package git import ( "context" "errors" "fmt" "io" "strings" "time" "github.com/go-git/go-billy/v5/osfs" "github.com/go-git/go-git/v5/config" "github.com/go-git/go-git/v5/internal/url" "github.com/go-git/go-git/v5/plumbing" "github.com/go-git/go-git/v5/plumbing/cache" "github.com/go-git/go-git/v5/plumbing/format/packfile" "github.com/go-git/go-git/v5/plumbing/object" "github.com/go-git/go-git/v5/plumbing/protocol/packp" "github.com/go-git/go-git/v5/plumbing/protocol/packp/capability" "github.com/go-git/go-git/v5/plumbing/protocol/packp/sideband" "github.com/go-git/go-git/v5/plumbing/revlist" "github.com/go-git/go-git/v5/plumbing/storer" "github.com/go-git/go-git/v5/plumbing/transport" "github.com/go-git/go-git/v5/plumbing/transport/client" "github.com/go-git/go-git/v5/storage" "github.com/go-git/go-git/v5/storage/filesystem" "github.com/go-git/go-git/v5/storage/memory" "github.com/go-git/go-git/v5/utils/ioutil" ) var ( NoErrAlreadyUpToDate = errors.New("already up-to-date") ErrDeleteRefNotSupported = errors.New("server does not support delete-refs") ErrForceNeeded = errors.New("some refs were not updated") ErrExactSHA1NotSupported = errors.New("server does not support exact SHA1 refspec") ErrEmptyUrls = errors.New("URLs cannot be empty") ) type NoMatchingRefSpecError struct { refSpec config.RefSpec } func (e NoMatchingRefSpecError) Error() string { return fmt.Sprintf("couldn't find remote ref %q", e.refSpec.Src()) } func (e NoMatchingRefSpecError) Is(target error) bool { _, ok := target.(NoMatchingRefSpecError) return ok } const ( // This describes the maximum number of commits to walk when // computing the haves to send to a server, for each ref in the // repo containing this remote, when not using the multi-ack // protocol. Setting this to 0 means there is no limit. maxHavesToVisitPerRef = 100 // peeledSuffix is the suffix used to build peeled reference names. peeledSuffix = "^{}" ) // Remote represents a connection to a remote repository. type Remote struct { c *config.RemoteConfig s storage.Storer } // NewRemote creates a new Remote. // The intended purpose is to use the Remote for tasks such as listing remote references (like using git ls-remote). // Otherwise Remotes should be created via the use of a Repository. func NewRemote(s storage.Storer, c *config.RemoteConfig) *Remote { return &Remote{s: s, c: c} } // Config returns the RemoteConfig object used to instantiate this Remote. func (r *Remote) Config() *config.RemoteConfig { return r.c } func (r *Remote) String() string { var fetch, push string if len(r.c.URLs) > 0 { fetch = r.c.URLs[0] push = r.c.URLs[0] } return fmt.Sprintf("%s\t%s (fetch)\n%[1]s\t%[3]s (push)", r.c.Name, fetch, push) } // Push performs a push to the remote. Returns NoErrAlreadyUpToDate if the // remote was already up-to-date. func (r *Remote) 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. // // The provided Context must be non-nil. If the context expires before the // operation is complete, an error is returned. The context only affects the // transport operations. func (r *Remote) PushContext(ctx context.Context, o *PushOptions) (err error) { if err := o.Validate(); err != nil { return err } if o.RemoteName != r.c.Name { return fmt.Errorf("remote names don't match: %s != %s", o.RemoteName, r.c.Name) } if o.RemoteURL == "" { o.RemoteURL = r.c.URLs[0] } s, err := newSendPackSession(o.RemoteURL, o.Auth, o.InsecureSkipTLS, o.CABundle, o.ProxyOptions) if err != nil { return err } defer ioutil.CheckClose(s, &err) ar, err := s.AdvertisedReferencesContext(ctx) if err != nil { return err } remoteRefs, err := ar.AllReferences() if err != nil { return err } if err := r.checkRequireRemoteRefs(o.RequireRemoteRefs, remoteRefs); err != nil { return err } isDelete := false allDelete := true for _, rs := range o.RefSpecs { if rs.IsDelete() { isDelete = true } else { allDelete = false } if isDelete && !allDelete { break } } if isDelete && !ar.Capabilities.Supports(capability.DeleteRefs) { return ErrDeleteRefNotSupported } if o.Force { for i := 0; i < len(o.RefSpecs); i++ { rs := &o.RefSpecs[i] if !rs.IsForceUpdate() && !rs.IsDelete() { o.RefSpecs[i] = config.RefSpec("+" + rs.String()) } } } localRefs, err := r.references() if err != nil { return