1
1
mirror of https://github.com/go-gitea/gitea synced 2024-11-05 09:44:26 +00:00
gitea/vendor/gopkg.in/src-d/go-git.v4/repository.go
2019-06-19 10:14:15 +08:00

1546 lines
38 KiB
Go

package git
import (
"bytes"
"context"
"errors"
"fmt"
"io"
stdioutil "io/ioutil"
"os"
"path"
"path/filepath"
"strings"
"time"
"golang.org/x/crypto/openpgp"
"gopkg.in/src-d/go-git.v4/config"
"gopkg.in/src-d/go-git.v4/internal/revision"
"gopkg.in/src-d/go-git.v4/plumbing"
"gopkg.in/src-d/go-git.v4/plumbing/cache"
"gopkg.in/src-d/go-git.v4/plumbing/format/packfile"
"gopkg.in/src-d/go-git.v4/plumbing/object"
"gopkg.in/src-d/go-git.v4/plumbing/storer"
"gopkg.in/src-d/go-git.v4/storage"
"gopkg.in/src-d/go-git.v4/storage/filesystem"
"gopkg.in/src-d/go-git.v4/utils/ioutil"
"gopkg.in/src-d/go-billy.v4"
"gopkg.in/src-d/go-billy.v4/osfs"
)
// GitDirName this is a special folder where all the git stuff is.
const GitDirName = ".git"
var (
// ErrBranchExists an error stating the specified branch already exists
ErrBranchExists = errors.New("branch already exists")
// ErrBranchNotFound an error stating the specified branch does not exist
ErrBranchNotFound = errors.New("branch not found")
// ErrTagExists an error stating the specified tag already exists
ErrTagExists = errors.New("tag already exists")
// ErrTagNotFound an error stating the specified tag does not exist
ErrTagNotFound = errors.New("tag not found")
// ErrFetching is returned when the packfile could not be downloaded
ErrFetching = errors.New("unable to fetch packfile")
ErrInvalidReference = errors.New("invalid reference, should be a tag or a branch")
ErrRepositoryNotExists = errors.New("repository does not exist")
ErrRepositoryAlreadyExists = errors.New("repository already exists")
ErrRemoteNotFound = errors.New("remote not found")
ErrRemoteExists = errors.New("remote already exists")
ErrAnonymousRemoteName = errors.New("anonymous remote name must be 'anonymous'")
ErrWorktreeNotProvided = errors.New("worktree should be provided")
ErrIsBareRepository = errors.New("worktree not available in a bare repository")
ErrUnableToResolveCommit = errors.New("unable to resolve commit")
ErrPackedObjectsNotSupported = errors.New("Packed objects not supported")
)
// Repository represents a git repository
type Repository struct {
Storer storage.Storer
r map[string]*Remote
wt billy.Filesystem
}
// Init creates an empty git repository, based on the given Storer and worktree.
// The worktree Filesystem is optional, if nil a bare repository is created. If
// the given storer is not empty ErrRepositoryAlreadyExists is returned
func Init(s storage.Storer, worktree billy.Filesystem) (*Repository, error) {
if err := initStorer(s); err != nil {
return nil, err
}
r := newRepository(s, worktree)
_, err := r.Reference(plumbing.HEAD, false)
switch err {
case plumbing.ErrReferenceNotFound:
case nil:
return nil, ErrRepositoryAlreadyExists
default:
return nil, err
}
h := plumbing.NewSymbolicReference(plumbing.HEAD, plumbing.Master)
if err := s.SetReference(h); err != nil {
return nil, err
}
if worktree == nil {
r.setIsBare(true)
return r, nil
}
return r, setWorktreeAndStoragePaths(r, worktree)
}
func initStorer(s storer.Storer) error {
i, ok := s.(storer.Initializer)
if !ok {
return nil
}
return i.Init()
}
func setWorktreeAndStoragePaths(r *Repository, worktree billy.Filesystem) error {
type fsBased interface {
Filesystem() billy.Filesystem
}
// .git file is only created if the storage is file based and the file
// system is osfs.OS
fs, isFSBased := r.Storer.(fsBased)
if !isFSBased {
return nil
}
if err := createDotGitFile(worktree, fs.Filesystem()); err != nil {
return err
}
return setConfigWorktree(r, worktree, fs.Filesystem())
}
func createDotGitFile(worktree, storage billy.Filesystem) error {
path, err := filepath.Rel(worktree.Root(), storage.Root())
if err != nil {
path = storage.Root()
}
if path == GitDirName {
// not needed, since the folder is the default place
return nil
}
f, err := worktree.Create(GitDirName)
if err != nil {
return err
}
defer f.Close()
_, err = fmt.Fprintf(f, "gitdir: %s\n", path)
return err
}
func setConfigWorktree(r *Repository, worktree, storage billy.Filesystem) error {
path, err := filepath.Rel(storage.Root(), worktree.Root())
if err != nil {
path = worktree.Root()
}
if path == ".." {
// not needed, since the folder is the default place
return nil
}
cfg, err := r.Storer.Config()
if err != nil {
return err
}
cfg.Core.Worktree = path
return r.Storer.SetConfig(cfg)
}
// Open opens a git repository using the given Storer and worktree filesystem,
// if the given storer is complete empty ErrRepositoryNotExists is returned.
