// Copyright 2015 The Gogs 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 git import ( "bytes" "container/list" "errors" "os" "path" "path/filepath" "strconv" "strings" "time" ) // Repository represents a Git repository. type Repository struct { Path string commitCache *objectCache tagCache *objectCache } const prettyLogFormat = `--pretty=format:%H` func (repo *Repository) parsePrettyFormatLogToList(logs []byte) (*list.List, error) { l := list.New() if len(logs) == 0 { return l, nil } parts := bytes.Split(logs, []byte{'\n'}) for _, commitId := range parts { commit, err := repo.GetCommit(string(commitId)) if err != nil { return nil, err } l.PushBack(commit) } return l, nil } type NetworkOptions struct { URL string Timeout time.Duration } // IsRepoURLAccessible checks if given repository URL is accessible. func IsRepoURLAccessible(opts NetworkOptions) bool { cmd := NewCommand("ls-remote", "-q", "-h", opts.URL, "HEAD") if opts.Timeout <= 0 { opts.Timeout = -1 } _, err := cmd.RunTimeout(opts.Timeout) if err != nil { return false } return true } // InitRepository initializes a new Git repository. func InitRepository(repoPath string, bare bool) error { os.MkdirAll(repoPath, os.ModePerm) cmd := NewCommand("init") if bare { cmd.AddArguments("--bare") } _, err := cmd.RunInDir(repoPath) return err } // OpenRepository opens the repository at the given path. func OpenRepository(repoPath string) (*Repository, error) { repoPath, err := filepath.Abs(repoPath) if err != nil { return nil, err } else if !isDir(repoPath) { return nil, errors.New("no such file or directory") } return &Repository{ Path: repoPath, commitCache: newObjectCache(), tagCache: newObjectCache(), }, nil } type CloneRepoOptions struct { Mirror bool Bare bool Quiet bool Branch string Timeout time.Duration } // Clone clones original repository to target path. func Clone(from, to string, opts CloneRepoOptions) (err error) { toDir := path.Dir(to) if err = os.MkdirAll(toDir, os.ModePerm); err != nil { return err } cmd := NewCommand("clone") if opts.Mirror { cmd.AddArguments("--mirror") } if opts.Bare { cmd.AddArguments("--bare") } if opts.Quiet { cmd.AddArguments("--quiet") } if len(opts.Branch) > 0 { cmd.AddArguments("-b", opts.Branch) } cmd.AddArguments(from, to) if opts.Timeout <= 0 { opts.Timeout = -1 } _, err = cmd.RunTimeout(opts.Timeout) return err } type FetchRemoteOptions struct { Prune bool Timeout time.Duration } // Fetch fetches changes from remotes without merging. func Fetch(repoPath string, opts FetchRemoteOptions) error { cmd := NewCommand("fetch") if opts.Prune { cmd.AddArguments("--prune") } if opts.Timeout <= 0 { opts.Timeout = -1 } _, err := cmd.RunInDirTimeout(opts.Timeout, repoPath) return err } type PullRemoteOptions struct { All bool Rebase bool Remote string Branch string Timeout time.Duration } // Pull pulls changes from remotes. func Pull(repoPath string, opts PullRemoteOptions) error { cmd := NewCommand("pull") if opts.Rebase { cmd.AddArguments("--rebase") } if opts.All { cmd.AddArguments("--all") } else { cmd.AddArguments(opts.Remote) cmd.AddArguments(opts.Branch) } if opts.Timeout <= 0 { opts.Timeout = -1 } _, err := cmd.RunInDirTimeout(opts.Timeout, repoPath) return err } // PushWithEnvs pushs local commits to given remote branch with given environment variables. func PushWithEnvs(repoPath, remote, branch string, envs []string) error { _, err := NewCommand("push", remote, branch).AddEnvs(envs...).RunInDir(repoPath) return err } // Push pushs local commits to given remote branch. func Push(repoPath, remote, branch string) error { return PushWithEnvs(repoPath, remote, branch, nil) } type CheckoutOptions struct { Branch string OldBranch string Timeout time.Duration } // Checkout checkouts a branch func Checkout(repoPath string, opts CheckoutOptions) error { cmd := NewCommand("checkout") if len(opts.OldBranch) > 0 { cmd.AddArguments("-b") } cmd.AddArguments(opts.Branch) if len(opts.OldBranch) > 0 { cmd.AddArguments(opts.OldBranch) } if opts.Timeout <= 0 { opts.Timeout = -1 } _, err := cmd.RunInDirTimeout(opts.Timeout, repoPath) return err } // ResetHEAD resets HEAD to given revision or head of branch. func ResetHEAD(repoPath string, hard bool, revision string) error { cmd := NewCommand("reset") if hard { cmd.AddArguments("--hard") } _, err := cmd.AddArguments(revision).RunInDir(repoPath) return err } // MoveFile moves a file to another file or directory. func MoveFile(repoPath, oldTreeName, newTreeName string) error { _, err := NewCommand("mv").AddArguments(oldTreeName, newTreeName).RunInDir(repoPath) return err } // CountObject represents disk usage report of Git repository. type CountObject struct { Count int64 Size int64 InPack int64 Packs int64 SizePack int64 PrunePackable int64 Garbage int64 SizeGarbage int64 } const ( statCount = "count: " statSize = "size: " statInPack = "in-pack: " statPacks = "packs: " statSizePack = "size-pack: " statPrunePackable = "prune-packable: " statGarbage = "garbage: " statSizeGarbage = "size-garbage: " ) func strToInt64(s string) int64 { i, _ := strconv.ParseInt(s, 10, 64) return i } // GetRepoSize returns disk usage report of repository in given path. func GetRepoSize(repoPath string) (*CountObject, error) { cmd := NewCommand("count-objects", "-v") stdout, err := cmd.RunInDir(repoPath) if err != nil { return nil, err } countObject := new(CountObject) for _, line := range strings.Split(stdout, "\n") { switch { case strings.HasPrefix(line, statCount): countObject.Count = strToInt64(line[7:]) case strings.HasPrefix(line, statSize): countObject.Size = strToInt64(line[6:]) * 1024 case strings.HasPrefix(line, statInPack): countObject.InPack = strToInt64(line[9:]) case strings.HasPrefix(line, statPacks): countObject.Packs = strToInt64(line[7:]) case strings.HasPrefix(line, statSizePack): countObject.SizePack = strToInt64(line[11:]) * 1024 case strings.HasPrefix(line, statPrunePackable): countObject.PrunePackable = strToInt64(line[16:]) case strings.HasPrefix(line, statGarbage): countObject.Garbage = strToInt64(line[9:]) case strings.HasPrefix(line, statSizeGarbage): countObject.SizeGarbage = strToInt64(line[14:]) * 1024 } } return countObject, nil }