err } req, err := r.newReferenceUpdateRequest(o, localRefs, remoteRefs, ar) if err != nil { return err } if len(req.Commands) == 0 { return NoErrAlreadyUpToDate } objects := objectsToPush(req.Commands) haves, err := referencesToHashes(remoteRefs) if err != nil { return err } stop, err := r.s.Shallow() if err != nil { return err } // if we have shallow we should include this as part of the objects that // we are aware. haves = append(haves, stop...) var hashesToPush []plumbing.Hash // Avoid the expensive revlist operation if we're only doing deletes. if !allDelete { if url.IsLocalEndpoint(o.RemoteURL) { // If we're are pushing to a local repo, it might be much // faster to use a local storage layer to get the commits // to ignore, when calculating the object revlist. localStorer := filesystem.NewStorage( osfs.New(o.RemoteURL), cache.NewObjectLRUDefault()) hashesToPush, err = revlist.ObjectsWithStorageForIgnores( r.s, localStorer, objects, haves) } else { hashesToPush, err = revlist.Objects(r.s, objects, haves) } if err != nil { return err } } if len(hashesToPush) == 0 { allDelete = true for _, command := range req.Commands { if command.Action() != packp.Delete { allDelete = false break } } } rs, err := pushHashes(ctx, s, r.s, req, hashesToPush, r.useRefDeltas(ar), allDelete) if err != nil { return err } if rs != nil { if err = rs.Error(); err != nil { return err } } return r.updateRemoteReferenceStorage(req) } func (r *Remote) useRefDeltas(ar *packp.AdvRefs) bool { return !ar.Capabilities.Supports(capability.OFSDelta) } func (r *Remote) addReachableTags(localRefs []*plumbing.Reference, remoteRefs storer.ReferenceStorer, req *packp.ReferenceUpdateRequest) error { tags := make(map[plumbing.Reference]struct{}) // get a list of all tags locally for _, ref := range localRefs { if strings.HasPrefix(string(ref.Name()), "refs/tags") { tags[*ref] = struct{}{} } } remoteRefIter, err := remoteRefs.IterReferences() if err != nil { return err } // remove any that are already on the remote if err := remoteRefIter.ForEach(func(reference *plumbing.Reference) error { delete(tags, *reference) return nil }); err != nil { return err } for tag := range tags { tagObject, err := object.GetObject(r.s, tag.Hash()) var tagCommit *object.Commit if err != nil { return fmt.Errorf("get tag object: %w", err) } if tagObject.Type() != plumbing.TagObject { continue } annotatedTag, ok := tagObject.(*object.Tag) if !ok { return errors.New("could not get annotated tag object") } tagCommit, err = object.GetCommit(r.s, annotatedTag.Target) if err != nil { return fmt.Errorf("get annotated tag commit: %w", err) } // only include tags that are reachable from one of the refs // already being pushed for _, cmd := range req.Commands { if tag.Name() == cmd.Name { continue } if strings.HasPrefix(cmd.Name.String(), "refs/tags") { continue } c, err := object.GetCommit(r.s, cmd.New) if err != nil { return fmt.Errorf("get commit %v: %w", cmd.Name, err) } if isAncestor, err := tagCommit.IsAncestor(c); err == nil && isAncestor { req.Commands = append(req.Commands, &packp.Command{Name: tag.Name(), New: tag.Hash()}) } } } return nil } func (r *Remote) newReferenceUpdateRequest( o *PushOptions, localRefs []*plumbing.Reference, remoteRefs storer.ReferenceStorer, ar *packp.AdvRefs, ) (*packp.ReferenceUpdateRequest, error) { req := packp.NewReferenceUpdateRequestFromCapabilities(ar.Capabilities) if o.Progress != nil { req.Progress = o.Progress if ar.Capabilities.Supports(capability.Sideband64k) { _ = req.Capabilities.Set(capability.Sideband64k) } else if ar.Capabilities.Supports(capability.Sideband) { _ = req.Capabilities.Set(capability.Sideband) } } if ar.Capabilities.Supports(capability.PushOptions) { _ = req.Capabilities.Set(capability.PushOptions) for k, v := range o.Options { req.Options = append(req.Options, &packp.Option{Key: k, Value: v}) } } if o.Atomic && ar.Capabilities.Supports(capability.Atomic) { _ = req.Capabilities.Set(capability.Atomic) } if err := r.addReferencesToUpdate(o.RefSpecs, localRefs, remoteRefs, req, o.Prune, o.ForceWithLease); err != nil { return nil, err } if o.FollowTags { if err := r.addReachableTags(localRefs, remoteRefs, req); err != nil { return nil, err } } return req, nil } func (r *Remote) updateRemoteReferenceStorage( req *packp.ReferenceUpdateRequest, ) error { for _, spec := range r.c.Fetch { for _, c := range req.Commands { if !spec.Match(c.Name) { continue } local := spec.Dst(c.Name) ref := plumbing.NewHashReference(local, c.New) switch c.Action() { case packp.Create, packp.Update: if err := r.s.SetReference(ref); err != nil { return err } case packp.Delete: if err := r.s.RemoveReference(local); err != nil { return err } } } } return nil } // FetchContext fetches references along with the objects necessary to complete // their histories. // // 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 the // transport operations. func (r *Remote) FetchContext(ctx context.Context, o *FetchOptions) error { _, err := r.fetch(ctx, o) return err } // Fetch fetches references along with the objects necessary to complete their // histories. // // Returns nil if the operation is successful, NoErrAlreadyUpToDate if there are // no changes to be fetched, or an error. func (r *Remote) Fetch(o *FetchOptions) error { return r.FetchContext(context.Background(), o) } func (r *Remote) fetch(ctx context.Context, o *FetchOptions) (sto storer.ReferenceStorer, err error) { if o.RemoteName == "" { o.RemoteName = r.c.Name } if err = o.Validate(); err != nil { return nil, err } if len(o.RefSpecs) == 0 { o.RefSpecs = r.c.Fetch } if o.RemoteURL == "" { o.RemoteURL = r.c.URLs[0] } s, err := newUploadPackSession(o.RemoteURL, o.Auth, o.InsecureSkipTLS, o.CABundle, o.ProxyOptions) if err != nil { return nil, err } defer ioutil.CheckClose(s, &err) ar, err := s.AdvertisedReferencesContext(ctx) if err != nil { return nil, err } req, err := r.newUploadPackRequest(o, ar) if err != nil { return nil, err } if err := r.isSupportedRefSpec(o.RefSpecs, ar); err != nil { return nil, err } remoteRefs, err := ar.AllReferences() if err != nil { return nil, err } localRefs, err := r.references() if err != nil { return nil, err } refs, specToRefs, err := calculateRefs(o.RefSpecs, remoteRefs, o.Tags) if err != nil { return nil, err } if !req.Depth.IsZero() { req.Shallows, err = r.s.Shallow() if err != nil { return nil, fmt.Errorf("existing checkout is not shallow") } } req.Wants, err = getWants(r.s, refs, o.Depth) if len(req.Wants) > 0 { req.Haves, err = getHaves(localRefs, remoteRefs, r.s, o.Depth) if err != nil { return nil, err } if err = r.fetchPack(ctx, o, s, req); err != nil { return nil, err } } var updatedPrune bool if o.Prune { updatedPrune, err = r.pruneRemotes(o.RefSpecs, localRefs, remoteRefs) if err != nil { return nil, err } } updated, err := r.updateLocalReferenceStorage(o.RefSpecs, refs, remoteRefs, specToRefs, o.Tags, o.Force) if err != nil { return nil, err } if !updated { updated, err = depthChanged(req.Shallows, r.s) if err != nil { return nil, fmt.Errorf("error checking depth change: %v", err) } } if !updated && !updatedPrune { // No references updated, but may have fetched new objects, check if we now have any of our wants for _, hash := range req.Wants { exists, _ := objectExists(r.s, hash) if exists { updated = true break } } if !updated { return remoteRefs, NoErrAlreadyUpToDate } } return remoteRefs, nil } func depthChanged(before []plumbing.Hash, s storage.Storer) (bool, error) { after, err := s.Shallow() if err != nil { return false, err } if len(before) != len(after) { return true, nil } bm := make(map[plumbing.Hash]bool, len(before)) for _, b := range before { bm[b] = true } for _, a := range after { if _, ok := bm[a]; !ok { return true, nil } } return false, nil } func newUploadPackSession(url string, auth transport.AuthMethod, insecure bool, cabundle []byte, proxyOpts transport.ProxyOptions) (transport.UploadPackSession, error) { c, ep, err := newClient(url, insecure, cabundle, proxyOpts) if err != nil { return nil, err } return c.NewUploadPackSession(ep, auth) } func newSendPackSession(url string, auth transport.AuthMethod, insecure bool, cabundle []byte, proxyOpts transport.ProxyOptions) (transport.ReceivePackSession, error) { c, ep, err := newClient(url, insecure, cabundle, proxyOpts) if err != nil { return nil, err } return c.NewReceivePackSession(ep, auth) } func newClient(url string, insecure bool, cabundle []byte, proxyOpts