#!/usr/bin/env python3 # # The MIT License (MIT) # # Copyright (c) 2023 HiFiPhile # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # udev rules : # ACTION=="add", SUBSYSTEM=="tty", SUBSYSTEMS=="usb", MODE="0666", PROGRAM="/bin/sh -c 'echo $$ID_SERIAL_SHORT | rev | cut -c -8 | rev'", SYMLINK+="ttyUSB_%c.%s{bInterfaceNumber}" # ACTION=="add", SUBSYSTEM=="block", SUBSYSTEMS=="usb", ENV{ID_FS_USAGE}=="filesystem", MODE="0666", PROGRAM="/bin/sh -c 'echo $$ID_SERIAL_SHORT | rev | cut -c -8 | rev'", RUN{program}+="/usr/bin/systemd-mount --no-block --automount=yes --collect $devnode /media/blkUSB_%c.%s{bInterfaceNumber}" import argparse import os import re import sys import time import serial import subprocess import json import glob from multiprocessing import Pool import fs ENUM_TIMEOUT = 30 STATUS_OK = "\033[32mOK\033[0m" STATUS_FAILED = "\033[31mFailed\033[0m" STATUS_SKIPPED = "\033[33mSkipped\033[0m" verbose = False # ------------------------------------------------------------- # Path # ------------------------------------------------------------- OPENCOD_ADI_PATH = f'{os.getenv("HOME")}/app/openocd_adi' # get usb serial by id def get_serial_dev(id, vendor_str, product_str, ifnum): if vendor_str and product_str: # known vendor and product vendor_str = vendor_str.replace(' ', '_') product_str = product_str.replace(' ', '_') return f'/dev/serial/by-id/usb-{vendor_str}_{product_str}_{id}-if{ifnum:02d}' else: # just use id: mostly for cp210x/ftdi flasher pattern = f'/dev/serial/by-id/usb-*_{id}-if{ifnum:02d}*' port_list = glob.glob(pattern) return port_list[0] # get usb disk by id def get_disk_dev(id, vendor_str, lun): return f'/dev/disk/by-id/usb-{vendor_str}_Mass_Storage_{id}-0:{lun}' def get_hid_dev(id, vendor_str, product_str, event): return f'/dev/input/by-id/usb-{vendor_str}_{product_str}_{id}-{event}' def open_serial_dev(port): timeout = ENUM_TIMEOUT ser = None while timeout: if os.path.exists(port): try: # slight delay since kernel may occupy the port briefly time.sleep(0.5) timeout = timeout - 0.5 ser = serial.Serial(port, timeout=5) break except serial.SerialException: pass time.sleep(0.5) timeout = timeout - 0.5 assert timeout, f'Cannot open port f{port}' if os.path.exists(port) else f'Port {port} not existed' return ser def read_disk_file(uid, lun, fname): # open_fs("fat://{dev}) require 'pip install pyfatfs' dev = get_disk_dev(uid, 'TinyUSB', lun) timeout = ENUM_TIMEOUT while timeout: if os.path.exists(dev): fat = fs.open_fs(f'fat://{dev}?read_only=true') try: with fat.open(fname, 'rb') as f: data = f.read() finally: fat.close() assert data, f'Cannot read file {fname} from {dev}' return data time.sleep(1) timeout -= 1 assert timeout, f'Storage {dev} not existed' return None # ------------------------------------------------------------- # Flashing firmware # ------------------------------------------------------------- def run_cmd(cmd, cwd=None): r = subprocess.run(cmd, cwd=cwd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) if r.returncode != 0: title = f'COMMAND FAILED: {cmd}' print() if os.getenv('CI'): print(f"::group::{title}") print(r.stdout.decode("utf-8")) print(f"::endgroup::") else: print(title) print(r.stdout.decode("utf-8")) elif verbose: print(cmd) print(r.stdout.decode("utf-8")) return r def flash_jlink(board, firmware): script = ['halt', 