"""WizardKit: Objects.""" # vim: sts=2 sw=2 ts=2 import logging import pathlib import platform import plistlib import re from collections import OrderedDict from wk.exe import get_json_from_command, run_program from wk.std import bytes_to_string, color_string, string_to_bytes # STATIC VARIABLES KEY_NVME = 'nvme_smart_health_information_log' KEY_SMART = 'ata_smart_attributes' KNOWN_RAM_VENDOR_IDS = { # https://github.com/hewigovens/hewigovens.github.com/wiki/Memory-vendor-code '0x014F': 'Transcend', '0x2C00': 'Micron', '0x802C': 'Micron', '0x80AD': 'Hynix', '0x80CE': 'Samsung', '0xAD00': 'Hynix', '0xCE00': 'Samsung', } LOG = logging.getLogger(__name__) REGEX_POWER_ON_TIME = re.compile( r'^(\d+)([Hh].*|\s+\(\d+\s+\d+\s+\d+\).*)' ) # Classes class CpuRam(): """Object for tracking CPU & RAM specific data.""" def __init__(self): self.description = 'Unknown' self.details = {} self.ram_total = 'Unknown' self.ram_dimms = [] self.tests = OrderedDict() # Update details self.get_cpu_details() self.get_ram_details() def get_cpu_details(self): """Get CPU details using OS specific methods.""" if platform.system() == 'Darwin': cmd = 'sysctl -n machdep.cpu.brand_string'.split() proc = run_program(cmd, check=False) self.description = re.sub(r'\s+', ' ', proc.stdout.strip()) elif platform.system() == 'Linux': cmd = ['lscpu', '--json'] json_data = get_json_from_command(cmd) for line in json_data.get('lscpu', [{}]): _field = line.get('field', '').replace(':', '') _data = line.get('data', '') if not (_field or _data): # Skip continue self.details[_field] = _data self.description = self.details.get('Model name', '') # Replace empty description if not self.description: self.description = 'Unknown CPU' def get_ram_details(self): """Get RAM details using OS specific methods.""" if platform.system() == 'Darwin': dimm_list = get_ram_list_macos() elif platform.system() == 'Linux': dimm_list = get_ram_list_linux() details = {'Total': 0} for dimm_details in dimm_list: size, manufacturer = dimm_details if size <= 0: # Skip empty DIMMs continue description = f'{bytes_to_string(size)} {manufacturer}' details['Total'] += size if description in details: details[description] += 1 else: details[description] = 1 # Save details self.ram_total = bytes_to_string(details.pop('Total', 0)) self.ram_dimms = [ f'{count}x {desc}' for desc, count in sorted(details.items()) ] def generate_cpu_report(self): """Generate CPU report with data from all tests.""" report = [] report.append(color_string('Device', 'BLUE')) report.append(f' {self.description}') # Include RAM details report.append(color_string('RAM', 'BLUE')) report.append(f' {self.ram_total} ({", ".join(self.ram_dimms)})') # Tests for test in self.tests.values(): report.extend(test.report) return report class Disk(): """Object for tracking disk specific data.""" def __init__(self, path): self.attributes = {} self.description = 'Unknown' self.lsblk = {} self.nvme_smart_notes = {} self.path = pathlib.Path(path).resolve() self.smartctl = {} self.tests = OrderedDict() # Update details self.get_details() self.enable_smart() self.update_smart_details() def enable_smart(self): """Try enabling SMART for this disk.""" cmd = [ 'sudo', 'smartctl', '--tolerance=permissive', '--smart=on', self.path, ] run_program(cmd, check=False) def get_details(self): """Get details via lsblk. Required details default to generic descriptions and are converted to the correct type. """ cmd = ['lsblk', '--bytes', '--json', '--output-all', '--paths', self.path] json_data = get_json_from_command(cmd) self.lsblk = json_data.get('blockdevices', [{}])[0] # Set necessary details self.lsblk['model'] = self.lsblk.get('model', 'Unknown Model') self.lsblk['name'] = self.lsblk.get('name', self.path) self.lsblk['log-sec'] = self.lsblk.get('log-sec', 512) self.lsblk['phy-sec'] = self.lsblk.get('phy-sec', 