frostfs-node/pkg/local_object_storage/pilorama/split_test.go

package pilorama

import (
	"context"
	"strings"
	"testing"

	cidtest "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id/test"
	"github.com/stretchr/testify/require"
)

func TestDuplicateDirectory(t *testing.T) {
	for i := range providers {
		if providers[i].name == "inmemory" {
			continue
		}
		t.Run(providers[i].name, func(t *testing.T) {
			testDuplicateDirectory(t, providers[i].construct(t))
		})
	}
}

func testDuplicateDirectory(t *testing.T, f Forest) {
	ctx := context.Background()
	d := CIDDescriptor{CID: cidtest.ID(), Size: 1}
	treeID := "sometree"

	treeApply := func(t *testing.T, parent, child uint64, filename string, internal bool) {
		// Nothing magic here, we add items in order and children are unique.
		// This simplifies function interface a bit.
		ts := child

		kv := []KeyValue{{Key: AttributeFilename, Value: []byte(filename)}}
		if !internal {
			kv = append(kv, KeyValue{Key: "uniqueAttr", Value: []byte{byte(child)}})
		}

		err := f.TreeApply(ctx, d.CID, treeID, &Move{
			Parent: parent,
			Child:  child,
			Meta: Meta{
				Time:  ts,
				Items: kv,
			},
		}, true)
		require.NoError(t, err)
	}

	// The following tree is constructed:
	//      0
	// [1]  |-- dir1 (internal)
	// [2]     |-- value1
	// [3]     |-- dir3 (internal)
	// [4]        |-- value3
	// [5]  |-- dir1 (internal)
	// [6]     |-- value2
	// [7]     |-- dir3 (internal)
	// [8]        |-- value4
	// [9]  |-- dir2 (internal)
	// [10] |-- value0
	treeApply(t, RootID, 1, "dir1", true)
	treeApply(t, 1, 2, "value1", false)
	treeApply(t, 1, 3, "dir3", true)
	treeApply(t, 3, 4, "value3", false)
	treeApply(t, RootID, 5, "dir1", true)
	treeApply(t, 5, 6, "value2", false)
	treeApply(t, 5, 7, "dir3", true)
	treeApply(t, 7, 8, "value4", false)
	treeApply(t, RootID, 9, "dir2", true)
	treeApply(t, RootID, 10, "value0", false)

	// The compacted view:
	// 0
	// [1,5] |-- dir1 (internal)
	// [2]      |-- value1
	// [3,7]    |-- dir3 (internal)
	// [4]          |-- value3
	// [8]          |-- value4
	// [6]      |-- value2
	// [9]   |-- dir2 (internal)
	// [10]  |-- value0
	testGetByPath := func(t *testing.T, p string) []byte {
		pp := strings.Split(p, "/")
		nodes, err := f.TreeGetByPath(context.Background(), d.CID, treeID, AttributeFilename, pp, false)
		require.NoError(t, err)
		require.Equal(t, 1, len(nodes))

		meta, _, err := f.TreeGetMeta(ctx, d.CID, treeID, nodes[0])
		require.NoError(t, err)
		require.Equal(t, []byte(pp[len(pp)-1]), meta.GetAttr(AttributeFilename))
		return meta.GetAttr("uniqueAttr")
	}

	require.Equal(t, []byte{2}, testGetByPath(t, "dir1/value1"))
	require.Equal(t, []byte{4}, testGetByPath(t, "dir1/dir3/value3"))
	require.Equal(t, []byte{8}, testGetByPath(t, "dir1/dir3/value4"))
	require.Equal(t, []byte{10}, testGetByPath(t, "value0"))

	testSortedByFilename := func(t *testing.T, root MultiNode, last *string, batchSize int) ([]MultiNodeInfo, *string) {
		res, last, err := f.TreeSortedByFilename(context.Background(), d.CID, treeID, root, last, batchSize)
		require.NoError(t, err)
		return res, last
	}

	t.Run("test sorted listing, full children branch", func(t *testing.T) {
		t.Run("big batch size", func(t *testing.T) {
			res, _ := testSortedByFilename(t, MultiNode{RootID}, nil, 10)
			require.Equal(t, 3, len(res))
			require.Equal(t, MultiNode{1, 5}, res[0].Children)
			require.Equal(t, MultiNode{9}, res[1].Children)
			require.Equal(t, MultiNode{10}, res[2].Children)

