hugo/resource/resource.go
2018-04-15 18:08:06 +02:00

650 lines
17 KiB
Go

// Copyright 2017-present 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 resource
import (
"fmt"
"mime"
"os"
"path"
"path/filepath"
"strconv"
"strings"
"sync"
"github.com/spf13/afero"
"github.com/spf13/cast"
"github.com/gobwas/glob"
"github.com/gohugoio/hugo/helpers"
"github.com/gohugoio/hugo/media"
"github.com/gohugoio/hugo/source"
)
var (
_ Resource = (*genericResource)(nil)
_ metaAssigner = (*genericResource)(nil)
_ Source = (*genericResource)(nil)
_ Cloner = (*genericResource)(nil)
)
const DefaultResourceType = "unknown"
// Source is an internal template and not meant for use in the templates. It
// may change without notice.
type Source interface {
AbsSourceFilename() string
Publish() error
}
// Cloner is an internal template and not meant for use in the templates. It
// may change without notice.
type Cloner interface {
WithNewBase(base string) Resource
}
type metaAssigner interface {
setTitle(title string)
setName(name string)
updateParams(params map[string]interface{})
}
// Resource represents a linkable resource, i.e. a content page, image etc.
type Resource interface {
// Permalink represents the absolute link to this resource.
Permalink() string
// RelPermalink represents the host relative link to this resource.
RelPermalink() string
// ResourceType is the resource type. For most file types, this is the main
// part of the MIME type, e.g. "image", "application", "text" etc.
// For content pages, this value is "page".
ResourceType() string
// Name is the logical name of this resource. This can be set in the front matter
// metadata for this resource. If not set, Hugo will assign a value.
// This will in most cases be the base filename.
// So, for the image "/some/path/sunset.jpg" this will be "sunset.jpg".
// The value returned by this method will be used in the GetByPrefix and ByPrefix methods
// on Resources.
Name() string
// Title returns the title if set in front matter. For content pages, this will be the expected value.
Title() string
// Params set in front matter for this resource.
Params() map[string]interface{}
// Content returns this resource's content. It will be equivalent to reading the content
// that RelPermalink points to in the published folder.
// The return type will be contextual, and should be what you would expect:
// * Page: template.HTML
// * JSON: String
// * Etc.
Content() (interface{}, error)
}
// Resources represents a slice of resources, which can be a mix of different types.
// I.e. both pages and images etc.
type Resources []Resource
func (r Resources) ByType(tp string) Resources {
var filtered Resources
for _, resource := range r {
if resource.ResourceType() == tp {
filtered = append(filtered, resource)
}
}
return filtered
}
const prefixDeprecatedMsg = `We have added the more flexible Resources.GetMatch (find one) and Resources.Match (many) to replace the "prefix" methods.
These matches by a given globbing pattern, e.g. "*.jpg".
Some examples:
* To find all resources by its prefix in the root dir of the bundle: .Match image*
* To find one resource by its prefix in the root dir of the bundle: .GetMatch image*
* To find all JPEG images anywhere in the bundle: .Match **.jpg`
// GetByPrefix gets the first resource matching the given filename prefix, e.g
// "logo" will match logo.png. It returns nil of none found.
// In potential ambiguous situations, combine it with ByType.
func (r Resources) GetByPrefix(prefix string) Resource {
helpers.Deprecated("Resources", "GetByPrefix", prefixDeprecatedMsg, true)
prefix = strings.ToLower(prefix)
for _, resource := range r {
if matchesPrefix(resource, prefix) {
return resource
}
}
return nil
}
// ByPrefix gets all resources matching the given base filename prefix, e.g
// "logo" will match logo.png.
func (r Resources) ByPrefix(prefix string) Resources {
helpers.Deprecated("Resources", "ByPrefix", prefixDeprecatedMsg, true)
var matches Resources
prefix = strings.ToLower(prefix)
for _, resource := range r {
if matchesPrefix(resource, prefix) {
matches = append(matches, resource)
}
}
return matches
}
// GetMatch finds the first Resource matching the given pattern, or nil if none found.
