mirror of
https://github.com/Atmosphere-NX/Atmosphere
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246 lines
11 KiB
C++
246 lines
11 KiB
C++
/*
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* Copyright (c) 2018-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <mesosphere.hpp>
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namespace ams::kern {
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namespace {
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constexpr KMemoryManager::Pool GetPoolFromMemoryRegionType(u32 type) {
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switch (type) {
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case KMemoryRegionType_VirtualDramApplicationPool: return KMemoryManager::Pool_Application;
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case KMemoryRegionType_VirtualDramAppletPool: return KMemoryManager::Pool_Applet;
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case KMemoryRegionType_VirtualDramSystemPool: return KMemoryManager::Pool_System;
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case KMemoryRegionType_VirtualDramSystemNonSecurePool: return KMemoryManager::Pool_SystemNonSecure;
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MESOSPHERE_UNREACHABLE_DEFAULT_CASE();
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}
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}
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}
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void KMemoryManager::Initialize(KVirtualAddress metadata_region, size_t metadata_region_size) {
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/* Clear the metadata region to zero. */
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const KVirtualAddress metadata_region_end = metadata_region + metadata_region_size;
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std::memset(GetVoidPointer(metadata_region), 0, metadata_region_size);
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/* Traverse the virtual memory layout tree, initializing each manager as appropriate. */
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while (true) {
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/* Locate the region that should initialize the current manager. */
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const KMemoryRegion *region = nullptr;
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for (const auto &it : KMemoryLayout::GetVirtualMemoryRegionTree()) {
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/* We only care about regions that we need to create managers for. */
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if (!it.IsDerivedFrom(KMemoryRegionType_VirtualDramManagedPool)) {
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continue;
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}
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/* We want to initialize the managers in order. */
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if (it.GetAttributes() != this->num_managers) {
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continue;
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}
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region = std::addressof(it);
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break;
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}
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/* If we didn't find a region, then we're done initializing managers. */
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if (region == nullptr) {
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break;
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}
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/* Ensure that the region is correct. */
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MESOSPHERE_ASSERT(region->GetAddress() != Null<decltype(region->GetAddress())>);
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MESOSPHERE_ASSERT(region->GetSize() > 0);
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MESOSPHERE_ASSERT(region->GetEndAddress() >= region->GetAddress());
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MESOSPHERE_ASSERT(region->IsDerivedFrom(KMemoryRegionType_VirtualDramManagedPool));
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MESOSPHERE_ASSERT(region->GetAttributes() == this->num_managers);
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/* Initialize a new manager for the region. */
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const Pool pool = GetPoolFromMemoryRegionType(region->GetType());
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Impl *manager = std::addressof(this->managers[this->num_managers++]);
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MESOSPHERE_ABORT_UNLESS(this->num_managers <= util::size(this->managers));
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const size_t cur_size = manager->Initialize(region, pool, metadata_region, metadata_region_end);
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metadata_region += cur_size;
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MESOSPHERE_ABORT_UNLESS(metadata_region <= metadata_region_end);
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/* Insert the manager into the pool list. */
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if (this->pool_managers_tail[pool] == nullptr) {
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this->pool_managers_head[pool] = manager;
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} else {
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this->pool_managers_tail[pool]->SetNext(manager);
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manager->SetPrev(this->pool_managers_tail[pool]);
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}
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this->pool_managers_tail[pool] = manager;
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}
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}
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KVirtualAddress KMemoryManager::AllocateContinuous(size_t num_pages, size_t align_pages, u32 option) {
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/* Early return if we're allocating no pages. */
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if (num_pages == 0) {
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return Null<KVirtualAddress>;
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}
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/* Lock the pool that we're allocating from. */
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const auto [pool, dir] = DecodeOption(option);
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KScopedLightLock lk(this->pool_locks[pool]);
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/* Choose a heap based on our page size request. */
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const s32 heap_index = KPageHeap::GetAlignedBlockIndex(num_pages, align_pages);
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/* Loop, trying to iterate from each block. */
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Impl *chosen_manager = nullptr;
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KVirtualAddress allocated_block = Null<KVirtualAddress>;
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for (chosen_manager = this->GetFirstManager(pool, dir); chosen_manager != nullptr; chosen_manager = this->GetNextManager(chosen_manager, dir)) {
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allocated_block = chosen_manager->AllocateBlock(heap_index, true);
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if (allocated_block != Null<KVirtualAddress>) {
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break;
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}
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}
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/* If we failed to allocate, quit now. */
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if (allocated_block == Null<KVirtualAddress>) {
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return Null<KVirtualAddress>;
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}
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/* If we allocated more than we need, free some. */
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const size_t allocated_pages = KPageHeap::GetBlockNumPages(heap_index);
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if (allocated_pages > num_pages) {
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chosen_manager->Free(allocated_block + num_pages * PageSize, allocated_pages - num_pages);
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}
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/* Maintain the optimized memory bitmap, if we should. */
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if (this->has_optimized_process[pool]) {
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chosen_manager->TrackAllocationForOptimizedProcess(allocated_block, num_pages);
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}
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return allocated_block;
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}
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Result KMemoryManager::AllocatePageGroupImpl(KPageGroup *out, size_t num_pages, Pool pool, Direction dir, bool optimize, bool random) {
