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#!/usr/bin/env python
#
# ESP8266 & ESP32 ROM Bootloader Utility
# Copyright (C) 2014-2016 Fredrik Ahlberg, Angus Gratton, Espressif Systems (Shanghai) PTE LTD, other contributors as noted.
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# https://github.com/espressif/esptool
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#
# 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.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# 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.
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from __future__ import print_function , division
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import argparse
import hashlib
import inspect
import os
import serial
import struct
import sys
import time
import base64
import zlib
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import shlex
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__version__ = " 2.0-beta2 "
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MAX_UINT32 = 0xffffffff
MAX_UINT24 = 0xffffff
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 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 :
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raise NotImplementedInROMError ( obj , func )
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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 ROM """
return check_supported_function ( func , lambda o : o . IS_STUB or o . CHIP_NAME == " ESP32 " )
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PYTHON2 = sys . version_info [ 0 ] < 3 # True if on pre-Python 3
# 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 ]
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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 & softtware 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
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
# Some comands supported by ESP32 ROM bootloader (or -8266 w/ stub)
ESP_SPI_SET_PARAMS = 0x0B
ESP_SPI_ATTACH = 0x0D
ESP_CHANGE_BAUDRATE = 0x0F
ESP_FLASH_DEFL_BEGIN = 0x10
ESP_FLASH_DEFL_DATA = 0x11
ESP_FLASH_DEFL_END = 0x12
ESP_SPI_FLASH_MD5 = 0x13
# Some commands supported by stub only
ESP_ERASE_FLASH = 0xD0
ESP_ERASE_REGION = 0xD1
ESP_READ_FLASH = 0xD2
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ESP_RUN_USER_CODE = 0xD3
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# Maximum block sized for RAM and Flash writes, respectively.
ESP_RAM_BLOCK = 0x1800
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FLASH_WRITE_SIZE = 0x400
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# Default baudrate. The ROM auto-bauds, so we can use more or less whatever we want.
ESP_ROM_BAUD = 115200
# First byte of the application image
ESP_IMAGE_MAGIC = 0xe9
# Initial state for the checksum routine
ESP_CHECKSUM_MAGIC = 0xef
# Flash sector size, minimum unit of erase.
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FLASH_SECTOR_SIZE = 0x1000
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UART_DATA_REG_ADDR = 0x60000078
# Memory addresses
IROM_MAP_START = 0x40200000
IROM_MAP_END = 0x40300000
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# The number of bytes in the UART response that signify command status
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STATUS_BYTES_LENGTH = 2
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def __init__ ( self , port = DEFAULT_PORT , baud = ESP_ROM_BAUD ) :
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""" Base constructor for ESPLoader bootloader interaction
Don ' t call this constructor, either instantiate ESP8266ROM
or ESP32ROM , or use ESPLoader . detect_chip ( ) .
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 ( ) .
"""
if isinstance ( port , serial . Serial ) :
self . _port = port
else :
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self . _port = serial . serial_for_url ( port )
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self . _slip_reader = slip_reader ( self . _port )
# 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
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# https://github.com/espressif/esptool/issues/44#issuecomment-107094446
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self . _port . baudrate = baud
@staticmethod
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def detect_chip ( port = DEFAULT_PORT , baud = ESP_ROM_BAUD , connect_mode = ' default_reset ' ) :
""" Use serial access to detect the chip type.
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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 .
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This routine automatically performs ESPLoader . connect ( ) ( passing
connect_mode parameter ) as part of querying the chip .
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"""
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detect_port = ESPLoader ( port , baud )
detect_port . connect ( connect_mode )
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print ( ' Detecting chip type... ' , end = ' ' )
sys . stdout . flush ( )
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date_reg = detect_port . read_reg ( ESPLoader . UART_DATA_REG_ADDR )
for cls in [ ESP8266ROM , ESP32ROM ] :
if date_reg == cls . DATE_REG_VALUE :
# don't connect a second time
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inst = cls ( detect_port . _port , baud )
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print ( ' %s ' % inst . CHIP_NAME )
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return inst
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print ( ' ' )
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raise FatalError ( " Unexpected UART datecode value 0x %08x . Failed to autodetect chip type. " % date_reg )
""" Read a SLIP packet from the serial port """
def read ( self ) :
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return next ( self . _slip_reader )
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""" Write bytes to the serial port while performing SLIP escaping """
def write ( self , packet ) :
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buf = b ' \xc0 ' \
+ ( packet . replace ( b ' \xdb ' , b ' \xdb \xdd ' ) . replace ( b ' \xc0 ' , b ' \xdb \xdc ' ) ) \
+ b ' \xc0 '
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self . _port . write ( buf )
""" Calculate checksum of a blob, as it is defined by the ROM """
@staticmethod
def checksum ( data , state = ESP_CHECKSUM_MAGIC ) :
for b in data :
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if type ( b ) is int : # python 2/3 compat
state ^ = b
else :
state ^ = ord ( b )
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return state
""" Send a request and read the response """
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def command ( self , op = None , data = b " " , chk = 0 , wait_response = True ) :
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if op is not None :
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pkt = struct . pack ( b ' <BBHI ' , 0x00 , op , len ( data ) , chk ) + data
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self . write ( pkt )
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if not wait_response :
return
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# 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.
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for retry in range ( 100 ) :
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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
raise FatalError ( " Response doesn ' t match request " )
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def check_command ( self , op_description , op = None , data = b ' ' , chk = 0 ) :
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"""
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 )
# 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.
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if byte ( status_bytes , 0 ) != 0 :
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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 )
def sync ( self ) :
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self . command ( self . ESP_SYNC , b ' \x07 \x07 \x12 \x20 ' + 32 * b ' \x55 ' )
for i in range ( 7 ) :
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self . command ( )
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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
# 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 . _port . setDTR ( False ) # IO0=HIGH
self . _port . 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 . _port . setDTR ( True ) # IO0=LOW
self . _port . 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
time . sleep ( 0.05 )
self . _port . setDTR ( False ) # IO0=HIGH, done
self . _port . timeout = 0.1
for _ in range ( 5 ) :
try :
self . flush_input ( )
self . _port . flushOutput ( )
self . sync ( )
self . _port . timeout = 5
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
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def connect ( self , mode = ' default_reset ' ) :
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""" Try connecting repeatedly until successful, or giving up """
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print ( ' Connecting... ' , end = ' ' )
sys . stdout . flush ( )
last_error = None
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try :
for _ in range ( 10 ) :
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last_error = self . _connect_attempt ( mode = mode , esp32r0_delay = False )
if last_error is None :
return
last_error = self . _connect_attempt ( mode = mode , esp32r0_delay = True )
if last_error is None :
return
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finally :
print ( ' ' ) # end 'Connecting...' line
raise FatalError ( ' Failed to connect to %s : %s ' % ( self . CHIP_NAME , last_error ) )
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""" Read memory address in target """
def read_reg ( self , addr ) :
# 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 ) )
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if byte ( data , 0 ) != 0 :
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raise FatalError . WithResult ( " Failed to read register address %08x " % addr , data )
return val
""" Write to memory address in target """
def write_reg ( self , addr , value , mask = 0xFFFFFFFF , delay_us = 0 ) :
return self . check_command ( " write target memory " , self . ESP_WRITE_REG ,
struct . pack ( ' <IIII ' , addr , value , mask , delay_us ) )
""" Start downloading an application image to RAM """
def mem_begin ( self , size , blocks , blocksize , offset ) :
return self . check_command ( " enter RAM download mode " , self . ESP_MEM_BEGIN ,
struct . pack ( ' <IIII ' , size , blocks , blocksize , offset ) )
""" Send a block of an image to RAM """
def mem_block ( self , data , seq ) :
return self . check_command ( " write to target RAM " , self . ESP_MEM_DATA ,
struct . pack ( ' <IIII ' , len ( data ) , seq , 0 , 0 ) + data ,
self . checksum ( data ) )
""" Leave download mode and run the application """
def mem_finish ( self , entrypoint = 0 ) :
return self . check_command ( " leave RAM download mode " , self . ESP_MEM_END ,
struct . pack ( ' <II ' , int ( entrypoint == 0 ) , entrypoint ) )
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""" Start downloading to Flash (performs an erase)
Returns number of blocks ( of size self . FLASH_WRITE_SIZE ) to write .
"""
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def flash_begin ( self , size , offset ) :
old_tmo = self . _port . timeout
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num_blocks = ( size + self . FLASH_WRITE_SIZE - 1 ) / / self . FLASH_WRITE_SIZE
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erase_size = self . get_erase_size ( offset , size )
self . _port . timeout = 20
t = time . time ( )
self . check_command ( " enter Flash download mode " , self . ESP_FLASH_BEGIN ,
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struct . pack ( ' <IIII ' , erase_size , num_blocks , self . FLASH_WRITE_SIZE , offset ) )
if size != 0 and not self . IS_STUB :
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print ( " Took %.2f s to erase flash block " % ( time . time ( ) - t ) )
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self . _port . timeout = old_tmo
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return num_blocks
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""" Write block to flash """
def flash_block ( self , data , seq ) :
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 ) )
""" Leave flash mode and run/reboot """
def flash_finish ( self , reboot = False ) :
pkt = struct . pack ( ' <I ' , int ( not reboot ) )
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# stub sends a reply to this command
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self . check_command ( " leave Flash mode " , self . ESP_FLASH_END , pkt )
""" Run application code in flash """
def run ( self , reboot = False ) :
# Fake flash begin immediately followed by flash end
self . flash_begin ( 0 , 0 )
self . flash_finish ( reboot )
""" Read SPI flash manufacturer and device id """
def flash_id ( self ) :
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SPIFLASH_RDID = 0x9F
return self . run_spiflash_command ( SPIFLASH_RDID , b " " , 24 )
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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
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print ( " Uploading stub... " )
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for field in [ ' text ' , ' data ' ] :
if field in stub :
offs = stub [ field + " _start " ]
length = len ( stub [ field ] )
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blocks = ( length + self . ESP_RAM_BLOCK - 1 ) / / self . ESP_RAM_BLOCK
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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 )
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print ( " Running stub... " )
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self . mem_finish ( stub [ ' entry ' ] )
p = self . read ( )
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if p != b ' OHAI ' :
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raise FatalError ( " Failed to start stub. Unexpected response: %s " % p )
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print ( " Stub running... " )
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return self . STUB_CLASS ( self )
@stub_and_esp32_function_only
def flash_defl_begin ( self , size , compsize , offset ) :
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""" Start downloading compressed data to Flash (performs an erase)
Returns number of blocks ( size self . FLASH_WRITE_SIZE ) to write .
