Tasmota/tools/decode-config.py

2389 lines
109 KiB
Python
Executable File

#!/usr/bin/env python
# -*- coding: utf-8 -*-
VER = '2.0.0003'
"""
decode-config.py - Backup/Restore Sonoff-Tasmota configuration data
Copyright (C) 2018 Norbert Richter <nr@prsolution.eu>
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 3 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, see <http://www.gnu.org/licenses/>.
Requirements:
- Python
- pip install json pycurl urllib2 configargparse
Instructions:
Execute command with option -d to retrieve config data from a host
or use -f to read a configuration file saved using Tasmota Web-UI
For further information read 'decode-config.md'
For help execute command with argument -h (or -H for advanced help)
Usage: decode-config.py [-f <filename>] [-d <host>] [-P <port>]
[-u <username>] [-p <password>] [-i <filename>]
[-o <filename>] [-F json|bin|dmp] [-E] [-e]
[--json-indent <indent>] [--json-compact]
[--json-hide-pw] [--json-unhide-pw] [-h] [-H] [-v]
[-V] [-c <filename>] [--ignore-warnings]
Backup/Restore Sonoff-Tasmota configuration data. Args that start with '--'
(eg. -f) can also be set in a config file (specified via -c). Config file
syntax allows: key=value, flag=true, stuff=[a,b,c] (for details, see syntax at
https://goo.gl/R74nmi). If an arg is specified in more than one place, then
commandline values override config file values which override defaults.
optional arguments:
-c, --config <filename>
program config file - can be used to set default
command args (default: None)
--ignore-warnings do not exit on warnings. Not recommended, used by your
own responsibility!
Source:
Read/Write Tasmota configuration from/to
-f, --file, --tasmota-file <filename>
file to retrieve/write Tasmota configuration from/to
(default: None)'
-d, --device, --host <host>
hostname or IP address to retrieve/send Tasmota
configuration from/to (default: None)
-P, --port <port> TCP/IP port number to use for the host connection
(default: 80)
-u, --username <username>
host HTTP access username (default: admin)
-p, --password <password>
host HTTP access password (default: None)
Backup/Restore:
Backup/Restore configuration file specification
-i, --restore-file <filename>
file to restore configuration from (default: None).
Replacements: @v=firmware version, @f=device friendly
name, @h=device hostname
-o, --backup-file <filename>
file to backup configuration to (default: None).
Replacements: @v=firmware version, @f=device friendly
name, @h=device hostname
-F, --backup-type json|bin|dmp
backup filetype (default: 'json')
-E, --extension append filetype extension for -i and -o filename
(default)
-e, --no-extension do not append filetype extension, use -i and -o
filename as passed
JSON:
JSON backup format specification
--json-indent <indent>
pretty-printed JSON output using indent level
(default: 'None'). -1 disables indent.
--json-compact compact JSON output by eliminate whitespace
--json-hide-pw hide passwords (default)
--json-unhide-pw unhide passwords
Info:
additional information
-h, --help show usage help message and exit
-H, --full-help show full help message and exit
-v, --verbose produce more output about what the program does
-V, --version show program's version number and exit
Either argument -d <host> or -f <filename> must be given.
Returns:
0: successful
1: restore skipped
2: program argument error
3: file not found
4: data size mismatch
5: data CRC error
6: unsupported configuration version
7: configuration file read error
8: JSON file decoding error
9: Restore file data error
10: Device data download error
11: Device data upload error
20: python module missing
21: Internal error
>21: python library exit code
4xx, 5xx: HTTP errors
"""
class ExitCode:
OK = 0
RESTORE_SKIPPED = 1
ARGUMENT_ERROR = 2
FILE_NOT_FOUND = 3
DATA_SIZE_MISMATCH = 4
DATA_CRC_ERROR = 5
UNSUPPORTED_VERSION = 6
FILE_READ_ERROR = 7
JSON_READ_ERROR = 8
RESTORE_DATA_ERROR = 9
DOWNLOAD_CONFIG_ERROR = 10
UPLOAD_CONFIG_ERROR = 11
MODULE_NOT_FOUND = 20
INTERNAL_ERROR = 21
import os.path
import io
import sys, platform
def ModuleImportError(module):
er = str(module)
print >> sys.stderr, "{}. Try 'pip install {}' to install it".format(er,er.split(' ')[len(er.split(' '))-1])
sys.exit(ExitCode.MODULE_NOT_FOUND)
try:
from datetime import datetime
import struct
import socket
import re
import math
import inspect
import json
import configargparse
import pycurl
import urllib2
except ImportError, e:
ModuleImportError(e)
PROG='{} v{} by Norbert Richter <nr@prsolution.eu>'.format(os.path.basename(sys.argv[0]),VER)
CONFIG_FILE_XOR = 0x5A
BINARYFILE_MAGIC = 0x63576223
STR_ENCODING = 'utf8'
DEFAULTS = {
'DEFAULT':
{
'configfile': None,
'ignorewarning':False,
},
'source':
{
'device': None,
'port': 80,
'username': 'admin',
'password': None,
'tasmotafile': None,
},
'backup':
{
'restorefile': None,
'backupfile': None,
'backupfileformat': 'json',
'extension': True,
},
'jsonformat':
{
'jsonindent': None,
'jsoncompact': False,
'jsonsort': True,
'jsonrawvalues':False,
'jsonrawkeys': False,
'jsonhidepw': False,
},
}
args = {}
exitcode = 0
"""
Settings dictionary describes the config file fields definition:
Each setting name has a tuple containing the following items:
(format, baseaddr, datadef, <convert>)
where
format
Define the data interpretation.
It is either a string or a tuple containing a string and a
sub-Settings dictionary.
'xxx':
A string is used to interpret the data at <baseaddr>
The string defines the format interpretion as described
in 'struct module format string', see
https://docs.python.org/2.7/library/struct.html#format-strings
In addition to this format string there is as special
meaning of a dot '.' - this means a bit with an optional
prefix length. If no prefix is given, 1 is assumed.
{}:
A dictionary describes itself a 'Settings' dictonary (recursive)
baseaddr
The address (starting from 0) within config data.
For bit fields <baseaddr> must be a tuple.
n:
Defines a simple address <n> within config data.
<n> must be a positive integer.
(n, b, s):
A tuple defines a bit field:
<n>
is the address within config data (integer)
<b>
how many bits are used (positive integer)
<s>
bit shift <s> (integer)
positive <s> shift the result <s> right bits
negative <s> shift the result <s> left bits
datadef
Data definition, is either a array definition or a
tuple containing an array definition and min/max values
Format: arraydef|(arraydef, min, max)
arraydef:
None:
None must be given if the field contains a
simple value desrcibed by the <format> prefix
n:
[n]:
Defines a one-dimensional array of size <n>
[n, m <,o...>]
Defines a multi-dimensional array
min:
defines a minimum valid value or None if all values
for this format is allowed.
max:
defines a maximum valid value or None if all values
for this format is allowed.
converter (optional)
Conversion methode(s): 'xxx'|func or ('xxx'|func, 'xxx'|func)
Read conversion is used if args.jsonrawvalues is False
Write conversion is used if jsonrawvalues from restore json
file is False or args.jsonrawvalues is False.
Converter is either a single methode 'xxx'|func or a tuple
Single methode will be used for reading conversion only:
'xxx':
string will used for reading conversion and will be
evaluate as is, this can also contain python code.
Use '$' for current value.
func:
name of a formating function that will be used for
reading conversion
None:
will read as definied in <format>
(read, write):
a tuple with 2 objects. Each can be of the same type
as the single method above ('xxx'|func) or None.
