I though it would be nice to also show the style that the browser uses
to display an element.
In order to do that, in place of the styles table I've put a tab widget,
with tabs for both element and computed element styles.
LibHTML will now use the palette colors for the default document background and
the text. As always, a page can override this default styling with CSS if it
really wants a specific color or style.
Fixes https://github.com/SerenityOS/serenity/issues/963
Previously we would consider anything in the large padded area around
each item to also be part of the item for mouse event purposes.
This didn't feel right when rubberbanding, so this patch factors out
the per-item rect computation into a get_item_rects() helper which can
then be used by the various functions that need it.
Separate some responsibilities:
ELFDynamicLoader is responsible for loading elf binaries from disk and
performing relocations, calling init functions, and eventually calling
finalizer functions.
ELFDynamicObject is a helper class to parse the .dynamic section of an
elf binary, or the table of Elf32_Dyn entries at the _DYNAMIC symbol.
ELFDynamicObject now owns the helper classes for Relocations, Symbols,
Sections and the like that ELFDynamicLoader will use to perform
relocations and symbol lookup.
Because these new helpers are constructed from offsets into the .dynamic
section within the loaded .data section of the binary, we don't need the
ELFImage for nearly as much of the loading processes as we did before.
Therefore we can remove most of the extra DynamicXXX classes and just
keep the one that lets us find the location of _DYNAMIC in the new ELF.
And finally, since we changed the name of the class that dlopen/dlsym
care about, we need to compile/link and use the new ELFDynamicLoader
class in LibC.
This fixes an issue in SystemMonitor where old data would linger in the
table views after selecting a process owned by another user.
Since we can no longer read /proc/PID/* unless PID belongs to us,
we will now present empty views for these processes. :^)
When selecting an element in the browser's DOM inspector, we now also
show the resolved CSS properties (and their values) for that element.
Since the inspector was growing a bit more complex, I moved it out of
the "show inspector" action callback and into its own class.
In the future, we will probably want to migrate the inspector down to
LibHTML to make it accessible to other clients of the library, but for
now we can keep working on it inside Browser. :^)
This code never worked, as was never used for anything. We can build
a much better SHM implementation on top of TmpFS or similar when we
get to the point when we need one.
For dynamic loading, the symbol bind of a symbol actually doesn't
matter. We could do what old glibc did and try to find a strong
symbol for any weak definitions, but the ELF spec doesn't require
it and they changed that a few years ago anyway. So, moot point. :)
We were not sending the ID of the window that was listening for window
management (WM) events along with the WM messages. They only included
the "target" window's ID.
Since the taskbar's single window had the first window ID for its own
connection to the WindowServer, it meant that it would only receive
WM events for the first window ID in other processes as well.
This broke when I ported WindowServer to LibIPC.
Fix this by including the WM listener ID in all WM messages, and since
we're here anyway, get rid of a bunch of unnecessary indirection where
we were passing WM events through the WindowServer event loop before
sending them to the listener.
ELFDynamicObject::load looks a lot better with all the steps
re-organized into helpers.
Add plt_trampoline.S to handle PLT fixups for lazy loading.
Add the needed trampoline-trampolines in ELFDynamicObject to get to
the proper relocations and to return the symbol back to the assembly
method to call into from the PLT once we return back to user code.
We weren't calling the method here before because it was ill-formed.
No start files meant that we got the front half of the init section but
not the back half (no 'ret' in _init!). Now that we have the proper
crtbeginS and crtendS files from libgcc to help us out, we can assume
that DSOs will have the proper _init method defined.
The scrollbar width must be factored in, and one too many
m_line_spacing were being factored into the height. These caused an
initial terminal opening in 80x25 to get resized right away and
shrunk down to 77x24.
This patch also adds some missing relocation defines to exec_elf.h,
and a few helper classes/methods to ELFImage so that we can use it
for our dynamically loaded libs and not just main program images from
the kernel :)
This patch introduces a syscall:
int set_thread_boost(int tid, int amount)
You can use this to add a permanent boost value to the effective thread
priority of any thread with your UID (or any thread in the system if
you are the superuser.)
This is quite crude, but opens up some interesting opportunities. :^)
Threads now have numeric priorities with a base priority in the 1-99
range.
Whenever a runnable thread is *not* scheduled, its effective priority
is incremented by 1. This is tracked in Thread::m_extra_priority.
The effective priority of a thread is m_priority + m_extra_priority.
When a runnable thread *is* scheduled, its m_extra_priority is reset to
zero and the effective priority returns to base.
This means that lower-priority threads will always eventually get
scheduled to run, once its effective priority becomes high enough to
exceed the base priority of threads "above" it.
The previous values for ThreadPriority (Low, Normal and High) are now
replaced as follows:
Low -> 10
Normal -> 30
High -> 50
In other words, it will take 20 ticks for a "Low" priority thread to
get to "Normal" effective priority, and another 20 to reach "High".
This is not perfect, and I've used some quite naive data structures,
but I think the mechanism will allow us to build various new and
interesting optimizations, and we can figure out better data structures
later on. :^)
This removes a bunch of JsonValue copying from the hot path in thread
statistics fetching.
Also pre-size the thread statistics vector since we know the final size
up front. :^)
