esp-idf/tools/esp_prov/esp_prov.py

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#!/usr/bin/env python
#
# SPDX-FileCopyrightText: 2018-2022 Espressif Systems (Shanghai) CO LTD
# SPDX-License-Identifier: Apache-2.0
#
import argparse
import asyncio
import json
import os
import sys
import textwrap
import time
from getpass import getpass
try:
import prov
import security
import transport
except ImportError:
idf_path = os.environ['IDF_PATH']
sys.path.insert(0, idf_path + '/components/protocomm/python')
sys.path.insert(1, idf_path + '/tools/esp_prov')
import prov
import security
import transport
# Set this to true to allow exceptions to be thrown
config_throw_except = False
def on_except(err):
if config_throw_except:
raise RuntimeError(err)
else:
print(err)
def get_security(secver, username, password, pop='', verbose=False):
if secver == 2:
return security.Security2(username, password, verbose)
elif secver == 1:
return security.Security1(pop, verbose)
elif secver == 0:
return security.Security0(verbose)
return None
async def get_transport(sel_transport, service_name):
try:
tp = None
if (sel_transport in ['softap', 'httpd']):
if service_name is None:
service_name = '192.168.4.1:80'
tp = transport.Transport_HTTP(service_name)
elif (sel_transport == 'ble'):
# BLE client is now capable of automatically figuring out
# the primary service from the advertisement data and the
# characteristics corresponding to each endpoint.
# Below, the service_uuid field and 16bit UUIDs in the nu_lookup
# table are provided only to support devices running older firmware,
# in which case, the automated discovery will fail and the client
# will fallback to using the provided UUIDs instead
nu_lookup = {'prov-session': 'ff51', 'prov-config': 'ff52', 'proto-ver': 'ff53'}
tp = transport.Transport_BLE(service_uuid='021a9004-0382-4aea-bff4-6b3f1c5adfb4',
nu_lookup=nu_lookup)
await tp.connect(devname=service_name)
elif (sel_transport == 'console'):
tp = transport.Transport_Console()
return tp
except RuntimeError as e:
on_except(e)
return None
async def version_match(tp, protover, verbose=False):
try:
response = await tp.send_data('proto-ver', protover)
if verbose:
print('proto-ver response : ', response)
# First assume this to be a simple version string
if response.lower() == protover.lower():
return True
try:
# Else interpret this as JSON structure containing
# information with versions and capabilities of both
# provisioning service and application
info = json.loads(response)
if info['prov']['ver'].lower() == protover.lower():
return True
except ValueError:
# If decoding as JSON fails, it means that capabilities
# are not supported
return False
except Exception as e:
on_except(e)
return None
async def has_capability(tp, capability='none', verbose=False):
# Note : default value of `capability` argument cannot be empty string
# because protocomm_httpd expects non zero content lengths
try:
response = await tp.send_data('proto-ver', capability)
if verbose:
print('proto-ver response : ', response)
try:
# Interpret this as JSON structure containing
# information with versions and capabilities of both
# provisioning service and application
info = json.loads(response)
supported_capabilities = info['prov']['cap']
if capability.lower() == 'none':
# No specific capability to check, but capabilities
# feature is present so return True
return True
elif capability in supported_capabilities:
return True
return False
except ValueError:
# If decoding as JSON fails, it means that capabilities
# are not supported
return False
except RuntimeError as e:
on_except(e)
return False
async def get_version(tp):
response = None
try:
response = await tp.send_data('proto-ver', '---')
except RuntimeError as e:
on_except(e)
response = ''
return response
async def establish_session(tp, sec):
try:
response = None
while True:
request = sec.security_session(response)
if request is None:
break
response = await tp.send_data('prov-session', request)
if (response is None):
return False
return True
except RuntimeError as e:
on_except(e)
return None
async def custom_config(tp, sec, custom_info, custom_ver):
try:
