/* * Copyright 2020 The Dragonfly Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package resource import ( "errors" "testing" "time" gomock "github.com/golang/mock/gomock" "github.com/stretchr/testify/assert" commonv1 "d7y.io/api/pkg/apis/common/v1" commonv2 "d7y.io/api/pkg/apis/common/v2" schedulerv1 "d7y.io/api/pkg/apis/scheduler/v1" v1mocks "d7y.io/api/pkg/apis/scheduler/v1/mocks" schedulerv2 "d7y.io/api/pkg/apis/scheduler/v2" v2mocks "d7y.io/api/pkg/apis/scheduler/v2/mocks" "d7y.io/dragonfly/v2/pkg/container/set" "d7y.io/dragonfly/v2/pkg/digest" "d7y.io/dragonfly/v2/pkg/idgen" "d7y.io/dragonfly/v2/pkg/types" ) var ( mockPiece = &Piece{ Number: 1, ParentID: idgen.PeerIDV2(), Offset: 0, Length: 100, Digest: mockPieceDigest, TrafficType: commonv2.TrafficType_REMOTE_PEER, Cost: 1 * time.Second, CreatedAt: time.Now(), } mockTaskBackToSourceLimit int32 = 200 mockTaskURL = "http://example.com/foo" mockTaskID = idgen.TaskIDV2(mockTaskURL, mockTaskDigest.String(), mockTaskTag, mockTaskApplication, mockTaskPieceLength, mockTaskFilters) mockTaskDigest = digest.New(digest.AlgorithmSHA256, "c71d239df91726fc519c6eb72d318ec65820627232b2f796219e87dcf35d0ab4") mockTaskTag = "d7y" mockTaskApplication = "foo" mockTaskFilters = []string{"bar"} mockTaskHeader = map[string]string{"content-length": "100"} mockTaskPieceLength int32 = 2048 mockPieceDigest = digest.New(digest.AlgorithmMD5, "ad83a945518a4ef007d8b2db2ef165b3") ) func TestTask_NewTask(t *testing.T) { tests := []struct { name string options []TaskOption expect func(t *testing.T, task *Task) }{ { name: "new task", options: []TaskOption{}, expect: func(t *testing.T, task *Task) { assert := assert.New(t) assert.Equal(task.ID, mockTaskID) assert.Equal(task.Type, commonv2.TaskType_DFDAEMON) assert.Equal(task.URL, mockTaskURL) assert.Nil(task.Digest) assert.Equal(task.Tag, mockTaskTag) assert.Equal(task.Application, mockTaskApplication) assert.EqualValues(task.Filters, mockTaskFilters) assert.EqualValues(task.Header, mockTaskHeader) assert.Equal(task.PieceLength, int32(0)) assert.Empty(task.DirectPiece) assert.Equal(task.ContentLength.Load(), int64(-1)) assert.Equal(task.TotalPieceCount.Load(), int32(0)) assert.Equal(task.BackToSourceLimit.Load(), int32(200)) assert.Equal(task.BackToSourcePeers.Len(), uint(0)) assert.Equal(task.FSM.Current(), TaskStatePending) assert.Empty(task.Pieces) assert.Equal(task.PeerCount(), 0) assert.NotEqual(task.CreatedAt.Load(), 0) assert.NotEqual(task.UpdatedAt.Load(), 0) assert.NotNil(task.Log) }, }, { name: "new task with piece length", options: []TaskOption{WithPieceLength(mockTaskPieceLength)}, expect: func(t *testing.T, task *Task) { assert := assert.New(t) assert.Equal(task.ID, mockTaskID) assert.Equal(task.Type, commonv2.TaskType_DFDAEMON) assert.Equal(task.URL, mockTaskURL) assert.Nil(task.Digest) assert.Equal(task.Tag, mockTaskTag) assert.Equal(task.Application, mockTaskApplication) assert.EqualValues(task.Filters, mockTaskFilters) assert.EqualValues(task.Header, mockTaskHeader) assert.Equal(task.PieceLength, mockTaskPieceLength) assert.Empty(task.DirectPiece) assert.Equal(task.ContentLength.Load(), int64(-1)) assert.Equal(task.TotalPieceCount.Load(), int32(0)) assert.Equal(task.BackToSourceLimit.Load(), int32(200)) assert.Equal(task.BackToSourcePeers.Len(), uint(0)) assert.Equal(task.FSM.Current(), TaskStatePending) assert.Empty(task.Pieces) assert.Equal(task.PeerCount(), 0) assert.NotEqual(task.CreatedAt.Load(), 0) assert.NotEqual(task.UpdatedAt.Load(), 0) assert.NotNil(task.Log) }, }, { name: "new task with digest", options: []TaskOption{WithDigest(mockTaskDigest)}, expect: func(t *testing.T, task *Task) { assert := assert.New(t) assert.Equal(task.ID, mockTaskID) assert.Equal(task.Type, commonv2.TaskType_DFDAEMON) assert.Equal(task.URL, mockTaskURL) assert.EqualValues(task.Digest, mockTaskDigest) assert.Equal(task.Tag, mockTaskTag) assert.Equal(task.Application, mockTaskApplication) assert.EqualValues(task.Filters, mockTaskFilters) assert.EqualValues(task.Header, mockTaskHeader) assert.Equal(task.PieceLength, int32(0)) assert.Empty(task.DirectPiece) assert.Equal(task.ContentLength.Load(), int64(-1)) assert.Equal(task.TotalPieceCount.Load(), int32(0)) assert.Equal(task.BackToSourceLimit.Load(), int32(200)) assert.Equal(task.BackToSourcePeers.Len(), uint(0)) assert.Equal(task.FSM.Current(), TaskStatePending) assert.Empty(task.Pieces) assert.Equal(task.PeerCount(), 0) assert.NotEqual(task.CreatedAt.Load(), 0) assert.NotEqual(task.UpdatedAt.Load(), 0) assert.NotNil(task.Log) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { tc.expect(t, NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit, tc.options...)) }) } } func TestTask_LoadPeer(t *testing.T) { tests := []struct { name string peerID string expect func(t *testing.T, peer *Peer, loaded bool) }{ { name: "load peer", peerID: mockPeerID, expect: func(t *testing.T, peer *Peer, loaded bool) { assert := assert.New(t) assert.Equal(loaded, true) assert.Equal(peer.ID, mockPeerID) }, }, { name: "peer does not exist", peerID: idgen.PeerIDV2(), expect: func(t *testing.T, peer *Peer, loaded bool) { assert := assert.New(t) assert.Equal(loaded, false) }, }, { name: "load key is empty", peerID: "", expect: func(t *testing.T, peer *Peer, loaded bool) { assert := assert.New(t) assert.Equal(loaded, false) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) task.StorePeer(mockPeer) peer, loaded := task.LoadPeer(tc.peerID) tc.expect(t, peer, loaded) }) } } func TestTask_LoadRandomPeers(t *testing.T) { tests := []struct { name string expect func(t *testing.T, task *Task, host *Host) }{ { name: "load random peers", expect: func(t *testing.T, task *Task, host *Host) { mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, host) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, host) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, host) mockPeerH := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, host) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) task.StorePeer(mockPeerH) assert := assert.New(t) peers := task.LoadRandomPeers(0) assert.Equal(len(peers), 0) peers = task.LoadRandomPeers(1) assert.Equal(len(peers), 1) peers = task.LoadRandomPeers(2) assert.Equal(len(peers), 2) peers = task.LoadRandomPeers(3) assert.Equal(len(peers), 3) peers = task.LoadRandomPeers(4) assert.Equal(len(peers), 4) peers = task.LoadRandomPeers(5) assert.Equal(len(peers), 4) }, }, { name: "load empty peers", expect: func(t *testing.T, task *Task, host *Host) { assert := assert.New(t) peers := task.LoadRandomPeers(0) assert.Equal(len(peers), 0) peers = task.LoadRandomPeers(1) assert.Equal(len(peers), 0) peers = task.LoadRandomPeers(2) assert.Equal(len(peers), 0) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { host := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, task, host) }) } } func TestTask_StorePeer(t *testing.T) { tests := []struct { name string peerID string expect func(t *testing.T, peer *Peer, loaded bool) }{ { name: "store peer", peerID: mockPeerID, expect: func(t *testing.T, peer *Peer, loaded bool) { assert := assert.New(t) assert.Equal(loaded, true) assert.Equal(peer.ID, mockPeerID) }, }, { name: "store key is empty", peerID: "", expect: func(t *testing.T, peer *Peer, loaded bool) { assert := assert.New(t) assert.Equal(loaded, true) assert.Equal(peer.ID, "") }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(tc.peerID, task, mockHost) task.StorePeer(mockPeer) peer, loaded := task.LoadPeer(tc.peerID) tc.expect(t, peer, loaded) }) } } func TestTask_DeletePeer(t *testing.T) { tests := []struct { name string peerID string expect func(t *testing.T, task *Task) }{ { name: "delete peer", peerID: mockPeerID, expect: func(t *testing.T, task *Task) { assert := assert.New(t) _, loaded := task.LoadPeer(mockPeerID) assert.Equal(loaded, false) }, }, { name: "delete key is empty", peerID: "", expect: func(t *testing.T, task *Task) { assert := assert.New(t) peer, loaded := task.LoadPeer(mockPeerID) assert.Equal(loaded, true) assert.Equal(peer.ID, mockPeerID) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) task.StorePeer(mockPeer) task.DeletePeer(tc.peerID) tc.expect(t, task) }) } } func TestTask_PeerCount(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockPeer *Peer, task *Task) }{ { name: "task has no peers", expect: func(t *testing.T, mockPeer *Peer, task *Task) { assert := assert.New(t) assert.Equal(task.PeerCount(), 0) }, }, { name: "task has peers", expect: func(t *testing.T, mockPeer *Peer, task *Task) { assert := assert.New(t) task.StorePeer(mockPeer) assert.Equal(task.PeerCount(), 1) task.DeletePeer(mockPeer.ID) assert.Equal(task.PeerCount(), 0) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) tc.expect(t, mockPeer, task) }) } } func TestTask_AddPeerEdge(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "add peer edge failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerF, mockPeerG) assert.NoError(err) assert.Equal(mockPeerF.Children()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerE) assert.Error(err) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) }, }, { name: "add peer edge", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerE, mockPeerG) assert.NoError(err) assert.Equal(len(mockPeerE.Children()), 2) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerF) assert.NoError(err) assert.Equal(len(mockPeerF.Parents()), 2) assert.Equal(mockPeerG.Children()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(3)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_DeletePeerInEdges(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "delete peer inedges failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) err := task.DeletePeerInEdges(mockPeerID) assert.Error(err) }, }, { name: "delete peer inedges", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) var ( err error degree int ) err = task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerE, mockPeerG) assert.NoError(err) assert.Equal(len(mockPeerE.Children()), 2) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerF) assert.NoError(err) assert.Equal(len(mockPeerF.Parents()), 2) assert.Equal(mockPeerG.Children()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(3)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerInEdges(mockPeerE.ID) assert.NoError(err) assert.Equal(len(mockPeerE.Children()), 2) assert.Equal(len(mockPeerF.Parents()), 2) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockPeerG.Children()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(3)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerInEdges(mockPeerF.ID) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerInEdges(mockPeerG.ID) assert.NoError(err) degree, err = task.PeerDegree(mockPeerE.ID) assert.NoError(err) assert.Equal(degree, 0) degree, err = task.PeerDegree(mockPeerF.ID) assert.NoError(err) assert.Equal(degree, 0) degree, err = task.PeerDegree(mockPeerG.ID) assert.NoError(err) assert.Equal(degree, 0) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(0)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_DeletePeerOutEdges(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "delete peer outedges failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) err := task.DeletePeerOutEdges(mockPeerID) assert.Error(err) }, }, { name: "delete peer outedges", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) var ( err error degree int ) err = task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerE, mockPeerG) assert.NoError(err) assert.Equal(len(mockPeerE.Children()), 2) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerF) assert.NoError(err) assert.Equal(len(mockPeerF.Parents()), 