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devicehub-teal/tests/test_device.py
2018-06-20 23:18:15 +02:00

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from datetime import timedelta
from uuid import UUID
import pytest
from colour import Color
from pytest import raises
from sqlalchemy.util import OrderedSet
from ereuse_devicehub.client import UserClient
from ereuse_devicehub.db import db
from ereuse_devicehub.devicehub import Devicehub
from ereuse_devicehub.resources.device.exceptions import NeedsId
from ereuse_devicehub.resources.device.models import Component, Computer, ComputerMonitor, Desktop, \
Device, GraphicCard, Laptop, Microtower, Motherboard, NetworkAdapter
from ereuse_devicehub.resources.device.schemas import Device as DeviceS
from ereuse_devicehub.resources.device.sync import MismatchBetweenTags, MismatchBetweenTagsAndHid, \
Sync
from ereuse_devicehub.resources.enums import ComputerMonitorTechnologies
from ereuse_devicehub.resources.event.models import Remove, Test
from ereuse_devicehub.resources.tag.model import Tag
from ereuse_devicehub.resources.user import User
from ereuse_utils.naming import Naming
from teal.db import ResourceNotFound
from tests.conftest import file
@pytest.mark.usefixtures('app_context')
def test_device_model():
"""
Tests that the correctness of the device model and its relationships.
"""
pc = Desktop(model='p1mo', manufacturer='p1ma', serial_number='p1s')
net = NetworkAdapter(model='c1mo', manufacturer='c1ma', serial_number='c1s')
graphic = GraphicCard(model='c2mo', manufacturer='c2ma', memory=1500)
pc.components.add(net)
pc.components.add(graphic)
db.session.add(pc)
db.session.commit()
pc = Desktop.query.one()
assert pc.serial_number == 'p1s'
assert pc.components == OrderedSet([net, graphic])
network_adapter = NetworkAdapter.query.one()
assert network_adapter.parent == pc
# Removing a component from pc doesn't delete the component
pc.components.remove(net)
db.session.commit()
pc = Device.query.first() # this is the same as querying for Desktop directly
assert pc.components == {graphic}
network_adapter = NetworkAdapter.query.one()
assert network_adapter not in pc.components
assert network_adapter.parent is None
# Deleting the pc deletes everything
gcard = GraphicCard.query.one()
db.session.delete(pc)
db.session.flush()
assert pc.id == 1
assert Desktop.query.first() is None
db.session.commit()
assert Desktop.query.first() is None
assert network_adapter.id == 2
assert NetworkAdapter.query.first() is not None, 'We removed the network adaptor'
assert gcard.id == 3, 'We should still hold a reference to a zombie graphic card'
assert GraphicCard.query.first() is None, 'We should have deleted it it was inside the pc'
@pytest.mark.usefixtures('app_context')
def test_device_schema():
"""Ensures the user does not upload non-writable or extra fields."""
device_s = DeviceS()
device_s.load({'serialNumber': 'foo1', 'model': 'foo', 'manufacturer': 'bar2'})
device_s.dump(Device(id=1))
@pytest.mark.usefixtures('app_context')
def test_physical_properties():
c = Motherboard(slots=2,
usb=3,
serial_number='sn',
model='ml',
manufacturer='mr',
width=2.0,
color=Color())
pc = Computer()
pc.components.add(c)
db.session.add(pc)
db.session.commit()
assert c.physical_properties == {
'usb': 3,
'serial_number': 'sn',
'pcmcia': None,
'model': 'ml',
'slots': 2,
'serial': None,
'firewire': None,
'manufacturer': 'mr',
'weight': None,
'height': None,
'width': 2.0,
'color': Color(),
'depth': None
}
@pytest.mark.usefixtures('app_context')
def test_component_similar_one():
snapshot = file('pc-components.db')
d = snapshot['device']
snapshot['components'][0]['serial_number'] = snapshot['components'][1]['serial_number'] = None
pc = Computer(**d, components=OrderedSet(Component(**c) for c in snapshot['components']))
component1, component2 = pc.components # type: Component
db.session.add(pc)
db.session.flush()
# Let's create a new component named 'A' similar to 1
componentA = Component(model=component1.model, manufacturer=component1.manufacturer)
similar_to_a = componentA.similar_one(pc, set())
assert similar_to_a == component1
# Component B does not have the same model
componentB = Component(model='nope', manufacturer=component1.manufacturer)
with pytest.raises(ResourceNotFound):
assert componentB.similar_one(pc, set())
# If we blacklist component A we won't get anything
with pytest.raises(ResourceNotFound):
assert componentA.similar_one(pc, blacklist={componentA.id})
@pytest.mark.usefixtures('auth_app_context')
def test_add_remove():
# Original state:
# pc has c1 and c2
# pc2 has c3
# c4 is not with any pc
values = file('pc-components.db')
pc = values['device']
c1, c2 = (Component(**c) for c in values['components'])
pc = Computer(**pc, components=OrderedSet([c1, c2]))
db.session.add(pc)
c3 = Component(serial_number='nc1')
pc2 = Computer(serial_number='s2', components=OrderedSet([c3]))
c4 = Component(serial_number='c4s')
db.session.add(pc2)
db.session.add(c4)
db.session.commit()
# Test:
# pc has only c3
events = Sync.add_remove(device=pc, components={c3, c4})
db.session.add_all(events)
db.session.commit() # We enforce the appliance of order_by
assert len(events) == 1
assert isinstance(events[0], Remove)
assert events[0].device == pc2
assert events[0].components == OrderedSet([c3])
@pytest.mark.usefixtures('app_context')
def test_sync_run_components_empty():
"""
Syncs a device that has an empty components list. The system should
remove all the components from the device.
