core: hle: kernel: k_dynamic_page_manager: Refresh.
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@ -3,6 +3,8 @@
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#pragma once
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#include <vector>
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#include "common/alignment.h"
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#include "common/common_types.h"
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#include "core/hle/kernel/k_page_bitmap.h"
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@ -33,28 +35,36 @@ public:
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return reinterpret_cast<T*>(m_backing_memory.data() + (addr - m_address));
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}
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Result Initialize(VAddr addr, size_t sz) {
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Result Initialize(VAddr memory, size_t size, size_t align) {
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// We need to have positive size.
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R_UNLESS(sz > 0, ResultOutOfMemory);
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m_backing_memory.resize(sz);
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R_UNLESS(size > 0, ResultOutOfMemory);
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m_backing_memory.resize(size);
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// Calculate management overhead.
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const size_t management_size =
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KPageBitmap::CalculateManagementOverheadSize(sz / sizeof(PageBuffer));
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const size_t allocatable_size = sz - management_size;
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// Set addresses.
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m_address = memory;
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m_aligned_address = Common::AlignDown(memory, align);
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// Calculate extents.
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const size_t managed_size = m_address + size - m_aligned_address;
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const size_t overhead_size = Common::AlignUp(
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KPageBitmap::CalculateManagementOverheadSize(managed_size / sizeof(PageBuffer)),
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sizeof(PageBuffer));
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R_UNLESS(overhead_size < size, ResultOutOfMemory);
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// Set tracking fields.
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m_address = addr;
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m_size = Common::AlignDown(allocatable_size, sizeof(PageBuffer));
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m_count = allocatable_size / sizeof(PageBuffer);
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R_UNLESS(m_count > 0, ResultOutOfMemory);
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m_size = Common::AlignDown(size - overhead_size, sizeof(PageBuffer));
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m_count = m_size / sizeof(PageBuffer);
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// Clear the management region.
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u64* management_ptr = GetPointer<u64>(m_address + allocatable_size);
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std::memset(management_ptr, 0, management_size);
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u64* management_ptr = GetPointer<u64>(m_address + size - overhead_size);
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std::memset(management_ptr, 0, overhead_size);
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// Initialize the bitmap.
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m_page_bitmap.Initialize(management_ptr, m_count);
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const size_t allocatable_region_size =
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(m_address + size - overhead_size) - m_aligned_address;
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ASSERT(allocatable_region_size >= sizeof(PageBuffer));
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m_page_bitmap.Initialize(management_ptr, allocatable_region_size / sizeof(PageBuffer));
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// Free the pages to the bitmap.
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for (size_t i = 0; i < m_count; i++) {
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@ -62,7 +72,8 @@ public:
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std::memset(GetPointer<PageBuffer>(m_address) + i, 0, PageSize);
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// Set the bit for the free page.
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m_page_bitmap.SetBit(i);
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m_page_bitmap.SetBit((m_address + (i * sizeof(PageBuffer)) - m_aligned_address) /
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sizeof(PageBuffer));
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}
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R_SUCCEED();
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@ -101,7 +112,28 @@ public:
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m_page_bitmap.ClearBit(offset);
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m_peak = std::max(m_peak, (++m_used));
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return GetPointer<PageBuffer>(m_address) + offset;
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return GetPointer<PageBuffer>(m_aligned_address) + offset;
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}
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PageBuffer* Allocate(size_t count) {
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// Take the lock.
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// TODO(bunnei): We should disable interrupts here via KScopedInterruptDisable.
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KScopedSpinLock lk(m_lock);
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// Find a random free block.
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s64 soffset = m_page_bitmap.FindFreeRange(count);
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if (soffset < 0) [[likely]] {
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return nullptr;
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}
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const size_t offset = static_cast<size_t>(soffset);
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// Update our tracking.
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m_page_bitmap.ClearRange(offset, count);
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m_used += count;
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m_peak = std::max(m_peak, m_used);
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return GetPointer<PageBuffer>(m_aligned_address) + offset;
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}
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void Free(PageBuffer* pb) {
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@ -113,7 +145,7 @@ public:
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KScopedSpinLock lk(m_lock);
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// Set the bit for the free page.
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size_t offset = (reinterpret_cast<uintptr_t>(pb) - m_address) / sizeof(PageBuffer);
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size_t offset = (reinterpret_cast<uintptr_t>(pb) - m_aligned_address) / sizeof(PageBuffer);
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m_page_bitmap.SetBit(offset);
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// Decrement our used count.
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@ -127,6 +159,7 @@ private:
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size_t m_peak{};
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size_t m_count{};
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VAddr m_address{};
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VAddr m_aligned_address{};
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size_t m_size{};
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// TODO(bunnei): Back by host memory until we emulate kernel virtual address space.
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