This commit adds a simple XOR encoding to the next_object pointer in
FreeObjects. This removes the trivial way of getting hold of a physical
address from the system by observing the free list pointers in
deallocated objects.
This extends the freelist protection to the remote message queues. They
effectively perform doubly linked list entries for the message queue
with the enqueue operation first linking in the previous pointer, and
then then atomically setting the next. This ensures that the visible
states always satisfy the invariant that the forward and backward
pointers are correct for any visisble object.
There is a key_global that is used for all remote deallocations. The
remote cache uses the same protection to build the temporary lists
before forwarding to the next allocator.
The mpscq is integrated into the remoteallocator as it is no longer
a reusable datastructure, but a special purpose implementation.
# Pagemap
The Pagemap now stores all the meta-data for the object allocation. The meta-data in the pagemap is effectively a triple of the sizeclass, the remote allocator, and a pointer to a 64 byte block of meta-data for this chunk of memory. By storing the pointer to a block, it allows the pagemap to handle multiple slab sizes without branching on the fast path. There is one entry in the pagemap per 16KiB of address space, but by using the same entry in the pagemap for 4 adjacent entries, then we can treat a 64KiB range can be treated as a single slab of allocations.
This change also means there is almost no capability amplification required by the implementation on CHERI for finding meta-data. The only amplification is required, when we change the way a chunk is used to a size of object allocation.
# Backend
There is a second major aspect of the refactor that there is now a narrow API that abstracts the Pagemap, PAL and address space management. This should better enable the compartmentalisation and makes it easier to produce alternative backends for various research directions. This is a template parameter that can be used to specialised by the front-end in different ways.
# Thread local state
The thread local state has been refactored into two components, one (called 'localalloc') that is stored directly in the TLS and is constant initialised, and one that is allocated in the address space (called 'coreallloc') which is lazily created and pooled.
# Difference
This removes Superslabs/Medium slabs as there meta-data is now part of the pagemap.