message = prov.custom_config_request(sec, custom_info, custom_ver)
response = await tp.send_data('custom-config', message)
return (prov.custom_config_response(sec, response) == 0)
except RuntimeError as e:
on_except(e)
return None
async def custom_data(tp, sec, custom_data):
try:
message = prov.custom_data_request(sec, custom_data)
response = await tp.send_data('custom-data', message)
return (prov.custom_data_response(sec, response) == 0)
except RuntimeError as e:
on_except(e)
return None
async def scan_wifi_APs(sel_transport, tp, sec):
APs = []
group_channels = 0
readlen = 100
if sel_transport in ['softap', 'httpd']:
# In case of softAP/httpd we must perform the scan on individual channels, one by one,
# so that the Wi-Fi controller gets ample time to send out beacons (necessary to
# maintain connectivity with authenticated stations. As scanning one channel at a
# time will be slow, we can group more than one channels to be scanned in quick
# succession, hence speeding up the scan process. Though if too many channels are
# present in a group, the controller may again miss out on sending beacons. Hence,
# the application must should use an optimum value. The following value usually
# works out in most cases
group_channels = 5
elif sel_transport == 'ble':
# Read at most 4 entries at a time. This is because if we are using BLE transport
# then the response packet size should not exceed the present limit of 256 bytes of
# characteristic value imposed by protocomm_ble. This limit may be removed in the
# future
readlen = 4
try:
message = prov.scan_start_request(sec, blocking=True, group_channels=group_channels)
start_time = time.time()
response = await tp.send_data('prov-scan', message)
stop_time = time.time()
print('++++ Scan process executed in ' + str(stop_time - start_time) + ' sec')
prov.scan_start_response(sec, response)
message = prov.scan_status_request(sec)
response = await tp.send_data('prov-scan', message)
result = prov.scan_status_response(sec, response)
print('++++ Scan results : ' + str(result['count']))
if result['count'] != 0:
index = 0
remaining = result['count']
while remaining:
count = [remaining, readlen][remaining > readlen]
message = prov.scan_result_request(sec, index, count)
response = await tp.send_data('prov-scan', message)
APs += prov.scan_result_response(sec, response)
remaining -= count
index += count
except RuntimeError as e:
on_except(e)
return None
return APs
async def send_wifi_config(tp, sec, ssid, passphrase):
try:
message = prov.config_set_config_request(sec, ssid, passphrase)
response = await tp.send_data('prov-config', message)
return (prov.config_set_config_response(sec, response) == 0)
except RuntimeError as e:
on_except(e)
return None
async def apply_wifi_config(tp, sec):
try:
message = prov.config_apply_config_request(sec)
response = await tp.send_data('prov-config', message)
return (prov.config_apply_config_response(sec, response) == 0)
except RuntimeError as e:
on_except(e)
return None
async def get_wifi_config(tp, sec):
try:
message = prov.config_get_status_request(sec)
response = await tp.send_data('prov-config', message)
return prov.config_get_status_response(sec, response)
except RuntimeError as e:
on_except(e)
return None
async def wait_wifi_connected(tp, sec):
"""
Wait for provisioning to report Wi-Fi is connected
Returns True if Wi-Fi connection succeeded, False if connection consistently failed
"""
TIME_PER_POLL = 5
retry = 3
while True:
time.sleep(TIME_PER_POLL)
print('\n==== Wi-Fi connection state ====')
ret = await get_wifi_config(tp, sec)
if ret == 'connecting':
continue
elif ret == 'connected':
print('==== Provisioning was successful ====')
return True
elif retry > 0:
retry -= 1
print('Waiting to poll status again (status %s, %d tries left)...' % (ret, retry))
else:
print('---- Provisioning failed! ----')
return False
async def reset_wifi(tp, sec):
try:
message = prov.ctrl_reset_request(sec)
response = await tp.send_data('prov-ctrl', message)
prov.ctrl_reset_response(sec, response)
except RuntimeError as e:
on_except(e)
return None
async def reprov_wifi(tp, sec):
try:
message = prov.ctrl_reprov_request(sec)
