FdoFQykv5OpE68OLREadU7SE1cVah7qkOdi6xKEmbAvXMUqI\
Kdf4cpQeQ7pIXGhAjYjTRt0wf+C0UZvPr9luJjRPW/Oo651TqFNJGFT1wqARYssLg9YU++SoKwZAsbQi75uGwFgZl0s6bpE89FpwEdMwOVuaafYpWpqhJ6GWTUUinNJIKdgernbGEk10sX6RMaAydRstUWYPk8fT\
mI0SrNJBoyBiKzTmUEXpqZkLKPIBEPyRa5awJmOCZQ6zJczsI/jrwcXbqeSKExX1mBqqDvoIIs6e+QjCGaaBnj4QBEUegjAxKtopXRJHw0Yc5f8V7PRNptecH2cbvS4lRO6hW3Az9XCjOGeMjIT4jOZdFm1wAEPp\
m8/nXOVcA1wmqSkt4upKJEpBpwVGtQR2ES/Aq/rVgIuQN0KhdGOZvCrYEeDEJnhGavzhLhUxolSqfl8ETXPgX6UcN/IEqhdBuzQ31thmG1enQ3IKaRbY149dpv43ftTytBe1TLsWUpu/7jp6czYPbkgRbcfHM6xd\
H62WscC/qr7Evauu5d51FOsBgP0zs6ecEKv/avfuOpyAsEK53gUqtssRf5KKnf+t+jXnOuOW9qdd2l/i4pmui9fVr0bv07B/r3OHtnMhe0aPYoMBpXxDs5qA3TlaY6myhfLjDef5YUfqai7S4/MMMRJjWIk1aeNv\
V9tj5UXiI/ss8ZFN2PtiaeNLkLz9rKAMaCtERrTB3nSwxxWSiMAi33rHAUsCeuvtL1I9Gd6UQ6Y5OmIsTEipq9uDRT68RyKAiwaprG6Xkr9oNeWIOTzhkfzEEjySIlw0rbafZVgFg7G9u1DBUWKO4dPJAl/YDaoN\
vzQjy2eUcmcHEaaGDT4W4c3TEbIKH6rK3xJm1jwiAGkajXwgEj0fssJTxc/HvGVEsBS8/+jbgpmB1ak819h02ju6M8AH0R1QomlKeRuIgdepG4pGgJSoGgtsmlTrq+d+fYqEWj9S9Nk4T2XRHlhyEcPKPz8GE8Iu\
QFUxYXEuccRUvEasWwm8dOHnCdFttrVSrsK0n1dv05Oq2V9bb/MRVuNqbSgl3anTgiyZX5LQsNE6VBnmvEu4rAHztSVysJZ/HuOBtzxxKekDti4kHwlOeOO4N054QCkP7WIMIJkeXVTmcw0KZLFfO/bn5wOlqAO9\
pbMuqvxanjfXCVxtc6UAJq/zrFhd8NKJZU2knHEiO/jD7q+c5UB1uiUZOamAHdIDquPhMhwUNbUMHS5QIK1lRVvgZ1xkT3phIG+DLFGdPITjBhat8vgCDjLMQabPQaA1f4QpxdjFkJnhU0TZufCTVDlQJpICWXga\
LmnTkBKLY/0A3AaJgQojGeGQiRPxcd3oR/gHs4jA3y4ZXYRjPucP5MRe4DPgP3z+r+TKeEzJjLlKXrYyHmLBIOGYFQCUnRoptB5/ak8ao/RPHkuyjH+wBxpL5wgLxuNu9KvCfONbJCx5uFh0G7Wl4/AM8AB+BuYY\
uQDbCb6Y3skPOvc5HS50fZJL3o0veZde8m7SfQewVdw2xeA2rOLLDLA7XQN9ClxcMNYzddrxwCJfj8Gn7WCjjKSqir6EFGytIZyf42mMWWMtLPHVAUbt8dBSLmcvdmgn2vF7yhNql3yefuBzIw3/7f4TviH+YQcY\
z/lPdriqFQxFK8c80uUbBDBjrcOQp84pmAH0LKOWw0p7LGKZ2ajinFvFJWaYA4yXXFQvnstegpL8Iip3DB7nR+Foa62AwGqJJQZ4EvE5/wMdS8iQ1/lwzaDtXdw6ykfvwOrALZs/C24FRb7+3ckigFTt+O1YjvAB\
xDMK4RgsLsbTYtMbFN1Br1aOIGkqDyQ6gUIeb7lD1wvE9ojqUhVvMpQmZusejVNEssluaTlGAOCjCyh5Qo7XlC54Jme6JkMQcukd74gfdqhgeD4E84pLHOQUVHshhjzMYBSbojiHY3OS7VdpxfIONgDArrD4Pu8f\
2Z4sP8QaJ3xoBBQspftfgcad1vhi+WOrPJ2Kzr6Ew7Tq9w64JIPtfLYsm2l3AM338HxjAD4QODfuXJDrlsL0BZ3+GPApFjOOxGtT/iFUOewXz8GfL84//fj6xfeHj829rZ2WWUGOrUJI5RdpRMT9VqJhoKHQHdN8\
7LqPYhkcsvrYUW3tIGKXDqJjTKx0R6fYgRQDPjv83uw84NM3WBuVZa38o7te5KBYJvcEGD6q5o7SwS+s6JVS3exeC6O2eNwKJ3EdGRZF0Hfi1TULDMvH6OpS9gaI31rzcT5kgSjc617ZYKMQL2UI8VKGEC9lCO+T\
lG4Q6d240r+foy0nhUYrdk7961FOpQy6c5EOCTrvCgRm5ejkDJ5lIRvGYHTWpneVgGXDAgUNFthaur6l1HxlRNar0sTbF+qkMw7ImMZ7XuCdPsgpzp4BLpdYE1e70schR5xrvpmmBZ5ZwBqmJ7CgHKVafX+N0wNy\
MYLDW+RjNFpCL8ztIdU/D6bU+vEeA0q3F+2yCVB3GV2zO98+ftC5lgFvpDg+W0KYK5GiAhA1WFqSWbr3ZNpeSeN0YOKv2eMKG7HbAQ+MkWojvHBpsE0farxhCQ9D8sq0eNkTwiAmS+zYu8EpLYR8cecupv7295F5\
jMFd84g1p5wKinblvCqkM+BpYbafxLyZLNT9iWFDNwuYbTneWU+fyfUobprU0czdzgSSQsNhUzxY0IVxLM7XZ1DOPArwefbIbI/WhtvCtMA9q3jykVwQIy9RwIIcsOhiADLx2JwBpzPbPTl7B9v0aSuZMe4Rc1KV\
w35aPJuEd4alEg84PA8rKe3u6tNDSEAk19YjTgagcbq1DfYHHoeM+BKuquUDrBAGZwgPWqlvwKNT/+BrVKRjR83aSLR4Mjw5wS8P77KOrSFDYaFyqJHJEJE0UIgGlValecrOX93eURUIMv37l5R6eshXS7WcfiZn\
vJIZRkHUo90HN9xmhb7j4Rjz2MlXg9FasL07PJBau0ElFzL8RuN29JzRomTGwRopx8sEkLrTIzoC5w4Vc821lotJSlaxddHHpHSwS7LXswTKQs7Pyj1t6UXj8M0n7T7trPEqqdoRKq06IfWC3HoblF7HbB60JpO4\
s3JTkEgacAYzKq0hAwB3Hv4TtYL/ItBe+IrxbfcSMYjfYoEe0sLibSLTxHuGnmAmVzN5JFjarbA1cae6/dleyyR7dcAnvRSjQzbteMUVH5qgQ05Lpc5JPArMddR8xqKkkxgLLJ7gM/BKt1uiM6yNHgN6tNKBBw1u\
