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hugo/resources/page/pagemeta/page_frontmatter.go

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// Copyright 2024 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 pagemeta
import (
"errors"
"fmt"
"path"
"strings"
"time"
"github.com/gohugoio/hugo/common/hreflect"
"github.com/gohugoio/hugo/common/htime"
"github.com/gohugoio/hugo/common/hugio"
"github.com/gohugoio/hugo/common/loggers"
"github.com/gohugoio/hugo/common/maps"
"github.com/gohugoio/hugo/common/paths"
"github.com/gohugoio/hugo/hugofs/files"
"github.com/gohugoio/hugo/markup"
"github.com/gohugoio/hugo/media"
"github.com/gohugoio/hugo/resources/kinds"
"github.com/gohugoio/hugo/resources/page"
"github.com/gohugoio/hugo/resources/resource"
"github.com/gohugoio/hugo/helpers"
"github.com/gohugoio/hugo/config"
"github.com/spf13/cast"
)
type DatesStrings struct {
Date string `json:"date"`
Lastmod string `json:"lastMod"`
PublishDate string `json:"publishDate"`
ExpiryDate string `json:"expiryDate"`
}
type Dates struct {
Date time.Time
Lastmod time.Time
PublishDate time.Time
ExpiryDate time.Time
}
func (d Dates) IsDateOrLastModAfter(in Dates) bool {
return d.Date.After(in.Date) || d.Lastmod.After(in.Lastmod)
}
func (d *Dates) UpdateDateAndLastmodAndPublishDateIfAfter(in Dates) {
if in.Date.After(d.Date) {
d.Date = in.Date
}
if in.Lastmod.After(d.Lastmod) {
d.Lastmod = in.Lastmod
}
if in.PublishDate.After(d.PublishDate) && in.PublishDate.Before(htime.Now()) {
d.PublishDate = in.PublishDate
}
}
func (d Dates) IsAllDatesZero() bool {
return d.Date.IsZero() && d.Lastmod.IsZero() && d.PublishDate.IsZero() && d.ExpiryDate.IsZero()
}
// PageConfig configures a Page, typically from front matter.
// Note that all the top level fields are reserved Hugo keywords.
// Any custom configuration needs to be set in the Params map.
type PageConfig struct {
Dates Dates `json:"-"` // Dates holds the four core dates for this page.
DatesStrings
Title string // The title of the page.
LinkTitle string // The link title of the page.
Type string // The content type of the page.
Layout string // The layout to use for to render this page.
Weight int // The weight of the page, used in sorting if set to a non-zero value.
Kind string // The kind of page, e.g. "page", "section", "home" etc. This is usually derived from the content path.
Path string // The canonical path to the page, e.g. /sect/mypage. Note: Leading slash, no trailing slash, no extensions or language identifiers.
Lang string // The language code for this page. This is usually derived from the module mount or filename.
URL string // The URL to the rendered page, e.g. /sect/mypage.html.
Slug string // The slug for this page.
Description string // The description for this page.
Summary string // The summary for this page.
Draft bool // Whether or not the content is a draft.
Headless bool `json:"-"` // Whether or not the page should be rendered.
IsCJKLanguage bool // Whether or not the content is in a CJK language.
TranslationKey string // The translation key for this page.
Keywords []string // The keywords for this page.
Aliases []string // The aliases for this page.
Outputs []string // The output formats to render this page in. If not set, the site's configured output formats for this page kind will be used.
FrontMatterOnlyValues `mapstructure:"-" json:"-"`
Cascade []map[string]any
Sitemap config.SitemapConfig
Build BuildConfig
Menus []string
// User defined params.
Params maps.Params
// Content holds the content for this page.
Content Source
// Compiled values.
