// Copyright (C) 2014 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at https://mozilla.org/MPL/2.0/. package model import ( "bytes" "context" "encoding/json" "fmt" "io/ioutil" "math/rand" "net" "os" "path/filepath" "runtime" "strconv" "sync" "testing" "time" "github.com/d4l3k/messagediff" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/db" "github.com/syncthing/syncthing/lib/ignore" "github.com/syncthing/syncthing/lib/osutil" "github.com/syncthing/syncthing/lib/protocol" srand "github.com/syncthing/syncthing/lib/rand" "github.com/syncthing/syncthing/lib/scanner" ) var device1, device2 protocol.DeviceID var defaultConfig *config.Wrapper var defaultFolderConfig config.FolderConfiguration func init() { device1, _ = protocol.DeviceIDFromString("AIR6LPZ-7K4PTTV-UXQSMUU-CPQ5YWH-OEDFIIQ-JUG777G-2YQXXR5-YD6AWQR") device2, _ = protocol.DeviceIDFromString("GYRZZQB-IRNPV4Z-T7TC52W-EQYJ3TT-FDQW6MW-DFLMU42-SSSU6EM-FBK2VAY") defaultFolderConfig = config.NewFolderConfiguration("default", "testdata") defaultFolderConfig.Devices = []config.FolderDeviceConfiguration{{DeviceID: device1}} _defaultConfig := config.Configuration{ Folders: []config.FolderConfiguration{defaultFolderConfig}, Devices: []config.DeviceConfiguration{config.NewDeviceConfiguration(device1, "device1")}, Options: config.OptionsConfiguration{ // Don't remove temporaries directly on startup KeepTemporariesH: 1, }, } defaultConfig = config.Wrap("/tmp/test", _defaultConfig) } var testDataExpected = map[string]protocol.FileInfo{ "foo": { Name: "foo", Type: protocol.FileInfoTypeFile, ModifiedS: 0, Blocks: []protocol.BlockInfo{{Offset: 0x0, Size: 0x7, Hash: []uint8{0xae, 0xc0, 0x70, 0x64, 0x5f, 0xe5, 0x3e, 0xe3, 0xb3, 0x76, 0x30, 0x59, 0x37, 0x61, 0x34, 0xf0, 0x58, 0xcc, 0x33, 0x72, 0x47, 0xc9, 0x78, 0xad, 0xd1, 0x78, 0xb6, 0xcc, 0xdf, 0xb0, 0x1, 0x9f}}}, }, "empty": { Name: "empty", Type: protocol.FileInfoTypeFile, ModifiedS: 0, Blocks: []protocol.BlockInfo{{Offset: 0x0, Size: 0x0, Hash: []uint8{0xe3, 0xb0, 0xc4, 0x42, 0x98, 0xfc, 0x1c, 0x14, 0x9a, 0xfb, 0xf4, 0xc8, 0x99, 0x6f, 0xb9, 0x24, 0x27, 0xae, 0x41, 0xe4, 0x64, 0x9b, 0x93, 0x4c, 0xa4, 0x95, 0x99, 0x1b, 0x78, 0x52, 0xb8, 0x55}}}, }, "bar": { Name: "bar", Type: protocol.FileInfoTypeFile, ModifiedS: 0, Blocks: []protocol.BlockInfo{{Offset: 0x0, Size: 0xa, Hash: []uint8{0x2f, 0x72, 0xcc, 0x11, 0xa6, 0xfc, 0xd0, 0x27, 0x1e, 0xce, 0xf8, 0xc6, 0x10, 0x56, 0xee, 0x1e, 0xb1, 0x24, 0x3b, 0xe3, 0x80, 0x5b, 0xf9, 0xa9, 0xdf, 0x98, 0xf9, 0x2f, 0x76, 0x36, 0xb0, 0x5c}}}, }, } func init() { // Fix expected test data to match reality for n, f := range testDataExpected { fi, _ := os.Stat("testdata/" + n) f.Permissions = uint32(fi.Mode()) f.ModifiedS = fi.ModTime().Unix() f.Size = fi.Size() testDataExpected[n] = f } } func TestRequest(t *testing.T) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) // device1 shares default, but device2 doesn't m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() m.ScanFolder("default") bs := make([]byte, protocol.BlockSize) // Existing, shared file bs = bs[:6] err := m.Request(device1, "default", "foo", 0, nil, false, bs) if err != nil { t.Error(err) } if !bytes.Equal(bs, []byte("foobar")) { t.Errorf("Incorrect data from request: %q", string(bs)) } // Existing, nonshared file err = m.Request(device2, "default", "foo", 0, nil, false, bs) if err == nil { t.Error("Unexpected nil error on insecure file read") } // Nonexistent file err = m.Request(device1, "default", "nonexistent", 0, nil, false, bs) if err == nil { t.Error("Unexpected nil error on insecure file read") } // Shared folder, but disallowed file name err = m.Request(device1, "default", "../walk.go", 0, nil, false, bs) if err == nil { t.Error("Unexpected nil error on insecure file read") } // Negative offset err = m.Request(device1, "default", "foo", -4, nil, false, bs[:0]) if err == nil { t.Error("Unexpected nil error on insecure file read") } // Larger block than available bs = bs[:42] err = m.Request(device1, "default", "foo", 0, nil, false, bs) if err == nil { t.Error("Unexpected nil error on insecure file read") } } func genFiles(n int) []protocol.FileInfo { files := make([]protocol.FileInfo, n) t := time.Now().Unix() for i := 0; i < n; i++ { files[i] = protocol.FileInfo{ Name: fmt.Sprintf("file%d", i), ModifiedS: t, Sequence: int64(i + 1), Blocks: []protocol.BlockInfo{{Offset: 0, Size: 100, Hash: []byte("some hash bytes")}}, } } return files } func BenchmarkIndex_10000(b *testing.B) { benchmarkIndex(b, 10000) } func BenchmarkIndex_100(b *testing.B) { benchmarkIndex(b, 100) } func benchmarkIndex(b *testing.B, nfiles int) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() files := genFiles(nfiles) m.Index(device1, "default", files) b.ResetTimer() for i := 0; i < b.N; i++ { m.Index(device1, "default", files) } b.ReportAllocs() } func BenchmarkIndexUpdate_10000_10000(b *testing.B) { benchmarkIndexUpdate(b, 10000, 10000) } func BenchmarkIndexUpdate_10000_100(b *testing.B) { benchmarkIndexUpdate(b, 10000, 100) } func BenchmarkIndexUpdate_10000_1(b *testing.B) { benchmarkIndexUpdate(b, 10000, 1) } func benchmarkIndexUpdate(b *testing.B, nfiles, nufiles int) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() files := genFiles(nfiles) ufiles := genFiles(nufiles) m.Index(device1, "default", files) b.ResetTimer() for i := 0; i < b.N; i++ { m.IndexUpdate(device1, "default", ufiles) } b.ReportAllocs() } type downloadProgressMessage struct { folder string updates []protocol.FileDownloadProgressUpdate } type fakeConnection struct { id protocol.DeviceID downloadProgressMessages []downloadProgressMessage closed bool files []protocol.FileInfo fileData map[string][]byte folder string model *Model indexFn func(string, []protocol.FileInfo) requestFn func(folder, name string, offset int64, size int, hash []byte, fromTemporary bool) ([]byte, error) mut sync.Mutex } func (f *fakeConnection) Close() error { f.mut.Lock() defer f.mut.Unlock() f.closed = true return nil } func (f *fakeConnection) Start() { } func (f *fakeConnection) ID() protocol.DeviceID { return f.id } func (f *fakeConnection) Name() string { return "" } func (f *fakeConnection) Option(string) string { return "" } func (f *fakeConnection) Index(folder string, fs []protocol.FileInfo) error { f.mut.Lock() defer f.mut.Unlock() if f.indexFn != nil { f.indexFn(folder, fs) } return nil } func (f *fakeConnection) IndexUpdate(folder string, fs []protocol.FileInfo) error { f.mut.Lock() defer f.mut.Unlock() if f.indexFn != nil { f.indexFn(folder, fs) } return nil } func (f *fakeConnection) Request(folder, name string, offset int64, size int, hash []byte, fromTemporary bool) ([]byte, error) { f.mut.Lock() defer f.mut.Unlock() if f.requestFn != nil { return