'r', f'loadfile {firmware}.elf', 'r', 'go', 'exit'] f_jlink = f'{board["name"]}_{os.path.basename(firmware)}.jlink' with open(f_jlink, 'w') as f: f.writelines(f'{s}\n' for s in script) ret = run_cmd(f'JLinkExe -USB {board["flasher_sn"]} {board["flasher_args"]} -if swd -JTAGConf -1,-1 -speed auto -NoGui 1 -ExitOnError 1 -CommandFile {f_jlink}') os.remove(f_jlink) return ret def flash_stlink(board, firmware): ret = run_cmd(f'STM32_Programmer_CLI --connect port=swd sn={board["flasher_sn"]} --write {firmware}.elf --go') return ret def flash_stflash(board, firmware): ret = run_cmd(f'st-flash --serial {board["flasher_sn"]} write {firmware}.bin 0x8000000') return ret def flash_openocd(board, firmware): ret = run_cmd(f'openocd -c "adapter serial {board["flasher_sn"]}" {board["flasher_args"]} -c "program {firmware}.elf reset exit"') return ret def flash_openocd_wch(board, firmware): # Content of the wch-riscv.cfg file cfg_content = """ adapter driver wlinke adapter speed 6000 transport select sdi wlink_set_address 0x00000000 set _CHIPNAME wch_riscv sdi newtap $_CHIPNAME cpu -irlen 5 -expected-id 0x00001 set _TARGETNAME $_CHIPNAME.cpu target create $_TARGETNAME.0 wch_riscv -chain-position $_TARGETNAME $_TARGETNAME.0 configure -work-area-phys 0x20000000 -work-area-size 10000 -work-area-backup 1 set _FLASHNAME $_CHIPNAME.flash flash bank $_FLASHNAME wch_riscv 0x00000000 0 0 0 $_TARGETNAME.0 echo "Ready for Remote Connections" """ f_wch = f"wch-riscv_{board['uid']}.cfg" if not os.path.exists(f_wch): with open(f_wch, 'w') as file: file.write(cfg_content) ret = run_cmd(f'openocd_wch -c "adapter serial {board["flasher_sn"]}" -f {f_wch} ' f'-c "program {firmware}.elf reset exit"') return ret def flash_openocd_adi(board, firmware): ret = run_cmd(f'{OPENCOD_ADI_PATH}/src/openocd -c "adapter serial {board["flasher_sn"]}" -s {OPENCOD_ADI_PATH}/tcl ' f'{board["flasher_args"]} -c "program {firmware}.elf reset exit"') return ret def flash_wlink_rs(board, firmware): # wlink use index for probe selection and lacking usb serial support ret = run_cmd(f'wlink flash {firmware}.elf') return ret def flash_esptool(board, firmware): port = get_serial_dev(board["flasher_sn"], None, None, 0) fw_dir = os.path.dirname(f'{firmware}.bin') with open(f'{fw_dir}/config.env') as f: idf_target = json.load(f)['IDF_TARGET'] with open(f'{fw_dir}/flash_args') as f: flash_args = f.read().strip().replace('\n', ' ') command = (f'esptool.py --chip {idf_target} -p {port} {board["flasher_args"]} ' f'--before=default_reset --after=hard_reset write_flash {flash_args}') ret = run_cmd(command, cwd=fw_dir) return ret def flash_uniflash(board, firmware): ret = run_cmd(f'dslite.sh {board["flasher_args"]} -f {firmware}.hex') return ret # ------------------------------------------------------------- # Tests: dual # ------------------------------------------------------------- def test_dual_host_info_to_device_cdc(board): uid = board['uid'] declared_devs = [f'{d["vid_pid"]}_{d["serial"]}' for d in board['tests']['dual_attached']] port = get_serial_dev(uid, 'TinyUSB', "TinyUSB_Device", 0) ser = open_serial_dev(port) # read from cdc, first line should contain vid/pid and serial data = ser.read(1000) lines = data.decode('utf-8').splitlines() enum_dev_sn = [] for l in lines: vid_pid_sn = re.search(r'ID ([0-9a-fA-F]+):([0-9a-fA-F]+) SN (\w+)', l) if