CascadeCompiled map[page.PageMatcher]maps.Params
ContentMediaType media.Type `mapstructure:"-" json:"-"`
IsFromContentAdapter bool `mapstructure:"-" json:"-"`
}
var DefaultPageConfig = PageConfig{
Build: DefaultBuildConfig,
}
func (p *PageConfig) Validate(pagesFromData bool) error {
if pagesFromData {
if p.Path == "" {
return errors.New("path must be set")
}
if strings.HasPrefix(p.Path, "/") {
return fmt.Errorf("path %q must not start with a /", p.Path)
}
if p.Lang != "" {
return errors.New("lang must not be set")
}
if p.Content.Markup != "" {
return errors.New("markup must not be set, use mediaType")
}
}
if p.Cascade != nil {
if !kinds.IsBranch(p.Kind) {
return errors.New("cascade is only supported for branch nodes")
}
}
return nil
}
// Compile sets up the page configuration after all fields have been set.
func (p *PageConfig) Compile(basePath string, pagesFromData bool, ext string, logger loggers.Logger, mediaTypes media.Types) error {
// In content adapters, we always get relative paths.
if basePath != "" {
p.Path = path.Join(basePath, p.Path)
}
if p.Params == nil {
p.Params = make(maps.Params)
}
maps.PrepareParams(p.Params)
if p.Content.Markup == "" && p.Content.MediaType == "" {
if ext == "" {
ext = "md"
}
p.ContentMediaType = MarkupToMediaType(ext, mediaTypes)
if p.ContentMediaType.IsZero() {
return fmt.Errorf("failed to resolve media type for suffix %q", ext)
}
}
var s string
if p.ContentMediaType.IsZero() {
if p.Content.MediaType != "" {
s = p.Content.MediaType
p.ContentMediaType, _ = mediaTypes.GetByType(s)
}
if p.ContentMediaType.IsZero() && p.Content.Markup != "" {
s = p.Content.Markup
p.ContentMediaType = MarkupToMediaType(s, mediaTypes)
}
}
if p.ContentMediaType.IsZero() {
return fmt.Errorf("failed to resolve media type for %q", s)
}
if p.Content.Markup == "" {
p.Content.Markup = p.ContentMediaType.SubType
}
if pagesFromData {
if p.Kind == "" {
p.Kind = kinds.KindPage
}
// Note that NormalizePathStringBasic will make sure that we don't preserve the unnormalized path.
// We do that when we create pages from the file system; mostly for backward compatibility,
// but also because people tend to use use the filename to name their resources (with spaces and all),
// and this isn't relevant when creating resources from an API where it's easy to add textual meta data.
p.Path = paths.NormalizePathStringBasic(p.Path)
}
if p.Cascade != nil {
cascade, err := page.DecodeCascade(logger, p.Cascade)
if err != nil {
return fmt.Errorf("failed to decode cascade: %w", err)
}
p.CascadeCompiled = cascade
}
return nil
}
// MarkupToMediaType converts a markup string to a media type.
func MarkupToMediaType(s string, mediaTypes media.Types) media.Type {
s = strings.ToLower(s)
mt, _ := mediaTypes.GetBestMatch(markup.ResolveMarkup(s))
return mt
}
type ResourceConfig struct {
Path string
Name string
Title string
Params maps.Params
Content Source
// Compiled values.
PathInfo *paths.Path `mapstructure:"-" json:"-"`
ContentMediaType media.Type
}
func (rc *ResourceConfig) Validate() error {
if rc.Path == "" {
return errors.New("path must be set")
}
if rc.Content.Markup != "" {
return errors.New("markup must not be set, use mediaType")
}
return nil
}
func (rc *ResourceConfig) Compile(basePath string, pathParser *paths.PathParser, mediaTypes media.Types) error {
if rc.Params != nil {
maps.PrepareParams(rc.Params)
}
// Note that NormalizePathStringBasic will make sure that we don't preserve the unnormalized path.