"""
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old_tmo = self . _port . timeout
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num_blocks = ( compsize + self . FLASH_WRITE_SIZE - 1 ) / / self . FLASH_WRITE_SIZE
erase_blocks = ( size + self . FLASH_WRITE_SIZE - 1 ) / / self . FLASH_WRITE_SIZE
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self . _port . timeout = 20
t = time . time ( )
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if self . IS_STUB :
write_size = size # stub expects number of bytes here, manages erasing internally
else :
write_size = erase_blocks * self . FLASH_WRITE_SIZE # ROM expects rounded up to erase block size
print ( " Compressed %d bytes to %d ... " % ( size , compsize ) )
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self . check_command ( " enter compressed flash mode " , self . ESP_FLASH_DEFL_BEGIN ,
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struct . pack ( ' <IIII ' , write_size , num_blocks , self . FLASH_WRITE_SIZE , offset ) )
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if size != 0 and not self . IS_STUB :
# (stub erases as it writes, but ROM loaders erase on begin)
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print ( " Took %.2f s to erase flash block " % ( time . time ( ) - t ) )
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self . _port . timeout = old_tmo
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return num_blocks
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""" Write block to flash, send compressed """
@stub_and_esp32_function_only
def flash_defl_block ( self , data , seq ) :
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 ) )
""" Leave compressed flash mode and run/reboot """
@stub_and_esp32_function_only
def flash_defl_finish ( self , reboot = False ) :
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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
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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
res = self . check_command ( ' calculate md5sum ' , self . ESP_SPI_FLASH_MD5 , struct . pack ( ' <IIII ' , addr , size , 0 , 0 ) )
if len ( res ) == 32 :
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return res . decode ( " utf-8 " ) # already hex formatted
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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 ) :
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print ( " Changing baud rate to %d " % baud )
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self . command ( self . ESP_CHANGE_BAUDRATE , struct . pack ( ' <II ' , baud , 0 ) )
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print ( " Changed. " )
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self . _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 ) :
oldtimeout = self . _port . timeout
# depending on flash chip model the erase may take this long (maybe longer!)
self . _port . timeout = 128
try :
self . check_command ( " erase flash " , self . ESP_ERASE_FLASH )
finally :
self . _port . timeout = oldtimeout
@stub_function_only
def erase_region ( self , offset , size ) :
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if offset % self . FLASH_SECTOR_SIZE != 0 :
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raise FatalError ( " Offset to erase from must be a multiple of 4096 " )
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if size % self . FLASH_SECTOR_SIZE != 0 :
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raise FatalError ( " Size of data to erase must be a multiple of 4096 " )
self . check_command ( " erase region " , self . ESP_ERASE_REGION , struct . pack ( ' <II ' , offset , size ) )
@stub_function_only
def read_flash ( self , offset , length , progress_fn = None ) :
# issue a standard bootloader command to trigger the read
self . check_command ( " read flash " , self . ESP_READ_FLASH ,
struct . pack ( ' <IIII ' ,
offset ,
length ,
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self . FLASH_SECTOR_SIZE ,
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64 ) )
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# now we expect (length // block_size) SLIP frames with the data
data = b ' '
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while len ( data ) < length :
p = self . read ( )
data + = 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 , is_hspi , is_legacy ) :
""" 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 ( ' <IBBBB ' , 1 if is_hspi else 0 , 1 if is_legacy else 0 , 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 ) )
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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 + 0x1C
SPI_USR1_REG = base + 0x20
SPI_USR2_REG = base + 0x24
SPI_W0_REG = base + self . SPI_W0_OFFS
# following two registers are ESP32 only
if self . SPI_HAS_MOSI_DLEN_REG :
# ESP32 has a more sophisticated wayto set up "user" commands
def set_data_lengths ( mosi_bits , miso_bits ) :
SPI_MOSI_DLEN_REG = base + 0x28
SPI_MISO_DLEN_REG = base + 0x2C
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_DLEN_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
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old_spi_usr = self . read_reg ( SPI_USR_REG )
old_spi_usr2 = self . read_reg ( SPI_USR2_REG )
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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_DLEN_SHIFT ) | spiflash_command )
if data_bits == 0 :
self . write_reg ( SPI_W0_REG , 0 ) # clear data register before we read it
else :
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data = pad_to ( data , 4 , b ' \00 ' ) # pad to 32-bit multiple
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words = struct . unpack ( " I " * ( len ( data ) / / 4 ) , data )
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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 ( ) :
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for _ in range ( 10 ) :
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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 )
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# restore some SPI controller registers
self . write_reg ( SPI_USR_REG , old_spi_usr )
self . write_reg ( SPI_USR2_REG , old_spi_usr2 )
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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 )
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def hard_reset ( self ) :
self . _port . setRTS ( True ) # EN->LOW
time . sleep ( 0.1 )
self . _port . 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 )
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class ESP8266ROM ( ESPLoader ) :
""" Access class for ESP8266 ROM bootloader
"""
CHIP_NAME = " ESP8266 "
IS_STUB = False
DATE_REG_VALUE = 0x00062000
# OTP ROM addresses
ESP_OTP_MAC0 = 0x3ff00050
ESP_OTP_MAC1 = 0x3ff00054
ESP_OTP_MAC3 = 0x3ff0005c
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SPI_REG_BASE = 0x60000200
SPI_W0_OFFS = 0x40
SPI_HAS_MOSI_DLEN_REG = False
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FLASH_SIZES = {
' 512KB ' : 0x00 ,
' 256KB ' : 0x10 ,
' 1MB ' : 0x20 ,
' 2MB ' : 0x30 ,
' 4MB ' : 0x40 ,
' 2MB-c1 ' : 0x50 ,
' 4MB-c1 ' : 0x60 ,
' 4MB-c2 ' : 0x70 }
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FLASH_HEADER_OFFSET = 0
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def flash_spi_attach ( self , is_spi , is_legacy ) :
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if self . IS_STUB :
super ( ESP8266ROM , self ) . flash_spi_attach ( is_spi , is_legacy )
else :
# ESP8266 ROM has no flash_spi_attach command in serial protocol,
# but flash_begin will do it
self . flash_begin ( 0 , 0 )
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def flash_set_parameters ( self , size ) :
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# not implemented in ROM, but OK to silently skip for ROM
if self . IS_STUB :
super ( ESP8266ROM , self ) . flash_set_parameters ( size )
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def chip_id ( self ) :
""" Read Chip ID from OTP ROM - see http://esp8266-re.foogod.com/wiki/System_get_chip_id_ % 28IoT_RTOS_SDK_0.9.9 % 29 """
id0 = self . read_reg ( self . ESP_OTP_MAC0 )
id1 = self . read_reg ( self . ESP_OTP_MAC1 )
return ( id0 >> 24 ) | ( ( id1 & MAX_UINT24 ) << 8 )
def read_mac ( self ) :
""" Read MAC from OTP ROM """
mac0 = self . read_reg ( self . ESP_OTP_MAC0 )
mac1 = self . read_reg ( self . ESP_OTP_MAC1 )
mac3 = self . read_reg ( self . ESP_OTP_MAC3 )
if ( mac3 != 0 ) :
oui = ( ( mac3 >> 16 ) & 0xff , ( mac3 >> 8 ) & 0xff , mac3 & 0xff )
elif ( ( mac1 >> 16 ) & 0xff ) == 0 :
oui = ( 0x18 , 0xfe , 0x34 )
elif ( ( mac1 >> 16 ) & 0xff ) == 1 :
oui = ( 0xac , 0xd0 , 0x74 )
else :
raise FatalError ( " Unknown OUI " )
return oui + ( ( mac1 >> 8 ) & 0xff , mac1 & 0xff , ( mac0 >> 24 ) & 0xff )
def get_erase_size ( self , offset , size ) :
""" Calculate an erase size given a specific size in bytes.
Provides a workaround for the bootloader erase bug . """
sectors_per_block = 16
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sector_size = self . FLASH_SECTOR_SIZE
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num_sectors = ( size + sector_size - 1 ) / / sector_size
start_sector = offset / / sector_size
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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 :
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return ( num_sectors + 1 ) / / 2 * sector_size
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else :
return ( num_sectors - head_sectors ) * sector_size
class ESP8266StubLoader ( ESP8266ROM ) :
""" Access class for ESP8266 stub loader, runs on top of ROM.
