Use the same pattern for Ramdisk similar to other storage devices during
device initialization. This will propagate errors if the Ramdisk fails
to initialize.
Storage controllers are initialized during init and are never modified.
NonnullRefPtr can be safely used instead of the NonnullLockRefPtr. This
also fixes one of the UB issue that was there when using an NVMe device
because of NonnullLockRefPtr.
We can add proper locking when we need to modify the storage controllers
after init.
Any userspace cpp file that included <syscall.h> would end up with
a large glob of Kernel headers included, all the way down to
Kernel/Arch/x86_64/CPU.h and friends.
Only the kernel needs RegisterState, so hide it from userspace.
This is done with 2 major steps:
1. Remove JailManagement singleton and use a structure that resembles
what we have with the Process object. This is required later for the
second step in this commit, but on its own, is a major change that
removes this clunky singleton that had no real usage by itself.
2. Use IntrusiveLists to keep references to Process objects in the same
Jail so it will be much more straightforward to iterate on this kind
of objects when needed. Previously we locked the entire Process list
and we did a simple pointer comparison to check if the checked
Process we iterate on is in the same Jail or not, which required
taking multiple Spinlocks in a very clumsy and heavyweight way.
The LUN.target_id parameter points to a NVMe Namespace which starts from
1 and not 0. Fix the document to reflect the same while addressing a
nvme device in the boot parameters
This was mostly straightforward, as all the storage locations are
guarded by some related mutex.
The use of old-school associated mutexes instead of MutexProtected
is unfortunate, but the process to modernize such code is ongoing.
There's no plan to support ATAPI in the foreseeable future. ATAPI is
considered mostly as an extension to pass SCSI commands over ATA-link
compatible channel (which could be a physical SATA or PATA).
ATAPI is mostly used for controlling optical drives which are considered
obsolete in 2023, and require an entire SCSI abstraction layer we don't
exhibit with bypassing ioctls for sending specific SCSI commands in many
control-flow sequences for actions being taken for such hardware.
Therefore, let's make it clear we don't support ATAPI (SCSI over ATA)
unless someone picks it up and proves otherwise that this can be done
cleanly and also in a relevant way to our project.
These configurations are simply invalid. Ignoring those allow us to boot
with the virtio-gpu-pci device (in addition to the already supported
virtio-vga PCI device).
This patch switches away from {Nonnull,}LockRefPtr to the non-locking
smart pointers throughout the kernel.
I've looked at the handful of places where these were being persisted
and I don't see any race situations.
Note that the process file descriptor table (Process::m_fds) was already
guarded via MutexProtected.
This class had slightly confusing semantics and the added weirdness
doesn't seem worth it just so we can say "." instead of "->" when
iterating over a vector of NNRPs.
This patch replaces NonnullRefPtrVector<T> with Vector<NNRP<T>>.
Before of this patch, we looked at the unveil data of the FinalizerTask,
which naturally doesn't have any unveil restrictions, therefore allowing
an unveil bypass for a process that enabled performance coredumps.
To ensure we always check the dumped process unveil data, an option to
pass a Process& has been added to a couple of methods in the class of
VirtualFileSystem.
This allows us to get rid of an include to LibC/sys/ttydefaults.h in the
Kernel TTY implementation.
Also, move ttydefchars static const struct to another file called
Kernel/API/ttydefaultschars.h, so it could be used too in the Kernel TTY
implementation without the need to include anything from LibC.
We don't actually need the va_list and other stdarg definitions in the
kernel, because we actually don't use the "pure" printf interface in any
kernel code at all, but we retain the snprintf declaration because the
libstdc++ library still need it to be declared and extern'ed.
Instead of using a special case of the annotate_mapping syscall, let's
introduce a new prctl option to disallow further annotations of Regions
as new syscall Region(s).
Since the ProcFS doesn't hold many global objects within it, the need
for a fully-structured design of backing components and a registry like
with the SysFS is no longer true.
To acommodate this, let's remove all backing store and components of the
ProcFS, so now it resembles what we had in the early days of ProcFS in
the project - a mostly-static filesystem, with very small amount of
kmalloc allocations needed.
We still use the inode index mechanism to understand the role of each
inode, but this is done in a much "static"ier way than before.
Before doing a check if offset_in_region + num_bytes of the transfer
descriptor are together more than NUM_TRANSFER_REGION_PAGES * PAGE_SIZE,
check that addition of both of these parameters will not simply overflow
which could lead to out-of-bounds read/write.
Fixes#17518.
Support all the available clocks in clock_getres(). Also, fix this
function to use the actual ticks per second value, not the constant
`_SC_CLK_TCK` (which is always equal to 8) and move the resolution
computation logic to TimeManagement.
Dealing with the specific details of how to program a PLL should be done
in a separate file to ensure we can easily expand it to support future
generations of the Intel graphics device.
ENODEV better represents the fact that there might be no display device
(e.g. a monitor) connected to the connector, therefore we should return
this error.
Another reason to not use ENOTIMPL is that it's a requirement for all
DisplayConnectors to put a valid EDID in place even for a hardware we
don't currently support mode-setting in runtime.
Instead of doing that on the IntelDisplayPlane class, let's have this in
derived classes so these classes can decide how to use the settings that
were provided before calling the enable method.
