| // Copyright 2019 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package runtime_test |
| |
| import ( |
| "fmt" |
| "internal/goos" |
| "math/rand" |
| . "runtime" |
| "runtime/internal/atomic" |
| "testing" |
| "time" |
| ) |
| |
| // makePallocData produces an initialized PallocData by setting |
| // the ranges of described in alloc and scavenge. |
| func makePallocData(alloc, scavenged []BitRange) *PallocData { |
| b := new(PallocData) |
| for _, v := range alloc { |
| if v.N == 0 { |
| // Skip N==0. It's harmless and allocRange doesn't |
| // handle this case. |
| continue |
| } |
| b.AllocRange(v.I, v.N) |
| } |
| for _, v := range scavenged { |
| if v.N == 0 { |
| // See the previous loop. |
| continue |
| } |
| b.ScavengedSetRange(v.I, v.N) |
| } |
| return b |
| } |
| |
| func TestFillAligned(t *testing.T) { |
| fillAlignedSlow := func(x uint64, m uint) uint64 { |
| if m == 1 { |
| return x |
| } |
| out := uint64(0) |
| for i := uint(0); i < 64; i += m { |
| for j := uint(0); j < m; j++ { |
| if x&(uint64(1)<<(i+j)) != 0 { |
| out |= ((uint64(1) << m) - 1) << i |
| break |
| } |
| } |
| } |
| return out |
| } |
| check := func(x uint64, m uint) { |
| want := fillAlignedSlow(x, m) |
| if got := FillAligned(x, m); got != want { |
| t.Logf("got: %064b", got) |
| t.Logf("want: %064b", want) |
| t.Errorf("bad fillAligned(%016x, %d)", x, m) |
| } |
| } |
| for m := uint(1); m <= 64; m *= 2 { |
| tests := []uint64{ |
| 0x0000000000000000, |
| 0x00000000ffffffff, |
| 0xffffffff00000000, |
| 0x8000000000000001, |
| 0xf00000000000000f, |
| 0xf00000010050000f, |
| 0xffffffffffffffff, |
| 0x0000000000000001, |
| 0x0000000000000002, |
| 0x0000000000000008, |
| uint64(1) << (m - 1), |
| uint64(1) << m, |
| // Try a few fixed arbitrary examples. |
| 0xb02b9effcf137016, |
| 0x3975a076a9fbff18, |
| 0x0f8c88ec3b81506e, |
| 0x60f14d80ef2fa0e6, |
| } |
| for _, test := range tests { |
| check(test, m) |
| } |
| for i := 0; i < 1000; i++ { |
| // Try a pseudo-random numbers. |
| check(rand.Uint64(), m) |
| |
| if m > 1 { |
| // For m != 1, let's construct a slightly more interesting |
| // random test. Generate a bitmap which is either 0 or |
| // randomly set bits for each m-aligned group of m bits. |
| val := uint64(0) |
| for n := uint(0); n < 64; n += m { |
| // For each group of m bits, flip a coin: |
| // * Leave them as zero. |
| // * Set them randomly. |
| if rand.Uint64()%2 == 0 { |
| val |= (rand.Uint64() & ((1 << m) - 1)) << n |
| } |
| } |
| check(val, m) |
| } |
| } |
| } |
| } |
| |
| func TestPallocDataFindScavengeCandidate(t *testing.T) { |
| type test struct { |
| alloc, scavenged []BitRange |
| min, max uintptr |
| want BitRange |
| } |
| tests := map[string]test{ |
| "MixedMin1": { |
| alloc: []BitRange{{0, 40}, {42, PallocChunkPages - 42}}, |
| scavenged: []BitRange{{0, 41}, {42, PallocChunkPages - 42}}, |
| min: 1, |
| max: PallocChunkPages, |
| want: BitRange{41, 1}, |
| }, |
| "MultiMin1": { |
| alloc: []BitRange{{0, 63}, {65, 20}, {87, PallocChunkPages - 87}}, |
| scavenged: []BitRange{{86, 1}}, |
| min: 1, |
| max: PallocChunkPages, |
| want: BitRange{85, 1}, |
| }, |
| } |
| // Try out different page minimums. |
| for m := uintptr(1); m <= 64; m *= 2 { |
| suffix := fmt.Sprintf("Min%d", m) |
| tests["AllFree"+suffix] = test{ |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{0, PallocChunkPages}, |