03K5e8lOY+kiuceQ0ynl/BXex8Fj0C09rIGXbi6qIk86x9j7QFa+0wZCuuIIudIS4suq9WPx7N5nCoUuX7pLJUgWSBHodVn9J5+NfvQbZ37j3G987LKe6d1nl/Xb/n1jxt5ZoSUy3RokpCNK3iBWzAzAFjAjMCVy\
qM+UDQ2cXYLk2eb8Qx6jettteajsEHrfu/tEHZWye1/zOfuVvJeLhg75ChcsdKvhAsT0pV8/ekgnVzglVUxW3VCWiOpG/hnttjDP7/l0yrnIE/qWbArJpPgN24sxXxODW9UlOUGLRUEuAbx7bFjm9XdSbYS3Tdxi\
PZevun2sNDJr/IIvsLQcUEIfZfaafQZ3p0q/dGi3vVjMmTj5Pl7teCC32QFo1U57a1XF8hsDZIgAhJZXUKodBjmzK8hk83Y2dDxzqPfH/Ec2FgAohY6ZEIjYAm9gcVf9ZFuYi7Jkbcq43cMmlbXIySg1e/xTSPFv\
d6jAyKVxasWNQGj4gIKgTwYnC9yTMDhZeAfemXDOQaCHiif6oYysiBwyAZqELvWkwG7Fl2YQdt1FoxM5mrDx9TD8xDsD73zoAGyWAD4QqRieL4lB0nVSfyvXm7rNiBjg0oRuoEJuBsrRZMY7CPLungLn13x7t3WU\
3QV5qedTSbZO/x4BC3GcaCZSFd27L/k0NODQepEDP2HuDoMoqJaqIhpMzumNN/iUh3WpsJmYMnj3BU4BX9vBsM0HkZvsTCK8nGvcnpfQNB9em9GKdBm4hIh7JLAXnU9aM8x99lGunas7J2nXsCIqegKMhif5Yzhk\
UoyHT/Zb8umkPZomqJjghS+KuUYXA3e2Q2kw1Yv9Y4pJNFzIehI6eQAYqjLBJ5PUi2tEq0w1+tl/cNxeO8i9mkVsAfyRDz/Ehi5aAgVFKALYADtjOOtjuUrK7yCzWChQvRyQPrg4JzhrzfBnQSznEChNt/RN5GO3\
fb25HeBtxz+8P8sXcOexVpPEJJNJkjRvqjdni1/9h6Z5WOZnOV+O3LnIFXff2LO7pSRYLneL+afga4zwdiBU5xOvUYxd439ITNBVtWMubsA+ufdGc+gDGiftv/4XA5Kv+DirXeOULipeHr/TwKzMym5giFNCUcat\
5Y3xGhcN/QsRof/4X2ztugunMX9E3Ccg1V6jlIuaL1/GJQusyPJc8SYh56hp3CKdDI83HfJn7sOHPobNaipwMCXlhq29xu+B+/c0rMcspNWp8U8fBf0bdPs5jbjX7juavZOlbgPQT/eMxqK3qXtz686BubAXTexY\
RR0zr38KpBPT0CuujNa9/rr3Puq141476bXTXtv02rbb1j14dKd/4Dc6Pf27G/Tp5Tcf/6k/+op2dE0euoqnruKxfju9oj25om0ubZ9d0npzSatzh/XKtr20vbhs71z5c919m14LR2fXWHcf8voKKdCDXPcg6V9g\
rjvjrfmNm36jM+wdv7HnNzqmSYcg73uSpgdn3mvbXruKV+wS/Tfu4r9aCvxRKfFHpcgflTJ/VApd1b7mj1ZtbNPtwAnuPCp+El8lcXd88518EgR0O22VjrtwpZts9vpWcjyJVGLMp/8HHp1i9w==\
""")))
ESP32ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
eNqNWntz2zYS/yo063fTG4CkSNDTTiTXle2kd7XTVnE6urkjQbLpTOqxHfWsuMl99sO+CJBS2/uDNgmCi93F7m8f0O8Hq3a9OjiJ6oPlWhl3qeW6y54v19oGD3DTP1TZct3W7qGBaf5NPoPbHXdfuatbrq2KYASo\
Ju5dVw6GD92fLIpWy3XplmoT95i7a+JXUwq+mtBXRrv/+YCCYwVoO3aMIe4rGFOOZKu8OKqOO2DBjRZuKtDIgA5wqgcES5qmGzeqAqlNxKJ3JhTVcQ7fNyOmHDOOA5hp1O7igt7izOr/mTleHS6ton4notGe4GWE\
oxbUZUW8mkgqS9rwC7OkyFUdKLgccVgmb+nGj6CqFx82RXEUP7rRBKSJVRTR1mwTR6kp8dsKs26e25ey8qy0TaA4O2arHAk05Gr7mnxpf2+U/9oqtmggIBdOzKKReSM3Sczy5V+D1YIkxkvSVvS2moiCzSntA8yC\
/zq7FkMs2JBrEwNPKXmVtek1qROJWrH0eOrmar3nxtNg5xTfg1hIIRgc7nvq3jTJ4M0rO9jlG5i1+I3YnqYwXp6a+MXXl/FQuaUKFKfMlO9MoFtcNgufp1O5u6Bh/KbMelJiy7UWpUbo1k7HFW9KKTqeDJGhDO57\
MCh5i01ox3VyFPgwa7JkSx7MLAESjBe4VLRx2u2rLYlry2P9Rza54S8cl2UdYlZyOXapYAE0/cpzI4uJSvG+AA+Y8+TMS94yVlZwz9aI64euYhF06uBTpAcmCTQBFpT6SATgjXYEWj2Hj0I/Cm3qNtRruVz1ZIbj\
t8OvVsR0EzBqyDlWA+WwIodOffUFxAuGEfenxh28ya5Syx6YghHfgKP99P3Vcjkj6KevnfO0jCnGnDmF5bwD6GG7JDj6bkL/RVUhSoHP6gxkTAHs6iRiW2TfCmOQsScxWaTNjn44hA9P4iP4d5iBqpyDjbHSDIEe\
neaOAmVXPb/YRflhfkyaqNi8HLcNY2fVEN6ZAEM9V1/BhiAUJaSOVnZAk01WiTd6GNeCILplPsTjEm934kqjIFfhXRSOJ7+IJ+4w62CT3SamhYqs1GcMcOMgDcggkK0EQoAM7CVymhAbJN4FTADh7EzCXBKGaRzR\
RwY5zGDX4+NUfTnjaJoc3ZQXbCNowF+ANg1os5Kdnoy5fEZM9OEPlMBzFe9Wwu4I01raAnjf1KySeotKZI5lE0+HtPFboWmYTvEndBqek23O2YysJMmJpG+Jf4fmw8+6jhmeao54wE2X/VG6I/c34YMDpQYxfwqo\
8Td2AECufhjCJMjrHvKdHeKh0Wy6QQo28M3cY9u1Dx81Os/V146ibTiayw4FUSak1NljP7lm59tgIR1/+CKmGLuwlE2iH7C71sHXgMRVxbDfbtlAGC+DfKGWb/a8lZJ55MNESCm0WfvHG+zNw7Ic1v6VebwLN+9t\
