import ctypes import os import platform def check_error(code: int) -> None: if code != 0: raise Exception(f"API错误: {code}") base_dir = os.path.dirname(__file__) arch = platform.machine() if arch == 'x86_64': arch_dir = 'x86_64' elif arch in ('aarch64', 'arm64'): arch_dir = 'aarch64' else: raise RuntimeError(f"Unsupported architecture: {arch}") lib_paths = [ os.path.join(base_dir, arch_dir, 'libclip.so'), os.path.join(base_dir, 'libclip.so') ] last_error = None diagnostic_shown = set() for lib_path in lib_paths: try: print(f"Trying to load: {lib_path}") _lib = ctypes.CDLL(lib_path) print(f"✅ Successfully loaded: {lib_path}") break except OSError as e: last_error = e err_str = str(e) print(f"\n❌ Failed to load: {lib_path}") print(f" {err_str}") # Only show GLIBCXX tip once if "GLIBCXX" in err_str and "not found" in err_str: if "missing_glibcxx" not in diagnostic_shown: diagnostic_shown.add("missing_glibcxx") print("🔍 Detected missing GLIBCXX version in libstdc++.so.6") print("💡 This usually happens when your environment (like Conda) uses an older libstdc++") print(f"👉 Try running with system libstdc++ preloaded:") print(f" export LD_PRELOAD=/usr/lib/{arch_dir}-linux-gnu/libstdc++.so.6\n") elif "No such file" in err_str: if "file_not_found" not in diagnostic_shown: diagnostic_shown.add("file_not_found") print("🔍 File not found. Please verify that libclip.so exists and the path is correct.\n") elif "wrong ELF class" in err_str: if "elf_mismatch" not in diagnostic_shown: diagnostic_shown.add("elf_mismatch") print("🔍 ELF class mismatch — likely due to architecture conflict (e.g., loading x86_64 .so on aarch64).") print(f"👉 Run `file {lib_path}` to verify the binary architecture.\n") else: if "generic_error" not in diagnostic_shown: diagnostic_shown.add("generic_error") print("📎 Tip: Use `ldd` to inspect missing dependencies:") print(f" ldd {lib_path}\n") else: raise RuntimeError(f"\n❗ Failed to load libclip.so.\nLast error:\n{last_error}") # 定义枚举类型 class AxDeviceType(ctypes.c_int): unknown_device = 0 host_device = 1 axcl_device = 2 # 定义结构体 class AxMemInfo(ctypes.Structure): _fields_ = [ ('remain', ctypes.c_int), ('total', ctypes.c_int) ] class AxHostInfo(ctypes.Structure): _fields_ = [ ('available', ctypes.c_char), ('version', ctypes.c_char * 32), ('mem_info', AxMemInfo) ] class AxDeviceInfo(ctypes.Structure): _fields_ = [ ('temp', ctypes.c_int), ('cpu_usage', ctypes.c_int), ('npu_usage', ctypes.c_int), ('mem_info', AxMemInfo) ] class AxDevices(ctypes.Structure): _fields_ = [ ('host', AxHostInfo), ('host_version', ctypes.c_char * 32), ('dev_version', ctypes.c_char * 32), ('count', ctypes.c_ubyte), ('devices_info', AxDeviceInfo * 16) ] _lib.ax_dev_enum_devices.argtypes = [ctypes.POINTER(AxDevices)] _lib.ax_dev_enum_devices.restype = ctypes.c_int _lib.ax_dev_sys_init.argtypes = [AxDeviceType, ctypes.c_char] _lib.ax_dev_sys_init.restype = ctypes.c_int _lib.ax_dev_sys_deinit.argtypes = [AxDeviceType, ctypes.c_char] _lib.ax_dev_sys_deinit.restype = ctypes.c_int def enum_devices() -> dict: devices = AxDevices() check_error(_lib.ax_dev_enum_devices(ctypes.byref(devices))) return { 'host': { 'available': bool(devices.host.available[0]), 'version': devices.host.version.decode('utf-8'), 'mem_info': { 'remain': devices.host.mem_info.remain, 'total': devices.host.mem_info.total } }, 'devices': { 'host_version': devices.host_version.decode('utf-8'), 'dev_version': devices.dev_version.decode('utf-8'), 'count': devices.count, 'devices_info': [{ 'temp': dev.temp, 'cpu_usage': dev.cpu_usage, 'npu_usage': dev.npu_usage, 'mem_info': { 'remain': dev.mem_info.remain, 'total': dev.mem_info.total } } for dev in devices.devices_info[:devices.count]] } } def sys_init(dev_type: AxDeviceType = AxDeviceType.axcl_device, devid: int = 0) -> None: check_error(_lib.ax_dev_sys_init(dev_type, devid)) def sys_deinit(dev_type: AxDeviceType = AxDeviceType.axcl_device, devid: int = 0) -> None: check_error(_lib.ax_dev_sys_deinit(dev_type, devid))