| } |
| tests["AllScavenged"+suffix] = test{ |
| scavenged: []BitRange{{0, PallocChunkPages}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{0, 0}, |
| } |
| tests["NoneFree"+suffix] = test{ |
| alloc: []BitRange{{0, PallocChunkPages}}, |
| scavenged: []BitRange{{PallocChunkPages / 2, PallocChunkPages / 2}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{0, 0}, |
| } |
| tests["StartFree"+suffix] = test{ |
| alloc: []BitRange{{uint(m), PallocChunkPages - uint(m)}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{0, uint(m)}, |
| } |
| tests["EndFree"+suffix] = test{ |
| alloc: []BitRange{{0, PallocChunkPages - uint(m)}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{PallocChunkPages - uint(m), uint(m)}, |
| } |
| tests["Straddle64"+suffix] = test{ |
| alloc: []BitRange{{0, 64 - uint(m)}, {64 + uint(m), PallocChunkPages - (64 + uint(m))}}, |
| min: m, |
| max: 2 * m, |
| want: BitRange{64 - uint(m), 2 * uint(m)}, |
| } |
| tests["BottomEdge64WithFull"+suffix] = test{ |
| alloc: []BitRange{{64, 64}, {128 + 3*uint(m), PallocChunkPages - (128 + 3*uint(m))}}, |
| scavenged: []BitRange{{1, 10}}, |
| min: m, |
| max: 3 * m, |
| want: BitRange{128, 3 * uint(m)}, |
| } |
| tests["BottomEdge64WithPocket"+suffix] = test{ |
| alloc: []BitRange{{64, 62}, {127, 1}, {128 + 3*uint(m), PallocChunkPages - (128 + 3*uint(m))}}, |
| scavenged: []BitRange{{1, 10}}, |
| min: m, |
| max: 3 * m, |
| want: BitRange{128, 3 * uint(m)}, |
| } |
| tests["Max0"+suffix] = test{ |
| scavenged: []BitRange{{0, PallocChunkPages - uint(m)}}, |
| min: m, |
| max: 0, |
| want: BitRange{PallocChunkPages - uint(m), uint(m)}, |
| } |
| if m <= 8 { |
| tests["OneFree"] = test{ |
| alloc: []BitRange{{0, 40}, {40 + uint(m), PallocChunkPages - (40 + uint(m))}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{40, uint(m)}, |
| } |
| tests["OneScavenged"] = test{ |
| alloc: []BitRange{{0, 40}, {40 + uint(m), PallocChunkPages - (40 + uint(m))}}, |
| scavenged: []BitRange{{40, 1}}, |
| min: m, |
| max: PallocChunkPages, |
| want: BitRange{0, 0}, |
| } |
| } |
| if m > 1 { |
| tests["MaxUnaligned"+suffix] = test{ |
| scavenged: []BitRange{{0, PallocChunkPages - uint(m*2-1)}}, |
| min: m, |
| max: m - 2, |
| want: BitRange{PallocChunkPages - uint(m), uint(m)}, |
| } |
| tests["SkipSmall"+suffix] = test{ |
| alloc: []BitRange{{0, 64 - uint(m)}, {64, 5}, {70, 11}, {82, PallocChunkPages - 82}}, |
| min: m, |
| max: m, |
| want: BitRange{64 - uint(m), uint(m)}, |
| } |
| tests["SkipMisaligned"+suffix] = test{ |
| alloc: []BitRange{{0, 64 - uint(m)}, {64, 63}, {127 + uint(m), PallocChunkPages - (127 + uint(m))}}, |
| min: m, |
| max: m, |
| want: BitRange{64 - uint(m), uint(m)}, |
| } |
| tests["MaxLessThan"+suffix] = test{ |
| scavenged: []BitRange{{0, PallocChunkPages - uint(m)}}, |
| min: m, |
| max: 1, |
| want: BitRange{PallocChunkPages - uint(m), uint(m)}, |
| } |
| } |
| } |
| if PhysHugePageSize > uintptr(PageSize) { |
| // Check hugepage preserving behavior. |
| bits := uint(PhysHugePageSize / uintptr(PageSize)) |
| if bits < PallocChunkPages { |
| tests["PreserveHugePageBottom"] = test{ |
| alloc: []BitRange{{bits + 2, PallocChunkPages - (bits + 2)}}, |
| min: 1, |
| max: 3, // Make it so that max would have us try to break the huge page. |
| want: BitRange{0, bits + 2}, |
| } |
| if 3*bits < PallocChunkPages { |
