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devicehub-teal/ereuse_devicehub/resources/documents/device_row.py
2022-08-09 17:13:29 +02:00

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""" This file frame a correct row for csv report """
from collections import OrderedDict
from flask import url_for
from ereuse_devicehub.resources.action.models import RateComputer
from ereuse_devicehub.resources.device import models as d
from ereuse_devicehub.resources.device import states
from ereuse_devicehub.resources.enums import Severity
class BaseDeviceRow(OrderedDict):
NUMS = {
d.Display.t: 1,
d.Processor.t: 2,
d.GraphicCard.t: 2,
d.Motherboard.t: 1,
d.NetworkAdapter.t: 2,
d.SoundCard.t: 2,
d.RamModule.t: 4,
d.DataStorage: 5,
}
ORDER_COMPONENTS = [
d.Processor.t,
d.RamModule.t,
d.DataStorage.t,
d.Motherboard.t,
d.Display.t,
d.GraphicCard.t,
d.NetworkAdapter.t,
d.SoundCard.t,
]
def __init__(self) -> None:
super().__init__()
self['DHID'] = ''
self['DocumentID'] = ''
self['Public Link'] = ''
self['Lots'] = ''
self['Tag 1 Type'] = ''
self['Tag 1 ID'] = ''
self['Tag 1 Organization'] = ''
self['Tag 2 Type'] = ''
self['Tag 2 ID'] = ''
self['Tag 2 Organization'] = ''
self['Tag 3 Type'] = ''
self['Tag 3 ID'] = ''
self['Tag 3 Organization'] = ''
self['Device Hardware ID'] = ''
self['Device Type'] = ''
self['Device Chassis'] = ''
self['Device Serial Number'] = ''
self['Device Model'] = ''
self['Device Manufacturer'] = ''
self['Registered in'] = ''
self['Registered (process)'] = ''
self['Updated in (software)'] = ''
self['Updated in (web)'] = ''
self['Physical state'] = ''
self['Allocate state'] = ''
self['Lifecycle state'] = ''
self['Processor'] = ''
self['RAM (MB)'] = ''
self['Data Storage Size (MB)'] = ''
self['Processor 1'] = ''
self['Processor 1 Manufacturer'] = ''
self['Processor 1 Model'] = ''
self['Processor 1 Serial Number'] = ''
self['Processor 1 Number of cores'] = ''
self['Processor 1 Speed (GHz)'] = ''
self['Benchmark Processor 1 (points)'] = ''
self['Benchmark ProcessorSysbench Processor 1 (points)'] = ''
self['Processor 2'] = ''
self['Processor 2 Manufacturer'] = ''
self['Processor 2 Model'] = ''
self['Processor 2 Serial Number'] = ''
self['Processor 2 Number of cores'] = ''
self['Processor 2 Speed (GHz)'] = ''
self['Benchmark Processor 2 (points)'] = ''
self['Benchmark ProcessorSysbench Processor 2 (points)'] = ''
self['RamModule 1'] = ''
self['RamModule 1 Manufacturer'] = ''
self['RamModule 1 Model'] = ''
self['RamModule 1 Serial Number'] = ''
self['RamModule 1 Size (MB)'] = ''
self['RamModule 1 Speed (MHz)'] = ''
self['RamModule 2'] = ''
self['RamModule 2 Manufacturer'] = ''
self['RamModule 2 Model'] = ''
self['RamModule 2 Serial Number'] = ''
self['RamModule 2 Size (MB)'] = ''
self['RamModule 2 Speed (MHz)'] = ''
self['RamModule 3'] = ''
self['RamModule 3 Manufacturer'] = ''
self['RamModule 3 Model'] = ''
self['RamModule 3 Serial Number'] = ''
self['RamModule 3 Size (MB)'] = ''
self['RamModule 3 Speed (MHz)'] = ''
self['RamModule 4'] = ''
self['RamModule 4 Manufacturer'] = ''
self['RamModule 4 Model'] = ''
self['RamModule 4 Serial Number'] = ''
self['RamModule 4 Size (MB)'] = ''
self['RamModule 4 Speed (MHz)'] = ''
self['DataStorage 1'] = ''
self['DataStorage 1 Manufacturer'] = ''
self['DataStorage 1 Model'] = ''
self['DataStorage 1 Serial Number'] = ''
self['DataStorage 1 Size (MB)'] = ''
self['Erasure DataStorage 1'] = ''
self['Erasure DataStorage 1 Serial Number'] = ''
self['Erasure DataStorage 1 Size (MB)'] = ''
