mirror of
https://github.com/GreemDev/Ryujinx
synced 2024-11-22 17:56:59 +01:00
284 lines
11 KiB
C#
284 lines
11 KiB
C#
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using NUnit.Framework;
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using Ryujinx.Memory.Tracking;
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using System;
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using System.Collections.Generic;
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using System.Linq;
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namespace Ryujinx.Memory.Tests
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{
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public class MultiRegionTrackingTests
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{
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private const int RndCnt = 3;
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private const ulong MemorySize = 0x8000;
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private const int PageSize = 4096;
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private MemoryBlock _memoryBlock;
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private MemoryTracking _tracking;
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private MockVirtualMemoryManager _memoryManager;
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[SetUp]
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public void Setup()
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{
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_memoryBlock = new MemoryBlock(MemorySize);
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_memoryManager = new MockVirtualMemoryManager(MemorySize, PageSize);
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_tracking = new MemoryTracking(_memoryManager, _memoryBlock, PageSize);
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}
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[TearDown]
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public void Teardown()
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{
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_memoryBlock.Dispose();
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}
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private IMultiRegionHandle GetGranular(bool smart, ulong address, ulong size, ulong granularity)
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{
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return smart ?
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_tracking.BeginSmartGranularTracking(address, size, granularity) :
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(IMultiRegionHandle)_tracking.BeginGranularTracking(address, size, granularity);
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}
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private void RandomOrder(Random random, List<int> indices, Action<int> action)
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{
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List<int> choices = indices.ToList();
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while (choices.Count > 0)
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{
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int choice = random.Next(choices.Count);
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action(choices[choice]);
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choices.RemoveAt(choice);
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}
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}
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private int ExpectQueryInOrder(IMultiRegionHandle handle, ulong startAddress, ulong size, Func<ulong, bool> addressPredicate)
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{
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int regionCount = 0;
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ulong lastAddress = startAddress;
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handle.QueryModified(startAddress, size, (address, range) =>
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{
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Assert.IsTrue(addressPredicate(address)); // Written pages must be even.
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Assert.GreaterOrEqual(address, lastAddress); // Must be signalled in ascending order, regardless of write order.
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lastAddress = address;
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regionCount++;
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});
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return regionCount;
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}
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private int ExpectQueryInOrder(IMultiRegionHandle handle, ulong startAddress, ulong size, Func<ulong, bool> addressPredicate, int sequenceNumber)
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{
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int regionCount = 0;
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ulong lastAddress = startAddress;
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handle.QueryModified(startAddress, size, (address, range) =>
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{
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Assert.IsTrue(addressPredicate(address)); // Written pages must be even.
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Assert.GreaterOrEqual(address, lastAddress); // Must be signalled in ascending order, regardless of write order.
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lastAddress = address;
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regionCount++;
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}, sequenceNumber);
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return regionCount;
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}
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private void PreparePages(IMultiRegionHandle handle, int pageCount, ulong address = 0)
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{
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Random random = new Random();
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// Make sure the list has minimum granularity (smart region changes granularity based on requested ranges)
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RandomOrder(random, Enumerable.Range(0, pageCount).ToList(), (i) =>
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{
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ulong resultAddress = ulong.MaxValue;
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handle.QueryModified((ulong)i * PageSize + address, PageSize, (address, range) =>
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{
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resultAddress = address;
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});
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Assert.AreEqual(resultAddress, (ulong)i * PageSize + address);
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});
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}
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[Test]
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public void DirtyRegionOrdering([Values] bool smart)
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{
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const int pageCount = 32;
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IMultiRegionHandle handle = GetGranular(smart, 0, PageSize * pageCount, PageSize);
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Random random = new Random();
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PreparePages(handle, pageCount);
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IEnumerable<int> halfRange = Enumerable.Range(0, pageCount / 2);
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List<int> odd = halfRange.Select(x => x * 2 + 1).ToList();
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List<int> even = halfRange.Select(x => x * 2).ToList();
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// Write to all the odd pages.
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RandomOrder(random, odd, (i) =>
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{
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_tracking.VirtualMemoryEvent((ulong)i * PageSize, PageSize, true);
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});
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int oddRegionCount = ExpectQueryInOrder(handle, 0, PageSize * pageCount, (address) => (address / PageSize) % 2 == 1);
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Assert.AreEqual(oddRegionCount, pageCount / 2); // Must have written to all odd pages.
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// Write to all the even pages.
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RandomOrder(random, even, (i) =>
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{
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_tracking.VirtualMemoryEvent((ulong)i * PageSize, PageSize, true);
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});
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int evenRegionCount = ExpectQueryInOrder(handle, 0, PageSize * pageCount, (address) => (address / PageSize) % 2 == 0);
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Assert.AreEqual(evenRegionCount, pageCount / 2);
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}
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[Test]
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public void SequenceNumber([Values] bool smart)
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{
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// The sequence number can be used to ignore dirty flags, and defer their consumption until later.
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// If a user consumes a dirty flag with sequence number 1, then there is a write to the protected region,
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// the dirty flag will not be acknowledged until the sequence number is 2.