| // We need at least 3 huge pages in a chunk for this test to make sense. |
| tests["PreserveHugePageMiddle"] = test{ |
| alloc: []BitRange{{0, bits - 10}, {2*bits + 10, PallocChunkPages - (2*bits + 10)}}, |
| min: 1, |
| max: 12, // Make it so that max would have us try to break the huge page. |
| want: BitRange{bits, bits + 10}, |
| } |
| } |
| tests["PreserveHugePageTop"] = test{ |
| alloc: []BitRange{{0, PallocChunkPages - bits}}, |
| min: 1, |
| max: 1, // Even one page would break a huge page in this case. |
| want: BitRange{PallocChunkPages - bits, bits}, |
| } |
| } else if bits == PallocChunkPages { |
| tests["PreserveHugePageAll"] = test{ |
| min: 1, |
| max: 1, // Even one page would break a huge page in this case. |
| want: BitRange{0, PallocChunkPages}, |
| } |
| } else { |
| // The huge page size is greater than pallocChunkPages, so it should |
| // be effectively disabled. There's no way we can possible scavenge |
| // a huge page out of this bitmap chunk. |
| tests["PreserveHugePageNone"] = test{ |
| min: 1, |
| max: 1, |
| want: BitRange{PallocChunkPages - 1, 1}, |
| } |
| } |
| } |
| for name, v := range tests { |
| v := v |
| t.Run(name, func(t *testing.T) { |
| b := makePallocData(v.alloc, v.scavenged) |
| start, size := b.FindScavengeCandidate(PallocChunkPages-1, v.min, v.max) |
| got := BitRange{start, size} |
| if !(got.N == 0 && v.want.N == 0) && got != v.want { |
| t.Fatalf("candidate mismatch: got %v, want %v", got, v.want) |
| } |
| }) |
| } |
| } |
| |
| // Tests end-to-end scavenging on a pageAlloc. |
| func TestPageAllocScavenge(t *testing.T) { |
| if GOOS == "openbsd" && testing.Short() { |
| t.Skip("skipping because virtual memory is limited; see #36210") |
| } |
| type test struct { |
| request, expect uintptr |
| } |
| minPages := PhysPageSize / PageSize |
| if minPages < 1 { |
| minPages = 1 |
| } |
| type setup struct { |
| beforeAlloc map[ChunkIdx][]BitRange |
| beforeScav map[ChunkIdx][]BitRange |
| expect []test |
| afterScav map[ChunkIdx][]BitRange |
| } |
| tests := map[string]setup{ |
| "AllFreeUnscavExhaust": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 1: {}, |
| BaseChunkIdx + 2: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 1: {}, |
| BaseChunkIdx + 2: {}, |
| }, |
| expect: []test{ |
| {^uintptr(0), 3 * PallocChunkPages * PageSize}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 1: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 2: {{0, PallocChunkPages}}, |
| }, |
| }, |
| "NoneFreeUnscavExhaust": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 1: {}, |
| BaseChunkIdx + 2: {{0, PallocChunkPages}}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 1: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 2: {}, |
| }, |
| expect: []test{ |
| {^uintptr(0), 0}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 1: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 2: {}, |
| }, |
| }, |
| "ScavHighestPageFirst": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{uint(minPages), PallocChunkPages - uint(2*minPages)}}, |
| }, |
| expect: []test{ |
| {1, minPages * PageSize}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{uint(minPages), PallocChunkPages - uint(minPages)}}, |
| }, |
| }, |
| "ScavMultiple": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{uint(minPages), PallocChunkPages - uint(2*minPages)}}, |
| }, |
| expect: []test{ |