self['Erasure DataStorage 1 Software'] = ''
self['Erasure DataStorage 1 Result'] = ''
self['Erasure DataStorage 1 Certificate URL'] = ''
self['Erasure DataStorage 1 Type'] = ''
self['Erasure DataStorage 1 Method'] = ''
self['Erasure DataStorage 1 Elapsed (hours)'] = ''
self['Erasure DataStorage 1 Date'] = ''
self['Erasure DataStorage 1 Steps'] = ''
self['Erasure DataStorage 1 Steps Start Time'] = ''
self['Erasure DataStorage 1 Steps End Time'] = ''
self['Benchmark DataStorage 1 Read Speed (MB/s)'] = ''
self['Benchmark DataStorage 1 Writing speed (MB/s)'] = ''
self['Test DataStorage 1 Software'] = ''
self['Test DataStorage 1 Type'] = ''
self['Test DataStorage 1 Result'] = ''
self['Test DataStorage 1 Power cycle count'] = ''
self['Test DataStorage 1 Lifetime (days)'] = ''
self['Test DataStorage 1 Power on hours'] = ''
self['DataStorage 2'] = ''
self['DataStorage 2 Manufacturer'] = ''
self['DataStorage 2 Model'] = ''
self['DataStorage 2 Serial Number'] = ''
self['DataStorage 2 Size (MB)'] = ''
self['Erasure DataStorage 2'] = ''
self['Erasure DataStorage 2 Serial Number'] = ''
self['Erasure DataStorage 2 Size (MB)'] = ''
self['Erasure DataStorage 2 Software'] = ''
self['Erasure DataStorage 2 Result'] = ''
self['Erasure DataStorage 2 Certificate URL'] = ''
self['Erasure DataStorage 2 Type'] = ''
self['Erasure DataStorage 2 Method'] = ''
self['Erasure DataStorage 2 Elapsed (hours)'] = ''
self['Erasure DataStorage 2 Date'] = ''
self['Erasure DataStorage 2 Steps'] = ''
self['Erasure DataStorage 2 Steps Start Time'] = ''
self['Erasure DataStorage 2 Steps End Time'] = ''
self['Benchmark DataStorage 2 Read Speed (MB/s)'] = ''
self['Benchmark DataStorage 2 Writing speed (MB/s)'] = ''
self['Test DataStorage 2 Software'] = ''
self['Test DataStorage 2 Type'] = ''
self['Test DataStorage 2 Result'] = ''
self['Test DataStorage 2 Power cycle count'] = ''
self['Test DataStorage 2 Lifetime (days)'] = ''
self['Test DataStorage 2 Power on hours'] = ''
self['DataStorage 3'] = ''
self['DataStorage 3 Manufacturer'] = ''
self['DataStorage 3 Model'] = ''
self['DataStorage 3 Serial Number'] = ''
self['DataStorage 3 Size (MB)'] = ''
self['Erasure DataStorage 3'] = ''
self['Erasure DataStorage 3 Serial Number'] = ''
self['Erasure DataStorage 3 Size (MB)'] = ''
self['Erasure DataStorage 3 Software'] = ''
self['Erasure DataStorage 3 Result'] = ''
self['Erasure DataStorage 3 Certificate URL'] = ''
self['Erasure DataStorage 3 Type'] = ''
self['Erasure DataStorage 3 Method'] = ''
self['Erasure DataStorage 3 Elapsed (hours)'] = ''
self['Erasure DataStorage 3 Date'] = ''
self['Erasure DataStorage 3 Steps'] = ''
self['Erasure DataStorage 3 Steps Start Time'] = ''
self['Erasure DataStorage 3 Steps End Time'] = ''
self['Benchmark DataStorage 3 Read Speed (MB/s)'] = ''
self['Benchmark DataStorage 3 Writing speed (MB/s)'] = ''
self['Test DataStorage 3 Software'] = ''
self['Test DataStorage 3 Type'] = ''
self['Test DataStorage 3 Result'] = ''
self['Test DataStorage 3 Power cycle count'] = ''
self['Test DataStorage 3 Lifetime (days)'] = ''
self['Test DataStorage 3 Power on hours'] = ''
self['DHID'] = ''
self['DataStorage 4'] = ''
self['DataStorage 4 Manufacturer'] = ''
self['DataStorage 4 Model'] = ''
self['DataStorage 4 Serial Number'] = ''
self['DataStorage 4 Size (MB)'] = ''
self['Erasure DataStorage 4'] = ''
self['Erasure DataStorage 4 Serial Number'] = ''
self['Erasure DataStorage 4 Size (MB)'] = ''
self['Erasure DataStorage 4 Software'] = ''
self['Erasure DataStorage 4 Result'] = ''
