ref: 9679023f2b0d7c55b70f23fd94603f301a841079
dir: /deploy/deploy.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" "mime" "os" "path/filepath" "regexp" "runtime" "sort" "strings" "sync" "github.com/dustin/go-humanize" "github.com/gobwas/glob" "github.com/gohugoio/hugo/config" "github.com/pkg/errors" "github.com/spf13/afero" jww "github.com/spf13/jwalterweatherman" "golang.org/x/text/unicode/norm" "gocloud.dev/blob" _ "gocloud.dev/blob/fileblob" // import _ "gocloud.dev/blob/gcsblob" // import _ "gocloud.dev/blob/s3blob" // import ) // Deployer supports deploying the site to target cloud providers. type Deployer struct { localFs afero.Fs bucket *blob.Bucket target *target // the target to deploy to matchers []*matcher // matchers to apply to uploaded files ordering []*regexp.Regexp // orders uploads quiet bool // true reduces STDOUT confirm bool // true enables confirmation before making changes dryRun bool // true skips conformations and prints changes instead of applying them force bool // true forces upload of all files invalidateCDN bool // true enables invalidate CDN cache (if possible) maxDeletes int // caps the # of files to delete; -1 to disable // For tests... summary deploySummary // summary of latest Deploy results } type deploySummary struct { NumLocal, NumRemote, NumUploads, NumDeletes int } // New constructs a new *Deployer. func New(cfg config.Provider, localFs afero.Fs) (*Deployer, error) { targetName := cfg.GetString("target") // Load the [deployment] section of the config. dcfg, err := decodeConfig(cfg) if err != nil { return nil, err } if len(dcfg.Targets) == 0 { return nil, errors.New("no deployment targets found") } // Find the target to deploy to. var tgt *target if targetName == "" { // Default to the first target. tgt = dcfg.Targets[0] } else { for _, t := range dcfg.Targets { if t.Name == targetName { tgt = t } } if tgt == nil { return nil, fmt.Errorf("deployment target %q not found", targetName) } } return &Deployer{ localFs: localFs, target: tgt, matchers: dcfg.Matchers, ordering: dcfg.ordering, quiet: cfg.GetBool("quiet"), confirm: cfg.GetBool("confirm"), dryRun: cfg.GetBool("dryRun"), force: cfg.GetBool("force"), invalidateCDN: cfg.GetBool("invalidateCDN"), maxDeletes: cfg.GetInt("maxDeletes"), }, nil } func (d *Deployer) openBucket(ctx context.Context) (*blob.Bucket, error) { if d.bucket != nil { return d.bucket, nil } jww.FEEDBACK.Printf("Deploying to target %q (%s)\n", d.target.Name, d.target.URL) return blob.OpenBucket(ctx, d.target.URL) } // Deploy deploys the site to a target. func (d *Deployer) Deploy(ctx context.Context) error { bucket, err := d.openBucket(ctx) if err != nil { return err } // Load local files from the source directory. var include, exclude glob.Glob if d.target != nil { include, exclude = d.target.includeGlob, d.target.excludeGlob } local, err := walkLocal(d.localFs, d.matchers, include, exclude) if err != nil { return err } jww.INFO.Printf("Found %d local files.\n", len(local)) d.summary.NumLocal = len(local) // Load remote files from the target. remote, err := walkRemote(ctx, bucket, include, exclude) if err != nil { return err } jww.INFO.Printf("Found %d remote files.\n", len(remote)) d.summary.NumRemote = len(remote) // Diff local vs remote to see what changes need to be applied. uploads, deletes := findDiffs(local, remote, d.force) d.summary.NumUploads = len(uploads) d.summary.NumDeletes = len(deletes) if len(uploads)+len(deletes) == 0 { if !d.quiet { jww.FEEDBACK.Println("No changes required.") } return nil } if !d.quiet { jww.FEEDBACK.Println(summarizeChanges(uploads, deletes)) } // Ask for confirmation before proceeding. if d.confirm && !d.dryRun { fmt.Printf("Continue? (Y/n) ") var confirm string if _, err := fmt.Scanln(&confirm); err != nil { return err } if confirm != "" && confirm[0] != 'y' && confirm[0] != 'Y' { return errors.New("aborted") } } // Order the uploads. They are organized in groups; all uploads in a group // must be complete before moving on to the next group. uploadGroups := applyOrdering(d.ordering, uploads) // Apply the changes in parallel, using an inverted worker // pool (https://www.youtube.com/watch?v=5zXAHh5tJqQ&t=26m58s). // sem prevents more than nParallel concurrent goroutines. const nParallel = 10 var errs []error var errMu sync.Mutex // protects errs for _, uploads := range uploadGroups { // Short-circuit for an empty group. if len(uploads) == 0 { continue } // Within the group, apply uploads in parallel. sem := make(chan struct{}, nParallel) for _, upload := range uploads { if d.dryRun { if !d.quiet { jww.FEEDBACK.Printf("[DRY RUN] Would upload: %v\n", upload) } continue } sem <- struct{}{} go func(upload *fileToUpload) { if err := doSingleUpload(ctx, bucket, upload); err != nil { errMu.Lock() defer errMu.Unlock() errs = append(errs, err) } <-sem }(upload) } // Wait for all uploads in the group to finish. for n := nParallel; n > 0; n-- { sem <- struct{}{} } } if d.maxDeletes != -1 && len(deletes) > d.maxDeletes { jww.WARN.Printf("Skipping %d deletes because it is more than --maxDeletes (%d). If this is expected, set --maxDeletes to a larger number, or -1 to disable this check.\n", len(deletes), d.maxDeletes) d.summary.NumDeletes = 0 } else { // Apply deletes in parallel. sort.Slice(deletes, func(i, j int) bool { return deletes[i] < deletes[j] }) sem := make(chan struct{}, nParallel) for _, del := range deletes { if d.dryRun { if !d.quiet { jww.FEEDBACK.Printf("[DRY RUN] Would delete %s\n", del) } continue } sem <- struct{}{} go func(del string) { jww.INFO.Printf("Deleting %s...\n", del) if err := bucket.Delete(ctx, del); err != nil { errMu.Lock() defer errMu.Unlock() errs = append(errs, err) } <-sem }(del) } // Wait for all deletes to finish. for n := nParallel; n > 0; n-- { sem <- struct{}{} } } if len(errs) > 0 { if !d.quiet { jww.FEEDBACK.Printf("Encountered %d errors.\n", len(errs)) } return errs[0] } if !d.quiet { jww.FEEDBACK.Println("Success!") } if d.invalidateCDN { if d.target.CloudFrontDistributionID != "" { jww.FEEDBACK.Println("Invalidating CloudFront CDN...") if err := InvalidateCloudFront(ctx, d.target.CloudFrontDistributionID); err != nil { jww.FEEDBACK.Printf("Failed to invalidate CloudFront CDN: %v\n", err) return err } } if d.target.GoogleCloudCDNOrigin != "" { jww.FEEDBACK.Println("Invalidating Google Cloud CDN...") if err := InvalidateGoogleCloudCDN(ctx, d.target.GoogleCloudCDNOrigin); err != nil { jww.FEEDBACK.Printf("Failed to invalidate Google Cloud CDN: %v\n", err) return err } } jww.FEEDBACK.Println("Success!") } return nil } // summarizeChanges creates a text description of the proposed changes. func summarizeChanges(uploads []*fileToUpload, deletes []string) string { uploadSize := int64(0) for _, u := range uploads { uploadSize += u.Local.UploadSize } return fmt.Sprintf("Identified %d file(s) to upload, totaling %s, and %d file(s) to delete.", len(uploads), humanize.Bytes(uint64(uploadSize)), len(deletes)) } // doSingleUpload executes a single file upload. func doSingleUpload(ctx context.Context, bucket *blob.Bucket, upload *fileToUpload) error { jww.INFO.Printf("Uploading %v...