import os from enum import Enum from functools import cached_property from pathlib import Path from typing import Optional, Dict, List from .exceptions import SysCallError from .general import SysCommand from .networking import list_interfaces, enrich_iface_types from .output import debug class GfxPackage(Enum): IntelMediaDriver = 'intel-media-driver' LibvaIntelDriver = 'libva-intel-driver' LibvaMesaDriver = 'libva-mesa-driver' Mesa = "mesa" Nvidia = 'nvidia' NvidiaOpen = 'nvidia-open' VulkanIntel = 'vulkan-intel' VulkanRadeon = 'vulkan-radeon' Xf86VideoAmdgpu = "xf86-video-amdgpu" Xf86VideoAti = "xf86-video-ati" Xf86VideoNouveau = 'xf86-video-nouveau' Xf86VideoVmware = 'xf86-video-vmware' class GfxDriver(Enum): AllOpenSource = 'All open-source' AmdOpenSource = 'AMD / ATI (open-source)' IntelOpenSource = 'Intel (open-source)' NvidiaOpenKernel = 'Nvidia (open kernel module for newer GPUs, Turing+)' NvidiaOpenSource = 'Nvidia (open-source nouveau driver)' NvidiaProprietary = 'Nvidia (proprietary)' VMOpenSource = 'VMware / VirtualBox (open-source)' def is_nvidia(self) -> bool: match self: case GfxDriver.NvidiaProprietary | \ GfxDriver.NvidiaOpenSource | \ GfxDriver.NvidiaOpenKernel: return True case _: return False def packages(self) -> List[GfxPackage]: match self: case GfxDriver.AllOpenSource: return [ GfxPackage.Mesa, GfxPackage.Xf86VideoAmdgpu, GfxPackage.Xf86VideoAti, GfxPackage.Xf86VideoNouveau, GfxPackage.Xf86VideoVmware, GfxPackage.LibvaMesaDriver, GfxPackage.LibvaIntelDriver, GfxPackage.IntelMediaDriver, GfxPackage.VulkanRadeon, GfxPackage.VulkanIntel ] case GfxDriver.AmdOpenSource: return [ GfxPackage.Mesa, GfxPackage.Xf86VideoAmdgpu, GfxPackage.Xf86VideoAti, GfxPackage.LibvaMesaDriver, GfxPackage.VulkanRadeon ] case GfxDriver.IntelOpenSource: return [ GfxPackage.Mesa, GfxPackage.LibvaIntelDriver, GfxPackage.IntelMediaDriver, GfxPackage.VulkanIntel ] case GfxDriver.NvidiaOpenKernel: return [GfxPackage.NvidiaOpen] case GfxDriver.NvidiaOpenSource: return [ GfxPackage.Mesa, GfxPackage.Xf86VideoNouveau, GfxPackage.LibvaMesaDriver ] case GfxDriver.NvidiaProprietary: return [GfxPackage.Nvidia] case GfxDriver.VMOpenSource: return [ GfxPackage.Mesa, GfxPackage.Xf86VideoVmware ] class _SysInfo: def __init__(self): pass @cached_property def cpu_info(self) -> Dict[str, str]: """ Returns system cpu information """ cpu_info_path = Path("/proc/cpuinfo") cpu: Dict[str, str] = {} with cpu_info_path.open() as file: for line in file: if line := line.strip(): key, value = line.split(":", maxsplit=1) cpu[key.strip()] = value.strip() return cpu @cached_property def mem_info(self) -> Dict[str, int]: """ Returns system memory information """ mem_info_path = Path("/proc/meminfo") mem_info: Dict[str, int] = {} with mem_info_path.open() as file: for line in file: key, value = line.strip().split(':') num = value.split()[0] mem_info[key] = int(num) return mem_info def mem_info_by_key(self, key: str) -> int: return self.mem_info[key] @cached_property def loaded_modules(self) -> List[str]: """ Returns loaded kernel modules """ modules_path = Path('/proc/modules') modules: List[str] = [] with modules_path.open() as file: for line in file: module = line.split(maxsplit=1)[0] modules.append(module) return modules _sys_info = _SysInfo() class SysInfo: @staticmethod def has_wifi() -> bool: ifaces = list(list_interfaces().values()) return 'WIRELESS' in enrich_iface_types(ifaces).values() @staticmethod def has_uefi() -> bool: return os.path.isdir('/sys/firmware/efi') @staticmethod def _graphics_devices() -> Dict[str, str]: cards: Dict[str, str] = {} for line in SysCommand("lspci"): if b' VGA ' in line or b' 3D ' in line: _, identifier = line.split(b': ', 1) cards[identifier.strip().decode('UTF-8')] = str(line) return cards @staticmethod def has_nvidia_graphics() -> bool: return any('nvidia' in x.lower() for x in SysInfo._graphics_devices()) @staticmethod def has_amd_graphics() -> bool: return any('amd' in x.lower() for x in SysInfo._graphics_devices()) @staticmethod def has_intel_graphics() -> bool: return any('intel' in x.lower() for x in SysInfo._graphics_devices()) @staticmethod def cpu_vendor() -> Optional[str]: return _sys_info.cpu_info.get('vendor_id', None) @staticmethod def cpu_model() -> Optional[str]: return _sys_info.cpu_info.get('model name', None) @staticmethod def sys_vendor() -> str: with open(f"/sys/devices/virtual/dmi/id/sys_vendor") as vendor: return vendor.read().strip() @staticmethod def product_name() -> str: with open(f"/sys/devices/virtual/dmi/id/product_name") as product: return product.read().strip() @staticmethod def mem_available() -> int: return _sys_info.mem_info_by_key('MemAvailable') @staticmethod def mem_free() -> int: return _sys_info.mem_info_by_key('MemFree') @staticmethod def mem_total() -> int: return _sys_info.mem_info_by_key('MemTotal') @staticmethod def virtualization() -> Optional[str]: try: return str(SysCommand("systemd-detect-virt")).strip('\r\n') except SysCallError as err: debug(f"Could not detect virtual system: {err}") return None @staticmethod def is_vm() -> bool: try: result = SysCommand("systemd-detect-virt") return b"none" not in b"".join(result).lower() except SysCallError as err: debug(f"System is not running in a VM: {err}") return False @staticmethod def requires_sof_fw() -> bool: return 'snd_sof' in _sys_info.loaded_modules @staticmethod def requires_alsa_fw() -> bool: modules = ( 'snd_asihpi', 'snd_cs46xx', 'snd_darla20', 'snd_darla24', 'snd_echo3g', 'snd_emu10k1', 'snd_gina20', 'snd_gina24', 'snd_hda_codec_ca0132', 'snd_hdsp', 'snd_indigo', 'snd_indigodj', 'snd_indigodjx', 'snd_indigoio', 'snd_indigoiox', 'snd_layla20', 'snd_layla24', 'snd_mia', 'snd_mixart', 'snd_mona', 'snd_pcxhr', 'snd_vx_lib' ) for loaded_module in _sys_info.loaded_modules: if loaded_module in modules: return True return False