self['Erasure DataStorage 4 Certificate URL'] = ''
self['Erasure DataStorage 4 Type'] = ''
self['Erasure DataStorage 4 Method'] = ''
self['Erasure DataStorage 4 Elapsed (hours)'] = ''
self['Erasure DataStorage 4 Date'] = ''
self['Erasure DataStorage 4 Steps'] = ''
self['Erasure DataStorage 4 Steps Start Time'] = ''
self['Erasure DataStorage 4 Steps End Time'] = ''
self['Benchmark DataStorage 4 Read Speed (MB/s)'] = ''
self['Benchmark DataStorage 4 Writing speed (MB/s)'] = ''
self['Test DataStorage 4 Software'] = ''
self['Test DataStorage 4 Type'] = ''
self['Test DataStorage 4 Result'] = ''
self['Test DataStorage 4 Power cycle count'] = ''
self['Test DataStorage 4 Lifetime (days)'] = ''
self['Test DataStorage 4 Power on hours'] = ''
self['Motherboard 1'] = ''
self['Motherboard 1 Manufacturer'] = ''
self['Motherboard 1 Model'] = ''
self['Motherboard 1 Serial Number'] = ''
self['Display 1'] = ''
self['Display 1 Manufacturer'] = ''
self['Display 1 Model'] = ''
self['Display 1 Serial Number'] = ''
self['GraphicCard 1'] = ''
self['GraphicCard 1 Manufacturer'] = ''
self['GraphicCard 1 Model'] = ''
self['GraphicCard 1 Serial Number'] = ''
self['GraphicCard 1 Memory (MB)'] = ''
self['GraphicCard 2'] = ''
self['GraphicCard 2 Manufacturer'] = ''
self['GraphicCard 2 Model'] = ''
self['GraphicCard 2 Serial Number'] = ''
self['GraphicCard 2 Memory (MB)'] = ''
self['NetworkAdapter 1'] = ''
self['NetworkAdapter 1 Manufacturer'] = ''
self['NetworkAdapter 1 Model'] = ''
self['NetworkAdapter 1 Serial Number'] = ''
self['NetworkAdapter 2'] = ''
self['NetworkAdapter 2 Manufacturer'] = ''
self['NetworkAdapter 2 Model'] = ''
self['NetworkAdapter 2 Serial Number'] = ''
self['SoundCard 1'] = ''
self['SoundCard 1 Manufacturer'] = ''
self['SoundCard 1 Model'] = ''
self['SoundCard 1 Serial Number'] = ''
self['SoundCard 2'] = ''
self['SoundCard 2 Manufacturer'] = ''
self['SoundCard 2 Model'] = ''
self['SoundCard 2 Serial Number'] = ''
self['Device Rate'] = ''
self['Device Range'] = ''
self['Processor Rate'] = ''
self['Processor Range'] = ''
self['RAM Rate'] = ''
self['RAM Range'] = ''
self['Data Storage Rate'] = ''
self['Data Storage Range'] = ''
self['Benchmark RamSysbench (points)'] = ''
class DeviceRow(BaseDeviceRow):
def __init__(self, device: d.Device, document_ids: dict) -> None:
super().__init__()
self.device = device
self.document_id = document_ids.get(device.id, '')
snapshot = get_action(device, 'Snapshot')
software = ''
if snapshot:
software = "{software} {version}".format(
software=snapshot.software.name, version=snapshot.version
)
# General information about device
self['DHID'] = device.devicehub_id
self['DocumentID'] = self.document_id
self['Public Link'] = '{url}{id}'.format(
url=url_for('Device.main', _external=True), id=device.devicehub_id
)
self['Lots'] = ', '.join([x.name for x in self.device.lots])
for i, tag in zip(range(1, 3), device.tags):
self['Tag {} Type'.format(i)] = 'unamed' if tag.provider else 'named'
self['Tag {} ID'.format(i)] = tag.id
self['Tag {} Organization'.format(i)] = tag.org.name
self['Device Hardware ID'] = device.hid
self['Device Type'] = device.t
if isinstance(device, d.Computer) and not device.placeholder:
self['Device Chassis'] = device.chassis.name
self['Device Serial Number'] = none2str(device.serial_number)
self['Device Model'] = none2str(device.model)
self['Device Manufacturer'] = none2str(device.manufacturer)
self['Registered in'] = format(device.created, '%c')
self['Registered (process)'] = software
