#!/usr/bin/env python3 """ Install packages for faceswap.py """ # pylint:disable=too-many-lines import logging import ctypes import json import locale import platform import operator import os import re import sys import typing as T from shutil import which from subprocess import list2cmdline, PIPE, Popen, run, STDOUT from pkg_resources import parse_requirements from lib.logger import log_setup logger = logging.getLogger(__name__) backend_type: T.TypeAlias = T.Literal['nvidia', 'apple_silicon', 'directml', 'cpu', 'rocm', "all"] _INSTALL_FAILED = False # Packages that are explicitly required for setup.py _INSTALLER_REQUIREMENTS: list[tuple[str, str]] = [("pexpect>=4.8.0", "!Windows"), ("pywinpty==2.0.2", "Windows")] # Conda packages that are required for a specific backend # TODO zlib-wapi is required on some Windows installs where cuDNN complains: # Could not locate zlibwapi.dll. Please make sure it is in your library path! # This only seems to occur on Anaconda cuDNN not conda-forge _BACKEND_SPECIFIC_CONDA: dict[backend_type, list[str]] = { "nvidia": ["cudatoolkit", "cudnn", "zlib-wapi"], "apple_silicon": ["libblas"]} # Packages that should only be installed through pip _FORCE_PIP: dict[backend_type, list[str]] = { "nvidia": ["tensorflow"], "all": [ "tensorflow-cpu", # conda-forge leads to flatbuffer errors because of mixed sources "imageio-ffmpeg"]} # 17/11/23 Conda forge uses incorrect ffmpeg, so fallback to pip # Revisions of tensorflow GPU and cuda/cudnn requirements. These relate specifically to the # Tensorflow builds available from pypi _TENSORFLOW_REQUIREMENTS = {">=2.10.0,<2.11.0": [">=11.2,<11.3", ">=8.1,<8.2"]} # ROCm min/max version requirements for Tensorflow _TENSORFLOW_ROCM_REQUIREMENTS = {">=2.10.0,<2.11.0": ((5, 2, 0), (5, 4, 0))} # TODO tensorflow-metal versioning # Mapping of Python packages to their conda names if different from pip or in non-default channel _CONDA_MAPPING: dict[str, tuple[str, str]] = { "cudatoolkit": ("cudatoolkit", "conda-forge"), "cudnn": ("cudnn", "conda-forge"), "fastcluster": ("fastcluster", "conda-forge"), "ffmpy": ("ffmpy", "conda-forge"), # "imageio-ffmpeg": ("imageio-ffmpeg", "conda-forge"), "nvidia-ml-py": ("nvidia-ml-py", "conda-forge"), "tensorflow-deps": ("tensorflow-deps", "apple"), "libblas": ("libblas", "conda-forge"), "zlib-wapi": ("zlib-wapi", "conda-forge"), "xorg-libxft": ("xorg-libxft", "conda-forge")} # Force output to utf-8 sys.stdout.reconfigure(encoding="utf-8", errors="replace") # type:ignore[attr-defined] class Environment(): """ The current install environment Parameters ---------- updater: bool, Optional ``True`` if the script is being called by Faceswap's internal updater. ``False`` if full setup is running. Default: ``False`` """ _backends = (("nvidia", "apple_silicon", "directml", "rocm", "cpu")) def __init__(self, updater: bool = False) -> None: self.updater = updater # Flag that setup is being run by installer so steps can be skipped self.is_installer: bool = False self.backend: backend_type | None = None self.enable_docker: bool = False self.cuda_cudnn = ["", ""] self.rocm_version: tuple[int, ...] = (0, 0, 0) self._process_arguments() self._check_permission() self._check_system() self._check_python() self._output_runtime_info() self._check_pip() self._upgrade_pip() self._set_env_vars() @property def encoding(self) -> str: """ Get system encoding """ return locale.getpreferredencoding() @property def os_version(self) -> tuple[str, str]: """ Get OS Version """ return platform.system(), platform.release() @property def py_version(self) -> tuple[str, str]: """ Get Python Version """ return platform.python_version(), platform.architecture()[0] @property def is_conda(self) -> bool: """ Check whether using Conda """ return ("conda" in sys.version.lower() or os.path.exists(os.path.join(sys.prefix, 'conda-meta'))) @property def is_admin(self) -> bool: """ Check whether user is admin """ try: retval = os.getuid() == 0 # type: ignore except AttributeError: retval = ctypes.windll.shell32.IsUserAnAdmin() != 0 # type: ignore return retval @property def cuda_version(self) -> str: """ str: The detected globally installed Cuda Version """ return self.cuda_cudnn[0] @property def cudnn_version(self) -> str: """ str: The detected globally installed cuDNN Version """ return self.cuda_cudnn[1] @property def is_virtualenv(self) -> bool: """ Check whether this is a virtual environment """ if not self.is_conda: retval = (hasattr(sys, "real_prefix") or (hasattr(sys, "base_prefix") and sys.base_prefix != sys.prefix)) else: prefix = os.path.dirname(sys.prefix) retval = os.path.basename(prefix) == "envs" return retval def _process_arguments(self) -> None: """ Process any cli arguments and dummy in cli arguments if calling from updater. """ args = [arg for arg in sys.argv] # pylint:disable=unnecessary-comprehension if self.updater: from lib.utils import get_backend # pylint:disable=import-outside-toplevel args.append(f"--{get_backend()}") logger.debug(args) for arg in args: if arg == "--installer": self.is_installer = True if not self.backend and (arg.startswith("--") and arg.replace("--", "") in self._backends): self.backend = arg.replace("--", "").lower() # type:ignore def _check_permission(self) -> None: """ Check for Admin permissions """ if self.updater: return if self.is_admin: logger.info("Running as Root/Admin") else: logger.info("Running without root/admin privileges") def _check_system(self) -> None: """ Check the system """ if not self.updater: logger.info("The tool provides tips for installation and installs required python " "packages") logger.info("Setup in %s %s", self.os_version[0], self.os_version[1]) if not self.updater and not self.os_version[0] in ["Windows", "Linux", "Darwin"]: logger.error("Your system %s is not supported!", self.os_version[0]) sys.exit(1) if self.os_version[0].lower() == "darwin" and platform.machine() == "arm64": self.backend = "apple_silicon" if not self.updater and not self.is_conda: logger.error("Setting up Faceswap for Apple Silicon outside of a Conda " "environment is unsupported") sys.exit(1) def _check_python(self) -> None: """ Check python and virtual environment status """ logger.info("Installed Python: %s %s", self.py_version[0], self.py_version[1]) if self.updater: return if not ((3, 10) <= sys.version_info < (3, 11) and self.py_version[1] == "64bit"): logger.error("Please run this script with Python version 3.10 64bit and try " "again.") sys.exit(1) def _output_runtime_info(self) -> None: """ Output run time info """ if self.is_conda: logger.info("Running in Conda") if self.is_virtualenv: logger.info("Running in a Virtual Environment") logger.info("Encoding: %s", self.encoding) def _check_pip(self) -> None: """ Check installed pip version """ if self.updater: return try: import pip # noqa pylint:disable=unused-import,import-outside-toplevel except ImportError: logger.error("Import pip failed. Please Install python3-pip and try again") sys.exit(1) def _upgrade_pip(self) -> None: """ Upgrade pip to latest version """ if not self.is_conda: # Don't do this with Conda, as we must use Conda version of pip logger.info("Upgrading pip...") pipexe = [sys.executable, "-m", "pip"] pipexe.extend(["install", "--no-cache-dir", "-qq", "--upgrade"]) if not self.is_admin and not self.is_virtualenv: pipexe.append("--user") pipexe.append("pip") run(pipexe, check=True) import pip # pylint:disable=import-outside-toplevel pip_version = pip.