// The worktree can be nil when the repository being opened is bare, if the
// repository is a normal one (not bare) and worktree is nil the err
// ErrWorktreeNotProvided is returned
func Open(s storage.Storer, worktree billy.Filesystem) (*Repository, error) {
_, err := s.Reference(plumbing.HEAD)
if err == plumbing.ErrReferenceNotFound {
return nil, ErrRepositoryNotExists
}
if err != nil {
return nil, err
}
return newRepository(s, worktree), nil
}
// Clone a repository into the given Storer and worktree Filesystem with the
// given options, if worktree is nil a bare repository is created. If the given
// storer is not empty ErrRepositoryAlreadyExists is returned.
//
// The provided Context must be non-nil. If the context expires before the
// operation is complete, an error is returned. The context only affects to the
// transport operations.
func Clone(s storage.Storer, worktree billy.Filesystem, o *CloneOptions) (*Repository, error) {
return CloneContext(context.Background(), s, worktree, o)
}
// CloneContext a repository into the given Storer and worktree Filesystem with
// the given options, if worktree is nil a bare repository is created. If the
// given storer is not empty ErrRepositoryAlreadyExists is returned.
//
// The provided Context must be non-nil. If the context expires before the
// operation is complete, an error is returned. The context only affects to the
// transport operations.
func CloneContext(
ctx context.Context, s storage.Storer, worktree billy.Filesystem, o *CloneOptions,
) (*Repository, error) {
r, err := Init(s, worktree)
if err != nil {
return nil, err
}
return r, r.clone(ctx, o)
}
// PlainInit create an empty git repository at the given path. isBare defines
// if the repository will have worktree (non-bare) or not (bare), if the path
// is not empty ErrRepositoryAlreadyExists is returned.
func PlainInit(path string, isBare bool) (*Repository, error) {
var wt, dot billy.Filesystem
if isBare {
dot = osfs.New(path)
} else {
wt = osfs.New(path)
dot, _ = wt.Chroot(GitDirName)
}
s := filesystem.NewStorage(dot, cache.NewObjectLRUDefault())
return Init(s, wt)
}
// PlainOpen opens a git repository from the given path. It detects if the
// repository is bare or a normal one. If the path doesn't contain a valid
// repository ErrRepositoryNotExists is returned
func PlainOpen(path string) (*Repository, error) {
return PlainOpenWithOptions(path, &PlainOpenOptions{})
}
// PlainOpenWithOptions opens a git repository from the given path with specific
// options. See PlainOpen for more info.
func PlainOpenWithOptions(path string, o *PlainOpenOptions) (*Repository, error) {
dot, wt, err := dotGitToOSFilesystems(path, o.DetectDotGit)
if err != nil {
return nil, err
}
if _, err := dot.Stat(""); err != nil {
if os.IsNotExist(err) {
return nil, ErrRepositoryNotExists
}
return nil, err
}
s := filesystem.NewStorage(dot, cache.NewObjectLRUDefault())
return Open(s, wt)
}
func dotGitToOSFilesystems(path string, detect bool) (dot, wt billy.Filesystem, err error) {
if path, err = filepath.Abs(path); err != nil {
return nil, nil, err
}
var fs billy.Filesystem
var fi os.FileInfo
for {
fs = osfs.New(path)
fi, err = fs.Stat(GitDirName)
if err == nil {
// no error; stop
break
}
if !os.IsNotExist(err) {
// unknown error; stop
return nil, nil, err
}
if detect {
// try its parent as long as we haven't reached
// the root dir
if dir := filepath.Dir(path); dir != path {
path = dir
continue
}
}
// not detecting via parent dirs and the dir does not exist;
// stop
return fs, nil, nil
}
if fi.IsDir() {
dot, err = fs.Chroot(GitDirName)
return dot, fs, err
}
dot, err = dotGitFileToOSFilesystem(path, fs)
if err != nil {
return nil, nil, err
}
return dot, fs, nil
}
func dotGitFileToOSFilesystem(path string, fs billy.Filesystem) (bfs billy.Filesystem, err error) {
f, err := fs.Open(GitDirName)
if err != nil {
return nil, err
}
defer ioutil.CheckClose(f, &err)
b, err := stdioutil.ReadAll(f)
if err != nil {
return nil, err
}
line := string(b)
const prefix = "gitdir: "
if !strings.HasPrefix(line, prefix) {
return nil, fmt.Errorf(".git file has no %s prefix", prefix)
}
gitdir := strings.Split(line[len(prefix):], "\n")[0]
gitdir = strings.TrimSpace(gitdir)
if filepath.IsAbs(gitdir) {
return osfs.New(gitdir), nil
}
return osfs.New(fs.Join(path, gitdir)), nil
}
// PlainClone a repository into the path with the given options, isBare defines
// if the new repository will be bare or normal. If the path is not empty
// ErrRepositoryAlreadyExists is returned.
//
// TODO(mcuadros): move isBare to CloneOptions in v5
func PlainClone(path string, isBare bool, o *CloneOptions) (*Repository, error) {
return PlainCloneContext(context.Background(), path, isBare, o)
}
// PlainCloneContext a repository into the path with the given options, isBare
// defines if the new repository will be bare or normal. If the path is not empty
// ErrRepositoryAlreadyExists is returned.
