WebView::ViewImplementation now remembers which JS interpreter it
started with, and uses the same setting if the WebContent process
crashes and we have to spawn a new one.
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.
This commit changes the variables used to represent the size and
progress of downloads from u32 to u64. This allows `pro` and
`Browser` to report the total size and progress of a download
correctly for downloads larger than 4GiB.
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).
We now check if the WebContent is executable before passing it to
the valgrind wrapper. We can't rely on exec() to fail here, since it
will always succeed even when passing a bad WebContent path to valgrind.
Now that we allocate an oversized backing store during resizing of the
viewport, we need to constrain the source rect used when drawing a
scaled version of the content in the special mode used by Presenter.
Regressed with 85c542ab00.
Serenity handles this in the SystemServer already, but the simplest
place to put this logic is the ViewImplementation base class.
This is trivial to see when running Ladybird without SERENTIY_SOURCE_DIR
set, or set improperly.
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 is to match Browser, where ownership of all "subwidgets" is placed
on the tab as well. This further lets us align the web view callbacks to
match Browser's OOPWV as well, which will later let us move them into
the base LibWebView class.
The implementations of handle_web_content_process_crash and
take_screenshot are exactly the same across Browser and Ladybird. Let's
reduce some code duplication and move them to LibWebView.
This allows for the browser process to control the play/pause state,
whether we paint user agent controls on the video, and whether the video
loops when it finishes playing.
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.
The spec defines a Permissions Policy to control some browser behaviors
on a per-origin basis. Management of these permissions live in their own
spec: https://w3c.github.io/webappsec-permissions-policy/
This implements a somewhat ad-hoc Permissions Policy for autoplaying
media elements. We will need to implement the entire policy spec for
this to be more general.
Adds fallible versions of MessageBox's helper factories, ports
DeprecatedString, and rewrites build() to be both fallible and
more responsive to font changes.
MessageBox now auto shrinks and no longer has to re-build its
layout when text changes. It is manually resized once at
creation to position properly as a Dialog before being shown.
This adds a -P option to run Ladybird under callgrind. It starts with
instrumentation disabled. To start capturing a profile (once Ladybird
has launched) run `callgrind_control -i on` and to stop it again run
`callgrind_control -i off`.
P.s. This is pretty much stolen from Andreas (and is based on the patch
everyone [that wants a profile] have been manually applying).
First, this patch renames the function
`propagate_shortcuts_up_to_application` to `propagate_shortcuts`.
Handling those levels, will allow us to differentiate shortcuts at
`Window` level and `Application` level. Which will be convenient to
handle dialog-specific shortcuts.
Generate handle UUID for top-level context that is going to
run in created WebContent process and sent it over IPC.
Co-authored-by: Timothy Flynn <trflynn89@pm.me>
Add field for a handle that is going to be used by WebDriver to
identify top-level browsing contexts.
It is supposed to be populated by WebContent client during creation.
Co-authored-by: Timothy Flynn <trflynn89@pm.me>
Currently, on Serenity, we connect to WebDriver from the browser-side of
the WebContent connection for both Browser and headless-browser.
On Lagom, we connect from within the WebContent process itself, signaled
by a command line flag.
This patch changes Lagom browsers to connect to WebDriver the same way
that Serenity browsers do. This will ensure we can do other initializers
in the same order across all platforms and browsers.
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 adds support for WebSocket subprotocols to WebSocket DOM
objects, with some necessary plumbing to LibWebSocket and its
clients.
See the associated pull request for how this was tested.
`Stream` will be qualified as `AK::Stream` until we remove the
`Core::Stream` namespace. `IODevice` now reuses the `SeekMode` that is
defined by `SeekableStream`, since defining its own would require us to
qualify it with `AK::SeekMode` everywhere.
