Now that we reclaim the memory range that is created by KASLR before
the start of the kernel image, there's no need to be conservative with
the KASLR offset.
This ensures we don't just waste the memory range between the default
base load address and the actual load address that was shifted by the
KASLR offset.
PageDirectory gets initialized step-by-step in
PageDirectory::try_create_for_userspace(). This initialization may fail
anywhere in this function - for example, we may not be able to
allocate a directory table, in which case
PageDirectory::try_create_for_userspace() will return a null pointer.
We recognize this condition and early-return ENOMEM. However, at this
point, we need to correctly destruct the only partially initialized
PageDirectory. Previously, PageDirectory::~PageDirectory() would assume
that the object it was destructing was always fully initialized. It now
uses the new helper PageDirectory::is_cr3_initialized() to correctly
recognize when the directory table was not yet initialized. This helper
checks if the pointer to the directory table is null. Only if it is not
null does the destructor try to fetch the directory table using
PageDirectory::cr3().
Previously we would only remove them from the map if they were attached
to an AddressSpace, even though we would always add them to the map on
construction. This results in an assertion failure on destruction if
the page directory was never attached to an AddressSpace. (for example,
on an allocation failure of said AddressSpace)
We now use AK::Error and AK::ErrorOr<T> in both kernel and userspace!
This was a slightly tedious refactoring that took a long time, so it's
not unlikely that some bugs crept in.
Nevertheless, it does pass basic functionality testing, and it's just
real nice to finally see the same pattern in all contexts. :^)
When booting AP's, we identity map a region at 0x8000 while doing the
initial bringup sequence. This is the only thing in the kernel that
requires an identity mapping, yet we had a bunch of generic API's and a
dedicated VirtualRangeAllocator in every PageDirectory for this purpose.
This patch simplifies the situation by moving the identity mapping logic
to the AP boot code and removing the generic API's.
...and also RangeAllocator => VirtualRangeAllocator.
This clarifies that the ranges we're dealing with are *virtual* memory
ranges and not anything else.