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/* Choose a heap based on our page size request. */
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const s32 heap_index = KPageHeap::GetBlockIndex(num_pages);
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R_UNLESS(0 <= heap_index, svc::ResultOutOfMemory());
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/* Ensure that we don't leave anything un-freed. */
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auto group_guard = SCOPE_GUARD {
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for (const auto &it : *out) {
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auto &manager = this->GetManager(it.GetAddress());
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const size_t num_pages = std::min(it.GetNumPages(), (manager.GetEndAddress() - it.GetAddress()) / PageSize);
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manager.Free(it.GetAddress(), num_pages);
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}
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out->Finalize();
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};
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/* Keep allocating until we've allocated all our pages. */
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for (s32 index = heap_index; index >= 0 && num_pages > 0; index--) {
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const size_t pages_per_alloc = KPageHeap::GetBlockNumPages(index);
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for (Impl *cur_manager = this->GetFirstManager(pool, dir); cur_manager != nullptr; cur_manager = this->GetNextManager(cur_manager, dir)) {
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while (num_pages >= pages_per_alloc) {
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/* Allocate a block. */
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KVirtualAddress allocated_block = cur_manager->AllocateBlock(index, random);
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if (allocated_block == Null<KVirtualAddress>) {
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break;
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}
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/* Safely add it to our group. */
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{
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auto block_guard = SCOPE_GUARD { cur_manager->Free(allocated_block, pages_per_alloc); };
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R_TRY(out->AddBlock(allocated_block, pages_per_alloc));
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block_guard.Cancel();
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}
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/* Maintain the optimized memory bitmap, if we should. */
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if (optimize) {
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cur_manager->TrackAllocationForOptimizedProcess(allocated_block, pages_per_alloc);
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}
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num_pages -= pages_per_alloc;
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}
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}
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}
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/* Only succeed if we allocated as many pages as we wanted. */
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MESOSPHERE_ASSERT(num_pages >= 0);
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R_UNLESS(num_pages == 0, svc::ResultOutOfMemory());
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/* We succeeded! */
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group_guard.Cancel();
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return ResultSuccess();
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}
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Result KMemoryManager::Allocate(KPageGroup *out, size_t num_pages, u32 option) {
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MESOSPHERE_ASSERT(out != nullptr);
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MESOSPHERE_ASSERT(out->GetNumPages() == 0);
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/* Early return if we're allocating no pages. */
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R_SUCCEED_IF(num_pages == 0);
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/* Lock the pool that we're allocating from. */
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const auto [pool, dir] = DecodeOption(option);
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KScopedLightLock lk(this->pool_locks[pool]);
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/* Allocate the page group. */
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return this->AllocatePageGroupImpl(out, num_pages, pool, dir, this->has_optimized_process[pool], true);
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}
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size_t KMemoryManager::Impl::Initialize(const KMemoryRegion *region, Pool p, KVirtualAddress metadata, KVirtualAddress metadata_end) {
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/* Calculate metadata sizes. */
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const size_t ref_count_size = (region->GetSize() / PageSize) * sizeof(u16);
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const size_t optimize_map_size = (util::AlignUp((region->GetSize() / PageSize), BITSIZEOF(u64)) / BITSIZEOF(u64)) * sizeof(u64);
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const size_t manager_size = util::AlignUp(optimize_map_size + ref_count_size, PageSize);
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const size_t page_heap_size = KPageHeap::CalculateMetadataOverheadSize(region->GetSize());
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const size_t total_metadata_size = manager_size + page_heap_size;
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MESOSPHERE_ABORT_UNLESS(manager_size <= total_metadata_size);
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MESOSPHERE_ABORT_UNLESS(metadata + total_metadata_size <= metadata_end);
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MESOSPHERE_ABORT_UNLESS(util::IsAligned(total_metadata_size, PageSize));
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/* Setup region. */
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this->pool = p;
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this->metadata_region = metadata;
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this->page_reference_counts = GetPointer<RefCount>(metadata + optimize_map_size);
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MESOSPHERE_ABORT_UNLESS(util::IsAligned(GetInteger(this->metadata_region), PageSize));
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/* Initialize the manager's KPageHeap. */
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this->heap.Initialize(region->GetAddress(), region->GetSize(), metadata + manager_size, page_heap_size);
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/* Free the memory to the heap. */
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this->heap.Free(region->GetAddress(), region->GetSize() / PageSize);
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/* Update the heap's used size. */
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this->heap.UpdateUsedSize();
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return total_metadata_size;
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}
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void KMemoryManager::Impl::TrackAllocationForOptimizedProcess(KVirtualAddress block, size_t num_pages) {
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size_t offset = this->heap.GetPageOffset(block);
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const size_t last = offset + num_pages - 1;
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u64 *optimize_map = GetPointer<u64>(this->metadata_region);
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while (offset <= last) {
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optimize_map[offset / BITSIZEOF(u64)] &= ~(u64(1) << (offset % BITSIZEOF(u64)));
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offset++;
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}
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}
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size_t KMemoryManager::Impl::CalculateMetadataOverheadSize(size_t region_size) {
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const size_t ref_count_size = (region_size / PageSize) * sizeof(u16);
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const size_t optimize_map_size = (util::AlignUp((region_size / PageSize), BITSIZEOF(u64)) / BITSIZEOF(u64)) * sizeof(u64);
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const size_t manager_meta_size = util::AlignUp(optimize_map_size + ref_count_size, PageSize);
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const size_t page_heap_size = KPageHeap::CalculateMetadataOverheadSize(region_size);
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return manager_meta_size + page_heap_size;
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}
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}
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