__version__ logger.info("Installed pip: %s", pip_version) def set_config(self) -> None: """ Set the backend in the faceswap config file """ config = {"backend": self.backend} pypath = os.path.dirname(os.path.realpath(__file__)) config_file = os.path.join(pypath, "config", ".faceswap") with open(config_file, "w", encoding="utf8") as cnf: json.dump(config, cnf) logger.info("Faceswap config written to: %s", config_file) def _set_env_vars(self) -> None: """ There are some foibles under Conda which need to be worked around in different situations. Linux: Update the LD_LIBRARY_PATH environment variable when activating a conda environment and revert it when deactivating. Notes ----- From Tensorflow 2.7, installing Cuda Toolkit from conda-forge and tensorflow from pip causes tensorflow to not be able to locate shared libs and hence not use the GPU. We update the environment variable for all instances using Conda as it shouldn't hurt anything and may help avoid conflicts with globally installed Cuda """ if not self.is_conda: return linux_update = self.os_version[0].lower() == "linux" and self.backend == "nvidia" if not linux_update: return conda_prefix = os.environ["CONDA_PREFIX"] activate_folder = os.path.join(conda_prefix, "etc", "conda", "activate.d") deactivate_folder = os.path.join(conda_prefix, "etc", "conda", "deactivate.d") os.makedirs(activate_folder, exist_ok=True) os.makedirs(deactivate_folder, exist_ok=True) activate_script = os.path.join(conda_prefix, activate_folder, "env_vars.sh") deactivate_script = os.path.join(conda_prefix, deactivate_folder, "env_vars.sh") if os.path.isfile(activate_script): # Only create file if it does not already exist. There may be instances where people # have created their own scripts, but these should be few and far between and those # people should already know what they are doing. return conda_libs = os.path.join(conda_prefix, "lib") activate = ["#!/bin/sh\n\n", "export OLD_LD_LIBRARY_PATH=${LD_LIBRARY_PATH}\n", f"export LD_LIBRARY_PATH='{conda_libs}':${{LD_LIBRARY_PATH}}\n"] deactivate = ["#!/bin/sh\n\n", "export LD_LIBRARY_PATH=${OLD_LD_LIBRARY_PATH}\n", "unset OLD_LD_LIBRARY_PATH\n"] logger.info("Cuda search path set to '%s'", conda_libs) with open(activate_script, "w", encoding="utf8") as afile: afile.writelines(activate) with open(deactivate_script, "w", encoding="utf8") as afile: afile.writelines(deactivate) class Packages(): """ Holds information about installed and required packages. Handles updating dependencies based on running platform/backend Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system """ def __init__(self, environment: Environment) -> None: self._env = environment # Default TK has bad fonts under Linux. There is a better build in Conda-Forge, so set # channel accordingly tk_channel = "conda-forge" if self._env.os_version[0].lower() == "linux" else "default" self._conda_required_packages: list[tuple[list[str] | str, str]] = [("tk", tk_channel), ("git", "default")] self._update_backend_specific_conda() self._installed_packages = self._get_installed_packages() self._conda_installed_packages = self._get_installed_conda_packages() self._required_packages: list[tuple[str, list[tuple[str, str]]]] = [] self._missing_packages: list[tuple[str, list[tuple[str, str]]]] = [] self._conda_missing_packages: list[tuple[list[str] | str, str]] = [] @property def prerequisites(self) -> list[tuple[str, list[tuple[str, str]]]]: """ list: Any required packages that the installer needs prior to installing the faceswap environment on the specific platform that are not already installed """ all_installed = self._all_installed_packages candidates = self._format_requirements( [pkg for pkg, plat in _INSTALLER_REQUIREMENTS if self._env.os_version[0] == plat or (plat[0] == "!" and self._env.os_version[0] != plat[1:])]) retval = [(pkg, spec) for pkg, spec in candidates if pkg not in all_installed or ( pkg in all_installed and not self._validate_spec(spec, all_installed.get(pkg, "")) )] return retval @property def packages_need_install(self) -> bool: """bool: ``True`` if there are packages available that need to be installed """ return bool(self._missing_packages or self._conda_missing_packages) @property def to_install(self) -> list[tuple[str, list[tuple[str, str]]]]: """ list: The required packages that need to be installed """ return self._missing_packages @property def to_install_conda(self) -> list[tuple[list[str] | str, str]]: """ list: The required conda packages that need to be installed """ return self._conda_missing_packages @property def _all_installed_packages(self) -> dict[str, str]: """ dict[str, str]: The package names and version string for all installed packages across pip and conda """ return {**self._installed_packages, **self._conda_installed_packages} def _update_backend_specific_conda(self) -> None: """ Add backend specific packages to Conda required packages """ assert self._env.backend is not None to_add = _BACKEND_SPECIFIC_CONDA.get(self._env.backend) if not to_add: logger.debug("No backend packages to add for '%s'. All optional packages: %s", self._env.backend, _BACKEND_SPECIFIC_CONDA) return combined_cuda = [] for pkg in to_add: pkg, channel = _CONDA_MAPPING.get(pkg, (pkg, "")) if pkg == "zlib-wapi" and self._env.os_version[0].lower() != "windows": # TODO move this front and center continue if pkg in ("cudatoolkit", "cudnn"): # TODO Handle multiple cuda/cudnn requirements idx = 0 if pkg == "cudatoolkit" else 1 pkg = f"{pkg}{list(_TENSORFLOW_REQUIREMENTS.values())[0][idx]}" combined_cuda.append(pkg) continue self._conda_required_packages.append((pkg, channel)) logger.info("Adding conda required package '%s' for backend '%s')", pkg, self._env.backend) if combined_cuda: self._conda_required_packages.append((combined_cuda, channel)) logger.info("Adding conda required package '%s' for backend '%s')", combined_cuda, self._env.backend) @classmethod def _format_requirements(cls, packages: list[str] ) -> list[tuple[str, list[tuple[str, str]]]]: """ Parse a list of requirements.txt formatted package strings to a list of pkgresource formatted requirements """ return [(package.unsafe_name, package.specs) for package in parse_requirements(packages) if package.marker is None or package.marker.evaluate()] @classmethod def _validate_spec(cls, required: list[tuple[str, str]], existing: str) -> bool: """ Validate whether the required specification for a package is met by the installed version. required: list[tuple[str, str]] The required package version spec to check existing: str The version of the installed package Returns ------- bool ``True`` if the required specification is met by the existing specification """ ops = {"==": operator.eq, ">=": operator.ge, "<=": operator.le, ">": operator.gt, "<": operator.lt} if not required: return True return all(ops[spec[0]]([int(s) for s in existing.split(".")], [int(s) for s in spec[1].split(".")]) for spec in required) def _get_installed_packages(self) -> dict[str, str]: """ Get currently installed packages and add to :attr:`_installed_packages` Returns ------- dict[str, str] The installed package name and version string """ installed_packages = {} with Popen(f"\"{sys.executable}\" -m pip freeze --local", shell=True, stdout=PIPE) as chk: installed = chk.communicate()[0].decode(self._env.encoding, errors="ignore").splitlines() for pkg in installed: if "==" not in pkg: continue item = pkg.split("==") installed_packages[item[0]] = item[1] logger.debug(installed_packages) return installed_packages def _get_installed_conda_packages(self) -> dict[str, str]: """ Get currently installed conda packages Returns ------- dict[str, str] The installed package name and version string """ if not self._env.is_conda: return {} chk = os.popen("conda list").read() installed = [re.sub(" +", " ", line.strip()) for line in chk.splitlines() if not line.startswith("#")] retval = {} for pkg in installed: item = pkg.split(" ") retval[item[0]] = item[1] logger.debug(retval) return retval def get_required_packages(self) -> None: """ Load the requirements from the backend specific requirements list """ req_files = ["_requirements_base.txt", f"requirements_{self._env.backend}.txt"] pypath = os.path.dirname(os.path.realpath(__file__)) requirements = [] for req_file in req_files: requirements_file = os.path.join(pypath, "requirements", req_file) with open(requirements_file, encoding="utf8") as req: for package in req.readlines(): package = package.strip() if package and (not package.startswith(("#", "-r"))): requirements.append(package) self._required_packages = self._format_requirements(requirements) logger.debug(self._required_packages) def _update_tf_dep_nvidia(self) -> None: """ Update the Tensorflow dependency for global Cuda installs """ if self._env.is_conda: # Conda handles Cuda and cuDNN so nothing to do here return tf_ver = None cuda_inst = self._env.cuda_version cudnn_inst = self._env.cudnn_version if len(cudnn_inst) == 1: # Sometimes only major version is reported cudnn_inst = f"{cudnn_inst}.0" for key, val in _TENSORFLOW_REQUIREMENTS.items(): cuda_req = next(parse_requirements(f"cuda{val[0]}")).specs cudnn_req = next(parse_requirements(f"cudnn{val[1]}")).specs if (self._validate_spec(cuda_req, cuda_inst) and self._validate_spec(cudnn_req, cudnn_inst)): tf_ver = key break if tf_ver: # Remove the version of tensorflow in requirements file and add the correct version # that corresponds to the installed Cuda/cuDNN versions self._required_packages = [pkg for pkg in self._required_packages if pkg[0] != "tensorflow"] tf_ver = f"tensorflow{tf_ver}" self._required_packages.append(("tensorflow", next(parse_requirements(tf_ver)).specs)) return logger.warning( "The minimum Tensorflow requirement is 2.10 \n" "Tensorflow currently has no official prebuild for your CUDA, cuDNN combination.\n" "Either install a combination that Tensorflow supports or build and install your own " "tensorflow.\r\n" "CUDA Version: %s\r\n" "cuDNN Version: %s\r\n" "Help:\n" "Building Tensorflow: https://www.tensorflow.org/install/install_sources\r\n" "Tensorflow supported versions: " "https://www.tensorflow.org/install/source#tested_build_configurations", self._env.cuda_version, self._env.cudnn_version) custom_tf = input("Location of custom tensorflow wheel (leave blank to manually " "install): ") if not custom_tf: return custom_tf = os.path.realpath(os.path.expanduser(custom_tf)) global _INSTALL_FAILED # pylint:disable=global-statement if not os.path.isfile(custom_tf): logger.error("%s not found", custom_tf) _INSTALL_FAILED = True elif os.path.splitext(custom_tf)[1] != ".whl": logger.error("%s is not a valid pip wheel", custom_tf) _INSTALL_FAILED = True elif custom_tf: self._required_packages.append((custom_tf, [(custom_tf, "")])) def _update_tf_dep_rocm(self) -> None: """ Update the Tensorflow dependency for global ROCm installs """ if not any(self._env.rocm_version): # ROCm was not found and the install will be aborted return global _INSTALL_FAILED # pylint:disable=global-statement candidates = [key for key, val in _TENSORFLOW_ROCM_REQUIREMENTS.items() if val[0] <= self._env.rocm_version <= val[1]] if not candidates: _INSTALL_FAILED = True logger.error("No matching Tensorflow candidates found for ROCm %s in %s", ".".join(str(v) for v in self._env.rocm_version), _TENSORFLOW_ROCM_REQUIREMENTS) return # set tf_ver to the minimum and maximum compatible range tf_ver = f"{candidates[0].split(',')[0]},{candidates[-1].split(',')[-1]}" # Remove the version of tensorflow-rocm in requirements file and add the correct version # that corresponds to the installed ROCm version self._required_packages = [pkg for pkg in self._required_packages if not pkg[0].startswith("tensorflow-rocm")] tf_ver = f"tensorflow-rocm{tf_ver}" self._required_packages.append(("tensorflow-rocm", next(parse_requirements(tf_ver)).specs)) def update_tf_dep(self) -> None: """ Update Tensorflow Dependency. Selects a compatible version of Tensorflow for a globally installed GPU library """ if self._env.backend == "nvidia": self._update_tf_dep_nvidia() if self._env.backend == "rocm": self._update_tf_dep_rocm() def _check_conda_missing_dependencies(self) -> None: """ Check for conda missing dependencies and add to :attr:`_conda_missing_packages` """ if not self._env.is_conda: return for pkg in self._conda_required_packages: reqs = next(parse_requirements(pkg[0])) # TODO Handle '=' vs '==' for conda key = reqs.unsafe_name specs = reqs.specs if pkg[0] == "tk" and self._env.os_version[0].lower() == "linux": # Default tk has bad fonts under Linux. We pull in an explicit build from # Conda-Forge that is compiled with better fonts. # Ref: https://github.com/ContinuumIO/anaconda-issues/issues/6833 newpkg = (f"{pkg[0]}=*=xft_*", pkg[1]) # Swap out package for explicit XFT version self._conda_missing_packages.append(newpkg) # We also need to bring in xorg-libxft incase libXft does not exist