gitea/modules/context/repo.go
zeripath e77b76425e
Prepend refs/heads/ to issue template refs (#20461)
Fix #20456

At some point during the 1.17 cycle abbreviated refishs to issue
branches started breaking. This is likely due serious inconsistencies in
our management of refs throughout Gitea - which is a bug needing to be
addressed in a different PR. (Likely more than one)

We should try to use non-abbreviated `fullref`s as much as possible.
That is where a user has inputted a abbreviated `refish` we should add
`refs/heads/` if it is `branch` etc. I know people keep writing and
merging PRs that remove prefixes from stored content but it is just
wrong and it keeps causing problems like this. We should only remove the
prefix at the time of
presentation as the prefix is the only way of knowing umambiguously and
permanently if the `ref` is referring to a `branch`, `tag` or `commit` /
`SHA`. We need to make it so that every ref has the appropriate prefix,
and probably also need to come up with some definitely unambiguous way
of storing `SHA`s if they're used in a `ref` or `refish` field. We must
not store a potentially
ambiguous `refish` as a `ref`. (Especially when referring a `tag` -
there is no reason why users cannot create a `branch` with the same
short name as a `tag` and vice versa and any attempt to prevent this
will fail. You can even create a `branch` and a
`tag` that matches the `SHA` pattern.)

To that end in order to fix this bug, when parsing issue templates check
the provided `Ref` (here a `refish` because almost all users do not know
or understand the subtly), if it does not start with `refs/` add the
`BranchPrefix` to it. This allows people to make their templates refer
to a `tag` but not to a `SHA` directly. (I don't think that is
particularly unreasonable but if people disagree I can make the `refish`
be checked to see if it matches the `SHA` pattern.)

Next we need to handle the issue links that are already written. The
links here are created with `git.RefURL`

Here we see there is a bug introduced in #17551 whereby the provided
`ref` argument can be double-escaped so we remove the incorrect external
escape. (The escape added in #17551 is in the right place -
unfortunately I missed that the calling function was doing the wrong
thing.)

Then within `RefURL()` we check if an unprefixed `ref` (therefore
potentially a `refish`) matches the `SHA` pattern before assuming that
is actually a `commit` - otherwise is assumed to be a `branch`. This
will handle most of the problem cases excepting the very unusual cases
where someone has deliberately written a `branch` to look like a `SHA1`.

But please if something is called a `ref` or interpreted as a `ref` make
it a full-ref before storing or using it. By all means if something is a
`branch` assume the prefix is removed but always add it back in if you
are using it as a `ref`. Stop storing abbreviated `branch` names and
`tag` names - which are `refish` as a `ref`. It will keep on causing
problems like this.

Fix #20456

Signed-off-by: Andrew Thornton <art27@cantab.net>
Co-authored-by: Lauris BH <lauris@nix.lv>
Co-authored-by: wxiaoguang <wxiaoguang@gmail.com>
Co-authored-by: Lunny Xiao <xiaolunwen@gmail.com>
2022-11-22 20:58:49 +08:00

1101 lines
35 KiB
Go

// Copyright 2014 The Gogs Authors. All rights reserved.
// Copyright 2017 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 context
import (
"context"
"fmt"
"html"
"net/http"
"net/url"
"path"
"strings"
"code.gitea.io/gitea/models"
"code.gitea.io/gitea/models/db"
git_model "code.gitea.io/gitea/models/git"
issues_model "code.gitea.io/gitea/models/issues"
access_model "code.gitea.io/gitea/models/perm/access"
repo_model "code.gitea.io/gitea/models/repo"
unit_model "code.gitea.io/gitea/models/unit"
user_model "code.gitea.io/gitea/models/user"
"code.gitea.io/gitea/modules/cache"
"code.gitea.io/gitea/modules/git"
code_indexer "code.gitea.io/gitea/modules/indexer/code"
"code.gitea.io/gitea/modules/issue/template"
"code.gitea.io/gitea/modules/log"
repo_module "code.gitea.io/gitea/modules/repository"
"code.gitea.io/gitea/modules/setting"
api "code.gitea.io/gitea/modules/structs"
"code.gitea.io/gitea/modules/util"
asymkey_service "code.gitea.io/gitea/services/asymkey"
"github.com/editorconfig/editorconfig-core-go/v2"
)
// IssueTemplateDirCandidates issue templates directory
var IssueTemplateDirCandidates = []string{
"ISSUE_TEMPLATE",
"issue_template",
".gitea/ISSUE_TEMPLATE",
".gitea/issue_template",
".github/ISSUE_TEMPLATE",
".github/issue_template",
".gitlab/ISSUE_TEMPLATE",
".gitlab/issue_template",
}
// PullRequest contains information to make a pull request
type PullRequest struct {
BaseRepo *repo_model.Repository
Allowed bool
SameRepo bool
HeadInfoSubURL string // [<user>:]<branch> url segment
}
// Repository contains information to operate a repository
type Repository struct {
access_model.Permission
IsWatching bool
IsViewBranch bool
IsViewTag bool
IsViewCommit bool
Repository *repo_model.Repository
Owner *user_model.User
Commit *git.Commit
Tag *git.Tag
GitRepo *git.Repository
RefName string
BranchName string
TagName string
TreePath string
CommitID string
RepoLink string
CloneLink repo_model.CloneLink
CommitsCount int64
Mirror *repo_model.Mirror
PullRequest *PullRequest
}
// CanWriteToBranch checks if the branch is writable by the user
func (r *Repository) CanWriteToBranch(user *user_model.User, branch string) bool {
return issues_model.CanMaintainerWriteToBranch(r.Permission, branch, user)
}
// CanEnableEditor returns true if repository is editable and user has proper access level.