"""
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FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
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IS_STUB = True
def __init__ ( self , rom_loader ) :
self . _port = rom_loader . _port
self . flush_input ( ) # resets _slip_reader
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def get_erase_size ( self , offset , size ) :
return size # stub doesn't have same size bug as ROM loader
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ESP8266ROM . STUB_CLASS = ESP8266StubLoader
class ESP32ROM ( ESPLoader ) :
""" Access class for ESP32 ROM bootloader
"""
CHIP_NAME = " ESP32 "
IS_STUB = False
DATE_REG_VALUE = 0x15122500
IROM_MAP_START = 0x400d0000
IROM_MAP_END = 0x40400000
DROM_MAP_START = 0x3F400000
DROM_MAP_END = 0x3F700000
# ESP32 uses a 4 byte status reply
STATUS_BYTES_LENGTH = 4
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SPI_REG_BASE = 0x60002000
EFUSE_REG_BASE = 0x6001a000
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SPI_W0_OFFS = 0x80
SPI_HAS_MOSI_DLEN_REG = True
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FLASH_SIZES = {
' 1MB ' : 0x00 ,
' 2MB ' : 0x10 ,
' 4MB ' : 0x20 ,
' 8MB ' : 0x30 ,
' 16MB ' : 0x40
}
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FLASH_HEADER_OFFSET = 0x1000
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def read_efuse ( self , n ) :
""" Read the nth word of the ESP3x EFUSE region. """
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return self . read_reg ( self . EFUSE_REG_BASE + ( 4 * n ) )
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def chip_id ( self ) :
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word16 = self . read_efuse ( 1 )
word17 = self . read_efuse ( 2 )
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return ( ( word17 & MAX_UINT24 ) << 24 ) | ( word16 >> 8 ) & MAX_UINT24
def read_mac ( self ) :
""" Read MAC from EFUSE region """
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words = [ self . read_efuse ( 2 ) , self . read_efuse ( 1 ) ]
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bitstring = struct . pack ( " >II " , * words )
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bitstring = bitstring [ 2 : 8 ] # trim the 2 byte CRC
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try :
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return tuple ( ord ( b ) for b in bitstring )
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except TypeError : # Python 3, bitstring elements are already bytes
return tuple ( bitstring )
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def get_erase_size ( self , offset , size ) :
return size
class ESP32StubLoader ( ESP32ROM ) :
""" Access class for ESP32 stub loader, runs on top of ROM.
"""
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FLASH_WRITE_SIZE = 0x4000 # matches MAX_WRITE_BLOCK in stub_loader.c
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STATUS_BYTES_LENGTH = 2 # same as ESP8266, different to ESP32 ROM
IS_STUB = True
def __init__ ( self , rom_loader ) :
self . _port = rom_loader . _port
self . flush_input ( ) # resets _slip_reader
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ESP32ROM . STUB_CLASS = ESP32StubLoader
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
def LoadFirmwareImage ( chip , filename ) :
""" Load a firmware image. Can be for ESP8266 or ESP32. ESP8266 images will be examined to determine if they are
original ROM firmware images ( ESPFirmwareImage ) or " v2 " OTA bootloader images .
Returns a BaseFirmwareImage subclass , either ESPFirmwareImage ( v1 ) or OTAFirmwareImage ( v2 ) .
"""
with open ( filename , ' rb ' ) as f :
if chip == ' esp32 ' :
return ESP32FirmwareImage ( 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 ESPFirmwareImage ( f )
elif magic == ESPBOOTLOADER . IMAGE_V2_MAGIC :
return OTAFirmwareImage ( 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
# pad all ImageSegments to at least 4 bytes length
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self . data = pad_to ( data , 4 , b ' \x00 ' )
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self . file_offs = file_offs
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self . include_in_checksum = True
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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 __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
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 )
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self . name = name . decode ( " utf-8 " )
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def __repr__ ( self ) :
return " %s %s " % ( self . name , super ( ELFSection , self ) . __repr__ ( ) )
class BaseFirmwareImage ( object ) :
SEG_HEADER_LEN = 8
""" Base class with common firmware image functions """
def __init__ ( self ) :
self . segments = [ ]
self . entrypoint = 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 or segments > 16 :
raise FatalError ( ' Invalid firmware image magic= %d segments= %d ' % ( magic , segments ) )
return segments
def load_segment ( self , f , is_irom_segment = False ) :
""" Load the next segment from the image file """
file_offs = f . tell ( )
( offset , size ) = struct . unpack ( ' <II ' , f . read ( 8 ) )
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self . warn_if_unusual_segment ( offset , size , is_irom_segment )
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segment_data = f . read ( size )
if len ( segment_data ) < size :
raise FatalError ( ' End of file reading segment 0x %x , length %d (actual length %d ) ' % ( offset , size , len ( segment_data ) ) )
segment = ImageSegment ( offset , segment_data , file_offs )
self . segments . append ( segment )
return segment
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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 ) )
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def save_segment ( self , f , segment , checksum = None ) :
""" Save the next segment to the image file, return next checksum value if provided """
f . write ( struct . pack ( ' <II ' , segment . addr , len ( segment . data ) ) )
f . write ( segment . data )
if checksum is not None :
return ESPLoader . checksum ( segment . data , checksum )
def read_checksum ( self , f ) :
""" Return ESPLoader checksum from end of just-read image """
# Skip the padding. The checksum is stored in the last byte so that the
# file is a multiple of 16 bytes.
align_file_position ( f , 16 )
return ord ( f . read ( 1 ) )
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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
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def append_checksum ( self , f , checksum ) :
""" Append ESPLoader checksum to the just-written image """
align_file_position ( f , 16 )
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f . write ( struct . pack ( b ' B ' , checksum ) )
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def write_common_header ( self , f , segments ) :
f . write ( struct . pack ( ' <BBBBI ' , ESPLoader . ESP_IMAGE_MAGIC , len ( segments ) ,
self . flash_mode , self . flash_size_freq , self . entrypoint ) )
def is_irom_addr ( self , addr ) :
""" Returns True if an address starts in the irom region.
Valid for ESP8266 only .
"""
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return ESP8266ROM . IROM_MAP_START < = addr < ESP8266ROM . IROM_MAP_END
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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 ]
class ESPFirmwareImage ( BaseFirmwareImage ) :
""" ' Version 1 ' firmware image, segments loaded directly by the ROM bootloader. """
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ROM_LOADER = ESP8266ROM
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def __init__ ( self , load_file = None ) :
super ( ESPFirmwareImage , self ) . __init__ ( )
self . flash_mode = 0
self . flash_size_freq = 0
self . version = 1
if load_file is not None :
segments = self . load_common_header ( load_file , ESPLoader . ESP_IMAGE_MAGIC )
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for _ in range ( segments ) :
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self . load_segment ( load_file )
self . checksum = self . read_checksum ( load_file )
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 :
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with open ( " %s 0x %05x .bin " % ( basename , irom_segment . addr - ESP8266ROM . IROM_MAP_START ) , " wb " ) as f :
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f . write ( irom_segment . data )
# everything but IROM goes at 0x00000 in an image file
normal_segments = self . get_non_irom_segments ( )
with open ( " %s 0x00000.bin " % basename , ' wb ' ) as f :
self . write_common_header ( f , normal_segments )
checksum = ESPLoader . ESP_CHECKSUM_MAGIC
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for segment in normal_segments :
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checksum = self . save_segment ( f , segment , checksum )
self . append_checksum ( f , checksum )
class OTAFirmwareImage ( BaseFirmwareImage ) :
""" ' Version 2 ' firmware image, segments loaded by software bootloader stub
( ie Espressif bootloader or rboot )
"""
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ROM_LOADER = ESP8266ROM
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def __init__ ( self , load_file = None ) :
super ( OTAFirmwareImage , self ) . __init__ ( )
self . version = 2
if load_file is not None :
segments = self . load_common_header ( load_file , ESPBOOTLOADER . IMAGE_V2_MAGIC )
if segments != ESPBOOTLOADER . IMAGE_V2_SEGMENT :
# segment count is not really segment count here, but we expect to see '4'
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print ( ' Warning: V2 header has unexpected " segment " count %d (usually 4) ' % segments )
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# irom segment comes before the second header
#
# the file is saved in the image with a zero load address
# in the header, so we need to calculate a load address
irom_segment = self . load_segment ( load_file , True )
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# for actual mapped addr, add ESP8266ROM.IROM_MAP_START + flashing_Addr + 8
irom_segment . addr = 0
irom_segment . include_in_checksum = False
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first_flash_mode = self . flash_mode
first_flash_size_freq = self . flash_size_freq
first_entrypoint = self . entrypoint
# load the second header
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segments = self . load_common_header ( load_file , ESPLoader . ESP_IMAGE_MAGIC )
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if first_flash_mode != self . flash_mode :
print ( ' WARNING: Flash mode value in first header (0x %02x ) disagrees with second (0x %02x ). Using second value. '
% ( first_flash_mode , self . flash_mode ) )
if first_flash_size_freq != self . flash_size_freq :
print ( ' WARNING: Flash size/freq value in first header (0x %02x ) disagrees with second (0x %02x ). Using second value. '
% ( first_flash_size_freq , self . flash_size_freq ) )
if first_entrypoint != self . entrypoint :
print ( ' WARNING: Entrypoint address in first header (0x %08x ) disagrees with second header (0x %08x ). Using second value. '
% ( first_entrypoint , self . entrypoint ) )
# load all the usual segments
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for _ in range ( segments ) :
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self . load_segment ( load_file )
self . checksum = self . read_checksum ( load_file )
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 :
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irom_offs = irom_segment . addr - ESP8266ROM . IROM_MAP_START
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else :
irom_offs = 0
return " %s -0x %05x .bin " % ( os . path . splitext ( input_file ) [ 0 ] ,
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irom_offs & ~ ( ESPLoader . FLASH_SECTOR_SIZE - 1 ) )
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def save ( self , filename ) :
with open ( filename , ' wb ' ) as f :
# Save first header for irom0 segment
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f . write ( struct . pack ( b ' <BBBBI ' , ESPBOOTLOADER . IMAGE_V2_MAGIC , ESPBOOTLOADER . IMAGE_V2_SEGMENT ,
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self . flash_mode , self . flash_size_freq , self . entrypoint ) )
irom_segment = self . get_irom_segment ( )
if irom_segment is not None :
# save irom0 segment, make sure it has load addr 0 in the file
irom_segment = irom_segment . copy_with_new_addr ( 0 )
self . save_segment ( f , irom_segment )
# second header, matches V1 header and contains loadable segments
normal_segments = self . get_non_irom_segments ( )
self . write_common_header ( f , normal_segments )
checksum = ESPLoader . ESP_CHECKSUM_MAGIC
for segment in normal_segments :
checksum = self . save_segment ( f , segment , checksum )
self . append_checksum ( f , checksum )
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 @ 64 kB padded offsets ) .