// See Match for a more complete explanation about the rules used.
func (r Resources) GetMatch(pattern string) Resource {
g, err := getGlob(pattern)
if err != nil {
return nil
}
for _, resource := range r {
if g.Match(strings.ToLower(resource.Name())) {
return resource
}
}
return nil
}
// Match gets all resources matching the given base filename prefix, e.g
// "*.png" will match all png files. The "*" does not match path delimiters (/),
// so if you organize your resources in sub-folders, you need to be explicit about it, e.g.:
// "images/*.png". To match any PNG image anywhere in the bundle you can do "**.png", and
// to match all PNG images below the images folder, use "images/**.jpg".
// The matching is case insensitive.
// Match matches by using the value of Resource.Name, which, by default, is a filename with
// path relative to the bundle root with Unix style slashes (/) and no leading slash, e.g. "images/logo.png".
// See https://github.com/gobwas/glob for the full rules set.
func (r Resources) Match(pattern string) Resources {
g, err := getGlob(pattern)
if err != nil {
return nil
}
var matches Resources
for _, resource := range r {
if g.Match(strings.ToLower(resource.Name())) {
matches = append(matches, resource)
}
}
return matches
}
func matchesPrefix(r Resource, prefix string) bool {
return strings.HasPrefix(strings.ToLower(r.Name()), prefix)
}
var (
globCache = make(map[string]glob.Glob)
globMu sync.RWMutex
)
func getGlob(pattern string) (glob.Glob, error) {
var g glob.Glob
globMu.RLock()
g, found := globCache[pattern]
globMu.RUnlock()
if !found {
var err error
g, err = glob.Compile(strings.ToLower(pattern), '/')
if err != nil {
return nil, err
}
globMu.Lock()
globCache[pattern] = g
globMu.Unlock()
}
return g, nil
}
type Spec struct {
*helpers.PathSpec
mimeTypes media.Types
// Holds default filter settings etc.
imaging *Imaging
imageCache *imageCache
GenImagePath string
}
func NewSpec(s *helpers.PathSpec, mimeTypes media.Types) (*Spec, error) {
imaging, err := decodeImaging(s.Cfg.GetStringMap("imaging"))
if err != nil {
return nil, err
}
s.GetLayoutDirPath()
genImagePath := filepath.FromSlash("_gen/images")
return &Spec{PathSpec: s,
GenImagePath: genImagePath,
imaging: &imaging, mimeTypes: mimeTypes, imageCache: newImageCache(
s,
// We're going to write a cache pruning routine later, so make it extremely
// unlikely that the user shoots him or herself in the foot
// and this is set to a value that represents data he/she
// cares about. This should be set in stone once released.
genImagePath,
)}, nil
}
func (r *Spec) NewResourceFromFile(
targetPathBuilder func(base string) string,
file source.File, relTargetFilename string) (Resource, error) {
return r.newResource(targetPathBuilder, file.Filename(), file.FileInfo(), relTargetFilename)
}
func (r *Spec) NewResourceFromFilename(
targetPathBuilder func(base string) string,
absSourceFilename, relTargetFilename string) (Resource, error) {
fi, err := r.sourceFs().Stat(absSourceFilename)
if err != nil {
return nil, err
}
return r.newResource(targetPathBuilder, absSourceFilename, fi, relTargetFilename)
}
func (r *Spec) sourceFs() afero.Fs {
return r.PathSpec.BaseFs.ContentFs
}
func (r *Spec) newResource(
targetPathBuilder func(base string) string,
absSourceFilename string, fi os.FileInfo, relTargetFilename string) (Resource, error) {
var mimeType string
ext := filepath.Ext(relTargetFilename)
m, found := r.mimeTypes.GetBySuffix(strings.TrimPrefix(ext, "."))
if found {
mimeType = m.SubType
} else {
mimeType = mime.TypeByExtension(ext)
if mimeType == "" {
mimeType = DefaultResourceType
} else {
mimeType = mimeType[:strings.Index(mimeType, "/")]
}
}
gr := r.newGenericResource(targetPathBuilder, fi, absSourceFilename, relTargetFilename, mimeType)
if mimeType == "image" {
ext := strings.ToLower(helpers.Ext(absSourceFilename))
imgFormat, ok := imageFormats[ext]
if !ok {
// This allows SVG etc. to be used as resources. They will not have the methods of the Image, but
// that would not (currently) have worked.