f.requestFn(folder, name, offset, size, hash, fromTemporary) } return f.fileData[name], nil } func (f *fakeConnection) ClusterConfig(protocol.ClusterConfig) {} func (f *fakeConnection) Ping() bool { f.mut.Lock() defer f.mut.Unlock() return f.closed } func (f *fakeConnection) Closed() bool { f.mut.Lock() defer f.mut.Unlock() return f.closed } func (f *fakeConnection) Statistics() protocol.Statistics { return protocol.Statistics{} } func (f *fakeConnection) RemoteAddr() net.Addr { return &fakeAddr{} } func (f *fakeConnection) Type() string { return "fake" } func (f *fakeConnection) DownloadProgress(folder string, updates []protocol.FileDownloadProgressUpdate) { f.downloadProgressMessages = append(f.downloadProgressMessages, downloadProgressMessage{ folder: folder, updates: updates, }) } func (f *fakeConnection) addFile(name string, flags uint32, ftype protocol.FileInfoType, data []byte) { f.mut.Lock() defer f.mut.Unlock() blocks, _ := scanner.Blocks(context.TODO(), bytes.NewReader(data), protocol.BlockSize, int64(len(data)), nil, true) var version protocol.Vector version = version.Update(f.id.Short()) if ftype == protocol.FileInfoTypeFile || ftype == protocol.FileInfoTypeDirectory { f.files = append(f.files, protocol.FileInfo{ Name: name, Type: ftype, Size: int64(len(data)), ModifiedS: time.Now().Unix(), Permissions: flags, Version: version, Sequence: time.Now().UnixNano(), Blocks: blocks, }) } else { // Symlink f.files = append(f.files, protocol.FileInfo{ Name: name, Type: ftype, Version: version, Sequence: time.Now().UnixNano(), SymlinkTarget: string(data), }) } if f.fileData == nil { f.fileData = make(map[string][]byte) } f.fileData[name] = data } func (f *fakeConnection) sendIndexUpdate() { f.model.IndexUpdate(f.id, f.folder, f.files) } func BenchmarkRequestOut(b *testing.B) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.ServeBackground() defer m.Stop() m.ScanFolder("default") const n = 1000 files := genFiles(n) fc := &fakeConnection{id: device1} for _, f := range files { fc.addFile(f.Name, 0644, protocol.FileInfoTypeFile, []byte("some data to return")) } m.AddConnection(fc, protocol.HelloResult{}) m.Index(device1, "default", files) b.ResetTimer() for i := 0; i < b.N; i++ { data, err := m.requestGlobal(device1, "default", files[i%n].Name, 0, 32, nil, false) if err != nil { b.Error(err) } if data == nil { b.Error("nil data") } } } func BenchmarkRequestInSingleFile(b *testing.B) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.ServeBackground() defer m.Stop() m.ScanFolder("default") buf := make([]byte, 128<<10) rand.Read(buf) os.RemoveAll("testdata/request") defer os.RemoveAll("testdata/request") os.MkdirAll("testdata/request/for/a/file/in/a/couple/of/dirs", 0755) ioutil.WriteFile("testdata/request/for/a/file/in/a/couple/of/dirs/128k", buf, 0644) b.ResetTimer() for i := 0; i < b.N; i++ { if err := m.Request(device1, "default", "request/for/a/file/in/a/couple/of/dirs/128k", 0, nil, false, buf); err != nil { b.Error(err) } } b.SetBytes(128 << 10) } func TestDeviceRename(t *testing.T) { hello := protocol.HelloResult{ ClientName: "syncthing", ClientVersion: "v0.9.4", } defer os.Remove("tmpconfig.xml") rawCfg := config.New(device1) rawCfg.Devices = []config.DeviceConfiguration{ { DeviceID: device1, }, } cfg := config.Wrap("tmpconfig.xml", rawCfg) db := db.OpenMemory() m := NewModel(cfg, protocol.LocalDeviceID, "syncthing", "dev", db, nil) if cfg.Devices()[device1].Name != "" { t.Errorf("Device already has a name") } conn := &fakeConnection{id: device1} m.AddConnection(conn, hello) m.ServeBackground() defer m.Stop() if cfg.Devices()[device1].Name != "" { t.Errorf("Device already has a name") } m.Closed(conn, protocol.ErrTimeout) hello.DeviceName = "tester" m.AddConnection(conn, hello) if cfg.Devices()[device1].Name != "tester" { t.Errorf("Device did not get a name") } m.Closed(conn, protocol.ErrTimeout) hello.DeviceName = "tester2" m.AddConnection(conn, hello) if cfg.Devices()[device1].Name != "tester" { t.Errorf("Device name got overwritten") } cfgw, err := config.Load("tmpconfig.xml", protocol.LocalDeviceID) if err != nil { t.Error(err) return } if cfgw.Devices()[device1].Name != "tester" { t.Errorf("Device name not saved in config") } m.Closed(conn, protocol.ErrTimeout) opts := cfg.Options() opts.OverwriteRemoteDevNames = true cfg.SetOptions(opts) hello.DeviceName = "tester2" m.AddConnection(conn, hello) if cfg.Devices()[device1].Name != "tester2" { t.Errorf("Device name not overwritten") } } func TestClusterConfig(t *testing.T) { cfg := config.New(device1) cfg.Devices = []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, { DeviceID: device2, }, } cfg.Folders = []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2}, }, }, } db := db.OpenMemory() m := NewModel(config.Wrap("/tmp/test", cfg), protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(cfg.Folders[0]) m.AddFolder(cfg.Folders[1]) m.ServeBackground() defer m.Stop() cm := m.generateClusterConfig(device2) if l := len(cm.Folders); l != 2 { t.Fatalf("Incorrect number of folders %d != 2", l) } r := cm.Folders[0] if r.ID != "folder1" { t.Errorf("Incorrect folder %q != folder1", r.ID) } if l := len(r.Devices); l != 2 { t.Errorf("Incorrect number of devices %d != 2", l) } if id := r.Devices[0].ID; id != device1 { t.Errorf("Incorrect device ID %s != %s", id, device1) } if !r.Devices[0].Introducer { t.Error("Device1 should be flagged as Introducer") } if id := r.Devices[1].ID; id != device2 { t.Errorf("Incorrect device ID %s != %s", id, device2) } if r.Devices[1].Introducer { t.Error("Device2 should not be flagged as Introducer") } r = cm.Folders[1] if r.ID != "folder2" { t.Errorf("Incorrect folder %q != folder2", r.ID) } if l := len(r.Devices); l != 2 { t.Errorf("Incorrect number of devices %d != 2", l) } if id := r.Devices[0].ID; id != device1 { t.Errorf("Incorrect device ID %s != %s", id, device1) } if !r.Devices[0].Introducer { t.Error("Device1 should be flagged as Introducer") } if id := r.Devices[1].ID; id != device2 { t.Errorf("Incorrect device ID %s != %s", id, device2) } if r.Devices[1].Introducer { t.Error("Device2 should not be flagged as Introducer") } } func TestIntroducer(t *testing.T) { var introducedByAnyone protocol.DeviceID // LocalDeviceID is a magic value meaning don't check introducer contains := func(cfg config.FolderConfiguration, id, introducedBy protocol.DeviceID) bool { for _, dev := range cfg.Devices { if dev.DeviceID.Equals(id) { if introducedBy.Equals(introducedByAnyone) { return true } return introducedBy.Equals(introducedBy) } } return false } newState := func(cfg config.Configuration) (*config.Wrapper, *Model) { db := db.OpenMemory() wcfg := config.Wrap("/tmp/test", cfg) m := NewModel(wcfg, protocol.LocalDeviceID, "syncthing", "dev", db, nil) for _, folder := range cfg.Folders { m.AddFolder(folder) } m.ServeBackground() m.AddConnection(&fakeConnection{id: device1}, protocol.HelloResult{}) return wcfg, m } wcfg, m := newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "folder1", Devices: []protocol.Device{ { ID: device2, Introducer: true, SkipIntroductionRemovals: true, }, }, }, }, }) if newDev, ok := wcfg.Device(device2); !ok || !newDev.Introducer || !newDev.SkipIntroductionRemovals { t.Error("devie 2 missing or wrong flags") } if !contains(wcfg.Folders()["folder1"], device2, device1) { t.Error("expected folder 1 to have device2 introduced by device 1") } wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "folder2", Devices: []protocol.Device{ { ID: device2, Introducer: true, SkipIntroductionRemovals: true, }, }, }, }, }) // Should not get introducer, as it's already unset, and it's an existing device. if newDev, ok := wcfg.Device(device2); !ok || newDev.Introducer || newDev.SkipIntroductionRemovals { t.Error("device 2 missing or changed flags") } if contains(wcfg.Folders()["folder1"], device2, introducedByAnyone) { t.Error("expected device 2 to be removed from folder 1") } if !contains(wcfg.Folders()["folder2"], device2, device1) { t.Error("expected device 2 to be added to folder 2") } wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{}) if _, ok := wcfg.Device(device2); ok { t.Error("device 2 should have been removed") } if contains(wcfg.Folders()["folder1"], device2, introducedByAnyone) { t.Error("expected device 2 to be removed from folder 1") } if contains(wcfg.Folders()["folder2"], device2, introducedByAnyone) { t.Error("expected device 2 to be removed from folder 2") } // Two cases when removals should not happen // 1. Introducer flag no longer set on device wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: false, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{}) if _, ok := wcfg.Device(device2); !ok { t.Error("device 2 should not have been removed") } if !contains(wcfg.Folders()["folder1"], device2, device1) { t.Error("expected device 2 not to be removed from folder 1") } if !contains(wcfg.Folders()["folder2"], device2, device1) { t.Error("expected device 2 not to be removed from folder 2") } // 2. SkipIntroductionRemovals is set wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, SkipIntroductionRemovals: true, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "folder2", Devices: []protocol.Device{ { ID: device2, Introducer: true, SkipIntroductionRemovals: true, }, }, }, }, }) if _, ok := wcfg.Device(device2); !ok { t.Error("device 2 should not have been removed") } if !contains(wcfg.Folders()["folder1"], device2, device1) { t.Error("expected device 2 not to be removed from folder 1") } if !contains(wcfg.Folders()["folder2"], device2, device1) { t.Error("expected device 2 not to be added to folder 2") } // Test device not being removed as it's shared without an introducer. wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{}) if _, ok := wcfg.Device(device2); !ok { t.Error("device 2 should not have been removed") } if contains(wcfg.Folders()["folder1"], device2, introducedByAnyone) { t.Error("expected device 2 to be removed from folder 1") } if !contains(wcfg.Folders()["folder2"], device2, introducedByAnyone) { t.Error("expected device 2 not to be removed from folder 2") } // Test device not being removed as it's shared by a different introducer. wcfg, m = newState(config.Configuration{ Devices: []config.DeviceConfiguration{ { DeviceID: device1, Introducer: true, }, { DeviceID: device2, IntroducedBy: device1, }, }, Folders: []config.FolderConfiguration{ { ID: "folder1", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: device1}, }, }, { ID: "folder2", Devices: []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2, IntroducedBy: protocol.LocalDeviceID}, }, }, }, }) m.ClusterConfig(device1, protocol.ClusterConfig{}) if _, ok := wcfg.Device(device2); !ok { t.Error("device 2 should not have been removed") } if contains(wcfg.Folders()["folder1"], device2, introducedByAnyone) { t.Error("expected device 2 to be removed from folder 1") } if !contains(wcfg.Folders()["folder2"], device2, introducedByAnyone) { t.Error("expected device 2 not to be removed from folder 2") } } func changeIgnores(t *testing.T, m *Model, expected []string) { arrEqual := func(a, b []string) bool { if len(a) != len(b) { return false } for i := range a { if a[i] != b[i] { return false } } return true } ignores, _, err := m.GetIgnores("default") if err != nil { t.Error(err) } if !arrEqual(ignores, expected) { t.Errorf("Incorrect ignores: %v != %v", ignores, expected) } ignores = append(ignores, "pox") err = m.SetIgnores("default", ignores) if err != nil { t.Error(err) } ignores2, _, err := m.GetIgnores("default") if err != nil { t.Error(err) } if !arrEqual(ignores, ignores2) { t.Errorf("Incorrect ignores: %v != %v", ignores2, ignores) } if runtime.GOOS == "darwin" { // see above time.Sleep(time.Second) } else { time.Sleep(time.Millisecond) } err = m.SetIgnores("default", expected) if err != nil { t.Error(err) } ignores, _, err = m.GetIgnores("default") if err != nil { t.Error(err) } if !arrEqual(ignores, expected) { t.Errorf("Incorrect ignores: %v != %v", ignores, expected) } } func TestIgnores(t *testing.T) { // Assure a clean start state ioutil.WriteFile("testdata/.stfolder", nil, 0644) ioutil.WriteFile("testdata/.stignore", []byte(".*\nquux\n"), 0644) db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.ServeBackground() defer m.Stop() // m.cfg.SetFolder is not usable as it is non-blocking, and there is no // way to know when the folder is actually added. m.AddFolder(defaultFolderConfig) m.StartFolder("default") // Reach in and update the ignore matcher to one that always does // reloads when asked to, instead of checking file mtimes. This is // because we will be changing the files on disk often enough that the // mtimes will be unreliable to determine change status. m.fmut.Lock() m.folderIgnores["default"] = ignore.New(ignore.WithCache(true), ignore.WithChangeDetector(newAlwaysChanged())) m.fmut.Unlock() // Make sure the initial scan has finished (ScanFolders is blocking) m.ScanFolders() expected := []string{ ".