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ac20919b13
This might be useful for debugging since guard pages introduce a fair amount of noise in the virtual address space.
158 lines
4.7 KiB
C++
158 lines
4.7 KiB
C++
#include <AK/QuickSort.h>
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#include <Kernel/VM/RangeAllocator.h>
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#include <Kernel/kstdio.h>
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//#define VRA_DEBUG
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#define VM_GUARD_PAGES
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RangeAllocator::RangeAllocator(VirtualAddress base, size_t size)
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{
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m_available_ranges.append({ base, size });
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#ifdef VRA_DEBUG
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dump();
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#endif
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}
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RangeAllocator::RangeAllocator(const RangeAllocator& parent_allocator)
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: m_available_ranges(parent_allocator.m_available_ranges)
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{
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}
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RangeAllocator::~RangeAllocator()
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{
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}
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void RangeAllocator::dump() const
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{
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dbgprintf("RangeAllocator{%p}\n", this);
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for (auto& range : m_available_ranges) {
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dbgprintf(" %x -> %x\n", range.base().get(), range.end().get() - 1);
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}
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}
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Vector<Range, 2> Range::carve(const Range& taken)
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{
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Vector<Range, 2> parts;
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if (taken == *this)
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return {};
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if (taken.base() > base())
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parts.append({ base(), taken.base().get() - base().get() });
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if (taken.end() < end())
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parts.append({ taken.end(), end().get() - taken.end().get() });
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#ifdef VRA_DEBUG
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dbgprintf("VRA: carve: take %x-%x from %x-%x\n",
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taken.base().get(), taken.end().get() - 1,
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base().get(), end().get() - 1);
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for (int i = 0; i < parts.size(); ++i)
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dbgprintf(" %x-%x\n", parts[i].base().get(), parts[i].end().get() - 1);
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#endif
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return parts;
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}
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void RangeAllocator::carve_at_index(int index, const Range& range)
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{
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auto remaining_parts = m_available_ranges[index].carve(range);
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ASSERT(remaining_parts.size() >= 1);
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m_available_ranges[index] = remaining_parts[0];
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if (remaining_parts.size() == 2)
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m_available_ranges.insert(index + 1, move(remaining_parts[1]));
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}
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Range RangeAllocator::allocate_anywhere(size_t size)
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{
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#ifdef VM_GUARD_PAGES
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// NOTE: We pad VM allocations with a guard page on each side.
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size_t effective_size = size + PAGE_SIZE * 2;
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size_t offset_from_effective_base = PAGE_SIZE;
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#else
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size_t effective_size = size;
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size_t offset_from_effective_base = 0;
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#endif
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for (int i = 0; i < m_available_ranges.size(); ++i) {
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auto& available_range = m_available_ranges[i];
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if (available_range.size() < effective_size)
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continue;
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Range allocated_range(available_range.base().offset(offset_from_effective_base), size);
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if (available_range.size() == effective_size) {
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#ifdef VRA_DEBUG
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dbgprintf("VRA: Allocated perfect-fit anywhere(%u): %x\n", size, allocated_range.base().get());
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#endif
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m_available_ranges.remove(i);
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return allocated_range;
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}
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carve_at_index(i, allocated_range);
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#ifdef VRA_DEBUG
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dbgprintf("VRA: Allocated anywhere(%u): %x\n", size, allocated_range.base().get());
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dump();
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#endif
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return allocated_range;
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}
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kprintf("VRA: Failed to allocate anywhere: %u\n", size);
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return {};
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}
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Range RangeAllocator::allocate_specific(VirtualAddress base, size_t size)
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{
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Range allocated_range(base, size);
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for (int i = 0; i < m_available_ranges.size(); ++i) {
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auto& available_range = m_available_ranges[i];
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if (!available_range.contains(base, size))
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continue;
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if (available_range == allocated_range) {
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m_available_ranges.remove(i);
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return allocated_range;
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}
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carve_at_index(i, allocated_range);
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#ifdef VRA_DEBUG
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dbgprintf("VRA: Allocated specific(%u): %x\n", size, available_range.base().get());
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dump();
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#endif
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return allocated_range;
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}
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kprintf("VRA: Failed to allocate specific range: %x(%u)\n", base.get(), size);
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return {};
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}
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void RangeAllocator::deallocate(Range range)
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{
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#ifdef VRA_DEBUG
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dbgprintf("VRA: Deallocate: %x(%u)\n", range.base().get(), range.size());
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dump();
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#endif
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for (auto& available_range : m_available_ranges) {
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if (available_range.end() == range.base()) {
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available_range.m_size += range.size();
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goto sort_and_merge;
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}
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}
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m_available_ranges.append(range);
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sort_and_merge:
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// FIXME: We don't have to sort if we insert at the right position immediately.
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quick_sort(m_available_ranges.begin(), m_available_ranges.end(), [](auto& a, auto& b) {
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return a.base() < b.base();
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});
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Vector<Range> merged_ranges;
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merged_ranges.ensure_capacity(m_available_ranges.size());
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for (auto& range : m_available_ranges) {
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if (merged_ranges.is_empty()) {
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merged_ranges.append(range);
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continue;
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}
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if (range.base() == merged_ranges.last().end()) {
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merged_ranges.last().m_size += range.size();
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continue;
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}
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merged_ranges.append(range);
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}
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m_available_ranges = move(merged_ranges);
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#ifdef VRA_DEBUG
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dbgprintf("VRA: After deallocate\n");
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dump();
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#endif
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}
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