// Copyright 2012 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package vcs exposes functions for resolving import paths // and using version control systems, which can be used to // implement behavior similar to the standard "go get" command. // // This package is a copy of internal code in package cmd/go/internal/get, // modified to make the identifiers exported. It's provided here // for developers who want to write tools with similar semantics. // It needs to be manually kept in sync with upstream when changes are // made to cmd/go/internal/get; see https://golang.org/issues/11490. // package vcs // import "golang.org/x/tools/go/vcs" import ( "bytes" "encoding/json" "errors" "fmt" "log" "net/url" "os" "os/exec" "path/filepath" "regexp" "strconv" "strings" ) // Verbose enables verbose operation logging. var Verbose bool // ShowCmd controls whether VCS commands are printed. var ShowCmd bool // A Cmd describes how to use a version control system // like Mercurial, Git, or Subversion. type Cmd struct { Name string Cmd string // name of binary to invoke command CreateCmd string // command to download a fresh copy of a repository DownloadCmd string // command to download updates into an existing repository TagCmd []TagCmd // commands to list tags TagLookupCmd []TagCmd // commands to lookup tags before running tagSyncCmd TagSyncCmd string // command to sync to specific tag TagSyncDefault string // command to sync to default tag LogCmd string // command to list repository changelogs in an XML format Scheme []string PingCmd string } // A TagCmd describes a command to list available tags // that can be passed to Cmd.TagSyncCmd. type TagCmd struct { Cmd string // command to list tags Pattern string // regexp to extract tags from list } // vcsList lists the known version control systems var vcsList = []*Cmd{ vcsHg, vcsGit, vcsSvn, vcsBzr, } // ByCmd returns the version control system for the given // command name (hg, git, svn, bzr). func ByCmd(cmd string) *Cmd { for _, vcs := range vcsList { if vcs.Cmd == cmd { return vcs } } return nil } // vcsHg describes how to use Mercurial. var vcsHg = &Cmd{ Name: "Mercurial", Cmd: "hg", CreateCmd: "clone -U {repo} {dir}", DownloadCmd: "pull", // We allow both tag and branch names as 'tags' // for selecting a version. This lets people have // a go.release.r60 branch and a go1 branch // and make changes in both, without constantly // editing .hgtags. TagCmd: []TagCmd{ {"tags", `^(\S+)`}, {"branches", `^(\S+)`}, }, TagSyncCmd: "update -r {tag}", TagSyncDefault: "update default", LogCmd: "log --encoding=utf-8 --limit={limit} --template={template}", Scheme: []string{"https", "http", "ssh"}, PingCmd: "identify {scheme}://{repo}", } // vcsGit describes how to use Git. var vcsGit = &Cmd{ Name: "Git", Cmd: "git", CreateCmd: "clone {repo} {dir}", DownloadCmd: "pull --ff-only", TagCmd: []TagCmd{ // tags/xxx matches a git tag named xxx // origin/xxx matches a git branch named xxx on the default remote repository {"show-ref", `(?:tags|origin)/(\S+)$`}, }, TagLookupCmd: []TagCmd{ {"show-ref tags/{tag} origin/{tag}", `((?:tags|origin)/\S+)$`}, }, TagSyncCmd: "checkout {tag}", TagSyncDefault: "checkout master", Scheme: []string{"git", "https", "http", "git+ssh"}, PingCmd: "ls-remote {scheme}://{repo}", } // vcsBzr describes how to use Bazaar. var vcsBzr = &Cmd{ Name: "Bazaar", Cmd: "bzr", CreateCmd: "branch {repo} {dir}", // Without --overwrite bzr will not pull tags that changed. // Replace by --overwrite-tags after http://pad.lv/681792 goes in. DownloadCmd: "pull --overwrite", TagCmd: []TagCmd{{"tags", `^(\S+)`}}, TagSyncCmd: "update -r {tag}", TagSyncDefault: "update -r revno:-1", Scheme: []string{"https", "http", "bzr", "bzr+ssh"}, PingCmd: "info {scheme}://{repo}", } // vcsSvn describes how to use Subversion. var vcsSvn = &Cmd{ Name: "Subversion", Cmd: "svn", CreateCmd: "checkout {repo} {dir}", DownloadCmd: "update", // There is no tag command in subversion. // The branch information is all in the path names. LogCmd: "log --xml --limit={limit}", Scheme: []string{"https", "http", "svn", "svn+ssh"}, PingCmd: "info {scheme}://{repo}", } func (v *Cmd) String() string { return v.Name } // run runs the