# SPDX-FileCopyrightText: 2021-2024 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: Apache-2.0 import logging import time import netifaces import pytest from common_test_methods import get_env_config_variable from common_test_methods import get_my_interface_by_dest_ip from pytest_embedded import Dut try: from run_tcp_client import tcp_client except ImportError: import os import sys sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__), '..', 'scripts'))) from run_tcp_client import tcp_client PORT = 3333 MESSAGE = 'Data to ESP' @pytest.mark.esp32 @pytest.mark.esp32s2 @pytest.mark.esp32c2 @pytest.mark.esp32c3 @pytest.mark.esp32s3 @pytest.mark.esp32c5 @pytest.mark.esp32c6 @pytest.mark.wifi_router def test_examples_tcp_server_ipv4(dut: Dut) -> None: # Parse IP address of STA logging.info('Waiting to connect with AP') if dut.app.sdkconfig.get('EXAMPLE_WIFI_SSID_PWD_FROM_STDIN') is True: dut.expect('Please input ssid password:') env_name = 'wifi_router' ap_ssid = get_env_config_variable(env_name, 'ap_ssid') ap_password = get_env_config_variable(env_name, 'ap_password') dut.write(f'{ap_ssid} {ap_password}') ipv4 = dut.expect(r'IPv4 address: (\d+\.\d+\.\d+\.\d+)[^\d]', timeout=30)[1].decode() logging.info(f'Connected with IPv4={ipv4}') time.sleep(1) # test IPv4 received = tcp_client(ipv4, PORT, MESSAGE) if not received == MESSAGE: raise dut.expect(MESSAGE) @pytest.mark.esp32c2 @pytest.mark.wifi_router @pytest.mark.xtal_26mhz @pytest.mark.parametrize( 'config, baud', [ ('c2_xtal26m', '74880'), ], indirect=True ) def test_examples_tcp_server_ipv4_esp32c2_26mhz(dut: Dut) -> None: # Parse IP address of STA logging.info('Waiting to connect with AP') if dut.app.sdkconfig.get('EXAMPLE_WIFI_SSID_PWD_FROM_STDIN') is True: dut.expect('Please input ssid password:') env_name = 'wifi_router' ap_ssid = get_env_config_variable(env_name, 'ap_ssid') ap_password = get_env_config_variable(env_name, 'ap_password') dut.write(f'{ap_ssid} {ap_password}') ipv4 = dut.expect(r'IPv4 address: (\d+\.\d+\.\d+\.\d+)[^\d]', timeout=30)[1].decode() logging.info(f'Connected with IPv4={ipv4}') time.sleep(1) # test IPv4 received = tcp_client(ipv4, PORT, MESSAGE) if not received == MESSAGE: raise dut.expect(MESSAGE) @pytest.mark.esp32 @pytest.mark.esp32s2 @pytest.mark.esp32c2 @pytest.mark.esp32c3 @pytest.mark.esp32s3 @pytest.mark.esp32c6 @pytest.mark.wifi_router def test_examples_tcp_server_ipv6(dut: Dut) -> None: # Parse IP address of STA logging.info('Waiting to connect with AP') if dut.app.sdkconfig.get('EXAMPLE_WIFI_SSID_PWD_FROM_STDIN') is True: dut.expect('Please input ssid password:') env_name = 'wifi_router' ap_ssid = get_env_config_variable(env_name, 'ap_ssid') ap_password = get_env_config_variable(env_name, 'ap_password') dut.write(f'{ap_ssid} {ap_password}') ipv4 = dut.expect(r'IPv4 address: (\d+\.\d+\.\d+\.\d+)[^\d]', timeout=30)[1].decode() # expect all 8 octets from IPv6 (assumes it's printed in the long form) ipv6_r = r':'.join((r'[0-9a-fA-F]{4}',) * 8) ipv6 = dut.expect(ipv6_r, timeout=30)[0].decode() logging.info(f'Connected with IPv4={ipv4} and IPv6={ipv6}') time.sleep(1) interface = get_my_interface_by_dest_ip(ipv4) # test IPv6 received = tcp_client('{}%{}'.format(ipv6, interface), PORT, MESSAGE) if not received == MESSAGE: raise dut.expect(MESSAGE) @pytest.mark.esp32 @pytest.mark.esp32s2 @pytest.mark.esp32c2 @pytest.mark.esp32c3 @pytest.mark.esp32s3 @pytest.mark.esp32c6 @pytest.mark.wifi_router def test_examples_tcp_server_ipv6_only(dut: Dut) -> None: # Parse IP address of STA logging.info('Waiting to connect with AP') if dut.app.sdkconfig.get('EXAMPLE_WIFI_SSID_PWD_FROM_STDIN') is True: dut.expect('Please input ssid password:') env_name = 'wifi_router' ap_ssid = get_env_config_variable(env_name, 'ap_ssid') ap_password = get_env_config_variable(env_name, 'ap_password') dut.write(f'{ap_ssid} {ap_password}') # expect all 8 octets from IPv6 (assumes it's printed in the long form) ipv6_r = r':'.join((r'[0-9a-fA-F]{4}',) * 8) ipv6 = dut.expect(ipv6_r, timeout=30)[0].decode() logging.info(f'Connected AP with IPv6={ipv6}') time.sleep(5) # test IPv6, try all interfaces for interface in netifaces.interfaces(): try: logging.info(f'[{interface}] Connect to tcp_server {ipv6}%{interface}') received = tcp_client(f'{ipv6}%{interface}', PORT, MESSAGE) except Exception: # wrong interface continue if not received == MESSAGE: raise AssertionError(f'Wrong data received ({received}/{MESSAGE})') dut.expect(MESSAGE) break else: raise AssertionError(f'Can not connect to tcp_server: {ipv6}')