512) self.lsblk['rota'] = self.lsblk.get('rota', True) self.lsblk['serial'] = self.lsblk.get('serial', 'Unknown Serial') self.lsblk['size'] = self.lsblk.get('size', -1) self.lsblk['tran'] = self.lsblk.get('tran', '???') self.lsblk['tran'] = self.lsblk['tran'].upper().replace('NVME', 'NVMe') # Ensure certain attributes types for attr in ['model', 'name', 'serial', 'tran']: if not isinstance(self.lsblk[attr], str): self.lsblk[attr] = str(self.lsblk[attr]) for attr in ['log-sec', 'phy-sec', 'size']: if not isinstance(self.lsblk[attr], int): self.lsblk[attr] = int(self.lsblk[attr]) # Set description self.description = '{size_str} ({tran}) {model} {serial}'.format( size_str=bytes_to_string(self.lsblk['size'], use_binary=False), **self.lsblk, ) def get_labels(self): """Build list of labels for this disk, returns list.""" labels = [] # Add all labels from lsblk for disk in [self.lsblk, *self.lsblk.get('children', [])]: labels.append(disk.get('label', '')) labels.append(disk.get('partlabel', '')) # Remove empty labels labels = [str(label) for label in labels if label] # Done return labels def update_smart_details(self): """Update SMART details via smartctl.""" self.attributes = {} cmd = [ 'sudo', 'smartctl', '--tolerance=verypermissive', '--all', '--json', self.path, ] self.smartctl = get_json_from_command(cmd, check=False) # Check for attributes if KEY_NVME in self.smartctl: for name, value in self.smartctl[KEY_NVME].items(): try: self.attributes[name] = { 'name': name, 'raw': int(value), 'raw_str': str(value), } except ValueError: # Ignoring invalid attribute LOG.error('Invalid NVMe attribute: %s %s', name, value) elif KEY_SMART in self.smartctl: for attribute in self.smartctl[KEY_SMART].get('table', {}): try: _id = int(attribute['id']) except (KeyError, ValueError): # Ignoring invalid attribute LOG.error('Invalid SMART attribute: %s', attribute) continue name = str(attribute.get('name', 'Unknown')).replace('_', ' ').title() raw = int(attribute.get('raw', {}).get('value', -1)) raw_str = attribute.get('raw', {}).get('string', 'Unknown') # Fix power-on time match = REGEX_POWER_ON_TIME.match(raw_str) if _id == 9 and match: raw = int(match.group(1)) # Add to dict self.attributes[_id] = { 'name': name, 'raw': raw, 'raw_str': raw_str} # Functions def get_ram_list_linux(): """Get RAM list using dmidecode.""" cmd = ['sudo', 'dmidecode', '--type', 'memory'] dimm_list = [] manufacturer = 'Unknown' size = 0 # Get DMI data proc = run_program(cmd) dmi_data = proc.stdout.splitlines() # Parse data for line in dmi_data: line = line.strip() if line == 'Memory Device': # Reset vars manufacturer = 'Unknown' size = 0 elif line.startswith('Size:'): size = line.replace('Size: ', '') size = string_to_bytes(size, assume_binary=True) elif line.startswith('Manufacturer:'): manufacturer = line.replace('Manufacturer: ', '') dimm_list.append([size, manufacturer]) # Save details return dimm_list def get_ram_list_macos(): """Get RAM list using system_profiler.""" dimm_list = [] # Get and parse plist data cmd = [ 'system_profiler', '-xml', 'SPMemoryDataType', ] proc = run_program(cmd, check=False, encoding=None, errors=None) try: plist_data = plistlib.loads(proc.stdout) except (TypeError, ValueError): # Ignore and return an empty list return dimm_list # Check DIMM data dimm_details = plist_data[0].get('_items', [{}])[0].get('_items', []) for dimm in dimm_details: manufacturer = dimm.get('dimm_manufacturer', None) manufacturer = KNOWN_RAM_VENDOR_IDS.get(manufacturer, 'Unknown') size = dimm.get('dimm_size', '0 GB') try: size = string_to_bytes(size, assume_binary=True) except ValueError: # Empty DIMM? LOG.error('Invalid DIMM size: %s', size) continue dimm_list.append([size, manufacturer]) # Save details return dimm_list if __name__ == '__main__': print("This file is not meant to be called directly.")