"""
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ROM_LOADER = ESP32ROM
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def __init__ ( self , load_file = None ) :
super ( ESP32FirmwareImage , self ) . __init__ ( )
self . flash_mode = 0
self . flash_size_freq = 0
self . version = 1
if load_file is not None :
segments = self . load_common_header ( load_file , ESPLoader . ESP_IMAGE_MAGIC )
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additional_header = list ( struct . unpack ( " B " * 16 , load_file . read ( 16 ) ) )
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# check these bytes are unused
if additional_header != [ 0 ] * 16 :
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print ( " WARNING: ESP32 image header contains unknown flags. Possibly this image is from a newer version of esptool.py " )
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for _ in range ( segments ) :
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self . load_segment ( load_file )
self . checksum = self . read_checksum ( load_file )
def is_flash_addr ( self , addr ) :
return ( ESP32ROM . IROM_MAP_START < = addr < ESP32ROM . IROM_MAP_END ) \
or ( ESP32ROM . DROM_MAP_START < = addr < ESP32ROM . 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 ] )
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def warn_if_unusual_segment ( self , offset , size , is_irom_segment ) :
pass # TODO: add warnings for ESP32 segment offset/size combinations that are wrong
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def save ( self , filename ) :
padding_segments = 0
with open ( filename , ' wb ' ) as f :
self . write_common_header ( f , self . segments )
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# first 4 bytes of header are read by ROM bootloader for SPI
# config, but currently unused
f . write ( b ' \x00 ' * 16 )
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checksum = ESPLoader . ESP_CHECKSUM_MAGIC
last_addr = None
for segment in sorted ( self . segments , key = lambda s : s . addr ) :
# IROM/DROM segment flash mappings need to align on
# 64kB boundaries.
#
# TODO: intelligently order segments to reduce wastage
# by squeezing smaller DRAM/IRAM segments into the
# 64kB padding space.
IROM_ALIGN = 65536
# check for multiple ELF sections that live 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 last_addr is not None and self . is_flash_addr ( last_addr ) \
and self . is_flash_addr ( segment . addr ) and segment . addr / / IROM_ALIGN == last_addr / / 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
if self . is_flash_addr ( segment . addr ) :
# Actual alignment required for the 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+0x10 to account for longest possible header.
align_past = ( segment . addr % IROM_ALIGN ) - self . SEG_HEADER_LEN
assert ( align_past + self . SEG_HEADER_LEN ) == ( segment . addr % IROM_ALIGN )
# subtract SEG_HEADER_LEN a second time, as the padding block has a header as well
pad_len = ( IROM_ALIGN - ( f . tell ( ) % IROM_ALIGN ) ) + align_past - self . SEG_HEADER_LEN
if pad_len < 0 :
pad_len + = IROM_ALIGN
if pad_len > 0 :
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null = ImageSegment ( 0 , b ' \x00 ' * pad_len , f . tell ( ) )
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checksum = self . save_segment ( f , null , checksum )
padding_segments + = 1
# verify that after the 8 byte header is added, were are at the correct offset relative to the segment's vaddr
assert ( f . tell ( ) + 8 ) % IROM_ALIGN == segment . addr % IROM_ALIGN
checksum = self . save_segment ( f , segment , checksum )
self . append_checksum ( f , checksum )
# kinda hacky: go back to the initial header and write the new segment count
# that includes padding segments. Luckily(?) this header is not checksummed
f . seek ( 1 )
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try :
f . write ( chr ( len ( self . segments ) + padding_segments ) )
except TypeError : # Python 3
f . write ( bytes ( [ len ( self . segments ) + padding_segments ] ) )
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class ELFFile ( object ) :
SEC_TYPE_PROGBITS = 0x01
SEC_TYPE_STRTAB = 0x03
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 ) )
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if byte ( ident , 0 ) != 0x7f or ident [ 1 : 4 ] != b ' ELF ' :
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raise FatalError ( " %s has invalid ELF magic header " % self . name )
if machine != 0x5e :
raise FatalError ( " %s does not appear to be an Xtensa ELF file. e_machine= %04x " % ( self . name , machine ) )
self . _read_sections ( f , shoff , shstrndx )
def _read_sections ( self , f , section_header_offs , shstrndx ) :
f . seek ( section_header_offs )
section_header = f . read ( )
LEN_SEC_HEADER = 0x28
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_SEC_HEADER != 0 :
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print ( ' WARNING: Unexpected ELF section header length %04x is not mod- %02x ' % ( len ( section_header ) , LEN_SEC_HEADER ) )
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# walk through the section header and extract all sections
section_header_offsets = range ( 0 , len ( section_header ) , 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 * 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 * LEN_SEC_HEADER )
if sec_type != ELFFile . SEC_TYPE_STRTAB :
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print ( ' WARNING: ELF file has incorrect STRTAB section type 0x %02x ' % sec_type )
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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 : ]
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return raw [ : raw . index ( b ' \x00 ' ) ]
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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 ]
self . sections = prog_sections
def slip_reader ( port ) :
""" 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 )
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if read_bytes == b ' ' :
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raise FatalError ( " Timed out waiting for packet %s " % ( " header " if partial_packet is None else " content " ) )
for b in read_bytes :
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if type ( b ) is int :
b = bytes ( [ b ] ) # python 2/3 compat
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if partial_packet is None : # waiting for packet header
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if b == b ' \xc0 ' :
partial_packet = b " "
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else :
raise FatalError ( ' Invalid head of packet ( %r ) ' % b )
elif in_escape : # part-way through escape sequence
in_escape = False
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if b == b ' \xdc ' :
partial_packet + = b ' \xc0 '
elif b == b ' \xdd ' :
partial_packet + = b ' \xdb '
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else :
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raise FatalError ( ' Invalid SLIP escape ( %r %r ) ' % ( b ' \xdb ' , b ) )
elif b == b ' \xdb ' : # start of escape sequence
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in_escape = True
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elif b == b ' \xc0 ' : # end of packet
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yield partial_packet
partial_packet = None
else : # normal byte in packet
partial_packet + = b
def arg_auto_int ( x ) :
return int ( x , 0 )
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 .
"""
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return ( int ( a ) + int ( b ) - 1 ) / / int ( b )
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def align_file_position ( f , size ) :
""" Align the position in the file to the next block of specified size """
align = ( size - 1 ) - ( f . tell ( ) % size )
f . seek ( align , 1 )
def flash_size_bytes ( size ) :
""" Given a flash size of the type passed in args.flash_size
( ie 512 KB or 1 MB ) 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 ) :
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if not PYTHON2 :
return ' ' . join ( ' %02X ' % c for c in s )
else :
return ' ' . join ( ' %02X ' % ord ( c ) for c in s )
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def unhexify ( hs ) :
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s = bytes ( )
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for i in range ( 0 , len ( hs ) - 1 , 2 ) :
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hex_string = hs [ i : i + 2 ]
if not PYTHON2 :
s + = bytes ( [ int ( hex_string , 16 ) ] )
else :
s + = chr ( int ( hex_string , 16 ) )
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return s
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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
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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 ) :
"""
Return a fatal error object that appends the hex values of
' result ' as a string formatted argument .
"""
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message + = " (result was %s ) " % hexify ( result )
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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 .
"""
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def __init__ ( self , bootloader , func ) :
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FatalError . __init__ ( self , " %s ROM does not support function %s . " % ( bootloader . CHIP_NAME , func . __name__ ) )
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# "Operation" commands, executable at command line. One function each