command line cmd in the given directory. // keyval is a list of key, value pairs. run expands // instances of {key} in cmd into value, but only after // splitting cmd into individual arguments. // If an error occurs, run prints the command line and the // command's combined stdout+stderr to standard error. // Otherwise run discards the command's output. func (v *Cmd) run(dir string, cmd string, keyval ...string) error { _, err := v.run1(dir, cmd, keyval, true) return err } // runVerboseOnly is like run but only generates error output to standard error in verbose mode. func (v *Cmd) runVerboseOnly(dir string, cmd string, keyval ...string) error { _, err := v.run1(dir, cmd, keyval, false) return err } // runOutput is like run but returns the output of the command. func (v *Cmd) runOutput(dir string, cmd string, keyval ...string) ([]byte, error) { return v.run1(dir, cmd, keyval, true) } // run1 is the generalized implementation of run and runOutput. func (v *Cmd) run1(dir string, cmdline string, keyval []string, verbose bool) ([]byte, error) { m := make(map[string]string) for i := 0; i < len(keyval); i += 2 { m[keyval[i]] = keyval[i+1] } args := strings.Fields(cmdline) for i, arg := range args { args[i] = expand(m, arg) } _, err := exec.LookPath(v.Cmd) if err != nil { fmt.Fprintf(os.Stderr, "go: missing %s command. See http://golang.org/s/gogetcmd\n", v.Name) return nil, err } cmd := exec.Command(v.Cmd, args...) cmd.Dir = dir cmd.Env = envForDir(cmd.Dir) if ShowCmd { fmt.Printf("cd %s\n", dir) fmt.Printf("%s %s\n", v.Cmd, strings.Join(args, " ")) } var buf bytes.Buffer cmd.Stdout = &buf cmd.Stderr = &buf err = cmd.Run() out := buf.Bytes() if err != nil { if verbose || Verbose { fmt.Fprintf(os.Stderr, "# cd %s; %s %s\n", dir, v.Cmd, strings.Join(args, " ")) os.Stderr.Write(out) } return nil, err } return out, nil } // Ping pings the repo to determine if scheme used is valid. // This repo must be pingable with this scheme and VCS. func (v *Cmd) Ping(scheme, repo string) error { return v.runVerboseOnly(".", v.PingCmd, "scheme", scheme, "repo", repo) } // Create creates a new copy of repo in dir. // The parent of dir must exist; dir must not. func (v *Cmd) Create(dir, repo string) error { return v.run(".", v.CreateCmd, "dir", dir, "repo", repo) } // CreateAtRev creates a new copy of repo in dir at revision rev. // The parent of dir must exist; dir must not. // rev must be a valid revision in repo. func (v *Cmd) CreateAtRev(dir, repo, rev string) error { if err := v.Create(dir, repo); err != nil { return err } return v.run(dir, v.TagSyncCmd, "tag", rev) } // Download downloads any new changes for the repo in dir. // dir must be a valid VCS repo compatible with v. func (v *Cmd) Download(dir string) error { return v.run(dir, v.DownloadCmd) } // Tags returns the list of available tags for the repo in dir. // dir must be a valid VCS repo compatible with v. func (v *Cmd) Tags(dir string) ([]string, error) { var tags []string for _, tc := range v.TagCmd { out, err := v.runOutput(dir, tc.Cmd) if err != nil { return nil, err } re := regexp.MustCompile(`(?m-s)` + tc.Pattern) for _, m := range re.FindAllStringSubmatch(string(out), -1) { tags = append(tags, m[1]) } } return tags, nil } // TagSync syncs the repo in dir to the named tag, which is either a // tag returned by Tags or the empty string (the default tag). // dir must be a valid VCS repo compatible with v and the tag must exist. func (v *Cmd) TagSync(dir, tag string) error { if v.TagSyncCmd == "" { return nil } if tag != "" { for _, tc := range v.TagLookupCmd { out, err := v.runOutput(dir, tc.Cmd, "tag", tag) if err != nil { return err } re := regexp.MustCompile(`(?m-s)` + tc.Pattern) m := re.FindStringSubmatch(string(out)) if len(m) > 1 { tag = m[1] break } } } if tag == "" && v.TagSyncDefault != "" { return v.run(dir, v.TagSyncDefault) } return v.run(dir, v.TagSyncCmd, "tag", tag) } // Log logs the changes for the repo in dir. // dir must be a valid VCS repo compatible with v. func (v *Cmd) Log(dir, logTemplate string) ([]byte, error) { if err := v.Download(dir); err != nil { return []byte{}, err } const N = 50 // how many revisions to grab return