"""
s = file('pc-components.db')
pc = Computer(**s['device'], components=OrderedSet(Component(**c) for c in s['components']))
db.session.add(pc)
db.session.commit()
# Create a new transient non-db synced object
pc = Computer(**s['device'])
db_pc, _ = Sync().run(pc, components=OrderedSet())
assert not db_pc.components
assert not pc.components
@pytest.mark.usefixtures('app_context')
def test_sync_run_components_none():
"""
Syncs a device that has a None components. The system should
keep all the components from the device.
"""
s = file('pc-components.db')
pc = Computer(**s['device'], components=OrderedSet(Component(**c) for c in s['components']))
db.session.add(pc)
db.session.commit()
# Create a new transient non-db synced object
transient_pc = Computer(**s['device'])
db_pc, _ = Sync().run(transient_pc, components=None)
assert db_pc.components
assert db_pc.components == pc.components
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_computer_new_computer_no_tag():
"""
Syncs a new computer with HID and without a tag, creating it.
:return:
"""
# Case 1: device does not exist on DB
pc = Computer(**file('pc-components.db')['device'])
db_pc = Sync().execute_register(pc)
assert pc.physical_properties == db_pc.physical_properties
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_computer_existing_no_tag():
"""
Syncs an existing computer with HID and without a tag.
"""
pc = Computer(**file('pc-components.db')['device'])
db.session.add(pc)
db.session.commit()
pc = Computer(**file('pc-components.db')['device']) # Create a new transient non-db object
# 1: device exists on DB
db_pc = Sync().execute_register(pc)
assert pc.physical_properties == db_pc.physical_properties
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_computer_no_hid_no_tag():
"""
Syncs a computer without HID and no tag.
This should fail as we don't have a way to identify it.
"""
pc = Computer(**file('pc-components.db')['device'])
# 1: device has no HID
pc.hid = pc.model = None
with pytest.raises(NeedsId):
Sync().execute_register(pc)
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_computer_tag_not_linked():
"""
Syncs a new computer with HID and a non-linked tag.
It is OK if the tag was not linked, it will be linked in this process.
"""
tag = Tag(id='FOO')
db.session.add(tag)
db.session.commit()
# Create a new transient non-db object
pc = Computer(**file('pc-components.db')['device'], tags=OrderedSet([Tag(id='FOO')]))
returned_pc = Sync().execute_register(pc)
assert returned_pc == pc
assert tag.device == pc, 'Tag has to be linked'
assert Computer.query.one() == pc, 'Computer had to be set to db'
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_no_hid_tag_not_linked(tag_id: str):
"""
Validates registering a computer without HID and a non-linked tag.
In this case it is ok still, as the non-linked tag proves that
the computer was not existing before (otherwise the tag would
be linked), and thus it creates a new computer.
"""
tag = Tag(id=tag_id)
pc = Computer(**file('pc-components.db')['device'], tags=OrderedSet([tag]))
returned_pc = Sync().execute_register(pc)
db.session.commit()
assert returned_pc == pc
db_tag = next(iter(returned_pc.tags))
# they are not the same tags though
# tag is a transient obj and db_tag the one from the db
# they have the same pk though
assert tag != db_tag, 'They are not the same tags though'
assert db_tag.id == tag.id
assert Computer.query.one() == pc, 'Computer had to be set to db'
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_tag_does_not_exist():
"""
Ensures not being able to register if the tag does not exist,
even if the device has HID or it existed before.
Tags have to be created before trying to link them through a Snapshot.
"""
pc = Computer(**file('pc-components.db')['device'], tags=OrderedSet([Tag()]))
with raises(ResourceNotFound):
Sync().execute_register(pc)
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_tag_linked_same_device():
"""
If the tag is linked to the device, regardless if it has HID,
the system should match the device through the tag.
(If it has HID it validates both HID and tag point at the same
device, this his checked in ).