#
# Each function takes either two args (<ESPLoader instance>, <args>) or a single <args>
# argument.
def load_ram ( esp , args ) :
image = LoadFirmwareImage ( esp , args . filename )
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print ( ' RAM boot... ' )
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for ( offset , size , data ) in image . segments :
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print ( ' Downloading %d bytes at %08x ... ' % ( size , offset ) , end = ' ' )
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sys . stdout . flush ( )
esp . mem_begin ( size , div_roundup ( size , esp . ESP_RAM_BLOCK ) , esp . ESP_RAM_BLOCK , offset )
seq = 0
while len ( data ) > 0 :
esp . mem_block ( data [ 0 : esp . ESP_RAM_BLOCK ] , seq )
data = data [ esp . ESP_RAM_BLOCK : ]
seq + = 1
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print ( ' done! ' )
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print ( ' All segments done, executing at %08x ' % image . entrypoint )
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esp . mem_finish ( image . entrypoint )
def read_mem ( esp , args ) :
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print ( ' 0x %08x = 0x %08x ' % ( args . address , esp . read_reg ( args . address ) ) )
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def write_mem ( esp , args ) :
esp . write_reg ( args . address , args . value , args . mask , 0 )
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print ( ' Wrote %08x , mask %08x to %08x ' % ( args . value , args . mask , args . address ) )
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def dump_mem ( esp , args ) :
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f = open ( args . filename , ' wb ' )
for i in range ( args . size / / 4 ) :
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d = esp . read_reg ( args . address + ( i * 4 ) )
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f . write ( struct . pack ( b ' <I ' , d ) )
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if f . tell ( ) % 1024 == 0 :
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print ( ' \r %d bytes read... ( %d %% ) ' % ( f . tell ( ) ,
f . tell ( ) * 100 / / args . size ) ,
end = ' ' )
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sys . stdout . flush ( )
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print ( ' Done! ' )
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def detect_flash_size ( esp , args ) :
if args . flash_size == ' detect ' :
flash_id = esp . flash_id ( )
size_id = flash_id >> 16
args . flash_size = { 0x12 : ' 256KB ' , 0x13 : ' 512KB ' , 0x14 : ' 1MB ' , 0x15 : ' 2MB ' , 0x16 : ' 4MB ' , 0x17 : ' 8MB ' , 0x18 : ' 16MB ' } . get ( size_id )
if args . flash_size is None :
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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 '
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else :
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print ( ' Auto-detected Flash size: ' , args . flash_size )
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def _get_flash_params ( esp , args ) :
""" Return binary flash parameters (bitstring length 2) for args """
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detect_flash_size ( esp , args )
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flash_mode = { ' qio ' : 0 , ' qout ' : 1 , ' dio ' : 2 , ' dout ' : 3 } [ args . flash_mode ]
flash_size_freq = esp . parse_flash_size_arg ( args . flash_size )
flash_size_freq + = { ' 40m ' : 0 , ' 26m ' : 1 , ' 20m ' : 2 , ' 80m ' : 0xf } [ args . flash_freq ]
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return struct . pack ( b ' BB ' , flash_mode , flash_size_freq )
def _update_image_flash_params ( esp , address , flash_params , image ) :
""" Modify the flash mode & size bytes if this looks like an executable image """
if address == esp . FLASH_HEADER_OFFSET and ( image [ 0 ] == ' \xe9 ' or image [ 0 ] == 0xE9 ) : # python 2/3 compat:
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 ) :
flash_params = _get_flash_params ( 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
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# verify file sizes fit in flash
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 :
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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. " )
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% ( argfile . name , argfile . tell ( ) , address , flash_end ) )
argfile . seek ( 0 )
for address , argfile in args . addr_filename :
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if args . no_stub :
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print ( ' Erasing flash... ' )
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image = pad_to ( argfile . read ( ) , 4 )
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image = _update_image_flash_params ( esp , address , flash_params , image )
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calcmd5 = hashlib . md5 ( image ) . hexdigest ( )
uncsize = len ( image )
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if args . compress :
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uncimage = image
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image = zlib . compress ( uncimage , 9 )
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blocks = esp . flash_defl_begin ( uncsize , len ( image ) , address )
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else :
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blocks = esp . flash_begin ( uncsize , address )
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argfile . seek ( 0 ) # in case we need it again
seq = 0
written = 0
t = time . time ( )
while len ( image ) > 0 :
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print ( ' \r Writing at 0x %08x ... ( %d %% ) ' % ( address + seq * esp . FLASH_WRITE_SIZE , 100 * ( seq + 1 ) / / blocks ) , end = ' ' )
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sys . stdout . flush ( )
block = image [ 0 : esp . FLASH_WRITE_SIZE ]
if args . compress :
esp . flash_defl_block ( block , seq )
else :
# Pad the last block
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block = block + b ' \xff ' * ( esp . FLASH_WRITE_SIZE - len ( block ) )
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esp . flash_block ( block , seq )
image = image [ esp . FLASH_WRITE_SIZE : ]
seq + = 1
written + = len ( block )
t = time . time ( ) - t
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speed_msg = " "
if args . compress :
if t > 0.0 :
speed_msg = " (effective %.1f kbit/s) " % ( uncsize / t * 8 / 1000 )
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print ( ' \r Wrote %d bytes ( %d compressed) at 0x %08x in %.1f seconds %s ... ' % ( uncsize , written , address , t , speed_msg ) )
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else :
if t > 0.0 :
speed_msg = " ( %.1f kbit/s) " % ( written / t * 8 / 1000 )
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print ( ' \r Wrote %d bytes at 0x %08x in %.1f seconds %s ... ' % ( written , address , t , speed_msg ) )
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try :
res = esp . flash_md5sum ( address , uncsize )
if res != calcmd5 :
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print ( ' File md5: %s ' % calcmd5 )
print ( ' Flash md5: %s ' % res )
print ( ' MD5 of 0xFF is %s ' % ( hashlib . md5 ( b ' \xFF ' * uncsize ) . hexdigest ( ) ) )
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raise FatalError ( " MD5 of file does not match data in flash! " )
else :
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print ( ' Hash of data verified. ' )
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except NotImplementedInROMError :
pass
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print ( ' \n Leaving... ' )
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if esp . IS_STUB :
# skip sending flash_finish to ROM loader here,
# as it causes the loader to exit and run user code
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esp . flash_begin ( 0 , 0 )
if args . compress :
esp . flash_defl_finish ( False )
else :
esp . flash_finish ( False )
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if args . verify :
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print ( ' Verifying just-written flash... ' )
print ( ' (This option is deprecated, flash contents are now always read back after flashing.) ' )
_verify_flash ( esp , args )
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def image_info ( args ) :
image = LoadFirmwareImage ( args . chip , args . filename )
print ( ' Image version: %d ' % image . version )
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print ( ' Entry point: %08x ' % image . entrypoint if image . entrypoint != 0 else ' Entry point not set ' )
print ( ' %d segments ' % len ( image . segments ) )
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print
idx = 0
for seg in image . segments :
idx + = 1
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print ( ' Segment %d : %r ' % ( idx , seg ) )
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calc_checksum = image . calculate_checksum ( )
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print ( ' Checksum: %02x ( %s ) ' % ( image . checksum ,
' valid ' if image . checksum == calc_checksum else ' invalid - calculated %02x ' % calc_checksum ) )
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def make_image ( args ) :
image = ESPFirmwareImage ( )
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 ) :
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data = open ( seg , ' rb ' ) . read ( )
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image . segments . append ( ImageSegment ( addr , data ) )
image . entrypoint = args . entrypoint
image . save ( args . output )
def elf2image ( args ) :
e = ELFFile ( args . input )
if args . chip == ' auto ' : # Default to ESP8266 for backwards compatibility
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print ( " Creating image for ESP8266... " )
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args . chip == ' esp8266 '
if args . chip == ' esp32 ' :
image = ESP32FirmwareImage ( )
elif args . version == ' 1 ' : # ESP8266
image = ESPFirmwareImage ( )
else :
image = OTAFirmwareImage ( )
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 ]
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image . flash_size_freq = image . ROM_LOADER . FLASH_SIZES [ args . flash_size ]
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image . flash_size_freq + = { ' 40m ' : 0 , ' 26m ' : 1 , ' 20m ' : 2 , ' 80m ' : 0xf } [ args . flash_freq ]
if args . output is None :
args . output = image . default_output_name ( args . input )
image . save ( args . output )
def read_mac ( esp , args ) :
mac = esp . read_mac ( )
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def print_mac ( label , mac ) :
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print ( ' %s : %s ' % ( label , ' : ' . join ( map ( lambda x : ' %02x ' % x , mac ) ) ) )
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print_mac ( " MAC " , mac )
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def chip_id ( esp , args ) :
chipid = esp . chip_id ( )
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print ( ' Chip ID: 0x %08x ' % chipid )
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def erase_flash ( esp , args ) :
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print ( ' Erasing flash (this may take a while)... ' )
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t = time . time ( )
esp . erase_flash ( )
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print ( ' Chip erase completed successfully in %.1f s ' % ( time . time ( ) - t ) )
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def erase_region ( esp , args ) :
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print ( ' Erasing region (may be slow depending on size)... ' )
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t = time . time ( )
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esp . erase_region ( args . address , args . size )
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print ( ' Erase completed successfully in %.1f seconds. ' % ( time . time ( ) - t ) )
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def run ( esp , args ) :
esp . run ( )
def flash_id ( esp , args ) :
flash_id = esp . flash_id ( )
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print ( ' Manufacturer: %02x ' % ( flash_id & 0xff ) )
print ( ' Device: %02x %02x ' % ( ( flash_id >> 8 ) & 0xff , ( flash_id >> 16 ) & 0xff ) )
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def read_flash ( esp , args ) :
if args . no_progress :
flash_progress = None
else :
def flash_progress ( progress , length ) :
msg = ' %d ( %d %% ) ' % ( progress , progress * 100.0 / length )
padding = ' \b ' * len ( msg )
if progress == length :
padding = ' \n '
sys . stdout . write ( msg + padding )
sys . stdout . flush ( )
t = time . time ( )
data = esp . read_flash ( args . address , args . size , flash_progress )
t = time . time ( ) - t
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print ( ' \r Read %d bytes at 0x %x in %.1f seconds ( %.1f kbit/s)... '
% ( len ( data ) , args . address , t , len ( data ) / t * 8 / 1000 ) )
open ( args . filename , ' wb ' ) . write ( data )
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def verify_flash ( esp , args , flash_params = None ) :
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_verify_flash ( esp , args )
def _verify_flash ( esp , args ) :
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differences = False
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flash_params = _get_flash_params ( esp , args )
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for address , argfile in args . addr_filename :
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image = pad_to ( argfile . read ( ) , 4 )
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argfile . seek ( 0 ) # rewind in case we need it again
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image = _update_image_flash_params ( esp , address , flash_params , image )
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image_size = len ( image )
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print ( ' Verifying 0x %x ( %d ) bytes @ 0x %08x in flash against %s ... ' % ( image_size , image_size , address , argfile . name ) )
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# Try digest first, only read if there are differences.