2) assert.Equal(mockPeerG.Children()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(3)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerOutEdges(mockPeerE.ID) assert.NoError(err) assert.Equal(len(mockPeerF.Parents()), 1) assert.Equal(len(mockPeerG.Parents()), 0) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerOutEdges(mockPeerF.ID) assert.NoError(err) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Children()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.DeletePeerOutEdges(mockPeerG.ID) assert.NoError(err) degree, err = task.PeerDegree(mockPeerE.ID) assert.NoError(err) assert.Equal(degree, 0) degree, err = task.PeerDegree(mockPeerF.ID) assert.NoError(err) assert.Equal(degree, 0) degree, err = task.PeerDegree(mockPeerG.ID) assert.NoError(err) assert.Equal(degree, 0) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(0)) assert.Equal(mockHost.UploadCount.Load(), int64(3)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_CanAddPeerEdge(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "peer can not add edge", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerF, mockPeerG) assert.NoError(err) assert.Equal(mockPeerF.Children()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerF.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) assert.False(task.CanAddPeerEdge(mockPeerG.ID, mockPeerE.ID)) }, }, { name: "peer can add edge", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerE, mockPeerG) assert.NoError(err) assert.Equal(len(mockPeerE.Children()), 2) assert.Equal(mockPeerG.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) assert.True(task.CanAddPeerEdge(mockPeerG.ID, mockPeerF.ID)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_PeerDegree(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "get peer degree failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) _, err := task.PeerDegree(mockPeerID) assert.Error(err) }, }, { name: "peer get degree", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerE) assert.NoError(err) assert.Equal(mockPeerE.Parents()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Children()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) degree, err := task.PeerDegree(mockPeerE.ID) assert.NoError(err) assert.Equal(degree, 2) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_PeerInDegree(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "get peer indegree failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) _, err := task.PeerInDegree(mockPeerID) assert.Error(err) }, }, { name: "peer get indegree", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerE) assert.NoError(err) assert.Equal(mockPeerE.Parents()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Children()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) degree, err := task.PeerInDegree(mockPeerE.ID) assert.NoError(err) assert.Equal(degree, 1) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_PeerOutDegree(t *testing.T) { tests := []struct { name string expect func(t *testing.T, mockHost *Host, task *Task) }{ { name: "get peer outdegree failed", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) _, err := task.PeerOutDegree(mockPeerID) assert.Error(err) }, }, { name: "peer get outdegree", expect: func(t *testing.T, mockHost *Host, task *Task) { assert := assert.New(t) mockPeerE := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerF := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) mockPeerG := NewPeer(idgen.PeerIDV1("127.0.0.1"), task, mockHost) task.StorePeer(mockPeerE) task.StorePeer(mockPeerF) task.StorePeer(mockPeerG) mockHost.StorePeer(mockPeerE) mockHost.StorePeer(mockPeerF) mockHost.StorePeer(mockPeerG) err := task.AddPeerEdge(mockPeerE, mockPeerF) assert.NoError(err) assert.Equal(mockPeerE.Children()[0].ID, mockPeerF.ID) assert.Equal(mockPeerF.Parents()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(1)) assert.Equal(mockHost.UploadCount.Load(), int64(1)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) err = task.AddPeerEdge(mockPeerG, mockPeerE) assert.NoError(err) assert.Equal(mockPeerE.Parents()[0].ID, mockPeerG.ID) assert.Equal(mockPeerG.Children()[0].ID, mockPeerE.ID) assert.Equal(mockHost.ConcurrentUploadCount.Load(), int32(2)) assert.Equal(mockHost.UploadCount.Load(), int64(2)) assert.Equal(mockHost.PeerCount.Load(), int32(3)) degree, err := task.PeerOutDegree(mockPeerE.ID) assert.NoError(err) assert.Equal(degree, 1) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, mockHost, task) }) } } func TestTask_HasAvailablePeer(t *testing.T) { tests := []struct { name string expect func(t *testing.T, task *Task, mockPeer *Peer) }{ { name: "blocklist includes peer", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) mockPeer.FSM.SetState(PeerStatePending) task.StorePeer(mockPeer) blocklist := set.NewSafeSet[string]() blocklist.Add(mockPeer.ID) assert.Equal(task.HasAvailablePeer(blocklist), false) }, }, { name: "peer state is PeerStatePending", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) mockPeer.ID = idgen.PeerIDV2() mockPeer.FSM.SetState(PeerStatePending) task.StorePeer(mockPeer) assert.Equal(task.HasAvailablePeer(set.NewSafeSet[string]()), true) }, }, { name: "peer state is PeerStateSucceeded", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) mockPeer.ID = idgen.PeerIDV2() mockPeer.FSM.SetState(PeerStateSucceeded) task.StorePeer(mockPeer) assert.Equal(task.HasAvailablePeer(set.NewSafeSet[string]()), true) }, }, { name: "peer state is PeerStateRunning", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) mockPeer.ID = idgen.PeerIDV2() mockPeer.FSM.SetState(PeerStateRunning) task.StorePeer(mockPeer) assert.Equal(task.HasAvailablePeer(set.NewSafeSet[string]()), true) }, }, { name: "peer state is PeerStateBackToSource", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) mockPeer.ID = idgen.PeerIDV2() mockPeer.FSM.SetState(PeerStateBackToSource) task.StorePeer(mockPeer) assert.Equal(task.HasAvailablePeer(set.NewSafeSet[string]()), true) }, }, { name: "peer does not exist", expect: func(t *testing.T, task *Task, mockPeer *Peer) { assert := assert.New(t) assert.Equal(task.HasAvailablePeer(set.NewSafeSet[string]()), false) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) tc.expect(t, task, mockPeer) }) } } func TestTask_LoadSeedPeer(t *testing.T) { tests := []struct { name string expect func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) }{ { name: "load seed peer", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) task.StorePeer(mockSeedPeer) peer, loaded := task.LoadSeedPeer() assert.True(loaded) assert.Equal(peer.ID, mockSeedPeer.ID) }, }, { name: "load latest seed peer", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) mockPeer.Host.Type = types.HostTypeSuperSeed task.StorePeer(mockPeer) task.StorePeer(mockSeedPeer) mockPeer.UpdatedAt.Store(time.Now()) mockSeedPeer.UpdatedAt.Store(time.Now().Add(1 * time.Second)) peer, loaded := task.LoadSeedPeer() assert.True(loaded) assert.Equal(peer.ID, mockSeedPeer.ID) }, }, { name: "peers is empty", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) _, loaded := task.LoadSeedPeer() assert.False(loaded) }, }, { name: "seed peers is empty", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) _, loaded := task.LoadSeedPeer() assert.False(loaded) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) mockSeedHost := NewHost( mockRawSeedHost.ID, mockRawSeedHost.IP, mockRawSeedHost.Hostname, mockRawSeedHost.Port, mockRawSeedHost.DownloadPort, mockRawSeedHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) mockSeedPeer := NewPeer(mockSeedPeerID, task, mockSeedHost) tc.expect(t, task, mockPeer, mockSeedPeer) }) } } func TestTask_IsSeedPeerFailed(t *testing.T) { tests := []struct { name string expect func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) }{ { name: "seed peer state