\n", upload) opts := &blob.WriterOptions{ CacheControl: upload.Local.CacheControl(), ContentEncoding: upload.Local.ContentEncoding(), ContentType: upload.Local.ContentType(), } w, err := bucket.NewWriter(ctx, upload.Local.SlashPath, opts) if err != nil { return err } r, err := upload.Local.Reader() if err != nil { return err } defer r.Close() _, err = io.Copy(w, r) if err != nil { return err } if err := w.Close(); err != nil { return err } return nil } // localFile represents a local file from the source. Use newLocalFile to // construct one. type localFile struct { // NativePath is the native path to the file (using file.Separator). NativePath string // SlashPath is NativePath converted to use /. SlashPath string // UploadSize is the size of the content to be uploaded. It may not // be the same as the local file size if the content will be // gzipped before upload. UploadSize int64 fs afero.Fs matcher *matcher md5 []byte // cache gzipped bytes.Buffer // cached of gzipped contents if gzipping } // newLocalFile initializes a *localFile. func newLocalFile(fs afero.Fs, nativePath, slashpath string, m *matcher) (*localFile, error) { f, err := fs.Open(nativePath) if err != nil { return nil, err } defer f.Close() lf := &localFile{ NativePath: nativePath, SlashPath: slashpath, fs: fs, matcher: m, } if m != nil && m.Gzip { // We're going to gzip the content. Do it once now, and cache the result // in gzipped. The UploadSize is the size of the gzipped content. gz := gzip.NewWriter(&lf.gzipped) if _, err := io.Copy(gz, f); err != nil { return nil, err } if err := gz.Close(); err != nil { return nil, err } lf.UploadSize = int64(lf.gzipped.Len()) } else { // Raw content. Just get the UploadSize. info, err := f.Stat() if err != nil { return nil, err } lf.UploadSize = info.Size() } return lf, nil } // Reader returns an io.ReadCloser for reading the content to be uploaded. // The caller must call Close on the returned ReaderCloser. // The reader content may not be the same as the local file content due to // gzipping. func (lf *localFile) Reader() (io.ReadCloser, error) { if lf.matcher != nil && lf.matcher.Gzip { // We've got the gzipped contents cached in gzipped. // Note: we can't use lf.gzipped directly as a Reader, since we it discards // data after it is read, and we may read it more than once. return ioutil.NopCloser(bytes.NewReader(lf.gzipped.Bytes())), nil } // Not expected to fail since we did it successfully earlier in newLocalFile, // but could happen due to changes in the underlying filesystem. return lf.fs.Open(lf.NativePath) } // CacheControl returns the Cache-Control header to use for lf, based on the // first matching matcher (if any). func (lf *localFile) CacheControl() string { if lf.matcher == nil { return "" } return lf.matcher.CacheControl } // ContentEncoding returns the Content-Encoding header to use for lf, based // on the matcher's Content-Encoding and Gzip fields. func (lf *localFile) ContentEncoding() string { if lf.matcher == nil { return "" } if lf.matcher.Gzip { return "gzip" } return lf.matcher.ContentEncoding } // ContentType returns the Content-Type header to use for lf. // It first checks if there's a Content-Type header configured via a matching // matcher; if not, it tries to generate one based on the filename extension. // If this fails, the Content-Type will be the empty string. In this case, Go // Cloud will automatically try to infer a Content-Type based on the file // content. func (lf *localFile) ContentType() string { if lf.matcher != nil && lf.matcher.ContentType != "" { return lf.matcher.ContentType } // TODO: Hugo has a MediaType and a MediaTypes list and also a concept // of custom MIME types. // Use 1) The matcher 2) Hugo's MIME types 3) TypeByExtension. return mime.TypeByExtension(filepath.Ext(lf.NativePath)) } // Force returns true if the file should be forced to re-upload based on the // matching matcher. func (lf *localFile) Force() bool { return lf.matcher != nil && lf.matcher.Force } // MD5 returns an MD5 hash of the content to be uploaded. func (lf *localFile) MD5() []byte { if len(lf.md5) > 0 { return lf.md5 } h := md5.New() r, err := lf.Reader() if err != nil { return