// We do that when we create resources from the file system; mostly for backward compatibility,
// but also because people tend to use use the filename to name their resources (with spaces and all),
// and this isn't relevant when creating resources from an API where it's easy to add textual meta data.
rc.Path = paths.NormalizePathStringBasic(path.Join(basePath, rc.Path))
rc.PathInfo = pathParser.Parse(files.ComponentFolderContent, rc.Path)
if rc.Content.MediaType != "" {
var found bool
rc.ContentMediaType, found = mediaTypes.GetByType(rc.Content.MediaType)
if !found {
return fmt.Errorf("media type %q not found", rc.Content.MediaType)
}
}
return nil
}
type Source struct {
// MediaType is the media type of the content.
MediaType string
// The markup used in Value. Only used in front matter.
Markup string
// The content.
Value any
}
func (s Source) IsZero() bool {
return !hreflect.IsTruthful(s.Value)
}
func (s Source) IsResourceValue() bool {
_, ok := s.Value.(resource.Resource)
return ok
}
func (s Source) ValueAsString() string {
if s.Value == nil {
return ""
}
ss, err := cast.ToStringE(s.Value)
if err != nil {
panic(fmt.Errorf("content source: failed to convert %T to string: %s", s.Value, err))
}
return ss
}
func (s Source) ValueAsOpenReadSeekCloser() hugio.OpenReadSeekCloser {
return hugio.NewOpenReadSeekCloser(hugio.NewReadSeekerNoOpCloserFromString(s.ValueAsString()))
}
// FrontMatterOnlyValues holds values that can only be set via front matter.
type FrontMatterOnlyValues struct {
ResourcesMeta []map[string]any
}
// FrontMatterHandler maps front matter into Page fields and .Params.
// Note that we currently have only extracted the date logic.
type FrontMatterHandler struct {
fmConfig FrontmatterConfig
contentAdapterDatesHandler func(d *FrontMatterDescriptor) error
dateHandler frontMatterFieldHandler
lastModHandler frontMatterFieldHandler
publishDateHandler frontMatterFieldHandler
expiryDateHandler frontMatterFieldHandler
// A map of all date keys configured, including any custom.
allDateKeys map[string]bool
logger loggers.Logger
}
// FrontMatterDescriptor describes how to handle front matter for a given Page.
// It has pointers to values in the receiving page which gets updated.
type FrontMatterDescriptor struct {
// This is the Page's base filename (BaseFilename), e.g. page.md., or
// if page is a leaf bundle, the bundle folder name (ContentBaseName).
BaseFilename string
// The content file's mod time.
ModTime time.Time
// May be set from the author date in Git.
GitAuthorDate time.Time
// The below will be modified.
PageConfig *PageConfig
// The Location to use to parse dates without time zone info.
Location *time.Location
}
var dateFieldAliases = map[string][]string{
fmDate: {},
fmLastmod: {"modified"},
fmPubDate: {"pubdate", "published"},
fmExpiryDate: {"unpublishdate"},
}
// HandleDates updates all the dates given the current configuration and the
// supplied front matter params. Note that this requires all lower-case keys
// in the params map.
func (f FrontMatterHandler) HandleDates(d *FrontMatterDescriptor) error {
if d.PageConfig == nil {
panic("missing pageConfig")
}
if d.PageConfig.IsFromContentAdapter {
if f.contentAdapterDatesHandler == nil {
panic("missing content adapter date handler")
}
return f.contentAdapterDatesHandler(d)
}
if f.dateHandler == nil {
panic("missing date handler")
}
if _, err := f.dateHandler(d); err != nil {
return err
}
if _, err := f.lastModHandler(d); err != nil {
return err
}
if _, err := f.publishDateHandler(d); err != nil {
return err
}
if _, err := f.expiryDateHandler(d); err != nil {
return err
}
return nil
}
// IsDateKey returns whether the given front matter key is considered a date by the current
// configuration.
func (f FrontMatterHandler) IsDateKey(key string) bool {
return f.allDateKeys[key]
}
// A Zero date is a signal that the name can not be parsed.