*", "quux", } changeIgnores(t, m, expected) _, _, err := m.GetIgnores("doesnotexist") if err == nil { t.Error("No error") } err = m.SetIgnores("doesnotexist", expected) if err == nil { t.Error("No error") } // Invalid path, marker should be missing, hence returns an error. m.AddFolder(config.FolderConfiguration{ID: "fresh", RawPath: "XXX"}) _, _, err = m.GetIgnores("fresh") if err == nil { t.Error("No error") } // Repeat tests with paused folder pausedDefaultFolderConfig := defaultFolderConfig pausedDefaultFolderConfig.Paused = true m.RestartFolder(pausedDefaultFolderConfig) // Here folder initialization is not an issue as a paused folder isn't // added to the model and thus there is no initial scan happening. changeIgnores(t, m, expected) } func TestROScanRecovery(t *testing.T) { ldb := db.OpenMemory() set := db.NewFileSet("default", ldb) set.Update(protocol.LocalDeviceID, []protocol.FileInfo{ {Name: "dummyfile"}, }) fcfg := config.FolderConfiguration{ ID: "default", RawPath: "testdata/rotestfolder", Type: config.FolderTypeSendOnly, RescanIntervalS: 1, } cfg := config.Wrap("/tmp/test", config.Configuration{ Folders: []config.FolderConfiguration{fcfg}, Devices: []config.DeviceConfiguration{ { DeviceID: device1, }, }, }) os.RemoveAll(fcfg.RawPath) m := NewModel(cfg, protocol.LocalDeviceID, "syncthing", "dev", ldb, nil) m.AddFolder(fcfg) m.StartFolder("default") m.ServeBackground() defer m.Stop() waitFor := func(status string) error { timeout := time.Now().Add(2 * time.Second) for { _, _, err := m.State("default") if err == nil && status == "" { return nil } if err != nil && err.Error() == status { return nil } if time.Now().After(timeout) { return fmt.Errorf("Timed out waiting for status: %s, current status: %v", status, err) } time.Sleep(10 * time.Millisecond) } } if err := waitFor("folder path missing"); err != nil { t.Error(err) return } os.Mkdir(fcfg.RawPath, 0700) if err := waitFor("folder marker missing"); err != nil { t.Error(err) return } fd, err := os.Create(filepath.Join(fcfg.RawPath, ".stfolder")) if err != nil { t.Error(err) return } fd.Close() if err := waitFor(""); err != nil { t.Error(err) return } os.Remove(filepath.Join(fcfg.RawPath, ".stfolder")) if err := waitFor("folder marker missing"); err != nil { t.Error(err) return } os.Remove(fcfg.RawPath) if err := waitFor("folder path missing"); err != nil { t.Error(err) return } } func TestRWScanRecovery(t *testing.T) { ldb := db.OpenMemory() set := db.NewFileSet("default", ldb) set.Update(protocol.LocalDeviceID, []protocol.FileInfo{ {Name: "dummyfile"}, }) fcfg := config.FolderConfiguration{ ID: "default", RawPath: "testdata/rwtestfolder", Type: config.FolderTypeSendReceive, RescanIntervalS: 1, } cfg := config.Wrap("/tmp/test", config.Configuration{ Folders: []config.FolderConfiguration{fcfg}, Devices: []config.DeviceConfiguration{ { DeviceID: device1, }, }, }) os.RemoveAll(fcfg.RawPath) m := NewModel(cfg, protocol.LocalDeviceID, "syncthing", "dev", ldb, nil) m.AddFolder(fcfg) m.StartFolder("default") m.ServeBackground() defer m.Stop() waitFor := func(status string) error { timeout := time.Now().Add(2 * time.Second) for { _, _, err := m.State("default") if err == nil && status == "" { return nil } if err != nil && err.Error() == status { return nil } if time.Now().After(timeout) { return fmt.Errorf("Timed out waiting for status: %s, current status: %v", status, err) } time.Sleep(10 * time.Millisecond) } } if err := waitFor("folder path missing"); err != nil { t.Error(err) return } os.Mkdir(fcfg.RawPath, 0700) if err := waitFor("folder marker missing"); err != nil { t.Error(err) return } fd, err := os.Create(filepath.Join(fcfg.RawPath, ".stfolder")) if err != nil { t.Error(err) return } fd.Close() if err := waitFor(""); err != nil { t.Error(err) return } os.Remove(filepath.Join(fcfg.RawPath, ".stfolder")) if err := waitFor("folder marker missing"); err != nil { t.Error(err) return } os.Remove(fcfg.RawPath) if err := waitFor("folder path missing"); err != nil { t.Error(err) return } } func TestGlobalDirectoryTree(t *testing.T) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.ServeBackground() defer m.Stop() b := func(isfile bool, path ...string) protocol.FileInfo { typ := protocol.FileInfoTypeDirectory blocks := []protocol.BlockInfo{} if isfile { typ = protocol.FileInfoTypeFile blocks = []protocol.BlockInfo{{Offset: 0x0, Size: 0xa, Hash: []uint8{0x2f, 0x72, 0xcc, 0x11, 0xa6, 0xfc, 0xd0, 0x27, 0x1e, 0xce, 0xf8, 0xc6, 0x10, 0x56, 0xee, 0x1e, 0xb1, 0x24, 0x3b, 0xe3, 0x80, 0x5b, 0xf9, 0xa9, 0xdf, 0x98, 0xf9, 0x2f, 0x76, 0x36, 0xb0, 0x5c}}} } return protocol.FileInfo{ Name: filepath.Join(path...), Type: typ, ModifiedS: 0x666, Blocks: blocks, Size: 0xa, } } filedata := []interface{}{time.Unix(0x666, 0), 0xa} testdata := []protocol.FileInfo{ b(false, "another"), b(false, "another", "directory"), b(true, "another", "directory", "afile"), b(false, "another", "directory", "with"), b(false, "another", "directory", "with", "a"), b(true, "another", "directory", "with", "a", "file"), b(true, "another", "directory", "with", "file"), b(true, "another", "file"), b(false, "other"), b(false, "other", "rand"), b(false, "other", "random"), b(false, "other", "random", "dir"), b(false, "other", "random", "dirx"), b(false, "other", "randomx"), b(false, "some"), b(false, "some", "directory"), b(false, "some", "directory", "with"), b(false, "some", "directory", "with", "a"), b(true, "some", "directory", "with", "a", "file"), b(true, "rootfile"), } expectedResult := map[string]interface{}{ "another": map[string]interface{}{ "directory": map[string]interface{}{ "afile": filedata, "with": map[string]interface{}{ "a": map[string]interface{}{ "file": filedata, }, "file": filedata, }, }, "file": filedata, }, "other": map[string]interface{}{ "rand": map[string]interface{}{}, "random": map[string]interface{}{ "dir": map[string]interface{}{}, "dirx": map[string]interface{}{}, }, "randomx": map[string]interface{}{}, }, "some": map[string]interface{}{ "directory": map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{ "file": filedata, }, }, }, }, "rootfile": filedata, } mm := func(data interface{}) string { bytes, err := json.Marshal(data) if err != nil { panic(err) } return string(bytes) } m.Index(device1, "default", testdata) result := m.GlobalDirectoryTree("default", "", -1, false) if mm(result) != mm(expectedResult) { t.Errorf("Does not match:\n%#v\n%#v", result, expectedResult) } result = m.GlobalDirectoryTree("default", "another", -1, false) if mm(result) != mm(expectedResult["another"]) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(expectedResult["another"])) } result = m.GlobalDirectoryTree("default", "", 0, false) currentResult := map[string]interface{}{ "another": map[string]interface{}{}, "other": map[string]interface{}{}, "some": map[string]interface{}{}, "rootfile": filedata, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "", 1, false) currentResult = map[string]interface{}{ "another": map[string]interface{}{ "directory": map[string]interface{}{}, "file": filedata, }, "other": map[string]interface{}{ "rand": map[string]interface{}{}, "random": map[string]interface{}{}, "randomx": map[string]interface{}{}, }, "some": map[string]interface{}{ "directory": map[string]interface{}{}, }, "rootfile": filedata, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "", -1, true) currentResult = map[string]interface{}{ "another": map[string]interface{}{ "directory": map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{}, }, }, }, "other": map[string]interface{}{ "rand": map[string]interface{}{}, "random": map[string]interface{}{ "dir": map[string]interface{}{}, "dirx": map[string]interface{}{}, }, "randomx": map[string]interface{}{}, }, "some": map[string]interface{}{ "directory": map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{}, }, }, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "", 1, true) currentResult = map[string]interface{}{ "another": map[string]interface{}{ "directory": map[string]interface{}{}, }, "other": map[string]interface{}{ "rand": map[string]interface{}{}, "random": map[string]interface{}{}, "randomx": map[string]interface{}{}, }, "some": map[string]interface{}{ "directory": map[string]interface{}{}, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "another", 0, false) currentResult = map[string]interface{}{ "directory": map[string]interface{}{}, "file": filedata, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "some/directory", 0, false) currentResult = map[string]interface{}{ "with": map[string]interface{}{}, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "some/directory", 1, false) currentResult = map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{}, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "some/directory", 2, false) currentResult = map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{ "file": filedata, }, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "another", -1, true) currentResult = map[string]interface{}{ "directory": map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{}, }, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } // No prefix matching! result = m.GlobalDirectoryTree("default", "som", -1, false) currentResult = map[string]interface{}{} if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } } func TestGlobalDirectorySelfFixing(t *testing.T) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.ServeBackground() b := func(isfile bool, path ...string) protocol.FileInfo { typ := protocol.FileInfoTypeDirectory blocks := []protocol.BlockInfo{} if isfile { typ = protocol.FileInfoTypeFile blocks = []protocol.BlockInfo{{Offset: 0x0, Size: 0xa, Hash: []uint8{0x2f, 0x72, 0xcc, 0x11, 0xa6, 0xfc, 0xd0, 0x27, 0x1e, 0xce, 0xf8, 0xc6, 0x10, 0x56, 0xee, 0x1e, 0xb1, 0x24, 0x3b, 0xe3, 0x80, 0x5b, 0xf9, 0xa9, 0xdf, 0x98, 0xf9, 0x2f, 0x76, 0x36, 0xb0, 0x5c}}} } return protocol.FileInfo{ Name: filepath.Join(path...), Type: typ, ModifiedS: 0x666, Blocks: blocks, Size: 0xa, } } filedata := []interface{}{time.Unix(0x666, 0).Format(time.RFC3339), 0xa} testdata := []protocol.FileInfo{ b(true, "another", "directory", "afile"), b(true, "another", "directory", "with", "a", "file"), b(true, "another", "directory", "with", "file"), b(false, "other", "random", "dirx"), b(false, "other", "randomx"), b(false, "some", "directory", "with", "x"), b(true, "some", "directory", "with", "a", "file"), b(false, "this", "is", "a", "deep", "invalid", "directory"), b(true, "xthis", "is", "a", "deep", "invalid", "file"), } expectedResult := map[string]interface{}{ "another": map[string]interface{}{ "directory": map[string]interface{}{ "afile": filedata, "with": map[string]interface{}{ "a": map[string]interface{}{ "file": filedata, }, "file": filedata, }, }, }, "other": map[string]interface{}{ "random": map[string]interface{}{ "dirx": map[string]interface{}{}, }, "randomx": map[string]interface{}{}, }, "some": map[string]interface{}{ "directory": map[string]interface{}{ "with": map[string]interface{}{ "a": map[string]interface{}{ "file": filedata, }, "x": map[string]interface{}{}, }, }, }, "this": map[string]interface{}{ "is": map[string]interface{}{ "a": map[string]interface{}{ "deep": map[string]interface{}{ "invalid": map[string]interface{}{ "directory": map[string]interface{}{}, }, }, }, }, }, "xthis": map[string]interface{}{ "is": map[string]interface{}{ "a": map[string]interface{}{ "deep": map[string]interface{}{ "invalid": map[string]interface{}{ "file": filedata, }, }, }, }, }, } mm := func(data interface{}) string { bytes, err := json.Marshal(data) if err != nil { panic(err) } return string(bytes) } m.Index(device1, "default", testdata) result := m.GlobalDirectoryTree("default", "", -1, false) if mm(result) != mm(expectedResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(expectedResult)) } result = m.GlobalDirectoryTree("default", "xthis/is/a/deep", -1, false) currentResult := map[string]interface{}{ "invalid": map[string]interface{}{ "file": filedata, }, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } result = m.GlobalDirectoryTree("default", "xthis/is/a/deep", -1, true) currentResult = map[string]interface{}{ "invalid": map[string]interface{}{}, } if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } // !!! This is actually BAD, because we don't have enough level allowance // to accept this file, hence the tree is left unbuilt !!! result = m.GlobalDirectoryTree("default", "xthis", 1, false) currentResult = map[string]interface{}{} if mm(result) != mm(currentResult) { t.Errorf("Does not match:\n%s\n%s", mm(result), mm(currentResult)) } } func genDeepFiles(n, d int) []protocol.FileInfo { rand.Seed(int64(n)) files := make([]protocol.FileInfo, n) t := time.Now().Unix() for i := 0; i < n; i++ { path := "" for i := 0; i <= d; i++ { path = filepath.Join(path, strconv.Itoa(rand.Int())) } sofar := "" for _, path := range filepath.SplitList(path) { sofar = filepath.Join(sofar, path) files[i] = protocol.FileInfo{ Name: sofar, } i++ } files[i].ModifiedS = t files[i].Blocks = []protocol.BlockInfo{{Offset: 0, Size: 100, Hash: []byte("some hash bytes")}} } return files } func BenchmarkTree_10000_50(b *testing.B) { benchmarkTree(b, 10000, 50) } func BenchmarkTree_100_50(b *testing.B) { benchmarkTree(b, 100, 50) } func BenchmarkTree_100_10(b *testing.B) { benchmarkTree(b, 100, 10) } func benchmarkTree(b *testing.B, n1, n2 int) { db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.ServeBackground() m.ScanFolder("default") files := genDeepFiles(n1, n2) m.Index(device1, "default", files) b.ResetTimer() for i := 0; i < b.N; i++ { m.GlobalDirectoryTree("default", "", -1, false) } b.ReportAllocs() } func TestUnifySubs(t *testing.T) { cases := []struct { in []string // input to unifySubs exists []string // paths that exist in the database out []string // expected output }{ { // 0. trailing slashes are cleaned, known paths are just passed on []string{"foo/", "bar//"}, []string{"foo", "bar"}, []string{"bar", "foo"}, // the output