| {minPages * PageSize, minPages * PageSize}, |
| {minPages * PageSize, minPages * PageSize}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| }, |
| }, |
| "ScavMultiple2": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 1: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{uint(minPages), PallocChunkPages - uint(2*minPages)}}, |
| BaseChunkIdx + 1: {{0, PallocChunkPages - uint(2*minPages)}}, |
| }, |
| expect: []test{ |
| {2 * minPages * PageSize, 2 * minPages * PageSize}, |
| {minPages * PageSize, minPages * PageSize}, |
| {minPages * PageSize, minPages * PageSize}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 1: {{0, PallocChunkPages}}, |
| }, |
| }, |
| "ScavDiscontiguous": { |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 0xe: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{uint(minPages), PallocChunkPages - uint(2*minPages)}}, |
| BaseChunkIdx + 0xe: {{uint(2 * minPages), PallocChunkPages - uint(2*minPages)}}, |
| }, |
| expect: []test{ |
| {2 * minPages * PageSize, 2 * minPages * PageSize}, |
| {^uintptr(0), 2 * minPages * PageSize}, |
| {^uintptr(0), 0}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 0xe: {{0, PallocChunkPages}}, |
| }, |
| }, |
| } |
| // Disable these tests on iOS since we have a small address space. |
| // See #46860. |
| if PageAlloc64Bit != 0 && goos.IsIos == 0 { |
| tests["ScavAllVeryDiscontiguous"] = setup{ |
| beforeAlloc: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 0x1000: {}, |
| }, |
| beforeScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {}, |
| BaseChunkIdx + 0x1000: {}, |
| }, |
| expect: []test{ |
| {^uintptr(0), 2 * PallocChunkPages * PageSize}, |
| {^uintptr(0), 0}, |
| }, |
| afterScav: map[ChunkIdx][]BitRange{ |
| BaseChunkIdx: {{0, PallocChunkPages}}, |
| BaseChunkIdx + 0x1000: {{0, PallocChunkPages}}, |
| }, |
| } |
| } |
| for name, v := range tests { |
| v := v |
| t.Run(name, func(t *testing.T) { |
| b := NewPageAlloc(v.beforeAlloc, v.beforeScav) |
| defer FreePageAlloc(b) |
| |
| for iter, h := range v.expect { |
| if got := b.Scavenge(h.request); got != h.expect { |
| t.Fatalf("bad scavenge #%d: want %d, got %d", iter+1, h.expect, got) |
| } |
| } |
| want := NewPageAlloc(v.beforeAlloc, v.afterScav) |
| defer FreePageAlloc(want) |
| |
| checkPageAlloc(t, want, b) |
| }) |
| } |
| } |
| |
| func TestScavenger(t *testing.T) { |
| // workedTime is a standard conversion of bytes of scavenge |
| // work to time elapsed. |
| workedTime := func(bytes uintptr) int64 { |
| return int64((bytes+4095)/4096) * int64(10*time.Microsecond) |
| } |
| |
| // Set up a bunch of state that we're going to track and verify |
| // throughout the test. |
| totalWork := uint64(64<<20 - 3*PhysPageSize) |
| var totalSlept, totalWorked atomic.Int64 |
| var availableWork atomic.Uint64 |
| var stopAt atomic.Uint64 // How much available work to stop at. |
| |
| // Set up the scavenger. |
| var s Scavenger |
| s.Sleep = func(ns int64) int64 { |
| totalSlept.Add(ns) |
| return ns |
| } |
| s.Scavenge = func(bytes uintptr) (uintptr, int64) { |
| avail := availableWork.Load() |
| if uint64(bytes) > avail { |
| bytes = uintptr(avail) |
| } |
| t := workedTime(bytes) |
| if bytes != 0 { |
| availableWork.Add(-int64(bytes)) |
| totalWorked.Add(t) |
| } |
| return bytes, t |
| } |
| s.ShouldStop = func() bool { |
| if availableWork.Load() <= stopAt.Load() { |