// This follows the format as outlined in Jekyll, https://jekyllrb.com/docs/posts/:
// "Where YEAR is a four-digit number, MONTH and DAY are both two-digit numbers"
func dateAndSlugFromBaseFilename(location *time.Location, name string) (time.Time, string) {
withoutExt, _ := paths.FileAndExt(name)
if len(withoutExt) < 10 {
// This can not be a date.
return time.Time{}, ""
}
d, err := htime.ToTimeInDefaultLocationE(withoutExt[:10], location)
if err != nil {
return time.Time{}, ""
}
// Be a little lenient with the format here.
slug := strings.Trim(withoutExt[10:], " -_")
return d, slug
}
type frontMatterFieldHandler func(d *FrontMatterDescriptor) (bool, error)
func (f FrontMatterHandler) newChainedFrontMatterFieldHandler(handlers ...frontMatterFieldHandler) frontMatterFieldHandler {
return func(d *FrontMatterDescriptor) (bool, error) {
for _, h := range handlers {
// First successful handler wins.
success, err := h(d)
if err != nil {
f.logger.Errorln(err)
} else if success {
return true, nil
}
}
return false, nil
}
}
type FrontmatterConfig struct {
// Controls how the Date is set from front matter.
Date []string
// Controls how the Lastmod is set from front matter.
Lastmod []string
// Controls how the PublishDate is set from front matter.
PublishDate []string
// Controls how the ExpiryDate is set from front matter.
ExpiryDate []string
}
const (
// These are all the date handler identifiers
// All identifiers not starting with a ":" maps to a front matter parameter.
fmDate = "date"
fmPubDate = "publishdate"
fmLastmod = "lastmod"
fmExpiryDate = "expirydate"
// Gets date from filename, e.g 218-02-22-mypage.md
fmFilename = ":filename"
// Gets date from file OS mod time.
fmModTime = ":filemodtime"
// Gets date from Git
fmGitAuthorDate = ":git"
)
// This is the config you get when doing nothing.
func newDefaultFrontmatterConfig() FrontmatterConfig {
return FrontmatterConfig{
Date: []string{fmDate, fmPubDate, fmLastmod},
Lastmod: []string{fmGitAuthorDate, fmLastmod, fmDate, fmPubDate},
PublishDate: []string{fmPubDate, fmDate},
ExpiryDate: []string{fmExpiryDate},
}
}
func DecodeFrontMatterConfig(cfg config.Provider) (FrontmatterConfig, error) {
c := newDefaultFrontmatterConfig()
defaultConfig := c
if cfg.IsSet("frontmatter") {
fm := cfg.GetStringMap("frontmatter")
for k, v := range fm {
loki := strings.ToLower(k)
switch loki {
case fmDate:
c.Date = toLowerSlice(v)
case fmPubDate:
c.PublishDate = toLowerSlice(v)
case fmLastmod:
c.Lastmod = toLowerSlice(v)
case fmExpiryDate:
c.ExpiryDate = toLowerSlice(v)
}
}
}
expander := func(c, d []string) []string {
out := expandDefaultValues(c, d)
out = addDateFieldAliases(out)
return out
}
c.Date = expander(c.Date, defaultConfig.Date)
c.PublishDate = expander(c.PublishDate, defaultConfig.PublishDate)
c.Lastmod = expander(c.Lastmod, defaultConfig.Lastmod)
c.ExpiryDate = expander(c.ExpiryDate, defaultConfig.ExpiryDate)
return c, nil
}
func addDateFieldAliases(values []string) []string {
var complete []string
for _, v := range values {
complete = append(complete, v)
if aliases, found := dateFieldAliases[v]; found {
complete = append(complete, aliases...)
}
}
return helpers.UniqueStringsReuse(complete)
}
func expandDefaultValues(values []string, defaults []string) []string {
var out []string
for _, v := range values {
if v == ":default" {
out = append(out, defaults...)