read:
method will be used for read conversion
(unpack data from dmp object)
write:
method will be used for write conversion
(pack data to dmp object)
If write method is None indicates value is
readable only and will not be write
"""
def passwordread(value):
return "********" if args.jsonhidepw else value
def passwordwrite(value):
return None if value=="********" else value
Setting_5_10_0 = {
'cfg_holder': ('<L', 0x000, '"0x{:08x}".format($)'),
'save_flag': ('<L', 0x004, None, (None, None)),
'version': ('<L', 0x008, None, ('hex($)', None)),
'bootcount': ('<L', 0x00C, None, (None, None)),
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
}, 0x010, None),
'save_data': ('<h', 0x014, None),
'timezone': ('b', 0x016, None),
'ota_url': ('101s',0x017, None),
'mqtt_prefix': ('11s', 0x07C, [3]),
'seriallog_level': ('B', 0x09E, None),
'sta_config': ('B', 0x09F, None),
'sta_active': ('B', 0x0A0, None),
'sta_ssid': ('33s', 0x0A1, [2]),
'sta_pwd': ('65s', 0x0E3, [2], (passwordread, passwordwrite)),
'hostname': ('33s', 0x165, None),
'syslog_host': ('33s', 0x186, None),
'syslog_port': ('<H', 0x1A8, None),
'syslog_level': ('B', 0x1AA, None),
'webserver': ('B', 0x1AB, None),
'weblog_level': ('B', 0x1AC, None),
'mqtt_fingerprint': ('60s', 0x1AD, None),
'mqtt_host': ('33s', 0x1E9, None),
'mqtt_port': ('<H', 0x20A, None),
'mqtt_client': ('33s', 0x20C, None),
'mqtt_user': ('33s', 0x22D, None),
'mqtt_pwd': ('33s', 0x24E, None, (passwordread, passwordwrite)),
'mqtt_topic': ('33s', 0x26F, None),
'button_topic': ('33s', 0x290, None),
'mqtt_grptopic': ('33s', 0x2B1, None),
'mqtt_fingerprinth': ('B', 0x2D2, [20]),
'pwm_frequency': ('<H', 0x2E6, None),
'power': ({
'raw': ('<L', 0x2E8, None, ('"0x{:08x}".format($)', None)),
'power1': ('<L', (0x2E8, 1, 0), None),
'power2': ('<L', (0x2E8, 1, 1), None),
'power3': ('<L', (0x2E8, 1, 2), None),
'power4': ('<L', (0x2E8, 1, 3), None),
'power5': ('<L', (0x2E8, 1, 4), None),
'power6': ('<L', (0x2E8, 1, 5), None),
'power7': ('<L', (0x2E8, 1, 6), None),
'power8': ('<L', (0x2E8, 1, 7), None),
}, 0x2E8, None),
'pwm_value': ('<H', 0x2EC, [5]),
'altitude': ('<h', 0x2F6, None),
'tele_period': ('<H', 0x2F8, None),
'ledstate': ('B', 0x2FB, None),
'param': ('B', 0x2FC, [23]),
'state_text': ('11s', 0x313, [4]),
'domoticz_update_timer': ('<H', 0x340, None),
'pwm_range': ('<H', 0x342, None),
'domoticz_relay_idx': ('<L', 0x344, [4]),
'domoticz_key_idx': ('<L', 0x354, [4]),
'energy_power_calibration': ('<L', 0x364, None),
'energy_voltage_calibration': ('<L', 0x368, None),
'energy_current_calibration': ('<L', 0x36C, None),
'energy_kWhtoday': ('<L', 0x370, None),
'energy_kWhyesterday': ('<L', 0x374, None),
'energy_kWhdoy': ('<H', 0x378, None),
'energy_min_power': ('<H', 0x37A, None),
'energy_max_power': ('<H', 0x37C, None),
'energy_min_voltage': ('<H', 0x37E, None),
'energy_max_voltage': ('<H', 0x380, None),
'energy_min_current': ('<H', 0x382, None),
'energy_max_current': ('<H', 0x384, None),
'energy_max_power_limit': ('<H', 0x386, None),
'energy_max_power_limit_hold': ('<H', 0x388, None),
'energy_max_power_limit_window': ('<H', 0x38A, None),
'energy_max_power_safe_limit': ('<H', 0x38C, None),
'energy_max_power_safe_limit_hold': ('<H', 0x38E, None),
'energy_max_power_safe_limit_window': ('<H', 0x390, None),
'energy_max_energy': ('<H', 0x392, None),
'energy_max_energy_start': ('<H', 0x394, None),
'mqtt_retry': ('<H', 0x396, None),
'poweronstate': ('B', 0x398, None),
'last_module': ('B', 0x399, None),
'blinktime': ('<H', 0x39A, None),
'blinkcount': ('<H', 0x39C, None),
'friendlyname': ('33s', 0x3AC, [4]),
'switch_topic': ('33s', 0x430, None),
'sleep': ('B', 0x453, None),
'domoticz_switch_idx': ('<H', 0x454, [4]),
'domoticz_sensor_idx': ('<H', 0x45C, [12]),
'module': ('B', 0x474, None),
'ws_color': ('B', 0x475, [4,3]),
'ws_width': ('B', 0x481, [3]),
'my_gp': ('B', 0x484, [18]),
'light_pixels': ('<H', 0x496, None),
'light_color': ('B', 0x498, [5]),
'light_correction': ('B', 0x49D, None),
'light_dimmer': ('B', 0x49E, None),
'light_fade': ('B', 0x4A1, None),
'light_speed': ('B', 0x4A2, None),
'light_scheme': ('B', 0x4A3, None),
'light_width': ('B', 0x4A4, None),
'light_wakeup': ('<H', 0x4A6, None),
'web_password': ('33s', 0x4A9, None, (passwordread, passwordwrite)),
'switchmode': ('B', 0x4CA, [4]),
'ntp_server': ('33s', 0x4CE, [3]),
'ina219_mode': ('B', 0x531, None),
'pulse_timer': ('<H', 0x532, [8]),
'ip_address': ('<L', 0x544, [4], ("socket.inet_ntoa(struct.pack('<L', $))", "struct.unpack('<L', socket.inet_aton($))[0]")),
'energy_kWhtotal': ('<L', 0x554, None),
'mqtt_fulltopic': ('100s',0x558, None),
'flag2': ({
'raw': ('<L', 0x5BC, None, ('"0x{:08x}".format($)', None)),
'current_resolution': ('<L', (0x5BC, 2, 15), None),
'voltage_resolution': ('<L', (0x5BC, 2, 17), None),
'wattage_resolution': ('<L', (0x5BC, 2, 19), None),
'emulation': ('<L', (0x5BC, 2, 21), None),
'energy_resolution': ('<L', (0x5BC, 3, 23), None),
'pressure_resolution': ('<L', (0x5BC, 2, 26), None),
'humidity_resolution': ('<L', (0x5BC, 2, 28), None),
'temperature_resolution': ('<L', (0x5BC, 2, 30), None),
}, 0x5BC, None),
'pulse_counter': ('<L', 0x5C0, [4]),
'pulse_counter_type': ('<H', 0x5D0, None),
'pulse_counter_debounce': ('<H', 0x5D2, None),
'rf_code': ('B', 0x5D4, [17,9], '"0x{:02x}".format($)'),
}
Setting_5_11_0 = Setting_5_10_0
Setting_5_11_0.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
}, 0x010, None),
'display_model': ('B', 0x2D2, None),
'display_mode': ('B', 0x2D3, None),
'display_refresh': ('B', 0x2D4, None),
'display_rows': ('B', 0x2D5, None),
'display_cols': ('B', 0x2D6, [2]),
'display_address': ('B', 0x2D8, [8]),
'display_dimmer': ('B', 0x2E0, None),
'display_size': ('B', 0x2E1, None),
})
Setting_5_11_0.pop('mqtt_fingerprinth',None)
Setting_5_12_0 = Setting_5_11_0
Setting_5_12_0.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
}, 0x010, None),
})
Setting_5_13_1 = Setting_5_12_0
Setting_5_13_1.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
'mqtt_serial': ('<L', (0x010, 1, 22), None),
'rules_enabled': ('<L', (0x010, 1, 23), None),
'rules_once': ('<L', (0x010, 1, 24), None),
'knx_enabled': ('<L', (0x010, 1, 25), None),
}, 0x010, None),
'baudrate': ('B', 0x09D, None, ('$ * 1200','$ / 1200') ),
'mqtt_fingerprint': ('20s', 0x1AD, [2]),
'energy_power_delta': ('B', 0x33F, None),
'light_rotation': ('<H', 0x39E, None),
'serial_delimiter': ('B', 0x451, None),
'sbaudrate': ('B', 0x452, None),
'knx_GA_registered': ('B', 0x4A5, None),
'knx_CB_registered': ('B', 0x4A8, None),
'timer': ({
'raw': ('<L', 0x670, None, ('"0x{:08x}".format($)', None)),
'time': ('<L', (0x670, 11, 0), None),
'window': ('<L', (0x670, 4, 11), None),
'repeat': ('<L', (0x670, 1, 15), None),
'days': ('<L', (0x670, 7, 16), None),
'device': ('<L', (0x670, 4, 23), None),
'power': ('<L', (0x670, 2, 27), None),
'mode': ('<L', (0x670, 2, 29), None),
'arm': ('<L', (0x670, 1, 31), None),
}, 0x670, [16]),
'latitude': ('i', 0x6B0, None, ('float($) / 1000000', 'int($ * 1000000)')),
'longitude': ('i', 0x6B4, None, ('float($) / 1000000', 'int($ * 1000000)')),
'knx_physsical_addr': ('<H', 0x6B8, None),
'knx_GA_addr': ('<H', 0x6BA, [10]),
'knx_CB_addr': ('<H', 0x6CE, [10]),
'knx_GA_param': ('B', 0x6E2, [10]),
'knx_CB_param': ('B', 0x6EC, [10]),
'rules': ('512s',0x800, None),
})
Setting_5_14_0 = Setting_5_13_1
Setting_5_14_0.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
'mqtt_serial': ('<L', (0x010, 1, 22), None),
'rules_enabled': ('<L', (0x010, 1, 23), None),
'rules_once': ('<L', (0x010, 1, 24), None),
'knx_enabled': ('<L', (0x010, 1, 25), None),
'device_index_enable': ('<L', (0x010, 1, 26), None),
}, 0x010, None),
'tflag': ({
'raw': ('<H', 0x2E2, None, ('"0x{:04x}".format($)', None)),
'hemis': ('<H', (0x2E2, 1, 0), None),
'week': ('<H', (0x2E2, 3, 1), None),
'month': ('<H', (0x2E2, 4, 4), None),
'dow': ('<H', (0x2E2, 3, 8), None),
'hour': ('<H', (0x2E2, 5, 13), None),
}, 0x2E2, [2]),
'param': ('B', 0x2FC, [18]),
'toffset': ('<h', 0x30E, [2]),
})
Setting_6_0_0 = Setting_5_14_0
Setting_6_0_0.update({
'cfg_holder': ('<H', 0x000, None),
'cfg_size': ('<H', 0x002, None, (None, None)),
'bootcount': ('<H', 0x00C, None, (None, None)),
'cfg_crc': ('<H', 0x00E, None, '"0x{:04x}".format($)'),
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
'mqtt_serial': ('<L', (0x010, 1, 22), None),
'rules_enabled': ('<L', (0x010, 1, 23), None),
'rules_once': ('<L', (0x010, 1, 24), None),
'knx_enabled': ('<L', (0x010, 1, 25), None),
'device_index_enable': ('<L', (0x010, 1, 26), None),