is sorted }, { // 1. "foo/bar" gets trimmed as it's covered by foo []string{"foo", "bar/", "foo/bar/"}, []string{"foo", "bar"}, []string{"bar", "foo"}, }, { // 2. "" gets simplified to the empty list; ie scan all []string{"foo", ""}, []string{"foo"}, nil, }, { // 3. "foo/bar" is unknown, but it's kept // because its parent is known []string{"foo/bar"}, []string{"foo"}, []string{"foo/bar"}, }, { // 4. two independent known paths, both are kept // "usr/lib" is not a prefix of "usr/libexec" []string{"usr/lib", "usr/libexec"}, []string{"usr", "usr/lib", "usr/libexec"}, []string{"usr/lib", "usr/libexec"}, }, { // 5. "usr/lib" is a prefix of "usr/lib/exec" []string{"usr/lib", "usr/lib/exec"}, []string{"usr", "usr/lib", "usr/libexec"}, []string{"usr/lib"}, }, { // 6. .stignore and .stfolder are special and are passed on // verbatim even though they are unknown []string{".stfolder", ".stignore"}, []string{}, []string{".stfolder", ".stignore"}, }, { // 7. but the presence of something else unknown forces an actual // scan []string{".stfolder", ".stignore", "foo/bar"}, []string{}, []string{".stfolder", ".stignore", "foo"}, }, { // 8. explicit request to scan all nil, []string{"foo"}, nil, }, { // 9. empty list of subs []string{}, []string{"foo"}, nil, }, } if runtime.GOOS == "windows" { // Fixup path separators for i := range cases { for j, p := range cases[i].in { cases[i].in[j] = filepath.FromSlash(p) } for j, p := range cases[i].exists { cases[i].exists[j] = filepath.FromSlash(p) } for j, p := range cases[i].out { cases[i].out[j] = filepath.FromSlash(p) } } } for i, tc := range cases { exists := func(f string) bool { for _, e := range tc.exists { if f == e { return true } } return false } out := unifySubs(tc.in, exists) if diff, equal := messagediff.PrettyDiff(tc.out, out); !equal { t.Errorf("Case %d failed; got %v, expected %v, diff:\n%s", i, out, tc.out, diff) } } } func TestIssue3028(t *testing.T) { // Create two files that we'll delete, one with a name that is a prefix of the other. if err := ioutil.WriteFile("testdata/testrm", []byte("Hello"), 0644); err != nil { t.Fatal(err) } defer os.Remove("testdata/testrm") if err := ioutil.WriteFile("testdata/testrm2", []byte("Hello"), 0644); err != nil { t.Fatal(err) } defer os.Remove("testdata/testrm2") // Create a model and default folder db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) defCfg := defaultFolderConfig.Copy() defCfg.RescanIntervalS = 86400 m.AddFolder(defCfg) m.StartFolder("default") m.ServeBackground() // Make sure the initial scan has finished (ScanFolders is blocking) m.ScanFolders() // Get a count of how many files are there now locorigfiles := m.LocalSize("default").Files globorigfiles := m.GlobalSize("default").Files // Delete and rescan specifically these two os.Remove("testdata/testrm") os.Remove("testdata/testrm2") m.ScanFolderSubdirs("default", []string{"testrm", "testrm2"}) // Verify that the number of files decreased by two and the number of // deleted files increases by two loc := m.LocalSize("default") glob := m.GlobalSize("default") if loc.Files != locorigfiles-2 { t.Errorf("Incorrect local accounting; got %d current files, expected %d", loc.Files, locorigfiles-2) } if glob.Files != globorigfiles-2 { t.Errorf("Incorrect global accounting; got %d current files, expected %d", glob.Files, globorigfiles-2) } if loc.Deleted != 2 { t.Errorf("Incorrect local accounting; got %d deleted files, expected 2", loc.Deleted) } if glob.Deleted != 2 { t.Errorf("Incorrect global accounting; got %d deleted files, expected 2", glob.Deleted) } } func TestIssue3164(t *testing.T) { os.RemoveAll("testdata/issue3164") defer os.RemoveAll("testdata/issue3164") if err := os.MkdirAll("testdata/issue3164/oktodelete/foobar", 0777); err != nil { t.Fatal(err) } if err := ioutil.WriteFile("testdata/issue3164/oktodelete/foobar/file", []byte("Hello"), 0644); err != nil { t.Fatal(err) } if err := ioutil.WriteFile("testdata/issue3164/oktodelete/file", []byte("Hello"), 0644); err != nil { t.Fatal(err) } f := protocol.FileInfo{ Name: "issue3164", } m := ignore.New() if err := m.Parse(bytes.NewBufferString("(?d)oktodelete"), ""); err != nil { t.Fatal(err) } fl := sendReceiveFolder{ dbUpdates: make(chan dbUpdateJob, 1), dir: "testdata", } fl.deleteDir(f, m) if _, err := os.Stat("testdata/issue3164"); !os.IsNotExist(err) { t.Fatal(err) } } func TestScanNoDatabaseWrite(t *testing.T) { // When scanning, nothing should be committed to database unless // something actually changed. db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() // Start with no ignores, and restore the previous state when the test completes curIgn, _, err := m.GetIgnores("default") if err != nil { t.Fatal(err) } defer m.SetIgnores("default", curIgn) m.SetIgnores("default", nil) fakeTime := time.Now().Add(5 * time.Second) os.Chtimes("testdata/.stignore", fakeTime, fakeTime) // Scan the folder twice. The second scan should be a no-op database wise m.ScanFolder("default") c0 := db.Committed() m.ScanFolder("default") c1 := db.Committed() if c1 != c0 { t.Errorf("scan should not commit data when nothing changed but %d != %d", c1, c0) } // Ignore a file we know exists. It'll be updated in the database. m.SetIgnores("default", []string{"foo"}) fakeTime = time.Now().Add(10 * time.Second) os.Chtimes("testdata/.stignore", fakeTime, fakeTime) m.ScanFolder("default") c2 := db.Committed() if c2 <= c1 { t.Errorf("scan should commit data when something got ignored but %d <= %d", c2, c1) } // Scan again. Nothing should happen. m.ScanFolder("default") c3 := db.Committed() if c3 != c2 { t.Errorf("scan should not commit data when nothing changed (with ignores) but %d != %d", c3, c2) } } func TestIssue2782(t *testing.T) { // CheckFolderHealth should accept a symlinked folder, when using tilde-expanded path. if runtime.GOOS == "windows" { t.Skip("not reliable on Windows") return } home := os.Getenv("HOME") if home == "" { t.Skip("no home") } // Create the test env. Needs to be based on $HOME as tilde expansion is // part of the issue. Skip the test if any of this fails, as we are a // bit outside of our stated domain here... testName := ".syncthing-test." + srand.String(16) testDir := filepath.Join(home, testName) if err := os.RemoveAll(testDir); err != nil { t.Skip(err) } if err := osutil.MkdirAll(testDir+"/syncdir", 0755); err != nil { t.Skip(err) } if err := ioutil.WriteFile(testDir+"/syncdir/file", []byte("hello, world\n"), 0644); err != nil { t.Skip(err) } if err := os.Symlink("syncdir", testDir+"/synclink"); err != nil { t.Skip(err) } defer os.RemoveAll(testDir) db := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", db, nil) m.AddFolder(config.NewFolderConfiguration("default", "~/"+testName+"/synclink/")) m.StartFolder("default") m.ServeBackground() defer