on host system self._conda_missing_packages.append(_CONDA_MAPPING["xorg-libxft"]) continue if key not in self._conda_installed_packages: self._conda_missing_packages.append(pkg) continue if not self._validate_spec(specs, self._conda_installed_packages[key]): self._conda_missing_packages.append(pkg) logger.debug(self._conda_missing_packages) def check_missing_dependencies(self) -> None: """ Check for missing dependencies and add to :attr:`_missing_packages` """ for key, specs in self._required_packages: if self._env.is_conda: # Get Conda alias for Key key = _CONDA_MAPPING.get(key, (key, None))[0] if key not in self._all_installed_packages: # Add not installed packages to missing packages list self._missing_packages.append((key, specs)) continue if not self._validate_spec(specs, self._all_installed_packages.get(key, "")): self._missing_packages.append((key, specs)) logger.debug(self._missing_packages) self._check_conda_missing_dependencies() class Checks(): # pylint:disable=too-few-public-methods """ Pre-installation checks Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system """ def __init__(self, environment: Environment) -> None: self._env: Environment = environment self._tips: Tips = Tips() # Checks not required for installer if self._env.is_installer: return # Checks not required for Apple Silicon if self._env.backend == "apple_silicon": return self._user_input() self._check_cuda() self._check_rocm() if self._env.os_version[0] == "Windows": self._tips.pip() def _rocm_ask_enable(self) -> None: """ Set backend to 'rocm' if OS is Linux and ROCm support required """ if self._env.os_version[0] != "Linux": return logger.info("ROCm support:\r\nIf you are using an AMD GPU, then select 'yes'." "\r\nCPU/non-AMD GPU users should answer 'no'.\r\n") i = input("Enable ROCm Support? [y/N] ") if i in ("Y", "y"): logger.info("ROCm Support Enabled") self._env.backend = "rocm" def _directml_ask_enable(self) -> None: """ Set backend to 'directml' if OS is Windows and DirectML support required """ if self._env.os_version[0] != "Windows": return logger.info("DirectML support:\r\nIf you are using an AMD or Intel GPU, then select 'yes'." "\r\nNvidia users should answer 'no'.") i = input("Enable DirectML Support? [y/N] ") if i in ("Y", "y"): logger.info("DirectML Support Enabled") self._env.backend = "directml" def _user_input(self) -> None: """ Get user input for AMD/DirectML/ROCm/Cuda/Docker """ self._directml_ask_enable() self._rocm_ask_enable() if not self._env.backend: self._docker_ask_enable() self._cuda_ask_enable() if self._env.os_version[0] != "Linux" and (self._env.enable_docker and self._env.backend == "nvidia"): self._docker_confirm() if self._env.enable_docker: self._docker_tips() self._env.set_config() sys.exit(0) def _docker_ask_enable(self) -> None: """ Enable or disable Docker """ i = input("Enable Docker? [y/N] ") if i in ("Y", "y"): logger.info("Docker Enabled") self._env.enable_docker = True else: logger.info("Docker Disabled") self._env.enable_docker = False def _docker_confirm(self) -> None: """ Warn if nvidia-docker on non-Linux system """ logger.warning("Nvidia-Docker is only supported on Linux.\r\n" "Only CPU is supported in Docker for your system") self._docker_ask_enable() if self._env.enable_docker: logger.warning("CUDA Disabled") self._env.backend = "cpu" def _docker_tips(self) -> None: """ Provide tips for Docker use """ if self._env.backend != "nvidia": self._tips.docker_no_cuda() else: self._tips.docker_cuda() def _cuda_ask_enable(self) -> None: """ Enable or disable CUDA """ i = input("Enable CUDA? [Y/n] ") if i in ("", "Y", "y"): logger.info("CUDA Enabled") self._env.backend = "nvidia" def _check_cuda(self) -> None: """ Check for Cuda and cuDNN Locations. """ if self._env.backend != "nvidia": logger.debug("Skipping Cuda checks as not enabled") return if self._env.is_conda: logger.info("Skipping Cuda/cuDNN checks for Conda install") return if self._env.os_version[0] in ("Linux", "Windows"): global _INSTALL_FAILED # pylint:disable=global-statement check = CudaCheck() if check.cuda_version: self._env.cuda_cudnn[0] = check.cuda_version logger.info("CUDA version: %s", self._env.cuda_version) else: logger.error("CUDA not found. Install and try again.\n" "Recommended version: CUDA 10.1 cuDNN 7.6\n" "CUDA: https://developer.nvidia.com/cuda-downloads\n" "cuDNN: https://developer.nvidia.com/rdp/cudnn-download") _INSTALL_FAILED = True return if check.cudnn_version: self._env.cuda_cudnn[1] = ".".join(check.cudnn_version.split(".")[:2]) logger.info("cuDNN version: %s", self._env.cudnn_version) else: logger.error("cuDNN not found. See " "https://github.com/deepfakes/faceswap/blob/master/INSTALL.md#" "cudnn for instructions") _INSTALL_FAILED = True return # If we get here we're on MacOS self._tips.macos() logger.warning("Cannot find CUDA on macOS") self._env.cuda_cudnn[0] = input("Manually specify CUDA version: ") def _check_rocm(self) -> None: """ Check for ROCm version """ if self._env.backend != "rocm" or self._env.os_version[0] != "Linux": logger.info("Skipping ROCm checks as not enabled") return global _INSTALL_FAILED # pylint:disable=global-statement check = ROCmCheck() str_min = ".".join(str(v) for v in check.version_min) str_max = ".".join(str(v) for v in check.version_max) if check.is_valid: self._env.rocm_version = check.rocm_version logger.info("ROCm version: %s", ".".join(str(v) for v in self._env.rocm_version)) else: if check.rocm_version: msg = f"Incompatible ROCm version: {'.'.join(str(v) for v in check.rocm_version)}" else: msg = "ROCm not found" logger.error("%s.\n" "A compatible version of ROCm must be installed to proceed.\n" "ROCm versions between %s and %s are supported.\n" "ROCm install guide: https://docs.amd.com/bundle/ROCm_Installation_Guide" "v5.0/page/Overview_of_ROCm_Installation_Methods.html", msg, str_min, str_max) _INSTALL_FAILED = True def _check_ld_config(lib: str) -> str: """ Locate a library in ldconfig Parameters ---------- lib: str The library to locate Returns ------- str The library from ldconfig, or empty string if not found """ retval = "" ldconfig = which("ldconfig") if not ldconfig: return retval retval = next((line.decode("utf-8", errors="replace").strip() for line in run([ldconfig, "-p"], capture_output=True, check=False).stdout.splitlines() if lib.encode("utf-8") in line), "") if retval or (not retval and not os.environ.get("LD_LIBRARY_PATH")): return retval for path in os.environ["LD_LIBRARY_PATH"].split(":"): if not path or not os.path.exists(path): continue retval = next((fname.strip() for fname in reversed(os.listdir(path)) if lib in fname), "") if retval: break return retval class ROCmCheck(): # pylint:disable=too-few-public-methods """ Find the location of system installed ROCm on Linux """ def __init__(self) -> None: self.version_min = min(v[0] for v in _TENSORFLOW_ROCM_REQUIREMENTS.values()) self.version_max = max(v[1] for v in _TENSORFLOW_ROCM_REQUIREMENTS.values()) self.rocm_version: tuple[int, ...] = (0, 0, 0) if platform.system() == "Linux": self._rocm_check() @property def is_valid(self): """ bool: `True` if ROCm has been detected and is between the minimum and maximum compatible versions otherwise ``False`` """ return self.version_min <= self.rocm_version <= self.version_max def _rocm_check(self) -> None: """ Attempt to locate the installed ROCm version from the dynamic link loader. If not found with ldconfig then attempt to find it in LD_LIBRARY_PATH. If found, set the :attr:`rocm_version` to the discovered version """ chk = _check_ld_config("librocm-core.so.") if not chk: return rocm_vers = chk.strip() version = re.search(r"rocm\-(\d+\.