'knx_enable_enhancement': ('<L', (0x010, 1, 27), None),
}, 0x010, None),
'rule_enabled': ({
'raw': ('B', 0x49F, None, (None,None)),
'rule1': ('B', (0x49F, 1, 0), None),
'rule2': ('B', (0x49F, 1, 1), None),
'rule3': ('B', (0x49F, 1, 2), None),
}, 0x49F, None),
'rule_once': ({
'raw': ('B', 0x4A0, None, (None,None)),
'rule1': ('B', (0x4A0, 1, 0), None),
'rule2': ('B', (0x4A0, 1, 1), None),
'rule3': ('B', (0x4A0, 1, 2), None),
}, 0x4A0, None),
'mems': ('10s', 0x7CE, [5]),
'rules': ('512s',0x800, [3])
})
Setting_6_1_1 = Setting_6_0_0
Setting_6_1_1.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
'mqtt_serial': ('<L', (0x010, 1, 22), None),
'rules_enabled': ('<L', (0x010, 1, 23), None),
'rules_once': ('<L', (0x010, 1, 24), None),
'knx_enabled': ('<L', (0x010, 1, 25), None),
'device_index_enable': ('<L', (0x010, 1, 26), None),
'knx_enable_enhancement': ('<L', (0x010, 1, 27), None),
'rf_receive_decimal': ('<L', (0x010, 1, 28), None),
'ir_receive_decimal': ('<L', (0x010, 1, 29), None),
'hass_light': ('<L', (0x010, 1, 30), None),
}, 0x010, None),
'flag3': ('<L', 0x3A0, None, '"0x{:08x}".format($)'),
'switchmode': ('B', 0x3A4, [8]),
'mcp230xx_config': ({
'raw': ('<L', 0x6F6, None, ('"0x{:08x}".format($)', None)),
'pinmode': ('<L', (0x6F6, 3, 0), None),
'pullup': ('<L', (0x6F6, 1, 3), None),
'saved_state': ('<L', (0x6F6, 1, 4), None),
'int_report_mode': ('<L', (0x6F6, 2, 5), None),
'int_report_defer': ('<L', (0x6F6, 4, 7), None),
'int_count_en': ('<L', (0x6F6, 1, 11), None),
}, 0x6F6, [16]),
})
Setting_6_2_1 = Setting_6_1_1
Setting_6_2_1.update({
'flag': ({
'raw': ('<L', 0x010, None, ('"0x{:08x}".format($)', None)),
'save_state': ('<L', (0x010, 1, 0), None),
'button_restrict': ('<L', (0x010, 1, 1), None),
'value_units': ('<L', (0x010, 1, 2), None),
'mqtt_enabled': ('<L', (0x010, 1, 3), None),
'mqtt_response': ('<L', (0x010, 1, 4), None),
'mqtt_power_retain': ('<L', (0x010, 1, 5), None),
'mqtt_button_retain': ('<L', (0x010, 1, 6), None),
'mqtt_switch_retain': ('<L', (0x010, 1, 7), None),
'temperature_conversion': ('<L', (0x010, 1, 8), None),
'mqtt_sensor_retain': ('<L', (0x010, 1, 9), None),
'mqtt_offline': ('<L', (0x010, 1, 10), None),
'button_swap': ('<L', (0x010, 1, 11), None),
'stop_flash_rotate': ('<L', (0x010, 1, 12), None),
'button_single': ('<L', (0x010, 1, 13), None),
'interlock': ('<L', (0x010, 1, 14), None),
'pwm_control': ('<L', (0x010, 1, 15), None),
'ws_clock_reverse': ('<L', (0x010, 1, 16), None),
'decimal_text': ('<L', (0x010, 1, 17), None),
'light_signal': ('<L', (0x010, 1, 18), None),
'hass_discovery': ('<L', (0x010, 1, 19), None),
'not_power_linked': ('<L', (0x010, 1, 20), None),
'no_power_on_check': ('<L', (0x010, 1, 21), None),
'mqtt_serial': ('<L', (0x010, 1, 22), None),
'rules_enabled': ('<L', (0x010, 1, 23), None),
'rules_once': ('<L', (0x010, 1, 24), None),
'knx_enabled': ('<L', (0x010, 1, 25), None),
'device_index_enable': ('<L', (0x010, 1, 26), None),
'knx_enable_enhancement': ('<L', (0x010, 1, 27), None),
'rf_receive_decimal': ('<L', (0x010, 1, 28), None),
'ir_receive_decimal': ('<L', (0x010, 1, 29), None),
'hass_light': ('<L', (0x010, 1, 30), None),
'global_state': ('<L', (0x010, 1, 31), None),
}, 0x010, None),
'rule_stop': ({
'raw': ('B', 0x1A7, None, (None, None)),
'rule1': ('B', (0x1A7, 1, 0), None),
'rule2': ('B', (0x1A7, 1, 1), None),
'rule3': ('B', (0x1A7, 1, 2), None),
}, 0x1A7, None),
'display_rotate': ('B', 0x2FA, None),
'display_font': ('B', 0x312, None),
'flag3': ({
'raw': ('<L', 0x3A0, None, ('"0x{:08x}".format($)', None)),
'timers_enable': ('<L', (0x3A0, 1, 0), None),
'user_esp8285_enable': ('<L', (0x3A0, 1,31), None),
}, 0x3A0, None),
'button_debounce': ('<H', 0x542, None),
'flag2': ({
'raw': ('<L', 0x5BC, None, ('"0x{:08x}".format($)', None)),
'axis_resolution': ('<L', (0x5BC, 2, 13), None),
'current_resolution': ('<L', (0x5BC, 2, 15), None),
'voltage_resolution': ('<L', (0x5BC, 2, 17), None),
'wattage_resolution': ('<L', (0x5BC, 2, 19), None),
'emulation': ('<L', (0x5BC, 2, 21), None),
'energy_resolution': ('<L', (0x5BC, 3, 23), None),
'pressure_resolution': ('<L', (0x5BC, 2, 26), None),
'humidity_resolution': ('<L', (0x5BC, 2, 28), None),
'temperature_resolution': ('<L', (0x5BC, 2, 30), None),
}, 0x5BC, None),
'switch_debounce': ('<H', 0x66E, None),
'mcp230xx_int_prio': ('B', 0x716, None),
'mcp230xx_int_timer': ('<H', 0x718, None),
})
Setting_6_2_1_2 = Setting_6_2_1
Setting_6_2_1_2.update({
'flag3': ({
'raw': ('<L', 0x3A0, None, ('"0x{:08x}".format($)', None)),
'timers_enable': ('<L', (0x3A0, 1, 0), None),
'user_esp8285_enable': ('<L', (0x3A0, 1, 1), None),
}, 0x3A0, None),
})
Setting_6_2_1_3 = Setting_6_2_1_2
Setting_6_2_1_3.update({
'flag3': ({
'raw': ('<L', 0x3A0, None, ('"0x{:08x}".format($)', None)),
'timers_enable': ('<L', (0x3A0, 1, 0), None),
'user_esp8285_enable': ('<L', (0x3A0, 1, 1), None),
'time_append_timezone':('<L', (0x3A0, 1, 2), None),
}, 0x3A0, None),
'flag2': ({
'raw': ('<L', 0x5BC, None, ('"0x{:08x}".format($)', None)),
'frequency_resolution': ('<L', (0x5BC, 2, 11), None),
'axis_resolution': ('<L', (0x5BC, 2, 13), None),
'current_resolution': ('<L', (0x5BC, 2, 15), None),
'voltage_resolution': ('<L', (0x5BC, 2, 17), None),
'wattage_resolution': ('<L', (0x5BC, 2, 19), None),
'emulation': ('<L', (0x5BC, 2, 21), None),
'energy_resolution': ('<L', (0x5BC, 3, 23), None),
'pressure_resolution': ('<L', (0x5BC, 2, 26), None),
'humidity_resolution': ('<L', (0x5BC, 2, 28), None),
'temperature_resolution': ('<L', (0x5BC, 2, 30), None),
}, 0x5BC, None),
})
Setting_6_2_1_6 = Setting_6_2_1_3
Setting_6_2_1_6.update({
'energy_frequency_calibration': ('<L', 0x7C8, None),
})
Setting_6_2_1_10 = Setting_6_2_1_6
Setting_6_2_1_10.update({
'rgbwwTable': ('B', 0x71A, [5]),
})
Setting_6_2_1_14 = Setting_6_2_1_10
Setting_6_2_1_14.update({
'flag2': ({
'raw': ('<L', 0x5BC, None, ('"0x{:08x}".format($)', None)),
'weight_resolution': ('<L', (0x5BC, 2, 9), None),
'frequency_resolution': ('<L', (0x5BC, 2, 11), None),
'axis_resolution': ('<L', (0x5BC, 2, 13), None),
'current_resolution': ('<L', (0x5BC, 2, 15), None),
'voltage_resolution': ('<L', (0x5BC, 2, 17), None),
'wattage_resolution': ('<L', (0x5BC, 2, 19), None),
'emulation': ('<L', (0x5BC, 2, 21), None),
'energy_resolution': ('<L', (0x5BC, 3, 23), None),
'pressure_resolution': ('<L', (0x5BC, 2, 26), None),
'humidity_resolution': ('<L', (0x5BC, 2, 28), None),
'temperature_resolution': ('<L', (0x5BC, 2, 30), None),
}, 0x5BC, None),
'weight_item': ('<H', 0x7BC, None),
'weight_max': ('<H', 0x7BE, None, ('float($) / 10', 'int($ * 10)')),
'weight_reference': ('<L', 0x7C0, None),
'weight_calibration': ('<L', 0x7C4, None),
'web_refresh': ('<H', 0x7CC, None),
})
Setting_6_2_1_19 = Setting_6_2_1_14
Setting_6_2_1_19.update({
'weight_max': ('<L', 0x7B8, None, ('float($) / 10', 'int($ * 10)')),
})
Setting_6_2_1_20 = Setting_6_2_1_19
Setting_6_2_1_20.update({
'flag3': ({
'raw': ('<L', 0x3A0, None, ('"0x{:08x}".format($)', None)),
'timers_enable': ('<L', (0x3A0, 1, 0), None),
'user_esp8285_enable': ('<L', (0x3A0, 1, 1), None),
'time_append_timezone':('<L', (0x3A0, 1, 2), None),
'gui_hostname_ip': ('<L', (0x3A0, 1, 3), None),
}, 0x3A0, None),
})
Setting_6_3_0 = Setting_6_2_1_20
Setting_6_3_0.update({
'energy_kWhtotal_time': ('<L', 0x7B4, None),
})
Setting_6_3_0_2 = Setting_6_3_0
Setting_6_3_0.update({
'timezone_minutes': ('B', 0x66D, None),
})
Settings = [
(0x6030002, 0xe00, Setting_6_3_0_2),
(0x6030000, 0xe00, Setting_6_3_0),
(0x6020114, 0xe00, Setting_6_2_1_20),
(0x6020113, 0xe00, Setting_6_2_1_19),
(0x602010E, 0xe00, Setting_6_2_1_14),
(0x602010A, 0xe00, Setting_6_2_1_10),
(0x6020106, 0xe00, Setting_6_2_1_6),
(0x6020103, 0xe00, Setting_6_2_1_3),
(0x6020102, 0xe00, Setting_6_2_1_2),
(0x6020100, 0xe00, Setting_6_2_1),
(0x6010100, 0xe00, Setting_6_1_1),
(0x6000000, 0xe00, Setting_6_0_0),
(0x50e0000, 0xa00, Setting_5_14_0),
(0x50d0100, 0xa00, Setting_5_13_1),
(0x50c0000, 0x670, Setting_5_12_0),
(0x50b0000, 0x670, Setting_5_11_0),
(0x50a0000, 0x670, Setting_5_10_0),
]
# ----------------------------------------------------------------------
# helper
# ----------------------------------------------------------------------
def GetTemplateSizes():
"""
Get all possible template sizes as list
@param version:
<int> version number from read binary data to search for
@return:
template sizes as list []
"""
sizes = []
for cfg in Settings:
sizes.append(cfg[1])
# return unique sizes only (remove duplicates)
return list(set(sizes))