func (r *Repository) CanEnableEditor(user *user_model.User) bool {
return r.IsViewBranch && r.CanWriteToBranch(user, r.BranchName) && r.Repository.CanEnableEditor() && !r.Repository.IsArchived
}
// CanCreateBranch returns true if repository is editable and user has proper access level.
func (r *Repository) CanCreateBranch() bool {
return r.Permission.CanWrite(unit_model.TypeCode) && r.Repository.CanCreateBranch()
}
// RepoMustNotBeArchived checks if a repo is archived
func RepoMustNotBeArchived() func(ctx *Context) {
return func(ctx *Context) {
if ctx.Repo.Repository.IsArchived {
ctx.NotFound("IsArchived", fmt.Errorf(ctx.Tr("repo.archive.title")))
}
}
}
// CanCommitToBranchResults represents the results of CanCommitToBranch
type CanCommitToBranchResults struct {
CanCommitToBranch bool
EditorEnabled bool
UserCanPush bool
RequireSigned bool
WillSign bool
SigningKey string
WontSignReason string
}
// CanCommitToBranch returns true if repository is editable and user has proper access level
//
// and branch is not protected for push
func (r *Repository) CanCommitToBranch(ctx context.Context, doer *user_model.User) (CanCommitToBranchResults, error) {
protectedBranch, err := git_model.GetProtectedBranchBy(ctx, r.Repository.ID, r.BranchName)
if err != nil {
return CanCommitToBranchResults{}, err
}
userCanPush := true
requireSigned := false
if protectedBranch != nil {
userCanPush = protectedBranch.CanUserPush(doer.ID)
requireSigned = protectedBranch.RequireSignedCommits
}
sign, keyID, _, err := asymkey_service.SignCRUDAction(ctx, r.Repository.RepoPath(), doer, r.Repository.RepoPath(), git.BranchPrefix+r.BranchName)
canCommit := r.CanEnableEditor(doer) && userCanPush
if requireSigned {
canCommit = canCommit && sign
}
wontSignReason := ""
if err != nil {
if asymkey_service.IsErrWontSign(err) {
wontSignReason = string(err.(*asymkey_service.ErrWontSign).Reason)
err = nil
} else {
wontSignReason = "error"
}
}
return CanCommitToBranchResults{
CanCommitToBranch: canCommit,
EditorEnabled: r.CanEnableEditor(doer),
UserCanPush: userCanPush,
RequireSigned: requireSigned,
WillSign: sign,
SigningKey: keyID,
WontSignReason: wontSignReason,
}, err
}
// CanUseTimetracker returns whether or not a user can use the timetracker.
func (r *Repository) CanUseTimetracker(issue *issues_model.Issue, user *user_model.User) bool {
// Checking for following:
// 1. Is timetracker enabled
// 2. Is the user a contributor, admin, poster or assignee and do the repository policies require this?
isAssigned, _ := issues_model.IsUserAssignedToIssue(db.DefaultContext, issue, user)
return r.Repository.IsTimetrackerEnabled() && (!r.Repository.AllowOnlyContributorsToTrackTime() ||
r.Permission.CanWriteIssuesOrPulls(issue.IsPull) || issue.IsPoster(user.ID) || isAssigned)
}
// CanCreateIssueDependencies returns whether or not a user can create dependencies.
func (r *Repository) CanCreateIssueDependencies(user *user_model.User, isPull bool) bool {
return r.Repository.IsDependenciesEnabled() && r.Permission.CanWriteIssuesOrPulls(isPull)
}
// GetCommitsCount returns cached commit count for current view
func (r *Repository) GetCommitsCount() (int64, error) {
var contextName string
if r.IsViewBranch {
contextName = r.BranchName
} else if r.IsViewTag {
contextName = r.TagName
} else {
contextName = r.CommitID
}
return cache.GetInt64(r.Repository.GetCommitsCountCacheKey(contextName, r.IsViewBranch || r.IsViewTag), func() (int64, error) {
return r.Commit.CommitsCount()
})
}
// GetCommitGraphsCount returns cached commit count for current view
func (r *Repository) GetCommitGraphsCount(ctx context.Context, hidePRRefs bool, branches, files []string) (int64, error) {
cacheKey := fmt.Sprintf("commits-count-%d-graph-%t-%s-%s", r.Repository.ID, hidePRRefs, branches, files)
return cache.GetInt64(cacheKey, func() (int64, error) {
if len(branches) == 0 {
return git.AllCommitsCount(ctx, r.Repository.RepoPath(), hidePRRefs, files...)
}
return git.CommitsCountFiles(ctx, r.Repository.RepoPath(), branches, files)
})
}
// BranchNameSubURL sub-URL for the BranchName field
func (r *Repository) BranchNameSubURL() string {
switch {
case r.IsViewBranch:
return "branch/" + util.PathEscapeSegments(r.BranchName)
case r.IsViewTag:
return "tag/" + util.PathEscapeSegments(r.TagName)
case r.IsViewCommit:
return "commit/" + util.PathEscapeSegments(r.CommitID)
}
log.Error("Unknown view type for repo: %v", r)
return ""
}
// FileExists returns true if a file exists in the given repo branch
func (r *Repository) FileExists(path, branch string) (bool, error) {
if branch == "" {
branch = r.Repository.DefaultBranch
}
commit, err := r.GitRepo.GetBranchCommit(branch)
if err != nil {
return false, err
}
if _, err := commit.GetTreeEntryByPath(path); err != nil {
return false, err
}
return true, nil
}
// GetEditorconfig returns the .editorconfig definition if found in the
// HEAD of the default repo branch.
