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devicehub-teal/ereuse_devicehub/parser/parser.py

564 lines
19 KiB
Python

import json
import logging
import uuid
from dmidecode import DMIParse
from flask import request
from marshmallow.exceptions import ValidationError
from ereuse_devicehub.parser import base2
from ereuse_devicehub.parser.computer import Computer
from ereuse_devicehub.parser.models import SnapshotsLog
from ereuse_devicehub.resources.action.schemas import Snapshot
from ereuse_devicehub.resources.enums import DataStorageInterface, Severity
logger = logging.getLogger(__name__)
class ParseSnapshot:
def __init__(self, snapshot, default="n/a"):
self.default = default
self.dmidecode_raw = snapshot["data"]["dmidecode"]
self.smart_raw = snapshot["data"]["smart"]
self.hwinfo_raw = snapshot["data"]["hwinfo"]
self.device = {"actions": []}
self.components = []
self.dmi = DMIParse(self.dmidecode_raw)
self.smart = self.loads(self.smart_raw)
self.hwinfo = self.parse_hwinfo()
self.set_basic_datas()
self.set_components()
self.snapshot_json = {
"device": self.device,
"software": "Workbench",
"components": self.components,
"uuid": snapshot['uuid'],
"type": snapshot['type'],
"version": "14.0.0",
"endTime": snapshot["timestamp"],
"elapsed": 1,
"sid": snapshot["sid"],
}
def get_snapshot(self):
return Snapshot().load(self.snapshot_json)
def set_basic_datas(self):
self.device['manufacturer'] = self.dmi.manufacturer()
self.device['model'] = self.dmi.model()
self.device['serialNumber'] = self.dmi.serial_number()
self.device['type'] = self.get_type()
self.device['sku'] = self.get_sku()
self.device['version'] = self.get_version()
self.device['uuid'] = self.get_uuid()
def set_components(self):
self.get_cpu()
self.get_ram()
self.get_mother_board()
self.get_data_storage()
self.get_networks()
def get_cpu(self):
# TODO @cayop generation, brand and address not exist in dmidecode
for cpu in self.dmi.get('Processor'):
self.components.append(
{
"actions": [],
"type": "Processor",
"speed": self.get_cpu_speed(cpu),
"cores": int(cpu.get('Core Count', 1)),
"model": cpu.get('Version'),
"threads": int(cpu.get('Thread Count', 1)),
"manufacturer": cpu.get('Manufacturer'),
"serialNumber": cpu.get('Serial Number'),
"generation": cpu.get('Generation'),
"brand": cpu.get('Brand'),
"address": cpu.get('Address'),
}
)
def get_ram(self):
# TODO @cayop format and model not exist in dmidecode
for ram in self.dmi.get("Memory Device"):
self.components.append(
{
"actions": [],
"type": "RamModule",
"size": self.get_ram_size(ram),
"speed": self.get_ram_speed(ram),
"manufacturer": ram.get("Manufacturer", self.default),
"serialNumber": ram.get("Serial Number", self.default),
"interface": self.get_ram_type(ram),
"format": self.get_ram_format(ram),
"model": ram.get("Part Number", self.default),
}
)
def get_mother_board(self):
# TODO @cayop model, not exist in dmidecode
for moder_board in self.dmi.get("Baseboard"):
self.components.append(
{
"actions": [],
"type": "Motherboard",
"version": moder_board.get("Version"),
"serialNumber": moder_board.get("Serial Number"),
"manufacturer": moder_board.get("Manufacturer"),
"biosDate": self.get_bios_date(),
# "firewire": self.get_firmware(),
"ramMaxSize": self.get_max_ram_size(),
"ramSlots": len(self.dmi.get("Memory Device")),
"slots": self.get_ram_slots(),
"model": moder_board.get("Product Name"), # ??
"pcmcia": self.get_pcmcia_num(), # ??
"serial": self.get_serial_num(), # ??