return gr, nil
}
f, err := gr.sourceFs().Open(absSourceFilename)
if err != nil {
return nil, fmt.Errorf("failed to open image source file: %s", err)
}
defer f.Close()
hash, err := helpers.MD5FromFileFast(f)
if err != nil {
return nil, err
}
return &Image{
hash: hash,
format: imgFormat,
imaging: r.imaging,
genericResource: gr}, nil
}
return gr, nil
}
func (r *Spec) IsInCache(key string) bool {
// This is used for cache pruning. We currently only have images, but we could
// imagine expanding on this.
return r.imageCache.isInCache(key)
}
func (r *Spec) DeleteCacheByPrefix(prefix string) {
r.imageCache.deleteByPrefix(prefix)
}
func (r *Spec) CacheStats() string {
r.imageCache.mu.RLock()
defer r.imageCache.mu.RUnlock()
s := fmt.Sprintf("Cache entries: %d", len(r.imageCache.store))
count := 0
for k := range r.imageCache.store {
if count > 5 {
break
}
s += "\n" + k
count++
}
return s
}
type dirFile struct {
// This is the directory component with Unix-style slashes.
dir string
// This is the file component.
file string
}
func (d dirFile) path() string {
return path.Join(d.dir, d.file)
}
type resourceContent struct {
content string
contentInit sync.Once
}
// genericResource represents a generic linkable resource.
type genericResource struct {
// The relative path to this resource.
relTargetPath dirFile
file string
// Base is set when the output format's path has a offset, e.g. for AMP.
base string
title string
name string
params map[string]interface{}
// Absolute filename to the source, including any content folder path.
// Note that this is absolute in relation to the filesystem it is stored in.
// It can be a base path filesystem, and then this filename will not match
// the path to the file on the real filesystem.
sourceFilename string
// This may be set to tell us to look in another filesystem for this resource.
// We, by default, use the sourceFs filesystem in the spec below.
overriddenSourceFs afero.Fs
spec *Spec
resourceType string
osFileInfo os.FileInfo
targetPathBuilder func(rel string) string
// We create copies of this struct, so this needs to be a pointer.
*resourceContent
}
func (l *genericResource) Content() (interface{}, error) {
var err error
l.contentInit.Do(func() {
var b []byte
b, err := afero.ReadFile(l.sourceFs(), l.AbsSourceFilename())
if err != nil {
return
}
l.content = string(b)
})
return l.content, err
}
func (l *genericResource) sourceFs() afero.Fs {
if l.overriddenSourceFs != nil {
return l.overriddenSourceFs
}
return l.spec.sourceFs()
}
func (l *genericResource) Permalink() string {
return l.spec.PermalinkForBaseURL(l.relPermalinkForRel(l.relTargetPath.path(), false), l.spec.BaseURL.String())
}
func (l *genericResource) RelPermalink() string {
return l.relPermalinkForRel(l.relTargetPath.path(), true)
}
func (l *genericResource) Name() string {
return l.name
}
func (l *genericResource) Title() string {
return l.title
}
func (l *genericResource) Params() map[string]interface{} {
return l.params
}
func (l *genericResource) setTitle(title string) {
l.title = title
}
func (l *genericResource) setName(name string) {
l.name = name
}
func (l *genericResource) updateParams(params map[string]interface{}) {
if l.params == nil {
l.params = params
return
}
// Sets the params not already set
for k, v := range params {
if _, found := l.params[k]; !found {
l.params[k] = v
}
}
}
// Implement the Cloner interface.