//
// The provided Context must be non-nil. If the context expires before the
// operation is complete, an error is returned. The context only affects to the
// transport operations.
//
// TODO(mcuadros): move isBare to CloneOptions in v5
// TODO(smola): refuse upfront to clone on a non-empty directory in v5, see #1027
func PlainCloneContext(ctx context.Context, path string, isBare bool, o *CloneOptions) (*Repository, error) {
cleanup, cleanupParent, err := checkIfCleanupIsNeeded(path)
if err != nil {
return nil, err
}
r, err := PlainInit(path, isBare)
if err != nil {
return nil, err
}
err = r.clone(ctx, o)
if err != nil && err != ErrRepositoryAlreadyExists {
if cleanup {
cleanUpDir(path, cleanupParent)
}
}
return r, err
}
func newRepository(s storage.Storer, worktree billy.Filesystem) *Repository {
return &Repository{
Storer: s,
wt: worktree,
r: make(map[string]*Remote),
}
}
func checkIfCleanupIsNeeded(path string) (cleanup bool, cleanParent bool, err error) {
fi, err := os.Stat(path)
if err != nil {
if os.IsNotExist(err) {
return true, true, nil
}
return false, false, err
}
if !fi.IsDir() {
return false, false, fmt.Errorf("path is not a directory: %s", path)
}
f, err := os.Open(path)
if err != nil {
return false, false, err
}
defer ioutil.CheckClose(f, &err)
_, err = f.Readdirnames(1)
if err == io.EOF {
return true, false, nil
}
if err != nil {
return false, false, err
}
return false, false, nil
}
func cleanUpDir(path string, all bool) error {
if all {
return os.RemoveAll(path)
}
f, err := os.Open(path)
if err != nil {
return err
}
defer ioutil.CheckClose(f, &err)
names, err := f.Readdirnames(-1)
if err != nil {
return err
}
for _, name := range names {
if err := os.RemoveAll(filepath.Join(path, name)); err != nil {
return err
}
}
return err
}
// Config return the repository config
func (r *Repository) Config() (*config.Config, error) {
return r.Storer.Config()
}
// Remote return a remote if exists
func (r *Repository) Remote(name string) (*Remote, error) {
cfg, err := r.Storer.Config()
if err != nil {
return nil, err
}
c, ok := cfg.Remotes[name]
if !ok {
return nil, ErrRemoteNotFound
}
return NewRemote(r.Storer, c), nil
}
// Remotes returns a list with all the remotes
func (r *Repository) Remotes() ([]*Remote, error) {
cfg, err := r.Storer.Config()
if err != nil {
return nil, err
}
remotes := make([]*Remote, len(cfg.Remotes))
var i int
for _, c := range cfg.Remotes {
remotes[i] = NewRemote(r.Storer, c)
i++
}
return remotes, nil
}
// CreateRemote creates a new remote
func (r *Repository) CreateRemote(c *config.RemoteConfig) (*Remote, error) {
if err := c.Validate(); err != nil {
return nil, err
}
remote := NewRemote(r.Storer, c)
cfg, err := r.Storer.Config()
if err != nil {
return nil, err
}
if _, ok := cfg.Remotes[c.Name]; ok {
return nil, ErrRemoteExists
}
cfg.Remotes[c.Name] = c
return remote, r.Storer.SetConfig(cfg)
}
// CreateRemoteAnonymous creates a new anonymous remote. c.Name must be "anonymous".
// It's used like 'git fetch git@github.com:src-d/go-git.git master:master'.
func (r *Repository) CreateRemoteAnonymous(c *config.RemoteConfig) (*Remote, error) {
if err := c.Validate(); err != nil {
return nil, err
}
if c.Name != "anonymous" {
return nil, ErrAnonymousRemoteName
}
remote := NewRemote(r.Storer, c)
return remote, nil
}
// DeleteRemote delete a remote from the repository and delete the config
func (r *Repository) DeleteRemote(name string) error {
cfg, err := r.Storer.Config()
if err != nil {
return err
}
if _, ok := cfg.Remotes[name]; !ok {
return ErrRemoteNotFound
}
delete(cfg.Remotes, name)
return r.Storer.SetConfig(cfg)
}
// Branch return a Branch if exists
func (r *Repository) Branch(name string) (*config.Branch, error) {
cfg, err := r.Storer.Config()
if err != nil {
return nil, err
}
b, ok := cfg.Branches[name]
if !ok {
return nil, ErrBranchNotFound
}
return b, nil
}
// CreateBranch creates a new Branch
func (r *Repository) CreateBranch(c *config.Branch) error {
if err := c.Validate(); err != nil {
return err
}
cfg, err := r.Storer.Config()
if err != nil {
return err
}
if _, ok := cfg.Branches[c.Name]; ok {
return ErrBranchExists
}
cfg.Branches[c.Name] = c
return r.Storer.SetConfig(cfg)
}
// DeleteBranch delete a Branch from the repository and delete the config
func (r *Repository) DeleteBranch(name string) error {
cfg, err := r.Storer.Config()
if err != nil {
return err
}
if _, ok := cfg.Branches[name]; !ok {
return ErrBranchNotFound
}
delete(cfg.Branches, name)
return r.Storer.SetConfig(cfg)
}
// CreateTag creates a tag. If opts is included, the tag is an annotated tag,
// otherwise a lightweight tag is created.