def GetTemplateSetting(decode_cfg):
"""
Search for version, template, size and settings to be used depending on given binary config data
@param decode_cfg:
binary config data (decrypted)
@return:
version, template, size, settings to use; None if version is invalid
"""
version = 0x0
template = size = setting = None
try:
version = GetField(decode_cfg, 'version', Setting_6_2_1['version'], raw=True)
# search setting definition
template = None
setting = None
size = None
for cfg in Settings:
if version >= cfg[0]:
template = cfg
size = template[1]
setting = template[2]
break
except:
pass
return version, template, size, setting
class LogType:
INFO = 'INFO'
WARNING = 'WARNING'
ERROR = 'ERROR'
def message(msg, typ=None, status=None, line=None):
"""
Writes a message to stdout
@param msg:
message to output
@param typ:
INFO, WARNING or ERROR
@param status:
status number
"""
print >> sys.stderr, '{styp}{sdelimiter}{sstatus}{slineno}{scolon}{smgs}'.format(\
styp=typ if typ is not None else '',
sdelimiter=' ' if status is not None and status>0 and typ is not None else '',
sstatus=status if status is not None and status>0 else '',
scolon=': ' if typ is not None or line is not None else '',
smgs=msg,
slineno=' (@{:04d})'.format(line) if line is not None else '')
def exit(status=0, msg="end", typ=LogType.ERROR, src=None, doexit=True, line=None):
"""
Called when the program should be exit
@param status:
the exit status program returns to callert
@param msg:
the msg logged before exit
@param typ:
msg type: 'INFO', 'WARNING' or 'ERROR'
@param doexit:
True to exit program, otherwise return
"""
if src is not None:
msg = '{} ({})'.format(src, msg)
message(msg, typ=typ if status!=ExitCode.OK else LogType.INFO, status=status, line=line)
exitcode = status
if doexit:
sys.exit(exitcode)
def ShortHelp(doexit=True):
"""
Show short help (usage) only - ued by own -h handling
@param doexit:
sys.exit with OK if True
"""
print parser.description
print
parser.print_usage()
print
print "For advanced help use '{prog} -H' or '{prog} --full-help'".format(prog=os.path.basename(sys.argv[0]))
if doexit:
sys.exit(ExitCode.OK)
class HTTPHeader:
"""
pycurl helper class retrieving the request header
"""
def __init__(self):
self.contents = ''
def clear(self):
self.contents = ''
def store(self, _buffer):
self.contents = "{}{}".format(self.contents, _buffer)
def response(self):
header = str(self.contents).split('\n')
if len(header)>0:
return header[0].rstrip()
return ''
def contenttype(self):
for item in str(self.contents).split('\n'):
ditem = item.split(":")
if ditem[0].strip().lower()=='content-type' and len(ditem)>1:
return ditem[1].strip()
return ''
def __str__(self):
return self.contents
class CustomHelpFormatter(configargparse.HelpFormatter):
"""
Class for customizing the help output
"""
def _format_action_invocation(self, action):
"""
Reformat multiple metavar output
-d <host>, --device <host>, --host <host>
to single output
-d, --device, --host <host>
"""
orgstr = configargparse.HelpFormatter._format_action_invocation(self, action)
if orgstr and orgstr[0] != '-': # only optional arguments
return orgstr
res = getattr(action, '_formatted_action_invocation', None)
if res:
return res
options = orgstr.split(', ')
if len(options) <=1:
action._formatted_action_invocation = orgstr
return orgstr
return_list = []
for option in options:
meta = ""
arg = option.split(' ')
if len(arg)>1:
meta = arg[1]
return_list.append(arg[0])
if len(meta) >0 and len(return_list) >0:
return_list[len(return_list)-1] += " "+meta
action._formatted_action_invocation = ', '.join(return_list)
return action._formatted_action_invocation
# ----------------------------------------------------------------------
# Tasmota config data handling
# ----------------------------------------------------------------------
class FileType:
FILE_NOT_FOUND = None
DMP = 'dmp'
JSON = 'json'
BIN = 'bin'
UNKNOWN = 'unknown'
INCOMPLETE_JSON = 'incomplete json'
INVALID_JSON = 'invalid json'
INVALID_BIN = 'invalid bin'
def GetFileType(filename):
"""
Get the FileType class member of a given filename
@param filename:
filename of the file to analyse
@return:
FileType class member
"""
filetype = FileType.UNKNOWN
# try filename
try:
isfile = os.path.isfile(filename)
try:
f = open(filename, "r")
try:
# try reading as json
inputjson = json.load(f)
if 'header' in inputjson:
filetype = FileType.JSON
else:
filetype = FileType.INCOMPLETE_JSON
except ValueError:
filetype = FileType.INVALID_JSON
# not a valid json, get filesize and compare it with all possible sizes
try:
size = os.path.getsize(filename)
except:
filetype = FileType.UNKNOWN
sizes = GetTemplateSizes()
# size is one of a dmp file size
if size in sizes:
filetype = FileType.DMP
elif (size - ((len(hex(BINARYFILE_MAGIC))-2)/2)) in sizes:
# check if the binary file has the magic header
try:
inputfile = open(filename, "rb")
inputbin = inputfile.read()
inputfile.close()
if struct.unpack_from('<L', inputbin, 0)[0] == BINARYFILE_MAGIC:
filetype = FileType.BIN
else:
filetype = FileType.INVALID_BIN
except:
pass
# ~ else:
# ~ filetype = FileType.UNKNOWN
finally:
f.close()
except:
filetype = FileType.FILE_NOT_FOUND
except:
filetype = FileType.FILE_NOT_FOUND
return filetype
def GetVersionStr(version):
"""
Create human readable version string
@param version:
version integer
@return:
version string
"""
major = ((version>>24) & 0xff)
minor = ((version>>16) & 0xff)
release = ((version>> 8) & 0xff)
subrelease = (version & 0xff)
if major>=6:
if subrelease>0:
subreleasestr = str(subrelease)
else:
subreleasestr = ''
else:
if subrelease>0:
subreleasestr = str(chr(subrelease+ord('a')-1))
else:
subreleasestr = ''
return "{:d}.{:d}.{:d}{}{}".format( major, minor, release, '.' if (major>=6 and subreleasestr!='') else '', subreleasestr)
def MakeValidFilename(filename):
"""
Make a valid filename
@param filename:
filename src
@return:
valid filename removed invalid chars and replace space with _
"""
try:
filename = filename.decode('unicode-escape').translate(dict((ord(char), None) for char in '\/*?:"<>|'))
except:
pass
return str(filename.replace(' ','_'))
def MakeFilename(filename, filetype, decode_cfg):
"""
Replace variable within a filename
@param filename:
original filename possible containing replacements:
@v:
Tasmota version
@f:
friendlyname
@h:
hostname
@param filetype:
FileType.x object - creates extension if not None
@param decode_cfg:
binary config data (decrypted)
@return:
New filename with replacements
"""
v = f1 = f2 = f3 = f4 = ''
if 'version' in decode_cfg:
v = GetVersionStr( int(str(decode_cfg['version']), 0) )
filename = filename.replace('@v', v)
if 'friendlyname' in decode_cfg:
filename = filename.replace('@f', decode_cfg['friendlyname'][0] )
if 'hostname' in decode_cfg:
filename = filename.replace('@h', decode_cfg['hostname'] )
filename = MakeValidFilename(filename)
ext = ''
try:
name, ext = os.path.splitext(filename)
except:
pass
if len(ext) and ext[0]=='.':
ext = ext[1:]
if filetype is not None and args.extension and (len(ext)<2 or all(c.isdigit() for c in ext)):
filename += '.'+filetype.lower()
return filename
def MakeUrl(host, port=80, location=''):
"""
Create a Tasmota host url
@param host:
hostname or IP of Tasmota host
@param port:
port number to use for http connection
@param location:
http url location
@return:
Tasmota http url
"""
return "http://{shost}{sdelimiter}{sport}/{slocation}".format(\
shost=host,
sdelimiter=':' if port != 80 else '',
sport=port if port != 80 else '',
slocation=location )
def PullTasmotaConfig():
"""
Pull config from Tasmota device/file
@return:
binary config data (encrypted) or None on error
"""
if args.device is not None:
# read config direct from device via http
c = pycurl.Curl()
buffer = io.BytesIO()
c.setopt(c.WRITEDATA, buffer)
header = HTTPHeader()
c.setopt(c.HEADERFUNCTION, header.store)
c.setopt(c.FOLLOWLOCATION, True)
c.setopt(c.URL, MakeUrl(args.device, args.port, 'dl'))
if args.username is not None and args.password is not None:
c.setopt(c.HTTPAUTH, c.HTTPAUTH_BASIC)
c.setopt(c.USERPWD, args.username + ':' + args.password)
c.setopt(c.VERBOSE, False)
responsecode = 200
try:
c.perform()
responsecode = c.getinfo(c.RESPONSE_CODE)
response = header.response()
except Exception, e:
exit(e[0], e[1],line=inspect.getlineno(inspect.currentframe()))
finally:
c.close()
if responsecode>=400:
exit(responsecode, 'HTTP result: {}'.format(header.response()),line=inspect.getlineno(inspect.currentframe()))