+HAXPqzCh3X4ABr9mcGvUb3zwHpv2Y12Kp+1hhmsrrpLklMjqtVejei/2bPl7RsgdNrxlK17eu1rBJS5Eeo/QlSavHYbZNjK84L11NC6OH+Lu/rk9j7YLmTy6RpZmu8FM3Hbpu9J75oRWuodsrG7tdhoAYmSxCG7\
NQ65j6p7GuxLg8krDG1P9wwgNqglMKVw+1Uj7UbQHzd/z5dntLxw9G8IqcxGbcZsPMVPZwWhasNiNqj5q9V2MU0B4bggvUpUULSVtyDx/B2T0aE64c2hV6W89IwsONdqKR+qmFMErvwdkalrQPnf2RwLTjtB/Pyb\
5eonUAx88VJw7kcuMVPvv5C04hoFJQ/WdN8AC6/2YQnQBBS9yWtSCXABnlyijThN1qBJMFz0fRam7Lb4/8SXTUjBbMMC2tdWUGgim/kMA5imLfwzx8Zc1z7/7mJ2SdxyMwByRsCUGnA44+/hQflWApYI2fNRhbWl\
PANDNYOQMB3Uj+NkFFki4O0fnM4OAgpZ0MMQIxIWAjGksmQitS9xPr7lpVtGpRvJKafvjjEamYSDknb4QnfW0t239A8SzAmTAQQtSZw1RTNFCZCLXjc92n1LkRzQzn2iuQht2t5/b+MKgYyzG/VHAQK+QrjRFDDx\
8z4QnELUVC/jAlCj2KO9pBVekktYHXF6iclDKyACi4HFtztyM5MC8/izcW+l7h3RzQZUBjpoIHj9dOkjbLNh4jNB4Fdk4MB52E1yJnwV+xzziBN6/d/tKNyYLSqy+UaXKqGtqityJZtNoQyGkIkQ2xf0EfXGIDtV\
7HLbcYeCSs3yNfoFLxkMIh5ZUg+k2pUOEW97/HXc1zaE9eMUUiDYc7DtJvl8IBYk0fnDhrSpiNOPQlBKT2cg8ykHO42TDnBQP1wvV2+u96mGhyCgbfFIFCBWoI0hg/J1+sA32Cs6Axp3Z1GHNxdxvy6k6Nnl9XyY\
q2i7e3oNGRtAl/QxgGOwJrJT4LSl4rzr/nzRe/IaF+LuABrOCaV1EuY7QCrzoQEG23ZPBvcoinXd3JusUg8DRaHjlQVdyEBOEK7UY/mP7mdJIYhnNJD8Mep4ss3vZfAcVNkhrCXz16yUfB9uunMcFHzpXvuVKoS+\
edybEDbQQn7A6vHe8YNLPDKxCvFtThFAQYE1EKH0JOsBybmgFidhpWzeaGGVn9Kqxx2pnrj5TqYvV8gQAwRkdxDhoO0zVCeX9iCH7g2F1h0u97q3ovNw+Ne+FkC/lbYM1kPJWFeJKEqH0xRN0cVuMKhlUBNzKhtG\
rn5iOpboJCjEYUI2nnDBWRrq40HsGPYs9buii0VzCICx2lZLrwitcCvbkLF9atoht0iFtrHESH4KhpQ8wN/0Drw+8r2qOluQKQBwQbCoMAW+O6Nwjm2mihM5E8RfuKASN/rtRpZ2AtH3geMO1A4VR3kHgQfA/X1Q\
dPZ9sgW1dLp27rVe8dVh23CjFlwcU4Fq9Evppj5KwfOC82Ba+9FQT8gG9fZIjputcpSbciwot3WMVowcBDuyB7jZn8LNnn8/2ivIG0Emlf8QkFCaXxGJR2m3xMRzhTcJAWmt+4SgL4a3kVEQMahtioESbSG7AiKR\
cJ6ckwnQ/Fte1kDQhg43GRSbBzVqfyM7tPkvgeUCPtbZswtIbPQz1mZo7LRQJQuhAa8Tv9TdikAIUKrl9miFAWNGEA82Cklyq980p+Bin3/YJdIlGEj6CXWRL5d9p/iBIzJjkKO2CvcM0Cd/AX/Wb4B0fMpRAtK9\
knvFYSFdqif3J5W4Ls4OSaAZt1MqqibgwmzeUAsax/FMRJ0fc8dSOi8TCX7cQYa5Wk/hJjr1QUfEURQW2YyzfkrBERPbGeos6oXhnBMibomddgSTs/DorgkQOxFPHOjrknHUZDJsFhwIsWuH5NZg2PlXYRpAzcie\
d4YpRNtMkJrDTouZpgHfA9uwkCzX2B/DIxdNLjrGR0f6trfO+QBU989kBdkdIFQ3/kRCqa2dpqBHObZmNXCzzzEDitdJnw598His6CATq5vuTEK12eYjGIB3A7wg/mWp+Q5vVluIP7xaxxzZsxk3AVpc+xNLl/vT\
YTxGSHwWDzvQ4FlWb/lUyWJ3DuNXCqHyN7i5o2X0hiZyOMgTRTaYBcurEg8wnEbPv/x2SmO6txuEWOBTGtsbbvREVliaX14+4uq3zF73BN2NOyqGrToviCcEuZJT8JIcr+XDR2zyVINmhJO/I9TWxYxT9HbN/oev\
exN/E0TXakZSde0doaJJ3/SCkGru5GA7qQCEcJLU6ckODLUU0ffkxR5pt+vAmQr2VspJBdg7zNKn5+gybEcf0KYanxYWKN5+5rO+jss2NISud8eDR64AcNp7GAfKiFUoe/BeYXoDeSWCRBuAQpMgV9/JY4aP7+fc\
iWuH+RN5MeBSi7qOKfRYPvWoub0zKJIq5r8MaqxhuQc9K1funk3gRUyYWOKNinYjwlvAYVxc9gc6RZZr11qP12XcT/lgred49FuFnKvqQMwG4zSwImfOPoSbeI9b6Vh+1P7LWmJAehrWPcQmxoC6jmgadimZQctn\
kdXkwXcIGtyjvyikngDsQ6/HMwd1xudxkOvAIR3EW82NMLCGUs5gwuODMqn4/GPyTzm82elPRA64G8/NXUVNswNKo8BLW+zZ/bjlyI4+BultJtKzxNhV27JtGNC5QY7Hd6/h+K54gcd3xWExBZnVZUHeUteMVqQq\
Dnq9th7Flh4huNLSD+SfnUAIQGsup5/6ETsrTxxJ6dD6oaIQ0GIPQmH/Jz/cFzQBGbGUwuLzxCdAFXsGIFij9xb+HNPqnVvO2Uv6EKwUqpdK/8rdSz7XsFJiW0o28N7QsRG1bv6zqUSLobQ2+7DcvWRdpFL0Gzwh\
hreScdd0bFjB6azhxiXMBDgBp6VMO6IDZ37E1lnkKWKDraIKDk/BRMUtlWvggXiWKL8mCE7hRGdWdDbhXr6wblFtR/gLHv0V7M+hIZSvCk7uOs03nPk1+RG3ncHw4LQB+t6VlZaUYRdCQysub+bBTyjsl1x+MSxL\
7wx4t5jzzaCl24idmqMf5tQEF0QwWoUTyqMbbhbQhMN4wdmjaAED8PdbgEw/5wCg/7751uir8eD8U79IwjE1oYrTr/PyrwDzm80JeN93GdjshmdQ/S+1xDr75Jt7XfRjCsrLLChSTsQxcSh8aFfoe+lHSgbwbcvl\