"usb": self.get_usb_num(),
}
)
def get_usb_num(self):
return len(
[
u
for u in self.dmi.get("Port Connector")
if "USB" in u.get("Port Type", "").upper()
]
)
def get_serial_num(self):
return len(
[
u
for u in self.dmi.get("Port Connector")
if "SERIAL" in u.get("Port Type", "").upper()
]
)
def get_pcmcia_num(self):
return len(
[
u
for u in self.dmi.get("Port Connector")
if "PCMCIA" in u.get("Port Type", "").upper()
]
)
def get_bios_date(self):
return self.dmi.get("BIOS")[0].get("Release Date", self.default)
def get_firmware(self):
return self.dmi.get("BIOS")[0].get("Firmware Revision", '1')
def get_max_ram_size(self):
size = 0
for slot in self.dmi.get("Physical Memory Array"):
capacity = slot.get("Maximum Capacity", '0').split(" ")[0]
size += int(capacity)
return size
def get_ram_slots(self):
slots = 0
for x in self.dmi.get("Physical Memory Array"):
slots += int(x.get("Number Of Devices", 0))
return slots
def get_ram_size(self, ram):
size = ram.get("Size", "0")
return int(size.split(" ")[0])
def get_ram_speed(self, ram):
size = ram.get("Speed", "0")
return int(size.split(" ")[0])
def get_ram_type(self, ram):
TYPES = {'ddr', 'sdram', 'sodimm'}
for t in TYPES:
if t in ram.get("Type", "DDR"):
return t
def get_ram_format(self, ram):
channel = ram.get("Locator", "DIMM")
return 'SODIMM' if 'SODIMM' in channel else 'DIMM'
def get_cpu_speed(self, cpu):
speed = cpu.get('Max Speed', "0")
return float(speed.split(" ")[0]) / 1024
def get_sku(self):
return self.dmi.get("System")[0].get("SKU Number", self.default)
def get_version(self):
return self.dmi.get("System")[0].get("Version", self.default)
def get_uuid(self):
return self.dmi.get("System")[0].get("UUID", self.default)
def get_chassis(self):
return self.dmi.get("Chassis")[0].get("Type", self.default)
def get_type(self):
chassis_type = self.get_chassis()
return self.translation_to_devicehub(chassis_type)
def translation_to_devicehub(self, original_type):
lower_type = original_type.lower()
CHASSIS_TYPE = {
'Desktop': [
'desktop',
'low-profile',
'tower',
'docking',
'all-in-one',
'pizzabox',
'mini-tower',
'space-saving',
'lunchbox',
'mini',
'stick',
],
'Laptop': [
'portable',
'laptop',
'convertible',
'tablet',
'detachable',
'notebook',
'handheld',
'sub-notebook',
],
'Server': ['server'],
'Computer': ['_virtual'],
}
for k, v in CHASSIS_TYPE.items():
if lower_type in v:
return k
return self.default
def get_data_storage(self):
for sm in self.smart:
model = sm.get('model_name')
manufacturer = None
if len(model.split(" ")) == 2:
manufacturer, model = model.split(" ")
self.components.append(
{
"actions": [],
"type": self.get_data_storage_type(sm),
"model": model,
"manufacturer": manufacturer,
"serialNumber": sm.get('serial_number'),
"size": self.get_data_storage_size(sm),
"variant": sm.get("firmware_version"),
"interface": self.get_data_storage_interface(sm),
}
)
def get_data_storage_type(self, x):
# TODO @cayop add more SSDS types
SSDS = ["nvme"]
SSD = 'SolidStateDrive'
HDD = 'HardDrive'
type_dev = x.get('device', {}).get('type')
return SSD if type_dev in SSDS else HDD
def get_data_storage_interface(self, x):
return x.get('device', {}).get('protocol', 'ATA')
def get_data_storage_size(self, x):
type_dev = x.get('device', {}).get('type')
total_capacity = "{type}_total_capacity".format(type=type_dev)
# convert bytes to Mb
return x.get(total_capacity) / 1024**2
def get_networks(self):
hw_class = " Hardware Class: "
mac = " Permanent HW Address: "
model = " Model: "
wireless = "wireless"
