ref: b3e4f911f42243bc77b5659e6f9184b349eb5b29
dir: /deploy/deploy_test.go/
// Copyright 2019 The Hugo Authors. All rights reserved. // // 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 deploy import ( "bytes" "compress/gzip" "context" "crypto/md5" "fmt" "io" "io/ioutil" "os" "path" "path/filepath" "regexp" "sort" "testing" "github.com/google/go-cmp/cmp" "github.com/google/go-cmp/cmp/cmpopts" "github.com/spf13/afero" "gocloud.dev/blob" "gocloud.dev/blob/fileblob" "gocloud.dev/blob/memblob" ) func TestFindDiffs(t *testing.T) { hash1 := []byte("hash 1") hash2 := []byte("hash 2") makeLocal := func(path string, size int64, hash []byte) *localFile { return &localFile{NativePath: path, SlashPath: filepath.ToSlash(path), UploadSize: size, md5: hash} } makeRemote := func(path string, size int64, hash []byte) *blob.ListObject { return &blob.ListObject{Key: path, Size: size, MD5: hash} } tests := []struct { Description string Local []*localFile Remote []*blob.ListObject Force bool WantUpdates []*fileToUpload WantDeletes []string }{ { Description: "empty -> no diffs", }, { Description: "local == remote -> no diffs", Local: []*localFile{ makeLocal("aaa", 1, hash1), makeLocal("bbb", 2, hash1), makeLocal("ccc", 3, hash2), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, hash1), makeRemote("bbb", 2, hash1), makeRemote("ccc", 3, hash2), }, }, { Description: "local w/ separators == remote -> no diffs", Local: []*localFile{ makeLocal(filepath.Join("aaa", "aaa"), 1, hash1), makeLocal(filepath.Join("bbb", "bbb"), 2, hash1), makeLocal(filepath.Join("ccc", "ccc"), 3, hash2), }, Remote: []*blob.ListObject{ makeRemote("aaa/aaa", 1, hash1), makeRemote("bbb/bbb", 2, hash1), makeRemote("ccc/ccc", 3, hash2), }, }, { Description: "local == remote with force flag true -> diffs", Local: []*localFile{ makeLocal("aaa", 1, hash1), makeLocal("bbb", 2, hash1), makeLocal("ccc", 3, hash2), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, hash1), makeRemote("bbb", 2, hash1), makeRemote("ccc", 3, hash2), }, Force: true, WantUpdates: []*fileToUpload{ {makeLocal("aaa", 1, nil), reasonForce}, {makeLocal("bbb", 2, nil), reasonForce}, {makeLocal("ccc", 3, nil), reasonForce}, }, }, { Description: "local == remote with route.Force true -> diffs", Local: []*localFile{ {NativePath: "aaa", SlashPath: "aaa", UploadSize: 1, matcher: &matcher{Force: true}, md5: hash1}, makeLocal("bbb", 2, hash1), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, hash1), makeRemote("bbb", 2, hash1), }, WantUpdates: []*fileToUpload{ {makeLocal("aaa", 1, nil), reasonForce}, }, }, { Description: "extra local file -> upload", Local: []*localFile{ makeLocal("aaa", 1, hash1), makeLocal("bbb", 2, hash2), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, hash1), }, WantUpdates: []*fileToUpload{ {makeLocal("bbb", 2, nil), reasonNotFound}, }, }, { Description: "extra remote file -> delete", Local: []*localFile{ makeLocal("aaa", 1, hash1), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, hash1), makeRemote("bbb", 2, hash2), }, WantDeletes: []string{"bbb"}, }, { Description: "diffs in size or md5 -> upload", Local: []*localFile{ makeLocal("aaa", 1, hash1), makeLocal("bbb", 2, hash1), makeLocal("ccc", 1, hash2), }, Remote: []*blob.ListObject{ makeRemote("aaa", 1, nil), makeRemote("bbb", 1, hash1), makeRemote("ccc", 1, hash1), }, WantUpdates: []*fileToUpload{ {makeLocal("aaa", 1, nil), reasonMD5Missing}, {makeLocal("bbb", 2, nil), reasonSize}, {makeLocal("ccc", 1, nil), reasonMD5Differs}, }, }, { Description: "mix of updates and deletes", Local: []*localFile{ makeLocal("same", 1, hash1), makeLocal("updated", 2, hash1), makeLocal("updated2", 