Example #1
0
// Fetch and report completion of each OID to a channel (optional, pass nil to skip)
func fetchAndReportToChan(pointers []*lfs.WrappedPointer, include, exclude []string, out chan<- *lfs.WrappedPointer) {

	totalSize := int64(0)
	for _, p := range pointers {
		totalSize += p.Size
	}
	q := lfs.NewDownloadQueue(len(pointers), totalSize, false)

	for _, p := range pointers {
		// Only add to download queue if local file is not the right size already
		// This avoids previous case of over-reporting a requirement for files we already have
		// which would only be skipped by PointerSmudgeObject later
		passFilter := lfs.FilenamePassesIncludeExcludeFilter(p.Name, include, exclude)
		if !lfs.ObjectExistsOfSize(p.Oid, p.Size) && passFilter {
			q.Add(lfs.NewDownloadable(p))
		} else {
			// If we already have it, or it won't be fetched
			// report it to chan immediately to support pull/checkout
			if out != nil {
				out <- p
			}

		}
	}

	if out != nil {
		dlwatch := q.Watch()

		go func() {
			// fetch only reports single OID, but OID *might* be referenced by multiple
			// WrappedPointers if same content is at multiple paths, so map oid->slice
			oidToPointers := make(map[string][]*lfs.WrappedPointer, len(pointers))
			for _, pointer := range pointers {
				plist := oidToPointers[pointer.Oid]
				oidToPointers[pointer.Oid] = append(plist, pointer)
			}

			for oid := range dlwatch {
				plist, ok := oidToPointers[oid]
				if !ok {
					continue
				}
				for _, p := range plist {
					out <- p
				}
			}
			close(out)
		}()

	}
	processQueue := time.Now()
	q.Wait()
	tracerx.PerformanceSince("process queue", processQueue)
}
Example #2
0
func fetchCommand(cmd *cobra.Command, args []string) {
	var ref string
	var err error

	if len(args) == 1 {
		ref = args[0]
	} else {
		ref, err = git.CurrentRef()
		if err != nil {
			Panic(err, "Could not fetch")
		}
	}

	pointers, err := lfs.ScanRefs(ref, "")
	if err != nil {
		Panic(err, "Could not scan for Git LFS files")
	}

	q := lfs.NewDownloadQueue(lfs.Config.ConcurrentTransfers(), len(pointers))

	for _, p := range pointers {
		q.Add(lfs.NewDownloadable(p))
	}

	target, err := git.ResolveRef(ref)
	if err != nil {
		Panic(err, "Could not resolve git ref")
	}

	current, err := git.CurrentRef()
	if err != nil {
		Panic(err, "Could not fetch the current git ref")
	}

	if target == current {
		// We just downloaded the files for the current ref, we can copy them into
		// the working directory and update the git index. We're doing this in a
		// goroutine so they can be copied as they come in, for efficiency.
		watch := q.Watch()

		go func() {
			files := make(map[string]*lfs.WrappedPointer, len(pointers))
			for _, pointer := range pointers {
				files[pointer.Oid] = pointer
			}

			// Fire up the update-index command
			cmd := exec.Command("git", "update-index", "-q", "--refresh", "--stdin")
			stdin, err := cmd.StdinPipe()
			if err != nil {
				Panic(err, "Could not update the index")
			}

			if err := cmd.Start(); err != nil {
				Panic(err, "Could not update the index")
			}

			// As files come in, write them to the wd and update the index
			for oid := range watch {
				pointer, ok := files[oid]
				if !ok {
					continue
				}

				file, err := os.Create(pointer.Name)
				if err != nil {
					Panic(err, "Could not create working directory file")
				}

				if err := lfs.PointerSmudge(file, pointer.Pointer, pointer.Name, nil); err != nil {
					Panic(err, "Could not write working directory file")
				}
				file.Close()

				stdin.Write([]byte(pointer.Name + "\n"))
			}

			stdin.Close()
			if err := cmd.Wait(); err != nil {
				Panic(err, "Error updating the git index")
			}
		}()

		processQueue := time.Now()
		q.Process()
		tracerx.PerformanceSince("process queue", processQueue)
	}
}
Example #3
0
// Fetch and report completion of each OID to a channel (optional, pass nil to skip)
// Returns true if all completed with no errors, false if errors were written to stderr/log
func fetchAndReportToChan(allpointers []*lfs.WrappedPointer, include, exclude []string, out chan<- *lfs.WrappedPointer) bool {
	// Lazily initialize the current remote.
	if len(cfg.CurrentRemote) == 0 {
		// Actively find the default remote, don't just assume origin
		defaultRemote, err := git.DefaultRemote()
		if err != nil {
			Exit("No default remote")
		}
		cfg.CurrentRemote = defaultRemote
	}

	ready, pointers, totalSize := readyAndMissingPointers(allpointers, include, exclude)
	q := lfs.NewDownloadQueue(len(pointers), totalSize, false)

	if out != nil {
		// If we already have it, or it won't be fetched
		// report it to chan immediately to support pull/checkout
		for _, p := range ready {
			out <- p
		}

		dlwatch := q.Watch()

		go func() {
			// fetch only reports single OID, but OID *might* be referenced by multiple
			// WrappedPointers if same content is at multiple paths, so map oid->slice
			oidToPointers := make(map[string][]*lfs.WrappedPointer, len(pointers))
			for _, pointer := range pointers {
				plist := oidToPointers[pointer.Oid]
				oidToPointers[pointer.Oid] = append(plist, pointer)
			}

			for oid := range dlwatch {
				plist, ok := oidToPointers[oid]
				if !ok {
					continue
				}
				for _, p := range plist {
					out <- p
				}
			}
			close(out)
		}()
	}

	for _, p := range pointers {
		tracerx.Printf("fetch %v [%v]", p.Name, p.Oid)
		q.Add(lfs.NewDownloadable(p))
	}

	processQueue := time.Now()
	q.Wait()
	tracerx.PerformanceSince("process queue", processQueue)

	ok := true
	for _, err := range q.Errors() {
		ok = false
		FullError(err)
	}
	return ok
}