\d+\.\d+)", rocm_vers) if version is None: return try: self.rocm_version = tuple(int(v) for v in version.groups()[0].split(".")) except ValueError: return class CudaCheck(): # pylint:disable=too-few-public-methods """ Find the location of system installed Cuda and cuDNN on Windows and Linux. """ def __init__(self) -> None: self.cuda_path: str | None = None self.cuda_version: str | None = None self.cudnn_version: str | None = None self._os: str = platform.system().lower() self._cuda_keys: list[str] = [key for key in os.environ if key.lower().startswith("cuda_path_v")] self._cudnn_header_files: list[str] = ["cudnn_version.h", "cudnn.h"] logger.debug("cuda keys: %s, cudnn header files: %s", self._cuda_keys, self._cudnn_header_files) if self._os in ("windows", "linux"): self._cuda_check() self._cudnn_check() def _cuda_check(self) -> None: """ Obtain the location and version of Cuda and populate :attr:`cuda_version` and :attr:`cuda_path` Initially just calls `nvcc -V` to get the installed version of Cuda currently in use. If this fails, drills down to more OS specific checking methods. """ with Popen("nvcc -V", shell=True, stdout=PIPE, stderr=PIPE) as chk: stdout, stderr = chk.communicate() if not stderr: version = re.search(r".*release (?P\d+\.\d+)", stdout.decode(locale.getpreferredencoding(), errors="ignore")) if version is not None: self.cuda_version = version.groupdict().get("cuda", None) path = which("nvcc") if path: path = path.split("\n")[0] # Split multiple entries and take first found while True: # Get Cuda root folder path, split = os.path.split(path) if split == "bin": break self.cuda_path = path return # Failed to load nvcc, manual check getattr(self, f"_cuda_check_{self._os}")() logger.debug("Cuda Version: %s, Cuda Path: %s", self.cuda_version, self.cuda_path) def _cuda_check_linux(self) -> None: """ For Linux check the dynamic link loader for libcudart. If not found with ldconfig then attempt to find it in LD_LIBRARY_PATH. """ chk = _check_ld_config("libcudart.so.") if not chk: # Cuda not found return cudavers = chk.strip().replace("libcudart.so.", "") self.cuda_version = cudavers[:cudavers.find(" ")] if " " in cudavers else cudavers cuda_path = chk[chk.find("=>") + 3:chk.find("targets") - 1] if os.path.exists(cuda_path): self.cuda_path = cuda_path def _cuda_check_windows(self) -> None: """ Check Windows CUDA Version and path from Environment Variables""" if not self._cuda_keys: # Cuda environment variable not found return self.cuda_version = self._cuda_keys[0].lower().replace("cuda_path_v", "").replace("_", ".") self.cuda_path = os.environ[self._cuda_keys[0][0]] def _cudnn_check_files(self) -> bool: """ Check header files for cuDNN version """ cudnn_checkfiles = getattr(self, f"_get_checkfiles_{self._os}")() cudnn_checkfile = next((hdr for hdr in cudnn_checkfiles if os.path.isfile(hdr)), None) logger.debug("cudnn checkfiles: %s", cudnn_checkfile) if not cudnn_checkfile: return False found = 0 with open(cudnn_checkfile, "r", encoding="utf8") as ofile: for line in ofile: if line.lower().startswith("#define cudnn_major"): major = line[line.rfind(" ") + 1:].strip() found += 1 elif line.lower().startswith("#define cudnn_minor"): minor = line[line.rfind(" ") + 1:].strip() found += 1 elif line.lower().startswith("#define cudnn_patchlevel"): patchlevel = line[line.rfind(" ") + 1:].strip() found += 1 if found == 3: break if found != 3: # Full version not determined return False self.cudnn_version = ".".join([str(major), str(minor), str(patchlevel)]) logger.debug("cudnn version: %s", self.cudnn_version) return True def _cudnn_check(self) -> None: """ Check Linux or Windows cuDNN Version from cudnn.h and add to :attr:`cudnn_version`. """ if self._cudnn_check_files(): return if self._os == "windows": return chk = _check_ld_config("libcudnn.so.") if not chk: return cudnnvers = chk.strip().replace("libcudnn.so.", "").split()[0] if not cudnnvers: return self.cudnn_version = cudnnvers logger.debug("cudnn version: %s", self.cudnn_version) def _get_checkfiles_linux(self) -> list[str]: """ Return the the files to check for cuDNN locations for Linux by querying the dynamic link loader. Returns ------- list List of header file locations to scan for cuDNN versions """ chk = _check_ld_config("libcudnn.so.") chk = chk.strip().replace("libcudnn.so.", "") if not chk: return [] cudnn_vers = chk[0] header_files = [f"cudnn_v{cudnn_vers}.h"] + self._cudnn_header_files cudnn_path = os.path.realpath(chk[chk.find("=>") + 3:chk.find("libcudnn") - 1]) cudnn_path = cudnn_path.replace("lib", "include") cudnn_checkfiles = [os.path.join(cudnn_path, header) for header in header_files] return cudnn_checkfiles def _get_checkfiles_windows(self) -> list[str]: """ Return the check-file locations for Windows. Just looks inside the include folder of the discovered :attr:`cuda_path` Returns ------- list List of header file locations to scan for cuDNN versions """ # TODO A more reliable way of getting the windows location if not self.cuda_path or not os.path.exists(self.cuda_path): return [] scandir = os.path.join(self.cuda_path, "include") cudnn_checkfiles = [os.path.join(scandir, header) for header in self._cudnn_header_files] return cudnn_checkfiles class Install(): # pylint:disable=too-few-public-methods """ Handles installation of Faceswap requirements Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system is_gui: bool, Optional ``True`` if the caller is the Faceswap GUI. Used to prevent output of progress bars which get scrambled in the GUI """ def __init__(self, environment: Environment, is_gui: bool = False) -> None: self._env = environment self._packages = Packages(environment) self._is_gui = is_gui if self._env.os_version[0] == "Windows": self._installer: type[Installer] = WinPTYInstaller else: self._installer = PexpectInstaller if not self._env.is_installer and not self._env.updater: self._ask_continue() self._packages.get_required_packages() self._packages.update_tf_dep() self._packages.check_missing_dependencies() if self._env.updater and not self._packages.packages_need_install: logger.info("All Dependencies are up to date") return logger.info("Installing Required Python Packages. This may take some time...") self._install_setup_packages() self._install_missing_dep() if self._env.updater: return if not _INSTALL_FAILED: logger.info("All python3 dependencies are met.