m.Stop() if err := m.ScanFolder("default"); err != nil { t.Error("scan error:", err) } if err := m.CheckFolderHealth("default"); err != nil { t.Error("health check error:", err) } } func TestIndexesForUnknownDevicesDropped(t *testing.T) { dbi := db.OpenMemory() files := db.NewFileSet("default", dbi) files.Replace(device1, genFiles(1)) files.Replace(device2, genFiles(1)) if len(files.ListDevices()) != 2 { t.Error("expected two devices") } m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") // Remote sequence is cached, hence need to recreated. files = db.NewFileSet("default", dbi) if len(files.ListDevices()) != 1 { t.Error("Expected one device") } } func TestSharedWithClearedOnDisconnect(t *testing.T) { dbi := db.OpenMemory() fcfg := config.NewFolderConfiguration("default", "testdata") fcfg.Devices = []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2}, } cfg := config.Configuration{ Folders: []config.FolderConfiguration{fcfg}, Devices: []config.DeviceConfiguration{ config.NewDeviceConfiguration(device1, "device1"), config.NewDeviceConfiguration(device2, "device2"), }, Options: config.OptionsConfiguration{ // Don't remove temporaries directly on startup KeepTemporariesH: 1, }, } wcfg := config.Wrap("/tmp/test", cfg) m := NewModel(wcfg, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(fcfg) m.StartFolder(fcfg.ID) m.ServeBackground() conn1 := &fakeConnection{id: device1} m.AddConnection(conn1, protocol.HelloResult{}) conn2 := &fakeConnection{id: device2} m.AddConnection(conn2, protocol.HelloResult{}) m.ClusterConfig(device1, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "default", Devices: []protocol.Device{ {ID: device1}, {ID: device2}, }, }, }, }) m.ClusterConfig(device2, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "default", Devices: []protocol.Device{ {ID: device1}, {ID: device2}, }, }, }, }) if !m.folderSharedWith("default", device1) { t.Error("not shared with device1") } if !m.folderSharedWith("default", device2) { t.Error("not shared with device2") } if conn2.Closed() { t.Error("conn already closed") } cfg = cfg.Copy() cfg.Devices = cfg.Devices[:1] if err := wcfg.Replace(cfg); err != nil { t.Error(err) } time.Sleep(100 * time.Millisecond) // Committer notification happens in a separate routine if !m.folderSharedWith("default", device1) { t.Error("not shared with device1") } if m.folderSharedWith("default", device2) { // checks m.deviceFolders t.Error("shared with device2") } if !conn2.Closed() { t.Error("connection not closed") } if _, ok := wcfg.Devices()[device2]; ok { t.Error("device still in config") } fdevs, ok := m.folderDevices["default"] if !ok { t.Error("folder missing?") } for id := range fdevs { if id == device2 { t.Error("still there") } } if _, ok := m.conn[device2]; !ok { t.Error("conn missing early") } if _, ok := m.helloMessages[device2]; !ok { t.Error("hello missing early") } if _, ok := m.deviceDownloads[device2]; !ok { t.Error("downloads missing early") } m.Closed(conn2, fmt.Errorf("foo")) if _, ok := m.conn[device2]; ok { t.Error("conn not missing") } if _, ok := m.helloMessages[device2]; ok { t.Error("hello not missing") } if _, ok := m.deviceDownloads[device2]; ok { t.Error("downloads not missing") } } func TestIssue3496(t *testing.T) { t.Skip("This test deletes files that the other test depend on. Needs fixing.") // It seems like lots of deleted files can cause negative completion // percentages. Lets make sure that doesn't happen. Also do some general // checks on the completion calculation stuff. dbi := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() m.ScanFolder("default") addFakeConn(m, device1) addFakeConn(m, device2) // Reach into the model and grab the current file list... m.fmut.RLock() fs := m.folderFiles["default"] m.fmut.RUnlock() var localFiles []protocol.FileInfo fs.WithHave(protocol.LocalDeviceID, func(i db.FileIntf) bool { localFiles = append(localFiles, i.(protocol.FileInfo)) return true }) // Mark all files as deleted and fake it as update from device1 for i := range localFiles { localFiles[i].Deleted = true localFiles[i].Version = localFiles[i].Version.Update(device1.Short()) localFiles[i].Blocks = nil } // Also add a small file that we're supposed to need, or the global size // stuff will bail out early due to the entire folder being zero size. localFiles = append(localFiles, protocol.FileInfo{ Name: "fake", Size: 1234, Type: protocol.FileInfoTypeFile, Version: protocol.Vector{Counters: []protocol.Counter{{ID: device1.Short(), Value: 42}}}, }) m.IndexUpdate(device1, "default", localFiles) // Check that the completion percentage for us makes sense comp := m.Completion(protocol.LocalDeviceID, "default") if comp.NeedBytes > comp.GlobalBytes { t.Errorf("Need more bytes than exist, not possible: %d > %d", comp.NeedBytes, comp.GlobalBytes) } if comp.CompletionPct < 0 { t.Errorf("Less than zero percent complete, not possible: %.02f%%", comp.CompletionPct) } if comp.NeedBytes == 0 { t.Error("Need no bytes even though some files are deleted") } if comp.CompletionPct == 100 { t.Errorf("Fully complete, not possible: %.02f%%", comp.CompletionPct) } t.Log(comp) // Check that NeedSize does the correct thing need := m.NeedSize("default") if need.Files != 1 || need.Bytes != 1234 { // The one we added synthetically above t.Errorf("Incorrect need size; %d, %d != 1, 1234", need.Files, need.Bytes) } if need.Deleted != len(localFiles)-1 { // The rest t.Errorf("Incorrect need deletes; %d != %d", need.Deleted, len(localFiles)-1) } } func TestIssue3804(t *testing.T) { dbi := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() // Subdirs ending in slash should be accepted if err := m.ScanFolderSubdirs("default", []string{"baz/", "foo"}); err != nil { t.Error("Unexpected error:", err) } } func TestIssue3829(t *testing.T) { dbi := db.OpenMemory() m := NewModel(defaultConfig, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(defaultFolderConfig) m.StartFolder("default") m.ServeBackground() defer m.Stop() // Empty subdirs should be accepted if err := m.ScanFolderSubdirs("default", []string{""}); err != nil { t.Error("Unexpected error:", err) } } func TestNoRequestsFromPausedDevices(t *testing.T) { t.Skip("broken, fails randomly, #3843") dbi := db.OpenMemory() fcfg := config.NewFolderConfiguration("default", "testdata") fcfg.Devices = []config.FolderDeviceConfiguration{ {DeviceID: device1}, {DeviceID: device2}, } cfg := config.Configuration{ Folders: []config.FolderConfiguration{fcfg}, Devices: []config.DeviceConfiguration{ config.NewDeviceConfiguration(device1, "device1"), config.NewDeviceConfiguration(device2, "device2"), }, Options: config.OptionsConfiguration{ // Don't remove temporaries directly on startup