elif header.contenttype()!='application/octet-stream':
exit(ExitCode.DOWNLOAD_CONFIG_ERROR, "Device did not response properly, may be Tasmota webserver admin mode is disabled (WebServer 2)",line=inspect.getlineno(inspect.currentframe()))
encode_cfg = buffer.getvalue()
elif args.tasmotafile is not None:
# read config from a file
if not os.path.isfile(args.tasmotafile): # check file exists
exit(ExitCode.FILE_NOT_FOUND, "File '{}' not found".format(args.tasmotafile),line=inspect.getlineno(inspect.currentframe()))
try:
tasmotafile = open(args.tasmotafile, "rb")
encode_cfg = tasmotafile.read()
tasmotafile.close()
except Exception, e:
exit(e[0], "'{}' {}".format(args.tasmotafile, e[1]),line=inspect.getlineno(inspect.currentframe()))
else:
return None
return encode_cfg
def PushTasmotaConfig(encode_cfg, host, port, username=DEFAULTS['source']['username'], password=None):
"""
Upload binary data to a Tasmota host using http
@param encode_cfg:
encrypted binary data or filename containing Tasmota encrypted binary config
@param host:
hostname or IP of Tasmota device
@param username:
optional username for Tasmota web login
@param password
optional password for Tasmota web login
@return
errorcode, errorstring
errorcode=0 if success, otherwise http response or exception code
"""
# ~ return 0, 'OK'
if isinstance(encode_cfg, bytearray):
encode_cfg = str(encode_cfg)
c = pycurl.Curl()
buffer = io.BytesIO()
c.setopt(c.WRITEDATA, buffer)
header = HTTPHeader()
c.setopt(c.HEADERFUNCTION, header.store)
c.setopt(c.FOLLOWLOCATION, True)
# get restore config page first to set internal Tasmota vars
c.setopt(c.URL, MakeUrl(host, port, 'rs?'))
if args.username is not None and args.password is not None:
c.setopt(c.HTTPAUTH, c.HTTPAUTH_BASIC)
c.setopt(c.USERPWD, args.username + ':' + args.password)
c.setopt(c.HTTPGET, True)
c.setopt(c.VERBOSE, False)
responsecode = 200
try:
c.perform()
responsecode = c.getinfo(c.RESPONSE_CODE)
except Exception, e:
c.close()
return e[0], e[1]
if responsecode>=400:
c.close()
return responsecode, header.response()
elif header.contenttype()!='text/html':
c.close()
return ExitCode.UPLOAD_CONFIG_ERROR, "Device did not response properly, may be Tasmota webserver admin mode is disabled (WebServer 2)"
# post data
header.clear()
c.setopt(c.HEADERFUNCTION, header.store)
c.setopt(c.POST, 1)
c.setopt(c.URL, MakeUrl(host, port, 'u2'))
try:
isfile = os.path.isfile(encode_cfg)
except:
isfile = False
if isfile:
c.setopt(c.HTTPPOST, [("file", (c.FORM_FILE, encode_cfg))])
else:
# use as binary data
c.setopt(c.HTTPPOST, [
('fileupload', (
c.FORM_BUFFER, '{sprog}_v{sver}.dmp'.format(sprog=os.path.basename(sys.argv[0]), sver=VER),
c.FORM_BUFFERPTR, encode_cfg
)),
])
responsecode = 200
try:
c.perform()
responsecode = c.getinfo(c.RESPONSE_CODE)
except Exception, e:
return e[0], e[1]
c.close()
if responsecode>=400:
return responsecode, header.response()
elif header.contenttype()!='text/html':
return ExitCode.UPLOAD_CONFIG_ERROR, "Device did not response properly, may be Tasmota webserver admin mode is disabled (WebServer 2)"
return 0, 'OK'
def DecryptEncrypt(obj):
"""
Decrpt/Encrypt binary config data
@param obj:
binary config data
@return:
decrypted configuration (if obj contains encrypted data)
encrypted configuration (if obj contains decrypted data)
"""
if isinstance(obj, bytearray):
obj = str(obj)
dobj = obj[0:2]
for i in range(2, len(obj)):
dobj += chr( (ord(obj[i]) ^ (CONFIG_FILE_XOR +i)) & 0xff )
return dobj
def GetSettingsCrc(dobj):
"""
Return binary config data calclulated crc
@param dobj:
decrypted binary config data
@return:
2 byte unsigned integer crc value
"""
if isinstance(dobj, bytearray):
dobj = str(dobj)
crc = 0
for i in range(0, len(dobj)):
if not i in [14,15]: # Skip crc
byte = ord(dobj[i])
crc += byte * (i+1)
return crc & 0xffff
def GetFieldDef(fielddef):
"""
Get the field def items
@param fielddef:
field format - see "Settings dictionary" above
@return:
<format>, <baseaddr>, <bits>, <bitshift>, <datadef>, <convert>
undefined items can be None
"""
_format = baseaddr = datadef = convert = None
bits = bitshift = 0
if len(fielddef)==3:
# def without convert tuple
_format, baseaddr, datadef = fielddef
elif len(fielddef)==4:
# def with convert tuple
_format, baseaddr, datadef, convert = fielddef
if isinstance(baseaddr, (list,tuple)):
baseaddr, bits, bitshift = baseaddr
if isinstance(datadef, int):
# convert single int into list with one item
datadef = [datadef]
return _format, baseaddr, bits, bitshift, datadef, convert
def MakeFieldBaseAddr(baseaddr, bits, bitshift):
"""
Return a <baseaddr> based on given arguments
@param baseaddr:
baseaddr from Settings definition
@param bits:
0 or bits
@param bitshift:
0 or bitshift
@return:
(<baseaddr>,<bits>,<bitshift>) if bits != 0
baseaddr if bits == 0
"""
if bits!=0:
return (baseaddr, bits, bitshift)
return baseaddr
def ConvertFieldValue(value, fielddef, read=True, raw=False):
"""
Convert field value based on field desc
@param value:
original value
@param fielddef
field definition - see "Settings dictionary" above
@param read
use read conversion if True, otherwise use write conversion
@param raw
return raw values (True) or converted values (False)
@return:
(un)converted value
"""
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
# call password functions even if raw value should be processed
if callable(convert) and (convert==passwordread or convert==passwordwrite):
raw = False
if isinstance(convert, (list,tuple)) and len(convert)>0 and (convert[0]==passwordread or convert[0]==passwordwrite):
raw = False
if isinstance(convert, (list,tuple)) and len(convert)>1 and (convert[1]==passwordread or convert[1]==passwordwrite):
raw = False
if not raw and convert is not None:
if isinstance(convert, (list,tuple)): # extract read conversion if tuple is given
if read:
convert = convert[0]
else:
convert = convert[1]
try:
if isinstance(convert, str): # evaluate strings
return eval(convert.replace('$','value'))
elif callable(convert): # use as format function
return convert(value)
except:
pass
return value
def GetFieldMinMax(fielddef):
"""
Get minimum, maximum of field based on field format definition
@param fielddef:
field format - see "Settings dictionary" above
@return:
min, max
"""
minmax = {'c': (0, 1),
'?': (0, 1),
'b': (~0x7f, 0x7f),
'B': (0, 0xff),
'h': (~0x7fff, 0x7fff),
'H': (0, 0xffff),
'i': (~0x7fffffff, 0x7fffffff),
'I': (0, 0xffffffff),
'l': (~0x7fffffff, 0x7fffffff),
'L': (0, 0xffffffff),
'q': (~0x7fffffffffffffff, 0x7fffffffffffffff),
'Q': (0, 0x7fffffffffffffff),
'f': (sys.float_info.min, sys.float_info.max),
'd': (sys.float_info.min, sys.float_info.max),
}
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
_min = 0
_max = 0
if _format[-1:] in minmax:
_min, _max = minmax[_format[-1:]]
elif _format[-1:] in ['s','p']:
# s and p may have a prefix as length
match = re.search("\s*(\d+)", _format)
if match:
_max=int(match.group(0))
return _min,_max
def GetFieldLength(fielddef):
"""
Get length of a field in bytes based on field format definition
@param fielddef:
field format - see "Settings dictionary" above
@return:
length of field in bytes
"""
length=0
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
if datadef is not None:
# datadef contains a list
# calc size recursive by sum of all elements
if isinstance(datadef, list):
for i in range(0, datadef[0]):
# multidimensional array
if isinstance(datadef, list) and len(datadef)>1:
length += GetFieldLength( (fielddef[0], fielddef[1], fielddef[2][1:]) )
# single array
else:
length += GetFieldLength( (fielddef[0], fielddef[1], None) )
else:
if isinstance(_format, dict):
# -> iterate through _format
addr = None
setting = _format
for name in setting:
_dummy1, baseaddr, bits, bitshift, _dummy2, _dummy3 = GetFieldDef(setting[name])
_len = GetFieldLength(setting[name])
if addr != baseaddr:
addr = baseaddr
length += _len
else:
if _format[-1:] in ['b','B','c','?']:
length=1
elif _format[-1:] in ['h','H']:
length=2
elif _format[-1:] in ['i','I','l','L','f']:
length=4
elif _format[-1:] in ['q','Q','d']:
length=8
elif _format[-1:] in ['s','p']:
# s and p may have a prefix as length
match = re.search("\s*(\d+)", _format)
if match:
length=int(match.group(0))
return length
def GetSubfieldDef(fielddef):
"""
Get subfield definition from a given field definition
@param fielddef:
see Settings desc above
@return:
subfield definition
"""
subfielddef = None
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
if isinstance(datadef, list) and len(datadef)>1:
