When running ./package.sh to rebuild an already installed port, we would not
want to spend time re-downlodaing the same tarball again. Ideally, this should
use some sort of hash checking to ensure the file is not truncated or something,
but this is good enough for now.
We were casting the pthread_mutex_t* instead of pthread_mutex_t::lock
to an Atomic<u32>. This still worked fine, since "lock" is the first
member of pthread_mutex_t.
If there are more threads in a process when exit()ing, we need to give
them a chance to unwind any kernel stacks. This means we have to unlock
the process lock before giving control to the scheduler.
Fixes#891 (together with all of the other "no more main thread" work.)
This is a little strange, but it's how I understand things should work.
The first thread in a new process now has TID == PID.
Additional threads subsequently spawned in that process all have unique
TID's generated by the PID allocator. TIDs are now globally unique.
The idea of all processes reliably having a main thread was nice in
some ways, but cumbersome in others. More importantly, it didn't match
up with POSIX thread semantics, so let's move away from it.
This thread gets rid of Process::main_thread() and you now we just have
a bunch of Thread objects floating around each Process.
When the finalizer nukes the last Thread in a Process, it will also
tear down the Process.
There's a bunch of more things to fix around this, but this is where we
get started :^)
This is a bit sad, but, with the Allocators as static globals their
destructors were running before some user code. Which doesn't really
make much sense, as none of the members of (at least the basic one) do
any real heavy lifting or have many resources to RAII.
To avoid the problem, just mmap the memory for the global arrays of
Allocators in __malloc_init and let the Kernel collect the memory when
we're done with the process.
These guys are all declared as globals, and their ASSERT_NOT_REACHED
in the destructor doesn't play nice with __cxa_atexit. As in, every
application will assert in __cxa_finalize if this assert isn't removed.
Implement __cxa_atexit and __cxa_finalize per the Itanium spec,
and convert stdlib's atexit and exit() to to call them instead of
a custom 'C-only' atexit implementation.
Setting this bit will cause the CPU to generate a page fault when
writing to read-only memory, even if we're executing in the kernel.
Seemingly the only change needed to make this work was to have the
inode-backed page fault handler use a temporary mapping for writing
the read-from-disk data into the newly-allocated physical page.
We always want to put crt0.o in the location where it can get picked
up by the i686-pc-serenity toolchain.
This feels a bit hackish but should get the build working again. :^)
Use simple stack cookies to try to provoke an assertion failure on
stack overflow.
This is far from perfect, since we use a constant cookie instead of
generating a random one on startup, but it can still help us catch
bugs, which is the primary concern right now. :^)
Allow everything to be built from the top level directory with just
'make', cleaned with 'make clean', and installed with 'make
install'. Also support these in any particular subdirectory.
Specifying 'make VERBOSE=1' will print each ld/g++/etc. command as
it runs.
Kernel and early host tools (IPCCompiler, etc.) are built as
object.host.o so that they don't conflict with other things built
with the cross-compiler.