1, hash2), makeLocal("new", 1, hash1), makeLocal("new2", 2, hash2), }, Remote: []*blob.ListObject{ makeRemote("same", 1, hash1), makeRemote("updated", 1, hash1), makeRemote("updated2", 1, hash1), makeRemote("stale", 1, hash1), makeRemote("stale2", 1, hash1), }, WantUpdates: []*fileToUpload{ {makeLocal("new", 1, nil), reasonNotFound}, {makeLocal("new2", 2, nil), reasonNotFound}, {makeLocal("updated", 2, nil), reasonSize}, {makeLocal("updated2", 1, nil), reasonMD5Differs}, }, WantDeletes: []string{"stale", "stale2"}, }, } for _, tc := range tests { t.Run(tc.Description, func(t *testing.T) { local := map[string]*localFile{} for _, l := range tc.Local { local[l.SlashPath] = l } remote := map[string]*blob.ListObject{} for _, r := range tc.Remote { remote[r.Key] = r } gotUpdates, gotDeletes := findDiffs(local, remote, tc.Force) gotUpdates = applyOrdering(nil, gotUpdates)[0] sort.Slice(gotDeletes, func(i, j int) bool { return gotDeletes[i] < gotDeletes[j] }) if diff := cmp.Diff(gotUpdates, tc.WantUpdates, cmpopts.IgnoreUnexported(localFile{})); diff != "" { t.Errorf("updates differ:\n%s", diff) } if diff := cmp.Diff(gotDeletes, tc.WantDeletes); diff != "" { t.Errorf("deletes differ:\n%s", diff) } }) } } func TestWalkLocal(t *testing.T) { tests := map[string]struct { Given []string Expect []string }{ "Empty": { Given: []string{}, Expect: []string{}, }, "Normal": { Given: []string{"file.txt", "normal_dir/file.txt"}, Expect: []string{"file.txt", "normal_dir/file.txt"}, }, "Hidden": { Given: []string{"file.txt", ".hidden_dir/file.txt", "normal_dir/file.txt"}, Expect: []string{"file.txt", "normal_dir/file.txt"}, }, "Well Known": { Given: []string{"file.txt", ".hidden_dir/file.txt", ".well-known/file.txt"}, Expect: []string{"file.txt", ".well-known/file.txt"}, }, } for desc, tc := range tests { t.Run(desc, func(t *testing.T) { fs := afero.NewMemMapFs() for _, name := range tc.Given { dir, _ := path.Split(name) if dir != "" { if err := fs.MkdirAll(dir, 0755); err != nil { t.Fatal(err) } } if fd, err := fs.Create(name); err != nil { t.Fatal(err) } else { fd.Close() } } if got, err := walkLocal(fs, nil, nil, nil); err != nil { t.Fatal(err) } else { expect := map[string]interface{}{} for _, path := range tc.Expect { if _, ok := got[path]; !ok { t.Errorf("expected %q in results, but was not found", path) } expect[path] = nil } for path := range got { if _, ok := expect[path]; !ok { t.Errorf("got %q in results unexpectedly", path) } } } }) } } func TestLocalFile(t *testing.T) { const ( content = "hello world!" ) contentBytes := []byte(content) contentLen := int64(len(contentBytes)) contentMD5 := md5.Sum(contentBytes) var buf bytes.Buffer gz := gzip.NewWriter(&buf) if _, err := gz.Write(contentBytes); err != nil { t.Fatal(err) } gz.Close() gzBytes := buf.Bytes() gzLen := int64(len(gzBytes)) gzMD5 := md5.Sum(gzBytes) tests := []struct { Description string Path string Matcher *matcher WantContent []byte WantSize int64 WantMD5 []byte WantContentType string // empty string is always OK, since content type detection is OS-specific WantCacheControl string WantContentEncoding string }{ { Description: "file with no suffix", Path: "foo", WantContent: contentBytes, WantSize: contentLen, WantMD5: contentMD5[:], }, { Description: "file with .txt suffix", Path: "foo.txt", WantContent: contentBytes, WantSize: contentLen, WantMD5: contentMD5[:], }, { Description: "CacheControl from matcher", Path: "foo.txt", Matcher: &matcher{CacheControl: "max-age=630720000"}, WantContent: contentBytes, WantSize: contentLen, WantMD5: contentMD5[:], WantCacheControl: "max-age=630720000", }, { Description: "ContentEncoding