l8YkeT8m2cyoJtw4i1VHn8m66LOxEO4gjaM14/5M98D/3IlYw9lf8MnItvPeRn6GJaLlg09jz8pQVwfPIvw54L/er6oH+FGgVkU2SZwSM/emvV09fOgHdVbmbrCpVlXw60Humh/wm5BQmqvJJMs+/Q8JS3S9\
""")))
ESP32S2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
eNqNW/9X3DYS/1d2nQBLSO8kr9eW095jSdp9pOn1Ak0pzeNdsWUb0pdysN3Akkv+99N8s2SvSe8HB68sjUaj+fKZkfLfnVW9Xu08G5U7Z2tl3KPgOT9baxv8oBf+Udi9s3VT77s+vjk9gD9j96FwT3O2tmoELUAy\
dt+avNM8cf8kI/eaJ+5xU9Wxa0ndMwtng4EzGmi0+5t2iDhWgLyjYAxxX0CbWjlyKlhOGTXAhWvNXFegkQAdYFZ3CObUTVeuteXhzWi+/0bN92mFjlsYU/UYcQy4WQ28qccnh/QVexb/T8/ujPA8dbPCX/4TPEYY\
qUEyVlZSEiVlaeF+Pl4UMlMGssx7jOXxJb34FpTqyf3mChzFT641hkVECvYRdmFzFfDMid9amHX93BbkhWelrgJ52T5beW9BXa6G5+RH+3ejgtGK9RcIyIMdk5Hs81hYiSNeXPoCtBOWYfwy6oK+FjORrnlOmwC9\
4K9OjkThMlbY0kTA0JQMyNrpEckSiVrR6Gju+mq95dqnwbYpfoc1IYWgsbvpU/elijtfjm1ni0+h18kHYns+hfb8uYm+f/Ey6ko2V4HUYDdg+qbaF0UO5JyEv+dzeTsE4jwGbJ6piS6XWuQ6Qgt2Yq54p3IR86zr\
BPLgvbX7nLfYhHpcxruB6bIwc9bkTs8crN/4NcMDe6fd1tqclmC5rR1k41Me4bjMy9A9xS/7JhVMgKpfeG5kMhEpvmdgAQvunPiV1+wWC3hnhcT5Q1Ox6GvKYCjSA60EmuAWlPpEBOCLdgRqvYBBoR2FanUVyjU/\
W7Vkuu1X3VErYroKGDVkH6uOcFiQfaNGzUBrBI1LYD49551AG3c/yiT4kSvqQ+oVuOHcRmyE064bDANGEdMjmyQG3wkqKdnpYP90gGY452zze7jkRkmALds3Y3WworF3lKEWWUO7UXA4LIOVm8D/dxbCAcP0gp9O\
JMztz/eCqZkSu2wTC6VmgnFN+6AqQdlY0vli5rl2s149vAHEw6Q7bVEBg2Ox4EgUr4k4ukF053lXYLKTXdG7Og2CIwStguJKa5+wDBAeChnNA0xwF1zsCN5ASy06ZTeomT9x/xbkdUBs4IdhkaDeaJfMCOpIvBmX\
cMvqL+sAPa3IY5rNtnJgU47Plqx/7ktV1n6/20a7IM3rcNCOaOlwbMt7oytekhkKt8Tes3hzqWgO/FuXURv8ea4mGSblJ8aVzrwthb0LI1ZRJPKmlHiFmi0F1+zUp2AnB/vbkd30K9exYJOwPewp9ora4J6yIjyB\
Kptt7p3RkZecAA+xgAcdwXSTEOgq+GGQvGPqKtw40KnpNusxhGtmStm9uPiybiHuYf4pXmBkQfVBLhuaVpnAXoJA9qKLxmQ7rL0JjPQA4exp8npqGR6BBKen4E3e/vT67OyA8DetBmJ86yq+dZOkHBsR/jymXUId\
iEkJbb6JH4F5nQAnU4ChZTxi0cYDe2SfRaxdye6bCQx8Fu3Cn0kCWuHQT0cvryktaQoEPQESnwvWKVnnCn5LCw/NLXIQeDiNOGcE4pwKl0Wfy3/ijoP4YNGgeBIrNZmOBBrBL1rgHiBFmwXYKPYIoYkHsxB0YGa0\
EatLng/NhXW1bgaCmnrMKLQfsEFTmw0vpglJIYds57SsQ+gAi7IHkojEYf6ELXrXILqAjLGInkzVNwfi0ndP88MWmX+FoQVEWMh2z4YTBZ+/noY/3h/zJhu75A02VtqU/YmymvGYNgN0WKuH9hMVvsVTR96hkUN5\
/cKyGSeBd3oAQzT2ie8sDmmDhQ2f8n1E0P7EUtxGyMhxuAxGg/lDWHvIheC4PEhTSj8GFL5WJH3ym2k3/1IK98IObcT7UPiX4Y/r8Mcq/LEOfzBkQj80Lnp5binWh1nTc9TKgx+8SVISUHo5ADZZCrr7lQsLMfrH\
5gzKJOkWwYHNGP+UUM3TvvCOxH6ct7QsWl38DHB39ovbhYyI2PTrAOuktACZqRtt3O+SCYq31ugpPh6xUSTI+mIrGIFJwPxPiq6aHYsEKVKo67UoZNZVSDsdcqjgn24oWLUAa3aMPvrjDTt7K84endM1LHfEtDU0\
Sybj/lYSeJgB4glqTil7zHIDLn6MPn6bkVuoeKEV8vp6NbxQk0kinvrUmaHwFWz14j0vuQ4FC18mXpi26jNywkC8JuBdBFBKpe+JTFmSrZia9TbDQUsw+O/Ort6SLhTxK4FOP3PFaurZBJstGp4oo1Bos+Y74ON4\
G+YBcQCWiX8huUADWG9eB74n7Vp8ofrrAS1vfAyRiNuavuLBEu9QT2sRmwavRzB9SjCdthRdQOFolwMWROhvFCh4/VcQmeVY7f/r8OAlIEtChJ+Ihornh9+gZ6goUrmGIPcx55ToYMUCv/iqp5nP93vloYHakpPC\
jrROYM5+vc6wnZhO3Jl3KmSD6/H5Jf7QSVCCFa0VzhqPg00wpgzKNmeEAnC2KkycizBxrji5PhU0DWpRJ8Jlcs3NSn2QyGikVAM/1EtB4WbW4vGvpWsrO2wmWu9vhKSVN5Ps4tv6VvqqO37Lk9uWA5LdZUsz5fwN\
smMBlmDSEcLa54w3xBduxNexqHBg3D6KPQeAp15FGSCpDNS3lhlekd5aPWq1uiYbc7Q+g/TH+O8BAZGmefKoW3EeP4LPLzm9hTUggTaFavZKwBpTardS8KvZi8VsVLMA+dabSX5uvyHD9bm3SCnsWgZO1sZeaJyY\
rbqu8Utlk7zYZASpJx66t9GleKBkwt8BmPdpdcZvpGQH7CR7Zw6vIw93d9nEOllWGSSF6A3wecvRpxqaBlHnMXlJ0JZwPocIBqYEWmZgSTiHGdDMQm8sJSZ9hfwAXLJN5lC0BZiFmUdbfh6RiRtOZkEDcJqBvW8C\
N49oiHfZBu2lnjDfMa9YhSpV2AHuaezBNgx8Mj0GN7O3oDxuqDZSsuPnxZZC6fwcIGB6y2g5UDfuGR0Kkd8H1AVkHgDDvBnGVZvtN+TlmoZLpTzbJYMkTZkqVeUZVHKXd9QFyeYPTLex3bBhksbmA6WGQAemLMSY\
