This is an internal object that must be explicitly enabled by the chrome
before it is added to the Window. The Inspector object will be used by a
special WebView that will replace all chrome-specific inspector windows.
The IDL defines methods that this WebView will need to inform the chrome
of various events, such as the user clicking a DOM node.
This commit introduces 3 things:
- Support for the color type in HTMLInputElement itself
- A mechanism for handling non event loop blocking dialogs in Page
- The associated plumbing up to ViewImplementation
Frontends may add support for the color picker with the
ViewImplementation.on_request_color_picker function
Previously, we used `on_load_finish` to determine when the text test
was completed. This method did not allow testing of async functions
because there was no way to indicate that the runner should wait for
the async call to end.
This change introduces a function in the `internals` object that is
intended to be called when the text test execution is completed. The
text test runner will now ignore `on_load_finish` which means a test
will timeout if this new function is never called.
`test(f)` function in `include.js` has been modified to automatically
terminate a test once `load` event is fired on `window`.
new `asyncTest(f)` function has been introduces. `f` receives function
that will terminate a test as a first argument.
Every test is expected to call either `test()` or `asyncTest()` to
complete. If not, it will remain hanging until a timeout occurs.
The old names sounded like awkward English to me, as they implied the
WebContent process is asking for information. In reality, WebContent is
*providing* the information.
We can easily add hooks to notify the browsers of these events if any
implementation-specific handling is needed in the future, but for now,
these only repaint the client, which we can do in ViewImplementation.
Storing the backup bitmap is the same across Browser and Ladybird. Just
peform that work in LibWebView, and handle only the implementation-
specific nuances within the browsers.
This also sets the default callback to do what every non-Serenity
browser is doing, rather than copy-pasting this callback into every
implementation. The callback is still available for any platform which
might want to override the default behavior. For example, OOPWV now
overrides this callback to use FileSystemAccessClient.
The inspector widget now has a new ARIA tab which displays an
individual element's ARIA properties and state. The view itself
is pretty basic for now, just being a table- there is definitely room
for some better UX here but it's enough for a first cut.
The data we want to send out of the WebContent process is identical for
audio and video elements. Rather than just duplicating all of this for
audio, generalize the names used for this IPC for all media elements.
This also encapsulates that data into a struct. This makes adding new
fields to be sent much easier (such as an upcoming field for muting the
element).
The goal here is to reduce the amount of WebContent client APIs that are
duplicated across every ViewImplementation. Across our three browsers,
we currently:
Ladybird - Mix some AK::Function callbacks and Qt signals to notify
tabs of WebContent events.
Browser - Use only AK::Function callbacks.
headless-browser - Drop most events on the floor.
Instead, let's only use AK::Function callbacks across all three browsers
to propagate events to tabs. This allows us to invoke those callbacks
directly from LibWebView instead of all three browsers needing to define
a trivial `if (callback) callback();` override of a LibWebView virtual
function. For headless-browser, we can simply not set these callbacks.
As a first pass, this only converts WebContent events that are trivial
to this approach. That is, events that were simply passed onto the tab
or handled without much fuss.
This just sets up the IPC to notify the browser process of context menu
requests on video elements. The IPC contains a few pieces of information
about the state of the video element.
LibGUI and WebDriver (read: JSON) API boundaries use DeprecatedString,
so that is as far as these changes can reach.
The one change which isn't just a DeprecatedString to String replacement
is handling the "null" prompt response. We previously checked for the
null DeprecatedString, whereas we now represent this as an empty
Optional<String>.
This patch also stubs out notify_server_did_get_accessiblity_tree in
ladybird since ViewImplementation now has it. However, this feature
is still immature, so just stubbing out in ladybird for now. Once we
have more robust support in Serenity (namely ARIA properties/state
and accessible names and descriptions) we can port this
functionality over.
This fixes a few things I noticed whilst working on the inspector
for Ladybird.
1.
