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// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package references
import (
"net/url"
"regexp"
"strconv"
"strings"
"sync"
"code.gitea.io/gitea/modules/markup/mdstripper"
"code.gitea.io/gitea/modules/setting"
)
var (
// validNamePattern performs only the most basic validation for user or repository names
// Repository name should contain only alphanumeric, dash ('-'), underscore ('_') and dot ('.') characters.
validNamePattern = regexp.MustCompile(`^[a-z0-9_.-]+$`)
// NOTE: All below regex matching do not perform any extra validation.
// Thus a link is produced even if the linked entity does not exist.
// While fast, this is also incorrect and lead to false positives.
// TODO: fix invalid linking issue
// mentionPattern matches all mentions in the form of "@user"
mentionPattern = regexp.MustCompile(`(?:\s|^|\(|\[)(@[0-9a-zA-Z-_\.]+)(?:\s|$|\)|\])`)
// issueNumericPattern matches string that references to a numeric issue, e.g. #1287
issueNumericPattern = regexp.MustCompile(`(?:\s|^|\(|\[)(#[0-9]+)(?:\s|$|\)|\]|:|\.(\s|$))`)
// issueAlphanumericPattern matches string that references to an alphanumeric issue, e.g. ABC-1234
issueAlphanumericPattern = regexp.MustCompile(`(?:\s|^|\(|\[)([A-Z]{1,10}-[1-9][0-9]*)(?:\s|$|\)|\]|:|\.(\s|$))`)
// crossReferenceIssueNumericPattern matches string that references a numeric issue in a different repository
// e.g. gogits/gogs#12345
crossReferenceIssueNumericPattern = regexp.MustCompile(`(?:\s|^|\(|\[)([0-9a-zA-Z-_\.]+/[0-9a-zA-Z-_\.]+#[0-9]+)(?:\s|$|\)|\]|\.(\s|$))`)
// Same as GitHub. See
// https://help.github.com/articles/closing-issues-via-commit-messages
issueCloseKeywords = []string{"close", "closes", "closed", "fix", "fixes", "fixed", "resolve", "resolves", "resolved"}
issueReopenKeywords = []string{"reopen", "reopens", "reopened"}
issueCloseKeywordsPat, issueReopenKeywordsPat *regexp.Regexp
giteaHostInit sync.Once
giteaHost string
)
// XRefAction represents the kind of effect a cross reference has once is resolved
type XRefAction int64
const (
// XRefActionNone means the cross-reference is simply a comment
XRefActionNone XRefAction = iota // 0
// XRefActionCloses means the cross-reference should close an issue if it is resolved
XRefActionCloses // 1
// XRefActionReopens means the cross-reference should reopen an issue if it is resolved
XRefActionReopens // 2
// XRefActionNeutered means the cross-reference will no longer affect the source
XRefActionNeutered // 3
)
// IssueReference contains an unverified cross-reference to a local issue or pull request
type IssueReference struct {
Index int64
Owner string
Name string
Action XRefAction
}
// RenderizableReference contains an unverified cross-reference to with rendering information
type RenderizableReference struct {
Issue string
Owner string
Name string
RefLocation *RefSpan
Action XRefAction
ActionLocation *RefSpan
}
type rawReference struct {
index int64
owner string
name string
action XRefAction
issue string
refLocation *RefSpan
actionLocation *RefSpan
}
func rawToIssueReferenceList(reflist []*rawReference) []IssueReference {
refarr := make([]IssueReference, len(reflist))
for i, r := range reflist {
refarr[i] = IssueReference{
Index: r.index,
Owner: r.owner,
Name: r.name,
Action: r.action,
}
}
return refarr
}
// RefSpan is the position where the reference was found within the parsed text
type RefSpan struct {
Start int
End int
}
func makeKeywordsPat(keywords []string) *regexp.Regexp {
return regexp.MustCompile(`(?i)(?:\s|^|\(|\[)(` + strings.Join(keywords, `|`) + `):? $`)
}
func init() {
issueCloseKeywordsPat = makeKeywordsPat(issueCloseKeywords)
issueReopenKeywordsPat = makeKeywordsPat(issueReopenKeywords)
}
// getGiteaHostName returns a normalized string with the local host name, with no scheme or port information
func getGiteaHostName() string {
giteaHostInit.Do(func() {
if uapp, err := url.Parse(setting.AppURL); err == nil {
giteaHost = strings.ToLower(uapp.Host)
} else {
giteaHost = ""
}
})
return giteaHost
}
// FindAllMentionsMarkdown matches mention patterns in given content and
// returns a list of found unvalidated user names **not including** the @ prefix.
func FindAllMentionsMarkdown(content string) []string {
bcontent, _ := mdstripper.StripMarkdownBytes([]byte(content))
locations := FindAllMentionsBytes(bcontent)
mentions := make([]string, len(locations))
for i, val := range locations {
mentions[i] = string(bcontent[val.Start+1 : val.End])
}
return mentions
}
// FindAllMentionsBytes matches mention patterns in given content
// and returns a list of locations for the unvalidated user names, including the @ prefix.
func FindAllMentionsBytes(content []byte) []RefSpan {
mentions := mentionPattern.FindAllSubmatchIndex(content, -1)
ret := make([]RefSpan, len(mentions))
for i, val := range mentions {
ret[i] = RefSpan{Start: val[2], End: val[3]}
}
return ret
}
// FindFirstMentionBytes matches the first mention in then given content
// and returns the location of the unvalidated user name, including the @ prefix.
