// Copyright (C) 2014 The Syncthing Authors. // // This program is free software: you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by the Free // Software Foundation, either version 3 of the License, or (at your option) // any later version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for // more details. // // You should have received a copy of the GNU General Public License along // with this program. If not, see . package files_test import ( "bytes" "fmt" "reflect" "sort" "testing" "github.com/syncthing/syncthing/internal/files" "github.com/syncthing/syncthing/internal/lamport" "github.com/syncthing/syncthing/internal/protocol" "github.com/syndtr/goleveldb/leveldb" "github.com/syndtr/goleveldb/leveldb/storage" ) var remoteDevice0, remoteDevice1 protocol.DeviceID func init() { remoteDevice0, _ = protocol.DeviceIDFromString("AIR6LPZ-7K4PTTV-UXQSMUU-CPQ5YWH-OEDFIIQ-JUG777G-2YQXXR5-YD6AWQR") remoteDevice1, _ = protocol.DeviceIDFromString("I6KAH76-66SLLLB-5PFXSOA-UFJCDZC-YAOMLEK-CP2GB32-BV5RQST-3PSROAU") } func genBlocks(n int) []protocol.BlockInfo { b := make([]protocol.BlockInfo, n) for i := range b { h := make([]byte, 32) for j := range h { h[j] = byte(i + j) } b[i].Size = uint32(i) b[i].Hash = h } return b } func globalList(s *files.Set) []protocol.FileInfo { var fs []protocol.FileInfo s.WithGlobal(func(fi files.FileIntf) bool { f := fi.(protocol.FileInfo) fs = append(fs, f) return true }) return fs } func haveList(s *files.Set, n protocol.DeviceID) []protocol.FileInfo { var fs []protocol.FileInfo s.WithHave(n, func(fi files.FileIntf) bool { f := fi.(protocol.FileInfo) fs = append(fs, f) return true }) return fs } func needList(s *files.Set, n protocol.DeviceID) []protocol.FileInfo { var fs []protocol.FileInfo s.WithNeed(n, func(fi files.FileIntf) bool { f := fi.(protocol.FileInfo) fs = append(fs, f) return true }) return fs } type fileList []protocol.FileInfo func (l fileList) Len() int { return len(l) } func (l fileList) Less(a, b int) bool { return l[a].Name < l[b].Name } func (l fileList) Swap(a, b int) { l[a], l[b] = l[b], l[a] } func (l fileList) String() string { var b bytes.Buffer b.WriteString("[]protocol.FileList{\n") for _, f := range l { fmt.Fprintf(&b, " %q: #%d, %d bytes, %d blocks, flags=%o\n", f.Name, f.Version, f.Size(), len(f.Blocks), f.Flags) } b.WriteString("}") return b.String() } func TestGlobalSet(t *testing.T) { lamport.Default = lamport.Clock{} db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } m := files.NewSet("test", db) local0 := fileList{ protocol.FileInfo{Name: "a", Version: 1000, Blocks: genBlocks(1)}, protocol.FileInfo{Name: "b", Version: 1000, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1000, Blocks: genBlocks(3)}, protocol.FileInfo{Name: "d", Version: 1000, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "z", Version: 1000, Blocks: genBlocks(8)}, } local1 := fileList{ protocol.FileInfo{Name: "a", Version: 1000, Blocks: genBlocks(1)}, protocol.FileInfo{Name: "b", Version: 1000, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1000, Blocks: genBlocks(3)}, protocol.FileInfo{Name: "d", Version: 1000, Blocks: genBlocks(4)}, } localTot := fileList{ local0[0], local0[1], local0[2], local0[3], protocol.FileInfo{Name: "z", Version: 1001, Flags: protocol.FlagDeleted}, } remote0 := fileList{ protocol.FileInfo{Name: "a", Version: 1000, Blocks: genBlocks(1)}, protocol.FileInfo{Name: "b", Version: 