func (r *Repository) CreateTag(name string, hash plumbing.Hash, opts *CreateTagOptions) (*plumbing.Reference, error) {
rname := plumbing.ReferenceName(path.Join("refs", "tags", name))
_, err := r.Storer.Reference(rname)
switch err {
case nil:
// Tag exists, this is an error
return nil, ErrTagExists
case plumbing.ErrReferenceNotFound:
// Tag missing, available for creation, pass this
default:
// Some other error
return nil, err
}
var target plumbing.Hash
if opts != nil {
target, err = r.createTagObject(name, hash, opts)
if err != nil {
return nil, err
}
} else {
target = hash
}
ref := plumbing.NewHashReference(rname, target)
if err = r.Storer.SetReference(ref); err != nil {
return nil, err
}
return ref, nil
}
func (r *Repository) createTagObject(name string, hash plumbing.Hash, opts *CreateTagOptions) (plumbing.Hash, error) {
if err := opts.Validate(r, hash); err != nil {
return plumbing.ZeroHash, err
}
rawobj, err := object.GetObject(r.Storer, hash)
if err != nil {
return plumbing.ZeroHash, err
}
tag := &object.Tag{
Name: name,
Tagger: *opts.Tagger,
Message: opts.Message,
TargetType: rawobj.Type(),
Target: hash,
}
if opts.SignKey != nil {
sig, err := r.buildTagSignature(tag, opts.SignKey)
if err != nil {
return plumbing.ZeroHash, err
}
tag.PGPSignature = sig
}
obj := r.Storer.NewEncodedObject()
if err := tag.Encode(obj); err != nil {
return plumbing.ZeroHash, err
}
return r.Storer.SetEncodedObject(obj)
}
func (r *Repository) buildTagSignature(tag *object.Tag, signKey *openpgp.Entity) (string, error) {
encoded := &plumbing.MemoryObject{}
if err := tag.Encode(encoded); err != nil {
return "", err
}
rdr, err := encoded.Reader()
if err != nil {
return "", err
}
var b bytes.Buffer
if err := openpgp.ArmoredDetachSign(&b, signKey, rdr, nil); err != nil {
return "", err
}
return b.String(), nil
}
// Tag returns a tag from the repository.
//
// If you want to check to see if the tag is an annotated tag, you can call
// TagObject on the hash of the reference in ForEach:
//
// ref, err := r.Tag("v0.1.0")
// if err != nil {
// // Handle error
// }
//
// obj, err := r.TagObject(ref.Hash())
// switch err {
// case nil:
// // Tag object present
// case plumbing.ErrObjectNotFound:
// // Not a tag object
// default:
// // Some other error
// }
//
func (r *Repository) Tag(name string) (*plumbing.Reference, error) {
ref, err := r.Reference(plumbing.ReferenceName(path.Join("refs", "tags", name)), false)
if err != nil {
if err == plumbing.ErrReferenceNotFound {
// Return a friendly error for this one, versus just ReferenceNotFound.
return nil, ErrTagNotFound
}
return nil, err
}
return ref, nil
}
// DeleteTag deletes a tag from the repository.
func (r *Repository) DeleteTag(name string) error {
_, err := r.Tag(name)
if err != nil {
return err
}
return r.Storer.RemoveReference(plumbing.ReferenceName(path.Join("refs", "tags", name)))
}
func (r *Repository) resolveToCommitHash(h plumbing.Hash) (plumbing.Hash, error) {
obj, err := r.Storer.EncodedObject(plumbing.AnyObject, h)
if err != nil {
return plumbing.ZeroHash, err
}
switch obj.Type() {
case plumbing.TagObject:
t, err := object.DecodeTag(r.Storer, obj)
if err != nil {
return plumbing.ZeroHash, err
}
return r.resolveToCommitHash(t.Target)
case plumbing.CommitObject:
return h, nil
default:
return plumbing.ZeroHash, ErrUnableToResolveCommit
}
}
// Clone clones a remote repository
func (r *Repository) clone(ctx context.Context, o *CloneOptions) error {
if err := o.Validate(); err != nil {
return err
}
c := &config.RemoteConfig{
Name: o.RemoteName,
URLs: []string{o.URL},
Fetch: r.cloneRefSpec(o),
}
if _, err := r.CreateRemote(c); err != nil {
return err
}
ref, err := r.fetchAndUpdateReferences(ctx, &FetchOptions{
RefSpecs: c.Fetch,
Depth: o.Depth,
Auth: o.Auth,
Progress: o.Progress,
Tags: o.Tags,
RemoteName: o.RemoteName,
}, o.ReferenceName)
if err != nil {
return err
}
if r.wt != nil && !o.NoCheckout {
w, err := r.Worktree()
if err != nil {
return err
}
head, err := r.Head()
if err != nil {
return err
}
if err := w.Reset(&ResetOptions{
Mode: MergeReset,
Commit: head.Hash(),
}); err != nil {
return err
}
if o.RecurseSubmodules != NoRecurseSubmodules {
if err := w.updateSubmodules(&SubmoduleUpdateOptions{
RecurseSubmodules: o.RecurseSubmodules,
Auth: o.Auth,
}); err != nil {
return err
}
}
}
if err := r.updateRemoteConfigIfNeeded(o, c, ref); err != nil {
return err
}
if ref.Name().IsBranch() {
branchRef := ref.Name()
branchName := strings.Split(string(branchRef), "refs/heads/")[1]