vid_pid_sn: print(f'\r\n {l} ', end='') enum_dev_sn.append(f'{vid_pid_sn.group(1)}_{vid_pid_sn.group(2)}_{vid_pid_sn.group(3)}') if set(declared_devs) != set(enum_dev_sn): # for pico/pico2 make this test optional failed_msg = f'Enumerated devices {enum_dev_sn} not match with declared {declared_devs}' if 'raspberry_pi_pico' in board['name']: print(f'\r\n {failed_msg} {STATUS_FAILED} ', end='') else: assert False, failed_msg return 0 # ------------------------------------------------------------- # Tests: device # ------------------------------------------------------------- def test_device_board_test(board): # Dummy test pass def test_device_cdc_dual_ports(board): uid = board['uid'] port1 = get_serial_dev(uid, 'TinyUSB', "TinyUSB_Device", 0) port2 = get_serial_dev(uid, 'TinyUSB', "TinyUSB_Device", 2) ser1 = open_serial_dev(port1) ser2 = open_serial_dev(port2) # Echo test str1 = b"test_no1" ser1.write(str1) ser1.flush() assert ser1.read(len(str1)) == str1.lower(), 'Port1 wrong data' assert ser2.read(len(str1)) == str1.upper(), 'Port2 wrong data' str2 = b"test_no2" ser2.write(str2) ser2.flush() assert ser1.read(len(str2)) == str2.lower(), 'Port1 wrong data' assert ser2.read(len(str2)) == str2.upper(), 'Port2 wrong data' def test_device_cdc_msc(board): uid = board['uid'] # Echo test port = get_serial_dev(uid, 'TinyUSB', "TinyUSB_Device", 0) ser = open_serial_dev(port) str = b"test_str" ser.write(str) ser.flush() assert ser.read(len(str)) == str, 'CDC wrong data' # Block test data = read_disk_file(uid,0,'README.TXT') readme = \ b"This is tinyusb's MassStorage Class demo.\r\n\r\n\ If you find any bugs or get any questions, feel free to file an\r\n\ issue at github.com/hathach/tinyusb" assert data == readme, 'MSC wrong data' def test_device_cdc_msc_freertos(board): test_device_cdc_msc(board) def test_device_dfu(board): uid = board['uid'] # Wait device enum timeout = ENUM_TIMEOUT while timeout: ret = run_cmd(f'dfu-util -l') stdout = ret.stdout.decode() if f'serial="{uid}"' in stdout and 'Found DFU: [cafe:4000]' in stdout: break time.sleep(1) timeout = timeout - 1 assert timeout, 'Device not available' f_dfu0 = f'dfu0_{uid}' f_dfu1 = f'dfu1_{uid}' # Test upload try: os.remove(f_dfu0) os.remove(f_dfu1) except OSError: pass ret = run_cmd(f'dfu-util -S {uid} -a 0 -U {f_dfu0}') assert ret.returncode == 0, 'Upload failed' ret = run_cmd(f'dfu-util -S {uid} -a 1 -U {f_dfu1}') assert ret.returncode == 0, 'Upload failed' with open(f_dfu0) as f: assert 'Hello world from TinyUSB DFU! - Partition 0' in f.read(), 'Wrong uploaded data' with open(f_dfu1) as f: assert 'Hello world from TinyUSB DFU! - Partition 1' in f.read(), 'Wrong uploaded data' os.remove(f_dfu0) os.remove(f_dfu1) def test_device_dfu_runtime(board): uid = board['uid'] # Wait device enum timeout = ENUM_TIMEOUT while timeout: ret = run_cmd(f'dfu-util -l') stdout = ret.stdout.decode() if f'serial="{uid}"' in stdout and 'Found Runtime: [cafe:4000]' in stdout: break time.sleep(1) timeout = timeout - 1 assert timeout, 'Device not available' def test_device_hid_boot_interface(board): uid = board['uid'] kbd = get_hid_dev(uid, 'TinyUSB', 'TinyUSB_Device', 'event-kbd') mouse1 = get_hid_dev(uid, 'TinyUSB', 'TinyUSB_Device', 'if01-event-mouse') mouse2 = get_hid_dev(uid, 'TinyUSB', 'TinyUSB_Device', 'if01-mouse') # Wait device enum timeout = ENUM_TIMEOUT while timeout: if os.path.exists(kbd) and os.path.exists(mouse1) and os.path.exists(mouse2): break time.sleep(1) timeout = timeout - 1 assert timeout, 'HID device not available' def test_device_hid_composite_freertos(id): # TODO implement later pass # ------------------------------------------------------------- # Main # ------------------------------------------------------------- # device tests device_tests = [ 'device/cdc_dual_ports', 'device/cdc_msc', 'device/dfu', 'device/cdc_msc_freertos', # don't test 2 cdc_msc next to each other 'device/dfu_runtime', 'device/hid_boot_interface', ] dual_tests = [ 'dual/host_info_to_device_cdc', ] def test_board(board): name = board['name'] flasher = board['flasher'].lower() # default to all tests test_list = list(device_tests) if 'tests' in board: board_tests = board['tests'] if 'dual_attached' in board_tests: test_list += dual_tests if 'only' in board_tests: test_list = board_tests['only'] if 'skip' in board_tests: for skip in board_tests['skip']: if skip in test_list: test_list.remove(skip) print(f'{name:25} {skip:30} ... Skip') # board_test is added last to disable board's usb test_list.append('device/board_test') err_count = 0 flags_on_list = [""] if 'build' in board and 'flags_on' in board['build']: flags_on_list = board['build']['flags_on'] for f1 in flags_on_list: f1_str = "" if f1 != "": f1_str = '-' + f1.replace(' ', '-') for test in test_list: fw_dir = f'cmake-build/cmake-build-{name}{f1_str}/{test}' if not os.path.exists(fw_dir): fw_dir = f'examples/cmake-build-{name}{f1_str}/{test}' fw_name = f'{fw_dir}/{os.path.basename(test)}' print(f'{name+f1_str:40} {test:30} ... ', end='') if not os.path.exists(fw_dir): print('Skip (no binary)') continue # flash firmware. It may fail randomly, retry a few times for i in range(3): ret = globals()[f'flash_{flasher}'](board, fw_name) if ret.returncode == 0: break else: print(f'Flashing failed, retry {i+1}') time.sleep(1) if ret.returncode == 0: try: ret = globals()[f'test_{test.replace("/", "_")}'](board) print('OK') except Exception as e: err_count += 1 print(STATUS_FAILED) print(f' {e}') else: err_count += 1 print(f'Flash {STATUS_FAILED}') return err_count def main(): """ Hardware test on specified boards """ global verbose duration = time.time() parser = argparse.ArgumentParser() parser.add_argument('config_file', help='Configuration JSON file') parser.add_argument('-b', '--board', action='append', default=[], help='Boards to test, all if not specified') parser.add_argument('-v', '--verbose', action='store_true', help='Verbose output') args = parser.parse_args() config_file = args.config_file boards = args.board verbose = args.verbose # if config file is not found, try to find it in the same directory as this script if not os.path.exists(config_file): config_file = os.path.join(os.path.dirname(__file__), config_file) with open(config_file) as f: config = json.load(f) if len(boards) == 0: config_boards = config['boards'] else: config_boards = [e for e in config['boards'] if e['name'] in boards] with Pool(processes=os.cpu_count()) as pool: err_count = sum(pool.map(test_board, config_boards)) duration = time.time() - duration print() print("-" * 30) print(f'Total failed: {err_count} in {duration:.1f}s') print("-" * 30) sys.exit(err_count) if __name__ == '__main__': main()