1000, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(5)}, } remote1 := fileList{ protocol.FileInfo{Name: "b", Version: 1001, Blocks: genBlocks(6)}, protocol.FileInfo{Name: "e", Version: 1000, Blocks: genBlocks(7)}, } remoteTot := fileList{ remote0[0], remote1[0], remote0[2], remote1[1], } expectedGlobal := fileList{ remote0[0], // a remote1[0], // b remote0[2], // c localTot[3], // d remote1[1], // e localTot[4], // z } expectedLocalNeed := fileList{ remote1[0], remote0[2], remote1[1], } expectedRemoteNeed := fileList{ local0[3], } m.ReplaceWithDelete(protocol.LocalDeviceID, local0) m.ReplaceWithDelete(protocol.LocalDeviceID, local1) m.Replace(remoteDevice0, remote0) m.Update(remoteDevice0, remote1) g := fileList(globalList(m)) sort.Sort(g) if fmt.Sprint(g) != fmt.Sprint(expectedGlobal) { t.Errorf("Global incorrect;\n A: %v !=\n E: %v", g, expectedGlobal) } h := fileList(haveList(m, protocol.LocalDeviceID)) sort.Sort(h) if fmt.Sprint(h) != fmt.Sprint(localTot) { t.Errorf("Have incorrect;\n A: %v !=\n E: %v", h, localTot) } h = fileList(haveList(m, remoteDevice0)) sort.Sort(h) if fmt.Sprint(h) != fmt.Sprint(remoteTot) { t.Errorf("Have incorrect;\n A: %v !=\n E: %v", h, remoteTot) } n := fileList(needList(m, protocol.LocalDeviceID)) sort.Sort(n) if fmt.Sprint(n) != fmt.Sprint(expectedLocalNeed) { t.Errorf("Need incorrect;\n A: %v !=\n E: %v", n, expectedLocalNeed) } n = fileList(needList(m, remoteDevice0)) sort.Sort(n) if fmt.Sprint(n) != fmt.Sprint(expectedRemoteNeed) { t.Errorf("Need incorrect;\n A: %v !=\n E: %v", n, expectedRemoteNeed) } f, ok := m.Get(protocol.LocalDeviceID, "b") if !ok { t.Error("Unexpectedly not OK") } if fmt.Sprint(f) != fmt.Sprint(localTot[1]) { t.Errorf("Get incorrect;\n A: %v !=\n E: %v", f, localTot[1]) } f, ok = m.Get(remoteDevice0, "b") if !ok { t.Error("Unexpectedly not OK") } if fmt.Sprint(f) != fmt.Sprint(remote1[0]) { t.Errorf("Get incorrect;\n A: %v !=\n E: %v", f, remote1[0]) } f, ok = m.GetGlobal("b") if !ok { t.Error("Unexpectedly not OK") } if fmt.Sprint(f) != fmt.Sprint(remote1[0]) { t.Errorf("GetGlobal incorrect;\n A: %v !=\n E: %v", f, remote1[0]) } f, ok = m.Get(protocol.LocalDeviceID, "zz") if ok { t.Error("Unexpectedly OK") } if f.Name != "" { t.Errorf("Get incorrect;\n A: %v !=\n E: %v", f, protocol.FileInfo{}) } f, ok = m.GetGlobal("zz") if ok { t.Error("Unexpectedly OK") } if f.Name != "" { t.Errorf("GetGlobal incorrect;\n A: %v !=\n E: %v", f, protocol.FileInfo{}) } av := []protocol.DeviceID{protocol.LocalDeviceID, remoteDevice0} a := m.Availability("a") if !(len(a) == 2 && (a[0] == av[0] && a[1] == av[1] || a[0] == av[1] && a[1] == av[0])) { t.Errorf("Availability incorrect;\n A: %v !=\n E: %v", a, av) } a = m.Availability("b") if len(a) != 1 || a[0] != remoteDevice0 { t.Errorf("Availability incorrect;\n A: %v !=\n E: %v", a, remoteDevice0) } a = m.Availability("d") if len(a) != 1 || a[0] != protocol.LocalDeviceID { t.Errorf("Availability incorrect;\n A: %v !=\n E: %v", a, protocol.LocalDeviceID) } } func TestNeedWithInvalid(t *testing.T) { lamport.Default = lamport.Clock{} db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s := files.NewSet("test", db) localHave := fileList{ protocol.FileInfo{Name: "a", Version: 1000, Blocks: genBlocks(1)}, } remote0Have := fileList{ protocol.FileInfo{Name: "b", Version: 1001, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "d", Version: 1003, Blocks: genBlocks(7)}, } remote1Have := fileList{ protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(7)}, protocol.FileInfo{Name: "d", Version: 1003, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "e", Version: 1004, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, } expectedNeed := fileList{ protocol.FileInfo{Name: "b", Version: 1001, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(7)}, protocol.FileInfo{Name: "d", Version: 1003, Blocks: genBlocks(7)}, } s.ReplaceWithDelete(protocol.LocalDeviceID, localHave) s.Replace(remoteDevice0, remote0Have) s.Replace(remoteDevice1, remote1Have) need := fileList(needList(s, protocol.LocalDeviceID)) sort.Sort(need) if fmt.Sprint(need) != fmt.Sprint(expectedNeed) { t.Errorf("Need incorrect;\n A: %v !=\n E: %v", need, expectedNeed) } } func TestUpdateToInvalid(t *testing.T) { lamport.Default = lamport.Clock{} db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s := files.NewSet("test", db) localHave := fileList{ protocol.FileInfo{Name: "a", Version: 1000, Blocks: genBlocks(1)}, protocol.FileInfo{Name: "b", Version: 1001, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "d", Version: 1003, Blocks: genBlocks(7)}, } s.ReplaceWithDelete(protocol.LocalDeviceID, localHave) have := fileList(haveList(s, protocol.LocalDeviceID)) sort.Sort(have) if fmt.Sprint(have) != fmt.Sprint(localHave) { t.Errorf("Have incorrect before invalidation;\n A: %v !=\n E: %v", have, localHave) } localHave[1] = protocol.FileInfo{Name: "b", Version: 1001, Flags: protocol.FlagInvalid} s.Update(protocol.LocalDeviceID, localHave[1:2]) have = fileList(haveList(s, protocol.LocalDeviceID)) sort.Sort(have) if fmt.Sprint(have) != fmt.Sprint(localHave) { t.Errorf("Have incorrect after invalidation;\n A: %v !=\n E: %v", have, localHave) } } func TestInvalidAvailability(t *testing.T) { lamport.Default = lamport.Clock{} db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s := files.NewSet("test", db) remote0Have := fileList{ protocol.FileInfo{Name: "both", Version: 1001, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "r1only", Version: 1002, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "r0only", Version: 1003, Blocks: genBlocks(7)}, protocol.FileInfo{Name: "none", Version: 1004, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, } remote1Have := fileList{ protocol.FileInfo{Name: "both", Version: 1001, Blocks: genBlocks(2)}, protocol.FileInfo{Name: "r1only", Version: 1002, Blocks: genBlocks(7)}, protocol.FileInfo{Name: "r0only", Version: 1003, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "none", Version: 1004, Blocks: genBlocks(5), Flags: protocol.FlagInvalid}, } s.Replace(remoteDevice0, remote0Have) s.Replace(remoteDevice1, remote1Have) if av := s.Availability("both"); len(av) != 2 { t.Error("Incorrect availability for 'both':", av) } if av := s.Availability("r0only"); len(av) != 1 || av[0] != remoteDevice0 { t.Error("Incorrect availability for 'r0only':", av) } if av := s.Availability("r1only"); len(av) != 1 || av[0] != remoteDevice1 { t.Error("Incorrect availability for 'r1only':", av) } if av := s.Availability("none"); len(av) != 0 { t.Error("Incorrect availability for 'none':", av) } } func TestLocalDeleted(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } m := files.NewSet("test", db) lamport.Default = lamport.Clock{} local1 := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1000}, {Name: "c", Version: 1000}, {Name: "d", Version: 1000}, {Name: "z", Version: 1000, Flags: protocol.FlagDirectory}, } m.ReplaceWithDelete(protocol.LocalDeviceID, local1) m.ReplaceWithDelete(protocol.LocalDeviceID, []protocol.FileInfo{ local1[0], // [1] removed local1[2], local1[3], local1[4], }) m.ReplaceWithDelete(protocol.LocalDeviceID, []protocol.FileInfo{ local1[0], local1[2], // [3] removed local1[4], }) m.ReplaceWithDelete(protocol.LocalDeviceID, []protocol.FileInfo{ local1[0], local1[2], // [4] removed }) expectedGlobal1 := []protocol.FileInfo{ local1[0], {Name: "b", Version: 1001, Flags: protocol.FlagDeleted}, local1[2], {Name: "d", Version: 1002, Flags: protocol.FlagDeleted}, {Name: "z", Version: 1003, Flags: protocol.FlagDeleted | protocol.FlagDirectory}, } g := globalList(m) sort.Sort(fileList(g)) sort.Sort(fileList(expectedGlobal1)) if fmt.Sprint(g) != fmt.Sprint(expectedGlobal1) { t.Errorf("Global incorrect;\n A: %v !=\n E: %v", g, expectedGlobal1) } m.ReplaceWithDelete(protocol.LocalDeviceID, []protocol.FileInfo{ local1[0], // [2] removed }) expectedGlobal2 := []protocol.FileInfo{ local1[0], {Name: "b", Version: 1001, Flags: protocol.FlagDeleted}, {Name: "c", Version: 1004, Flags: protocol.FlagDeleted}, {Name: "d", Version: 1002, Flags: protocol.FlagDeleted}, {Name: "z", Version: 1003, Flags: protocol.FlagDeleted | protocol.FlagDirectory}, } g = globalList(m) sort.Sort(fileList(g)) sort.Sort(fileList(expectedGlobal2)) if fmt.Sprint(g) != fmt.Sprint(expectedGlobal2) { t.Errorf("Global incorrect;\n A: %v !=\n E: %v", g, expectedGlobal2) } } func Benchmark10kReplace(b *testing.B) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } var local []protocol.FileInfo for i := 0; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } b.ResetTimer() for i := 0; i < b.N; i++ { m := files.NewSet("test", db) m.ReplaceWithDelete(protocol.LocalDeviceID, local) } } func Benchmark10kUpdateChg(b *testing.B) { var remote []protocol.FileInfo for i := 0; i < 10000; i++ { remote = append(remote, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } m := files.NewSet("test", db) m.Replace(remoteDevice0, remote) var local []protocol.FileInfo for i := 0; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } m.ReplaceWithDelete(protocol.LocalDeviceID, local) b.ResetTimer() for i := 0; i < b.N; i++ { b.StopTimer() for j := range local { local[j].Version++ } b.StartTimer() m.Update(protocol.LocalDeviceID, local) } } func Benchmark10kUpdateSme(b *testing.B) { var remote []protocol.FileInfo for i := 0; i < 10000; i++ { remote = append(remote, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } m := files.NewSet("test", db) m.Replace(remoteDevice0, remote) var local []protocol.FileInfo for i := 0; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } m.ReplaceWithDelete(protocol.LocalDeviceID, local) b.ResetTimer() for i := 0; i < b.N; i++ { m.Update(protocol.LocalDeviceID, local) } } func Benchmark10kNeed2k(b *testing.B) { var remote []protocol.FileInfo for i := 0; i < 10000; i++ { remote = append(remote, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } m := files.NewSet("test", db) m.Replace(remoteDevice0, remote) var local []protocol.FileInfo for i := 0; i < 8000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } for i := 8000; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 980}) } m.ReplaceWithDelete(protocol.LocalDeviceID, local) b.ResetTimer() for i := 0; i < b.N; i++ { fs := needList(m, protocol.LocalDeviceID) if l := len(fs); l != 2000 { b.Errorf("wrong length %d != 2k", l) } } } func Benchmark10kHaveFullList(b *testing.B) { var remote []protocol.FileInfo for i := 0; i < 10000; i++ { remote = append(remote, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } m := files.NewSet("test", db) m.Replace(remoteDevice0, remote) var local []protocol.FileInfo for i := 0; i < 2000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } for i := 2000; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 980}) } m.ReplaceWithDelete(protocol.LocalDeviceID, local) b.ResetTimer() for i := 0; i < b.N; i++ { fs := haveList(m, protocol.LocalDeviceID) if l := len(fs); l != 10000 { b.Errorf("wrong length %d != 10k", l) } } } func Benchmark10kGlobal(b *testing.B) { var remote []protocol.FileInfo for i := 0; i < 10000; i++ { remote = append(remote, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { b.Fatal(err) } m := files.NewSet("test", db) m.Replace(remoteDevice0, remote) var local []protocol.FileInfo for i := 0; i < 2000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 1000}) } for i := 2000; i < 10000; i++ { local = append(local, protocol.FileInfo{Name: fmt.Sprintf("file%d", i), Version: 980}) } m.ReplaceWithDelete(protocol.LocalDeviceID, local) b.ResetTimer() for i := 0; i < b.N; i++ { fs := globalList(m) if l := len(fs); l != 10000 { b.Errorf("wrong length %d != 10k", l) } } } func TestGlobalReset(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } m := files.NewSet("test", db) local := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1000}, {Name: "c", Version: 1000}, {Name: "d", Version: 1000}, } remote := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1001}, {Name: "c", Version: 1002}, {Name: "e", Version: 1000}, } m.ReplaceWithDelete(protocol.LocalDeviceID, local) g := globalList(m) sort.Sort(fileList(g)) if fmt.Sprint(g) != fmt.Sprint(local) { t.Errorf("Global incorrect;\n%v !=\n%v", g, local) } m.Replace(remoteDevice0, remote) m.Replace(remoteDevice0, nil) g = globalList(m) sort.Sort(fileList(g)) if fmt.Sprint(g) != fmt.Sprint(local) { t.Errorf("Global incorrect;\n%v !=\n%v", g, local) } } func TestNeed(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } m := files.NewSet("test", db) local := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1000}, {Name: "c", Version: 1000}, {Name: "d", Version: 1000}, } remote := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1001}, {Name: "c", Version: 1002}, {Name: "e", Version: 1000}, } shouldNeed := []protocol.FileInfo{ {Name: "b", Version: 1001}, {Name: "c", Version: 1002}, {Name: "e", Version: 1000}, } m.ReplaceWithDelete(protocol.LocalDeviceID, local) m.Replace(remoteDevice0, remote) need := needList(m, protocol.LocalDeviceID) sort.Sort(fileList(need)) sort.Sort(fileList(shouldNeed)) if fmt.Sprint(need) != fmt.Sprint(shouldNeed) { t.Errorf("Need incorrect;\n%v !=\n%v", need, shouldNeed) } } func TestLocalVersion(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } m := files.NewSet("test", db) local1 := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1000}, {Name: "c", Version: 1000}, {Name: "d", Version: 1000}, } local2 := []protocol.FileInfo{ local1[0], // [1] deleted local1[2], {Name: "d", Version: 1002}, {Name: "e", Version: 1000}, } m.ReplaceWithDelete(protocol.LocalDeviceID, local1) c0 := m.LocalVersion(protocol.LocalDeviceID) m.ReplaceWithDelete(protocol.LocalDeviceID, local2) c1 := m.LocalVersion(protocol.LocalDeviceID) if !