b := &config.Branch{
Name: branchName,
Merge: branchRef,
}
if o.RemoteName == "" {
b.Remote = "origin"
} else {
b.Remote = o.RemoteName
}
if err := r.CreateBranch(b); err != nil {
return err
}
}
return nil
}
const (
refspecTag = "+refs/tags/%s:refs/tags/%[1]s"
refspecSingleBranch = "+refs/heads/%s:refs/remotes/%s/%[1]s"
refspecSingleBranchHEAD = "+HEAD:refs/remotes/%s/HEAD"
)
func (r *Repository) cloneRefSpec(o *CloneOptions) []config.RefSpec {
switch {
case o.ReferenceName.IsTag():
return []config.RefSpec{
config.RefSpec(fmt.Sprintf(refspecTag, o.ReferenceName.Short())),
}
case o.SingleBranch && o.ReferenceName == plumbing.HEAD:
return []config.RefSpec{
config.RefSpec(fmt.Sprintf(refspecSingleBranchHEAD, o.RemoteName)),
config.RefSpec(fmt.Sprintf(refspecSingleBranch, plumbing.Master.Short(), o.RemoteName)),
}
case o.SingleBranch:
return []config.RefSpec{
config.RefSpec(fmt.Sprintf(refspecSingleBranch, o.ReferenceName.Short(), o.RemoteName)),
}
default:
return []config.RefSpec{
config.RefSpec(fmt.Sprintf(config.DefaultFetchRefSpec, o.RemoteName)),
}
}
}
func (r *Repository) setIsBare(isBare bool) error {
cfg, err := r.Storer.Config()
if err != nil {
return err
}
cfg.Core.IsBare = isBare
return r.Storer.SetConfig(cfg)
}
func (r *Repository) updateRemoteConfigIfNeeded(o *CloneOptions, c *config.RemoteConfig, head *plumbing.Reference) error {
if !o.SingleBranch {
return nil
}
c.Fetch = r.cloneRefSpec(o)
cfg, err := r.Storer.Config()
if err != nil {
return err
}
cfg.Remotes[c.Name] = c
return r.Storer.SetConfig(cfg)
}
func (r *Repository) fetchAndUpdateReferences(
ctx context.Context, o *FetchOptions, ref plumbing.ReferenceName,
) (*plumbing.Reference, error) {
if err := o.Validate(); err != nil {
return nil, err
}
remote, err := r.Remote(o.RemoteName)
if err != nil {
return nil, err
}
objsUpdated := true
remoteRefs, err := remote.fetch(ctx, o)
if err == NoErrAlreadyUpToDate {
objsUpdated = false
} else if err == packfile.ErrEmptyPackfile {
return nil, ErrFetching
} else if err != nil {
return nil, err
}
resolvedRef, err := storer.ResolveReference(remoteRefs, ref)
if err != nil {
return nil, err
}
refsUpdated, err := r.updateReferences(remote.c.Fetch, resolvedRef)
if err != nil {
return nil, err
}
if !objsUpdated && !refsUpdated {
return nil, NoErrAlreadyUpToDate
}
return resolvedRef, nil
}
func (r *Repository) updateReferences(spec []config.RefSpec,
resolvedRef *plumbing.Reference) (updated bool, err error) {
if !resolvedRef.Name().IsBranch() {
// Detached HEAD mode
h, err := r.resolveToCommitHash(resolvedRef.Hash())
if err != nil {
return false, err
}
head := plumbing.NewHashReference(plumbing.HEAD, h)
return updateReferenceStorerIfNeeded(r.Storer, head)
}
refs := []*plumbing.Reference{
// Create local reference for the resolved ref
resolvedRef,
// Create local symbolic HEAD
plumbing.NewSymbolicReference(plumbing.HEAD, resolvedRef.Name()),
}
refs = append(refs, r.calculateRemoteHeadReference(spec, resolvedRef)...)
for _, ref := range refs {
u, err := updateReferenceStorerIfNeeded(r.Storer, ref)
if err != nil {
return updated, err
}
if u {
updated = true
}
}
return
}
func (r *Repository) calculateRemoteHeadReference(spec []config.RefSpec,
resolvedHead *plumbing.Reference) []*plumbing.Reference {
var refs []*plumbing.Reference
// Create resolved HEAD reference with remote prefix if it does not
// exist. This is needed when using single branch and HEAD.
for _, rs := range spec {
name := resolvedHead.Name()
if !rs.Match(name) {
continue
}
name = rs.Dst(name)
_, err := r.Storer.Reference(name)
if err == plumbing.ErrReferenceNotFound {
refs = append(refs, plumbing.NewHashReference(name, resolvedHead.Hash()))
}
}
return refs
}
func checkAndUpdateReferenceStorerIfNeeded(
s storer.ReferenceStorer, r, old *plumbing.Reference) (
updated bool, err error) {
p, err := s.Reference(r.Name())
if err != nil && err != plumbing.ErrReferenceNotFound {
return false, err
}
// we use the string method to compare references, is the easiest way
if err == plumbing.ErrReferenceNotFound || r.String() != p.String() {
if err := s.CheckAndSetReference(r, old); err != nil {
return false, err
}
return true, nil
}
return false, nil
}
func updateReferenceStorerIfNeeded(
s storer.ReferenceStorer, r *plumbing.Reference) (updated bool, err error) {
return checkAndUpdateReferenceStorerIfNeeded(s, r, nil)
}
// Fetch fetches references along with the objects necessary to complete
// their histories, from the remote named as FetchOptions.RemoteName.