if len(fielddef)<4:
subfielddef = (_format, MakeFieldBaseAddr(baseaddr, bits, bitshift), datadef[1:])
else:
subfielddef = (_format, MakeFieldBaseAddr(baseaddr, bits, bitshift), datadef[1:], convert)
# single array
else:
if len(fielddef)<4:
subfielddef = (_format, MakeFieldBaseAddr(baseaddr, bits, bitshift), None)
else:
subfielddef = (_format, MakeFieldBaseAddr(baseaddr, bits, bitshift), None, convert)
return subfielddef
def GetField(dobj, fieldname, fielddef, raw=False, addroffset=0):
"""
Get field value from definition
@param dobj:
decrypted binary config data
@param fieldname:
name of the field
@param fielddef:
see Settings desc above
@param raw
return raw values (True) or converted values (False)
@param addroffset
use offset for baseaddr (used for recursive calls)
@return:
read field value
"""
if isinstance(dobj, bytearray):
dobj = str(dobj)
result = None
if fieldname == 'raw' and not args.jsonrawkeys:
return result
# get field definition
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
# <datadef> contains a integer list
if isinstance(datadef, list):
result = []
offset = 0
for i in range(0, datadef[0]):
subfielddef = GetSubfieldDef(fielddef)
length = GetFieldLength(subfielddef)
if length != 0:
result.append(GetField(dobj, fieldname, subfielddef, raw=raw, addroffset=addroffset+offset))
offset += length
# <format> contains a dict
elif isinstance(_format, dict):
config = {}
for name in _format: # -> iterate through _format
if name != 'raw' or args.jsonrawkeys:
config[name] = GetField(dobj, name, _format[name], raw=raw, addroffset=addroffset)
result = config
# a simple value
elif isinstance(_format, (str, bool, int, float, long)):
if GetFieldLength(fielddef) != 0:
result = struct.unpack_from(_format, dobj, baseaddr+addroffset)[0]
if not _format[-1:].lower() in ['s','p']:
if bitshift>=0:
result >>= bitshift
else:
result <<= abs(bitshift)
if bits>0:
result &= (1<<bits)-1
# additional processing for strings
if _format[-1:].lower() in ['s','p']:
# use left string until \0
s = str(result).split('\0')[0]
# remove character > 127
result = unicode(s, errors='ignore')
result = ConvertFieldValue(result, fielddef, read=True, raw=raw)
else:
exit(ExitCode.INTERNAL_ERROR, "Wrong mapping format definition: '{}'".format(_format), typ=LogType.WARNING, doexit=not args.ignorewarning, line=inspect.getlineno(inspect.currentframe()))
return result
def SetField(dobj, fieldname, fielddef, restore, raw=False, addroffset=0, filename=""):
"""
Get field value from definition
@param dobj:
decrypted binary config data
@param fieldname:
name of the field
@param fielddef:
see Settings desc above
@param raw
handle values as raw values (True) or converted (False)
@param addroffset
use offset for baseaddr (used for recursive calls)
@param restore
restore mapping with the new value(s)
"""
_format, baseaddr, bits, bitshift, datadef, convert = GetFieldDef(fielddef)
fieldname = str(fieldname)
if fieldname == 'raw' and not args.jsonrawkeys:
return dobj
# do not write readonly values
if isinstance(convert, (list,tuple)) and len(convert)>1 and convert[1]==None:
if args.debug:
print >> sys.stderr, "SetField(): Readonly '{}' using '{}'/{}{} @{} skipped".format(fieldname, _format, datadef, bits, hex(baseaddr+addroffset))
return dobj
# <datadef> contains a list
if isinstance(datadef, list):
offset = 0
if len(restore)>datadef[0]:
exit(ExitCode.RESTORE_DATA_ERROR, "file '{sfile}', array '{sname}[{selem}]' exceeds max number of elements [{smax}]".format(sfile=filename, sname=fieldname, selem=len(restore), smax=datadef[0]), typ=LogType.WARNING, doexit=not args.ignorewarning, line=inspect.getlineno(inspect.currentframe()))
for i in range(0, datadef[0]):
subfielddef = GetSubfieldDef(fielddef)
length = GetFieldLength(subfielddef)
if length != 0:
if i>=len(restore): # restore data list may be shorter than definition
break
try:
subrestore = restore[i]
dobj = SetField(dobj, fieldname, subfielddef, subrestore, raw=raw, addroffset=addroffset+offset, filename=filename)
except:
pass
offset += length
# <format> contains a dict
elif isinstance(_format, dict):
for name in _format: # -> iterate through _format
if name in restore:
dobj = SetField(dobj, name, _format[name], restore[name], raw=raw, addroffset=addroffset, filename=filename)
# a simple value
elif isinstance(_format, (str, bool, int, float, long)):
valid = True
err = "outside range"
_min, _max = GetFieldMinMax(fielddef)
value = _value = valid = None
# simple one value
if _format[-1:] in ['c']:
try:
value = ConvertFieldValue(restore.encode(STR_ENCODING)[0], fielddef, read=False, raw=raw)
except:
valid = False
# bool
elif _format[-1:] in ['?']:
try:
value = ConvertFieldValue(bool(restore), fielddef, read=False, raw=raw)
except:
valid = False
# integer
elif _format[-1:] in ['b','B','h','H','i','I','l','L','q','Q','P']:
try:
value = ConvertFieldValue(restore, fielddef, read=False, raw=raw)
if isinstance(value, (str, unicode)):
value = int(value, 0)
else:
value = int(value)
# bits
if bits!=0:
value = struct.unpack_from(_format, dobj, baseaddr+addroffset)[0]
bitvalue = int(restore)
mask = (1<<bits)-1
if bitvalue>mask:
_min = 0
_max = mask
_value = bitvalue
valid = False
else:
if bitshift>=0:
bitvalue <<= bitshift
mask <<= bitshift
else:
bitvalue >>= abs(bitshift)
mask >>= abs(bitshift)
value &= (0xffffffff ^ mask)
value |= bitvalue
else:
_value = value
except:
valid = False
# float
elif _format[-1:] in ['f','d']:
try:
value = ConvertFieldValue(float(restore), fielddef, read=False, raw=raw)
except:
valid = False
# string
elif _format[-1:] in ['s','p']:
try:
value = ConvertFieldValue(restore.encode(STR_ENCODING), fielddef, read=False, raw=raw)
# be aware 0 byte at end of string (str must be < max, not <= max)
_max -= 1
valid = (len(value)>=_min) and (len(value)<=_max)
err = "string exceeds max length"
except:
valid = False
if value is None:
valid = False
if valid is None:
valid = (value>=_min) and (value<=_max)
if _value is None:
_value = value
if isinstance(value, (str, unicode)):
_value = "'{}'".format(_value)
if valid:
if args.debug:
if bits:
sbits=" {} bits shift {}".format(bits, bitshift)
else:
sbits = ""
print >> sys.stderr, "SetField(): Set '{}' using '{}'/{}{} @{} to {}".format(fieldname, _format, datadef, sbits, hex(baseaddr+addroffset), _value)
struct.pack_into(_format, dobj, baseaddr+addroffset, value)
else:
exit(ExitCode.RESTORE_DATA_ERROR, "file '{sfile}', value for name '{sname}': {svalue} {serror} [{smin},{smax}]".format(sfile=filename, sname=fieldname, serror=err, svalue=_value, smin=_min, smax=_max), typ=LogType.WARNING, doexit=not args.ignorewarning)
return dobj
def Bin2Mapping(decode_cfg, raw=True):
"""
Decodes binary data stream into pyhton mappings dict
@param decode_cfg:
binary config data (decrypted)
@param raw:
decode raw values (True) or converted values (False)
@return:
config data as mapping dictionary
"""
if isinstance(decode_cfg, bytearray):
decode_cfg = str(decode_cfg)
# get binary header and template to use
version, template, size, setting = GetTemplateSetting(decode_cfg)
# if we did not found a mathching setting
if template is None:
exit(ExitCode.UNSUPPORTED_VERSION, "Tasmota configuration version 0x{:x} not supported".format(version),line=inspect.getlineno(inspect.currentframe()))
# check size if exists
if 'cfg_size' in setting:
cfg_size = GetField(decode_cfg, 'cfg_size', setting['cfg_size'], raw=True)
# read size should be same as definied in template
if cfg_size > size:
# may be processed
exit(ExitCode.DATA_SIZE_MISMATCH, "Number of bytes read does ot match - read {}, expected {} byte".format(cfg_size, template[1]), typ=LogType.ERROR,line=inspect.getlineno(inspect.currentframe()))
elif cfg_size < size:
# less number of bytes can not be processed
exit(ExitCode.DATA_SIZE_MISMATCH, "Number of bytes read to small to process - read {}, expected {} byte".format(cfg_size, template[1]), typ=LogType.ERROR,line=inspect.getlineno(inspect.currentframe()))
# check crc if exists
if 'cfg_crc' in setting:
cfg_crc = GetField(decode_cfg, 'cfg_crc', setting['cfg_crc'], raw=True)
else:
cfg_crc = GetSettingsCrc(decode_cfg)
if cfg_crc != GetSettingsCrc(decode_cfg):
exit(ExitCode.DATA_CRC_ERROR, 'Data CRC error, read 0x{:x} should be 0x{:x}'.format(cfg_crc, GetSettingsCrc(decode_cfg)), typ=LogType.WARNING, doexit=not args.ignorewarning,line=inspect.getlineno(inspect.currentframe()))
# get config
config = GetField(decode_cfg, None, (setting,None,None), raw=raw)