digest = esp . flash_md5sum ( address , image_size )
expected_digest = hashlib . md5 ( image ) . hexdigest ( )
if digest == expected_digest :
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print ( ' -- verify OK (digest matched) ' )
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continue
else :
differences = True
if getattr ( args , ' diff ' , ' no ' ) != ' yes ' :
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print ( ' -- verify FAILED (digest mismatch) ' )
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continue
flash = esp . read_flash ( address , image_size )
assert flash != image
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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 ] ) )
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for d in diff :
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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 ) )
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if differences :
raise FatalError ( " Verify failed. " )
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def read_flash_status ( esp , args ) :
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print ( ' Status value: 0x %04x ' % esp . read_status ( args . bytes ) )
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def write_flash_status ( esp , args ) :
fmt = " 0x %% 0 %d x " % ( args . bytes * 2 )
args . value = args . value & ( ( 1 << ( args . bytes * 8 ) ) - 1 )
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print ( ( ' Initial flash status: ' + fmt ) % esp . read_status ( args . bytes ) )
print ( ( ' Setting flash status: ' + fmt ) % args . value )
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esp . write_status ( args . value , args . bytes , args . non_volatile )
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print ( ( ' After flash status: ' + fmt ) % esp . read_status ( args . bytes ) )
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def version ( args ) :
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print ( __version__ )
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#
# End of operations functions
#
def main ( ) :
parser = argparse . ArgumentParser ( description = ' esptool.py v %s - ESP8266 ROM Bootloader Utility ' % __version__ , prog = ' esptool ' )
parser . add_argument ( ' --chip ' , ' -c ' ,
help = ' Target chip type ' ,
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choices = [ ' auto ' , ' esp8266 ' , ' esp32 ' ] ,
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default = os . environ . get ( ' ESPTOOL_CHIP ' , ' auto ' ) )
parser . add_argument (
' --port ' , ' -p ' ,
help = ' Serial port device ' ,
default = os . environ . get ( ' ESPTOOL_PORT ' , ESPLoader . DEFAULT_PORT ) )
parser . add_argument (
' --baud ' , ' -b ' ,
help = ' Serial port baud rate used when flashing/reading ' ,
type = arg_auto_int ,
default = os . environ . get ( ' ESPTOOL_BAUD ' , ESPLoader . ESP_ROM_BAUD ) )
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parser . add_argument (
' --before ' ,
help = ' What to do before connecting to the chip ' ,
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choices = [ ' default_reset ' , ' no_reset ' ] ,
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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 ' ) )
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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 ' )
subparsers = parser . add_subparsers (
dest = ' operation ' ,
help = ' Run esptool {command} -h for additional help ' )
parser_load_ram = subparsers . add_parser (
' load_ram ' ,
help = ' Download an image to RAM and execute ' )
parser_load_ram . add_argument ( ' filename ' , help = ' Firmware image ' )
parser_dump_mem = subparsers . add_parser (
' dump_mem ' ,
help = ' Dump arbitrary memory to disk ' )
parser_dump_mem . add_argument ( ' address ' , help = ' Base address ' , type = arg_auto_int )
parser_dump_mem . add_argument ( ' size ' , help = ' Size of region to dump ' , type = arg_auto_int )
parser_dump_mem . add_argument ( ' filename ' , help = ' Name of binary dump ' )
parser_read_mem = subparsers . add_parser (
' read_mem ' ,
help = ' Read arbitrary memory location ' )
parser_read_mem . add_argument ( ' address ' , help = ' Address to read ' , type = arg_auto_int )
parser_write_mem = subparsers . add_parser (
' write_mem ' ,
help = ' Read-modify-write to arbitrary memory location ' )
parser_write_mem . add_argument ( ' address ' , help = ' Address to write ' , type = arg_auto_int )
parser_write_mem . add_argument ( ' value ' , help = ' Value ' , type = arg_auto_int )
parser_write_mem . add_argument ( ' mask ' , help = ' Mask of bits to write ' , type = arg_auto_int )
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def add_spi_flash_subparsers ( parent , auto_detect = False ) :
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""" Add common parser arguments for SPI flash properties """
parent . add_argument ( ' --flash_freq ' , ' -ff ' , help = ' SPI Flash frequency ' ,
choices = [ ' 40m ' , ' 26m ' , ' 20m ' , ' 80m ' ] ,
default = os . environ . get ( ' ESPTOOL_FF ' , ' 40m ' ) )
parent . add_argument ( ' --flash_mode ' , ' -fm ' , help = ' SPI Flash mode ' ,
choices = [ ' qio ' , ' qout ' , ' dio ' , ' dout ' ] ,
default = os . environ . get ( ' ESPTOOL_FM ' , ' qio ' ) )
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, 4MB-2) ' ,
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action = FlashSizeAction , auto_detect = auto_detect ,
default = os . environ . get ( ' ESPTOOL_FS ' , ' detect ' if auto_detect else ' 1MB ' ) )
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parent . add_argument ( ' --ucIsHspi ' , ' -ih ' , help = ' Config SPI PORT/PINS (Espressif internal feature) ' , action = ' store_true ' )
parent . add_argument ( ' --ucIsLegacy ' , ' -il ' , help = ' Config SPI LEGACY (Espressif internal feature) ' , action = ' store_true ' )
parser_write_flash = subparsers . add_parser (
' write_flash ' ,
help = ' Write a binary blob to flash ' )
parser_write_flash . add_argument ( ' addr_filename ' , metavar = ' <address> <filename> ' , help = ' Address followed by binary filename, separated by space ' ,
action = AddrFilenamePairAction )
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add_spi_flash_subparsers ( parser_write_flash , auto_detect = True )
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parser_write_flash . add_argument ( ' --no-progress ' , ' -p ' , help = ' Suppress progress output ' , action = " store_true " )
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parser_write_flash . add_argument ( ' --verify ' , help = ' Verify just-written data on flash ' +
' (mostly superfluous, data is read back during flashing) ' , 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 " )
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subparsers . add_parser (
' run ' ,
help = ' Run application code in flash ' )
parser_image_info = subparsers . add_parser (
' image_info ' ,
help = ' Dump headers from an application image ' )
parser_image_info . add_argument ( ' filename ' , help = ' Image file to parse ' )
parser_make_image = subparsers . add_parser (
' make_image ' ,
help = ' Create an application image from binary files ' )
parser_make_image . add_argument ( ' output ' , help = ' Output image file ' )
parser_make_image . add_argument ( ' --segfile ' , ' -f ' , action = ' append ' , help = ' Segment input file ' )
parser_make_image . add_argument ( ' --segaddr ' , ' -a ' , action = ' append ' , help = ' Segment base address ' , type = arg_auto_int )
parser_make_image . add_argument ( ' --entrypoint ' , ' -e ' , help = ' Address of entry point ' , type = arg_auto_int , default = 0 )
parser_elf2image = subparsers . add_parser (
' elf2image ' ,
help = ' Create an application image from ELF file ' )
parser_elf2image . add_argument ( ' input ' , help = ' Input ELF file ' )
parser_elf2image . add_argument ( ' --output ' , ' -o ' , help = ' Output filename prefix (for version 1 image), or filename (for version 2 single image) ' , type = str )
parser_elf2image . add_argument ( ' --version ' , ' -e ' , help = ' Output image version ' , choices = [ ' 1 ' , ' 2 ' ] , default = ' 1 ' )
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add_spi_flash_subparsers ( parser_elf2image )
subparsers . add_parser (
' read_mac ' ,
help = ' Read MAC address from OTP ROM ' )
subparsers . add_parser (
' chip_id ' ,
help = ' Read Chip ID from OTP ROM ' )
subparsers . add_parser (
' flash_id ' ,
help = ' Read SPI flash manufacturer and device ID ' )
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parser_read_status = subparsers . add_parser (
' read_flash_status ' ,
help = ' Read SPI flash status register ' )
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 ' )
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 )
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parser_read_flash = subparsers . add_parser (
' read_flash ' ,
help = ' Read SPI flash content ' )
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 ' )
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add_spi_flash_subparsers ( parser_verify_flash , auto_detect = True )
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subparsers . add_parser (
' erase_flash ' ,
help = ' Perform Chip Erase on SPI flash ' )
parser_erase_region = subparsers . add_parser (
' erase_region ' ,
help = ' Erase a region of the flash ' )
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 )
subparsers . add_parser (
' version ' , help = ' Print esptool version ' )
# internal sanity check - every operation matches a module function of the same name
for operation in subparsers . choices . keys ( ) :
assert operation in globals ( ) , " %s should be a module function " % operation
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expand_file_arguments ( )
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args = parser . parse_args ( )
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print ( ' esptool.py v %s ' % __version__ )
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# operation function can take 1 arg (args), 2 args (esp, arg)
