We never clear content filters on either end of the Browser-WebContent
IPC connection. So when the filters change, we re-append all filters to
the Vector holding them. This incidentally makes it impossible to remove
a filter.
Change both sides to clear their filter lists when receiving a new set
of filters.
It returns a PaintableBox (a PaintableWithLines, to be specific), not a
'PaintBox'. paintable_box() without the cast is already available
through BlockContainer's Box base class, we don't need to shadow it.
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.
Some of these are allocated upon initialization of the intrinsics, and
some lazily, but in neither case the getters actually return a nullptr.
This saves us a whole bunch of pointer dereferences (as NonnullGCPtr has
an `operator T&()`), and also has the interesting side effect of forcing
us to explicitly use the FunctionObject& overload of call(), as passing
a NonnullGCPtr is ambigous - it could implicitly be turned into a Value
_or_ a FunctionObject& (so we have to dereference manually).
This ports MouseEvent, UIEvent, WheelEvent, and Event to new String.
They all had a dependency to T::create() in
WebDriverConnection::fire_an_event() and therefore had to be ported in
the same commit.
The spec states that creating new windows "must be done without invoking
the focusing steps for the created browsing context". It also states we
should do so by "running the window open steps", but nowhere in those
steps is there an option to invoke or skip any focusing steps. So we do
so with a custom WebContent IPC parameter.
Currently we have `m_should_block_pop_ups` set to true by default
which means `choose_a_browsing_context` will early return if new
top-level browsing context is requested and write `Pop-up blocked!`
in console. It is good but when WebDriver is connected we want it
to be able to actually open a new window if one is requested.
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.
This can avoid getting into a situation where lots of MouseMove events
are queued up and they all trigger relayout (or something else that
takes a lot of time).
To make sure that we don't get out of sync with the input events queue
on the UI process side, we still send acknowledgements for coalesced
MouseMoves. There's room for improvement here.
My Discord friends list is now pleasantly responsive. :^)
Before this patch, we had an issue where the WebContent process could
get backed up with tons of pending input events (especially mouse moves)
and have to work through all of those before responding to a paint
request from the UI process.
This could lead to a situation where we went for a very long time
without seeing any visual updates.
The approach I've taken here is pretty simple, we basically make a queue
of all incoming input events on the WebContent process side, and then
process that queue one event at a time, using a zero timer. This is
basic, but it allows paint requests to come in between the input events
and we do now get more frequent visual updates even during heavy
pressure from input events.
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>.
With current architecture every window has its own WebContent process
and there is one WebDriver process that is responsible for talking to
all opened windows. It thus make sense to manage open windows from
WebDriver process instead of WebContent process that is not supposed
to know about all other opened WebContent processes.
This mostly reverts 826d5f8f9a but also
adds `web_content_connection` to window structure and window id
generation (currently out of spec).
With these changes `get_window_handles`, `switch_to_window` and
`close_window` start to actually switch, close and returned handles
of currently opened windows.
This changes the parameters parsed from a WebDriver HTTP request to
String for transferring over IPC. Conveniently, most locations these
were ultimately passed to only need a StringView.
With the GC heap conversion, the functionality of legacy platform
objects was broken. This is because the generated implementation of one
of them was used for all of them, removing functionality such as
deletion.
This re-adds all functionality, where questions such as "does the
object support indexed properties?" is instead answered by virtual
functions instead of by the IDL generator checking the presence of
certain keywords/attributes.
The name "initial containing block" was wrong for this, as it doesn't
correspond to the HTML element, and that's specifically what it's
supposed to do! :^)
We are currently converting parsed expiry times to local time, whereas
the RFC dictates we parse them as UTC. When expiring cookies, we must
also use the current UTC time to compare against the cookies' expiry
times.
Instead of just calling JS::Value::to_string_without_side_effects() when
printing values to the console, have all the console clients use
the same JS::Print that the REPL does to print values.
This method leaves some things to be desired as far as OOM hardening
goes, however. We should be able to create a String in a way that
doesn't OOM on failure so hard.
Because of interdependencies between DOM::Event and UIEvents::MouseEvent
to template function fire_an_event() in WebDriverConnection.cpp, the
commit: 'LibWeb: Make factory methods of UIEvents::MouseEvent fallible'
have been squashed into this commit.