from matcher", Path: "foo.txt", Matcher: &matcher{ContentEncoding: "foobar"}, WantContent: contentBytes, WantSize: contentLen, WantMD5: contentMD5[:], WantContentEncoding: "foobar", }, { Description: "ContentType from matcher", Path: "foo.txt", Matcher: &matcher{ContentType: "foo/bar"}, WantContent: contentBytes, WantSize: contentLen, WantMD5: contentMD5[:], WantContentType: "foo/bar", }, { Description: "gzipped content", Path: "foo.txt", Matcher: &matcher{Gzip: true}, WantContent: gzBytes, WantSize: gzLen, WantMD5: gzMD5[:], WantContentEncoding: "gzip", }, } for _, tc := range tests { t.Run(tc.Description, func(t *testing.T) { fs := new(afero.MemMapFs) if err := afero.WriteFile(fs, tc.Path, []byte(content), os.ModePerm); err != nil { t.Fatal(err) } lf, err := newLocalFile(fs, tc.Path, filepath.ToSlash(tc.Path), tc.Matcher) if err != nil { t.Fatal(err) } if got := lf.UploadSize; got != tc.WantSize { t.Errorf("got size %d want %d", got, tc.WantSize) } if got := lf.MD5(); !bytes.Equal(got, tc.WantMD5) { t.Errorf("got MD5 %x want %x", got, tc.WantMD5) } if got := lf.CacheControl(); got != tc.WantCacheControl { t.Errorf("got CacheControl %q want %q", got, tc.WantCacheControl) } if got := lf.ContentEncoding(); got != tc.WantContentEncoding { t.Errorf("got ContentEncoding %q want %q", got, tc.WantContentEncoding) } if tc.WantContentType != "" { if got := lf.ContentType(); got != tc.WantContentType { t.Errorf("got ContentType %q want %q", got, tc.WantContentType) } } // Verify the reader last to ensure the previous operations don't // interfere with it. r, err := lf.Reader() if err != nil { t.Fatal(err) } gotContent, err := ioutil.ReadAll(r) if err != nil { t.Fatal(err) } if !bytes.Equal(gotContent, tc.WantContent) { t.Errorf("got content %q want %q", string(gotContent), string(tc.WantContent)) } r.Close() // Verify we can read again. r, err = lf.Reader() if err != nil { t.Fatal(err) } gotContent, err = ioutil.ReadAll(r) if err != nil { t.Fatal(err) } r.Close() if !bytes.Equal(gotContent, tc.WantContent) { t.Errorf("got content %q want %q", string(gotContent), string(tc.WantContent)) } }) } } func TestOrdering(t *testing.T) { tests := []struct { Description string Uploads []string Ordering []*regexp.Regexp Want [][]string }{ { Description: "empty", Want: [][]string{nil}, }, { Description: "no ordering", Uploads: []string{"c", "b", "a", "d"}, Want: [][]string{{"a", "b", "c", "d"}}, }, { Description: "one ordering", Uploads: []string{"db", "c", "b", "a", "da"}, Ordering: []*regexp.Regexp{regexp.MustCompile("^d")}, Want: [][]string{{"da", "db"}, {"a", "b", "c"}}, }, { Description: "two orderings", Uploads: []string{"db", "c", "b", "a", "da"}, Ordering: []*regexp.Regexp{ regexp.MustCompile("^d"), regexp.MustCompile("^b"), }, Want: [][]string{{"da", "db"}, {"b"}, {"a", "c"}}, }, } for _, tc := range tests { t.Run(tc.Description, func(t *testing.T) { uploads := make([]*fileToUpload, len(tc.Uploads)) for i, u := range tc.Uploads { uploads[i] = &fileToUpload{Local: &localFile{SlashPath: u}} } gotUploads := applyOrdering(tc.Ordering, uploads) var got [][]string for _, subslice := range gotUploads { var gotsubslice []string for _, u := range subslice { gotsubslice = append(gotsubslice, u.Local.SlashPath) } got = append(got, gotsubslice) } if diff := cmp.Diff(got, tc.Want); diff != "" { t.Error(diff) } }) } } type fileData struct { Name string // name of the file Contents string // contents of the file } // initLocalFs initializes fs with some test files. func initLocalFs(ctx context.Context, fs afero.Fs) ([]*fileData, error) { // The initial local filesystem. local := []*fileData{ {"aaa", "aaa"}, {"bbb", "bbb"}, {"subdir/aaa", "subdir-aaa"}, {"subdir/nested/aaa", "subdir-nested-aaa"}, {"subdir2/bbb", "subdir2-bbb"}, } if err := writeFiles(fs, local); err != nil { return nil, err } return local, nil } // fsTest represents an (afero.FS, Go CDK blob.Bucket) against which end-to-end // tests can be run. type fsTest struct { name string fs afero.Fs bucket *blob.Bucket } // initFsTests initializes a pair of tests for end-to-end test: // 1. An in-memory afero.Fs paired with an in-memory Go CDK bucket. // 2. A filesystem-based afero.Fs paired with an filesystem-based Go CDK bucket. // It returns the pair of tests and a cleanup function. func initFsTests() ([]*fsTest, func(), error) { tmpfsdir, err := ioutil.TempDir("", "fs") if err != nil { return nil, nil, err } tmpbucketdir, err := ioutil.TempDir("", "bucket") if err != nil { return nil, nil, err } memfs := afero.NewMemMapFs() membucket := memblob.OpenBucket(nil) filefs := afero.NewBasePathFs(afero.NewOsFs(), tmpfsdir) filebucket, err := fileblob.OpenBucket(tmpbucketdir, nil) if err != nil { return nil, nil, err } tests := []*fsTest{ {"mem", memfs, membucket}, {"file", filefs, filebucket}, } cleanup := func() { membucket.Close() filebucket.Close() os.RemoveAll(tmpfsdir) os.RemoveAll(tmpbucketdir) } return tests, cleanup, nil } // TestEndToEndSync verifies that basic adds, updates, and deletes are working // correctly. func TestEndToEndSync(t *testing.T) { ctx := context.Background() tests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() for _, test := range tests { t.Run(test.name, func(t *testing.T) { local, err := initLocalFs(ctx, test.fs) if err != nil { t.Fatal(err) } deployer := &Deployer{ localFs: test.fs, maxDeletes: -1, bucket: test.bucket, } // Initial deployment should sync remote with local. if err := deployer.Deploy(ctx); err != nil { t.Errorf("initial deploy: failed: %v", err) } wantSummary := deploySummary{NumLocal: 5, NumRemote: 0, NumUploads: 5, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("initial deploy: got %v, want %v", deployer.summary, wantSummary) } if diff, err := verifyRemote(ctx, deployer.bucket, local); err != nil { t.Errorf("initial deploy: failed to verify remote: %v", err) } else if diff != "" { t.Errorf("initial deploy: remote snapshot doesn't match expected:\n%v", diff) } // A repeat deployment shouldn't change anything. if err := deployer.Deploy(ctx); err != nil { t.Errorf("no-op deploy: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 0, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("no-op deploy: got %v, want %v", deployer.summary, wantSummary) } // Make some changes to the local filesystem: // 1. Modify file [0]. // 2. Delete file [1]. // 3. Add a new file (sorted last). updatefd := local[0] updatefd.Contents = "new contents" deletefd := local[1] local = append(local[:1], local[2:]...) // removing deleted [1] newfd := &fileData{"zzz", "zzz"} local = append(local, newfd) if err := writeFiles(test.fs, []*fileData{updatefd, newfd}); err != nil { t.Fatal(err) } if err := test.fs.Remove(deletefd.Name); err != nil { t.Fatal(err) } // A deployment should apply those 3 changes. if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy after changes: failed: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 2, NumDeletes: 1} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy after changes: got %v, want %v", deployer.summary, wantSummary) } if diff, err := verifyRemote(ctx, deployer.bucket, local); err != nil { t.Errorf("deploy after changes: failed to verify remote: %v", err) } else if diff != "" { t.Errorf("deploy after changes: remote snapshot doesn't match