func (r *Repository) GetEditorconfig(optCommit ...*git.Commit) (*editorconfig.Editorconfig, error) {
if r.GitRepo == nil {
return nil, nil
}
var (
err error
commit *git.Commit
)
if len(optCommit) != 0 {
commit = optCommit[0]
} else {
commit, err = r.GitRepo.GetBranchCommit(r.Repository.DefaultBranch)
if err != nil {
return nil, err
}
}
treeEntry, err := commit.GetTreeEntryByPath(".editorconfig")
if err != nil {
return nil, err
}
if treeEntry.Blob().Size() >= setting.UI.MaxDisplayFileSize {
return nil, git.ErrNotExist{ID: "", RelPath: ".editorconfig"}
}
reader, err := treeEntry.Blob().DataAsync()
if err != nil {
return nil, err
}
defer reader.Close()
return editorconfig.Parse(reader)
}
// RetrieveBaseRepo retrieves base repository
func RetrieveBaseRepo(ctx *Context, repo *repo_model.Repository) {
// Non-fork repository will not return error in this method.
if err := repo.GetBaseRepo(); err != nil {
if repo_model.IsErrRepoNotExist(err) {
repo.IsFork = false
repo.ForkID = 0
return
}
ctx.ServerError("GetBaseRepo", err)
return
} else if err = repo.BaseRepo.GetOwner(ctx); err != nil {
ctx.ServerError("BaseRepo.GetOwner", err)
return
}
}
// RetrieveTemplateRepo retrieves template repository used to generate this repository
func RetrieveTemplateRepo(ctx *Context, repo *repo_model.Repository) {
// Non-generated repository will not return error in this method.
templateRepo, err := repo_model.GetTemplateRepo(ctx, repo)
if err != nil {
if repo_model.IsErrRepoNotExist(err) {
repo.TemplateID = 0
return
}
ctx.ServerError("GetTemplateRepo", err)
return
} else if err = templateRepo.GetOwner(ctx); err != nil {
ctx.ServerError("TemplateRepo.GetOwner", err)
return
}
perm, err := access_model.GetUserRepoPermission(ctx, templateRepo, ctx.Doer)
if err != nil {
ctx.ServerError("GetUserRepoPermission", err)
return
}
if !perm.CanRead(unit_model.TypeCode) {
repo.TemplateID = 0
}
}
// ComposeGoGetImport returns go-get-import meta content.
func ComposeGoGetImport(owner, repo string) string {
/// setting.AppUrl is guaranteed to be parse as url
appURL, _ := url.Parse(setting.AppURL)
return path.Join(appURL.Host, setting.AppSubURL, url.PathEscape(owner), url.PathEscape(repo))
}
// EarlyResponseForGoGetMeta responses appropriate go-get meta with status 200
// if user does not have actual access to the requested repository,
// or the owner or repository does not exist at all.
// This is particular a workaround for "go get" command which does not respect
// .netrc file.
func EarlyResponseForGoGetMeta(ctx *Context) {
username := ctx.Params(":username")
reponame := strings.TrimSuffix(ctx.Params(":reponame"), ".git")
if username == "" || reponame == "" {
ctx.PlainText(http.StatusBadRequest, "invalid repository path")
return
}
goImportContent := fmt.Sprintf("%s git %s", ComposeGoGetImport(username, reponame), repo_model.ComposeHTTPSCloneURL(username, reponame))
htmlMeta := fmt.Sprintf(`<meta name="go-import" content="%s">`, html.EscapeString(goImportContent))
ctx.PlainText(http.StatusOK, htmlMeta)
}
// RedirectToRepo redirect to a differently-named repository
func RedirectToRepo(ctx *Context, redirectRepoID int64) {
ownerName := ctx.Params(":username")
previousRepoName := ctx.Params(":reponame")
repo, err := repo_model.GetRepositoryByID(redirectRepoID)
if err != nil {
ctx.ServerError("GetRepositoryByID", err)
return
}
redirectPath := strings.Replace(
ctx.Req.URL.EscapedPath(),
url.PathEscape(ownerName)+"/"+url.PathEscape(previousRepoName),
url.PathEscape(repo.OwnerName)+"/"+url.PathEscape(repo.Name),
1,
)
if ctx.Req.URL.RawQuery != "" {
redirectPath += "?" + ctx.Req.URL.RawQuery
}
ctx.Redirect(path.Join(setting.AppSubURL, redirectPath), http.StatusTemporaryRedirect)
}
func repoAssignment(ctx *Context, repo *repo_model.Repository) {
var err error
if err = repo.GetOwner(ctx); err != nil {
ctx.ServerError("GetOwner", err)
return
}
ctx.Repo.Permission, err = access_model.GetUserRepoPermission(ctx, repo, ctx.Doer)
if err != nil {
ctx.ServerError("GetUserRepoPermission", err)
return
}
// Check access.
if !ctx.Repo.Permission.HasAccess() {
if ctx.FormString("go-get") == "1" {
EarlyResponseForGoGetMeta(ctx)
return
}
ctx.NotFound("no access right", nil)
return
}
ctx.Data["HasAccess"] = true
ctx.Data["Permission"] = &ctx.Repo.Permission
if repo.IsMirror {
ctx.Repo.Mirror, err = repo_model.GetMirrorByRepoID(ctx, repo.ID)
if err == nil {
ctx.Repo.Mirror.Repo = repo
ctx.Data["IsPullMirror"] = true
ctx.Data["MirrorEnablePrune"] = ctx.Repo.Mirror.EnablePrune
ctx.Data["MirrorInterval"] = ctx.Repo.Mirror.Interval
ctx.Data["Mirror"] = ctx.Repo.Mirror
} else if err != repo_model.ErrMirrorNotExist {
ctx.ServerError("GetMirrorByRepoID", err)
return
}
}
pushMirrors, _, err := repo_model.GetPushMirrorsByRepoID(ctx, repo.ID, db.ListOptions{})
if err != nil {
ctx.ServerError("GetPushMirrorsByRepoID", err)
return
}
ctx.Repo.Repository = repo
ctx.Data["PushMirrors"] = pushMirrors
ctx.Data["RepoName"] = ctx.Repo.Repository.Name
ctx.Data["IsEmptyRepo"] = ctx.Repo.Repository.IsEmpty
}
// RepoIDAssignment returns a handler which assigns the repo to the context.