# add header info
timestamp = datetime.now()
config['header'] = {'timestamp':timestamp.strftime("%Y-%m-%d %H:%M:%S"),
'format': {
'jsonindent': args.jsonindent,
'jsoncompact': args.jsoncompact,
'jsonsort': args.jsonsort,
'jsonrawvalues':args.jsonrawvalues,
'jsonrawkeys': args.jsonrawkeys,
'jsonhidepw': args.jsonhidepw,
},
'src': {
'crc': hex(cfg_crc),
'size': cfg_size,
'version': hex(version),
},
'data': {
'crc': hex(GetSettingsCrc(decode_cfg)),
'size': len(decode_cfg),
'version': hex(template[0]),
},
'script': {
'name': os.path.basename(__file__),
'version': VER,
},
'os': (platform.machine(), platform.system(), platform.release(), platform.version(), platform.platform()),
'python': platform.python_version(),
}
return config
def Mapping2Bin(decode_cfg, jsonconfig, filename=""):
"""
Encodes into binary data stream
@param decode_cfg:
binary config data (decrypted)
@param jsonconfig:
restore data mapping
@param filename:
name of the restore file (for error output only)
@return:
changed binary config data (decrypted)
"""
if isinstance(decode_cfg, str):
decode_cfg = bytearray(decode_cfg)
# get binary header data to use the correct version template from device
version, template, size, setting = GetTemplateSetting(decode_cfg)
_buffer = bytearray()
_buffer.extend(decode_cfg)
if template is not None:
try:
raw = jsonconfig['header']['format']['jsonrawvalues']
except:
if 'header' not in jsonconfig:
errkey = 'header'
elif 'format' not in jsonconfig['header']:
errkey = 'header.format'
elif 'jsonrawvalues' not in jsonconfig['header']['format']:
errkey = 'header.format.jsonrawvalues'
exit(ExitCode.RESTORE_DATA_ERROR, "Restore file '{sfile}' name '{skey}' missing, don't know how to evaluate restore data!".format(sfile=filename, skey=errkey), typ=LogType.ERROR, doexit=not args.ignorewarning)
# iterate through restore data mapping
for name in jsonconfig:
# key must exist in both dict
if name in setting:
SetField(_buffer, name, setting[name], jsonconfig[name], raw=raw, addroffset=0, filename=filename)
else:
if name != 'header':
exit(ExitCode.RESTORE_DATA_ERROR, "Restore file '{}' contains obsolete name '{}', skipped".format(filename, name), typ=LogType.WARNING, doexit=not args.ignorewarning)
crc = GetSettingsCrc(_buffer)
struct.pack_into(setting['cfg_crc'][0], _buffer, setting['cfg_crc'][1], crc)
return _buffer
else:
exit(ExitCode.UNSUPPORTED_VERSION,"File '{}', Tasmota configuration version 0x{:x} not supported".format(filename, version), typ=LogType.WARNING, doexit=not args.ignorewarning)
return decode_cfg
def Backup(backupfile, backupfileformat, encode_cfg, decode_cfg, configuration):
"""
Create backup file
@param backupfile:
Raw backup filename from program args
@param backupfileformat:
Backup file format
@param encode_cfg:
binary config data (encrypted)
@param decode_cfg:
binary config data (decrypted)
@param configuration:
config data mapppings
"""
backupfileformat = args.backupfileformat
try:
name, ext = os.path.splitext(backupfile)
if ext.lower() == '.'+FileType.BIN.lower():
backupfileformat = FileType.BIN
elif ext.lower() == '.'+FileType.DMP.lower():
backupfileformat = FileType.DMP
elif ext.lower() == '.'+FileType.JSON.lower():
backupfileformat = FileType.JSON
except:
pass
fileformat = ""
# binary format
if backupfileformat.lower() == FileType.BIN.lower():
fileformat = "binary"
backup_filename = MakeFilename(backupfile, FileType.BIN, configuration)
try:
backupfp = open(backup_filename, "wb")
magic = BINARYFILE_MAGIC
backupfp.write(struct.pack('<L',magic))
backupfp.write(decode_cfg)
except Exception, e:
exit(e[0], "'{}' {}".format(backup_filename, e[1]),line=inspect.getlineno(inspect.currentframe()))
finally:
backupfp.close()
# Tasmota format
if backupfileformat.lower() == FileType.DMP.lower():
fileformat = "Tasmota"
backup_filename = MakeFilename(backupfile, FileType.DMP, configuration)
try:
backupfp = open(backup_filename, "wb")
backupfp.write(encode_cfg)
except Exception, e:
exit(e[0], "'{}' {}".format(backup_filename, e[1]),line=inspect.getlineno(inspect.currentframe()))
finally:
backupfp.close()
# JSON format
elif backupfileformat.lower() == FileType.JSON.lower():
fileformat = "JSON"
backup_filename = MakeFilename(backupfile, FileType.JSON, configuration)
try:
backupfp = open(backup_filename, "w")
json.dump(configuration, backupfp, sort_keys=args.jsonsort, indent=None if args.jsonindent<0 else args.jsonindent, separators=(',', ':') if args.jsoncompact else (', ', ': ') )
except Exception, e:
exit(e[0], "'{}' {}".format(backup_filename, e[1]),line=inspect.getlineno(inspect.currentframe()))
finally:
backupfp.close()
if args.verbose:
srctype = 'device'
src = args.device
if args.tasmotafile is not None:
srctype = 'file'
src = args.tasmotafile
message("Backup successful from {} '{}' using {} format to file '{}' ".format(srctype, src, fileformat, backup_filename), typ=LogType.INFO)
def Restore(restorefile, encode_cfg, decode_cfg, configuration):
"""
Restore from file
@param encode_cfg:
binary config data (encrypted)
@param decode_cfg:
binary config data (decrypted)
@param configuration:
config data mapppings
"""
new_encode_cfg = None
restorefilename = MakeFilename(restorefile, None, configuration)
filetype = GetFileType(restorefilename)
if filetype == FileType.DMP:
try:
restorefp = open(restorefilename, "rb")
new_encode_cfg = restorefp.read()
restorefp.close()
except Exception, e:
exit(e[0], "'{}' {}".format(restorefilename, e[1]),line=inspect.getlineno(inspect.currentframe()))
elif filetype == FileType.BIN:
try:
restorefp = open(restorefilename, "rb")
restorebin = restorefp.read()
restorefp.close()
except Exception, e:
exit(e[0], "'{}' {}".format(restorefilename, e[1]),line=inspect.getlineno(inspect.currentframe()))
header = struct.unpack_from('<L', restorebin, 0)[0]
if header == BINARYFILE_MAGIC:
decode_cfg = restorebin[4:] # remove header from encrypted config file
new_encode_cfg = DecryptEncrypt(decode_cfg) # process binary to binary config
elif filetype == FileType.JSON or filetype == FileType.INVALID_JSON:
try:
restorefp = open(restorefilename, "r")
jsonconfig = json.load(restorefp)
except ValueError as e:
exit(ExitCode.JSON_READ_ERROR, "File '{}' invalid JSON: {}".format(restorefilename, e), line=inspect.getlineno(inspect.currentframe()))
finally:
restorefp.close()
# process json config to binary config
new_decode_cfg = Mapping2Bin(decode_cfg, jsonconfig, restorefilename)
new_encode_cfg = DecryptEncrypt(new_decode_cfg)
elif filetype == FileType.FILE_NOT_FOUND:
exit(ExitCode.FILE_NOT_FOUND, "File '{}' not found".format(restorefilename),line=inspect.getlineno(inspect.currentframe()))
elif filetype == FileType.INCOMPLETE_JSON:
exit(ExitCode.JSON_READ_ERROR, "File '{}' incomplete JSON, missing name 'header'".format(restorefilename),line=inspect.getlineno(inspect.currentframe()))
elif filetype == FileType.INVALID_BIN:
exit(ExitCode.FILE_READ_ERROR, "File '{}' invalid BIN format".format(restorefilename),line=inspect.getlineno(inspect.currentframe()))
else:
exit(ExitCode.FILE_READ_ERROR, "File '{}' unknown error".format(restorefilename),line=inspect.getlineno(inspect.currentframe()))
if new_encode_cfg is not None:
if new_encode_cfg != encode_cfg or args.ignorewarning:
# write config direct to device via http
if args.device is not None:
error_code, error_str = PushTasmotaConfig(new_encode_cfg, args.device, args.port, args.username, args.password)
if error_code:
exit(ExitCode.UPLOAD_CONFIG_ERROR, "Config data upload failed - {}".format(error_str),line=inspect.getlineno(inspect.currentframe()))
else:
if args.verbose:
message("Restore successful to device '{}' using restore file '{}'".format(args.device, restorefilename), typ=LogType.INFO)
# write config from a file
elif args.tasmotafile is not None:
try:
outputfile = open(args.tasmotafile, "wb")
outputfile.write(new_encode_cfg)
except Exception, e:
exit(e[0], "'{}' {}".format(args.tasmotafile, e[1]),line=inspect.getlineno(inspect.currentframe()))
finally:
outputfile.close()
if args.verbose:
message("Restore successful to file '{}' using restore file '{}'".format(args.tasmotafile, restorefilename), typ=LogType.INFO)
else:
global exitcode
exitcode = ExitCode.RESTORE_SKIPPED
if args.verbose:
exit(exitcode, "Configuration data unchanged, upload skipped", typ=LogType.WARNING)
def ParseArgs():
"""
Program argument parser
@return:
configargparse.parse_args() result
"""
global parser
parser = configargparse.ArgumentParser(description='Backup/Restore Sonoff-Tasmota configuration data.',