| return true |
| } |
| return false |
| } |
| s.GoMaxProcs = func() int32 { |
| return 1 |
| } |
| |
| // Define a helper for verifying that various properties hold. |
| verifyScavengerState := func(t *testing.T, expWork uint64) { |
| t.Helper() |
| |
| // Check to make sure it did the amount of work we expected. |
| if workDone := uint64(s.Released()); workDone != expWork { |
| t.Errorf("want %d bytes of work done, got %d", expWork, workDone) |
| } |
| // Check to make sure the scavenger is meeting its CPU target. |
| idealFraction := float64(ScavengePercent) / 100.0 |
| cpuFraction := float64(totalWorked.Load()) / float64(totalWorked.Load()+totalSlept.Load()) |
| if cpuFraction < idealFraction-0.005 || cpuFraction > idealFraction+0.005 { |
| t.Errorf("want %f CPU fraction, got %f", idealFraction, cpuFraction) |
| } |
| } |
| |
| // Start the scavenger. |
| s.Start() |
| |
| // Set up some work and let the scavenger run to completion. |
| availableWork.Store(totalWork) |
| s.Wake() |
| if !s.BlockUntilParked(2e9 /* 2 seconds */) { |
| t.Fatal("timed out waiting for scavenger to run to completion") |
| } |
| // Run a check. |
| verifyScavengerState(t, totalWork) |
| |
| // Now let's do it again and see what happens when we have no work to do. |
| // It should've gone right back to sleep. |
| s.Wake() |
| if !s.BlockUntilParked(2e9 /* 2 seconds */) { |
| t.Fatal("timed out waiting for scavenger to run to completion") |
| } |
| // Run another check. |
| verifyScavengerState(t, totalWork) |
| |
| // One more time, this time doing the same amount of work as the first time. |
| // Let's see if we can get the scavenger to continue. |
| availableWork.Store(totalWork) |
| s.Wake() |
| if !s.BlockUntilParked(2e9 /* 2 seconds */) { |
| t.Fatal("timed out waiting for scavenger to run to completion") |
| } |
| // Run another check. |
| verifyScavengerState(t, 2*totalWork) |
| |
| // This time, let's stop after a certain amount of work. |
| // |
| // Pick a stopping point such that when subtracted from totalWork |
| // we get a multiple of a relatively large power of 2. verifyScavengerState |
| // always makes an exact check, but the scavenger might go a little over, |
| // which is OK. If this breaks often or gets annoying to maintain, modify |
| // verifyScavengerState. |
| availableWork.Store(totalWork) |
| stoppingPoint := uint64(1<<20 - 3*PhysPageSize) |
| stopAt.Store(stoppingPoint) |
| s.Wake() |
| if !s.BlockUntilParked(2e9 /* 2 seconds */) { |
| t.Fatal("timed out waiting for scavenger to run to completion") |
| } |
| // Run another check. |
| verifyScavengerState(t, 2*totalWork+(totalWork-stoppingPoint)) |
| |
| // Clean up. |
| s.Stop() |
| } |
| |
| func TestScavengeIndex(t *testing.T) { |
| setup := func(t *testing.T) (func(ChunkIdx, uint), func(uintptr, uintptr)) { |
| t.Helper() |
| |
| // Pick some reasonable bounds. We don't need a huge range just to test. |
| si := NewScavengeIndex(BaseChunkIdx, BaseChunkIdx+64) |
| find := func(want ChunkIdx, wantOffset uint) { |
| t.Helper() |
| |
| got, gotOffset := si.Find() |
| if want != got { |
| t.Errorf("find: wanted chunk index %d, got %d", want, got) |
| } |
| if want != got { |
| t.Errorf("find: wanted page offset %d, got %d", wantOffset, gotOffset) |
| } |
| if t.Failed() { |
| t.FailNow() |
| } |
| si.Clear(got) |
| } |
| mark := func(base, limit uintptr) { |