func RepoIDAssignment() func(ctx *Context) {
return func(ctx *Context) {
repoID := ctx.ParamsInt64(":repoid")
// Get repository.
repo, err := repo_model.GetRepositoryByID(repoID)
if err != nil {
if repo_model.IsErrRepoNotExist(err) {
ctx.NotFound("GetRepositoryByID", nil)
} else {
ctx.ServerError("GetRepositoryByID", err)
}
return
}
repoAssignment(ctx, repo)
}
}
// RepoAssignment returns a middleware to handle repository assignment
func RepoAssignment(ctx *Context) (cancel context.CancelFunc) {
if _, repoAssignmentOnce := ctx.Data["repoAssignmentExecuted"]; repoAssignmentOnce {
log.Trace("RepoAssignment was exec already, skipping second call ...")
return
}
ctx.Data["repoAssignmentExecuted"] = true
var (
owner *user_model.User
err error
)
userName := ctx.Params(":username")
repoName := ctx.Params(":reponame")
repoName = strings.TrimSuffix(repoName, ".git")
if setting.EnableFeed {
repoName = strings.TrimSuffix(repoName, ".rss")
repoName = strings.TrimSuffix(repoName, ".atom")
}
// Check if the user is the same as the repository owner
if ctx.IsSigned && ctx.Doer.LowerName == strings.ToLower(userName) {
owner = ctx.Doer
} else {
owner, err = user_model.GetUserByName(ctx, userName)
if err != nil {
if user_model.IsErrUserNotExist(err) {
// go-get does not support redirects
// https://github.com/golang/go/issues/19760
if ctx.FormString("go-get") == "1" {
EarlyResponseForGoGetMeta(ctx)
return
}
if redirectUserID, err := user_model.LookupUserRedirect(userName); err == nil {
RedirectToUser(ctx, userName, redirectUserID)
} else if user_model.IsErrUserRedirectNotExist(err) {
ctx.NotFound("GetUserByName", nil)
} else {
ctx.ServerError("LookupUserRedirect", err)
}
} else {
ctx.ServerError("GetUserByName", err)
}
return
}
}
ctx.Repo.Owner = owner
ctx.ContextUser = owner
ctx.Data["Username"] = ctx.Repo.Owner.Name
// redirect link to wiki
if strings.HasSuffix(repoName, ".wiki") {
// ctx.Req.URL.Path does not have the preceding appSubURL - any redirect must have this added
// Now we happen to know that all of our paths are: /:username/:reponame/whatever_else
originalRepoName := ctx.Params(":reponame")
redirectRepoName := strings.TrimSuffix(repoName, ".wiki")
redirectRepoName += originalRepoName[len(redirectRepoName)+5:]
redirectPath := strings.Replace(
ctx.Req.URL.EscapedPath(),
url.PathEscape(userName)+"/"+url.PathEscape(originalRepoName),
url.PathEscape(userName)+"/"+url.PathEscape(redirectRepoName)+"/wiki",
1,
)
if ctx.Req.URL.RawQuery != "" {
redirectPath += "?" + ctx.Req.URL.RawQuery
}
ctx.Redirect(path.Join(setting.AppSubURL, redirectPath))
return
}
// Get repository.
repo, err := repo_model.GetRepositoryByName(owner.ID, repoName)
if err != nil {
if repo_model.IsErrRepoNotExist(err) {
redirectRepoID, err := repo_model.LookupRedirect(owner.ID, repoName)
if err == nil {
RedirectToRepo(ctx, redirectRepoID)
} else if repo_model.IsErrRedirectNotExist(err) {
if ctx.FormString("go-get") == "1" {
EarlyResponseForGoGetMeta(ctx)
return
}
ctx.NotFound("GetRepositoryByName", nil)
} else {
ctx.ServerError("LookupRepoRedirect", err)
}
} else {
ctx.ServerError("GetRepositoryByName", err)
}
return
}
repo.Owner = owner
repoAssignment(ctx, repo)
if ctx.Written() {
return
}
ctx.Repo.RepoLink = repo.Link()
ctx.Data["RepoLink"] = ctx.Repo.RepoLink
ctx.Data["RepoRelPath"] = ctx.Repo.Owner.Name + "/" + ctx.Repo.Repository.Name
unit, err := ctx.Repo.Repository.GetUnit(unit_model.TypeExternalTracker)
if err == nil {
ctx.Data["RepoExternalIssuesLink"] = unit.ExternalTrackerConfig().ExternalTrackerURL
}
ctx.Data["NumTags"], err = repo_model.GetReleaseCountByRepoID(ctx.Repo.Repository.ID, repo_model.FindReleasesOptions{
IncludeDrafts: true,
IncludeTags: true,
HasSha1: util.OptionalBoolTrue, // only draft releases which are created with existing tags
})
if err != nil {
ctx.ServerError("GetReleaseCountByRepoID", err)
return
}
ctx.Data["NumReleases"], err = repo_model.GetReleaseCountByRepoID(ctx.Repo.Repository.ID, repo_model.FindReleasesOptions{})