epilog='Either argument -d <host> or -f <filename> must be given.',
add_help=False,
formatter_class=lambda prog: CustomHelpFormatter(prog))
source = parser.add_argument_group('Source', 'Read/Write Tasmota configuration from/to')
source.add_argument('-f', '--file', '--tasmota-file',
metavar='<filename>',
dest='tasmotafile',
default=DEFAULTS['source']['tasmotafile'],
help="file to retrieve/write Tasmota configuration from/to (default: {})'".format(DEFAULTS['source']['tasmotafile']))
source.add_argument('-d', '--device', '--host',
metavar='<host>',
dest='device',
default=DEFAULTS['source']['device'],
help="hostname or IP address to retrieve/send Tasmota configuration from/to (default: {})".format(DEFAULTS['source']['device']) )
source.add_argument('-P', '--port',
metavar='<port>',
dest='port',
default=DEFAULTS['source']['port'],
help="TCP/IP port number to use for the host connection (default: {})".format(DEFAULTS['source']['port']) )
source.add_argument('-u', '--username',
metavar='<username>',
dest='username',
default=DEFAULTS['source']['username'],
help="host HTTP access username (default: {})".format(DEFAULTS['source']['username']))
source.add_argument('-p', '--password',
metavar='<password>',
dest='password',
default=DEFAULTS['source']['password'],
help="host HTTP access password (default: {})".format(DEFAULTS['source']['password']))
backup = parser.add_argument_group('Backup/Restore', 'Backup/Restore configuration file specification')
backup.add_argument('-i', '--restore-file',
metavar='<filename>',
dest='restorefile',
default=DEFAULTS['backup']['backupfile'],
help="file to restore configuration from (default: {}). Replacements: @v=firmware version, @f=device friendly name, @h=device hostname".format(DEFAULTS['backup']['restorefile']))
backup.add_argument('-o', '--backup-file',
metavar='<filename>',
dest='backupfile',
default=DEFAULTS['backup']['backupfile'],
help="file to backup configuration to (default: {}). Replacements: @v=firmware version, @f=device friendly name, @h=device hostname".format(DEFAULTS['backup']['backupfile']))
output_file_formats = ['json', 'bin', 'dmp']
backup.add_argument('-F', '--backup-type',
metavar='|'.join(output_file_formats),
dest='backupfileformat',
choices=output_file_formats,
default=DEFAULTS['backup']['backupfileformat'],
help="backup filetype (default: '{}')".format(DEFAULTS['backup']['backupfileformat']) )
backup.add_argument('-E', '--extension',
dest='extension',
action='store_true',
default=DEFAULTS['backup']['extension'],
help="append filetype extension for -i and -o filename{}".format(' (default)' if DEFAULTS['backup']['extension'] else '') )
backup.add_argument('-e', '--no-extension',
dest='extension',
action='store_false',
default=DEFAULTS['backup']['extension'],
help="do not append filetype extension, use -i and -o filename as passed{}".format(' (default)' if not DEFAULTS['backup']['extension'] else '') )
jsonformat = parser.add_argument_group('JSON', 'JSON backup format specification')
jsonformat.add_argument('--json-indent',
metavar='<indent>',
dest='jsonindent',
type=int,
default=DEFAULTS['jsonformat']['jsonindent'],
help="pretty-printed JSON output using indent level (default: '{}'). -1 disables indent.".format(DEFAULTS['jsonformat']['jsonindent']) )
jsonformat.add_argument('--json-compact',
dest='jsoncompact',
action='store_true',
default=DEFAULTS['jsonformat']['jsoncompact'],
help="compact JSON output by eliminate whitespace{}".format(' (default)' if DEFAULTS['jsonformat']['jsoncompact'] else '') )
jsonformat.add_argument('--json-sort',
dest='jsonsort',
action='store_true',
default=DEFAULTS['jsonformat']['jsonsort'],
help=configargparse.SUPPRESS) #"sort json keywords{}".format(' (default)' if DEFAULTS['jsonformat']['jsonsort'] else '') )
jsonformat.add_argument('--json-unsort',
dest='jsonsort',
action='store_false',
default=DEFAULTS['jsonformat']['jsonsort'],
help=configargparse.SUPPRESS) #"do not sort json keywords{}".format(' (default)' if not DEFAULTS['jsonformat']['jsonsort'] else '') )
jsonformat.add_argument('--json-raw-values',
dest='jsonrawvalues',
action='store_true',
default=DEFAULTS['jsonformat']['jsonrawvalues'],
help=configargparse.SUPPRESS) #"output raw values{}".format(' (default)' if DEFAULTS['jsonformat']['jsonrawvalues'] else '') )
jsonformat.add_argument('--json-convert-values',
dest='jsonrawvalues',
action='store_false',
default=DEFAULTS['jsonformat']['jsonrawvalues'],
help=configargparse.SUPPRESS) #"output converted, human readable values{}".format(' (default)' if not DEFAULTS['jsonformat']['jsonrawvalues'] else '') )
jsonformat.add_argument('--json-raw-keys',
dest='jsonrawkeys',
action='store_true',
default=DEFAULTS['jsonformat']['jsonrawkeys'],
help=configargparse.SUPPRESS) #"output bitfield raw keys{}".format(' (default)' if DEFAULTS['jsonformat']['jsonrawkeys'] else '') )
jsonformat.add_argument('--json-no-raw-keys',
dest='jsonrawkeys',
action='store_false',
default=DEFAULTS['jsonformat']['jsonrawkeys'],
help=configargparse.SUPPRESS) #"do not output bitfield raw keys{}".format(' (default)' if not DEFAULTS['jsonformat']['jsonrawkeys'] else '') )
jsonformat.add_argument('--json-hide-pw',
dest='jsonhidepw',
action='store_true',
default=DEFAULTS['jsonformat']['jsonhidepw'],
help="hide passwords{}".format(' (default)' if DEFAULTS['jsonformat']['jsonhidepw'] else '') )
jsonformat.add_argument('--json-unhide-pw',
dest='jsonhidepw',
action='store_false',
default=DEFAULTS['jsonformat']['jsonhidepw'],
help="unhide passwords{}".format(' (default)' if not DEFAULTS['jsonformat']['jsonhidepw'] else '') )
info = parser.add_argument_group('Info','additional information')
info.add_argument('-D', '--debug',
dest='debug',
action='store_true',
help=configargparse.SUPPRESS)
info.add_argument('-h', '--help',
dest='shorthelp',
action='store_true',
help='show usage help message and exit')
info.add_argument("-H", "--full-help",
action="help",
help="show full help message and exit")
info.add_argument('-v', '--verbose',
dest='verbose',
action='store_true',
help='produce more output about what the program does')
info.add_argument('-V', '--version',
action='version',
version=PROG)
# optional arguments
parser.add_argument('-c', '--config',
metavar='<filename>',
dest='configfile',
default=DEFAULTS['DEFAULT']['configfile'],
is_config_file=True,
help="program config file - can be used to set default command args (default: {})".format(DEFAULTS['DEFAULT']['configfile']) )
parser.add_argument('--ignore-warnings',
dest='ignorewarning',
action='store_true',
default=DEFAULTS['DEFAULT']['ignorewarning'],
help="do not exit on warnings{}. Not recommended, used by your own responsibility!".format(' (default)' if DEFAULTS['DEFAULT']['ignorewarning'] else '') )
args = parser.parse_args()
if args.debug:
print >> sys.stderr, parser.format_values()
print >> sys.stderr, "Settings:"
for k in args.__dict__:
print >> sys.stderr, " "+str(k), "= ",eval('args.{}'.format(k))
return args
if __name__ == "__main__":
args = ParseArgs()
if args.shorthelp:
ShortHelp()
# default no configuration available
encode_cfg = None
# check source args
if args.device is not None and args.tasmotafile is not None:
exit(ExitCode.ARGUMENT_ERROR, "Unable to select source, do not use -d and -f together",line=inspect.getlineno(inspect.currentframe()))
# pull config from Tasmota device/file
encode_cfg = PullTasmotaConfig()
if encode_cfg is None:
# no config source given
ShortHelp(False)
print
print parser.epilog
sys.exit(ExitCode.OK)
if len(encode_cfg) == 0:
exit(ExitCode.FILE_READ_ERROR, "Unable to read configuration data from {} '{}'".format('device' if args.device is not None else 'file', \
args.device if args.device is not None else args.tasmotafile) \
,line=inspect.getlineno(inspect.currentframe()) )
# decrypt Tasmota config
decode_cfg = DecryptEncrypt(encode_cfg)
# decode into mappings dictionary
configuration = Bin2Mapping(decode_cfg, args.jsonrawvalues)
# backup to file
if args.backupfile is not None:
Backup(args.backupfile, args.backupfileformat, encode_cfg, decode_cfg, configuration)
# restore from file
if args.restorefile is not None:
Restore(args.restorefile, encode_cfg, decode_cfg, configuration)
# json screen output
if args.backupfile is None and args.restorefile is None:
print json.dumps(configuration, sort_keys=args.jsonsort, indent=None if args.jsonindent<0 else args.jsonindent, separators=(',', ':') if args.jsoncompact else (', ', ': ') )
sys.exit(exitcode)