v.runOutput(dir, v.LogCmd, "limit", strconv.Itoa(N), "template", logTemplate) } // LogAtRev logs the change for repo in dir at the rev revision. // dir must be a valid VCS repo compatible with v. // rev must be a valid revision for the repo in dir. func (v *Cmd) LogAtRev(dir, rev, logTemplate string) ([]byte, error) { if err := v.Download(dir); err != nil { return []byte{}, err } // Append revision flag to LogCmd. logAtRevCmd := v.LogCmd + " --rev=" + rev return v.runOutput(dir, logAtRevCmd, "limit", strconv.Itoa(1), "template", logTemplate) } // A vcsPath describes how to convert an import path into a // version control system and repository name. type vcsPath struct { prefix string // prefix this description applies to re string // pattern for import path repo string // repository to use (expand with match of re) vcs string // version control system to use (expand with match of re) check func(match map[string]string) error // additional checks ping bool // ping for scheme to use to download repo regexp *regexp.Regexp // cached compiled form of re } // FromDir inspects dir and its parents to determine the // version control system and code repository to use. // On return, root is the import path // corresponding to the root of the repository. func FromDir(dir, srcRoot string) (vcs *Cmd, root string, err error) { // Clean and double-check that dir is in (a subdirectory of) srcRoot. dir = filepath.Clean(dir) srcRoot = filepath.Clean(srcRoot) if len(dir) <= len(srcRoot) || dir[len(srcRoot)] != filepath.Separator { return nil, "", fmt.Errorf("directory %q is outside source root %q", dir, srcRoot) } var vcsRet *Cmd var rootRet string origDir := dir for len(dir) > len(srcRoot) { for _, vcs := range vcsList { if _, err := os.Stat(filepath.Join(dir, "."+vcs.Cmd)); err == nil { root := filepath.ToSlash(dir[len(srcRoot)+1:]) // Record first VCS we find, but keep looking, // to detect mistakes like one kind of VCS inside another. if vcsRet == nil { vcsRet = vcs rootRet = root continue } // Allow .git inside .git, which can arise due to submodules. if vcsRet == vcs && vcs.Cmd == "git" { continue } // Otherwise, we have one VCS inside a different VCS. return nil, "", fmt.Errorf("directory %q uses %s, but parent %q uses %s", filepath.Join(srcRoot, rootRet), vcsRet.Cmd, filepath.Join(srcRoot, root), vcs.Cmd) } } // Move to parent. ndir := filepath.Dir(dir) if len(ndir) >= len(dir) { // Shouldn't happen, but just in case, stop. break } dir = ndir } if vcsRet != nil { return vcsRet, rootRet, nil } return nil, "", fmt.Errorf("directory %q is not using a known version control system", origDir) } // RepoRoot represents a version control system, a repo, and a root of // where to put it on disk. type RepoRoot struct { VCS *Cmd // Repo is the repository URL, including scheme. Repo string // Root is the import path corresponding to the root of the // repository. Root string } // RepoRootForImportPath analyzes importPath to determine the // version control system, and code repository to use. func RepoRootForImportPath(importPath string, verbose bool) (*RepoRoot, error) { rr, err := RepoRootForImportPathStatic(importPath, "") if err == errUnknownSite { rr, err = RepoRootForImportDynamic(importPath, verbose) // RepoRootForImportDynamic returns error detail // that is irrelevant if the user didn't intend to use a // dynamic import in the first place. // Squelch it. if err != nil { if Verbose { log.Printf("import %q: %v", importPath, err) } err = fmt.Errorf("unrecognized import path %q", importPath) } } if err == nil && strings.Contains(importPath, "...") && strings.Contains(rr.Root, "...") { // Do not allow wildcards in the repo root. rr = nil err = fmt.Errorf("cannot expand ... in %q", importPath) } return rr, err } var errUnknownSite = errors.New("dynamic lookup required to find mapping") // RepoRootForImportPathStatic attempts to map importPath to a // RepoRoot using the commonly-used VCS hosting sites in vcsPaths // (github.com/user/dir), or from a fully-qualified importPath already // containing its VCS type (foo.com/repo.git/dir) // // If scheme is non-empty, that scheme is forced. func RepoRootForImportPathStatic(importPath, scheme string) (*RepoRoot, error) { if