Uo/uF9xtibhp+/UevpYHwGfJ3gNLCBNsg8XER2er+6NtKr0DBW2zO6KhKy6VZLIzMH665JdYRKCvm1EDW6wuo47A0ndH3eRA2+3SzVezg2Org40ipwo0am8ARrzitAzn5FwYoKJLaIsL6Hx+7mvoZUoZdVheAtCS\
2269C/KeImyfeWQEXFdt0O3IDsDtHcsrJsRWYDHpIvsRu8cL8ploZentqGl7fpDGBVZhtiUTOJU68zaGgAUTwVRfNSfBRFhzWESBpw95gd3KK+IFZ7gNhiLaWdC2YnkpXEHuYbHDmS3JBUlUiuA6l30MZ1V4Wuam\
3GtI+MTKkfQFDbrIvIdt5L3piJHngTVItgdjdXeBb9svOx0WbtoEnOIeUlhyYTPuTDRtBdRIB4Uq/0h+avyZMLmkT27aIQeL1/Ip8aL7Iai5y0QN7G2R+y86g0zCQPUZq3o1uIKDAe8BlUVE7mtw7wuyIGJrm9Od\
REjSZpG/LrF2vkRofg3sjvyhU5mccAgCUyBfeM3njXhwVHDeZDz6xNM3qNwYvXGycfIMsOiSsz9I6IuUz9EsIGeD7lx5QnTydUKlwKZeBMcs/DQIdP62MdMTSvYR9tfij+9oMte45OyT5r8zhGvRmU27LPBatgbX\
km+u5YQyLMdsE6iEbTeB7cnE4e4vTsPAt81CB6eR/hrqAn8hTf/EGAXr9yYqPTyrA0dVqFuK9zZdBwwpHdBq5W7k0L0u+aS7aVGfrCS+CAcuhYljZEICTO1jnEQeZCRHRv7w55/EC/gFo2TO9tyo/vL8C4T769hP\
f31LkoW5KwAsOSL74gMVu+R4C8IsQBqTg45U6d79NhHH0+LpZzyITP8d7knxn4AElywxcrV8peS48lxEg55ofQIxT46UGsUx0QbLt+r8HiTDGwi1IdM7QYF4Dt3dsyJjaEunCmlmfydR5RIRZ0F05JwWOMOQju+j\
oEPq16Xa6Cnn52HHzIdXpaXsPArW1J5N6fM17bbBWKaKEzZ9kZVpBciCNQxMpIzdlovEN6IAMz4WQAvYlwOsBYl68Q8fFky4KDSei3DoMzlMXoJ7BS0AFbKQGYpBBRW3Hnp0/F4Jzm3UR7Gv3rkam+yhTNkeJkVd\
8G2nA9g/DWvmfUGowHZVuodwKlrHHVSXfiYKjhLWJJpDjtchsgpIwpDHG8y3pjbGTeT8BoKQOV5HjEDgoAOcX1PfB8rE16v81TECcJK5yt7Uxgd+iEzeVP7gBagL0iSQTwYqP71GYN03vPSEEhmEa7V8zbkigYeb\
/3jF6o9n2sHayXL5to5ugosMeVFeNq/g67uzK2YJUpgCvIv6zGqf5XRzCTQY6pY11/yUvee5QeVnXvI640NxjWUz8HT1mkEU71ig9lyMFGGD1DHjz728dcohKHf+60rke81XYRoEDxaQKGetDZQXEG3RdZktbN+6\
hH9PACQ3AagVs1Z8a0SnLy7wrE0kZVDdVAtvMcFU24IR8ZIDaE36aBCe2fSuxVzlIKybe5BZc7mzC990+tsmxoIBI4a1Uo7tJZhQCqvarFIgN2wXVoVQ1TG5Ra0iZ94Csdu+5Y4vqCXXl520lXN0QmlwNJlAkRTy\
c3K0mK2P9tCVcrzAmnh2TrUfi6WN1UAiG5NJ4a2doUwXzKOadZde4T02PJbkkFvGXJt13qn+HKQ42o8sH8q2IEXHbKssR8xuyXrFrGuzVfmjdazv1F/OF2E1G573hqv5QN5yvd4YDEoN57WQXpQSwzK63YG2h5VX\
OXLW/mZcjfenpv6WSk1nqztcWJCsJkF0sENZOHjButp6OnAETSNBGjYd+c3TuD9vBorY6fftgRieRf8CZ9HZ73gWnU2yc7xD9g4LBz8OFPNSX/9HgyCZBjE7ZuRLof9uVApDS66UKX/NRaXj0DiwsDjmi4N4LxfP\
PJYFufca60sKS6rpZKsls8OHWJgN517MhMro3NBqkR6BsTGMwsXxzRuXnXCLHFAgsuKaJpYCDJ01KRYxtkHk12ZTTjmG7NJswebdhPkS6a/Fq2rwVbKEUq4RF1ie5NMR6AsuClwvpgcApMo8uHEMljMbeaoAIPBU\
JuYrNiLvyl/hMVy7wYRKtzUfcTR5jKdCxeynnpqi6KCMaCYJnSxA7oGwrNH+WgBMU6UTPpcClWw4TlEFgZGnzd69Ce9kyLneSz7cY8SWNd4naEZyeRP5aOUpSGO+i4Q/wsBJdHJMp0/F7OvgVsKMcKBzyVfDtVA9\
G1L/Vd+rT+KALVDaWXiNqXWVXCjr0cN3KVtDntKPGMMXlXI5G20hPZfdjGQE4Pps7G9zmLZu1l5bgBGfqJSKX2vOBTUi7+2Il5X+xQ0utftI5sXbQZEQbhAmZ8G+VJh1yzUeYg17f8WHo8Fc7RyVXPaWpaWdoZFn\
pSurnacj/P8Fv/25Kpbwvwy0yqa5mqVp4r7UV6vlfduYzXTqGqtiVfT+O0JT7e/wlw6hNI6VSj7/D3TrM/g=\
""")))
ESP32S3BETA2ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
eNqNWntz2zYS/yoy6/iV9IYgKRL05aaS68p2cm3s1FWcnmZaECTb3uQ8tqqcFTf57od9ESClpvcHbRIEF4t9/PYB/bG/atar/eNRtb9Yx9pdMVw/L9bKBg90ww8me7pY2+orN8cP51P4t7NYt8ZdrZsQj2AESCbu\
XVv2hg/cn2zkbsvMXW6pJnEjubvG4Wrw4Zg+1Mr9z3tEHCtA3lHQmrg3MBavHLk42E4VtcCFGy3cVKCRAR1gVvUIljRN1W604+EaX/18He7T8Qxf1gN2HBtubQ138e78nN7iTPP/zOyvC9ezUaeA0YYqYIfCTgNS\
srKriujFloTgV+UNIktVINdywF6Z/Eo3fgQlPP+wuQ9H8aMbTWArUQw6BY1s7gWuCfHbCLNunlNHaTwrTR1IzQ7ZKgcb6nO1fU2+lL/XcfB1zLYMBOTCidloYNjITRLx/vKvwVhhJ9rvpDH01oxFwPqE9ACz4L/K\