\r\nYou are good to go.\r\n\r\n" "Enter: 'python faceswap.py -h' to see the options\r\n" " 'python faceswap.py gui' to launch the GUI") else: logger.error("Some packages failed to install. This may be a temporary error which " "might be fixed by re-running this script. Otherwise please install " "these packages manually.") sys.exit(1) def _ask_continue(self) -> None: """ Ask Continue with Install """ text = "Please ensure your System Dependencies are met" if self._env.backend == "rocm": text += ("\r\nROCm users: Please ensure that your AMD GPU is supported by the " "installed ROCm version before proceeding.") text += "\r\nContinue? [y/N] " inp = input(text) if inp in ("", "N", "n"): logger.error("Please install system dependencies to continue") sys.exit(1) @classmethod def _format_package(cls, package: str, version: list[tuple[str, str]]) -> str: """ Format a parsed requirement package and version string to a format that can be used by the installer. Parameters ---------- package: str The package name version: list The parsed requirement version strings Returns ------- str The formatted full package and version string """ return f"{package}{','.join(''.join(spec) for spec in version)}" def _install_setup_packages(self) -> None: """ Install any packages that are required for the setup.py installer to work. This includes the pexpect package if it is not already installed. Subprocess is used as we do not currently have pexpect """ for pkg in self._packages.prerequisites: pkg_str = self._format_package(*pkg) if self._env.is_conda: cmd = ["conda", "install", "-y"] if any(char in pkg_str for char in (" ", "<", ">", "*", "|")): pkg_str = f"\"{pkg_str}\"" else: cmd = [sys.executable, "-m", "pip", "install", "--no-cache-dir"] if self._env.is_admin: cmd.append("--user") cmd.append(pkg_str) clean_pkg = pkg_str.replace("\"", "") installer = SubProcInstaller(self._env, clean_pkg, cmd, self._is_gui) if installer() != 0: logger.error("Unable to install package: %s. Process aborted", clean_pkg) sys.exit(1) def _install_conda_packages(self) -> None: """ Install required conda packages """ logger.info("Installing Required Conda Packages. This may take some time...") for pkg in self._packages.to_install_conda: channel = "" if len(pkg) != 2 else pkg[1] self._from_conda(pkg[0], channel=channel, conda_only=True) def _install_python_packages(self) -> None: """ Install required pip packages """ conda_only = False assert self._env.backend is not None for pkg, version in self._packages.to_install: if self._env.is_conda: mapping = _CONDA_MAPPING.get(pkg, (pkg, "")) channel = "" if mapping[1] is None else mapping[1] pkg = mapping[0] pip_only = pkg in _FORCE_PIP.get(self._env.backend, []) or pkg in _FORCE_PIP["all"] pkg = self._format_package(pkg, version) if version else pkg if self._env.is_conda and not pip_only: if self._from_conda(pkg, channel=channel, conda_only=conda_only): continue self._from_pip(pkg) def _install_missing_dep(self) -> None: """ Install missing dependencies """ self._install_conda_packages() # Install conda packages first self._install_python_packages() def _from_conda(self, package: list[str] | str, channel: str = "", conda_only: bool = False) -> bool: """ Install a conda package Parameters ---------- package: list[str] | str The full formatted package(s), with version(s), to be installed channel: str, optional The Conda channel to install from. Select empty string for default channel. Default: ``""`` (empty string) conda_only: bool, optional ``True`` if the package is only available in Conda. Default: ``False`` Returns ------- bool ``True`` if the package was succesfully installed otherwise ``False`` """ # Packages with special characters need to be enclosed in double quotes success = True condaexe = ["conda", "install", "-y"] if channel: condaexe.extend(["-c", channel]) pkgs = package if isinstance(package, list) else [package] for i, pkg in enumerate(pkgs): if any(char in pkg for char in (" ", "<", ">", "*", "|")): pkgs[i] = f"\"{pkg}\"" condaexe.extend(pkgs) clean_pkg = " ".join([p.replace("\"", "") for p in pkgs]) installer = self._installer(self._env, clean_pkg, condaexe, self._is_gui) retcode = installer() if retcode != 0 and not conda_only: logger.info("%s not available in Conda. Installing with pip", package) elif retcode != 0: logger.warning("Couldn't install %s with Conda. Please install this package " "manually", package) success = retcode == 0 and success return success def _from_pip(self, package: str) -> None: """ Install a pip package Parameters ---------- package: str The full formatted package, with version, to be installed """ pipexe = [sys.executable, "-u", "-m", "pip", "install", "--no-cache-dir"] # install as user to solve perm restriction if not self._env.is_admin and not self._env.is_virtualenv: pipexe.append("--user") pipexe.append(package) installer = self._installer(self._env, package, pipexe, self._is_gui) if installer() != 0: logger.warning("Couldn't install %s with pip. Please install this package manually", package) global _INSTALL_FAILED # pylint:disable=global-statement _INSTALL_FAILED = True class ProgressBar(): """ Simple progress bar using STDLib for intercepting Conda installs and keeping the terminal from getting jumbled """ def __init__(self): self._width_desc = 21 self._width_size = 9 self._width_bar = 35 self._width_pct = 4 self._marker = "█" self._cursor_visible = True self._current_pos = 0 self._bars = [] @classmethod def _display_cursor(cls, visible: bool) -> None: """ Sends ANSI code to display or hide the cursor Parameters ---------- visible: bool ``True`` to display the cursor. ``False`` to hide the cursor """ code = "\x1b[?25h" if visible else "\x1b[?25l" print(code, end="\r") def _format_bar(self, description: str, size: str, percent: int) -> str: """ Format the progress bar for display Parameters ---------- description: str The description to display for the progress bar size: str The size of the download, including units percent: int The percentage progress of the bar """ size = size[:self._width_size].ljust(self._width_size) bar_len = int(self._width_bar * (percent / 100)) progress = f"{self._marker * bar_len}"[:self._width_bar].ljust(self._width_bar) pct = f"{percent}%"[:self._width_pct].rjust(self._width_pct) return f" {description}| {size} | {progress} | {pct}" def _move_cursor(self, position: int) -> str: """ Generate ANSI code for moving the cursor to the given progress bar's position Parameters ---------- position: int The progress bar position to move to Returns ------- str The ansi code to move to the given position """ move = position - self._current_pos retval = "\x1b[A" if move < 0 else "\x1b[B" if move > 0 else "" retval *= abs(move) return retval def __call__(self, description: str, size: str, percent: int) -> None: """ Create or update a progress bar Parameters ---------- description: str The description to display for the progress bar size: str The size of the download, including units percent: int The percentage progress of the bar """ if self._cursor_visible: self._display_cursor(visible=False) desc = description[:self._width_desc].ljust(self._width_desc) if desc not in self._bars: self._bars.append(desc) position = self._bars.index(desc) pbar = self._format_bar(desc, size, percent) output = f"{self._move_cursor(position)} {pbar}" print(output) self._current_pos = position + 1 def close(self) -> None: """ Reset all progress bars and re-enable the cursor """ print(self._move_cursor(len(self._bars)), end="\r") self._display_cursor(True) self._cursor_visible = True self._current_pos = 0 self._bars = [] class Installer(): """ Parent class for package installers. PyWinPty is used for Windows, Pexpect is used for Linux, as these can provide us with realtime output. Subprocess is used as a fallback if any of the above fail, but this caches output, so it can look like the process has hung to the end user Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system package: str The package name that is being installed command: list The command to run is_gui: bool ``True`` if the process is being called from the Faceswap GUI """ def __init__(self, environment: Environment, package: str, command: list[str], is_gui: bool) -> None: logger.info("Installing %s", package) logger.debug("argv: %s", command) self._env = environment self._package = package self._command = command self._is_conda = "conda" in command self._is_gui = is_gui self._progess_bar = ProgressBar() self._re_conda = re.compile( rb"(?P^\S+)\s+\|\s+(?P\d+\.?\d*\s\w+).*\|\s+(?P\d+%)") self._re_pip_pkg = re.compile(rb"^\s*Downloading\s(?P\w+-.+?)-") self._re_pip = re.compile(rb"(?P\d+\.?\d*)/(?P\d+\.?\d*\s\w+)") self._pip_pkg = "" self._seen_lines: set[str] = set() def __call__(self) -> int: """ Call the subclassed call function Returns ------- int The return code of the package install process """ try: returncode = self.call() except Exception as err: # pylint:disable=broad-except logger.debug("Failed to install with %s. Falling back to subprocess. Error: %s", self.__class__.__name__, str(err)) self._progess_bar.close() returncode = SubProcInstaller(self._env, self._package, self._command, self._is_gui)() logger.debug("Package: %s, returncode: %s", self._package, returncode) self._progess_bar.close() return returncode def call(self) -> int: """ Override for package installer specific logic. Returns ------- int The return code of the package install process """ raise NotImplementedError() def _print_conda(self, text: bytes) -> None: """ Output progress for Conda installs Parameters ---------- text: bytes The text to print """ data = self._re_conda.match(text) if not data: return lib = data.groupdict()["lib"].decode("utf-8", errors="replace") size = data.groupdict()["tot"].decode("utf-8", errors="replace") progress = int(data.groupdict()["prg"].decode("utf-8", errors="replace")[:-1]) self._progess_bar(lib, size, progress) def _print_pip(self, text: bytes) -> None: """ Output progress for Pip installs Parameters ---------- text: bytes The text to print """ pkg = self._re_pip_pkg.match(text) if pkg: logger.debug("Collected pip package '%s'", pkg) self._pip_pkg = pkg.groupdict()["lib"].decode("utf-8", errors="replace") return data = self._re_pip.search(text) if not data: return done = float(data.groupdict()["done"].decode("utf-8", errors="replace")) size = data.groupdict()["tot"].decode("utf-8", errors="replace") progress = int(round(done / float(size.split()[0]) * 100, 0)) self._progess_bar(self._pip_pkg, size, progress) def _non_gui_print(self, text: bytes) -> None: """ Print output to console if not running in the GUI Parameters ---------- text: bytes The text to print """ if self._is_gui: return if self._is_conda: self._print_conda(text) else: self._print_pip(text) def _seen_line_log(self, text: str) -> None: """ Output gets spammed to the log file when conda is waiting/processing. Only log each unique line once. Parameters ---------- text: str The text to log """ if text in self._seen_lines: return logger.debug(text) self._seen_lines.add(text) class PexpectInstaller(Installer): # pylint:disable=too-few-public-methods """ Package installer for Linux/macOS using Pexpect Uses Pexpect for installing packages allowing access to realtime feedback Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system package: str The package name that is being installed command: list The command to run is_gui: bool ``True`` if the process is being called from the Faceswap GUI """ def call(self) -> int: """ Install a package using the Pexpect module Returns ------- int The return code of the package install process """ import pexpect # pylint:disable=import-outside-toplevel,import-error proc = pexpect.spawn(" ".join(self._command), timeout=None) while True: try: proc.expect([b"\r\n", b"\r"]) line: bytes = proc.before self._seen_line_log(line.decode("utf-8", errors="replace").rstrip()) self._non_gui_print(line) except pexpect.EOF: break proc.close() return proc.exitstatus class WinPTYInstaller(Installer): # pylint:disable=too-few-public-methods """ Package installer for Windows using WinPTY Spawns a pseudo PTY for installing packages allowing access to realtime feedback Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system package: str The package name that is being installed command: list The command to run is_gui: bool ``True`` if the process is being called from the Faceswap GUI """ def __init__(self, environment: Environment, package: str, command: list[str], is_gui: bool) -> None: super().