			t.Run("multi-root", func(t *testing.T) {
				res, _ := testSortedByFilename(t, MultiNode{1, 5}, nil, 10)
				require.Equal(t, 3, len(res))
				require.Equal(t, MultiNode{3, 7}, res[0].Children)
				require.Equal(t, MultiNode{2}, res[1].Children)
				require.Equal(t, MultiNode{6}, res[2].Children)
			})
		})
		t.Run("small batch size", func(t *testing.T) {
			res, last := testSortedByFilename(t, MultiNode{RootID}, nil, 1)
			require.Equal(t, 1, len(res))
			require.Equal(t, MultiNode{1, 5}, res[0].Children)

			res, last = testSortedByFilename(t, MultiNode{RootID}, last, 1)
			require.Equal(t, 1, len(res))
			require.Equal(t, MultiNode{9}, res[0].Children)

			res, last = testSortedByFilename(t, MultiNode{RootID}, last, 1)
			require.Equal(t, 1, len(res))
			require.Equal(t, MultiNode{10}, res[0].Children)

			res, _ = testSortedByFilename(t, MultiNode{RootID}, last, 1)
			require.Equal(t, 0, len(res))

			t.Run("multi-root", func(t *testing.T) {
				res, last := testSortedByFilename(t, MultiNode{1, 5}, nil, 1)
				require.Equal(t, 1, len(res))
				require.Equal(t, MultiNode{3, 7}, res[0].Children)

				res, last = testSortedByFilename(t, MultiNode{1, 5}, last, 1)
				require.Equal(t, 1, len(res))
				require.Equal(t, MultiNode{2}, res[0].Children)

				res, last = testSortedByFilename(t, MultiNode{1, 5}, last, 1)
				require.Equal(t, 1, len(res))
				require.Equal(t, MultiNode{6}, res[0].Children)

				res, _ = testSortedByFilename(t, MultiNode{RootID}, last, 1)
				require.Equal(t, 0, len(res))
			})
		})
	})
}
[#1234] pilorama: Add test for duplicate directory behaviour When AddByPath() is called concurrently on 2 different nodes, internal path components may be created twice. This violates some of our assumptions in GetByPath() and, indirectly, in S3 handling of GetSubTree() results. Add a test for the correct behaviour, fixes will follow. Signed-off-by: Evgenii Stratonikov <e.stratonikov@yadro.com> 2024-07-08 10:48:39 +00:00			`package pilorama`

			`import (`
			`"context"`
			`"strings"`
			`"testing"`

			`cidtest "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id/test"`
			`"github.com/stretchr/testify/require"`
			`)`

			`func TestDuplicateDirectory(t *testing.T) {`
			`for i := range providers {`
			`if providers[i].name == "inmemory" {`
			`continue`
			`}`
			`t.Run(providers[i].name, func(t *testing.T) {`
			`testDuplicateDirectory(t, providers[i].construct(t))`
			`})`
			`}`
			`}`

			`func testDuplicateDirectory(t *testing.T, f Forest) {`
			`ctx := context.Background()`
			`d := CIDDescriptor{CID: cidtest.ID(), Size: 1}`
			`treeID := "sometree"`

			`treeApply := func(t *testing.T, parent, child uint64, filename string, internal bool) {`
			`// Nothing magic here, we add items in order and children are unique.`
			`// This simplifies function interface a bit.`
			`ts := child`

			`kv := []KeyValue{{Key: AttributeFilename, Value: []byte(filename)}}`
			`if !internal {`
			`kv = append(kv, KeyValue{Key: "uniqueAttr", Value: []byte{byte(child)}})`
			`}`

			`err := f.TreeApply(ctx, d.CID, treeID, &Move{`
			`Parent: parent,`
			`Child: child,`
			`Meta: Meta{`
			`Time: ts,`
			`Items: kv,`
			`},`
			`}, true)`
			`require.NoError(t, err)`
			`}`

			`// The following tree is constructed:`
			`// 0`
			`// [1] \|-- dir1 (internal)`
			`// [2] \|-- value1`
			`// [3] \|-- dir3 (internal)`
			`// [4] \|-- value3`
			`// [5] \|-- dir1 (internal)`
			`// [6] \|-- value2`
			`// [7] \|-- dir3 (internal)`
			`// [8] \|-- value4`
			`// [9] \|-- dir2 (internal)`
			`// [10] \|-- value0`
			`treeApply(t, RootID, 1, "dir1", true)`
			`treeApply(t, 1, 2, "value1", false)`
			`treeApply(t, 1, 3, "dir3", true)`
			`treeApply(t, 3, 4, "value3", false)`
			`treeApply(t, RootID, 5, "dir1", true)`
			`treeApply(t, 5, 6, "value2", false)`
			`treeApply(t, 5, 7, "dir3", true)`
			`treeApply(t, 7, 8, "value4", false)`
			`treeApply(t, RootID, 9, "dir2", true)`
			`treeApply(t, RootID, 10, "value0", false)`