# or be a member function of the ESPLoader class.
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if args . operation is None :
parser . print_help ( )
sys . exit ( 1 )
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operation_func = globals ( ) [ args . operation ]
operation_args , _ , _ , _ = inspect . getargspec ( operation_func )
if operation_args [ 0 ] == ' esp ' : # operation function takes an ESPLoader connection object
initial_baud = min ( ESPLoader . ESP_ROM_BAUD , args . baud ) # don't sync faster than the default baud rate
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if args . chip == ' auto ' :
esp = ESPLoader . detect_chip ( args . port , initial_baud , args . before )
else :
chip_class = {
' esp8266 ' : ESP8266ROM ,
' esp32 ' : ESP32ROM ,
} [ args . chip ]
esp = chip_class ( args . port , initial_baud )
esp . connect ( args . before )
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if not args . no_stub :
esp = esp . run_stub ( )
if args . baud > initial_baud :
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try :
esp . change_baud ( args . baud )
except NotImplementedInROMError :
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print ( " WARNING: ROM doesn ' t support changing baud rate. Keeping initial baud rate %d " % initial_baud )
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# override common SPI flash parameter stuff as required
if hasattr ( args , " ucIsHspi " ) :
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print ( " Attaching SPI flash... " )
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esp . flash_spi_attach ( args . ucIsHspi , args . ucIsLegacy )
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else :
esp . flash_spi_attach ( 0 , 0 )
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if hasattr ( args , " flash_size " ) :
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print ( " Configuring flash size... " )
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detect_flash_size ( esp , args )
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esp . flash_set_parameters ( flash_size_bytes ( args . flash_size ) )
operation_func ( esp , args )
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# finish execution based on args.after
if args . after == ' hard_reset ' :
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print ( ' Hard resetting... ' )
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esp . hard_reset ( )
elif args . after == ' soft_reset ' :
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print ( ' Soft resetting... ' )
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# flash_finish will trigger a soft reset
esp . soft_reset ( False )
else :
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print ( ' Staying in bootloader. ' )
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if esp . IS_STUB :
esp . soft_reset ( True ) # exit stub back to ROM loader
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else :
operation_func ( args )
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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 :
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print ( " esptool.py %s " % ( " " . join ( new_args [ 1 : ] ) ) )
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sys . argv = new_args
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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 . )
"""
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def __init__ ( self , option_strings , dest , nargs = 1 , auto_detect = False , * * kwargs ) :
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super ( FlashSizeAction , self ) . __init__ ( option_strings , dest , nargs , * * kwargs )
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self . _auto_detect = auto_detect
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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 ' ,
' 32m-c2 ' : ' 4MB-c2 '
} [ 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 )
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if self . _auto_detect :
known_sizes [ ' detect ' ] = ' detect '
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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 AddrFilenamePairAction ( argparse . Action ) :
""" Custom parser class for the address/filename pairs passed as arguments """
def __init__ ( self , option_strings , dest , nargs = ' + ' , * * kwargs ) :
super ( AddrFilenamePairAction , self ) . __init__ ( option_strings , dest , nargs , * * kwargs )
def __call__ ( self , parser , namespace , values , option_string = None ) :
# validate pair arguments
pairs = [ ]
for i in range ( 0 , len ( values ) , 2 ) :
try :
address = int ( values [ i ] , 0 )
except ValueError as e :
raise argparse . ArgumentError ( self , ' Address " %s " must be a number ' % values [ i ] )
try :
argfile = open ( values [ i + 1 ] , ' rb ' )
except IOError as e :
raise argparse . ArgumentError ( self , e )
except IndexError :
raise argparse . ArgumentError ( self , ' Must be pairs of an address and the binary filename to write there ' )
pairs . append ( ( address , argfile ) )
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# Sort the addresses and check for overlapping
end = 0
for address , argfile in sorted ( pairs ) :
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
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setattr ( namespace , self . dest , pairs )
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# Binary stub code (see flasher_stub dir for source & details)
ESP8266ROM . STUB_CODE = eval ( zlib . decompress ( base64 . b64decode ( b """
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tN9rlmQVxw8gyVSEH0j0oxAQzuS0Pwgu / CjjHRr1osciyoJe4bOcSYP0W1Wre2Qi3NjGKt9GTgr6cg6Bz9koCEUXOxvZfIFRaUAR / EVn + zaRqkalnKvAGpkKBcLpNbZOy5 + Ofxoc81E / nc8Xxz7IQr1gyNKbxELZ \
KDIHyrFYw7tBB8dUxDPrI4oNZLUcLMEvtvdBLUwdvVzLFq7JvNQmxCsHhNIdYATtYBCrmmoYSxupCXKrkE8yxqzhWOjLSuRnt2Pejg1ni9EaCuBsNveC3Ebhse6Cl + pmn + 34 RFL / oU5OzHgdCL9z + iJgsyfSce34 \
A7qyQIJyBc9V0wHDfWC0mwPI50GOLjPnXJkIjEo8C19s70L / VnTOHXc07F / H4RwOAvKPeqe57BkCczBQjDl2Xkg44Pc + 3 wRQ8VkjKgz8kotAYKs0ebsnxWrAA0wavagboCI2Bn + jlWdSjIxrOHrwbD5 / + eu7DwgJ \
H40SEnWO / 1 ZO1J73ZxVakLH0uXDuVMlXyr0W3DO13IFIdG47cA4O8iGSQLztQszs / Gg + z3bxJgcPT1K3j3IbfyLXHALPNQfScGs + c86h6QyqByDcCfu5yY9D3q14Kg / f8eoEYbXAHHoH3XssdOjhTRUe3lTh4U0V \
3 h2quVRUPu3cfkIscspWXeheDBOuuyUGskKN7lytgDcuDAabJ1O + lQKLyJuJzeO4Vy141mjnx1937mPASydOlp0ezs0NKiT / drARmKVkzpU2av39NuBXm8thsti9D2ZsrqV5QNU0eJmJ6nya0acO7LjfFdsuudwc \
MpDjr7ikJR5gw4Rd1L + MQs6zUUnxEkTmB / ygUZ2ueLjNnB5sBmCaZqNvpa5VTl / BbRdBxP5tk0 / kR9t / fECr5QGfMaPVeD / E / UiiGYiHBoPmFYQemth8UmLI + / 5 dC9Qhz09fenTXStMgU8WUP9v3wLpDzwHhQUPN \
vagDz8E + ImXbLliK8znI0zQrrGMBek7nWY18cx7HXW5TcnRgz7eRPO6AZ6v5Xhw8IYKnDjmBi0HvRrZzw5xvKSxVRZlH5MaKOeYJFbi7zL3uqCuMx3aZNnDjbkmHx3RY8IzqVwnHF3j6cZfz36w / Arjno2YTX0lC \
Vo / IbqWHXN8Myysy2bRxB + F5Z1MiP59AnW + z / YBLOqL59Q2b7VXh5HuGy2jx7d3BIJaTN / XEgYAE4G7BleDN + GlnB4UYUg2CzRO5RAe1SYN2m1EuTZcfFJfO2MdT3WEPrP0jyZI9GCAf5A + y3T1 / Z1fIC9S8jIoP \
5 Goi6VCjdQFaSd2lpVf5oyNQ2i2 / L8 + R + 62 aQvUBWWUstwHvuoKbdRTerRBzNFDL8Riu09WTrv2Ibk8kZKgpEPSGnldNn7x9C4ntn + skN2p2BxvjDoI7rsFwrh + aM8l69d6NTEs1v45b2wq / Gt4ER1eDNVSxpkLL \