rsT+CrbfSkfAU0r+ZG16ReJEolYMPJq4uUo9ceNpoLmY72FbSCEY7Os9dW/qpPfmte1p+QZmzd8T25MUxssTHb34+iLqC7eMA8GBQmB5a74Siw5EnYXPk4ncnQNx/gYggKmJOVdK5DpihwaJVrK8SHrch4UyuO+Q\
oGRF69Caq+QwcGOWZ8n23JtZAh5ov224QH3KadeWvAse6z6yyQ1/4bgsqxCwkouhYwULoAMYz40sJlLF+wL8YMaTM7/zhoHSwD3bJK4fOoxF3KmCT5EeGCbQBHCI449EAN4oR6BRM/go9KbQsm5DuZaLVUemP37b\
/2pFTNcBo5pcZNUTDgty6NqNhIyMIcX9qVCPN9llatkbUzDoG3C6H7+/XCymhP5E4wkRQRHoUye2nPWA3rZL20c/Tui/CCxELPBflcFOUwC+KhmxRbKfhWFI2+OI7NJmh9cH8OFxdAj/DjIQmHO2Hm7e0Q5bgz7W\
h/8Ju2tNIlh3d7lhO3MM1wilAbwr9KwRvE6FUTNk9FvQFCJVQhKqRDWKjNUk3htgXAnAsA02KvDGxNtkm2yNgQbvRhvWUfGSpgYlsrm3m2I18S5D38BEEMgFzGNBFiCjBS8SWp52dg4TYF92KgEwCaM3jqhDjfYM\
WYuJjtL4+ZTjbHJ4U5534eBLkKIGKRpR+njI4ogjkJiw+4AZAkDBfSfsnyDyhkQP7+uKtVdtkYfMsWztaZ82fis0NdMpPkOn5jnZ5pzNgEs7OZZkLvHv0Gz4WVUR41XFgRC4af8kbfBZ5k34AOz9F/Y3gaDJ3p7B\
Aw9PHvBfvrNDq9eKjXWr3aO0Opi78pGkAkWoy6/dErbm8C66CQJOSKm1R34yfb+FhXT44YuIgu7cUm6JSM4YVQVfAygbwy7RbFEdjJdBAlHJN0+8fZJh5P3MKI7RWu2fq9YbhuV9WPtXhvEuVNuv4cNd+LAKH9bh\
w/k5qxYAGpPAbHJ9zq6zYzzChcmsMu0F7VAhglVegOiw2bPF7Vtg+aTlKVu1eeWrBNxtLdR/gNA0fsNIhRZfsIRqWhfnb3FRn+feB4pCJh+vkKXZk2AmKmzyO0lcMRpLxUPWdbcW6ywgYZIwZLeGIYD0exrsqoTx\
a4xsj/cMGjYoKzCvcJqqkDau14hhPvEFGi0vHEGdmDMblR6y8Rg9nhYEozVvs0bJX662b1MXEI0LkqvktzGp8hZ2PHvHZFQoTnhz4EUpLz0jc064GkqKDHOKYJW/IzJVBfH0I7t2wbknbD//ZrH6EQQDX7wUbPuB\
I0zqPde0vEZBuYPV7TfAwus9WAIkAWVv8oZEAlyAD5doI06SFUgSDBe9njdTbguGY19BIQW9DQU4Tgv+jEWZzzBoKVLhX2G9S91fnU8vgFtqB3yEbwtwUsxY4S72PQQ94QSmV2NtKdDAPnUP/Se9CnLzSywi4ix4\
cKLaDyhkQfNCbEdYEO79RpFCFVY4rf4WsUYT5Lw7ZjRCD1H4AMlazsOQKPLwustSiUN+OKe3DgrLMb8FvbeUDSwWFJ9wHNyDx59dYzy77NIG0Nu/CAUdp4rr1Np2fn0bGQQ4TnMEUDYAG74qOFmUjNyHhpMK/r6M\
ioTMH42sA4+X5C1WjZ4IFbKpumWKaGjNjtxMeVPt0RfDxgu4oG25iwHeCz6DRoTXjxc+7NYbJjoVsH1Ntg/Mh90mZ92Xkc8zDznVVx+3A3Sdb5GSzTa6WAlFQMiSwctsNoFiGeIoom9X9gN2ZpSpxuyNutvuIH0I\
XLBW3ByywSBCVUniAZMyKgRDJGu2cF+ZEPGP0h2qetoGQmPytLctSKjz5cZuU9lONwrxKj2Zwp5POA4qnLSPg2p5tVi9vdrjMh9KSls8EAUII2hmyKB8nS75BjtKp0Dj7nTU4s151K2LvnhxNesnMMrunrgFG9/q\
AHYh9pOREoyCeVq0888v6qJhifnV3R2kp2cE4CrpJ0FILfWBA8YhLTPh+FhUPRPPAIaXPYmta6fTsqALOckJ5uP4ofyu/UXSDOo8oKXkD6OWJ9v8XgbPQKYtYmAye8PSyffgpj3DQUcbG63tG7+SQZycRZ0tYaoV\
8mNzvnf84BIPTMxgWT2jKBFD1dXbQulJVj2SM6pLiD/oQYgWBwvH+QmtetSSDoibVzJ9sUKGGCkgA4QoCP2hvji5+od9qM5iaN3+cm86czoLh//TVQrowNK/wTopGcoqEUGpcFpMU1SxGwwqGVTEXJz1Q1w3MR3u\
6HlQmMOEbDjhnOMUymNJs9AKTeq1oop5fQDIsdxWYK8ItlCVTcjYHjX4kFukQmosMeyfgCElS/ib3oH7j3xTq8rmZAqIYGNKSpybnVLsx36U4WRPB8EaLijPtdqAzfkxFE1LjkFQWZiM23MWPEGLewghaqjNqaho\
m5mXuuGrxf7iTxsrHVHhqtWFNF8fpBw651yZ1n7QlA3YoA4f7GO+dR/l5j7mlP86Rg0jB+GP6ACV/SlU9uz7ga4wxwC3z68DErHiV0TiQTqkEfFs8CbhBJkzg65O3kYjhrhBzVUMl2gI2SUoeiRsJ2ekf5p/y2tq\
CN3QDRdrQtPIpKP7nuzQ5r8Flgv4WGXPziHJUUcszdDYaS0ja6EBrxO/2t2KQAhQqlHcZWnbKXWPwEAh3WrU2/oE/Ovph12iC6mbTj+hLHLI2biffMtWzQDkqK1ChQH05C/gz/otkI5OOK2A1LbkjnIYXsr40f1J\
JbqLp0MvTA97LIbKDbgw3dfUqMZxPD+Jz464oyntmLGEQO4zw1ylJnAzOvERR7YTU3BkG866KQXHTex0xKejbjOcfELoLbEfj0hyKqd7CbU6OrhOxA178rpgENWZDOs5R0Hs4yG5NVh1/o8wGaDOZMc7WxVCbSYw\
zTGngSSh1eB4YBgWsuYKm2Z4PKMYjQbg6EjfdqY56yHq3qmsINoBQlUdnFs0bCr9JlTQtRyactxzs6eYB0XrpEuKPngwjumsE+ug9lTitN7mIBh9dwOwIP5lqdkOKwu7AegPr9eRNGKmktfj2p94d7k/QMbDhtjn\
8qCBGs+9OsunUjceTzh4pRAn38PNHS2jNiSRw6GfCLLGEl5elZTcxfrs+T8nNKY6u0F8BT6ly73hRo9khaX+7eUDrn7L7LWP0P64owLKxmcF8QTnAZhxJJSUg+M1fFCJXSDT61a4/bcE2aqYcqLerNn/8HVn4m+D\