The computed and resolved values were being passed swapped around
from the inspect_dom_node() IPC call. I.e. computed values were
passed as resolved values and vice versa. This was then fixed by
swapping them again in the InspectorWidget (two errors canceled out).
2.
Resolved values were called "specified values" seemingly only in the
inspect_dom_node() IPC calls. This was a little confusing so I've
renamed them to back to "resolved values" for consistency.
3.
The inspector took and stored the DOM JSON strings unnecessarily,
all the models immediately parse the JSON and don't need the strings
to hang around.
Updating cookies through these hooks happens in one of two manners:
1. Through the Browser's storage inspector.
2. Through WebDriver's delete-cookies operation.
In (1), we should not restrict ourselves to being able to delete cookies
for the current page. For example, it's handy to open the inspector from
the welcome page and be able to delete cookies for any domain.
In (2), we already are only interacting with cookies that have been
matched against the document URL.
We have a new, improved string type coming up in AK (OOM aware, no null
state), and while it's going to use UTF-8, the name UTF8String is a
mouthful - so let's free up the String name by renaming the existing
class.
Making the old one have an annoying name will hopefully also help with
quick adoption :^)
Previously we labeled redirects as normal FrameLoader::Type::Navigation,
now we introduce a new FrameLoader::Type::Redirect and label redirects
with it. This will allow us to handle redirects in the browser
differently (such as for overwritting the latest history entry when a
redirect happens) :^)
Since 9e2bd9d261a8c0c1b5eeafde95ca310efc667204, the OOPWV has been
consuming all mouse and keyboard events, preventing action shortcuts
from working. So let's fix that. :^)
OOPWV now queues up input events, sending them one at a time to the
WebContent process and waiting for the new
`did_finish_handling_input_event(bool event_was_accepted) =|` IPC call
before sending the next one. If the event was not accepted, OOPWV
imitates the usual event bubbling: first passing the event to its
superclass, then to its parent widget, and finally propagating to any
Action shortcuts.
With this, shortcuts like Ctrl+I to open Browser's JS console work
again, except when a contenteditable field is selected. That's a
whole separate stack of yaks.
Co-authored-by: Zaggy1024 <zaggy1024@gmail.com>
The way in which dialogs should be handled is configurable by the driver
capabilities object, which we don't support yet. So this implements just
the default mode to dismiss the dialog and return an error if there is
one open.
In the OOPWV, this means we need to refer to the dialog after it has
been open, so we now hold a pointer to whatever dialog is open.
Currently, the WebContent process is completely blocked while waiting
for a response to a dialog request. This patch allows the IPC event loop
to continue executing while only blocking the HTML event loop.
This will allow other processes like WebDriver to continue to operate on
the WebContent process while a dialog is open.
Requests to maximize and minimize Browser windows will be coming from
the WebContent process rather than the WebDriver process. Add hooks to
propagate these requests back up to the Browser.
Requests to restore, resize, and reposition Browser windows will be
coming from the WebContent process rather than the WebDriver process.
Add hooks to propagate these requests back up to the Browser.
The spec notes "The specification does not guarantee that the resulting
window size will exactly match that which was requested", so these new
methods return the actual new size/position.
This patch adds WebView::ViewImplementation with all the
`notify_server_did_this_or_that()` functions from OOPWV.
This will allow us to share code between different web views, paving the
way for a Qt widget in Ladybird that can talk to a WebContent process.
To achieve this goal:
- The Browser unveils "/tmp/portal/filesystemaccess"
- Pass the page through LoadRequest => ResourceLoader
- ResourceLoader requests a file to the FileSystemAccessServer via IPC
- OutOfProcessWebView handles it and sends a file descriptor back to
the Page.
Also moves WebContentClient and the references to the generated IPC
descriptions, since they are all components of OutOfProcessWebView.
This patch has no functional changes.
2022-05-15 12:17:36 +02:00
Renamed from Userland/Libraries/LibWeb/WebContentClient.cpp (Browse further)