expected:\n%v", diff) } // Again, a repeat deployment shouldn't change anything. if err := deployer.Deploy(ctx); err != nil { t.Errorf("no-op deploy: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 0, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("no-op deploy: got %v, want %v", deployer.summary, wantSummary) } }) } } // TestMaxDeletes verifies that the "maxDeletes" flag is working correctly. func TestMaxDeletes(t *testing.T) { ctx := context.Background() tests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() for _, test := range tests { t.Run(test.name, func(t *testing.T) { local, err := initLocalFs(ctx, test.fs) if err != nil { t.Fatal(err) } deployer := &Deployer{ localFs: test.fs, maxDeletes: -1, bucket: test.bucket, } // Sync remote with local. if err := deployer.Deploy(ctx); err != nil { t.Errorf("initial deploy: failed: %v", err) } wantSummary := deploySummary{NumLocal: 5, NumRemote: 0, NumUploads: 5, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("initial deploy: got %v, want %v", deployer.summary, wantSummary) } // Delete two files, [1] and [2]. if err := test.fs.Remove(local[1].Name); err != nil { t.Fatal(err) } if err := test.fs.Remove(local[2].Name); err != nil { t.Fatal(err) } // A deployment with maxDeletes=0 shouldn't change anything. deployer.maxDeletes = 0 if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy failed: %v", err) } wantSummary = deploySummary{NumLocal: 3, NumRemote: 5, NumUploads: 0, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy: got %v, want %v", deployer.summary, wantSummary) } // A deployment with maxDeletes=1 shouldn't change anything either. deployer.maxDeletes = 1 if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy failed: %v", err) } wantSummary = deploySummary{NumLocal: 3, NumRemote: 5, NumUploads: 0, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy: got %v, want %v", deployer.summary, wantSummary) } // A deployment with maxDeletes=2 should make the changes. deployer.maxDeletes = 2 if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy failed: %v", err) } wantSummary = deploySummary{NumLocal: 3, NumRemote: 5, NumUploads: 0, NumDeletes: 2} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy: got %v, want %v", deployer.summary, wantSummary) } // Delete two more files, [0] and [3]. if err := test.fs.Remove(local[0].Name); err != nil { t.Fatal(err) } if err := test.fs.Remove(local[3].Name); err != nil { t.Fatal(err) } // A deployment with maxDeletes=-1 should make the changes. deployer.maxDeletes = -1 if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy failed: %v", err) } wantSummary = deploySummary{NumLocal: 1, NumRemote: 3, NumUploads: 0, NumDeletes: 2} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy: got %v, want %v", deployer.summary, wantSummary) } }) } } // TestIncludeExclude verifies that the include/exclude options for targets work. func TestIncludeExclude(t *testing.T) { ctx := context.Background() tests := []struct { Include string Exclude string Want deploySummary }{ { Want: deploySummary{NumLocal: 5, NumUploads: 5}, }, { Include: "**aaa", Want: deploySummary{NumLocal: 3, NumUploads: 3}, }, { Include: "**bbb", Want: deploySummary{NumLocal: 2, NumUploads: 2}, }, { Include: "aaa", Want: deploySummary{NumLocal: 1, NumUploads: 1}, }, { Exclude: "**aaa", Want: deploySummary{NumLocal: 2, NumUploads: 2}, }, { Exclude: "**bbb", Want: deploySummary{NumLocal: 3, NumUploads: 3}, }, { Exclude: "aaa", Want: deploySummary{NumLocal: 4, NumUploads: 4}, }, { Include: "**aaa", Exclude: "**nested**", Want: deploySummary{NumLocal: 2, NumUploads: 2}, }, } for _, test := range tests { t.Run(fmt.Sprintf("include %q exclude %q", test.Include, test.Exclude), func(t *testing.T) { fsTests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() fsTest := fsTests[1] // just do file-based test _, err = initLocalFs(ctx, fsTest.fs) if err != nil { t.Fatal(err) } tgt := &target{ Include: test.Include, Exclude: test.Exclude, } if err := tgt.parseIncludeExclude(); err != nil { t.Error(err) } deployer := &Deployer{ localFs: fsTest.fs, maxDeletes: -1, bucket: fsTest.bucket, target: tgt, } // Sync remote with local. if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy: failed: %v", err) } if !cmp.Equal(deployer.summary, test.Want) { t.Errorf("deploy: got %v, want %v", deployer.summary, test.Want) } }) } } // TestIncludeExcludeRemoteDelete verifies deleted local files that don't match include/exclude patterns // are not deleted on the remote. func TestIncludeExcludeRemoteDelete(t *testing.T) { ctx := context.Background() tests := []struct { Include string Exclude string Want deploySummary }{ { Want: deploySummary{NumLocal: 3, NumRemote: 5, NumUploads: 0, NumDeletes: 2}, }, { Include: "**aaa", Want: deploySummary{NumLocal: 2, NumRemote: 3, NumUploads: 0, NumDeletes: 1}, }, { Include: "subdir/**", Want: deploySummary{NumLocal: 1, NumRemote: 2, NumUploads: 0, NumDeletes: 1}, }, { Exclude: "**bbb", Want: deploySummary{NumLocal: 2, NumRemote: 3, NumUploads: 0, NumDeletes: 1}, }, { Exclude: "bbb", Want: deploySummary{NumLocal: 3, NumRemote: 4, NumUploads: 0, NumDeletes: 1}, }, } for _, test := range tests { t.Run(fmt.Sprintf("include %q exclude %q", test.Include, test.Exclude), func(t *testing.T) { fsTests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() fsTest := fsTests[1] // just do file-based test local, err := initLocalFs(ctx, fsTest.fs) if err != nil { t.Fatal(err) } deployer := &Deployer{ localFs: fsTest.fs, maxDeletes: -1, bucket: fsTest.bucket, } // Initial sync to get the files on the remote if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy: failed: %v", err) } // Delete two files, [1] and [2]. if err := fsTest.fs.Remove(local[1].Name); err != nil { t.Fatal(err) } if err := fsTest.fs.Remove(local[2].Name); err != nil { t.Fatal(err) } // Second sync tgt := &target{ Include: test.Include, Exclude: test.Exclude, } if err := tgt.parseIncludeExclude(); err != nil { t.Error(err) } deployer.target = tgt if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy: failed: %v", err) } if !cmp.Equal(deployer.summary, test.Want) { t.Errorf("deploy: got %v, want %v", deployer.summary, test.Want) } }) } } // TestCompression verifies that gzip compression works correctly. // In particular, MD5 hashes must be of the compressed content. func TestCompression(t *testing.T) { ctx := context.Background() tests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() for _, test := range tests { t.Run(test.name, func(t *testing.T) { local, err := initLocalFs(ctx, test.fs) if err != nil { t.Fatal(err) } deployer := &Deployer{ localFs: test.fs, bucket: test.bucket, matchers: []*matcher{{Pattern: ".*", Gzip: true, re: regexp.MustCompile(".*")}}, } // Initial deployment should sync remote with local. if err := deployer.Deploy(ctx); err != nil { t.Errorf("initial deploy: failed: %v", err) } wantSummary := deploySummary{NumLocal: 5, NumRemote: 0, NumUploads: 5, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("initial deploy: got %v, want %v", deployer.summary, wantSummary) } // A repeat deployment shouldn't change anything. if err := deployer.Deploy(ctx); err != nil { t.Errorf("no-op deploy: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 0, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("no-op