| t.Helper() |
| |
| si.Mark(base, limit) |
| } |
| return find, mark |
| } |
| t.Run("Uninitialized", func(t *testing.T) { |
| find, _ := setup(t) |
| find(0, 0) |
| }) |
| t.Run("OnePage", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 3), PageBase(BaseChunkIdx, 4)) |
| find(BaseChunkIdx, 3) |
| find(0, 0) |
| }) |
| t.Run("FirstPage", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx, 1)) |
| find(BaseChunkIdx, 0) |
| find(0, 0) |
| }) |
| t.Run("SeveralPages", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 9), PageBase(BaseChunkIdx, 14)) |
| find(BaseChunkIdx, 13) |
| find(0, 0) |
| }) |
| t.Run("WholeChunk", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+1, 0)) |
| find(BaseChunkIdx, PallocChunkPages-1) |
| find(0, 0) |
| }) |
| t.Run("LastPage", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, PallocChunkPages-1), PageBase(BaseChunkIdx+1, 0)) |
| find(BaseChunkIdx, PallocChunkPages-1) |
| find(0, 0) |
| }) |
| t.Run("TwoChunks", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 128), PageBase(BaseChunkIdx+1, 128)) |
| find(BaseChunkIdx+1, 127) |
| find(BaseChunkIdx, PallocChunkPages-1) |
| find(0, 0) |
| }) |
| t.Run("TwoChunksOffset", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx+7, 128), PageBase(BaseChunkIdx+8, 129)) |
| find(BaseChunkIdx+8, 128) |
| find(BaseChunkIdx+7, PallocChunkPages-1) |
| find(0, 0) |
| }) |
| t.Run("SevenChunksOffset", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx+6, 11), PageBase(BaseChunkIdx+13, 15)) |
| find(BaseChunkIdx+13, 14) |
| for i := BaseChunkIdx + 12; i >= BaseChunkIdx+6; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("ThirtyTwoChunks", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+32, 0)) |
| for i := BaseChunkIdx + 31; i >= BaseChunkIdx; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("ThirtyTwoChunksOffset", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx+3, 0), PageBase(BaseChunkIdx+35, 0)) |
| for i := BaseChunkIdx + 34; i >= BaseChunkIdx+3; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("Mark", func(t *testing.T) { |
| find, mark := setup(t) |
| for i := BaseChunkIdx; i < BaseChunkIdx+32; i++ { |
| mark(PageBase(i, 0), PageBase(i+1, 0)) |
| } |
| for i := BaseChunkIdx + 31; i >= BaseChunkIdx; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("MarkInterleaved", func(t *testing.T) { |
| find, mark := setup(t) |
| for i := BaseChunkIdx; i < BaseChunkIdx+32; i++ { |
| mark(PageBase(i, 0), PageBase(i+1, 0)) |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("MarkIdempotentOneChunk", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+1, 0)) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+1, 0)) |
| find(BaseChunkIdx, PallocChunkPages-1) |
| find(0, 0) |
| }) |
| t.Run("MarkIdempotentThirtyTwoChunks", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+32, 0)) |
| mark(PageBase(BaseChunkIdx, 0), PageBase(BaseChunkIdx+32, 0)) |
| for i := BaseChunkIdx + 31; i >= BaseChunkIdx; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| t.Run("MarkIdempotentThirtyTwoChunksOffset", func(t *testing.T) { |
| find, mark := setup(t) |
| mark(PageBase(BaseChunkIdx+4, 0), PageBase(BaseChunkIdx+31, 0)) |
| mark(PageBase(BaseChunkIdx+5, 0), PageBase(BaseChunkIdx+36, 0)) |
| for i := BaseChunkIdx + 35; i >= BaseChunkIdx+4; i-- { |
| find(i, PallocChunkPages-1) |
| } |
| find(0, 0) |
| }) |
| } |