//
// Returns nil if the operation is successful, NoErrAlreadyUpToDate if there are
// no changes to be fetched, or an error.
func (r *Repository) Fetch(o *FetchOptions) error {
return r.FetchContext(context.Background(), o)
}
// FetchContext fetches references along with the objects necessary to complete
// their histories, from the remote named as FetchOptions.RemoteName.
//
// Returns nil if the operation is successful, NoErrAlreadyUpToDate if there are
// no changes to be fetched, or an error.
//
// The provided Context must be non-nil. If the context expires before the
// operation is complete, an error is returned. The context only affects to the
// transport operations.
func (r *Repository) FetchContext(ctx context.Context, o *FetchOptions) error {
if err := o.Validate(); err != nil {
return err
}
remote, err := r.Remote(o.RemoteName)
if err != nil {
return err
}
return remote.FetchContext(ctx, o)
}
// Push performs a push to the remote. Returns NoErrAlreadyUpToDate if
// the remote was already up-to-date, from the remote named as
// FetchOptions.RemoteName.
func (r *Repository) Push(o *PushOptions) error {
return r.PushContext(context.Background(), o)
}
// PushContext performs a push to the remote. Returns NoErrAlreadyUpToDate if
// the remote was already up-to-date, from the remote named as
// FetchOptions.RemoteName.
//
// The provided Context must be non-nil. If the context expires before the
// operation is complete, an error is returned. The context only affects to the
// transport operations.
func (r *Repository) PushContext(ctx context.Context, o *PushOptions) error {
if err := o.Validate(); err != nil {
return err
}
remote, err := r.Remote(o.RemoteName)
if err != nil {
return err
}
return remote.PushContext(ctx, o)
}
// Log returns the commit history from the given LogOptions.
func (r *Repository) Log(o *LogOptions) (object.CommitIter, error) {
fn := commitIterFunc(o.Order)
if fn == nil {
return nil, fmt.Errorf("invalid Order=%v", o.Order)
}
var (
it object.CommitIter
err error
)
if o.All {
it, err = r.logAll(fn)
} else {
it, err = r.log(o.From, fn)
}
if err != nil {
return nil, err
}
if o.FileName != nil {
// for `git log --all` also check parent (if the next commit comes from the real parent)
it = r.logWithFile(*o.FileName, it, o.All)
}
return it, nil
}
func (r *Repository) log(from plumbing.Hash, commitIterFunc func(*object.Commit) object.CommitIter) (object.CommitIter, error) {
h := from
if from == plumbing.ZeroHash {
head, err := r.Head()
if err != nil {
return nil, err
}
h = head.Hash()
}
commit, err := r.CommitObject(h)
if err != nil {
return nil, err
}
return commitIterFunc(commit), nil
}
func (r *Repository) logAll(commitIterFunc func(*object.Commit) object.CommitIter) (object.CommitIter, error) {
return object.NewCommitAllIter(r.Storer, commitIterFunc)
}
func (*Repository) logWithFile(fileName string, commitIter object.CommitIter, checkParent bool) object.CommitIter {
return object.NewCommitFileIterFromIter(fileName, commitIter, checkParent)
}
func commitIterFunc(order LogOrder) func(c *object.Commit) object.CommitIter {
switch order {
case LogOrderDefault:
return func(c *object.Commit) object.CommitIter {
return object.NewCommitPreorderIter(c, nil, nil)
}
case LogOrderDFS:
return func(c *object.Commit) object.CommitIter {
return object.NewCommitPreorderIter(c, nil, nil)
}
case LogOrderDFSPost:
return func(c *object.Commit) object.CommitIter {
return object.NewCommitPostorderIter(c, nil)
}
case LogOrderBSF:
return func(c *object.Commit) object.CommitIter {
return object.NewCommitIterBSF(c, nil, nil)
}
case LogOrderCommitterTime:
return func(c *object.Commit) object.CommitIter {
return object.NewCommitIterCTime(c, nil, nil)
}
}
return nil
}
// Tags returns all the tag References in a repository.
//
// If you want to check to see if the tag is an annotated tag, you can call
// TagObject on the hash Reference passed in through ForEach:
//
// iter, err := r.Tags()
// if err != nil {
// // Handle error
// }
//
// if err := iter.ForEach(func (ref *plumbing.Reference) error {
// obj, err := r.TagObject(ref.Hash())
// switch err {
// case nil:
// // Tag object present
// case plumbing.ErrObjectNotFound:
// // Not a tag object
// default:
// // Some other error
// return err
// }
// }); err != nil {
// // Handle outer iterator error
// }
//
func (r *Repository) Tags() (storer.ReferenceIter, error) {
refIter, err := r.Storer.IterReferences()
if err != nil {
return nil, err
}
return storer.NewReferenceFilteredIter(
func(r *plumbing.Reference) bool {
return r.Name().IsTag()
}, refIter), nil
}
// Branches returns all the References that are Branches.