__init__(environment, package, command, is_gui) self._cmd = which(command[0], path=os.environ.get('PATH', os.defpath)) self._cmdline = list2cmdline(command) logger.debug("cmd: '%s', cmdline: '%s'", self._cmd, self._cmdline) self._pbar = re.compile(r"(?:eta\s[\d\W]+)|(?:\s+\|\s+\d+%)\Z") self._eof = False self._read_bytes = 1024 self._lines: list[str] = [] self._out = "" def _read_from_pty(self, proc: T.Any, winpty_error: T.Any) -> None: """ Read :attr:`_num_bytes` from WinPTY. If there is an error reading, recursively halve the number of bytes read until we get a succesful read. If we get down to 1 byte without a succesful read, assume we are at EOF. Parameters ---------- proc: :class:`winpty.PTY` The WinPTY process winpty_error: :class:`winpty.WinptyError` The winpty error exception. Passed in as WinPTY is not in global scope """ try: from_pty = proc.read(self._read_bytes) except winpty_error: # TODO Reinsert this check # The error message "pipe has been ended" is language specific so this check # fails on non english systems. For now we just swallow all errors until no # bytes are left to read and then check the return code # if any(val in str(err) for val in ["EOF", "pipe has been ended"]): # # Get remaining bytes. On a comms error, the buffer remains unread so keep # # halving buffer amount until down to 1 when we know we have everything # if self._read_bytes == 1: # self._eof = True # from_pty = "" # self._read_bytes //= 2 # else: # raise # Get remaining bytes. On a comms error, the buffer remains unread so keep # halving buffer amount until down to 1 when we know we have everything if self._read_bytes == 1: self._eof = True from_pty = "" self._read_bytes //= 2 self._out += from_pty def _out_to_lines(self) -> None: """ Process the winpty output into separate lines. Roll over any semi-consumed lines to the next proc call. """ if "\n" not in self._out: return self._lines.extend(self._out.split("\n")) if self._out.endswith("\n") or self._eof: # Ends on newline or is EOF self._out = "" else: # roll over semi-consumed line to next read self._out = self._lines[-1] self._lines = self._lines[:-1] def call(self) -> int: """ Install a package using the PyWinPTY module Returns ------- int The return code of the package install process """ import winpty # pylint:disable=import-outside-toplevel,import-error # For some reason with WinPTY we need to pass in the full command. Probably a bug proc = winpty.PTY( 100, 24, backend=winpty.enums.Backend.WinPTY, # ConPTY hangs and has lots of Ansi Escapes agent_config=winpty.enums.AgentConfig.WINPTY_FLAG_PLAIN_OUTPUT) # Strip all Ansi if not proc.spawn(self._cmd, cmdline=self._cmdline): del proc raise RuntimeError("Failed to spawn winpty") while True: self._read_from_pty(proc, winpty.WinptyError) self._out_to_lines() for line in self._lines: self._seen_line_log(line.rstrip()) self._non_gui_print(line.encode("utf-8", errors="replace")) self._lines = [] if self._eof: returncode = proc.get_exitstatus() break del proc return returncode class SubProcInstaller(Installer): """ The fallback package installer if either of the OS specific installers fail. Uses the python Subprocess module to install packages. Feedback does not return in realtime so the process can look like it has hung to the end user Parameters ---------- environment: :class:`Environment` Environment class holding information about the running system package: str The package name that is being installed command: list The command to run is_gui: bool ``True`` if the process is being called from the Faceswap GUI """ def __init__(self, environment: Environment, package: str, command: list[str], is_gui: bool) -> None: super().__init__(environment, package, command, is_gui) self._shell = self._env.os_version[0] == "Windows" and command[0] == "conda" def __call__(self) -> int: """ Override default call function so we don't recursively call ourselves on failure. """ returncode = self.call() logger.debug("Package: %s, returncode: %s", self._package, returncode) return returncode def call(self) -> int: """ Install a package using the Subprocess module Returns ------- int The return code of the package install process """ with Popen(self._command, bufsize=0, stdout=PIPE, stderr=STDOUT, shell=self._shell) as proc: while True: if proc.stdout is not None: lines = proc.stdout.readline() returncode = proc.poll() if lines == b"" and returncode is not None: break for line in lines.split(b"\r"): self._seen_line_log(line.decode("utf-8", errors="replace").rstrip()) self._non_gui_print(line) return returncode class Tips(): """ Display installation Tips """ @classmethod def docker_no_cuda(cls) -> None: """ Output Tips for Docker without Cuda """ logger.info( "1. Install Docker from: https://www.docker.com/get-started\n\n" "2. Enter the Faceswap folder and build the Docker Image For Faceswap:\n" " docker build -t faceswap-cpu -f Dockerfile.cpu .\n\n" "3. Launch and enter the Faceswap container:\n" " a. Headless:\n" " docker run --rm -it -v ./:/srv faceswap-cpu\n\n" " b. GUI:\n" " xhost +local: && \\ \n" " docker run --rm -it \\ \n" " -v ./:/srv \\ \n" " -v /tmp/.X11-unix:/tmp/.X11-unix \\ \n" " -e DISPLAY=${DISPLAY} \\ \n" " faceswap-cpu \n") logger.info("That's all you need to do with docker. Have fun.") @classmethod def docker_cuda(cls) -> None: """ Output Tips for Docker with Cuda""" logger.info( "1. Install Docker from: https://www.docker.com/get-started\n\n" "2. Install latest CUDA 11 and cuDNN 8 from: https://developer.nvidia.com/cuda-" "downloads\n\n" "3. Install the the Nvidia Container Toolkit from https://docs.nvidia.com/datacenter/" "cloud-native/container-toolkit/latest/install-guide\n\n" "4. Restart Docker Service\n\n" "5. Enter the Faceswap folder and build the Docker Image For Faceswap:\n" " docker build -t faceswap-gpu -f Dockerfile.gpu .\n\n" "6. Launch and enter the Faceswap container:\n" " a. Headless:\n" " docker run --runtime=nvidia --rm -it -v ./:/srv faceswap-gpu\n\n" " b. GUI:\n" " xhost +local: && \\ \n" " docker run --runtime=nvidia --rm -it \\ \n" " -v ./:/srv \\ \n" " -v /tmp/.X11-unix:/tmp/.X11-unix \\ \n" " -e DISPLAY=${DISPLAY} \\ \n" " faceswap-gpu \n") logger.info("That's all you need to do with docker. Have fun.") @classmethod def macos(cls) -> None: """ Output Tips for macOS""" logger.info( "setup.py does not directly support macOS. The following tips should help:\n\n" "1. Install system dependencies:\n" "XCode from the Apple Store\n" "XQuartz: https://www.xquartz.org/\n\n" "2a. It is recommended to use Anaconda for your Python Virtual Environment as this\n" "will handle the installation of CUDA and cuDNN for you:\n" "https://www.anaconda.com/distribution/\n\n" "2b. If you do not want to use Anaconda you will need to manually install CUDA and " "cuDNN:\n" "CUDA: https://developer.nvidia.com/cuda-downloads" "cuDNN: https://developer.nvidia.com/rdp/cudnn-download\n\n") @classmethod def pip(cls) -> None: """ Pip Tips """ logger.info("1. Install PIP requirements\n" "You may want to execute `chcp 65001` in cmd line\n" "to fix Unicode issues on Windows when installing dependencies") if __name__ == "__main__": logfile = os.path.join(os.path.dirname(os.path.realpath(sys.argv[0])), "faceswap_setup.log") log_setup("INFO", logfile, "setup") logger.debug("Setup called with args: %s", sys.argv) ENV = Environment() Checks(ENV) ENV.set_config() if _INSTALL_FAILED: sys.exit(1) Install(ENV)