Rather than following the spec exactly and creating lowercase strings,
we can simply do a case-insensitive string comparison. The caveat is
that creating attributes must follow the spec by creating the attribute
name with a lowercase string.
When valid, this attribute needs to result in an IdentifierStyleValue.
Before this change we were turning it into a StringStyleValue, which
then defaulted to left alignment for all values.
For "center" and "middle", we turn it into -libweb-center. All other
values are passed verbatim to the CSS parser.
This was a hack to percentages within tables relative to the nearest
table-row ancestor instead of the nearest table container.
That didn't actually make sense, so this patch simply removes the hack
in favor of containing_block()->width().
We create a base class called GenericFramebufferDevice, which defines
all the virtual functions that must be implemented by a
FramebufferDevice. Then, we make the VirtIO FramebufferDevice and other
FramebufferDevice implementations inherit from it.
The most important consequence of rearranging the classes is that we now
have one IOCTL method, so all drivers should be committed to not
override the IOCTL method or make their own IOCTLs of FramebufferDevice.
All graphical IOCTLs are known to all FramebufferDevices, and it's up to
the specific implementation whether to support them or discard them (so
we require extensive usage of KResult and KResultOr, together with
virtual characteristic functions).
As a result, the interface is much cleaner and understandable to read.
In #10434 an issue with leading whitespace in new lines after
a <br> element was fixed by checking whether the last fragment
of LineBox is empty.
However, this introduced a regression by which whitespace following
inline elements was swallowed, so `<b>Test</b> 123` would appear
like `Test123`.
By asking specifically if we are handling a forced linebreak
instead of implicity asking for a property that may be shared by
other Node types, we can maintain the correct behavior in regards
to leading whitespace on new lines, as well as trailing whitespace
of inline elements.
Returns the size in bytes for a file path given its filename. Useful
when file size is needed without having to open the file to query it
using fstat() or seeking to the end.
Some ports (like `bc` with history enabled) sensibly set the termios
character size to 8 bits.
Previously, we left the character size value (given by the bitmask
CSIZE) as zero by default (meaning 5 bits per character), and returned
ENOTIMPL whenever someone modified it. This was dumb.
There was a lot of `VERIFY_NOT_REACHED` error handling going on. Fixed
most of those.
A bit of a caveat is that after every `evaluate` call for expressions
that are part of a statement the error status of the `SQLResult` return
value must be called.
Filters matching rows by doing a table scan and evaluating the `WHERE`
expression for every row.
Does not use indexes, for one because they do not exist yet.
Mostly just calls the appropriate methods on the Value objects.
Exception are the `Concatenate` (string concat), and the logical `and`
and `or` operators which are implemented directly in
`BinaryOperatorExpression::evaluate`
The behaviour of the various operators is supposed to mimic that of
the same operators in PostgreSQL; the '+' operator for example will
successfully add '98' (string) and 2 (integer), but not 'foo' and 2.
Also removed some redundant const& parameter declarations for
intrinsic types (ints and doubles etc). Passing those by const& doesn't
make a lot of sense.
To support situations like this:
function foo() { throw 1; }
try {
foo();
} catch (e) {
}
Each unwind context now keeps track of its origin executable.
When an exception is thrown, we return from run() immediately if the
nearest unwind context isn't in the current executable.
This causes a natural unwind to the point where we find the
catch/finally block(s) to jump into.
We were missing some "break" statements, causing us to actually finish
executing everything within "try" blocks before actually jumping to the
"catch" and/or "finally" blocks.
Since our executables are position-independent, the address values
extraced from processes don't correspond to their values within the ELF
file. We have to offset the absolute addresses by the load base address
to get the relative symbol that we need for disassembly.
Also add a test to prevent this from happening again. There were two
bugs:
* The number of bytes just after processing the last value was written,
instead of the number of bytes after skipping remaining whitespace.
Confirmed by testing against GNU's `scanf()` since the man page
leaves something to be desired.
* The number of bytes was written to the wrong variable argument; i.e.
the first argument was overwritten.
Used these commands to test it:
printf 'HTTP/1.0 200 OK\r\n%s\r\n\r\n%s' 'Content-Length: 4' \
'well hello friends!' | nc -lN 0.0.0.0 8000
pro http://0.0.0.0:8000
(Actually, this also needs a Content-Encoding header, as response
streaming is disabled then. It didn't fit in the title.)
We were creating too small buffer -- instead of assigning the total
received buffer size, we were using the Content-Length value.
As you can see, the m_buffered_size might now exceed the Content-Length
value, but that will be handled in next commits, regardless if
the response can be streamed or not. :^)
Here's a minimal code that caused crash before:
printf 'HTTP/1.0 200 OK\r\n%s\r\n%s\r\n\r\n%s' \
'Content-Encoding: anything' 'Content-Length: 3' \
':^)AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA' | nc -lN 0.0.0.0 8000
pro http://0.0.0.0:8000
