package git import ( "bytes" "context" "errors" "fmt" "github.com/go-git/go-billy/v5" "github.com/go-git/go-git/v5/config" "github.com/go-git/go-git/v5/plumbing" "github.com/go-git/go-git/v5/plumbing/format/index" ) var ( ErrSubmoduleAlreadyInitialized = errors.New("submodule already initialized") ErrSubmoduleNotInitialized = errors.New("submodule not initialized") ) // Submodule a submodule allows you to keep another Git repository in a // subdirectory of your repository. type Submodule struct { // initialized defines if a submodule was already initialized. initialized bool c *config.Submodule w *Worktree } // Config returns the submodule config func (s *Submodule) Config() *config.Submodule { return s.c } // Init initialize the submodule reading the recorded Entry in the index for // the given submodule func (s *Submodule) Init() error { cfg, err := s.w.r.Config() if err != nil { return err } _, ok := cfg.Submodules[s.c.Name] if ok { return ErrSubmoduleAlreadyInitialized } s.initialized = true cfg.Submodules[s.c.Name] = s.c return s.w.r.Storer.SetConfig(cfg) } // Status returns the status of the submodule. func (s *Submodule) Status() (*SubmoduleStatus, error) { idx, err := s.w.r.Storer.Index() if err != nil { return nil, err } return s.status(idx) } func (s *Submodule) status(idx *index.Index) (*SubmoduleStatus, error) { status := &SubmoduleStatus{ Path: s.c.Path, } e, err := idx.Entry(s.c.Path) if err != nil && err != index.ErrEntryNotFound { return nil, err } if e != nil { status.Expected = e.Hash } if !s.initialized { return status, nil } r, err := s.Repository() if err != nil { return nil, err } head, err := r.Head() if err == nil { status.Current = head.Hash() } if err != nil && err == plumbing.ErrReferenceNotFound { err = nil } return status, err } // Repository returns the Repository represented by this submodule func (s *Submodule) Repository() (*Repository, error) { if !s.initialized { return nil, ErrSubmoduleNotInitialized } storer, err := s.w.r.Storer.Module(s.c.Name) if err != nil { return nil, err } _, err = storer.Reference(plumbing.HEAD) if err != nil && err != plumbing.ErrReferenceNotFound { return nil, err } var exists bool if err == nil { exists = true } var worktree billy.Filesystem if worktree, err = s.w.Filesystem.Chroot(s.c.Path); err != nil { return nil, err } if exists { return Open(storer, worktree) } r, err := Init(storer, worktree) if err != nil { return nil, err } _, err = r.CreateRemote(&config.RemoteConfig{ Name: DefaultRemoteName, URLs: []string{s.c.URL}, }) return r, err } // Update the registered submodule to match what the superproject expects, the // submodule should be initialized first calling the Init method or setting in // the options SubmoduleUpdateOptions.Init equals true func (s *Submodule) Update(o *SubmoduleUpdateOptions) error { return s.UpdateContext(context.Background(), o) } // UpdateContext the registered submodule to match what the superproject // expects, the submodule should be initialized first calling the Init method or // setting in the options SubmoduleUpdateOptions.Init equals true. // // 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 (s *Submodule) UpdateContext(ctx context.Context, o *SubmoduleUpdateOptions) error { return s.update(ctx, o, plumbing.ZeroHash) } func (s *Submodule) update(ctx context.Context, o *SubmoduleUpdateOptions, forceHash plumbing.Hash) error { if !s.initialized && !o.Init { return ErrSubmoduleNotInitialized } if !s.initialized && o.Init { if err := s.Init(); err != nil { return err } } idx, err := s.w.r.Storer.Index() if err != nil { return err } hash := forceHash if hash.IsZero() { e, err := idx.Entry(s.c.Path) if err != nil { return err } hash = e.Hash } r, err := s.Repository() if err != nil { return err } if err := s.fetchAndCheckout(ctx, r, o, hash); err != nil { return err } return s.doRecursiveUpdate(r, o) } func (s *Submodule) doRecursiveUpdate(r *Repository, o *SubmoduleUpdateOptions) error { if o.RecurseSubmodules == NoRecurseSubmodules { return nil } w, err := r.Worktree() if err != nil { return err } l, err := w.Submodules() if err != nil { return err } new := &SubmoduleUpdateOptions{} *new = *o new.RecurseSubmodules-- return l.Update(new) } func (s *Submodule) fetchAndCheckout( ctx context.Context, r *Repository, o *SubmoduleUpdateOptions, hash plumbing.Hash, ) error { if !o.NoFetch { err := r.FetchContext(ctx, &FetchOptions{Auth: o.Auth}) if err != nil && err != NoErrAlreadyUpToDate { return err } } w, err := r.Worktree() if err != nil { return err } if err := w.Checkout(&CheckoutOptions{Hash: hash}); err != nil { return err } head := plumbing.NewHashReference(plumbing.HEAD, hash) return r.Storer.SetReference(head) } // Submodules list of several submodules from the same repository. type Submodules []*Submodule // Init initializes the submodules in this list. func (s Submodules) Init() error { for _, sub := range s { if err := sub.Init(); err != nil { return err } } return nil } // Update updates all the submodules in this list. func (s Submodules) Update(o *SubmoduleUpdateOptions) error { return s.UpdateContext(context.Background(), o) } // UpdateContext updates all the submodules in this list. // // 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 (s Submodules) UpdateContext(ctx context.Context, o *SubmoduleUpdateOptions) error { for _, sub := range s { if err := sub.UpdateContext(ctx, o); err != nil { return err } } return nil } // Status returns the status of the submodules. func (s Submodules) Status() (SubmodulesStatus, error) { var list SubmodulesStatus var r *Repository for _, sub := range s { if r == nil { r = sub.w.r } idx, err := r.Storer.Index() if err != nil { return nil, err } status, err := sub.status(idx) if err != nil { return nil, err } list = append(list, status) } return list, nil } // SubmodulesStatus contains the status for all submodiles in the worktree type SubmodulesStatus []*SubmoduleStatus // String is equivalent to `git submodule status` func (s SubmodulesStatus) String() string { buf := bytes.NewBuffer(nil) for _, sub := range s { fmt.Fprintln(buf, sub) } return buf.String() } // SubmoduleStatus contains the status for a submodule in the worktree type SubmoduleStatus struct { Path string Current plumbing.Hash Expected plumbing.Hash Branch plumbing.ReferenceName } // IsClean is the HEAD of the submodule is equals to the expected commit func (s *SubmoduleStatus) IsClean() bool { return s.Current == s.Expected } // String is equivalent to `git submodule status ` // // This will print the SHA-1 of the currently checked out commit for a // submodule, along with the submodule path and the output of git describe fo // the SHA-1. Each SHA-1 will be prefixed with - if the submodule is not // initialized, + if the currently checked out submodule commit does not match // the SHA-1 found in the index of the containing repository. func (s *SubmoduleStatus) String() string { var extra string var status = ' ' if s.Current.IsZero() { status = '-' } else if !s.IsClean() { status = '+' } if len(s.Branch) != 0 { extra = string(s.Branch[5:]) } else if !s.Current.IsZero() { extra = s.Current.String()[:7] } if extra != "" { extra = fmt.Sprintf(" (%s)", extra) } return fmt.Sprintf("%c%s %s%s", status, s.Expected, s.Path, extra) }