response = await tp.send_data('prov-ctrl', message)
prov.ctrl_reprov_response(sec, response)
except RuntimeError as e:
on_except(e)
return None
def desc_format(*args):
desc = ''
for arg in args:
desc += textwrap.fill(replace_whitespace=False, text=arg) + '\n'
return desc
async def main():
parser = argparse.ArgumentParser(description=desc_format(
'ESP Provisioning tool for configuring devices '
'running protocomm based provisioning service.',
'See esp-idf/examples/provisioning for sample applications'),
formatter_class=argparse.RawTextHelpFormatter)
parser.add_argument('--transport', required=True, dest='mode', type=str,
help=desc_format(
'Mode of transport over which provisioning is to be performed.',
'This should be one of "softap", "ble", "console" (or "httpd" which is an alias of softap)'))
parser.add_argument('--service_name', dest='name', type=str,
help=desc_format(
'This specifies the name of the provisioning service to connect to, '
'depending upon the mode of transport :',
'\t- transport "ble" : The BLE Device Name',
'\t- transport "softap/httpd" : HTTP Server hostname or IP',
'\t (default "192.168.4.1:80")'))
parser.add_argument('--proto_ver', dest='version', type=str, default='',
help=desc_format(
'This checks the protocol version of the provisioning service running '
'on the device before initiating Wi-Fi configuration'))
parser.add_argument('--sec_ver', dest='secver', type=int, default=None,
help=desc_format(
'Protocomm security scheme used by the provisioning service for secure '
'session establishment. Accepted values are :',
'\t- 0 : No security',
'\t- 1 : X25519 key exchange + AES-CTR encryption',
'\t + Authentication using Proof of Possession (PoP)',
'\t- 2 : SRP6a + AES-GCM encryption',
'In case device side application uses IDF\'s provisioning manager, '
'the compatible security version is automatically determined from '
'capabilities retrieved via the version endpoint'))
parser.add_argument('--pop', dest='sec1_pop', type=str, default='',
help=desc_format(
'This specifies the Proof of possession (PoP) when security scheme 1 '
'is used'))
parser.add_argument('--sec2_username', dest='sec2_usr', type=str, default='',
help=desc_format(
'Username for security scheme 2 (SRP6a)'))
parser.add_argument('--sec2_pwd', dest='sec2_pwd', type=str, default='',
help=desc_format(
'Password for security scheme 2 (SRP6a)'))
parser.add_argument('--sec2_gen_cred', help='Generate salt and verifier for security scheme 2 (SRP6a)', action='store_true')
parser.add_argument('--sec2_salt_len', dest='sec2_salt_len', type=int, default=16,
help=desc_format(
'Salt length for security scheme 2 (SRP6a)'))
parser.add_argument('--ssid', dest='ssid', type=str, default='',
help=desc_format(
'This configures the device to use SSID of the Wi-Fi network to which '
'we would like it to connect to permanently, once provisioning is complete. '
'If Wi-Fi scanning is supported by the provisioning service, this need not '
'be specified'))
parser.add_argument('--passphrase', dest='passphrase', type=str,
help=desc_format(
'This configures the device to use Passphrase for the Wi-Fi network to which '
'we would like it to connect to permanently, once provisioning is complete. '
'If Wi-Fi scanning is supported by the provisioning service, this need not '
'be specified'))
parser.add_argument('--custom_data', dest='custom_data', type=str, default='',
help=desc_format(
'This is an optional parameter, only intended for use with '
'"examples/provisioning/wifi_prov_mgr"'))
parser.add_argument('--reset', help='Reset WiFi', action='store_true')
parser.add_argument('--reprov', help='Reprovision WiFi', action='store_true')
parser.add_argument('-v','--verbose', help='Increase output verbosity', action='store_true')
args = parser.parse_args()
if args.secver == 2 and args.sec2_gen_cred:
if not args.sec2_usr or not args.sec2_pwd:
raise ValueError('Username/password cannot be empty for security scheme 2 (SRP6a)')
print('==== Salt-verifier for security scheme 2 (SRP6a) ====')
security.sec2_gen_salt_verifier(args.sec2_usr, args.sec2_pwd, args.sec2_salt_len)
sys.exit()
obj_transport = await get_transport(args.mode.lower(), args.name)
