Events ====== .. toctree:: :maxdepth: 4 event-diagram Rate ---- Devicehub generates an rating for a device taking into consideration the visual, functional, and performance. .. todo:: add performance as a result of component fusion + general tests in `here `_. A Workflow is as follows: 1. An agent generates feedback from the device in the form of benchmark, visual, and functional information; which is filled in a ``Rate`` event. This is done through a **software**, defining the type of ``Rate`` event. At the moment we have two rates: ``WorkbenchRate`` and ``PhotoboxRate``. 2. Devicehub gathers this information and computes a score that updates the ``Rate`` event. 3. Devicehub aggregates different rates and computes a final score for the device by performing a new ``AggregateRating`` event. There are two **types** of ``Rate``: ``WorkbenchRate`` and ``PhotoboxRate``. Moreover, each rate can have different **versions**, or different revisions of the algorithm used to compute the final score, and Devicehub generates a rate event for **each** version. So, if an agent fulfills a ``WorkbenchRate`` and there are 3 versions, Devicehub generates 3 ``WorkbenchRate``. Devicehub understands that only one version is the **official** and it will generate an ``AggregateRating`` only from the **official** version. .. todo:: we should be able to disable a version without destroying code In the future, Devicehub will be able to use different and independent algorithms to calculate a ``Rate`` (not only changed by versions). The technical Workflow in Devicehub is as follows: 1. In **T1**, the user performs a ``Snapshot`` by processing the device through the Workbench. From the benchmarks and the visual and functional ratings the user does in the device, the system generates a ``WorkbenchRate``. With only this information, the system generates an ``AggregateRating``, which is the event that the user will see in the web. 2. In **T2**, the user takes pictures from the device through the Photobox, and DeviceHub crates an ``ImageSet`` with multiple ``Image`` with information from the photobox. 3. In **T3**, an agent (user or AI) rates the pictures, creating a ``PhotoboxRate`` **for each** picture. When Devicehub receives the first ``PhotoboxRate`` it creates an ``AggregateRating`` linked to such ``PhotoboxRate``. So, the agent will perform as many ``PhotoboxRate`` as pictures are in the ``ImageSet``, and Devicehub will link each ``PhotoboxRate`` to the same ``AggregateRating``. This will end in **T3+Tn**, being *n* the number of photos to rate. 4. In **T3+Tn**, after the last photo is rated, Devicehub will generate a new rate for the device: it takes the ``AggregateRating`` from 3. and computes a rate from all the linked ``PhotoboxRate`` plus the last available ``WorkbenchRate`` for that device. If the agent in 3. is an user, Devicehub creates ``PhotoboxUserRate`` and if it is an AI it creates ``PhotoboxAIRate``. The same ``ImageSet`` can be rated multiple times, generating a new ``AggregateRating`` each time. .. todo:: which info does photobox provide for each picture? Snapshot -------- The Snapshot sets the physical information of the device (S/N, model...) and updates it with erasures, benchmarks, ratings, and tests; updates the composition of its components (adding / removing them), and links tags to the device. When receiving a Snapshot, the DeviceHub creates, adds and removes components to match the Snapshot. For example, if a Snapshot of a computer contains a new component, the system searches for the component in its database and, if not found, its creates it; finally linking it to the computer. A Snapshot is used with Remove to represent changes in components for a device: 1. ``Snapshot`` creates a device if it does not exist, and the same for its components. This is all done in one ``Snapshot``. 2. If the device exists, it updates its component composition by *adding* and *removing* them. If, for example, this new Snasphot doesn't have a component, it means that this component is not present anymore in the device, thus removing it from it. Then we have that: - Components that are added to the device: snapshot2.components - snapshot1.components - Components that are removed to the device: snapshot1.components - snapshot2.components When adding a component, there may be the case this component existed before and it was inside another device. In such case, DeviceHub will perform ``Remove`` on the old parent. Snapshots from Workbench ~~~~~~~~~~~~~~~~~~~~~~~~ When processing a device from the Workbench, this one performs a Snapshot and then performs more events (like testings, benchmarking...). The use case, which is represented in the ``test_workbench_phases``, is as follows: 1. In **T1**, WorkbenchServer (as the middleware from Workbench and Devicehub) submits: - A ``Snapshot`` event with the required information to **synchronize** and **rate** the device. This is: - Identification information about the device and components (S/N, model, physical characteristics...) - Tags. - Rate. - Benchmarks. - TestDataStorage. - An ordered set of **expected events**, defining which are the next events that Workbench will perform to the device in ideal conditions (device doesn't fail, no Internet drop...). Devicehub **syncs** the device with the database and perform the ``Benchmark``, the ``TestDataStorage``, and finally the ``Rate``. This leaves the Snapshot **open** to wait for the next events to come. 2. Assuming that we expect all events, in **T2**, WorkbenchServer submits a ``StressTest`` with a ``snapshot`` field containing the ID of the Snapshot in 1, and Devicehub links the event with such ``Snapshot``. 3. In **T3**, WorkbenchServer submits the ``Erase`` with the ``Snapshot`` and ``component`` IDs from 1, linking it to them. It repeats this for all the erased data storage devices; **T3+Tn** being *n* the erased data storage devices. 4. WorkbenchServer does like in 3. but for the event ``Install``, finishing in **T3+Tn+Tx**, being *x* the number of data storage devices with an OS installed into. 5. In **T3+Tn+Tx**, when all *expected events* have been performed, Devicehub **closes** the ``Snapshot`` from 1. Optionally, Devicehub understands receiving a ``Snapshot`` with all the events the following way: - ``Install`` embedded in a ``installation`` field in its respective ``DataStorage`` component in the ``Snapshot``. - ``Erase`` embedded in ``erasure`` field in its respective ``DataStorage`` in the ``Snapshot``. - ``StressTest`` in an ``events`` field in the ``Snapshot``. ToDispose and DisposeProduct ---------------------------- There are four events for getting rid of devices: - ``ToDispose``: The device is marked to be disposed. - ``DisposeProduct``: The device has been disposed. This is a ``Trade`` event, which means that you can optionally ``DisposeProduct`` to someone. - ``RecyclingCenter`` have two extra special events: - ``DisposeWaste``: The device has been disposed in an unspecified manner. - ``Recover``: The device has been scrapped and its materials have been recovered under a new product. .. note:: For usability purposes, users might not directly perform ``Dispose``, but this could automatically be done when performing ``ToDispose`` + ``Receive`` to a ``RecyclingCenter``. .. todo:: Ensure that ``Dispose`` is a ``Trade`` event. An Org could ``Sell`` or ``Donate`` a device with the objective of disposing them. Is ``Dispose`` ok, or do we want to keep that extra ``Sell`` or ``Donate`` event? Could dispose be a synonym of any of those?