			`// The compacted view:`
			`// 0`
			`// [1,5] \|-- dir1 (internal)`
			`// [2] \|-- value1`
			`// [3,7] \|-- dir3 (internal)`
			`// [4] \|-- value3`
			`// [8] \|-- value4`
			`// [6] \|-- value2`
			`// [9] \|-- dir2 (internal)`
			`// [10] \|-- value0`
			`testGetByPath := func(t *testing.T, p string) []byte {`
			`pp := strings.Split(p, "/")`
			`nodes, err := f.TreeGetByPath(context.Background(), d.CID, treeID, AttributeFilename, pp, false)`
			`require.NoError(t, err)`
			`require.Equal(t, 1, len(nodes))`

			`meta, _, err := f.TreeGetMeta(ctx, d.CID, treeID, nodes[0])`
			`require.NoError(t, err)`
			`require.Equal(t, []byte(pp[len(pp)-1]), meta.GetAttr(AttributeFilename))`
			`return meta.GetAttr("uniqueAttr")`
			`}`

			`require.Equal(t, []byte{2}, testGetByPath(t, "dir1/value1"))`
			`require.Equal(t, []byte{4}, testGetByPath(t, "dir1/dir3/value3"))`
			`require.Equal(t, []byte{8}, testGetByPath(t, "dir1/dir3/value4"))`
			`require.Equal(t, []byte{10}, testGetByPath(t, "value0"))`
[#1251] pilorama: Allow traversing multiple branches in parallel Signed-off-by: Evgenii Stratonikov <e.stratonikov@yadro.com> 2024-07-10 06:30:01 +00:00
			`testSortedByFilename := func(t testing.T, root MultiNode, last string, batchSize int) ([]MultiNodeInfo, *string) {`
			`res, last, err := f.TreeSortedByFilename(context.Background(), d.CID, treeID, root, last, batchSize)`
			`require.NoError(t, err)`
			`return res, last`
			`}`

			`t.Run("test sorted listing, full children branch", func(t *testing.T) {`
			`t.Run("big batch size", func(t *testing.T) {`
			`res, _ := testSortedByFilename(t, MultiNode{RootID}, nil, 10)`
			`require.Equal(t, 3, len(res))`
			`require.Equal(t, MultiNode{1, 5}, res[0].Children)`
			`require.Equal(t, MultiNode{9}, res[1].Children)`
			`require.Equal(t, MultiNode{10}, res[2].Children)`

			`t.Run("multi-root", func(t *testing.T) {`
			`res, _ := testSortedByFilename(t, MultiNode{1, 5}, nil, 10)`
			`require.Equal(t, 3, len(res))`
			`require.Equal(t, MultiNode{3, 7}, res[0].Children)`
			`require.Equal(t, MultiNode{2}, res[1].Children)`
			`require.Equal(t, MultiNode{6}, res[2].Children)`
			`})`
			`})`
			`t.Run("small batch size", func(t *testing.T) {`
			`res, last := testSortedByFilename(t, MultiNode{RootID}, nil, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{1, 5}, res[0].Children)`

			`res, last = testSortedByFilename(t, MultiNode{RootID}, last, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{9}, res[0].Children)`

			`res, last = testSortedByFilename(t, MultiNode{RootID}, last, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{10}, res[0].Children)`

			`res, _ = testSortedByFilename(t, MultiNode{RootID}, last, 1)`
			`require.Equal(t, 0, len(res))`

			`t.Run("multi-root", func(t *testing.T) {`
			`res, last := testSortedByFilename(t, MultiNode{1, 5}, nil, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{3, 7}, res[0].Children)`

			`res, last = testSortedByFilename(t, MultiNode{1, 5}, last, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{2}, res[0].Children)`

			`res, last = testSortedByFilename(t, MultiNode{1, 5}, last, 1)`
			`require.Equal(t, 1, len(res))`
			`require.Equal(t, MultiNode{6}, res[0].Children)`

			`res, _ = testSortedByFilename(t, MultiNode{RootID}, last, 1)`
			`require.Equal(t, 0, len(res))`
			`})`
			`})`
			`})`
[#1234] pilorama: Add test for duplicate directory behaviour When AddByPath() is called concurrently on 2 different nodes, internal path components may be created twice. This violates some of our assumptions in GetByPath() and, indirectly, in S3 handling of GetSubTree() results. Add a test for the correct behaviour, fixes will follow. Signed-off-by: Evgenii Stratonikov <e.stratonikov@yadro.com> 2024-07-08 10:48:39 +00:00			`}`