transport.ProxyOptions) (transport.Transport, *transport.Endpoint, error) { ep, err := transport.NewEndpoint(url) if err != nil { return nil, nil, err } ep.InsecureSkipTLS = insecure ep.CaBundle = cabundle ep.Proxy = proxyOpts c, err := client.NewClient(ep) if err != nil { return nil, nil, err } return c, ep, err } func (r *Remote) fetchPack(ctx context.Context, o *FetchOptions, s transport.UploadPackSession, req *packp.UploadPackRequest) (err error) { reader, err := s.UploadPack(ctx, req) if err != nil { if errors.Is(err, transport.ErrEmptyUploadPackRequest) { // XXX: no packfile provided, everything is up-to-date. return nil } return err } defer ioutil.CheckClose(reader, &err) if err = r.updateShallow(o, reader); err != nil { return err } if err = packfile.UpdateObjectStorage(r.s, buildSidebandIfSupported(req.Capabilities, reader, o.Progress), ); err != nil { return err } return err } func (r *Remote) pruneRemotes(specs []config.RefSpec, localRefs []*plumbing.Reference, remoteRefs memory.ReferenceStorage) (bool, error) { var updatedPrune bool for _, spec := range specs { rev := spec.Reverse() for _, ref := range localRefs { if !rev.Match(ref.Name()) { continue } _, err := remoteRefs.Reference(rev.Dst(ref.Name())) if errors.Is(err, plumbing.ErrReferenceNotFound) { updatedPrune = true err := r.s.RemoveReference(ref.Name()) if err != nil { return false, err } } } } return updatedPrune, nil } func (r *Remote) addReferencesToUpdate( refspecs []config.RefSpec, localRefs []*plumbing.Reference, remoteRefs storer.ReferenceStorer, req *packp.ReferenceUpdateRequest, prune bool, forceWithLease *ForceWithLease, ) error { // This references dictionary will be used to search references by name. refsDict := make(map[string]*plumbing.Reference) for _, ref := range localRefs { refsDict[ref.Name().String()] = ref } for _, rs := range refspecs { if rs.IsDelete() { if err := r.deleteReferences(rs, remoteRefs, refsDict, req, false); err != nil { return err } } else { err := r.addOrUpdateReferences(rs, localRefs, refsDict, remoteRefs, req, forceWithLease) if err != nil { return err } if prune { if err := r.deleteReferences(rs, remoteRefs, refsDict, req, true); err != nil { return err } } } } return nil } func (r *Remote) addOrUpdateReferences( rs config.RefSpec, localRefs []*plumbing.Reference, refsDict map[string]*plumbing.Reference, remoteRefs storer.ReferenceStorer, req *packp.ReferenceUpdateRequest, forceWithLease *ForceWithLease, ) error { // If it is not a wildcard refspec we can directly search for the reference // in the references dictionary. if !rs.IsWildcard() { ref, ok := refsDict[rs.Src()] if !ok { commit, err := object.GetCommit(r.s, plumbing.NewHash(rs.Src())) if err == nil { return r.addCommit(rs, remoteRefs, commit.Hash, req) } return nil } return r.addReferenceIfRefSpecMatches(rs, remoteRefs, ref, req, forceWithLease) } for _, ref := range localRefs { err := r.addReferenceIfRefSpecMatches(rs, remoteRefs, ref, req, forceWithLease) if err != nil { return err } } return nil } func (r *Remote) deleteReferences(rs config.RefSpec, remoteRefs storer.ReferenceStorer, refsDict map[string]*plumbing.Reference, req *packp.ReferenceUpdateRequest, prune bool) error { iter, err := remoteRefs.IterReferences() if err != nil { return err } return iter.ForEach(func(ref *plumbing.Reference) error { if ref.Type() != plumbing.HashReference { return nil } if prune { rs := rs.Reverse() if !rs.Match(ref.Name()) { return nil } if _, ok := refsDict[rs.Dst(ref.Name()).String()]; ok { return nil } } else if rs.Dst("") != ref.Name() { return nil } cmd := &packp.Command{ Name: ref.Name(), Old: ref.Hash(), New: plumbing.ZeroHash, } req.Commands = append(req.Commands, cmd) return nil }) } func (r *Remote) addCommit(rs config.RefSpec, remoteRefs storer.ReferenceStorer, localCommit plumbing.Hash, req *packp.ReferenceUpdateRequest) error { if rs.IsWildcard() { return errors.New("can't use wildcard together with hash refspecs") } cmd := &packp.Command{ Name: rs.Dst(""), Old: plumbing.ZeroHash, New: localCommit, } remoteRef, err := remoteRefs.Reference(cmd.Name) if err == nil { if remoteRef.Type() != plumbing.HashReference { // TODO: check actual git behavior here return nil } cmd.Old = remoteRef.Hash() } else if err != plumbing.ErrReferenceNotFound { return err } if cmd.Old == cmd.New { return nil } if !rs.IsForceUpdate() { if err := checkFastForwardUpdate(r.s, remoteRefs, cmd); err != nil { return err } } req.Commands = append(req.Commands, cmd) return nil } func (r *Remote) addReferenceIfRefSpecMatches(rs config.RefSpec, remoteRefs storer.ReferenceStorer, localRef *plumbing.Reference, req *packp.ReferenceUpdateRequest, forceWithLease *ForceWithLease) error { if localRef.Type() != plumbing.HashReference { return nil } if !rs.Match(localRef.Name()) { return nil } cmd := &packp.Command{ Name: rs.Dst(localRef.Name()), Old: plumbing.ZeroHash, New: localRef.Hash(), } remoteRef, err := remoteRefs.Reference(cmd.Name) if err == nil { if remoteRef.Type() != plumbing.HashReference { // TODO: check actual git behavior here return nil } cmd.Old = remoteRef.Hash() } else if err != plumbing.ErrReferenceNotFound { return err } if cmd.Old == cmd.New { return nil } if forceWithLease != nil { if err = r.checkForceWithLease(localRef, cmd, forceWithLease); err != nil { return err } } else if !rs.IsForceUpdate() { if err := checkFastForwardUpdate(r.s, remoteRefs, cmd); err != nil { return err } } req.Commands = append(req.Commands, cmd) return nil } func (r *Remote) checkForceWithLease(localRef *plumbing.Reference, cmd *packp.Command, forceWithLease *ForceWithLease) error { remotePrefix := fmt.Sprintf("refs/remotes/%s/", r.Config().Name) ref, err := storer.ResolveReference( r.s, plumbing.ReferenceName(remotePrefix+strings.Replace(localRef.Name().String(), "refs/heads/", "", -1))) if err != nil { return err } if forceWithLease.RefName.String() == "" || (forceWithLease.RefName == cmd.Name) { expectedOID := ref.Hash() if !forceWithLease.Hash.IsZero() { expectedOID = forceWithLease.Hash } if cmd.Old != expectedOID { return fmt.Errorf("non-fast-forward update: %s", cmd.Name.String()) } } return nil } func (r *Remote) references() ([]*plumbing.Reference, error) { var localRefs []*plumbing.Reference iter, err := r.s.IterReferences() if err != nil { return nil, err } for { ref, err := iter.Next() if err == io.EOF { break } if err != nil { return nil, err } localRefs = append(localRefs, ref) } return localRefs, nil } func getRemoteRefsFromStorer(remoteRefStorer storer.ReferenceStorer) ( map[plumbing.Hash]bool, error) { remoteRefs := map[plumbing.Hash]bool{} iter, err := remoteRefStorer.IterReferences() if err != nil { return nil, err } err = iter.ForEach(func(ref *plumbing.Reference) error { if ref.Type() != plumbing.HashReference { return nil } remoteRefs[ref.Hash()] = true return nil }) if err != nil { return nil, err } return remoteRefs, nil } // getHavesFromRef populates the given `haves` map with the given // reference, and up to `maxHavesToVisitPerRef` ancestor commits. func getHavesFromRef( ref *plumbing.Reference, remoteRefs map[plumbing.Hash]bool, s storage.Storer, haves map[plumbing.Hash]bool, depth int, ) error { h := ref.Hash() if haves[h] { return nil } commit, err := object.GetCommit(s, h) if err != nil { if !errors.Is(err, plumbing.ErrObjectNotFound) { // Ignore the error if this isn't a commit. haves[ref.Hash()] = true } return nil } // Until go-git supports proper commit negotiation during an // upload pack request, include up to `maxHavesToVisitPerRef` // commits from the history of each ref. walker := object.NewCommitPreorderIter(commit, haves, nil) toVisit := maxHavesToVisitPerRef // But only need up to the requested depth if depth > 0 && depth < maxHavesToVisitPerRef { toVisit = depth } // It is safe to ignore any error here as we are just trying to find the references that we already have // An example of a legitimate failure is we have a shallow clone and don't have the previous commit(s) _ = walker.ForEach(func(c *object.Commit) error { haves[c.Hash] = true toVisit-- // If toVisit starts out at 0 (indicating there is no // max), then it will be negative here and we won't stop // early. if toVisit == 0 || remoteRefs[c.Hash] { return storer.ErrStop } return nil }) return nil } func getHaves( localRefs []*plumbing.Reference, remoteRefStorer storer.ReferenceStorer, s storage.Storer, depth int, ) ([]plumbing.Hash, error) { haves := map[plumbing.Hash]bool{} // Build a map of all the remote references, to