func FindFirstMentionBytes(content []byte) (bool, RefSpan) {
mention := mentionPattern.FindSubmatchIndex(content)
if mention == nil {
return false, RefSpan{}
}
return true, RefSpan{Start: mention[2], End: mention[3]}
}
// FindAllIssueReferencesMarkdown strips content from markdown markup
// and returns a list of unvalidated references found in it.
func FindAllIssueReferencesMarkdown(content string) []IssueReference {
return rawToIssueReferenceList(findAllIssueReferencesMarkdown(content))
}
func findAllIssueReferencesMarkdown(content string) []*rawReference {
bcontent, links := mdstripper.StripMarkdownBytes([]byte(content))
return findAllIssueReferencesBytes(bcontent, links)
}
// FindAllIssueReferences returns a list of unvalidated references found in a string.
func FindAllIssueReferences(content string) []IssueReference {
return rawToIssueReferenceList(findAllIssueReferencesBytes([]byte(content), []string{}))
}
// FindRenderizableReferenceNumeric returns the first unvalidated reference found in a string.
func FindRenderizableReferenceNumeric(content string) (bool, *RenderizableReference) {
match := issueNumericPattern.FindStringSubmatchIndex(content)
if match == nil {
if match = crossReferenceIssueNumericPattern.FindStringSubmatchIndex(content); match == nil {
return false, nil
}
}
r := getCrossReference([]byte(content), match[2], match[3], false)
if r == nil {
return false, nil
}
return true, &RenderizableReference{
Issue: r.issue,
Owner: r.owner,
Name: r.name,
RefLocation: r.refLocation,
Action: r.action,
ActionLocation: r.actionLocation,
}
}
// FindRenderizableReferenceAlphanumeric returns the first alphanumeric unvalidated references found in a string.
func FindRenderizableReferenceAlphanumeric(content string) (bool, *RenderizableReference) {
match := issueAlphanumericPattern.FindStringSubmatchIndex(content)
if match == nil {
return false, nil
}
action, location := findActionKeywords([]byte(content), match[2])
return true, &RenderizableReference{
Issue: string(content[match[2]:match[3]]),
RefLocation: &RefSpan{Start: match[2], End: match[3]},
Action: action,
ActionLocation: location,
}
}
// FindAllIssueReferencesBytes returns a list of unvalidated references found in a byte slice.
func findAllIssueReferencesBytes(content []byte, links []string) []*rawReference {
ret := make([]*rawReference, 0, 10)
matches := issueNumericPattern.FindAllSubmatchIndex(content, -1)
for _, match := range matches {
if ref := getCrossReference(content, match[2], match[3], false); ref != nil {
ret = append(ret, ref)
}
}
matches = crossReferenceIssueNumericPattern.FindAllSubmatchIndex(content, -1)
for _, match := range matches {
if ref := getCrossReference(content, match[2], match[3], false); ref != nil {
ret = append(ret, ref)
}
}
localhost := getGiteaHostName()
for _, link := range links {
if u, err := url.Parse(link); err == nil {
// Note: we're not attempting to match the URL scheme (http/https)
host := strings.ToLower(u.Host)
if host != "" && host != localhost {
continue
}
parts := strings.Split(u.EscapedPath(), "/")
// /user/repo/issues/3
if len(parts) != 5 || parts[0] != "" {
continue
}
if parts[3] != "issues" && parts[3] != "pulls" {
continue
}
// Note: closing/reopening keywords not supported with URLs
bytes := []byte(parts[1] + "/" + parts[2] + "#" + parts[4])
if ref := getCrossReference(bytes, 0, len(bytes), true); ref != nil {
ref.refLocation = nil
ret = append(ret, ref)
}
}
}
return ret
}
func getCrossReference(content []byte, start, end int, fromLink bool) *rawReference {
refid := string(content[start:end])
parts := strings.Split(refid, "#")
if len(parts) != 2 {
return nil
}
repo, issue := parts[0], parts[1]
index, err := strconv.ParseInt(issue, 10, 64)
if err != nil {
return nil
}
if repo == "" {
if fromLink {
// Markdown links must specify owner/repo
return nil
}
action, location := findActionKeywords(content, start)
return &rawReference{
index: index,
action: action,
issue: issue,
refLocation: &RefSpan{Start: start, End: end},
actionLocation: location,
}
}
parts = strings.Split(strings.ToLower(repo), "/")
if len(parts) != 2 {
return nil
}
owner, name := parts[0], parts[1]
if !validNamePattern.MatchString(owner) || !validNamePattern.MatchString(name) {
return nil
}
action, location := findActionKeywords(content, start)
return &rawReference{
index: index,
owner: owner,
name: name,
action: action,
issue: issue,
refLocation: &RefSpan{Start: start, End: end},
actionLocation: location,
}
}
func findActionKeywords(content []byte, start int) (XRefAction, *RefSpan) {
m := issueCloseKeywordsPat.FindSubmatchIndex(content[:start])
if m != nil {
return XRefActionCloses, &RefSpan{Start: m[2], End: m[3]}
}
m = issueReopenKeywordsPat.FindSubmatchIndex(content[:start])
if m != nil {
return XRefActionReopens, &RefSpan{Start: m[2], End: m[3]}
}
return XRefActionNone, nil
}
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