0Gqm5Attc0fZpE7fdhsh0dzJ2XdiFktXjGkpkZKdxZJ00B2laevzUmoSgD8V7LCUkwq2t5iuT87Qa9iU/kCzqn1aiA4S72U+68PebsO20HYeuf/ApQBOew/jQBnhCrcfvLeY3kBe2bLpdbhQJ8jVK3nM8PH3GXfr\
mn7+RI4M0GRR3BFFHwClrkHVDKolKbDgBMBwj6hf98Fnru49hdweCj6FGIfl32h3RJALUIyLi4qgm2S5iJW20EbfPeUTuI7jwS8a8sCleIs1xmlgRY6ofQgH4EFNK6lAKv9xJZEgPQlrIOIUI0FVjWga1tfMo+Vz\
y2Z87xsGNarp80UVd682sO8eDp7rEBPwmCI+xdO8UzrfA1tV3ETDn47IgY0OOtkSyRd8zKOpH+O43uf+PTeFY2q27VNqZThUmPH1lpM++hjEYTMRB4sAz5S2qBLjPLfU8dTvDZz6FS/w1K84KCaw2fiiYArlkMLM\
58i+VEw5SHZyfRDDe4BgTDwtyZlbgRw78z5YYpLf7Kw48urF6gO2g7G2PjQHewI5sGMstrA8PRbBkqQsHzLUeOx37c9Drdr5NzFt5FRQ0zSjfuM2KB+NWKnJLWUCeK+puUONntWmVC2G3ErvwXL3gXrZZC2eN8Nb\
ScsrOmg0cMqruQMKMwFzwL0oHR/R8TU/grDGI08RejxgC1Dm4RGaiLahms40fAopv00IjvBEbJbFZsamb5kWxXaIPwnCaqQ+0ITRpuAksFV8wxlinR9K/zqhYwtoWBkrDayUnQktr7i4mQW/ybDPuUYT7GYjU1Bl\
m2T6N/hWrFYfXs8Y0Bsh/jScUB4CcZ3KhINozqBsulznagvOqb9zfMAyapgGqe82vOGPboWEm1MAIn6Ri78C0+nmBLzvOhBsbf1Wd/eLLzHKLjfnhhj9IoPSNgsmLafniEmFj/wx/uok/Ug6w7cNl2YKc+i9iAxI\
D+rFjfPb+PALWRe9NRLCLWR5tGbUnQPv+19OEWs4+0s+Wdl2RlzLL7pka3nv08iz0pfV/rMR/qDwp99XZgk/K1RxUaRFGReJe9PcrpYfZFDHY5W7wdqszOD3h9Z8tc9vQkJxUpTjMvn0P3ZbiIQ=\
""")))
ESP32C3ROM.STUB_CODE = eval(zlib.decompress(base64.b64decode(b"""
eNrFWmt727YV/iuOndhttvUBxCu8xJFaybLsOE37dPXch1lDgqSXrtMWR2mcrf7vw3suIiVbSr7tg2wJAIFzfc8F/O/BorlZHBzuVAfFjbHFjQ2fKgvf8TGvT4sbn4dvUXFTuuImp9H9MFi+CH/S78OfOAyl4X+z\
G/54eTqmp4ubtr7MaI9n4Y95HvaPFmEU021xXdw0JvwaDKvxXjggf8g0VINZcVMPxl/PdsOzJinDwYPwCWvzfBj+RMVBMccJ2O992CGh/WiVy27DaDigCTRbF760YcYH4qs2Kw6Irt/Pwro6rK/42bbNsg0TevSI\
RUOchk9dZ8Qp7wfiU5HZYCm88Amic+HjI/z/5lZoyS/A4xDET7pzTPifuxGL4P5D3bNbOZpPGPZo0JO639Z/AwXw7uG8la1V26S0bAwJBRW5iLcOSg1qcv5MdUsqJ0W+YFqq8LTPzrMH4V8gvLYZ2GHN89M2PwnL\
6mkwiTqsaMQsrB9jmGUMm2qi0Yz4WAhdRhaBGOjPizTLhGV+02YiMdMx20B6bVFABHs7mbDXl4D1oCciIz6AZD3bdjjrKBzk9h6K+ZE9igGKMa7YoEmW9BqRoxevsVFP+R4SHIW/tmL6MJpbFkWeTDGNRx/A9GFC\
ho0Ay1p3cYRF/VMhSThgIwfk7hgjgb1aRtr6gvkFLRAftEJb2o62ysDxQDFtFrGNgb62waZT9ZaeOYRHwEcqrmbE2Gy3RDlubXc6TKem04gwOmrA1tD6u1uAsH/ywVU2IYsUB8CKPJmQxMkXvnvmp8IZbDGb9uwX\
XKnJ5FHPMwXHaqzGjx50fI0lI15vhXKSncFMiplB0JAbyNZ5CqDZE7tU9vubO3vVkUPHx2C5EfUNhEgCRtXM0tDxbFXiCIHeHgsEr6nwu5lz+i24QUfbINYGP4ygFTMidlfrD7DIRz3gmWCJrDoj2ofq1tFEtqz7\
WzZCcC32+Cm8IYjB16mCTh9v+tgCMwM2iCmWMNuYwcSTHr4cywy81u3Du7HDJVs2A8yJ/0vYpsMb/wq8QjUIG08JaE+G+yLFhp3RiXSBG8AU8mSzE77UAgSJMjUkfyhobTFk+YTHC6KxGAsUxRgcjjmMfgp4bJ28\
Z//QSL0SeL2NBGN98+xXDY/YY8zU3k89jzVeMMkmDAbVYMqstGTAO0esh9b+uR9hpmqQw3vOqxmTGWnh4IPJZiLIZIA7YKIUqkgiAoQ9UYw0T1HrN4kaTRqsL2866+v5xYLJg5H6PooRRl7dsseTICMmDzMwibw+\
ZGuDPeE/gh+APMfiao8nGAVHGdOGE1gYLxkY7wvAExF1uxboV8MInNdIBBnororjm8QJR6ijbrWn1R0RVqCFn7uSTSCewXqoINzOuxCx9UjbHcnQD0FU2Uh9P4abD5TVx+wClTh3RWrxTJ2L+ZhA8y6ygcF4XX7I\
noysolgQTzJ2xSp7/xboYW/fYeoNTk72RbOBhbphRmskJwCuUijKbmElUHMXmBYsjFwAWZEIhLflERPKSLPLlqqAtNnU99c3N8kv3QmEDOU0sFs5TpGDffZCLX1AqBNJMykbSHRC4urjvdOg0mR3G8CBiD1Z4WG1\
efJM7NckvhNYVQ4fQ1XluJgH8GrTy/YnCPin2dJ1AajOv8MiVdybUwZZKCJPXnyKEDYyGEJTrzy5lYXXHAERYZxT8H04+tjL2xJQkzZ9hCVkFSNVs9ZMh7H3K/bYjYEBth5wj2h7kAHeW8781zYDuN3rkyUGzNu3\
t+9+BNj8BMT7Gyy1EhijuLsLtN2Hy59CPgiaLYqzGjxHv3Ci1Yjll2IqqrYVYgZfcWpeQV1VyiAH3PGDTWwOmfQ8uQpLG/uBd8yTWm0015Jwuxt9wgYpvqS3/9m8J5m4P2TUJrv2dxeHg6/5EcJ2TbPs7Ehqv2Q9\
c8vWXJMyFCvZZQ2V4pzWhOTVVOFb1rLnGgi4zDV92JeE3mUv2GzLT5sth0IKKGAHVbdzfvGGDaVSnHYjz8lMnvVn/jBihedEX/RBymsaWaHhx+00MLq/Yc/7XPkgLHoWe5sjXs4QSc/ZonOnM+22o1HgDm4lMYMj\