nil } defer r.Close() if _, err := io.Copy(h, r); err != nil { return nil } lf.md5 = h.Sum(nil) return lf.md5 } // knownHiddenDirectory checks if the specified name is a well known // hidden directory. func knownHiddenDirectory(name string) bool { var knownDirectories = []string{ ".well-known", } for _, dir := range knownDirectories { if name == dir { return true } } return false } // walkLocal walks the source directory and returns a flat list of files, // using localFile.SlashPath as the map keys. func walkLocal(fs afero.Fs, matchers []*matcher, include, exclude glob.Glob) (map[string]*localFile, error) { retval := map[string]*localFile{} err := afero.Walk(fs, "", func(path string, info os.FileInfo, err error) error { if err != nil { return err } if info.IsDir() { // Skip hidden directories. if path != "" && strings.HasPrefix(info.Name(), ".") { // Except for specific hidden directories if !knownHiddenDirectory(info.Name()) { return filepath.SkipDir } } return nil } // .DS_Store is an internal MacOS attribute file; skip it. if info.Name() == ".DS_Store" { return nil } // When a file system is HFS+, its filepath is in NFD form. if runtime.GOOS == "darwin" { path = norm.NFC.String(path) } // Check include/exclude matchers. slashpath := filepath.ToSlash(path) if include != nil && !include.Match(slashpath) { jww.INFO.Printf(" dropping %q due to include\n", slashpath) return nil } if exclude != nil && exclude.Match(slashpath) { jww.INFO.Printf(" dropping %q due to exclude\n", slashpath) return nil } // Find the first matching matcher (if any). var m *matcher for _, cur := range matchers { if cur.Matches(slashpath) { m = cur break } } lf, err := newLocalFile(fs, path, slashpath, m) if err != nil { return err } retval[lf.SlashPath] = lf return nil }) if err != nil { return nil, err } return retval, nil } // walkRemote walks the target bucket and returns a flat list. func walkRemote(ctx context.Context, bucket *blob.Bucket, include, exclude glob.Glob) (map[string]*blob.ListObject, error) { retval := map[string]*blob.ListObject{} iter := bucket.List(nil) for { obj, err := iter.Next(ctx) if err == io.EOF { break } if err != nil { return nil, err } // Check include/exclude matchers. if include != nil && !include.Match(obj.Key) { jww.INFO.Printf(" remote dropping %q due to include\n", obj.Key) continue } if exclude != nil && exclude.Match(obj.Key) { jww.INFO.Printf(" remote dropping %q due to exclude\n", obj.Key) continue } // If the remote didn't give us an MD5, compute one. // This can happen for some providers (e.g., fileblob, which uses the // local filesystem), but not for the most common Cloud providers // (S3, GCS, Azure). Although, it can happen for S3 if the blob was uploaded // via a multi-part upload. // Although it's unfortunate to have to read the file, it's likely better // than assuming a delta and re-uploading it. if len(obj.MD5) == 0 { r, err := bucket.NewReader(ctx, obj.Key, nil) if err == nil { h := md5.New() if _, err := io.Copy(h, r); err == nil { obj.MD5 = h.Sum(nil) } r.Close() } } retval[obj.Key] = obj } return retval, nil } // uploadReason is an enum of reasons why a file must be uploaded. type uploadReason string const ( reasonUnknown uploadReason = "unknown" reasonNotFound uploadReason = "not found at target" reasonForce uploadReason = "--force" reasonSize uploadReason = "size differs" reasonMD5Differs uploadReason = "md5 differs" reasonMD5Missing uploadReason = "remote md5 missing" ) // fileToUpload represents a single local file that should be uploaded to // the target. type fileToUpload struct { Local *localFile Reason uploadReason } func (u *fileToUpload) String() string { details := []string{humanize.Bytes(uint64(u.Local.UploadSize))} if s := u.Local.CacheControl(); s != "" { details = append(details, fmt.Sprintf("Cache-Control: %q", s)) } if s := u.Local.ContentEncoding(); s != "" { details = append(details, fmt.Sprintf("Content-Encoding: %q", s)) } if s := u.Local.ContentType(); s != "" { details = append(details, fmt.Sprintf("Content-Type: %q", s)) } return fmt.Sprintf("%s (%s): %v", u.Local.SlashPath, strings.Join(details, ", "), u.Reason) } // findDiffs diffs localFiles vs remoteFiles to see what changes should be // applied to the remote target. It returns a slice of *fileToUpload and a // slice of paths for files to delete. func findDiffs(localFiles map[string]*localFile, remoteFiles map[string]*blob.ListObject, force bool) ([]*fileToUpload, []string) { var uploads []*fileToUpload var deletes []string found := map[string]bool{} for path, lf := range localFiles { upload := false reason := reasonUnknown if remoteFile, ok := remoteFiles[path]; ok { // The file exists in remote. Let's see if we need to upload it anyway. // TODO: We don't register a diff if the metadata (e.g., Content-Type // header) has changed. This would be difficult/expensive to detect; some // providers return metadata along with their "List" result, but others // (notably AWS S3) do not, so gocloud.dev's blob.Bucket doesn't expose // it in the list result. It would require a separate request per blob // to fetch. At least for now, we work around this by documenting it and // providing a "force" flag (to re-upload everything) and a "force" bool // per matcher (to re-upload all files in a matcher whose headers may have // changed). // Idea: extract a sample set of 1 file per extension + 1 file per matcher // and check those files? if force { upload = true reason = reasonForce } else if lf.Force() { upload = true reason = reasonForce } else if lf.UploadSize != remoteFile.Size { upload = true reason = reasonSize } else if len(remoteFile.MD5) == 0 { // This shouldn't happen unless the remote didn't give us an MD5 hash // from List, AND we failed to compute one by reading the remote file. // Default to considering the files different. upload = true reason = reasonMD5Missing } else if !bytes.Equal(lf.MD5(), remoteFile.MD5) { upload = true reason = reasonMD5Differs } else { // Nope! Leave uploaded = false. } found[path] = true } else { // The file doesn't exist in remote. upload = true reason = reasonNotFound } if upload { jww.DEBUG.Printf("%s needs to be uploaded: %v\n", path, reason) uploads = append(uploads, &fileToUpload{lf, reason}) } else { jww.DEBUG.Printf("%s exists at target and does not need to be uploaded", path) } } // Remote files that weren't found locally should be deleted. for path := range remoteFiles { if !found[path] { deletes = append(deletes, path) } } return uploads, deletes } // applyOrdering returns an ordered slice of slices of uploads. // // The returned slice will have length len(ordering)+1. // // The subslice at index i, for i = 0 ... len(ordering)-1, will have all of the // uploads whose Local.SlashPath matched the regex at ordering[i] (but not any // previous ordering regex). // The subslice at index len(ordering) will have the remaining uploads that // didn't match any ordering regex. // // The subslices are sorted by Local.SlashPath. func applyOrdering(ordering []*regexp.Regexp, uploads []*fileToUpload) [][]*fileToUpload { // Sort the whole slice by Local.SlashPath first. sort.Slice(uploads, func(i, j int) bool { return uploads[i].Local.SlashPath < uploads[j].Local.SlashPath }) retval := make([][]*fileToUpload, len(ordering)+1) for _, u := range uploads { matched := false for i, re := range ordering { if re.MatchString(u.Local.SlashPath) { retval[i] = append(retval[i], u) matched = true break } } if !matched { retval[len(ordering)] = append(retval[len(ordering)], u) } } return retval }