NYfrIbJzQC3cdJE94qMnTWb2y0DQjECYM8VwHg5LQu0mYHkqZu5jlELBfD55vvlIlA18Ee / EdO / ZD77Z9hrv0tD5dzvwFRSUr9gDmbrNlZG4tlGwy5bZx7jCBVCuQykR0kDd6U8iHTBUvb8WhE + bqZ3A3Bcgh9tH \
d5lx5IzsSJQEwiTd8Cx5dBlkWBmhPhuyHnREJVaLSDXcBHvMGB + LWFECjf2dlA + uxe7 + vFrarm7QyiVsi73zsLAXTKkV4zBjYx2A0wag3m0GqlyHJmH1Hm9Th2euXfHSbZy5jaXbeOc2PnTv48t69 / Pl / bZ7CRtW \
cmfmKrVv8FdsnlW3nCv68lzuUTPmnItWvhQHBQPgFwQeSjuQeq0QdC9Tg2s78LY6OAIjsUZ0A9heVYWPykZuQGjYrVAYuHIcE / LOHzPDNOGvfCPIWjEFhbglR + 86 FbwPJEOgnUsV + p / imUGwYClkMHwEUx2KfYF3 \
3 mDXQi7BwlW + tCcsqkQu + SHfBoPo6EDIqa / Gmj6wVLm2rHj6m2T2lJHC1cryCls30078jgPi2l4S8yvHZhMx0iZiCd1k9i0OYab49hxO75F1iWjpTR32p37Et180NjDRQv2MgxpF / Yj3DD3 / BZ4XfBuGA63Hl0vg \
I8qgYygdyvvAk0FJ0px9KSwUZaI + Q1u3XdU2K1gLUuVcazv5tHaukQvX4LA0C2g4ggPyhy57ecQV0o3NDrVDHtE6S8zGmuNwWB8 / GjwNMLAS861DAUYKLX / cT3xzou3QPRcNEaaIBXSZbx2Cy1CgAXqbJ8day7V3 \
tckBPTGrEExIc5CN5NzWV7KV0bvGDfOTeDFFYU52XMg1OGaBEy6LaazD3XLQFLMF91JHvAbBYIOlUFo6pIr5Wpa6Mid56SbNxrimn2wp4LeqL5U + SRjVogpE / Gg5SOiM6WKoUf8why05lStZas1Re7O5cQPV3Q2U \
rbGgGsSgAeI2DxE8HPA3 + eo3FUdzKwmOBSd4QMt7z5fwOfKURxmt8MrFCqPQZiVZcrMfsESSQs2JWv4xQln74LEoT7TCv2djpLTclMPRTHOQKYgo6orjbPFpmdHWJp + AMqUWUzFv4BhOOMScy454h51ze9JTY8 / 5 \
UmbG3hR47gAt / at1 / a2lZ76hOihsXue7f + GGX9 + 9 lRaFwsjJ8Dkhe6oJ4T9cG2cT4VLduf1JSUtq / MwVIXi7qZIM6Jgrk + UN4gFvGR7 / ZH51Png0X / LDlrvkZ9aAZ7E6ttO4QaCu9sEF1jJm4zRUKuexPjIuMeX6 \
bpqPGrWNv7MhiJMw8xGKIpbXwfgDV / 1 / fLrLG0VJV / v035yZX0 + YM4LxjoP0JjITXxiUouVL + H9jHuINMDTD0efD96cbdWNguiYwLZ019y8BW4kpR71270hr96yjW71DNWCdVu / GZNWbG89yuZovcO + EtY3OPX9F \
LwzTG1OrNfdgq17 / / t3YYa8d9dpxr5302lmvrbtt1YOncwJZDdxGp6d7wbY6Xb2K + y / 7 U1e0w8 / koat46ioe67eTK9rpFe3so + 3 lR1pvPtLq3si9rq0 / 2 l58bO9c + fe5 + zb5LBwtP2PdfcibK6RAD3LVg0T1sKg6 \
4224 jRtuozPsLbdx4DaeuI0OQd72JE0PzqLX1r12Ha3ZJeq / uIv / ainwZ6XEn5Uif1bK / FkpdFX7M / 9 UYANhZgemuPPo5OeId1psUh8LxhpHJMxOU5f / / x9WV + q35m39Zrn4zf3 / XcS / / y + / HArg \
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""" )))
ESP32ROM . STUB_CODE = eval ( zlib . decompress ( base64 . b64decode ( b """
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eNqNWmlz3DYS / SsjyrpseQOQMySoTVZH4rF8pNanLLsmtQFBMnIqmbWVSUnyKvvbF30RIIdy7QdKJIij0eh + / bo5 / 9 lZNderf / 2 xspernYOJVsU0y3Q + NfuTndqubPwmm83yzMAbGOPbqp3FdWsm / s / 0 EO4U3uXH \
i2vlb0vtH2t / tYtrpybUaMxi5f / Cnbp3dkpvsaf9f3pqmE9RB7m0EglUdBddRiRqZv61i9as6F75NpV2a + / hwp1MG2vCJRc0Hz / uwhpnl70uuzAHzKvNBBqmsI1Eje9AqSMSsQny6dzLyMuCLE0dye0GuipLECFu \
MCjTzd1a6y4d7k2nMfrfukOaQC58OZ1Ex7wh0qQJ7RLkNpm / n8FmjGzmPrQsru1MtC79QUfttPCv4CE3yVEGR + oncY41mPmVWs0S5CJy1KihZ3aebPnHLKgMtty2R299B02bK2c8Nyi0vUOJ8LLWvZcn / QM / ReWu \
oMvpifoB2p + cnCZPszIZKFsUCTaJUqqBgeJD6R6Aq0AfrwRbseZNfCRwP42fj47k7o3fjIzR8bxW0bzhqKYg83E4GN7QOdg / vIfjaZ + e2KBb7gEbyZVawVm6xcp3aBrqUI3p0ho6Kgv3MMry4aOi / YvKslNoFp5N \
u2HT7gaCD5SxaVeIC9i35HEW0eK6TMHdeA2 + YMfaz + 9 KmIIuaOumc + l5NKIiDYd9pE / 4 bTQ3ypzy2tE6pgAjOhyqQXapwy5r0tcOya5B / pwgSKlb39XQZPACNulfrtY9t0OrgeuDGU / nMt3dKLEXZKvTDggB + kCe \
NB4oOlJVduZPAHwsJ5nrnCGyVj0TeE / r95Fnn / TYwR0tY / lYbE1jUI0pOa3l93XFLs2m0kTO1fVxc4aUgaJMPAlPLo7e5l + ZsOY + 0 / U + tDHaxkHKuJSGNWEOedZVwrEHpWcJ0DJ76hGl2EgpaDl2REZUFrhDNmlC \
nF0bmt8lehw / 5 f48fvB2WIOTzjzO1OZvsMUjgKqoGRANlOof8o0NWh2QUyC2HRFcbPll0D3t5cX3fraqJnh3dTDOsSPyMWfZX49GeqEcxCcclw3HPcXg4tTZa9KYjQCniuYCv7OWNdiMKD8CH0T1SsZsibgPISKJ \
rhM4FDfU / EWs7U / xwyp + uB4cio6OrnW / oDtR9GTfAjkv2Ms2bMB61IkEZNsy7pgnbLywj6ISJewvluDC5lL63XEQAT0eIzSTB + ffRlaa9zEmjPbm7hAIXwq9eUpdtfUx25REGUz + TQS7KL9XVpmRkWvGfmNo1g5E \
1 JM7zMmVI7tw5GUuwmnCwjJF + vIT3DvugeqqIl / nVSpeBeKc0DXRwLp5OrVunk + vPDhU / qqnx + B10OOFF6KQzf4A1GP62G / BOpq4I0ZyGLmcMCnFxawmHzkCoTp + cvCCe9C8Rf27OVXgybqK5malV / kjZmXoDLfs \
XQihioZDxAPd + M1dLpYf / I0D / 30 mCPl2fTfgkWCmbUM6gVBZ1duPEnJAi6j8M6w + Ia9Al2WRbT7utlaPuS2fGbKffUAWPCB9F3a + 2 qaBqA / 7 jsTj / S + 5 uSxmXduKeYJl7y0 + gpHOCUkxaOaBQwWQePEQQZfCwjHJ \
jI5MRDBzRMa8XgG4px9ev1gsjmmyEP4aaqBxP1BE8ERm6Y + 4 akdSjUEco0zsHgVOVFLBJ1WFkwKaA8y1YudDd8tiEj50t4OE49R0780uDL6 / uQf / dqeUh5XD4Gj6md0RYybSMHt4eo / DE2It6Mzy3uFkOj / ULJIb \
ivRdd2wpRYSGWScOSTmcMx0HYNL8X + ktMuUOYNMoTcvGWLERY5j0GNZFFFpaCUkbwQfH9GjVJiVbw5COB9MOeUUXzhqKFZbTvzIFVEEx3LHIksZpObboPYNuCZHGJgfJZP + YPT7bOy3P5UTjvO9OAVUviB3 + 8 / T4 \
CXg0pSuk99URzz5MmSRj7SWlDOKmx2uOein26MqBMUr6tBMBOws0iXtgmzu8veBJG47Bv91HyzMpm6Jz + 3 j3nP6By854CAYseYA0tyQJFZ29p1PnXTR / TgaIXfWU5so5DkFK12QdNi8TsHpzwic7yHOD4QBbR1YT \
MpEor4YLOEH6LClSOkqwfqdBC + 4 ZoQAFUb9cDTfNBkNZQ + lgXUZ1FXd / G / 5 + 6 Kz9I0doHYTvy4YwnJIvYPQOWXfq0RkLENyWVrLRR + vuQWgMuqgsB916JH + oJFw0pFbHfZAIsWu3UTtN24iA6iuxFRTXNq8gnj / Y \
gFwTHrUg8sFlr4QECV8 + rCJhMzlZ11qGVl1cQmBQl4zaOn25WGGTLl + 2 xBx0IblIJt2QIIFb6k / ZpP0eJDZJL9fPypcj2URBWhomS455M0hkKrKQDhTHFycn0JDjVYo5nQGQhzgDCaYu + utDcO7AnNsBzOxIu8hb \
u6G8c7H4TmEkdZ0VpCwMP7n43FX2sv1FOC0FSQSC / GqzLaT9gzQ + Xiwxp8eJ86ecfeccSTrcAaZMI5f4 + C4sULRdknRdxpksYERfxCuSDzbWXknjLe / R4Dyt9J / / Gaap4mlM / iu / yenkEDdd6DIvaJndlklOOv + H \
9 IIz9QJw5GyjQfth6yYN3XV / 6 UN5s9lrPhOJ / osOzjxSoyE / 9 OutpAkdpqCyjMlvRFvyOu3NmsSvhocNnBYtIV8FRWkwwvyiYO6QIUcw + b9Zs8bIQTO5xQ3 / xk4xk3znyx + YMy / nv0rIBup + DPZ5OwSMM0JRDchf \
AzLiAOb + xn1Po6nKfnZOpm0hD0DGl0Vxiy8o5xn9513rFJ8QUz4jrikCQaeKAhz94AtzwWxN7t / X51uCqtal9gvZjOQ0 + dugWlX0FPhOTvy7QRfKJ + dv0KoPWPFVpHiHPjL / MT617dDF5c + kHH4Ckr + KwlIhWMEV \
J13KtM + D9VZt3wd1yQIAT7Q06fOvTWpFkEfBsauGKOcqcgKgWpqpGc2EaLaKrBZdvrQD77EmMe + 5 XGeIYxlOhZwKNA / raxA4IG9GyOZ6pnRo1rj / FyrSQhYmya6urgiuSyAsfoM7RHi7YteM + 6 ecbqfhqEQqrQV6 \
C5rL2vDBh2p + SkKBumIGrq4mn6h + 6 eKioQ7KKpFXgz3jpwb1maRpm057LE7BW8mpmICpsenOzZxdcFv6GEPhO1KLbgOMGYQPE1DbTmO7Deih8klsmJ3NzzkTYNxFy1Njps + pFuJP93L7tO4OdS5F6TYuvnBxAN9G \
X3eAregyRGWxF / 9 / CTT020hVrbtgoyyEjClifVR + N8Xf9 + FcoGw1jWysjkwL + DigLJpVwSYFdRHUe / PsiopoKvvy7Sf6CICHi / jTlsixysXKb6Jse5jbtUSaZs27YfYaO2WX3lLBrZjIJwagFsYxCem + Vhg3RirU \
kFGcEeo5FzEKMVCUGaOUvsIUmUL / / DXu5xdxDii0qe0uHkF + 0 c5J9WMB8sdhlNPFd1GA1V3HrVBckLnEDrDO0kRV2t6edhN + U67zPdf58eTz8Rem1lVFx27jxH82ThYhIjRSfdfrfQwVKHqpncWvhSmgS8JUWL4f \
1 ubVFpGlbq9Zv4ZE7DPts0 + QWGPduJr0ERGGINVn0mmnnelc9qVSHe3OIqxLGbg0A1c3NbD9gtNgR66I4qJ3Qyo15VQKHVP8JL / 5 DPpBdr5nd7dgcLnYCQUnnAigseaqtNNbH7kIYaAVZuTQAjM6roI5JscVnxl + \
HdIkrOPUp + aCTittUkjM1s + trMFlK7MF6PaZggYAhmVtg + FUJbwF7TjFiAVoBSZhDYcsV07IwmBQVTKMygyA5zV / pYuqbTWPbQn2G67KQumBmMuE8ciGEnGnsxl9 + Asa22N24R5TXkeVnrmwoV38zH3C8JDH3IFU \
JpZIxRMpjBR7b + aYFJx9BAKxyx / LYUdVIZ3MMBXH3xsI / O694a9uFVMFYgBn9M2u4kp7NR3xPM0f39npbTPieZqS4WE7bgvn3E1JZvARWAV7pZJYCaaUZCy4TD2yjBihogNCSlLz + 5 x5ELrZdWJSyAuzSfgYXk3P \
SE0NBAJdD4AC0tgKfLGZXYeDGFY0RzAFylZlHQW7Lr4AFUOKkTGTSaWcmnYLvpoE / iL7L1MLiGE789I / kV + LAsjYbhwS5wcwcJOWxqiJXEYS225bDkinxzzwZZgUUEXKA6Bwk4 + cH / 4 M5S8qhjBNMvmf0dQSPzu4 \
dL8zB6XME5gay0Rw8TMY / kSymKZfS8WRJkcQuk6jwsINe5DrdYE3esm2Y15dJ + xwmf4NGuNBeAI2 / uDxa58z0 + 9 ebuSTRxszQCy84i74PemFmKxvBcHN / D3MLr4JuoAiAxx7yd4Tf / n1wxBMkkARUIIMP + 0 bZs5c \
V8ZPp6X82ggwJrsl96cptxlIzDaUwmfz / kcmucr4Y7ba3SRrKc0mTJzssSXkDCPxACddCSNp96Lr3qdKRDHZgSiKJE7C6jTglqIDPezwr8b4t2FSK4XmZrm6vOl + YZapfPrX / wBWdMOo \
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""" )))
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if __name__ == ' __main__ ' :
try :
main ( )
except FatalError as e :
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print ( ' \n A fatal error occurred: %s ' % e )
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sys . exit ( 2 )