KeepTemporariesH: 1, }, } wcfg := config.Wrap("/tmp/test", cfg) m := NewModel(wcfg, protocol.LocalDeviceID, "syncthing", "dev", dbi, nil) m.AddFolder(fcfg) m.StartFolder(fcfg.ID) m.ServeBackground() file := testDataExpected["foo"] files := m.folderFiles["default"] files.Update(device1, []protocol.FileInfo{file}) files.Update(device2, []protocol.FileInfo{file}) avail := m.Availability("default", file.Name, file.Version, file.Blocks[0]) if len(avail) != 0 { t.Errorf("should not be available, no connections") } addFakeConn(m, device1) addFakeConn(m, device2) // !!! This is not what I'd expect to happen, as we don't even know if the peer has the original index !!! avail = m.Availability("default", file.Name, file.Version, file.Blocks[0]) if len(avail) != 2 { t.Errorf("should have two available") } cc := protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "default", Devices: []protocol.Device{ {ID: device1}, {ID: device2}, }, }, }, } m.ClusterConfig(device1, cc) m.ClusterConfig(device2, cc) avail = m.Availability("default", file.Name, file.Version, file.Blocks[0]) if len(avail) != 2 { t.Errorf("should have two available") } m.Closed(&fakeConnection{id: device1}, errDeviceUnknown) m.Closed(&fakeConnection{id: device2}, errDeviceUnknown) avail = m.Availability("default", file.Name, file.Version, file.Blocks[0]) if len(avail) != 0 { t.Errorf("should have no available") } // Test that remote paused folders are not used. addFakeConn(m, device1) addFakeConn(m, device2) m.ClusterConfig(device1, cc) ccp := cc ccp.Folders[0].Paused = true m.ClusterConfig(device1, ccp) avail = m.Availability("default", file.Name, file.Version, file.Blocks[0]) if len(avail) != 1 { t.Errorf("should have one available") } } func TestRootedJoinedPath(t *testing.T) { type testcase struct { root string rel string joined string ok bool } cases := []testcase{ // Valid cases {"foo", "bar", "foo/bar", true}, {"foo", "/bar", "foo/bar", true}, {"foo/", "bar", "foo/bar", true}, {"foo/", "/bar", "foo/bar", true}, {"baz/foo", "bar", "baz/foo/bar", true}, {"baz/foo", "/bar", "baz/foo/bar", true}, {"baz/foo/", "bar", "baz/foo/bar", true}, {"baz/foo/", "/bar", "baz/foo/bar", true}, {"foo", "bar/baz", "foo/bar/baz", true}, {"foo", "/bar/baz", "foo/bar/baz", true}, {"foo/", "bar/baz", "foo/bar/baz", true}, {"foo/", "/bar/baz", "foo/bar/baz", true}, {"baz/foo", "bar/baz", "baz/foo/bar/baz", true}, {"baz/foo", "/bar/baz", "baz/foo/bar/baz", true}, {"baz/foo/", "bar/baz", "baz/foo/bar/baz", true}, {"baz/foo/", "/bar/baz", "baz/foo/bar/baz", true}, // Not escape attempts, but oddly formatted relative paths. Disallowed. {"foo", "./bar", "", false}, {"baz/foo", "./bar", "", false}, {"foo", "./bar/baz", "", false}, {"baz/foo", "./bar/baz", "", false}, {"baz/foo", "bar/../baz", "", false}, {"baz/foo", "/bar/../baz", "", false}, {"baz/foo", "./bar/../baz", "", false}, {"baz/foo", "bar/../baz", "", false}, {"baz/foo", "/bar/../baz", "", false}, {"baz/foo", "./bar/../baz", "", false}, // Results in an allowed path, but does it by probing. Disallowed. {"foo", "../foo", "", false}, {"foo", "../foo/bar", "", false}, {"baz/foo", "../foo/bar", "", false}, {"baz/foo", "../../baz/foo/bar", "", false}, {"baz/foo", "bar/../../foo/bar", "", false}, {"baz/foo", "bar/../../../baz/foo/bar", "", false}, // Escape attempts. {"foo", "", "", false}, {"foo", "/", "", false}, {"foo", "..", "", false}, {"foo", "/..", "", false}, {"foo", "../", "", false}, {"foo", "../bar", "", false}, {"foo", "../foobar", "", false}, {"foo/", "../bar", "", false}, {"foo/", "../foobar", "", false}, {"baz/foo", "../bar", "", false}, {"baz/foo", "../foobar", "", false}, {"baz/foo/", "../bar", "", false}, {"baz/foo/", "../foobar", "", false}, {"baz/foo/", "bar/../../quux/baz", "", false}, // Empty root is a misconfiguration. {"", "/foo", "", false}, {"", "foo", "", false}, {"", ".", "", false}, {"", "..", "", false}, {"", "/", "", false}, {"", "", "", false}, // Root=/ is valid, and things should be verified as usual. {"/", "foo", "/foo", true}, {"/", "/foo", "/foo", true}, {"/", "../foo", "", false}, {"/", ".", "", false}, {"/", "..", "", false}, {"/", "/", "", false}, {"/", "", "", false}, } if runtime.GOOS == "windows" { extraCases := []testcase{ {`c:\`, `foo`, `c:\foo`, true}, {`\\?\c:\`, `foo`, `\\?\c:\foo`, true}, {`c:\`, `\foo`, `c:\foo`, true}, {`\\?\c:\`, `\foo`, `\\?\c:\foo`, true}, {`c:\`, `\\foo`, ``, false}, {`c:\`, ``, ``, false}, {`c:\`, `.`, ``, false}, {`c:\`, `\`, ``, false}, {`\\?\c:\`, `\\foo`, ``, false}, {`\\?\c:\`, ``, ``, false}, {`\\?\c:\`, `.`, ``, false}, {`\\?\c:\`, `\`, ``, false}, // makes no sense, but will be treated simply as a bad filename {`c:\foo`, `d:\bar`, `c:\foo\d:\bar`, true}, } for _, tc := range cases { // Add case where root is backslashed, rel is forward slashed extraCases = append(extraCases, testcase{ root: filepath.FromSlash(tc.root), rel: tc.rel, joined: tc.joined, ok: tc.ok, }) // and the opposite extraCases = append(extraCases, testcase{ root: tc.root, rel: filepath.FromSlash(tc.rel), joined: tc.joined, ok: tc.ok, }) // and both backslashed extraCases = append(extraCases, testcase{ root: filepath.FromSlash(tc.root), rel: filepath.FromSlash(tc.rel), joined: tc.joined, ok: tc.ok, }) } cases = append(cases, extraCases...) } for _, tc := range cases { res, err := rootedJoinedPath(tc.root, tc.rel) if tc.ok { if err != nil { t.Errorf("Unexpected error for rootedJoinedPath(%q, %q): %v", tc.root, tc.rel, err) continue } exp := filepath.FromSlash(tc.joined) if res != exp { t.Errorf("Unexpected result for rootedJoinedPath(%q, %q): %q != expected %q", tc.root, tc.rel, res, exp) } } else if err == nil { t.Errorf("Unexpected pass for rootedJoinedPath(%q, %q) => %q", tc.root, tc.rel, res) continue } } } func addFakeConn(m *Model, dev protocol.DeviceID) *fakeConnection { fc := &fakeConnection{id: dev, model: m} m.AddConnection(fc, protocol.HelloResult{}) m.ClusterConfig(dev, protocol.ClusterConfig{ Folders: []protocol.Folder{ { ID: "default", Devices: []protocol.Device{ {ID: device1}, {ID: device2}, }, }, }, }) return fc } type fakeAddr struct{} func (fakeAddr) Network() string { return "network" } func (fakeAddr) String() string { return "address" } // alwaysChanges is an ignore.ChangeDetector that always returns true on Changed() type alwaysChanged struct { seen map[string]struct{} } func newAlwaysChanged() *alwaysChanged { return &alwaysChanged{ seen: make(map[string]struct{}), } } func (c *alwaysChanged) Remember(name string, _ time.Time) { c.seen[name] = struct{}{} } func (c *alwaysChanged) Reset() { c.seen = make(map[string]struct{}) } func (c *alwaysChanged) Seen(name string) bool { _, ok := c.seen[name] return ok } func (c *alwaysChanged) Changed() bool { return true }