self['Updated in (software)'] = device.updated
if device.physical_status:
self['Physical state'] = device.physical_status.type
if device.allocated_status:
self['Allocate state'] = device.allocated_status.type
try:
self['Lifecycle state'] = device.last_action_of(*states.Status.actions()).t
except LookupError:
pass
if isinstance(device, d.Computer):
self['Processor'] = none2str(device.processor_model)
self['RAM (MB)'] = none2str(device.ram_size)
self['Data Storage Size (MB)'] = none2str(device.data_storage_size)
# More specific information about components
if isinstance(device, d.Computer):
self.components()
else:
# TODO @cayop we need add columns as a component
pass
rate = device.rate
if rate:
self['Device Rate'] = rate.rating
self['Device Range'] = rate.rating_range.name
assert isinstance(rate, RateComputer)
self['Processor Rate'] = rate.processor
self['Processor Range'] = rate.processor_range.name
self['RAM Rate'] = rate.ram
self['RAM Range'] = rate.ram_range.name
self['Data Storage Rate'] = rate.data_storage
self['Data Storage Range'] = rate.data_storage_range.name
benchram = get_action(device, 'BenchmarkRamSysbench')
if benchram:
self['Benchmark RamSysbench (points)'] = none2str(benchram.rate)
def components(self):
"""Function to get all components information of a device."""
assert isinstance(self.device, d.Computer)
for ctype in self.ORDER_COMPONENTS: # ctype: str
cmax = self.NUMS.get(ctype, 4)
i = 1
l_ctype = [ctype]
if ctype == d.DataStorage.t:
l_ctype = [ctype, d.HardDrive.t, d.SolidStateDrive.t]
for component in (r for r in self.device.components if r.type in l_ctype):
self.fill_component(ctype, i, component)
i += 1
if i > cmax:
break
while i <= cmax:
self.fill_component(ctype, i)
i += 1
def fill_component(self, ctype, i, component=None):
"""Function to put specific information of components
in OrderedDict (csv)
:param ctype: type of component
:param component: device.components
"""
# Basic fields for all components
self['{} {}'.format(ctype, i)] = format(component) if component else ''
if component:
self['{} {} Manufacturer'.format(ctype, i)] = none2str(
component.manufacturer
)
self['{} {} Model'.format(ctype, i)] = none2str(component.model)
self['{} {} Serial Number'.format(ctype, i)] = none2str(
component.serial_number
)
if ctype == d.Processor.t:
self.get_processor(ctype, i, component)
if ctype == d.RamModule.t:
self.get_ram(ctype, i, component)
if ctype == d.DataStorage.t:
self.get_datastorage(ctype, i, component)
if ctype == d.GraphicCard.t:
self.get_graphic_card(ctype, i, component)
def get_processor(self, ctype, i, component):
"""Particular fields for component Processor."""
if component is None:
return
self['{} {} Number of cores'.format(ctype, i)] = none2str(component.cores)
self['{} {} Speed (GHz)'.format(ctype, i)] = none2str(component.speed)
benchmark = get_action(component, 'BenchmarkProcessor')
if benchmark:
self['Benchmark {} {} (points)'.format(ctype, i)] = benchmark.rate
sysbench = get_action(component, 'BenchmarkProcessorSysbench')
if sysbench:
self[
'Benchmark ProcessorSysbench {} {} (points)'.format(ctype, i)
] = sysbench.rate
def get_ram(self, ctype, i, component):
"""Particular fields for component Ram Module."""
if component is None:
return
self['{} {} Size (MB)'.format(ctype, i)] = none2str(component.size)
self['{} {} Speed (MHz)'.format(ctype, i)] = none2str(component.speed)
def get_datastorage(self, ctype, i, component):
"""Particular fields for component DataStorage.
A DataStorage can be HardDrive or SolidStateDrive.