deploy: got %v, want %v", deployer.summary, wantSummary) } // Make an update to the local filesystem, on [1]. updatefd := local[1] updatefd.Contents = "new contents" if err := writeFiles(test.fs, []*fileData{updatefd}); err != nil { t.Fatal(err) } // A deployment should apply the changes. if err := deployer.Deploy(ctx); err != nil { t.Errorf("deploy after changes: failed: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 1, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("deploy after changes: got %v, want %v", deployer.summary, wantSummary) } }) } } // TestMatching verifies that matchers match correctly, and that the Force // attribute for matcher works. func TestMatching(t *testing.T) { ctx := context.Background() tests, cleanup, err := initFsTests() if err != nil { t.Fatal(err) } defer cleanup() for _, test := range tests { t.Run(test.name, func(t *testing.T) { _, err := initLocalFs(ctx, test.fs) if err != nil { t.Fatal(err) } deployer := &Deployer{ localFs: test.fs, bucket: test.bucket, matchers: []*matcher{{Pattern: "^subdir/aaa$", Force: true, re: regexp.MustCompile("^subdir/aaa$")}}, } // Initial deployment to sync remote with local. if err := deployer.Deploy(ctx); err != nil { t.Errorf("initial deploy: failed: %v", err) } wantSummary := deploySummary{NumLocal: 5, NumRemote: 0, NumUploads: 5, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("initial deploy: got %v, want %v", deployer.summary, wantSummary) } // A repeat deployment should upload a single file, the one that matched the Force matcher. // Note that matching happens based on the ToSlash form, so this matches // even on Windows. if err := deployer.Deploy(ctx); err != nil { t.Errorf("no-op deploy with single force matcher: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 1, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("no-op deploy with single force matcher: got %v, want %v", deployer.summary, wantSummary) } // Repeat with a matcher that should now match 3 files. deployer.matchers = []*matcher{{Pattern: "aaa", Force: true, re: regexp.MustCompile("aaa")}} if err := deployer.Deploy(ctx); err != nil { t.Errorf("no-op deploy with triple force matcher: %v", err) } wantSummary = deploySummary{NumLocal: 5, NumRemote: 5, NumUploads: 3, NumDeletes: 0} if !cmp.Equal(deployer.summary, wantSummary) { t.Errorf("no-op deploy with triple force matcher: got %v, want %v", deployer.summary, wantSummary) } }) } } // writeFiles writes the files in fds to fd. func writeFiles(fs afero.Fs, fds []*fileData) error { for _, fd := range fds { dir := path.Dir(fd.Name) if dir != "." { err := fs.MkdirAll(dir, os.ModePerm) if err != nil { return err } } f, err := fs.Create(fd.Name) if err != nil { return err } defer f.Close() _, err = f.WriteString(fd.Contents) if err != nil { return err } } return nil } // verifyRemote that the current contents of bucket matches local. // It returns an empty string if the contents matched, and a non-empty string // capturing the diff if they didn't. func verifyRemote(ctx context.Context, bucket *blob.Bucket, local []*fileData) (string, error) { var cur []*fileData iter := bucket.List(nil) for { obj, err := iter.Next(ctx) if err == io.EOF { break } if err != nil { return "", err } contents, err := bucket.ReadAll(ctx, obj.Key) if err != nil { return "", err } cur = append(cur, &fileData{obj.Key, string(contents)}) } if cmp.Equal(cur, local) { return "", nil } diff := "got: \n" for _, f := range cur { diff += fmt.Sprintf(" %s: %s\n", f.Name, f.Contents) } diff += "want: \n" for _, f := range local { diff += fmt.Sprintf(" %s: %s\n", f.Name, f.Contents) } return diff, nil }