avoid loading too // many parent commits for references we know don't need to be // transferred. remoteRefs, err := getRemoteRefsFromStorer(remoteRefStorer) if err != nil { return nil, err } for _, ref := range localRefs { if haves[ref.Hash()] { continue } if ref.Type() != plumbing.HashReference { continue } err = getHavesFromRef(ref, remoteRefs, s, haves, depth) if err != nil { return nil, err } } var result []plumbing.Hash for h := range haves { result = append(result, h) } return result, nil } const refspecAllTags = "+refs/tags/*:refs/tags/*" func calculateRefs( spec []config.RefSpec, remoteRefs storer.ReferenceStorer, tagMode TagMode, ) (memory.ReferenceStorage, [][]*plumbing.Reference, error) { if tagMode == AllTags { spec = append(spec, refspecAllTags) } refs := make(memory.ReferenceStorage) // list of references matched for each spec specToRefs := make([][]*plumbing.Reference, len(spec)) for i := range spec { var err error specToRefs[i], err = doCalculateRefs(spec[i], remoteRefs, refs) if err != nil { return nil, nil, err } } return refs, specToRefs, nil } func doCalculateRefs( s config.RefSpec, remoteRefs storer.ReferenceStorer, refs memory.ReferenceStorage, ) ([]*plumbing.Reference, error) { var refList []*plumbing.Reference if s.IsExactSHA1() { ref := plumbing.NewHashReference(s.Dst(""), plumbing.NewHash(s.Src())) refList = append(refList, ref) return refList, refs.SetReference(ref) } var matched bool onMatched := func(ref *plumbing.Reference) error { if ref.Type() == plumbing.SymbolicReference { target, err := storer.ResolveReference(remoteRefs, ref.Name()) if err != nil { return err } ref = plumbing.NewHashReference(ref.Name(), target.Hash()) } if ref.Type() != plumbing.HashReference { return nil } matched = true refList = append(refList, ref) return refs.SetReference(ref) } var ret error if s.IsWildcard() { iter, err := remoteRefs.IterReferences() if err != nil { return nil, err } ret = iter.ForEach(func(ref *plumbing.Reference) error { if !s.Match(ref.Name()) { return nil } return onMatched(ref) }) } else { var resolvedRef *plumbing.Reference src := s.Src() resolvedRef, ret = expand_ref(remoteRefs, plumbing.ReferenceName(src)) if ret == nil { ret = onMatched(resolvedRef) } } if !matched && !s.IsWildcard() { return nil, NoMatchingRefSpecError{refSpec: s} } return refList, ret } func getWants(localStorer storage.Storer, refs memory.ReferenceStorage, depth int) ([]plumbing.Hash, error) { // If depth is anything other than 1 and the repo has shallow commits then just because we have the commit // at the reference doesn't mean that we don't still need to fetch the parents shallow := false if depth != 1 { if s, _ := localStorer.Shallow(); len(s) > 0 { shallow = true } } wants := map[plumbing.Hash]bool{} for _, ref := range refs { hash := ref.Hash() exists, err := objectExists(localStorer, ref.Hash()) if err != nil { return nil, err } if !exists || shallow { wants[hash] = true } } var result []plumbing.Hash for h := range wants { result = append(result, h) } return result, nil } func objectExists(s storer.EncodedObjectStorer, h plumbing.Hash) (bool, error) { _, err := s.EncodedObject(plumbing.AnyObject, h) if err == plumbing.ErrObjectNotFound { return false, nil } return true, err } func checkFastForwardUpdate(s storer.EncodedObjectStorer, remoteRefs storer.ReferenceStorer, cmd *packp.Command) error { if cmd.Old == plumbing.ZeroHash { _, err := remoteRefs.Reference(cmd.Name) if err == plumbing.ErrReferenceNotFound { return nil } if err != nil { return err } return fmt.Errorf("non-fast-forward update: %s", cmd.Name.String()) } ff, err := isFastForward(s, cmd.Old, cmd.New, nil) if err != nil { return err } if !ff { return fmt.Errorf("non-fast-forward update: %s", cmd.Name.String()) } return nil } func isFastForward(s storer.EncodedObjectStorer, old, new plumbing.Hash, earliestShallow *plumbing.Hash) (bool, error) { c, err := object.GetCommit(s, new) if err != nil { return false, err } parentsToIgnore := []plumbing.Hash{} if earliestShallow != nil { earliestCommit, err := object.GetCommit(s, *earliestShallow) if err != nil { return false, err } parentsToIgnore = earliestCommit.ParentHashes } found := false // stop iterating at the earliest shallow commit, ignoring