import os import sys import platform import subprocess import shutil import time import ssl import tempfile from pathlib import Path from datetime import datetime class Diagnostics: FILENAME = 'report.txt' def __init__(self): self.errors = [] self.warnings = [] if os.path.exists(self.FILENAME): os.remove(self.FILENAME) def log(self, message): print(message) with open(self.FILENAME, 'a', encoding='utf-8') as f: f.write(message + "\n") def start(self): now = datetime.now().strftime("%Y-%m-%d %H:%M:%S") self.log(f"Starting diagnostics at {now}\n") def end(self): now = datetime.now().strftime("%Y-%m-%d %H:%M:%S") self.log(f"\n\nCompleted diagnostics at {now}\n") print("\nPlease send these diagnostics to me at ed@edwarddonner.com") print(f"Either copy & paste the above output into an email, or attach the file {self.FILENAME} that has been created in this directory.") def _log_error(self, message): self.log(f"ERROR: {message}") self.errors.append(message) def _log_warning(self, message): self.log(f"WARNING: {message}") self.warnings.append(message) def run(self): self.start() self._step1_system_info() self._step2_check_files() self._step3_git_repo() self._step4_check_env_file() self._step5_anaconda_check() self._step6_virtualenv_check() self._step7_network_connectivity() self._step8_environment_variables() self._step9_additional_diagnostics() if self.warnings: self.log("\n===== Warnings Found =====") self.log("The following warnings were detected. They might not prevent the program from running but could cause unexpected behavior:") for warning in self.warnings: self.log(f"- {warning}") if self.errors: self.log("\n===== Errors Found =====") self.log("The following critical issues were detected. Please address them before proceeding:") for error in self.errors: self.log(f"- {error}") if not self.errors and not self.warnings: self.log("\nāœ… All diagnostics passed successfully!") self.end() def _step1_system_info(self): self.log("===== System Information =====") try: system = platform.system() self.log(f"Operating System: {system}") if system == "Windows": release, version, csd, ptype = platform.win32_ver() self.log(f"Windows Release: {release}") self.log(f"Windows Version: {version}") elif system == "Darwin": release, version, machine = platform.mac_ver() self.log(f"MacOS Version: {release}") else: self.log(f"Platform: {platform.platform()}") self.log(f"Architecture: {platform.architecture()}") self.log(f"Machine: {platform.machine()}") self.log(f"Processor: {platform.processor()}") try: import psutil ram = psutil.virtual_memory() total_ram_gb = ram.total / (1024 ** 3) available_ram_gb = ram.available / (1024 ** 3) self.log(f"Total RAM: {total_ram_gb:.2f} GB") self.log(f"Available RAM: {available_ram_gb:.2f} GB") if available_ram_gb < 2: self._log_warning(f"Low available RAM: {available_ram_gb:.2f} GB") except ImportError: self._log_warning("psutil module not found. Cannot determine RAM information.") total, used, free = shutil.disk_usage(os.path.expanduser("~")) free_gb = free / (1024 ** 3) self.log(f"Free Disk Space: {free_gb:.2f} GB") if free_gb < 5: self._log_warning(f"Low disk space: {free_gb:.2f} GB free") except Exception as e: self._log_error(f"System information check failed: {e}") def _step2_check_files(self): self.log("\n===== File System Information =====") try: current_dir = os.getcwd() self.log(f"Current Directory: {current_dir}") # Check write permissions test_file = Path(current_dir) / ".test_write_permission" try: test_file.touch(exist_ok=True) test_file.unlink() self.log("Write permission: OK") except Exception as e: self._log_error(f"No write permission in current directory: {e}") self.log("\nFiles in Current Directory:") try: for item in sorted(os.listdir(current_dir)): self.log(f" - {item}") except Exception as e: self._log_error(f"Cannot list directory contents: {e}") except Exception as e: self._log_error(f"File system check failed: {e}") def _step3_git_repo(self): self.log("\n===== Git Repository Information =====") try: result = subprocess.run(['git', 'rev-parse', '--show-toplevel'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True) if result.returncode == 0: git_root = result.stdout.strip() self.log(f"Git Repository Root: {git_root}") result = subprocess.run(['git', 