if obj_transport is None:
raise RuntimeError('Failed to establish connection')
try:
# If security version not specified check in capabilities
if args.secver is None:
# First check if capabilities are supported or not
if not await has_capability(obj_transport):
print('Security capabilities could not be determined, please specify "--sec_ver" explicitly')
raise ValueError('Invalid Security Version')
# When no_sec is present, use security 0, else security 1
args.secver = int(not await has_capability(obj_transport, 'no_sec'))
print(f'==== Security Scheme: {args.secver} ====')
if (args.secver == 1):
if not await has_capability(obj_transport, 'no_pop'):
if len(args.sec1_pop) == 0:
prompt_str = 'Proof of Possession required: '
args.sec1_pop = getpass(prompt_str)
elif len(args.sec1_pop) != 0:
print('Proof of Possession will be ignored')
args.sec1_pop = ''
if (args.secver == 2):
if len(args.sec2_usr) == 0:
args.sec2_usr = input('Security Scheme 2 - SRP6a Username required: ')
if len(args.sec2_pwd) == 0:
prompt_str = 'Security Scheme 2 - SRP6a Password required: '
args.sec2_pwd = getpass(prompt_str)
obj_security = get_security(args.secver, args.sec2_usr, args.sec2_pwd, args.sec1_pop, args.verbose)
if obj_security is None:
raise ValueError('Invalid Security Version')
if args.version != '':
print('\n==== Verifying protocol version ====')
if not await version_match(obj_transport, args.version, args.verbose):
raise RuntimeError('Error in protocol version matching')
print('==== Verified protocol version successfully ====')
print('\n==== Starting Session ====')
if not await establish_session(obj_transport, obj_security):
print('Failed to establish session. Ensure that security scheme and proof of possession are correct')
raise RuntimeError('Error in establishing session')
print('==== Session Established ====')
if args.reset:
print('==== Reseting WiFi====')
await reset_wifi(obj_transport, obj_security)
sys.exit()
if args.reprov:
print('==== Reprovisioning WiFi====')
await reprov_wifi(obj_transport, obj_security)
sys.exit()
if args.custom_data != '':
print('\n==== Sending Custom data to Target ====')
if not await custom_data(obj_transport, obj_security, args.custom_data):
raise RuntimeError('Error in custom data')
print('==== Custom data sent successfully ====')
if args.ssid == '':
if not await has_capability(obj_transport, 'wifi_scan'):
raise RuntimeError('Wi-Fi Scan List is not supported by provisioning service')
while True:
print('\n==== Scanning Wi-Fi APs ====')
start_time = time.time()
APs = await scan_wifi_APs(args.mode.lower(), obj_transport, obj_security)
end_time = time.time()
print('\n++++ Scan finished in ' + str(end_time - start_time) + ' sec')
if APs is None:
raise RuntimeError('Error in scanning Wi-Fi APs')
if len(APs) == 0:
print('No APs found!')
sys.exit()
print('==== Wi-Fi Scan results ====')
print('{0: >4} {1: <33} {2: <12} {3: >4} {4: <4} {5: <16}'.format(
'S.N.', 'SSID', 'BSSID', 'CHN', 'RSSI', 'AUTH'))
for i in range(len(APs)):
print('[{0: >2}] {1: <33} {2: <12} {3: >4} {4: <4} {5: <16}'.format(
i + 1, APs[i]['ssid'], APs[i]['bssid'], APs[i]['channel'], APs[i]['rssi'], APs[i]['auth']))
while True:
try:
select = int(input('Select AP by number (0 to rescan) : '))
if select < 0 or select > len(APs):
raise ValueError
break
except ValueError:
print('Invalid input! Retry')
if select != 0:
break
args.ssid = APs[select - 1]['ssid']
if args.passphrase is None:
prompt_str = 'Enter passphrase for {0} : '.format(args.ssid)
args.passphrase = getpass(prompt_str)
print('\n==== Sending Wi-Fi Credentials to Target ====')
if not await send_wifi_config(obj_transport, obj_security, args.ssid, args.passphrase):
raise RuntimeError('Error in send Wi-Fi config')
print('==== Wi-Fi Credentials sent successfully ====')
print('\n==== Applying Wi-Fi Config to Target ====')
if not await apply_wifi_config(obj_transport, obj_security):
raise RuntimeError('Error in apply Wi-Fi config')
print('==== Apply config sent successfully ====')
await wait_wifi_connected(obj_transport, obj_security)
finally:
await obj_transport.disconnect()
if __name__ == '__main__':
asyncio.run(main())