# SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: CC0-1.0 import pytest from pytest_embedded import Dut @pytest.mark.supported_targets @pytest.mark.generic def test_base_mac_address(dut: Dut) -> None: def get_hex_r(num_bytes: int) -> str: return r', '.join((r'0x([0-9a-f]{1,2})',) * num_bytes) hex_r = get_hex_r(6) dut.expect_exact('BASE_MAC: Base MAC Address read from EFUSE BLK0') mac_m = dut.expect(r'BASE_MAC: Using "' + hex_r + r'" as base MAC address', timeout=5).groups() def get_expected_mac_string(increment: int, target: str) -> str: ''' Return the string representation of the MAC address mac_m with the last octet incremented. mac_m is an array of strings in hexa-decimal format without the '0x' prefix. ''' # as a result of some esp32s2 chips burned with one MAC address by mistake, # there are some MAC address are reserved for this bug fix. # related mistake MAC address is 0x7cdfa1003000~0x7cdfa1005fff, # reserved MAC address is 0x7cdfa1020000~0x7cdfa1022fff (MAC address + 0x1d000). if target == 'esp32s2' and increment == 1: hex_string = ''.join([m.decode('utf8').rjust(2, '0') for m in mac_m]) mac_bytes = int(hex_string, 16) if mac_bytes >= int('7cdfa1003000', 16) and mac_bytes <= int('7cdfa1005fff', 16): mac_bytes += int('1d000', 16) hex_string = f'{mac_bytes:x}' # Format the new string to match the expected output from the app (includes stripping leading zeroes) return ', '.join('0x{}'.format(hex_string[i:i + 2].lstrip('0')) for i in range(0, len(hex_string), 2)) return ', '.join(['0x{}'.format(m.decode('utf8')) for m in mac_m[:-1]] + [hex((int(mac_m[-1], 16) + increment) & 0xFF)]) sdkconfig = dut.app.sdkconfig if sdkconfig.get('ESP_WIFI_ENABLED'): dut.expect_exact('WIFI_STA MAC: ' + get_expected_mac_string(0, dut.target), timeout=2) dut.expect_exact('SoftAP MAC: ' + get_expected_mac_string(1, dut.target)) if dut.target != 'esp32s2' and dut.target != 'esp32h2': if sdkconfig.get('ESP_MAC_ADDR_UNIVERSE_BT'): dut.expect_exact('BT MAC: ' + get_expected_mac_string(2, dut.target)) if sdkconfig.get('SOC_WIFI_SUPPORTED') or sdkconfig.get('ESP_MAC_ADDR_UNIVERSE_BT'): dut.expect_exact('Ethernet MAC: ' + get_expected_mac_string(3, dut.target)) else: dut.expect_exact('Ethernet MAC: ' + get_expected_mac_string(0, dut.target)) # for esp32p4 dut.expect_exact('New Ethernet MAC: ' + get_expected_mac_string(6, dut.target)) elif dut.target == 'esp32h2': dut.expect_exact('BT MAC: ' + get_expected_mac_string(0, dut.target)) dut.expect_exact('New Ethernet MAC: ' + get_expected_mac_string(6, dut.target)) if sdkconfig.get('SOC_IEEE802154_SUPPORTED'): mac_ext_m = dut.expect(r'MAC_EXT: ' + get_hex_r(2), timeout=5).groups() mac_ext = ['0x{}'.format(m.decode('utf8')) for m in mac_ext_m] mac = ['0x{}'.format(m.decode('utf8')) for m in mac_m] expected_eui64 = f'{mac[0]}, {mac[1]}, {mac[2]}, {mac_ext[0]}, {mac_ext[1]}, {mac[3]}, {mac[4]}, {mac[5]}' dut.expect_exact(r'IEEE802154: ' + expected_eui64, timeout=5)