if err != nil {
ctx.ServerError("GetReleaseCountByRepoID", err)
return
}
ctx.Data["Title"] = owner.Name + "/" + repo.Name
ctx.Data["Repository"] = repo
ctx.Data["Owner"] = ctx.Repo.Repository.Owner
ctx.Data["IsRepositoryOwner"] = ctx.Repo.IsOwner()
ctx.Data["IsRepositoryAdmin"] = ctx.Repo.IsAdmin()
ctx.Data["RepoOwnerIsOrganization"] = repo.Owner.IsOrganization()
ctx.Data["CanWriteCode"] = ctx.Repo.CanWrite(unit_model.TypeCode)
ctx.Data["CanWriteIssues"] = ctx.Repo.CanWrite(unit_model.TypeIssues)
ctx.Data["CanWritePulls"] = ctx.Repo.CanWrite(unit_model.TypePullRequests)
canSignedUserFork, err := repo_module.CanUserForkRepo(ctx.Doer, ctx.Repo.Repository)
if err != nil {
ctx.ServerError("CanUserForkRepo", err)
return
}
ctx.Data["CanSignedUserFork"] = canSignedUserFork
userAndOrgForks, err := repo_model.GetForksByUserAndOrgs(ctx, ctx.Doer, ctx.Repo.Repository)
if err != nil {
ctx.ServerError("GetForksByUserAndOrgs", err)
return
}
ctx.Data["UserAndOrgForks"] = userAndOrgForks
// canSignedUserFork is true if the current user doesn't have a fork of this repo yet or
// if he owns an org that doesn't have a fork of this repo yet
// If multiple forks are available or if the user can fork to another account, but there is already a fork: open selection dialog
ctx.Data["ShowForkModal"] = len(userAndOrgForks) > 1 || (canSignedUserFork && len(userAndOrgForks) > 0)
ctx.Data["RepoCloneLink"] = repo.CloneLink()
cloneButtonShowHTTPS := !setting.Repository.DisableHTTPGit
cloneButtonShowSSH := !setting.SSH.Disabled && (ctx.IsSigned || setting.SSH.ExposeAnonymous)
if !cloneButtonShowHTTPS && !cloneButtonShowSSH {
// We have to show at least one link, so we just show the HTTPS
cloneButtonShowHTTPS = true
}
ctx.Data["CloneButtonShowHTTPS"] = cloneButtonShowHTTPS
ctx.Data["CloneButtonShowSSH"] = cloneButtonShowSSH
ctx.Data["CloneButtonOriginLink"] = ctx.Data["RepoCloneLink"] // it may be rewritten to the WikiCloneLink by the router middleware
ctx.Data["RepoSearchEnabled"] = setting.Indexer.RepoIndexerEnabled
if setting.Indexer.RepoIndexerEnabled {
ctx.Data["CodeIndexerUnavailable"] = !code_indexer.IsAvailable()
}
if ctx.IsSigned {
ctx.Data["IsWatchingRepo"] = repo_model.IsWatching(ctx.Doer.ID, repo.ID)
ctx.Data["IsStaringRepo"] = repo_model.IsStaring(ctx, ctx.Doer.ID, repo.ID)
}
if repo.IsFork {
RetrieveBaseRepo(ctx, repo)
if ctx.Written() {
return
}
}
if repo.IsGenerated() {
RetrieveTemplateRepo(ctx, repo)
if ctx.Written() {
return
}
}
isHomeOrSettings := ctx.Link == ctx.Repo.RepoLink || ctx.Link == ctx.Repo.RepoLink+"/settings" || strings.HasPrefix(ctx.Link, ctx.Repo.RepoLink+"/settings/")
// Disable everything when the repo is being created
if ctx.Repo.Repository.IsBeingCreated() || ctx.Repo.Repository.IsBroken() {
ctx.Data["BranchName"] = ctx.Repo.Repository.DefaultBranch
if !isHomeOrSettings {
ctx.Redirect(ctx.Repo.RepoLink)
}
return
}
gitRepo, err := git.OpenRepository(ctx, repo_model.RepoPath(userName, repoName))
if err != nil {
if strings.Contains(err.Error(), "repository does not exist") || strings.Contains(err.Error(), "no such file or directory") {
log.Error("Repository %-v has a broken repository on the file system: %s Error: %v", ctx.Repo.Repository, ctx.Repo.Repository.RepoPath(), err)
ctx.Repo.Repository.Status = repo_model.RepositoryBroken
ctx.Repo.Repository.IsEmpty = true
ctx.Data["BranchName"] = ctx.Repo.Repository.DefaultBranch
// Only allow access to base of repo or settings
if !isHomeOrSettings {
ctx.Redirect(ctx.Repo.RepoLink)
}
return
}
ctx.ServerError("RepoAssignment Invalid repo "+repo_model.RepoPath(userName, repoName), err)
return
}
if ctx.Repo.GitRepo != nil {
ctx.Repo.GitRepo.Close()
}
ctx.Repo.GitRepo = gitRepo
// We opened it, we should close it
cancel = func() {
// If it's been set to nil then assume someone else has closed it.
if ctx.Repo.GitRepo != nil {
ctx.Repo.GitRepo.Close()
}
}
// Stop at this point when the repo is empty.
