Otherwise, we end up propagating those dependencies into targets that
link against that library, which creates unnecessary link-time
dependencies.
Also included are changes to readd now missing dependencies to tools
that actually need them.
Even though the toolchain implicitly links against -lc, it does not know
where it should get LibC from except for the sysroot. In the case of
Clang this causes it to pick up the LibC stub instead, which might be
slightly outdated and feature missing symbols.
This is currently not an issue that manifests because we pass through
the dependency on LibC and other libraries by accident, which causes
CMake to link against the LibC target (instead of just the library),
and thus points the linker at the build output directory.
Since we are looking to fix that in the upcoming commits, let's make
sure that everything will still be able to find the proper LibC first.
The only complication here is that Core::Stream::File is not RefCounted
meaning we have to use OwnPtr instead of RefPtr.
Unfortunately we cannot propagate errors as some errors must be caught
and dealt with as the runner can do anything (like stop at any moment
or close pipes).
Without this the runner is waiting for new tests which will never come
and test-test262 is waiting for output which never comes since the
runner is blocked.
Also finish off a comment, and make the variables follow serenity style.
JS::Value stores 48 bit pointers to separately allocated objects in its
payload. On x86-64, canonical addresses have their top 16 bits set to
the same value as bit 47, effectively meaning that the value has to be
sign-extended to get the pointer. AArch64, however, expects the topmost
bits to be all zeros.
This commit gates sign extension behind `#if ARCH(X86_64)`, and adds an
`#error` for unsupported architectures, so that we do not forget to
think about pointer handling when porting to a new architecture.
Fixes#15290FixesSerenityOS/ladybird#56
...`__attribute__((__noreturn__))`
This is more inline with the definition in glibc's version of the file,
and stops clang from complaining about it originally not being declared
as `[[no_return]]`.
This allows running of test262 (like) tests with any runner. And thus
allows running the full test262 suite on Serenity itself.
The functionality of test-test262 is intentionally limited at first.
It does support:
- Progress updates including the special serenity terminal commands
- Outputting a per-file, to compare against other runs
- Passing any number of parameters to the runner
- Setting the batch size of the amount of tests per runner process
- Outputting a summary of the test results
If a test is supposed to fail during parse or early phase we can stop
after parsing. Because phases in modules are not as clear we don't skip
the other parts for modules.
When running a larger set of tests in Serenity the runner would
otherwise trigger a lot of crash reporters. This would then in turn lead
to memory starvation causes more crashes.
We also protect against recursive assert failures, for example due to
being out of memory.
With this change the runner now compiles and runs on Serenity :^).
Since setitimer is not implemented in Serenity we use alarm which
triggers SIGALRM after the timeout. We also don't use a signal handler
as we are doing things that serenity doesn't like/doesn't allow.
Linux dealt with allocating and writing in a signal handler but it is
undefined, so instead we just let the process die by SIGALRM.
This means we instead of reading the output can detect timeouts by
checking how the process died.
For now this is a lagom only application as it is not compatible with
serenity in its current state.
The only change is that it is released under a different license with
permission from all the authors.
Currently, LibUnicodeData contains the generated UCD and CLDR data. Move
the UCD data to the main LibUnicode library, and rename LibUnicodeData
to LibLocaleData. This is another prepatory change to migrate to
LibLocale.
The basic idea is that a global object cannot just come out of nowhere,
it must be associated to a realm - so get it from there, if needed.
This is to enforce the changes from all the previous commits by not
handing out global objects unless you actually have an initialized
realm (either stored somewhere, or the VM's current realm).
This is a continuation of the previous five commits.
A first big step into the direction of no longer having to pass a realm
(or currently, a global object) trough layers upon layers of AOs!
Unlike the create() APIs we can safely assume that this is only ever
called when a running execution context and therefore current realm
exists. If not, you can always manually allocate the Error and put it in
a Completion :^)
In the spec, throw exceptions implicitly use the current realm's
intrinsics as well: https://tc39.es/ecma262/#sec-throw-an-exception
Each of these strings would previously rely on StringView's char const*
constructor overload, which would call __builtin_strlen on the string.
Since we now have operator ""sv, we can replace these with much simpler
versions. This opens the door to being able to remove
StringView(char const*).
No functional changes.
Putting everything in the global scope will lead to mayhem and failing
tests with an actually correct implementation of scoping :^)
Also adds in a tiny debug log of the exception, otherwise we'd be
staring at failing tests with no info on what failed.
Instead of crashing on the spot, return a descriptive error that will
eventually continue its days as a javascript "InternalError" exception.
This should make random crashes with BC less likely.
This commit removes all exception related code:
Remove VM::exception(), VM::throw_exception() etc. Any leftover
throw_exception calls are moved to throw_completion.
The one method left is clear_exception() which is now a no-op. Most of
these calls are just to clear whatever exception might have been thrown
when handling a Completion. So to have a cleaner commit this will be
removed in a next commit.
It also removes the actual Exception and TemporaryClearException classes
since these are no longer used.
In any spot where the exception was actually used an attempt was made to
preserve that behavior. However since it is no longer tracked by the VM
we cannot access exceptions which were thrown in previous calls.
There are two such cases which might have different behavior:
- In Web::DOM::Document::interpreter() the on_call_stack_emptied hook
used to print any uncaught exception but this is now no longer
possible as the VM does not store uncaught exceptions.
- In js the code used to be interruptable by throwing an exception on
the VM. This is no longer possible but was already somewhat fragile
before as you could happen to throw an exception just before a VERIFY.
Using an Optional was extremely wasteful for function objects that don't
even have a bytecode executable.
This allows ECMAScriptFunctionObject to fit in a smaller size class.
These tests are not meant as a replacement to test-js with the -b option
but are meant to test simple cases until that works.
Before this it was very easy to accidentally break bytecode since no
tests were run in bytecode mode. This hopefully makes it easier to spot
such regressions :^).
These were missed in 565a880ce5.
This wasn't an issue because these tests don't pledge/unveil anything,
so they could happily dlopen() the library at runtime. But this is now
needed in order to migrate LibUnicode towards weak symbols instead.
The spec has a note stating that resolve binding will always return a
reference whose [[ReferencedName]] field is name. However this is not
correct as the underlying method GetIdentifierReference may throw on
env.HasBinding(name) thus it can throw. However, there are some
scenarios where it cannot throw because the reference is known to exist
in that case we use MUST with a comment.
Previously we might swallow invalid unicode point which would skip valid
ascii characters. This could be dangerous as we might skip a '"' thus
not closing a string where we should.
This might have been exploitable as it would not have been clear what
code gets executed when looking at a script.
Another approach to this would be simply replacing all invalid
characters with the replacement character (this is what v8 does). But
our lexer and parser are currently not set up for such a change.