func (l genericResource) WithNewBase(base string) Resource {
l.base = base
l.resourceContent = &resourceContent{}
return &l
}
func (l *genericResource) relPermalinkForRel(rel string, addBasePath bool) string {
return l.spec.PathSpec.URLizeFilename(l.relTargetPathForRel(rel, addBasePath))
}
func (l *genericResource) relTargetPathForRel(rel string, addBasePath bool) string {
if l.targetPathBuilder != nil {
rel = l.targetPathBuilder(rel)
}
if l.base != "" {
rel = path.Join(l.base, rel)
}
if addBasePath && l.spec.PathSpec.BasePath != "" {
rel = path.Join(l.spec.PathSpec.BasePath, rel)
}
if rel[0] != '/' {
rel = "/" + rel
}
return rel
}
func (l *genericResource) ResourceType() string {
return l.resourceType
}
func (l *genericResource) AbsSourceFilename() string {
return l.sourceFilename
}
func (l *genericResource) Publish() error {
f, err := l.sourceFs().Open(l.AbsSourceFilename())
if err != nil {
return err
}
defer f.Close()
return helpers.WriteToDisk(l.target(), f, l.spec.BaseFs.PublishFs)
}
const counterPlaceHolder = ":counter"
// AssignMetadata assigns the given metadata to those resources that supports updates
// and matching by wildcard given in `src` using `filepath.Match` with lower cased values.
// This assignment is additive, but the most specific match needs to be first.
// The `name` and `title` metadata field support shell-matched collection it got a match in.
// See https://golang.org/pkg/path/#Match
func AssignMetadata(metadata []map[string]interface{}, resources ...Resource) error {
counters := make(map[string]int)
for _, r := range resources {
if _, ok := r.(metaAssigner); !ok {
continue
}
var (
nameSet, titleSet bool
nameCounter, titleCounter = 0, 0
nameCounterFound, titleCounterFound bool
resourceSrcKey = strings.ToLower(r.Name())
)
ma := r.(metaAssigner)
for _, meta := range metadata {
src, found := meta["src"]
if !found {
return fmt.Errorf("missing 'src' in metadata for resource")
}
srcKey := strings.ToLower(cast.ToString(src))
glob, err := getGlob(srcKey)
if err != nil {
return fmt.Errorf("failed to match resource with metadata: %s", err)
}
match := glob.Match(resourceSrcKey)
if match {
if !nameSet {
name, found := meta["name"]
if found {
name := cast.ToString(name)
if !nameCounterFound {
nameCounterFound = strings.Contains(name, counterPlaceHolder)
}
if nameCounterFound && nameCounter == 0 {
counterKey := "name_" + srcKey
nameCounter = counters[counterKey] + 1
counters[counterKey] = nameCounter
}
ma.setName(replaceResourcePlaceholders(name, nameCounter))
nameSet = true
}
}
if !titleSet {
title, found := meta["title"]
if found {
title := cast.ToString(title)
if !titleCounterFound {
titleCounterFound = strings.Contains(title, counterPlaceHolder)
}
if titleCounterFound && titleCounter == 0 {
counterKey := "title_" + srcKey
titleCounter = counters[counterKey] + 1
counters[counterKey] = titleCounter
}
ma.setTitle((replaceResourcePlaceholders(title, titleCounter)))
titleSet = true
}
}
params, found := meta["params"]
if found {
m := cast.ToStringMap(params)
// Needed for case insensitive fetching of params values
helpers.ToLowerMap(m)
ma.updateParams(m)
}
}
}
}
return nil
}
func replaceResourcePlaceholders(in string, counter int) string {
return strings.Replace(in, counterPlaceHolder, strconv.Itoa(counter), -1)
}
func (l *genericResource) target() string {
target := l.relTargetPathForRel(l.relTargetPath.path(), false)
if l.spec.PathSpec.Languages.IsMultihost() {
target = path.Join(l.spec.PathSpec.Language.Lang, target)
}
return filepath.Clean(target)
}
func (r *Spec) newGenericResource(
targetPathBuilder func(base string) string,
osFileInfo os.FileInfo,
sourceFilename,
baseFilename,
resourceType string) *genericResource {
// This value is used both to construct URLs and file paths, but start
// with a Unix-styled path.
baseFilename = filepath.ToSlash(baseFilename)
fpath, fname := path.Split(baseFilename)
return &genericResource{
targetPathBuilder: targetPathBuilder,
osFileInfo: osFileInfo,
sourceFilename: sourceFilename,
relTargetPath: dirFile{dir: fpath, file: fname},
resourceType: resourceType,
spec: r,
params: make(map[string]interface{}),
name: baseFilename,
title: baseFilename,
resourceContent: &resourceContent{},
}
}