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// This is useful for situations where we know that the data was complete when the sequence number was set.
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// ...essentially, when that data can only be updated on a future sequence number.
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const int pageCount = 32;
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IMultiRegionHandle handle = GetGranular(smart, 0, PageSize * pageCount, PageSize);
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PreparePages(handle, pageCount);
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Random random = new Random();
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IEnumerable<int> halfRange = Enumerable.Range(0, pageCount / 2);
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List<int> odd = halfRange.Select(x => x * 2 + 1).ToList();
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List<int> even = halfRange.Select(x => x * 2).ToList();
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// Write to all the odd pages.
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RandomOrder(random, odd, (i) =>
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{
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_tracking.VirtualMemoryEvent((ulong)i * PageSize, PageSize, true);
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});
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int oddRegionCount = 0;
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// Track with sequence number 1. Future dirty flags should only be consumed with sequence number != 1.
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// Only track the odd pages, so the even ones don't have their sequence number set.
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foreach (int index in odd)
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{
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handle.QueryModified((ulong)index * PageSize, PageSize, (address, range) =>
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{
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oddRegionCount++;
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}, 1);
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}
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Assert.AreEqual(oddRegionCount, pageCount / 2); // Must have written to all odd pages.
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// Write to all pages.
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_tracking.VirtualMemoryEvent(0, PageSize * pageCount, true);
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// Only the even regions should be reported for sequence number 1.
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int evenRegionCount = ExpectQueryInOrder(handle, 0, PageSize * pageCount, (address) => (address / PageSize) % 2 == 0, 1);
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Assert.AreEqual(evenRegionCount, pageCount / 2); // Must have written to all even pages.
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oddRegionCount = 0;
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handle.QueryModified(0, PageSize * pageCount, (address, range) => { oddRegionCount++; }, 1);
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Assert.AreEqual(oddRegionCount, 0); // Sequence number has not changed, so found no dirty subregions.
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// With sequence number 2, all all pages should be reported as modified.
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oddRegionCount = ExpectQueryInOrder(handle, 0, PageSize * pageCount, (address) => (address / PageSize) % 2 == 1, 2);
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Assert.AreEqual(oddRegionCount, pageCount / 2); // Must have written to all odd pages.
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}
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[Test]
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public void SmartRegionTracking()
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{
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// Smart multi region handles dynamically change their tracking granularity based on QueryMemory calls.
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// This can save on reprotects on larger resources.
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const int pageCount = 32;
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IMultiRegionHandle handle = GetGranular(true, 0, PageSize * pageCount, PageSize);
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// Query some large regions to prep the subdivision of the tracking region.
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int[] regionSizes = new int[] { 6, 4, 3, 2, 6, 1 };
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ulong address = 0;
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for (int i = 0; i < regionSizes.Length; i++)
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{
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int region = regionSizes[i];
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handle.QueryModified(address, (ulong)(PageSize * region), (address, size) => { });
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// There should be a gap between regions,
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// So that they don't combine and we can see the full effects.
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address += (ulong)(PageSize * (region + 1));
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}
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// Clear modified.
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handle.QueryModified((address, size) => { });
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// Trigger each region with a 1 byte write.
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address = 0;
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for (int i = 0; i < regionSizes.Length; i++)
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{
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int region = regionSizes[i];
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_tracking.VirtualMemoryEvent(address, 1, true);
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address += (ulong)(PageSize * (region + 1));
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}
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int regionInd = 0;
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ulong expectedAddress = 0;
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// Expect each region to trigger in its entirety, in address ascending order.
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handle.QueryModified((address, size) => {
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int region = regionSizes[regionInd++];
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Assert.AreEqual(address, expectedAddress);
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Assert.AreEqual(size, (ulong)(PageSize * region));
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expectedAddress += (ulong)(PageSize * (region + 1));
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});
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}
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[Test]
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public void DisposeMultiHandles([Values] bool smart)
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{
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// Create and initialize two overlapping Multi Region Handles, with PageSize granularity.
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const int pageCount = 32;
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const int overlapStart = 16;
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Assert.AreEqual((0, 0), _tracking.GetRegionCounts());
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IMultiRegionHandle handleLow = GetGranular(smart, 0, PageSize * pageCount, PageSize);
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PreparePages(handleLow, pageCount);
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Assert.AreEqual((pageCount, pageCount), _tracking.GetRegionCounts());
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IMultiRegionHandle handleHigh = GetGranular(smart, PageSize * overlapStart, PageSize * pageCount, PageSize);
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PreparePages(handleHigh, pageCount, PageSize * overlapStart);
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// Combined pages (and assuming overlapStart <= pageCount) should be pageCount after overlapStart.
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int totalPages = overlapStart + pageCount;
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Assert.AreEqual((totalPages, totalPages), _tracking.GetRegionCounts());
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handleLow.Dispose(); // After disposing one, the pages for the other remain.
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Assert.AreEqual((pageCount, pageCount), _tracking.GetRegionCounts());
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handleHigh.Dispose(); // After disposing the other, there are no pages left.
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Assert.AreEqual((0, 0), _tracking.GetRegionCounts());
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}
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}
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}
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