} else {
out = append(out, v)
}
}
return out
}
func toLowerSlice(in any) []string {
out := cast.ToStringSlice(in)
for i := 0; i < len(out); i++ {
out[i] = strings.ToLower(out[i])
}
return out
}
// NewFrontmatterHandler creates a new FrontMatterHandler with the given logger and configuration.
// If no logger is provided, one will be created.
func NewFrontmatterHandler(logger loggers.Logger, frontMatterConfig FrontmatterConfig) (FrontMatterHandler, error) {
if logger == nil {
logger = loggers.NewDefault()
}
allDateKeys := make(map[string]bool)
addKeys := func(vals []string) {
for _, k := range vals {
if !strings.HasPrefix(k, ":") {
allDateKeys[k] = true
}
}
}
addKeys(frontMatterConfig.Date)
addKeys(frontMatterConfig.ExpiryDate)
addKeys(frontMatterConfig.Lastmod)
addKeys(frontMatterConfig.PublishDate)
f := FrontMatterHandler{logger: logger, fmConfig: frontMatterConfig, allDateKeys: allDateKeys}
if err := f.createHandlers(); err != nil {
return f, err
}
return f, nil
}
func (f *FrontMatterHandler) createHandlers() error {
var err error
if f.contentAdapterDatesHandler, err = f.createContentAdapterDatesHandler(f.fmConfig); err != nil {
return err
}
if f.dateHandler, err = f.createDateHandler(f.fmConfig.Date,
func(d *FrontMatterDescriptor, t time.Time) {
d.PageConfig.Dates.Date = t
setParamIfNotSet(fmDate, t, d)
}); err != nil {
return err
}
if f.lastModHandler, err = f.createDateHandler(f.fmConfig.Lastmod,
func(d *FrontMatterDescriptor, t time.Time) {
setParamIfNotSet(fmLastmod, t, d)
d.PageConfig.Dates.Lastmod = t
}); err != nil {
return err
}
if f.publishDateHandler, err = f.createDateHandler(f.fmConfig.PublishDate,
func(d *FrontMatterDescriptor, t time.Time) {
setParamIfNotSet(fmPubDate, t, d)
d.PageConfig.Dates.PublishDate = t
}); err != nil {
return err
}
if f.expiryDateHandler, err = f.createDateHandler(f.fmConfig.ExpiryDate,
func(d *FrontMatterDescriptor, t time.Time) {
setParamIfNotSet(fmExpiryDate, t, d)
d.PageConfig.Dates.ExpiryDate = t
}); err != nil {
return err
}
return nil
}
func setParamIfNotSet(key string, value any, d *FrontMatterDescriptor) {
if _, found := d.PageConfig.Params[key]; found {
return
}
d.PageConfig.Params[key] = value
}
func (f FrontMatterHandler) createContentAdapterDatesHandler(fmcfg FrontmatterConfig) (func(d *FrontMatterDescriptor) error, error) {
setTime := func(key string, value time.Time, in *PageConfig) {
switch key {
case fmDate:
in.Dates.Date = value
case fmLastmod:
in.Dates.Lastmod = value
case fmPubDate:
in.Dates.PublishDate = value
case fmExpiryDate:
in.Dates.ExpiryDate = value
}
}
getTime := func(key string, in *PageConfig) time.Time {
switch key {
case fmDate:
return in.Dates.Date
case fmLastmod:
return in.Dates.Lastmod
case fmPubDate:
return in.Dates.PublishDate
case fmExpiryDate:
return in.Dates.ExpiryDate
}
return time.Time{}
}
createSetter := func(identifiers []string, date string) func(pcfg *PageConfig) {
var getTimes []func(in *PageConfig) time.Time
for _, identifier := range identifiers {
if strings.HasPrefix(identifier, ":") {
continue
}
switch identifier {
case fmDate:
getTimes = append(getTimes, func(in *PageConfig) time.Time {
return getTime(fmDate, in)
})
case fmLastmod:
getTimes = append(getTimes, func(in *PageConfig) time.Time {
