@ -4,34 +4,213 @@
# pragma once
# include <atomic>
# include "common/assert.h"
# include "common/common_types.h"
namespace Kernel {
class KernelCore ;
/// This is a placeholder class to manage slab heaps for kernel objects. For now, we just allocate
/// these with new/delete, but this can be re-implemented later to allocate these in emulated
/// memory.
namespace impl {
class KSlabHeapImpl final : NonCopyable {
public :
struct Node {
Node * next { } ;
} ;
constexpr KSlabHeapImpl ( ) = default ;
void Initialize ( std : : size_t size ) {
ASSERT ( head = = nullptr ) ;
obj_size = size ;
}
constexpr std : : size_t GetObjectSize ( ) const {
return obj_size ;
}
Node * GetHead ( ) const {
return head ;
}
void * Allocate ( ) {
Node * ret = head . load ( ) ;
do {
if ( ret = = nullptr ) {
break ;
}
} while ( ! head . compare_exchange_weak ( ret , ret - > next ) ) ;
return ret ;
}
void Free ( void * obj ) {
Node * node = static_cast < Node * > ( obj ) ;
Node * cur_head = head . load ( ) ;
do {
node - > next = cur_head ;
} while ( ! head . compare_exchange_weak ( cur_head , node ) ) ;
}
private :
std : : atomic < Node * > head { } ;
std : : size_t obj_size { } ;
} ;
} // namespace impl
class KSlabHeapBase : NonCopyable {
public :
constexpr KSlabHeapBase ( ) = default ;
constexpr bool Contains ( uintptr_t addr ) const {
return start < = addr & & addr < end ;
}
constexpr std : : size_t GetSlabHeapSize ( ) const {
return ( end - start ) / GetObjectSize ( ) ;
}
constexpr std : : size_t GetObjectSize ( ) const {
return impl . GetObjectSize ( ) ;
}
constexpr uintptr_t GetSlabHeapAddress ( ) const {
return start ;
}
std : : size_t GetObjectIndexImpl ( const void * obj ) const {
return ( reinterpret_cast < uintptr_t > ( obj ) - start ) / GetObjectSize ( ) ;
}
std : : size_t GetPeakIndex ( ) const {
return GetObjectIndexImpl ( reinterpret_cast < const void * > ( peak ) ) ;
}
void * AllocateImpl ( ) {
return impl . Allocate ( ) ;
}
void FreeImpl ( void * obj ) {
// Don't allow freeing an object that wasn't allocated from this heap
ASSERT ( Contains ( reinterpret_cast < uintptr_t > ( obj ) ) ) ;
impl . Free ( obj ) ;
}
void InitializeImpl ( std : : size_t obj_size , void * memory , std : : size_t memory_size ) {
// Ensure we don't initialize a slab using null memory
ASSERT ( memory ! = nullptr ) ;
// Initialize the base allocator
impl . Initialize ( obj_size ) ;
// Set our tracking variables
const std : : size_t num_obj = ( memory_size / obj_size ) ;
start = reinterpret_cast < uintptr_t > ( memory ) ;
end = start + num_obj * obj_size ;
peak = start ;
// Free the objects
u8 * cur = reinterpret_cast < u8 * > ( end ) ;
for ( std : : size_t i { } ; i < num_obj ; i + + ) {
cur - = obj_size ;
impl . Free ( cur ) ;
}
}
private :
using Impl = impl : : KSlabHeapImpl ;
Impl impl ;
uintptr_t peak { } ;
uintptr_t start { } ;
uintptr_t end { } ;
} ;
template < typename T >
class KSlabHeap final : NonCopyable {
class KSlabHeap final : public KSlabHeapBas e {
public :
KSlabHeap ( ) = default ;
enum class AllocationType {
Host ,
Guest ,
} ;
void Initialize ( [[maybe_unused]] void* memory, [[maybe_unused]] std : : size_t memory_size ) {
// Placeholder that should initialize the backing slab heap implementation.
explicit constexpr KSlabHeap ( AllocationType allocation_type_ = AllocationType : : Host )
: KSlabHeapBase ( ) , allocation_type { allocation_type_ } { }
void Initialize ( void * memory , std : : size_t memory_size ) {
if ( allocation_type = = AllocationType : : Guest ) {
InitializeImpl ( sizeof ( T ) , memory , memory_size ) ;
}
}
T * Allocate ( ) {
return new T ( ) ;
switch ( allocation_type ) {
case AllocationType : : Host :
// Fallback for cases where we do not yet support allocating guest memory from the slab
// heap, such as for kernel memory regions.
return new T ;
case AllocationType : : Guest :
T * obj = static_cast < T * > ( AllocateImpl ( ) ) ;
if ( obj ! = nullptr ) {
new ( obj ) T ( ) ;
}
return obj ;
}
UNREACHABLE_MSG ( " Invalid AllocationType {} " , allocation_type ) ;
return nullptr ;
}
T * AllocateWithKernel ( KernelCore & kernel ) {
switch ( allocation_type ) {
case AllocationType : : Host :
// Fallback for cases where we do not yet support allocating guest memory from the slab
// heap, such as for kernel memory regions.
return new T ( kernel ) ;
case AllocationType : : Guest :
T * obj = static_cast < T * > ( AllocateImpl ( ) ) ;
if ( obj ! = nullptr ) {
new ( obj ) T ( kernel ) ;
}
return obj ;
}
UNREACHABLE_MSG ( " Invalid AllocationType {} " , allocation_type ) ;
return nullptr ;
}
void Free ( T * obj ) {
switch ( allocation_type ) {
case AllocationType : : Host :
// Fallback for cases where we do not yet support allocating guest memory from the slab
// heap, such as for kernel memory regions.
delete obj ;
return ;
case AllocationType : : Guest :
FreeImpl ( obj ) ;
return ;
}
UNREACHABLE_MSG ( " Invalid AllocationType {} " , allocation_type ) ;
}
constexpr std : : size_t GetObjectIndex ( const T * obj ) const {
return GetObjectIndexImpl ( obj ) ;
}
private :
const AllocationType allocation_type ;
} ;
} // namespace Kernel