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Atmosphere/libraries/libmesosphere/source/kern_k_memory_layout.cpp

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/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <mesosphere.hpp>
namespace ams::kern {
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namespace {
class KMemoryRegionAllocator {
NON_COPYABLE(KMemoryRegionAllocator);
NON_MOVEABLE(KMemoryRegionAllocator);
public:
static constexpr size_t MaxMemoryRegions = 200;
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private:
KMemoryRegion m_region_heap[MaxMemoryRegions];
size_t m_num_regions;
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public:
constexpr ALWAYS_INLINE KMemoryRegionAllocator() : m_region_heap(), m_num_regions() { /* ... */ }
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public:
template<typename... Args>
ALWAYS_INLINE KMemoryRegion *Allocate(Args&&... args) {
/* Ensure we stay within the bounds of our heap. */
MESOSPHERE_INIT_ABORT_UNLESS(m_num_regions < MaxMemoryRegions);
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/* Create the new region. */
KMemoryRegion *region = std::addressof(m_region_heap[m_num_regions++]);
std::construct_at(region, std::forward<Args>(args)...);
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return region;
}
};
constinit KMemoryRegionAllocator g_memory_region_allocator;
template<typename... Args>
ALWAYS_INLINE KMemoryRegion *AllocateRegion(Args&&... args) {
return g_memory_region_allocator.Allocate(std::forward<Args>(args)...);
}
}
void KMemoryRegionTree::InsertDirectly(uintptr_t address, uintptr_t last_address, u32 attr, u32 type_id) {
this->insert(*AllocateRegion(address, last_address, attr, type_id));
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}
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bool KMemoryRegionTree::Insert(uintptr_t address, size_t size, u32 type_id, u32 new_attr, u32 old_attr) {
/* Locate the memory region that contains the address. */
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KMemoryRegion *found = this->FindModifiable(address);
/* We require that the old attr is correct. */
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if (found->GetAttributes() != old_attr) {
return false;
}
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/* We further require that the region can be split from the old region. */
const uintptr_t inserted_region_end = address + size;
const uintptr_t inserted_region_last = inserted_region_end - 1;
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if (found->GetLastAddress() < inserted_region_last) {
return false;
}
/* Further, we require that the type id is a valid transformation. */
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if (!found->CanDerive(type_id)) {
return false;
}
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/* Cache information from the region before we remove it. */
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const uintptr_t old_address = found->GetAddress();
const uintptr_t old_last = found->GetLastAddress();
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const uintptr_t old_pair = found->GetPairAddress();
const u32 old_type = found->GetType();
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/* Erase the existing region from the tree. */
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this->erase(this->iterator_to(*found));
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/* Insert the new region into the tree. */
if (old_address == address) {
/* Reuse the old object for the new region, if we can. */
found->Reset(address, inserted_region_last, old_pair, new_attr, type_id);
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this->insert(*found);
} else {
/* If we can't re-use, adjust the old region. */
found->Reset(old_address, address - 1, old_pair, old_attr, old_type);
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this->insert(*found);
/* Insert a new region for the split. */
const uintptr_t new_pair = (old_pair != std::numeric_limits<uintptr_t>::max()) ? old_pair + (address - old_address) : old_pair;
this->insert(*AllocateRegion(address, inserted_region_last, new_pair, new_attr, type_id));
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}
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/* If we need to insert a region after the region, do so. */
if (old_last != inserted_region_last) {
const uintptr_t after_pair = (old_pair != std::numeric_limits<uintptr_t>::max()) ? old_pair + (inserted_region_end - old_address) : old_pair;
this->insert(*AllocateRegion(inserted_region_end, old_last, after_pair, old_attr, old_type));
}
return true;
}
void KMemoryLayout::InitializeLinearMemoryRegionTrees() {
/* Initialize linear trees. */
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for (auto &region : GetPhysicalMemoryRegionTree()) {
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if (region.HasTypeAttribute(KMemoryRegionAttr_LinearMapped)) {
GetPhysicalLinearMemoryRegionTree().InsertDirectly(region.GetAddress(), region.GetLastAddress(), region.GetAttributes(), region.GetType());
}
}
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for (auto &region : GetVirtualMemoryRegionTree()) {
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if (region.IsDerivedFrom(KMemoryRegionType_Dram)) {
GetVirtualLinearMemoryRegionTree().InsertDirectly(region.GetAddress(), region.GetLastAddress(), region.GetAttributes(), region.GetType());
}
}
}
size_t KMemoryLayout::GetResourceRegionSizeForInit() {
/* Calculate resource region size based on whether we allow extra threads. */
const bool use_extra_resources = KSystemControl::Init::ShouldIncreaseThreadResourceLimit();
return KernelResourceSize + (use_extra_resources ? KernelSlabHeapAdditionalSize : 0);
}
}