return getTime(fmLastmod, in)
})
case fmPubDate:
getTimes = append(getTimes, func(in *PageConfig) time.Time {
return getTime(fmPubDate, in)
})
case fmExpiryDate:
getTimes = append(getTimes, func(in *PageConfig) time.Time {
return getTime(fmExpiryDate, in)
})
}
}
return func(pcfg *PageConfig) {
for _, get := range getTimes {
if t := get(pcfg); !t.IsZero() {
setTime(date, t, pcfg)
return
}
}
}
}
setDate := createSetter(fmcfg.Date, fmDate)
setLastmod := createSetter(fmcfg.Lastmod, fmLastmod)
setPublishDate := createSetter(fmcfg.PublishDate, fmPubDate)
setExpiryDate := createSetter(fmcfg.ExpiryDate, fmExpiryDate)
fn := func(d *FrontMatterDescriptor) error {
pcfg := d.PageConfig
setDate(pcfg)
setLastmod(pcfg)
setPublishDate(pcfg)
setExpiryDate(pcfg)
return nil
}
return fn, nil
}
func (f FrontMatterHandler) createDateHandler(identifiers []string, setter func(d *FrontMatterDescriptor, t time.Time)) (frontMatterFieldHandler, error) {
var h *frontmatterFieldHandlers
var handlers []frontMatterFieldHandler
for _, identifier := range identifiers {
switch identifier {
case fmFilename:
handlers = append(handlers, h.newDateFilenameHandler(setter))
case fmModTime:
handlers = append(handlers, h.newDateModTimeHandler(setter))
case fmGitAuthorDate:
handlers = append(handlers, h.newDateGitAuthorDateHandler(setter))
default:
handlers = append(handlers, h.newDateFieldHandler(identifier, setter))
}
}
return f.newChainedFrontMatterFieldHandler(handlers...), nil
}
type frontmatterFieldHandlers int
func (f *frontmatterFieldHandlers) newDateFieldHandler(key string, setter func(d *FrontMatterDescriptor, t time.Time)) frontMatterFieldHandler {
return func(d *FrontMatterDescriptor) (bool, error) {
v, found := d.PageConfig.Params[key]
if !found {
return false, nil
}
var date time.Time
if vt, ok := v.(time.Time); ok && vt.Location() == d.Location {
date = vt
} else {
var err error
date, err = htime.ToTimeInDefaultLocationE(v, d.Location)
if err != nil {
return false, nil
}
d.PageConfig.Params[key] = date
}
// We map several date keys to one, so, for example,
// "expirydate", "unpublishdate" will all set .ExpiryDate (first found).
setter(d, date)
return true, nil
}
}
func (f *frontmatterFieldHandlers) newDateFilenameHandler(setter func(d *FrontMatterDescriptor, t time.Time)) frontMatterFieldHandler {
return func(d *FrontMatterDescriptor) (bool, error) {
date, slug := dateAndSlugFromBaseFilename(d.Location, d.BaseFilename)
if date.IsZero() {
return false, nil
}
setter(d, date)
if _, found := d.PageConfig.Params["slug"]; !found {
// Use slug from filename
d.PageConfig.Slug = slug
}
return true, nil
}
}
func (f *frontmatterFieldHandlers) newDateModTimeHandler(setter func(d *FrontMatterDescriptor, t time.Time)) frontMatterFieldHandler {
return func(d *FrontMatterDescriptor) (bool, error) {
if d.ModTime.IsZero() {
return false, nil
}
setter(d, d.ModTime)
return true, nil
}
}
func (f *frontmatterFieldHandlers) newDateGitAuthorDateHandler(setter func(d *FrontMatterDescriptor, t time.Time)) frontMatterFieldHandler {
return func(d *FrontMatterDescriptor) (bool, error) {
if d.GitAuthorDate.IsZero() {
return false, nil
}
setter(d, d.GitAuthorDate)
return true, nil
}
}