if ctx.Repo.Repository.IsEmpty {
ctx.Data["BranchName"] = ctx.Repo.Repository.DefaultBranch
return
}
tags, err := ctx.Repo.GitRepo.GetTags(0, 0)
if err != nil {
if strings.Contains(err.Error(), "fatal: not a git repository ") {
log.Error("Repository %-v has a broken repository on the file system: %s Error: %v", ctx.Repo.Repository, ctx.Repo.Repository.RepoPath(), err)
ctx.Repo.Repository.Status = repo_model.RepositoryBroken
ctx.Repo.Repository.IsEmpty = true
ctx.Data["BranchName"] = ctx.Repo.Repository.DefaultBranch
// Only allow access to base of repo or settings
if !isHomeOrSettings {
ctx.Redirect(ctx.Repo.RepoLink)
}
return
}
ctx.ServerError("GetTags", err)
return
}
ctx.Data["Tags"] = tags
brs, _, err := ctx.Repo.GitRepo.GetBranchNames(0, 0)
if err != nil {
ctx.ServerError("GetBranches", err)
return
}
ctx.Data["Branches"] = brs
ctx.Data["BranchesCount"] = len(brs)
// If not branch selected, try default one.
// If default branch doesn't exists, fall back to some other branch.
if len(ctx.Repo.BranchName) == 0 {
if len(ctx.Repo.Repository.DefaultBranch) > 0 && gitRepo.IsBranchExist(ctx.Repo.Repository.DefaultBranch) {
ctx.Repo.BranchName = ctx.Repo.Repository.DefaultBranch
} else if len(brs) > 0 {
ctx.Repo.BranchName = brs[0]
}
ctx.Repo.RefName = ctx.Repo.BranchName
}
ctx.Data["BranchName"] = ctx.Repo.BranchName
// People who have push access or have forked repository can propose a new pull request.
canPush := ctx.Repo.CanWrite(unit_model.TypeCode) ||
(ctx.IsSigned && repo_model.HasForkedRepo(ctx.Doer.ID, ctx.Repo.Repository.ID))
canCompare := false
// Pull request is allowed if this is a fork repository
// and base repository accepts pull requests.
if repo.BaseRepo != nil && repo.BaseRepo.AllowsPulls() {
canCompare = true
ctx.Data["BaseRepo"] = repo.BaseRepo
ctx.Repo.PullRequest.BaseRepo = repo.BaseRepo
ctx.Repo.PullRequest.Allowed = canPush
ctx.Repo.PullRequest.HeadInfoSubURL = url.PathEscape(ctx.Repo.Owner.Name) + ":" + util.PathEscapeSegments(ctx.Repo.BranchName)
} else if repo.AllowsPulls() {
// Or, this is repository accepts pull requests between branches.
canCompare = true
ctx.Data["BaseRepo"] = repo
ctx.Repo.PullRequest.BaseRepo = repo
ctx.Repo.PullRequest.Allowed = canPush
ctx.Repo.PullRequest.SameRepo = true
ctx.Repo.PullRequest.HeadInfoSubURL = util.PathEscapeSegments(ctx.Repo.BranchName)
}
ctx.Data["CanCompareOrPull"] = canCompare
ctx.Data["PullRequestCtx"] = ctx.Repo.PullRequest
if ctx.Repo.Repository.Status == repo_model.RepositoryPendingTransfer {
repoTransfer, err := models.GetPendingRepositoryTransfer(ctx.Repo.Repository)
if err != nil {
ctx.ServerError("GetPendingRepositoryTransfer", err)
return
}
if err := repoTransfer.LoadAttributes(); err != nil {
ctx.ServerError("LoadRecipient", err)
return
}
ctx.Data["RepoTransfer"] = repoTransfer
if ctx.Doer != nil {
ctx.Data["CanUserAcceptTransfer"] = repoTransfer.CanUserAcceptTransfer(ctx.Doer)
}
}
if ctx.FormString("go-get") == "1" {
ctx.Data["GoGetImport"] = ComposeGoGetImport(owner.Name, repo.Name)
prefix := repo.HTMLURL() + "/src/branch/" + util.PathEscapeSegments(ctx.Repo.BranchName)
ctx.Data["GoDocDirectory"] = prefix + "{/dir}"
ctx.Data["GoDocFile"] = prefix + "{/dir}/{file}#L{line}"
}
return cancel
}
// RepoRefType type of repo reference
type RepoRefType int
const (
// RepoRefLegacy unknown type, make educated guess and redirect.