"""
orig_pc = Computer(**file('pc-components.db')['device'])
db.session.add(Tag(id='foo', device=orig_pc))
db.session.commit()
pc = Computer(**file('pc-components.db')['device']) # Create a new transient non-db object
pc.tags.add(Tag(id='foo'))
db_pc = Sync().execute_register(pc)
assert db_pc.id == orig_pc.id
assert len(db_pc.tags) == 1
assert next(iter(db_pc.tags)).id == 'foo'
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_tag_linked_other_device_mismatch_between_tags():
"""
Checks that sync raises an error if finds that at least two passed-in
tags are not linked to the same device.
"""
pc1 = Computer(**file('pc-components.db')['device'])
db.session.add(Tag(id='foo-1', device=pc1))
pc2 = Computer(**file('pc-components.db')['device'])
pc2.serial_number = 'pc2-serial'
pc2.hid = Naming.hid(pc2.manufacturer, pc2.serial_number, pc2.model)
db.session.add(Tag(id='foo-2', device=pc2))
db.session.commit()
pc1 = Computer(**file('pc-components.db')['device']) # Create a new transient non-db object
pc1.tags.add(Tag(id='foo-1'))
pc1.tags.add(Tag(id='foo-2'))
with raises(MismatchBetweenTags):
Sync().execute_register(pc1)
@pytest.mark.usefixtures('app_context')
def test_sync_execute_register_mismatch_between_tags_and_hid():
"""
Checks that sync raises an error if it finds that the HID does
not point at the same device as the tag does.
In this case we set HID -> pc1 but tag -> pc2
"""
pc1 = Computer(**file('pc-components.db')['device'])
db.session.add(Tag(id='foo-1', device=pc1))
pc2 = Computer(**file('pc-components.db')['device'])
pc2.serial_number = 'pc2-serial'
pc2.hid = Naming.hid(pc2.manufacturer, pc2.serial_number, pc2.model)
db.session.add(Tag(id='foo-2', device=pc2))
db.session.commit()
pc1 = Computer(**file('pc-components.db')['device']) # Create a new transient non-db object
pc1.tags.add(Tag(id='foo-2'))
with raises(MismatchBetweenTagsAndHid):
Sync().execute_register(pc1)
def test_get_device(app: Devicehub, user: UserClient):
"""Checks GETting a Desktop with its components."""
with app.app_context():
pc = Desktop(model='p1mo', manufacturer='p1ma', serial_number='p1s')
pc.components = OrderedSet([
NetworkAdapter(model='c1mo', manufacturer='c1ma', serial_number='c1s'),
GraphicCard(model='c2mo', manufacturer='c2ma', memory=1500)
])
db.session.add(pc)
db.session.add(Test(device=pc,
elapsed=timedelta(seconds=4),
error=False,
author=User(email='bar@bar.com')))
db.session.commit()
pc, _ = user.get(res=Device, item=1)
assert len(pc['events']) == 1
assert pc['events'][0]['type'] == 'Test'
assert pc['events'][0]['device'] == 1
assert pc['events'][0]['elapsed'] == 4
assert not pc['events'][0]['error']
assert UUID(pc['events'][0]['author'])
assert 'events_components' not in pc, 'events_components are internal use only'
assert 'events_one' not in pc, 'they are internal use only'
assert 'author' not in pc
assert tuple(c['id'] for c in pc['components']) == (2, 3)
assert pc['hid'] == 'p1ma-p1s-p1mo'
assert pc['model'] == 'p1mo'
assert pc['manufacturer'] == 'p1ma'
assert pc['serialNumber'] == 'p1s'
assert pc['type'] == 'Desktop'
def test_get_devices(app: Devicehub, user: UserClient):
"""Checks GETting multiple devices."""
with app.app_context():
pc = Desktop(model='p1mo', manufacturer='p1ma', serial_number='p1s')
pc.components = OrderedSet([
NetworkAdapter(model='c1mo', manufacturer='c1ma', serial_number='c1s'),
GraphicCard(model='c2mo', manufacturer='c2ma', memory=1500)
])
pc1 = Microtower(model='p2mo', manufacturer='p2ma', serial_number='p2s')
pc2 = Laptop(model='p3mo', manufacturer='p3ma', serial_number='p3s')
db.session.add_all((pc, pc1, pc2))
db.session.commit()
devices, _ = user.get(res=Device)
assert tuple(d['id'] for d in devices) == (1, 2, 3, 4, 5)
assert tuple(d['type'] for d in devices) == ('Desktop', 'Microtower',
'Laptop', 'NetworkAdapter', 'GraphicCard')
@pytest.mark.usefixtures('app_context')
def test_computer_monitor():
m = ComputerMonitor(technology=ComputerMonitorTechnologies.LCD,
manufacturer='foo',
model='bar',
serial_number='foo-bar',
resolution_width=1920,
resolution_height=1080,
size=14.5)
db.session.add(m)
db.session.commit()