func (r *Repository) Branches() (storer.ReferenceIter, error) {
refIter, err := r.Storer.IterReferences()
if err != nil {
return nil, err
}
return storer.NewReferenceFilteredIter(
func(r *plumbing.Reference) bool {
return r.Name().IsBranch()
}, refIter), nil
}
// Notes returns all the References that are notes. For more information:
// https://git-scm.com/docs/git-notes
func (r *Repository) Notes() (storer.ReferenceIter, error) {
refIter, err := r.Storer.IterReferences()
if err != nil {
return nil, err
}
return storer.NewReferenceFilteredIter(
func(r *plumbing.Reference) bool {
return r.Name().IsNote()
}, refIter), nil
}
// TreeObject return a Tree with the given hash. If not found
// plumbing.ErrObjectNotFound is returned
func (r *Repository) TreeObject(h plumbing.Hash) (*object.Tree, error) {
return object.GetTree(r.Storer, h)
}
// TreeObjects returns an unsorted TreeIter with all the trees in the repository
func (r *Repository) TreeObjects() (*object.TreeIter, error) {
iter, err := r.Storer.IterEncodedObjects(plumbing.TreeObject)
if err != nil {
return nil, err
}
return object.NewTreeIter(r.Storer, iter), nil
}
// CommitObject return a Commit with the given hash. If not found
// plumbing.ErrObjectNotFound is returned.
func (r *Repository) CommitObject(h plumbing.Hash) (*object.Commit, error) {
return object.GetCommit(r.Storer, h)
}
// CommitObjects returns an unsorted CommitIter with all the commits in the repository.
func (r *Repository) CommitObjects() (object.CommitIter, error) {
iter, err := r.Storer.IterEncodedObjects(plumbing.CommitObject)
if err != nil {
return nil, err
}
return object.NewCommitIter(r.Storer, iter), nil
}
// BlobObject returns a Blob with the given hash. If not found
// plumbing.ErrObjectNotFound is returned.
func (r *Repository) BlobObject(h plumbing.Hash) (*object.Blob, error) {
return object.GetBlob(r.Storer, h)
}
// BlobObjects returns an unsorted BlobIter with all the blobs in the repository.
func (r *Repository) BlobObjects() (*object.BlobIter, error) {
iter, err := r.Storer.IterEncodedObjects(plumbing.BlobObject)
if err != nil {
return nil, err
}
return object.NewBlobIter(r.Storer, iter), nil
}
// TagObject returns a Tag with the given hash. If not found
// plumbing.ErrObjectNotFound is returned. This method only returns
// annotated Tags, no lightweight Tags.
func (r *Repository) TagObject(h plumbing.Hash) (*object.Tag, error) {
return object.GetTag(r.Storer, h)
}
// TagObjects returns a unsorted TagIter that can step through all of the annotated
// tags in the repository.
func (r *Repository) TagObjects() (*object.TagIter, error) {
iter, err := r.Storer.IterEncodedObjects(plumbing.TagObject)
if err != nil {
return nil, err
}
return object.NewTagIter(r.Storer, iter), nil
}
// Object returns an Object with the given hash. If not found
// plumbing.ErrObjectNotFound is returned.
func (r *Repository) Object(t plumbing.ObjectType, h plumbing.Hash) (object.Object, error) {
obj, err := r.Storer.EncodedObject(t, h)
if err != nil {
return nil, err
}
return object.DecodeObject(r.Storer, obj)
}
// Objects returns an unsorted ObjectIter with all the objects in the repository.
func (r *Repository) Objects() (*object.ObjectIter, error) {
iter, err := r.Storer.IterEncodedObjects(plumbing.AnyObject)
if err != nil {
return nil, err
}
return object.NewObjectIter(r.Storer, iter), nil
}
// Head returns the reference where HEAD is pointing to.
func (r *Repository) Head() (*plumbing.Reference, error) {
return storer.ResolveReference(r.Storer, plumbing.HEAD)
}
// Reference returns the reference for a given reference name. If resolved is
// true, any symbolic reference will be resolved.
func (r *Repository) Reference(name plumbing.ReferenceName, resolved bool) (
*plumbing.Reference, error) {
if resolved {
return storer.ResolveReference(r.Storer, name)
}
return r.Storer.Reference(name)
}
// References returns an unsorted ReferenceIter for all references.
func (r *Repository) References() (storer.ReferenceIter, error) {
return r.Storer.IterReferences()
}
// Worktree returns a worktree based on the given fs, if nil the default
// worktree will be used.
func (r *Repository) Worktree() (*Worktree, error) {
if r.wt == nil {
return nil, ErrIsBareRepository
}
return &Worktree{r: r, Filesystem: r.wt}, nil
}
// ResolveRevision resolves revision to corresponding hash. It will always
// resolve to a commit hash, not a tree or annotated tag.