// for backward compatibility with previous URL scheme
RepoRefLegacy RepoRefType = iota
// RepoRefAny is for usage where educated guess is needed
// but redirect can not be made
RepoRefAny
// RepoRefBranch branch
RepoRefBranch
// RepoRefTag tag
RepoRefTag
// RepoRefCommit commit
RepoRefCommit
// RepoRefBlob blob
RepoRefBlob
)
// RepoRef handles repository reference names when the ref name is not
// explicitly given
func RepoRef() func(*Context) context.CancelFunc {
// since no ref name is explicitly specified, ok to just use branch
return RepoRefByType(RepoRefBranch)
}
// RefTypeIncludesBranches returns true if ref type can be a branch
func (rt RepoRefType) RefTypeIncludesBranches() bool {
if rt == RepoRefLegacy || rt == RepoRefAny || rt == RepoRefBranch {
return true
}
return false
}
// RefTypeIncludesTags returns true if ref type can be a tag
func (rt RepoRefType) RefTypeIncludesTags() bool {
if rt == RepoRefLegacy || rt == RepoRefAny || rt == RepoRefTag {
return true
}
return false
}
func getRefNameFromPath(ctx *Context, path string, isExist func(string) bool) string {
refName := ""
parts := strings.Split(path, "/")
for i, part := range parts {
refName = strings.TrimPrefix(refName+"/"+part, "/")
if isExist(refName) {
ctx.Repo.TreePath = strings.Join(parts[i+1:], "/")
return refName
}
}
return ""
}
func getRefName(ctx *Context, pathType RepoRefType) string {
path := ctx.Params("*")
switch pathType {
case RepoRefLegacy, RepoRefAny:
if refName := getRefName(ctx, RepoRefBranch); len(refName) > 0 {
return refName
}
if refName := getRefName(ctx, RepoRefTag); len(refName) > 0 {
return refName
}
// For legacy and API support only full commit sha
parts := strings.Split(path, "/")
if len(parts) > 0 && len(parts[0]) == 40 {
ctx.Repo.TreePath = strings.Join(parts[1:], "/")
return parts[0]
}
if refName := getRefName(ctx, RepoRefBlob); len(refName) > 0 {
return refName
}
ctx.Repo.TreePath = path
return ctx.Repo.Repository.DefaultBranch
case RepoRefBranch:
ref := getRefNameFromPath(ctx, path, ctx.Repo.GitRepo.IsBranchExist)
if len(ref) == 0 {
// maybe it's a renamed branch
return getRefNameFromPath(ctx, path, func(s string) bool {
b, exist, err := git_model.FindRenamedBranch(ctx.Repo.Repository.ID, s)
if err != nil {
log.Error("FindRenamedBranch", err)
return false
}
if !exist {
return false
}
ctx.Data["IsRenamedBranch"] = true
ctx.Data["RenamedBranchName"] = b.To
return true
})
}
return ref
case RepoRefTag:
return getRefNameFromPath(ctx, path, ctx.Repo.GitRepo.IsTagExist)
case RepoRefCommit:
parts := strings.Split(path, "/")
if len(parts) > 0 && len(parts[0]) >= 7 && len(parts[0]) <= 40 {
ctx.Repo.TreePath = strings.Join(parts[1:], "/")
return parts[0]
}
case RepoRefBlob:
_, err := ctx.Repo.GitRepo.GetBlob(path)
if err != nil {
return ""
}
return path
default:
log.Error("Unrecognized path type: %v", path)
}
return ""
}
// RepoRefByType handles repository reference name for a specific type
// of repository reference
func RepoRefByType(refType RepoRefType, ignoreNotExistErr ...bool) func(*Context) context.CancelFunc {
return func(ctx *Context) (cancel context.CancelFunc) {
// Empty repository does not have reference information.
if ctx.Repo.Repository.IsEmpty {
return
}
var (
refName string
err error
)
if ctx.Repo.GitRepo == nil {
repoPath := repo_model.RepoPath(ctx.Repo.Owner.Name, ctx.Repo.Repository.Name)
ctx.Repo.GitRepo, err = git.OpenRepository(ctx, repoPath)
if err != nil {
ctx.ServerError("RepoRef Invalid repo "+repoPath, err)
return
}
// We opened it, we should close it
cancel = func() {
// If it's been set to nil then assume someone else has closed it.
if ctx.Repo.GitRepo != nil {
ctx.Repo.GitRepo.Close()
}
}
}
// Get default branch.
if len(ctx.Params("*")) == 0 {
refName = ctx.Repo.Repository.DefaultBranch
if !ctx.Repo.GitRepo.IsBranchExist(refName) {
brs, _, err := ctx.Repo.GitRepo.GetBranchNames(0, 0)
if err != nil {
ctx.ServerError("GetBranches", err)
return
} else if len(brs) == 0 {
err = fmt.Errorf("No branches in non-empty repository %s",
ctx.Repo.GitRepo.Path)
ctx.ServerError("GetBranches", err)
return
}
refName = brs[0]
}
ctx.Repo.RefName = refName
ctx.Repo.BranchName = refName
ctx.Repo.Commit, err = ctx.Repo.GitRepo.GetBranchCommit(refName)
if err != nil {
ctx.ServerError("GetBranchCommit", err)
return
}
ctx.Repo.CommitID = ctx.Repo.Commit.ID.String()
ctx.Repo.IsViewBranch = true
} else {
refName = getRefName(ctx, refType)
ctx.Repo.RefName = refName
isRenamedBranch, has := ctx.Data["IsRenamedBranch"].(bool)
if isRenamedBranch && has {
renamedBranchName := ctx.Data["RenamedBranchName"].(string)
ctx.Flash.Info(ctx.Tr("repo.branch.renamed", refName, renamedBranchName))
link := setting.AppSubURL + strings.Replace(ctx.Req.URL.EscapedPath(), util.PathEscapeSegments(refName), util.PathEscapeSegments(renamedBranchName), 1)
ctx.Redirect(link)
return
}
if refType.RefTypeIncludesBranches() && ctx.Repo.GitRepo.IsBranchExist(refName) {
ctx.Repo.IsViewBranch = true