is PeerStateFailed", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) task.StorePeer(mockSeedPeer) mockSeedPeer.FSM.SetState(PeerStateFailed) assert.True(task.IsSeedPeerFailed()) }, }, { name: "can not find seed peer", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) assert.False(task.IsSeedPeerFailed()) }, }, { name: "seed peer state is PeerStateSucceeded", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) task.StorePeer(mockSeedPeer) mockSeedPeer.FSM.SetState(PeerStateSucceeded) assert.False(task.IsSeedPeerFailed()) }, }, { name: "seed peer failed timeout", expect: func(t *testing.T, task *Task, mockPeer *Peer, mockSeedPeer *Peer) { assert := assert.New(t) task.StorePeer(mockPeer) task.StorePeer(mockSeedPeer) mockSeedPeer.CreatedAt.Store(time.Now().Add(-SeedPeerFailedTimeout)) mockSeedPeer.FSM.SetState(PeerStateFailed) assert.False(task.IsSeedPeerFailed()) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) mockSeedHost := NewHost( mockRawSeedHost.ID, mockRawSeedHost.IP, mockRawSeedHost.Hostname, mockRawSeedHost.Port, mockRawSeedHost.DownloadPort, mockRawSeedHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) mockSeedPeer := NewPeer(mockSeedPeerID, task, mockSeedHost) tc.expect(t, task, mockPeer, mockSeedPeer) }) } } func TestTask_LoadPiece(t *testing.T) { tests := []struct { name string piece *Piece pieceNumber int32 expect func(t *testing.T, piece *Piece, loaded bool) }{ { name: "load piece", piece: mockPiece, pieceNumber: mockPiece.Number, expect: func(t *testing.T, piece *Piece, loaded bool) { assert := assert.New(t) assert.Equal(loaded, true) assert.Equal(piece.Number, mockPiece.Number) assert.Equal(piece.ParentID, mockPiece.ParentID) assert.Equal(piece.Offset, mockPiece.Offset) assert.Equal(piece.Length, mockPiece.Length) assert.EqualValues(piece.Digest, mockPiece.Digest) assert.Equal(piece.TrafficType, mockPiece.TrafficType) assert.Equal(piece.Cost, mockPiece.Cost) assert.Equal(piece.CreatedAt, mockPiece.CreatedAt) }, }, { name: "piece does not exist", piece: mockPiece, pieceNumber: 2, expect: func(t *testing.T, piece *Piece, loaded bool) { assert := assert.New(t) assert.Equal(loaded, false) }, }, { name: "load key is zero", piece: mockPiece, pieceNumber: 0, expect: func(t *testing.T, piece *Piece, loaded bool) { assert := assert.New(t) assert.Equal(loaded, false) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) task.StorePiece(tc.piece) piece, loaded := task.LoadPiece(tc.pieceNumber) tc.expect(t, piece, loaded) }) } } func TestTask_StorePiece(t *testing.T) { tests := []struct { name string piece *Piece pieceNumber int32 expect func(t *testing.T, piece *Piece, loaded bool) }{ { name: "store piece", piece: mockPiece, pieceNumber: mockPiece.Number, expect: func(t *testing.T, piece *Piece, loaded bool) { assert := assert.New(t) assert.Equal(loaded, true) assert.Equal(piece.Number, mockPiece.Number) assert.Equal(piece.ParentID, mockPiece.ParentID) assert.Equal(piece.Offset, mockPiece.Offset) assert.Equal(piece.Length, mockPiece.Length) assert.EqualValues(piece.Digest, mockPiece.Digest) assert.Equal(piece.TrafficType, mockPiece.TrafficType) assert.Equal(piece.Cost, mockPiece.Cost) assert.Equal(piece.CreatedAt, mockPiece.CreatedAt) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) task.StorePiece(tc.piece) piece, loaded := task.LoadPiece(tc.pieceNumber) tc.expect(t, piece, loaded) }) } } func TestTask_DeletePiece(t *testing.T) { tests := []struct { name string piece *Piece pieceNumber int32 expect func(t *testing.T, task *Task) }{ { name: "delete piece", piece: mockPiece, pieceNumber: mockPiece.Number, expect: func(t *testing.T, task *Task) { assert := assert.New(t) _, loaded := task.LoadPiece(mockPiece.Number) assert.Equal(loaded, false) }, }, { name: "delete key does not exist", piece: mockPiece, pieceNumber: 0, expect: func(t *testing.T, task *Task) { assert := assert.New(t) piece, loaded := task.LoadPiece(mockPiece.Number) assert.Equal(loaded, true) assert.Equal(piece.Number, mockPiece.Number) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) task.StorePiece(tc.piece) task.DeletePiece(tc.pieceNumber) tc.expect(t, task) }) } } func TestTask_SizeScope(t *testing.T) { tests := []struct { name string contentLength int64 totalPieceCount int32 expect func(t *testing.T, task *Task) }{ { name: "scope size is tiny", contentLength: TinyFileSize, totalPieceCount: 1, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_TINY) }, }, { name: "scope size is empty", contentLength: 0, totalPieceCount: 0, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_EMPTY) }, }, { name: "scope size is small", contentLength: TinyFileSize + 1, totalPieceCount: 1, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_SMALL) }, }, { name: "scope size is normal", contentLength: TinyFileSize + 1, totalPieceCount: 2, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_NORMAL) }, }, { name: "invalid content length", contentLength: -1, totalPieceCount: 2, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_UNKNOW) }, }, { name: "invalid total piece count", contentLength: TinyFileSize + 1, totalPieceCount: -1, expect: func(t *testing.T, task *Task) { assert := assert.New(t) sizeScope := task.SizeScope() assert.Equal(sizeScope, commonv2.SizeScope_UNKNOW) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) task.ContentLength.Store(tc.contentLength) task.TotalPieceCount.Store(tc.totalPieceCount) tc.expect(t, task) }) } } func TestTask_CanBackToSource(t *testing.T) { tests := []struct { name string backToSourceLimit int32 run func(t *testing.T, task *Task) }{ { name: "task can back-to-source", backToSourceLimit: 1, run: func(t *testing.T, task *Task) { assert := assert.New(t) assert.Equal(task.CanBackToSource(), true) }, }, { name: "task can not back-to-source", backToSourceLimit: -1, run: func(t *testing.T, task *Task) { assert := assert.New(t) assert.Equal(task.CanBackToSource(), false) }, }, { name: "task can back-to-source and task type is DFSTORE", backToSourceLimit: 1, run: func(t *testing.T, task *Task) { assert := assert.New(t) task.Type = commonv2.TaskType_DFSTORE assert.Equal(task.CanBackToSource(), true) }, }, { name: "task type is DFCACHE", backToSourceLimit: 1, run: func(t *testing.T, task *Task) { assert := assert.New(t) task.Type = commonv2.TaskType_DFCACHE assert.Equal(task.CanBackToSource(), false) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, tc.backToSourceLimit) tc.run(t, task) }) } } func TestTask_CanReuseDirectPiece(t *testing.T) { tests := []struct { name string expect func(t *testing.T, task *Task) }{ { name: "task can reuse direct piece", expect: func(t *testing.T, task *Task) { assert := assert.New(t) task.DirectPiece = []byte{1} task.ContentLength.Store(1) assert.Equal(task.CanReuseDirectPiece(), true) }, }, { name: "direct piece is empty", expect: func(t *testing.T, task *Task) { assert := assert.New(t) task.ContentLength.Store(1) assert.Equal(task.CanReuseDirectPiece(), false) }, }, { name: "content length is error", expect: func(t *testing.T, task *Task) { assert := assert.New(t) task.DirectPiece = []byte{1} task.ContentLength.Store(2) assert.Equal(task.CanReuseDirectPiece(), false) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) tc.expect(t, task) }) } } func TestTask_ReportPieceResultToPeers(t *testing.T) { tests := []struct { name string run func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) }{ { name: "peer state is PeerStatePending", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) { mockPeer.FSM.SetState(PeerStatePending) task.ReportPieceResultToPeers(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStatePending)) }, }, { name: "peer state is PeerStateRunning and stream is empty", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) task.ReportPieceResultToPeers(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and