//
// Implemented resolvers : HEAD, branch, tag, heads/branch, refs/heads/branch,
// refs/tags/tag, refs/remotes/origin/branch, refs/remotes/origin/HEAD, tilde and caret (HEAD~1, master~^, tag~2, ref/heads/master~1, ...), selection by text (HEAD^{/fix nasty bug})
func (r *Repository) ResolveRevision(rev plumbing.Revision) (*plumbing.Hash, error) {
p := revision.NewParserFromString(string(rev))
items, err := p.Parse()
if err != nil {
return nil, err
}
var commit *object.Commit
for _, item := range items {
switch item.(type) {
case revision.Ref:
revisionRef := item.(revision.Ref)
var tryHashes []plumbing.Hash
maybeHash := plumbing.NewHash(string(revisionRef))
if !maybeHash.IsZero() {
tryHashes = append(tryHashes, maybeHash)
}
for _, rule := range append([]string{"%s"}, plumbing.RefRevParseRules...) {
ref, err := storer.ResolveReference(r.Storer, plumbing.ReferenceName(fmt.Sprintf(rule, revisionRef)))
if err == nil {
tryHashes = append(tryHashes, ref.Hash())
break
}
}
// in ambiguous cases, `git rev-parse` will emit a warning, but
// will always return the oid in preference to a ref; we don't have
// the ability to emit a warning here, so (for speed purposes)
// don't bother to detect the ambiguity either, just return in the
// priority that git would.
gotOne := false
for _, hash := range tryHashes {
commitObj, err := r.CommitObject(hash)
if err == nil {
commit = commitObj
gotOne = true
break
}
tagObj, err := r.TagObject(hash)
if err == nil {
// If the tag target lookup fails here, this most likely
// represents some sort of repo corruption, so let the
// error bubble up.
tagCommit, err := tagObj.Commit()
if err != nil {
return &plumbing.ZeroHash, err
}
commit = tagCommit
gotOne = true
break
}
}
if !gotOne {
return &plumbing.ZeroHash, plumbing.ErrReferenceNotFound
}
case revision.CaretPath:
depth := item.(revision.CaretPath).Depth
if depth == 0 {
break
}
iter := commit.Parents()
c, err := iter.Next()
if err != nil {
return &plumbing.ZeroHash, err
}
if depth == 1 {
commit = c
break
}
c, err = iter.Next()
if err != nil {
return &plumbing.ZeroHash, err
}
commit = c
case revision.TildePath:
for i := 0; i < item.(revision.TildePath).Depth; i++ {
c, err := commit.Parents().Next()
if err != nil {
return &plumbing.ZeroHash, err
}
commit = c
}
case revision.CaretReg:
history := object.NewCommitPreorderIter(commit, nil, nil)
re := item.(revision.CaretReg).Regexp
negate := item.(revision.CaretReg).Negate
var c *object.Commit
err := history.ForEach(func(hc *object.Commit) error {
if !negate && re.MatchString(hc.Message) {
c = hc
return storer.ErrStop
}
if negate && !re.MatchString(hc.Message) {
c = hc
return storer.ErrStop
}
return nil
})
if err != nil {
return &plumbing.ZeroHash, err
}
if c == nil {
return &plumbing.ZeroHash, fmt.Errorf(`No commit message match regexp : "%s"`, re.String())
}
commit = c
}
}
return &commit.Hash, nil
}
type RepackConfig struct {
// UseRefDeltas configures whether packfile encoder will use reference deltas.
// By default OFSDeltaObject is used.
UseRefDeltas bool
// OnlyDeletePacksOlderThan if set to non-zero value
// selects only objects older than the time provided.
OnlyDeletePacksOlderThan time.Time
}
func (r *Repository) RepackObjects(cfg *RepackConfig) (err error) {
pos, ok := r.Storer.(storer.PackedObjectStorer)
if !ok {
return ErrPackedObjectsNotSupported
}
// Get the existing object packs.
hs, err := pos.ObjectPacks()
if err != nil {
return err
}
// Create a new pack.
nh, err := r.createNewObjectPack(cfg)
if err != nil {
return err
}
// Delete old packs.
for _, h := range hs {
// Skip if new hash is the same as an old one.
if h == nh {
continue
}
err = pos.DeleteOldObjectPackAndIndex(h, cfg.OnlyDeletePacksOlderThan)
if err != nil {
return err
}
}
return nil
}
// createNewObjectPack is a helper for RepackObjects taking care
// of creating a new pack. It is used so the the PackfileWriter
// deferred close has the right scope.
func (r *Repository) createNewObjectPack(cfg *RepackConfig) (h plumbing.Hash, err error) {
ow := newObjectWalker(r.Storer)
err = ow.walkAllRefs()
if err != nil {
return h, err
}
objs := make([]plumbing.Hash, 0, len(ow.seen))
for h := range ow.seen {
objs = append(objs, h)
}
pfw, ok := r.Storer.(storer.PackfileWriter)
if !ok {
return h, fmt.Errorf("Repository storer is not a storer.PackfileWriter")
}
wc, err := pfw.PackfileWriter()
if err != nil {
return h, err
}
defer ioutil.CheckClose(wc, &err)
scfg, err := r.Storer.Config()
if err != nil {
return h, err
}
enc := packfile.NewEncoder(wc, r.Storer, cfg.UseRefDeltas)
h, err = enc.Encode(objs, scfg.Pack.Window)
if err != nil {
return h, err
}
// Delete the packed, loose objects.
if los, ok := r.Storer.(storer.LooseObjectStorer); ok {
err = los.ForEachObjectHash(func(hash plumbing.Hash) error {
if ow.isSeen(hash) {
err = los.DeleteLooseObject(hash)
if err != nil {
return err
}
}
return nil
})
if err != nil {
return h, err
}
}
return h, err
}