ctx.Repo.BranchName = refName
ctx.Repo.Commit, err = ctx.Repo.GitRepo.GetBranchCommit(refName)
if err != nil {
ctx.ServerError("GetBranchCommit", err)
return
}
ctx.Repo.CommitID = ctx.Repo.Commit.ID.String()
} else if refType.RefTypeIncludesTags() && ctx.Repo.GitRepo.IsTagExist(refName) {
ctx.Repo.IsViewTag = true
ctx.Repo.TagName = refName
ctx.Repo.Commit, err = ctx.Repo.GitRepo.GetTagCommit(refName)
if err != nil {
if git.IsErrNotExist(err) {
ctx.NotFound("GetTagCommit", err)
return
}
ctx.ServerError("GetTagCommit", err)
return
}
ctx.Repo.CommitID = ctx.Repo.Commit.ID.String()
} else if len(refName) >= 7 && len(refName) <= 40 {
ctx.Repo.IsViewCommit = true
ctx.Repo.CommitID = refName
ctx.Repo.Commit, err = ctx.Repo.GitRepo.GetCommit(refName)
if err != nil {
ctx.NotFound("GetCommit", err)
return
}
// If short commit ID add canonical link header
if len(refName) < 40 {
ctx.RespHeader().Set("Link", fmt.Sprintf("<%s>; rel=\"canonical\"",
util.URLJoin(setting.AppURL, strings.Replace(ctx.Req.URL.RequestURI(), util.PathEscapeSegments(refName), url.PathEscape(ctx.Repo.Commit.ID.String()), 1))))
}
} else {
if len(ignoreNotExistErr) > 0 && ignoreNotExistErr[0] {
return
}
ctx.NotFound("RepoRef invalid repo", fmt.Errorf("branch or tag not exist: %s", refName))
return
}
if refType == RepoRefLegacy {
// redirect from old URL scheme to new URL scheme
prefix := strings.TrimPrefix(setting.AppSubURL+strings.ToLower(strings.TrimSuffix(ctx.Req.URL.Path, ctx.Params("*"))), strings.ToLower(ctx.Repo.RepoLink))
ctx.Redirect(path.Join(
ctx.Repo.RepoLink,
util.PathEscapeSegments(prefix),
ctx.Repo.BranchNameSubURL(),
util.PathEscapeSegments(ctx.Repo.TreePath)))
return
}
}
ctx.Data["BranchName"] = ctx.Repo.BranchName
ctx.Data["RefName"] = ctx.Repo.RefName
ctx.Data["BranchNameSubURL"] = ctx.Repo.BranchNameSubURL()
ctx.Data["TagName"] = ctx.Repo.TagName
ctx.Data["CommitID"] = ctx.Repo.CommitID
ctx.Data["TreePath"] = ctx.Repo.TreePath
ctx.Data["IsViewBranch"] = ctx.Repo.IsViewBranch
ctx.Data["IsViewTag"] = ctx.Repo.IsViewTag
ctx.Data["IsViewCommit"] = ctx.Repo.IsViewCommit
ctx.Data["CanCreateBranch"] = ctx.Repo.CanCreateBranch()
ctx.Repo.CommitsCount, err = ctx.Repo.GetCommitsCount()
if err != nil {
ctx.ServerError("GetCommitsCount", err)
return
}
ctx.Data["CommitsCount"] = ctx.Repo.CommitsCount
ctx.Repo.GitRepo.LastCommitCache = git.NewLastCommitCache(ctx.Repo.CommitsCount, ctx.Repo.Repository.FullName(), ctx.Repo.GitRepo, cache.GetCache())
return cancel
}
}
// GitHookService checks if repository Git hooks service has been enabled.
func GitHookService() func(ctx *Context) {
return func(ctx *Context) {
if !ctx.Doer.CanEditGitHook() {
ctx.NotFound("GitHookService", nil)
return
}
}
}
// UnitTypes returns a middleware to set unit types to context variables.
func UnitTypes() func(ctx *Context) {
return func(ctx *Context) {
ctx.Data["UnitTypeCode"] = unit_model.TypeCode
ctx.Data["UnitTypeIssues"] = unit_model.TypeIssues
ctx.Data["UnitTypePullRequests"] = unit_model.TypePullRequests
ctx.Data["UnitTypeReleases"] = unit_model.TypeReleases
ctx.Data["UnitTypeWiki"] = unit_model.TypeWiki
ctx.Data["UnitTypeExternalWiki"] = unit_model.TypeExternalWiki
ctx.Data["UnitTypeExternalTracker"] = unit_model.TypeExternalTracker
ctx.Data["UnitTypeProjects"] = unit_model.TypeProjects
ctx.Data["UnitTypePackages"] = unit_model.TypePackages
}
}
// IssueTemplatesFromDefaultBranch checks for valid issue templates in the repo's default branch,
func (ctx *Context) IssueTemplatesFromDefaultBranch() []*api.IssueTemplate {
ret, _ := ctx.IssueTemplatesErrorsFromDefaultBranch()
return ret
}
// IssueTemplatesErrorsFromDefaultBranch checks for issue templates in the repo's default branch,
// returns valid templates and the errors of invalid template files.
func (ctx *Context) IssueTemplatesErrorsFromDefaultBranch() ([]*api.IssueTemplate, map[string]error) {
var issueTemplates []*api.IssueTemplate
if ctx.Repo.Repository.IsEmpty {
return issueTemplates, nil
}
if ctx.Repo.Commit == nil {
var err error
ctx.Repo.Commit, err = ctx.Repo.GitRepo.GetBranchCommit(ctx.Repo.Repository.DefaultBranch)
if err != nil {
return issueTemplates, nil
}
}
invalidFiles := map[string]error{}
for _, dirName := range IssueTemplateDirCandidates {
tree, err := ctx.Repo.Commit.SubTree(dirName)
if err != nil {
log.Debug("get sub tree of %s: %v", dirName, err)
continue
}
entries, err := tree.ListEntries()
if err != nil {
log.Debug("list entries in %s: %v", dirName, err)
return issueTemplates, nil
}
for _, entry := range entries {
if !template.CouldBe(entry.Name()) {
continue
}
fullName := path.Join(dirName, entry.Name())
if it, err := template.UnmarshalFromEntry(entry, dirName); err != nil {
invalidFiles[fullName] = err
} else {
if !strings.HasPrefix(it.Ref, "refs/") { // Assume that the ref intended is always a branch - for tags users should use refs/tags/<ref>
it.Ref = git.BranchPrefix + it.Ref
}
issueTemplates = append(issueTemplates, it)
}
}
}
return issueTemplates, invalidFiles
}