Atmosphere/mesosphere/source/processes/KHandleTable.cpp

135 lines
3.5 KiB
C++

#include <mutex>
#include <algorithm>
#include <mesosphere/processes/KHandleTable.hpp>
#include <mesosphere/core/KCoreContext.hpp>
#include <mesosphere/threading/KThread.hpp>
namespace mesosphere
{
bool KHandleTable::IsValid(Handle handle) const
{
// Official kernel checks for nullptr, however this makes the deferred-init logic more difficult.
// We use our own, more secure, logic instead, that is, free entries are <= 0.
return handle.index < capacity && handle.id > 0 && entries[handle.index].id == handle.id;
}
SharedPtr<KAutoObject> KHandleTable::GetAutoObject(Handle handle) const
{
if (!handle.IsAliasOrFree()) {
// Note: official kernel locks the spinlock here, but we don't need to.
return nullptr;
} else {
std::scoped_lock guard{spinlock};
return IsValid(handle) ? entries[handle.index].object : nullptr;
}
}
SharedPtr<KThread> KHandleTable::GetThread(Handle handle, bool allowAlias) const
{
if (allowAlias && handle == selfThreadAlias) {
return KCoreContext::GetCurrentInstance().GetCurrentThread();
} else {
return DynamicObjectCast<KThread>(GetAutoObject(handle));
}
}
SharedPtr<KProcess> KHandleTable::GetProcess(Handle handle, bool allowAlias) const
{
if (allowAlias && handle == selfProcessAlias) {
return KCoreContext::GetCurrentInstance().GetCurrentProcess();
} else {
return DynamicObjectCast<KProcess>(GetAutoObject(handle));
}
}
bool KHandleTable::Close(Handle handle)
{
SharedPtr<KAutoObject> tmp{nullptr}; // ensure any potential dtor is called w/o the spinlock being held
if (handle.IsAliasOrFree()) {
return false;
} else {
std::scoped_lock guard{spinlock};
if (IsValid(handle)) {
entries[-firstFreeIndex].id = firstFreeIndex;
firstFreeIndex = -(s16)handle.index;
--numActive;
tmp = std::move(entries[handle.index].object);
return true;
} else {
return false;
}
}
}
bool KHandleTable::Generate(Handle &out, SharedPtr<KAutoObject> obj)
{
// Note: nullptr is accepted, for deferred-init.
std::scoped_lock guard{spinlock};
if (numActive >= capacity) {
return false; // caller should return 0xD201
}
// Get/allocate the entry
u16 index = (u16)-firstFreeIndex;
Entry *e = &entries[-firstFreeIndex];
firstFreeIndex = e->id;
e->id = idCounter;
e->object = std::move(obj);
out.index = index;
out.id = e->id;
out.isAlias = false;
size = ++numActive > size ? numActive : size;
idCounter = idCounter == 0x7FFF ? 1 : idCounter + 1;
return true;
}
bool KHandleTable::Set(SharedPtr<KAutoObject> obj, Handle handle)
{
if (!handle.IsAliasOrFree() && IsValid(handle)) {
std::scoped_lock guard{spinlock};
entries[handle.index].object = std::move(obj);
return true;
} else {
return false;
}
}
void KHandleTable::Destroy()
{
spinlock.lock();
u16 capa = capacity;
capacity = 0;
firstFreeIndex = 0;
spinlock.unlock();
for (u16 i = 0; i < capa; i++) {
entries[i].object = nullptr;
entries[i].id = -(i + 1);
}
}
/*
KHandleTable::KHandleTable(size_t capacity_) : capacity((u16)capacity_)
{
// Note: caller should check the > case, and return an error in that case!
capacity = capacity > capacityLimit || capacity == 0 ? (u16)capacityLimit : capacity;
u16 capa = capacity;
Destroy();
capacity = capa;
}*/
KHandleTable::~KHandleTable()
{
Destroy();
}
}