stream sending failed", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreReportPieceResultStream(stream) ms.Send(gomock.Eq(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError})).Return(errors.New("foo")).Times(1) task.ReportPieceResultToPeers(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and state changing failed", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreReportPieceResultStream(stream) ms.Send(gomock.Eq(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError})).Return(errors.New("foo")).Times(1) task.ReportPieceResultToPeers(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and report peer successfully", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv1.Scheduler_ReportPieceResultServer, ms *v1mocks.MockScheduler_ReportPieceResultServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreReportPieceResultStream(stream) ms.Send(gomock.Eq(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError})).Return(nil).Times(1) task.ReportPieceResultToPeers(&schedulerv1.PeerPacket{Code: commonv1.Code_SchedTaskStatusError}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateFailed)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { ctl := gomock.NewController(t) defer ctl.Finish() stream := v1mocks.NewMockScheduler_ReportPieceResultServer(ctl) mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) task.StorePeer(mockPeer) tc.run(t, task, mockPeer, stream, stream.EXPECT()) }) } } func TestTask_AnnouncePeers(t *testing.T) { tests := []struct { name string run func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) }{ { name: "peer state is PeerStatePending", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) { mockPeer.FSM.SetState(PeerStatePending) task.AnnouncePeers(&schedulerv2.AnnouncePeerResponse{}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStatePending)) }, }, { name: "peer state is PeerStateRunning and stream is empty", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) task.AnnouncePeers(&schedulerv2.AnnouncePeerResponse{}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and stream sending failed", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreAnnouncePeerStream(stream) ms.Send(gomock.Eq(&schedulerv2.AnnouncePeerResponse{})).Return(errors.New("foo")).Times(1) task.AnnouncePeers(&schedulerv2.AnnouncePeerResponse{}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and state changing failed", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreAnnouncePeerStream(stream) ms.Send(gomock.Eq(&schedulerv2.AnnouncePeerResponse{})).Return(errors.New("foo")).Times(1) task.AnnouncePeers(&schedulerv2.AnnouncePeerResponse{}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateRunning)) }, }, { name: "peer state is PeerStateRunning and announce peer successfully", run: func(t *testing.T, task *Task, mockPeer *Peer, stream schedulerv2.Scheduler_AnnouncePeerServer, ms *v2mocks.MockScheduler_AnnouncePeerServerMockRecorder) { mockPeer.FSM.SetState(PeerStateRunning) mockPeer.StoreAnnouncePeerStream(stream) ms.Send(gomock.Eq(&schedulerv2.AnnouncePeerResponse{})).Return(nil).Times(1) task.AnnouncePeers(&schedulerv2.AnnouncePeerResponse{}, PeerEventDownloadFailed) assert := assert.New(t) assert.True(mockPeer.FSM.Is(PeerStateFailed)) }, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { ctl := gomock.NewController(t) defer ctl.Finish() stream := v2mocks.NewMockScheduler_AnnouncePeerServer(ctl) mockHost := NewHost( mockRawHost.ID, mockRawHost.IP, mockRawHost.Hostname, mockRawHost.Port, mockRawHost.DownloadPort, mockRawHost.Type) task := NewTask(mockTaskID, mockTaskURL, mockTaskTag, mockTaskApplication, commonv2.TaskType_DFDAEMON, mockTaskFilters, mockTaskHeader, mockTaskBackToSourceLimit) mockPeer := NewPeer(mockPeerID, task, mockHost) task.StorePeer(mockPeer) tc.run(t, task, mockPeer, stream, stream.EXPECT()) }) } }