"""
if component is None:
return
snapshot = get_action(component, 'Snapshot')
if snapshot:
software = "{software} {version}".format(
software=snapshot.software.name, version=snapshot.version
)
self['{} {} Size (MB)'.format(ctype, i)] = none2str(component.size)
component_actions = sorted(component.actions, key=lambda x: x.created)
erasures = [
a
for a in component_actions
if a.type in ['EraseBasic', 'EraseSectors', 'DataWipe']
]
erasure = erasures[-1] if erasures else None
if not erasure:
self['Erasure {} {}'.format(ctype, i)] = none2str(component.hid)
serial_number = none2str(component.serial_number)
self['Erasure {} {} Serial Number'.format(ctype, i)] = serial_number
self['Erasure {} {} Size (MB)'.format(ctype, i)] = none2str(component.size)
elif hasattr(erasure, 'type') and erasure.type == 'DataWipe':
self['Erasure {} {}'.format(ctype, i)] = none2str(component.hid)
serial_number = none2str(component.serial_number)
self['Erasure {} {} Serial Number'.format(ctype, i)] = serial_number
self['Erasure {} {} Size (MB)'.format(ctype, i)] = none2str(component.size)
self['Erasure {} {} Software'.format(ctype, i)] = erasure.document.software
self['Erasure {} {} Result'.format(ctype, i)] = get_result(erasure)
self['Erasure {} {} Certificate URL'.format(ctype, i)] = (
erasure.document.url and erasure.document.url.to_text() or ''
)
else:
self['Erasure {} {}'.format(ctype, i)] = none2str(component.hid)
serial_number = none2str(component.serial_number)
self['Erasure {} {} Serial Number'.format(ctype, i)] = serial_number
self['Erasure {} {} Size (MB)'.format(ctype, i)] = none2str(component.size)
self['Erasure {} {} Software'.format(ctype, i)] = software
result = get_result(erasure)
self['Erasure {} {} Result'.format(ctype, i)] = result
self['Erasure {} {} Type'.format(ctype, i)] = erasure.type
self['Erasure {} {} Method'.format(ctype, i)] = erasure.method
self['Erasure {} {} Elapsed (hours)'.format(ctype, i)] = format(
erasure.elapsed
)
self['Erasure {} {} Date'.format(ctype, i)] = format(erasure.created)
steps = ','.join((format(x) for x in erasure.steps))
self['Erasure {} {} Steps'.format(ctype, i)] = steps
steps_start_time = ','.join((format(x.start_time) for x in erasure.steps))
self['Erasure {} {} Steps Start Time'.format(ctype, i)] = steps_start_time
steps_end_time = ','.join((format(x.end_time) for x in erasure.steps))
self['Erasure {} {} Steps End Time'.format(ctype, i)] = steps_end_time
benchmark = get_action(component, 'BenchmarkDataStorage')
if benchmark:
self['Benchmark {} {} Read Speed (MB/s)'.format(ctype, i)] = none2str(
benchmark.read_speed
)
self['Benchmark {} {} Writing speed (MB/s)'.format(ctype, i)] = none2str(
benchmark.write_speed
)
test_storage = get_action(component, 'TestDataStorage')
if not test_storage:
return
self['Test {} {} Software'.format(ctype, i)] = software
self['Test {} {} Type'.format(ctype, i)] = test_storage.length.value
self['Test {} {} Result'.format(ctype, i)] = get_result(test_storage)
self['Test {} {} Power cycle count'.format(ctype, i)] = none2str(
test_storage.power_cycle_count
)
self['Test {} {} Lifetime (days)'.format(ctype, i)] = none2str(
test_storage.lifetime
)
self['Test {} {} Power on hours'.format(ctype, i)] = none2str(
test_storage.power_on_hours
)
def get_graphic_card(self, ctype, i, component):
"""Particular fields for component GraphicCard."""