for line in self.hwinfo:
iface = {
"variant": "1",
"actions": [],
"speed": 100.0,
"type": "NetworkAdapter",
"wireless": False,
"manufacturer": "Ethernet",
}
for y in line:
if hw_class in y and not y.split(hw_class)[1] == 'network':
break
if mac in y:
iface["serialNumber"] = y.split(mac)[1]
if model in y:
iface["model"] = y.split(model)[1]
if wireless in y:
iface["wireless"] = True
if iface.get("serialNumber"):
self.components.append(iface)
def parse_hwinfo(self):
hw_blocks = self.hwinfo_raw.split("\n\n")
return [x.split("\n") for x in hw_blocks]
def loads(self, x):
if isinstance(x, str):
return json.loads(x)
return x
class ParseSnapshotLsHw:
def __init__(self, snapshot, default="n/a"):
self.default = default
self.uuid = snapshot.get("uuid")
self.sid = snapshot.get("sid")
self.version = snapshot.get("version")
self.dmidecode_raw = snapshot["data"]["dmidecode"]
self.smart = snapshot["data"]["smart"]
self.hwinfo_raw = snapshot["data"]["hwinfo"]
self.lshw = snapshot["data"]["lshw"]
self.device = {"actions": []}
self.components = []
self.components_obj = []
self._errors = []
self.dmi = DMIParse(self.dmidecode_raw)
self.hwinfo = self.parse_hwinfo()
self.set_basic_datas()
self.set_components()
self.snapshot_json = {
"type": "Snapshot",
"device": self.device,
"software": "Workbench",
"components": self.components,
"uuid": snapshot['uuid'],
"version": "14.0.0",
"endTime": snapshot["timestamp"],
"elapsed": 1,
"sid": snapshot["sid"],
}
def get_snapshot(self):
return Snapshot().load(self.snapshot_json)
def parse_hwinfo(self):
hw_blocks = self.hwinfo_raw.split("\n\n")
return [x.split("\n") for x in hw_blocks]
def loads(self, x):
if isinstance(x, str):
return json.loads(x)
return x
def set_basic_datas(self):
try:
pc, self.components_obj = Computer.run(
self.lshw, self.hwinfo_raw, self.uuid, self.sid, self.version
)
pc = pc.dump()
minimum_hid = None in [pc['manufacturer'], pc['model'], pc['serialNumber']]
if minimum_hid and not self.components_obj:
# if no there are hid and any components return 422
raise Exception
except Exception:
msg = """It has not been possible to create the device because we lack data.
You can find more information at: {}""".format(
request.url_root
)
txt = json.dumps({'sid': self.sid, 'message': msg})
raise ValidationError(txt)
self.device = pc
self.device['uuid'] = self.get_uuid()
def set_components(self):
memory = None
for x in self.components_obj:
if x.type == 'RamModule':
memory = 1
if x.type == 'Motherboard':
x.slots = self.get_ram_slots()
self.components.append(x.dump())
if not memory:
self.get_ram()
self.get_data_storage()
def get_ram(self):
for ram in self.dmi.get("Memory Device"):
self.components.append(
{
"actions": [],
"type": "RamModule",
"size": self.get_ram_size(ram),
"speed": self.get_ram_speed(ram),
"manufacturer": ram.get("Manufacturer", self.default),
"serialNumber": ram.get("Serial Number", self.default),
"interface": self.get_ram_type(ram),
"format": self.get_ram_format(ram),
"model": ram.get("Part Number", self.default),
}
)
def get_ram_size(self, ram):
size = ram.get("Size")
if not len(size.split(" ")) == 2:
txt = (
"Error: Snapshot: {uuid}, Sid: {sid} have this ram Size: {size}".format(
uuid=self.uuid, size=size, sid=self.sid
)
)
self.errors(txt, severity=Severity.Warning)
return 128
size, units = size.split(" ")
return base2.Quantity(float(size), units).to('MiB').m
def get_ram_speed(self, ram):
speed = ram.get("Speed", "100")
if not len(speed.split(" ")) == 2:
txt = "Error: Snapshot: {uuid}, Sid: {sid} have this ram Speed: {speed}".format(
uuid=self.uuid, speed=speed, sid=self.sid
)
self.errors(txt, severity=Severity.Warning)
return 100
speed, units = speed.split(" ")
return float(speed)
# TODO @cayop is neccesary change models for accept sizes more high of speed or change to string
# return base2.Quantity(float(speed), units).to('MHz').m
def get_ram_slots(self):
slots = 0
for x in self.dmi.get("Physical Memory Array"):
slots += int(x.get("Number Of Devices", 0))
return slots
def get_ram_type(self, ram):
TYPES = {'ddr', 'sdram', 'sodimm'}
for t in TYPES:
if t in ram.get("Type", "DDR"):
return t
def get_ram_format(self, ram):
channel = ram.get("Locator", "DIMM")
return 'SODIMM' if 'SODIMM' in channel else 'DIMM'
def get_uuid(self):
dmi_uuid = 'undefined'
if self.dmi.get("System"):
dmi_uuid = self.dmi.get("System")[0].get("UUID")
try:
uuid.UUID(dmi_uuid)
except (ValueError, AttributeError) as err:
self.errors("{}".format(err))
txt = "Error: Snapshot: {uuid} sid: {sid} have this uuid: {device}".format(
uuid=self.uuid, device=dmi_uuid, sid=self.sid
)
self.errors(txt, severity=Severity.Warning)
dmi_uuid = None
return dmi_uuid
def get_data_storage(self):
for sm in self.smart:
if sm.get('smartctl', {}).get('exit_status') == 1:
continue
model = sm.get('model_name')
manufacturer = None
if model and len(model.split(" ")) > 1:
mm = model.split(" ")
model = mm[-1]
manufacturer = " ".join(mm[:-1])
self.components.append(
{
"actions": [self.get_test_data_storage(sm)],
"type": self.get_data_storage_type(sm),
"model": model,
"manufacturer": manufacturer,
"serialNumber": sm.get('serial_number'),
"size": self.get_data_storage_size(sm),
"variant": sm.get("firmware_version"),
"interface": self.get_data_storage_interface(sm),
}
)
def get_data_storage_type(self, x):
# TODO @cayop add more SSDS types
SSDS = ["nvme"]
SSD = 'SolidStateDrive'
HDD = 'HardDrive'
type_dev = x.get('device', {}).get('type')
trim = x.get('trim', {}).get("supported") in [True, "true"]
return SSD if type_dev in SSDS or trim else HDD
def get_data_storage_interface(self, x):
interface = x.get('device', {}).get('protocol', 'ATA')
try:
DataStorageInterface(interface.upper())
except ValueError as err:
txt = "Sid: {}, interface {} is not in DataStorageInterface Enum".format(
self.sid, interface
)
self.errors("{}".format(err))
self.errors(txt, severity=Severity.Warning)
return "ATA"
def get_data_storage_size(self, x):
total_capacity = x.get('user_capacity', {}).get('bytes')
if not total_capacity:
return 1
# convert bytes to Mb
return total_capacity / 1024**2
def get_test_data_storage(self, smart):
hours = smart.get("power_on_time", {}).get('hours', 0)
action = {
"status": "Completed without error",
"reallocatedSectorCount": smart.get("reallocated_sector_count", 0),
"currentPendingSectorCount": smart.get("current_pending_sector_count", 0),
"assessment": True,
"severity": "Info",
"offlineUncorrectable": smart.get("offline_uncorrectable", 0),
"lifetime": hours,
"powerOnHours": hours,
"type": "TestDataStorage",
"length": "Short",
"elapsed": 0,
"reportedUncorrectableErrors": smart.get(
"reported_uncorrectable_errors", 0
),
"powerCycleCount": smart.get("power_cycle_count", 0),
}
return action
def errors(self, txt=None, severity=Severity.Error):
if not txt:
return self._errors
logger.error(txt)
self._errors.append(txt)
error = SnapshotsLog(
description=txt,
snapshot_uuid=self.uuid,
severity=severity,
sid=self.sid,
version=self.version,
)
error.save()