(c1 > c0) { t.Fatal("Local version number should have incremented") } m.ReplaceWithDelete(protocol.LocalDeviceID, local2) c2 := m.LocalVersion(protocol.LocalDeviceID) if c2 != c1 { t.Fatal("Local version number should be unchanged") } } func TestListDropFolder(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s0 := files.NewSet("test0", db) local1 := []protocol.FileInfo{ {Name: "a", Version: 1000}, {Name: "b", Version: 1000}, {Name: "c", Version: 1000}, } s0.Replace(protocol.LocalDeviceID, local1) s1 := files.NewSet("test1", db) local2 := []protocol.FileInfo{ {Name: "d", Version: 1002}, {Name: "e", Version: 1002}, {Name: "f", Version: 1002}, } s1.Replace(remoteDevice0, local2) // Check that we have both folders and their data is in the global list expectedFolderList := []string{"test0", "test1"} if actualFolderList := files.ListFolders(db); !reflect.DeepEqual(actualFolderList, expectedFolderList) { t.Fatalf("FolderList mismatch\nE: %v\nA: %v", expectedFolderList, actualFolderList) } if l := len(globalList(s0)); l != 3 { t.Errorf("Incorrect global length %d != 3 for s0", l) } if l := len(globalList(s1)); l != 3 { t.Errorf("Incorrect global length %d != 3 for s1", l) } // Drop one of them and check that it's gone. files.DropFolder(db, "test1") expectedFolderList = []string{"test0"} if actualFolderList := files.ListFolders(db); !reflect.DeepEqual(actualFolderList, expectedFolderList) { t.Fatalf("FolderList mismatch\nE: %v\nA: %v", expectedFolderList, actualFolderList) } if l := len(globalList(s0)); l != 3 { t.Errorf("Incorrect global length %d != 3 for s0", l) } if l := len(globalList(s1)); l != 0 { t.Errorf("Incorrect global length %d != 0 for s1", l) } } func TestGlobalNeedWithInvalid(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s := files.NewSet("test1", db) rem0 := fileList{ protocol.FileInfo{Name: "a", Version: 1002, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "b", Version: 1002, Flags: protocol.FlagInvalid}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(4)}, } s.Replace(remoteDevice0, rem0) rem1 := fileList{ protocol.FileInfo{Name: "a", Version: 1002, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "b", Version: 1002, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "c", Version: 1002, Flags: protocol.FlagInvalid}, } s.Replace(remoteDevice1, rem1) total := fileList{ // There's a valid copy of each file, so it should be merged protocol.FileInfo{Name: "a", Version: 1002, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "b", Version: 1002, Blocks: genBlocks(4)}, protocol.FileInfo{Name: "c", Version: 1002, Blocks: genBlocks(4)}, } need := fileList(needList(s, protocol.LocalDeviceID)) if fmt.Sprint(need) != fmt.Sprint(total) { t.Errorf("Need incorrect;\n A: %v !=\n E: %v", need, total) } global := fileList(globalList(s)) if fmt.Sprint(global) != fmt.Sprint(total) { t.Errorf("Global incorrect;\n A: %v !=\n E: %v", global, total) } } func TestLongPath(t *testing.T) { db, err := leveldb.Open(storage.NewMemStorage(), nil) if err != nil { t.Fatal(err) } s := files.NewSet("test", db) var b bytes.Buffer for i := 0; i < 100; i++ { b.WriteString("012345678901234567890123456789012345678901234567890") } name := b.String() // 5000 characters local := []protocol.FileInfo{ {Name: string(name), Version: 1000}, } s.ReplaceWithDelete(protocol.LocalDeviceID, local) gf := globalList(s) if l := len(gf); l != 1 { t.Fatalf("Incorrect len %d != 1 for global list", l) } if gf[0].Name != local[0].Name { t.Errorf("Incorrect long filename;\n%q !=\n%q", gf[0].Name, local[0].Name) } }