if component:
self['{} {} Memory (MB)'.format(ctype, i)] = none2str(component.memory)
class StockRow(OrderedDict):
def __init__(self, device: d.Device) -> None:
super().__init__()
self.device = device
self['Type'] = none2str(device.t)
if isinstance(device, d.Computer):
self['Chassis'] = device.chassis
else:
self['Chassis'] = ''
self['Serial Number'] = none2str(device.serial_number)
self['Model'] = none2str(device.model)
self['Manufacturer'] = none2str(device.manufacturer)
self['Registered in'] = format(device.created, '%c')
self['Physical state'] = ''
if device.physical_status:
self['Physical state'] = device.physical_status.type
self['Allocate state'] = ''
if device.allocated_status:
self['Allocate state'] = device.allocated_status.type
try:
self['Lifecycle state'] = device.last_action_of(*states.Trading.actions()).t
except LookupError:
self['Lifecycle state'] = ''
self['Processor'] = none2str(device.processor_model)
self['RAM (MB)'] = none2str(device.ram_size)
self['Data Storage Size (MB)'] = none2str(device.data_storage_size)
rate = device.rate
if rate:
self['Rate'] = rate.rating
self['Range'] = rate.rating_range
assert isinstance(rate, RateComputer)
self['Processor Rate'] = rate.processor
self['Processor Range'] = rate.processor_range
self['RAM Rate'] = rate.ram
self['RAM Range'] = rate.ram_range
self['Data Storage Rate'] = rate.data_storage
self['Data Storage Range'] = rate.data_storage_range
def get_result(erasure):
"""For the csv is necessary simplify the message of results"""
if hasattr(erasure, 'type') and erasure.type == 'DataWipe':
if erasure.document.success:
return 'Success'
return 'Failure'
type_of_results = {
Severity.Error: 'Failure',
Severity.Warning: 'Success with Warnings',
Severity.Notice: 'Success',
Severity.Info: 'Success',
}
return type_of_results[erasure.severity]
def none2str(string):
"""convert none to empty str"""
if string is None:
return ''
return format(string)
def get_action(component, action):
"""Filter one action from a component or return None"""
result = [a for a in component.actions if a.type == action]
return result[-1] if result else None
class ActionRow(OrderedDict):
def __init__(self, allocate):
super().__init__()
# General information about allocates, deallocate and lives
self['DHID'] = allocate['devicehubID']
self['Hid'] = allocate['hid']
self['Document-Name'] = allocate['document_name']
self['Action-Type'] = allocate['action_type']
self['Action-User-LastOwner-Supplier'] = allocate['trade_supplier']
self['Action-User-LastOwner-Receiver'] = allocate['trade_receiver']
self['Action-Create-By'] = allocate['action_create_by']
self['Trade-Confirmed'] = allocate['trade_confirmed']
self['Status-Created-By-Supplier-About-Reciber'] = allocate['status_supplier']
self['Status-Receiver'] = allocate['status_receiver']
self['Status Supplier Created Date'] = allocate['status_supplier_created']
self['Status Receiver Created Date'] = allocate['status_receiver_created']
self['Trade-Weight'] = allocate['trade_weight']
self['Action-Create'] = allocate['created']
self['Allocate-Start'] = allocate['start']
self['Allocate-User-Code'] = allocate['finalUserCode']
self['Allocate-NumUsers'] = allocate['numEndUsers']
self['UsageTimeAllocate'] = allocate['usageTimeAllocate']
self['Type'] = allocate['type']
self['LiveCreate'] = allocate['liveCreate']
self['UsageTimeHdd'] = allocate['usageTimeHdd']
class InternalStatsRow(OrderedDict):
def __init__(self, user, create, actions):
super().__init__()
# General information about all internal stats
# user, quart, month, year:
# Snapshot (Registers)
# Snapshots (Update)
# Snapshots (All)
# Allocate
# Deallocate
# Live
self.actions = actions
year, month = create.split('-')
self['User'] = user
self['Year'] = year
self['Quarter'] = self.quarter(month)
self['Month'] = month
self['Snapshot (Registers)'] = 0
self['Snapshot (Update)'] = 0
self['Snapshot (All)'] = 0
self['Allocates'] = 0
self['Deallocates'] = 0
self['Lives'] = 0
self.count_actions()
def count_actions(self):
for ac in self.actions:
self.is_snapshot(self.is_deallocate(self.is_live(self.is_allocate(ac))))
def is_allocate(self, ac):
if ac.type == 'Allocate':
self['Allocates'] += 1
return ac
def is_live(self, ac):
if ac.type == 'Live':
self['Lives'] += 1
return ac
def is_deallocate(self, ac):
if ac.type == 'Deallocate':
self['Deallocates'] += 1
return ac
def is_snapshot(self, ac):
if not ac.type == 'Snapshot':
return
self['Snapshot (All)'] += 1
canary = False
for _ac in ac.device.actions:
if not _ac.type == 'Snapshot':
continue
if _ac.created < ac.created:
canary = True
break
if canary:
self['Snapshot (Update)'] += 1
else:
self['Snapshot (Registers)'] += 1
def quarter(self, month):
q = {
1: 'Q1',
2: 'Q1',
3: 'Q1',
4: 'Q2',
5: 'Q2',
6: 'Q2',
7: 'Q3',
8: 'Q3',
9: 'Q3',
10: 'Q4',
11: 'Q4',
12: 'Q4',
}
return q[int(month)]