JDH/aEp+rLGp/7azXoSqZvBUCvfNhNIgaf17TuTnnMYToQlAWeuYZfqLloKmv9ZOeRC7IWmhhsb/F6Nf44kOoy+Tdb/eImNatArkLx//AHv7oZhfgu7ZL8CV8vT0DJNnj59j8nkxPwfKvzrvJalVdjGaXb7tJI/8\
EUyGcHEkriCQXSICx1I6DBica8NrvERoLxGa5kqmHSYN0G0GnDejrAE6wSi8mfOCjYhcVpo55s+yD2vlk2ZdmgFhrIIZN7IFClhnJ39HdkmpYL+QWy3CHlwdkXHtSA6txVuSD7XHhm/80JRzLGOPtdxV3S37ZzaZ\
0F4SOLelYW3ZtfCKYnrXFCraVTknxjJKMwumfhsSwP+2YPRcxMs9Kf+z8FOyDkW482X/TnoPIBDuRaKDGVoaTPgLd04mW0y4pALoKjsTttAFsWsdGWTRedKOWlVE18ChXCbQuUCMpU5U/Y/suap1i6RLqQ5dpeGH\
bXbZfciE75z5Q0Cm8bgbD3UXF9BzKZ8JGS1rCoshFMuJ7gJLqUaT+TJaXY9PnX5JzaJU6qD0nH72ivL1/GNbukWVj518wQJ0VKgQUXHHps8eilXadhcSf8Wl39Kv0HmwEqQaGficSua1NLJWyphtsdL1SiRKnZtP\
cGc/Vxo7vLikik37ddpugVCy99LZ7EvH9KVTSneldlIZayBBIdpIAHLU/PTfHEGRlwIxTvWuesZBVbtuHwm1BKk3+9hfAZxZAtZ1E2Y5kRfXNCxtrRBLS5lJiwXNUOW+S+lRF7Koa9JqAy2W3nuS6ojjkRJR7XMN\
jQyplFDbO2eVvadkx1iWPfG/Ale/IiF6DjENXNY6+kkt5xfFtQpYYA45cK6ZxB3rtYK8HK9EXwn3sNBoRRZNeGSfSJKJeGyP5cA6gwu75FjOlMYaENtbalhOPLdDKCB40XWdn+w9VGBHndUIUKKjhWS9TLpO746X\
W5NUgnqtp0kjGBN59OiUuhEAQek7mmTHaxa8qtHXTEsp4axkW6FWCeLl8gAvB0DSJHNqCGfMUe2RE+TPEdJPwPsJgHCMK5vxFtzOqbxyAHpu+lC19Qi2fU5kONU/UJWYjkfHvouzwWh/lQlkH3ekQf1UEGsqIbZc\
M+dlDWbZozxLu5F+ZjybdupsMjXLqUYK2ERd9dDeSRODk7mdPfZAHK8t6DJGa88+EsSi5uoOtdhzMRlrPEP8Us3SgTXciodYaoFRnbLLbo2TXiyaeqvM0xbJ5LGa+Eya/dq2TGV7UvWRDg6XG2eycbkiAhJ2S9Y8\
6spY4XLpm73Mqif13E47FghZQLWv5YlGEfSHvruONXLP+sGG52qxtMGdGbmwadZAuJF6BKJueq1mKxSWtXSmkvG5dJ7FCny2nhD8HsVqyN9JIyHiHXLh2Rvq/V6xP6tEHGVMdoT9HxwC5usRulauRl8SxNW3WkjU\
Qx5qcslbKnJc6Uluoq0xH2mbOVcajTh7FX14JNdeODUbvemO8XMp1Mztx270IwBr62Gv0QHArZs75cNa7QFufmbnN3mGpf9wJJdqrUBnI1YqODqWSFHLbaDpwObjocboO6uTbrXzJ17cOdWs7UTAqkYnKNdri+XT\
4kJNs3y6pqfnolTdQPr6lPagKnGGS+GFXr7E0mGR68Aqk7uadpkyHPMANRkSqfGtNLZrjv3ku8GVudXAcWgqI0RuI+SWwtUyf75HYddP+6KOuhjVxMsYNe7usvlsO2bqUPPT2bkQQvfzFKYJB5u0S/lc9CHrSnVE\
FPBGHhl9oc9IGRSQQayupYpJpaRN4iZXVEFnokTgrDmEPpSOvGEMvSNga15oysawTmCBsN2KzZWrsnSdNPrMdelNrumNlcsyOwlUzCWg0/8uxLHdLpXIFr/DG+DOhHtHvQilu7dy97Ay6UzvSTvrMiRo0SvuxxON\
YjJXNdsSVatG3E+EephJeX3NY/zywuyeCBis41ryY4TxyI93kK75v/L7AVqd/RsMyC1K43rmIQl25bvOCHNbMkX8uETOSqzB63gXteT1A1ypEpfx3dwPcSR+xZFvM7y/6l6FYSZHlJm8ozcHdtkDSP1USVYr4d4Q\
GFqpo1lUCwqQP3YXkSpChl3/kmx2zu0HSmXgpO17zkhp70T3ztOuc6Bqu5+T4SXlLatXlSL/1vUJmUnMKuW6G0JfXaGC4Bh6MKJC9sttp+Nz8acgnVBjNL0CIXnbE64qyIw3YtZs5UUlINRZdzvefzHDkmAupGlr\
B1KpwYz1PRQ1a309hCnh4BrJRWbWNdHuEelpHwuONvNuzLFUDv7+TJk1/bPcO1teyIPfsiZyqy9J/KbXn2o1KRv5lqYUu2LeHnF7bWlvFI/w6lTYcM5tOG6Uh0xMu/hxd4JJTuQWvuUs5vrkazTlDqUjJ+bqYa7p\
7nRwIi90sAkFEy2kmyCJn7ZMrH4igV8krptkWRqAzuCCBHAgIRtW4zVcIEBTulQLz9RkHVwgQlAgpXJDLwsSKXhN78UEoYsuBmq8MqAQTi9pELo4BuYmlVY2M/8vWKR0CZy6Y8IBUuLzQmJjJJcsGUtHz2bUX/FL\
PK8RuZHXo/Qxszm+g6cnd71tc6qYb/S6J3L1HkvSQ2hnOBKVZisVw8PP9JHcaNETS1hDvyN9uY+WdIpCAG2RNp21aEqnp8dw/PRsHwVo+pz6Xbhme9X0X9qiz8Efd+iFx5/fLcprvPZoTZbF1uaxCTPNfHH9cTkY\
RXEaButyUer7kbCr4FMHMtzfxdg0dia+/R/imbus\
""")))
def _main():
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
try:
main()
except FatalError as e:
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
print('\nA fatal error occurred: %s' % e)
for new nodemcu-firmware release 2.2.x
2018-12-23 21:53:25 +01:00
sys.exit(2)
Upgraded esptool to python3
2020-12-07 20:02:01 +01:00
if __name__ == '__main__':
_main()
Reference in New Issue Copy Permalink