'rev-parse', 'HEAD'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True) if result.returncode == 0: self.log(f"Current Commit: {result.stdout.strip()}") else: self._log_warning(f"Could not get current commit: {result.stderr.strip()}") result = subprocess.run(['git', 'remote', 'get-url', 'origin'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True) if result.returncode == 0: self.log(f"Remote Origin: {result.stdout.strip()}") else: self._log_warning("No remote 'origin' configured") else: self._log_warning("Not a git repository") except FileNotFoundError: self._log_warning("Git is not installed or not in PATH") except Exception as e: self._log_error(f"Git check failed: {e}") def _step4_check_env_file(self): self.log("\n===== Environment File Check =====") try: result = subprocess.run(['git', 'rev-parse', '--show-toplevel'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True) if result.returncode == 0: git_root = result.stdout.strip() env_path = os.path.join(git_root, '.env') if os.path.isfile(env_path): self.log(f".env file exists at: {env_path}") try: with open(env_path, 'r') as f: has_api_key = any(line.strip().startswith('OPENAI_API_KEY=') for line in f) if has_api_key: self.log("OPENAI_API_KEY found in .env file") else: self._log_warning("OPENAI_API_KEY not found in .env file") except Exception as e: self._log_error(f"Cannot read .env file: {e}") else: self._log_warning(".env file not found in project root") # Check for additional .env files for root, _, files in os.walk(git_root): if '.env' in files and os.path.join(root, '.env') != env_path: self._log_warning(f"Additional .env file found at: {os.path.join(root, '.env')}") else: self._log_warning("Git root directory not found. Cannot perform .env file check.") except FileNotFoundError: self._log_warning("Git is not installed or not in PATH") except Exception as e: self._log_error(f"Environment file check failed: {e}") def _step5_anaconda_check(self): self.log("\n===== Anaconda Environment Check =====") try: conda_prefix = os.environ.get('CONDA_PREFIX') if conda_prefix: self.log("Anaconda environment is active:") self.log(f"Environment Path: {conda_prefix}") self.log(f"Environment Name: {os.path.basename(conda_prefix)}") conda_exe = os.environ.get('CONDA_EXE', 'conda') result = subprocess.run([conda_exe, '--version'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True) if result.returncode == 0: self.log(f"Conda Version: {result.stdout.strip()}") else: self._log_warning("Could not determine Conda version") self._check_python_packages() else: self.log("No active Anaconda environment detected") except Exception as e: self._log_error(f"Anaconda environment check failed: {e}") def _step6_virtualenv_check(self): self.log("\n===== Virtualenv Check =====") try: virtual_env = os.environ.get('VIRTUAL_ENV') if virtual_env: self.log("Virtualenv is active:") self.log(f"Environment Path: {virtual_env}") self.log(f"Environment Name: {os.path.basename(virtual_env)}") self._check_python_packages() else: self.log("No active virtualenv detected") if not virtual_env and not os.environ.get('CONDA_PREFIX'): self._log_warning("Neither virtualenv nor Anaconda environment is active") except Exception as e: self._log_error(f"Virtualenv check failed: {e}") def _check_python_packages(self): self.log("\nPython Environment:") self.log(f"Python Version: {sys.version}") self.log(f"Python Executable: {sys.executable}") required_packages = ['openai', 'python-dotenv', 'requests', 'gradio', 'transformers'] try: import pkg_resources installed = {pkg.key: pkg.version for pkg in pkg_resources.working_set} self.log("\nRequired Package Versions:") for package in required_packages: if package in installed: self.log(f"{package}: {installed[package]}") else: self._log_error(f"Required package '{package}' is not installed") # Check for potentially conflicting packages problem_pairs = [ ('openai', 'openai-python'), ('python-dotenv', 'dotenv') ] for pkg1, pkg2 in problem_pairs: if pkg1 in installed and pkg2 in installed: self._log_warning(f"Potentially conflicting packages: {pkg1} and {pkg2}") except ImportError: self._log_error("Could not import 'pkg_resources' to check installed packages") except Exception as e: self._log_error(f"Package check failed: {e}") def _step7_network_connectivity(self): self.log("\n===== Network Connectivity Check =====") try: self.log(f"SSL Version: {ssl.OPENSSL_VERSION}") import requests import speedtest # Importing the speedtest-cli library # Basic connectivity check urls = [ 'https://www.google.com', 'https://www.cloudflare.com' ] connected = False for url in urls: try: start_time = time.time() response = requests.get(url, timeout=10) elapsed_time = time.time() - start_time response.raise_for_status() self.log(f"āœ“ Connected to {url}") self.log(f" Response time: {elapsed_time:.2f}s") if elapsed_time > 2: self._log_warning(f"Slow response from {url}: {elapsed_time:.2f}s") connected = True break except requests.exceptions.RequestException as e: self._log_warning(f"Failed to connect to {url}: {e}") else: self.log("Basic connectivity OK") if not connected: self._log_error("Failed to connect to any test URLs") return # Bandwidth test using speedtest-cli self.log("\nPerforming bandwidth test using speedtest-cli...") try: st = speedtest.Speedtest() st.get_best_server() download_speed = st.download() # Bits per second upload_speed = st.upload() # Bits per second download_mbps = download_speed / 1e6 # Convert to Mbps upload_mbps = upload_speed / 1e6 self.log(f"Download speed: {download_mbps:.2f} Mbps") self.log(f"Upload speed: {upload_mbps:.2f} Mbps") if download_mbps < 1: self._log_warning("Download speed is low") if upload_mbps < 0.5: self._log_warning("Upload speed is low") except speedtest.ConfigRetrievalError: self._log_error("Failed to retrieve speedtest configuration") except Exception as e: self._log_warning(f"Bandwidth test failed: {e}") except ImportError: self._log_error("Required packages are not installed. Please install them using 'pip install requests speedtest-cli'") except Exception as e: self._log_error(f"Network connectivity check failed: {e}") def _step8_environment_variables(self): self.log("\n===== Environment Variables Check =====") try: # Check Python paths pythonpath = os.environ.get('PYTHONPATH') if pythonpath: self.log("\nPYTHONPATH:") for path in pythonpath.split(os.pathsep): self.log(f" - {path}") else: self.log("\nPYTHONPATH is not set.") self.log("\nPython sys.path:") for path in sys.path: self.log(f" - {path}") # Check OPENAI_API_KEY from dotenv import load_dotenv load_dotenv() api_key = os.environ.get('OPENAI_API_KEY') if api_key: self.log("OPENAI_API_KEY is set after calling load_dotenv()") if not api_key.startswith('sk-proj-') or len(api_key)<12: self._log_warning("OPENAI_API_KEY format looks incorrect after calling load_dotenv()") else: self._log_warning("OPENAI_API_KEY environment variable is not set after calling load_dotenv()") except Exception as e: self._log_error(f"Environment variables check failed: {e}") def _step9_additional_diagnostics(self): self.log("\n===== Additional Diagnostics =====") try: # Get the site-packages directory paths import site site_packages_paths = site.getsitepackages() if hasattr(site, 'getusersitepackages'): site_packages_paths.append(site.getusersitepackages()) # Function to check if a path is within site-packages def is_in_site_packages(path): return any(os.path.commonpath([path, sp]) == sp for sp in site_packages_paths) # Check for potential name conflicts in the current directory and sys.path conflict_names = ['openai.py', 'dotenv.py'] # Check current directory current_dir = os.getcwd() for name in conflict_names: conflict_path = os.path.join(current_dir, name) if os.path.isfile(conflict_path): self._log_warning(f"Found '{name}' in the current directory, which may cause import conflicts: {conflict_path}") # Check sys.path directories for path in sys.path: if not path or is_in_site_packages(path): continue # Skip site-packages and empty paths for name in conflict_names: conflict_file = os.path.join(path, name) if os.path.isfile(conflict_file): self._log_warning(f"Potential naming conflict: {conflict_file}") # Check temp directory try: with tempfile.NamedTemporaryFile() as tmp: self.log(f"Temp directory is writable: {os.path.dirname(tmp.name)}") except Exception as e: self._log_error(f"Cannot write to temp directory: {e}") except Exception as e: self._log_error(f"Additional diagnostics failed: {e}") if __name__ == "__main__": diagnostics = Diagnostics() diagnostics.run()