its parents // note: when pull depth is smaller than the number of new changes on the remote, this fails due to missing parents. // as far as i can tell, without the commits in-between the shallow pull and the earliest shallow, there's no // real way of telling whether it will be a fast-forward merge. iter := object.NewCommitPreorderIter(c, nil, parentsToIgnore) err = iter.ForEach(func(c *object.Commit) error { if c.Hash != old { return nil } found = true return storer.ErrStop }) return found, err } func (r *Remote) newUploadPackRequest(o *FetchOptions, ar *packp.AdvRefs) (*packp.UploadPackRequest, error) { req := packp.NewUploadPackRequestFromCapabilities(ar.Capabilities) if o.Depth != 0 { req.Depth = packp.DepthCommits(o.Depth) if err := req.Capabilities.Set(capability.Shallow); err != nil { return nil, err } } if o.Progress == nil && ar.Capabilities.Supports(capability.NoProgress) { if err := req.Capabilities.Set(capability.NoProgress); err != nil { return nil, err } } isWildcard := true for _, s := range o.RefSpecs { if !s.IsWildcard() { isWildcard = false break } } if isWildcard && o.Tags == TagFollowing && ar.Capabilities.Supports(capability.IncludeTag) { if err := req.Capabilities.Set(capability.IncludeTag); err != nil { return nil, err } } return req, nil } func (r *Remote) isSupportedRefSpec(refs []config.RefSpec, ar *packp.AdvRefs) error { var containsIsExact bool for _, ref := range refs { if ref.IsExactSHA1() { containsIsExact = true } } if !containsIsExact { return nil } if ar.Capabilities.Supports(capability.AllowReachableSHA1InWant) || ar.Capabilities.Supports(capability.AllowTipSHA1InWant) { return nil } return ErrExactSHA1NotSupported } func buildSidebandIfSupported(l *capability.List, reader io.Reader, p sideband.Progress) io.Reader { var t sideband.Type switch { case l.Supports(capability.Sideband): t = sideband.Sideband case l.Supports(capability.Sideband64k): t = sideband.Sideband64k default: return reader } d := sideband.NewDemuxer(t, reader) d.Progress = p return d } func (r *Remote) updateLocalReferenceStorage( specs []config.RefSpec, fetchedRefs, remoteRefs memory.ReferenceStorage, specToRefs [][]*plumbing.Reference, tagMode TagMode, force bool, ) (updated bool, err error) { isWildcard := true forceNeeded := false for i, spec := range specs { if !spec.IsWildcard() { isWildcard = false } for _, ref := range specToRefs[i] { if ref.Type() != plumbing.HashReference { continue } localName := spec.Dst(ref.Name()) // If localName doesn't start with "refs/" then treat as a branch. if !strings.HasPrefix(localName.String(), "refs/") { localName = plumbing.NewBranchReferenceName(localName.String()) } old, _ := storer.ResolveReference(r.s, localName) new := plumbing.NewHashReference(localName, ref.Hash()) // If the ref exists locally as a non-tag and force is not // specified, only update if the new ref is an ancestor of the old if old != nil && !old.Name().IsTag() && !force && !spec.IsForceUpdate() { ff, err := isFastForward(r.s, old.Hash(), new.Hash(), nil) if err != nil { return updated, err } if !ff { forceNeeded = true continue } } refUpdated, err := checkAndUpdateReferenceStorerIfNeeded(r.s, new, old) if err != nil { return updated, err } if refUpdated { updated = true } } } if tagMode == NoTags { return updated, nil } tags := fetchedRefs if isWildcard { tags = remoteRefs } tagUpdated, err := r.buildFetchedTags(tags) if err != nil { return updated, err } if tagUpdated { updated = true } if forceNeeded { err = ErrForceNeeded } return } func (r *Remote) buildFetchedTags(refs memory.ReferenceStorage) (updated bool, err error) { for _, ref := range refs { if !ref.Name().IsTag() { continue } _, err := r.s.EncodedObject(plumbing.AnyObject, ref.Hash()) if err == plumbing.ErrObjectNotFound { continue } if err != nil { return false, err } refUpdated, err := updateReferenceStorerIfNeeded(r.s, ref) if err != nil { return updated, err } if refUpdated { updated = true } } return } // List the references on the remote repository. // 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 *Remote) ListContext(ctx context.Context, o *ListOptions) (rfs []*plumbing.Reference, err error) { return r.list(ctx, o) } func (r *Remote) List(o *ListOptions) (rfs []*plumbing.Reference, err error) { timeout := o.Timeout // Default to the old hardcoded 10s value if a timeout is not explicitly set. if timeout == 0 { timeout = 10 } if timeout < 0 { return nil, fmt.Errorf("invalid timeout: %d", timeout) } ctx, cancel := context.WithTimeout(context.Background(), time.Duration(timeout)*time.Second) defer cancel() return r.ListContext(ctx, o) } func (r *Remote) list(ctx context.Context, o *ListOptions) (rfs []*plumbing.Reference, err error) { if r.c == nil || len(r.c.URLs) == 0 { return nil, ErrEmptyUrls } s, err := newUploadPackSession(r.c.URLs[0], o.Auth, o.InsecureSkipTLS, o.CABundle, o.ProxyOptions) if err != nil { return nil, err } defer ioutil.CheckClose(s, &err) ar, err := s.AdvertisedReferencesContext(ctx) if err != nil { return nil, err } allRefs, err := ar.AllReferences() if err != nil { return nil, err } refs, err := allRefs.IterReferences() if err != nil { return nil, err } var resultRefs []*plumbing.Reference if o.PeelingOption == AppendPeeled || o.PeelingOption == IgnorePeeled { err = refs.ForEach(func(ref *plumbing.Reference) error { resultRefs = append(resultRefs, ref) return nil }) if err != nil { return nil, err } } if o.PeelingOption == AppendPeeled || o.PeelingOption == OnlyPeeled { for k, v := range ar.Peeled { resultRefs = append(resultRefs, plumbing.NewReferenceFromStrings(k+"^{}", v.String())) } } return resultRefs, nil } func objectsToPush(commands []*packp.Command) []plumbing.Hash { objects := make([]plumbing.Hash, 0, len(commands)) for _, cmd := range commands { if cmd.New == plumbing.ZeroHash { continue } objects = append(objects, cmd.New) } return objects } func referencesToHashes(refs storer.ReferenceStorer) ([]plumbing.Hash, error) { iter, err := refs.IterReferences() if err != nil { return nil, err } var hs []plumbing.Hash err = iter.ForEach(func(ref *plumbing.Reference) error { if ref.Type() != plumbing.HashReference { return nil } hs = append(hs, ref.Hash()) return nil }) if err != nil { return nil, err } return hs, nil } func pushHashes( ctx context.Context, sess transport.ReceivePackSession, s storage.Storer, req *packp.ReferenceUpdateRequest, hs []plumbing.Hash, useRefDeltas bool, allDelete bool, ) (*packp.ReportStatus, error) { rd, wr := io.Pipe() config, err := s.Config() if err != nil { return nil, err } // Set buffer size to 1 so the error message can be written when // ReceivePack fails. Otherwise the goroutine will be blocked writing // to the channel. done := make(chan error, 1) if !allDelete { req.Packfile = rd go func() { e := packfile.NewEncoder(wr, s, useRefDeltas) if _, err := e.Encode(hs, config.Pack.Window); err != nil { done <- wr.CloseWithError(err) return } done <- wr.Close() }() } else { close(done) } rs, err := sess.ReceivePack(ctx, req) if err != nil { // close the pipe to unlock encode write _ = rd.Close() return nil, err } if err := <-done; err != nil { return nil, err } return rs, nil } func (r *Remote) updateShallow(o *FetchOptions, resp *packp.UploadPackResponse) error { if o.Depth == 0 || len(resp.Shallows) == 0 { return nil } shallows, err := r.s.Shallow() if err != nil { return err } outer: for _, s := range resp.Shallows { for _, oldS := range shallows { if s == oldS { continue outer } } shallows = append(shallows, s) } return r.s.SetShallow(shallows) } func (r *Remote) checkRequireRemoteRefs(requires []config.RefSpec, remoteRefs storer.ReferenceStorer) error { for _, require := range requires { if require.IsWildcard() { return fmt.Errorf("wildcards not supported in RequireRemoteRefs, got %s", require.String()) } name := require.Dst("") remote, err := remoteRefs.Reference(name) if err != nil { return fmt.Errorf("remote ref %s required to be %s but is absent", name.String(), require.Src()) } var requireHash string if require.IsExactSHA1() { requireHash = require.Src() } else { target, err := storer.ResolveReference(remoteRefs, plumbing.ReferenceName(require.Src())) if err != nil { return fmt.Errorf("could not resolve ref %s in RequireRemoteRefs", require.Src()) } requireHash = target.Hash().String() } if remote.Hash().String() != requireHash { return fmt.Errorf("remote ref %s required to be %s but is %s", name.String(), requireHash, remote.Hash().String()) } } return nil }