strings.Contains(importPath, "://") { return nil, fmt.Errorf("invalid import path %q", importPath) } for _, srv := range vcsPaths { if !strings.HasPrefix(importPath, srv.prefix) { continue } m := srv.regexp.FindStringSubmatch(importPath) if m == nil { if srv.prefix != "" { return nil, fmt.Errorf("invalid %s import path %q", srv.prefix, importPath) } continue } // Build map of named subexpression matches for expand. match := map[string]string{ "prefix": srv.prefix, "import": importPath, } for i, name := range srv.regexp.SubexpNames() { if name != "" && match[name] == "" { match[name] = m[i] } } if srv.vcs != "" { match["vcs"] = expand(match, srv.vcs) } if srv.repo != "" { match["repo"] = expand(match, srv.repo) } if srv.check != nil { if err := srv.check(match); err != nil { return nil, err } } vcs := ByCmd(match["vcs"]) if vcs == nil { return nil, fmt.Errorf("unknown version control system %q", match["vcs"]) } if srv.ping { if scheme != "" { match["repo"] = scheme + "://" + match["repo"] } else { for _, scheme := range vcs.Scheme { if vcs.Ping(scheme, match["repo"]) == nil { match["repo"] = scheme + "://" + match["repo"] break } } } } rr := &RepoRoot{ VCS: vcs, Repo: match["repo"], Root: match["root"], } return rr, nil } return nil, errUnknownSite } // RepoRootForImportDynamic finds a *RepoRoot for a custom domain that's not // statically known by RepoRootForImportPathStatic. // // This handles custom import paths like "name.tld/pkg/foo" or just "name.tld". func RepoRootForImportDynamic(importPath string, verbose bool) (*RepoRoot, error) { slash := strings.Index(importPath, "/") if slash < 0 { slash = len(importPath) } host := importPath[:slash] if !strings.Contains(host, ".") { return nil, errors.New("import path doesn't contain a hostname") } urlStr, body, err := httpsOrHTTP(importPath) if err != nil { return nil, fmt.Errorf("http/https fetch: %v", err) } defer body.Close() imports, err := parseMetaGoImports(body) if err != nil { return nil, fmt.Errorf("parsing %s: %v", importPath, err) } metaImport, err := matchGoImport(imports, importPath) if err != nil { if err != errNoMatch { return nil, fmt.Errorf("parse %s: %v", urlStr, err) } return nil, fmt.Errorf("parse %s: no go-import meta tags", urlStr) } if verbose { log.Printf("get %q: found meta tag %#v at %s", importPath, metaImport, urlStr) } // If the import was "uni.edu/bob/project", which said the // prefix was "uni.edu" and the RepoRoot was "evilroot.com", // make sure we don't trust Bob and check out evilroot.com to // "uni.edu" yet (possibly overwriting/preempting another // non-evil student). Instead, first verify the root and see // if it matches Bob's claim. if metaImport.Prefix != importPath { if verbose { log.Printf("get %q: verifying non-authoritative meta tag", importPath) } urlStr0 := urlStr urlStr, body, err = httpsOrHTTP(metaImport.Prefix) if err != nil { return nil, fmt.Errorf("fetch %s: %v", urlStr, err) } imports, err := parseMetaGoImports(body) if err != nil { return nil, fmt.Errorf("parsing %s: %v", importPath, err) } if len(imports) == 0 { return nil, fmt.Errorf("fetch %s: no go-import meta tag", urlStr) } metaImport2, err := matchGoImport(imports, importPath) if err != nil || metaImport != metaImport2 { return nil, fmt.Errorf("%s and %s disagree about go-import for %s", urlStr0, urlStr, metaImport.Prefix) } } if err := validateRepoRoot(metaImport.RepoRoot); err != nil { return nil, fmt.Errorf("%s: invalid repo root %q: %v", urlStr, metaImport.RepoRoot, err) } rr := &RepoRoot{ VCS: ByCmd(metaImport.VCS), Repo: metaImport.RepoRoot, Root: metaImport.Prefix, } if rr.VCS == nil { return nil, fmt.Errorf("%s: unknown vcs %q", urlStr, metaImport.VCS) } return rr, nil } // validateRepoRoot returns an error if repoRoot does not seem to be // a valid URL with scheme. func validateRepoRoot(repoRoot string) error { url, err := url.Parse(repoRoot) if err != nil { return err } if url.Scheme == "" { return errors.New("no scheme") } return nil } // metaImport represents the parsed tags from HTML files. type metaImport struct { Prefix, VCS, RepoRoot string } // errNoMatch is returned from matchGoImport when there's no applicable match. var errNoMatch = errors.New("no import match") // pathPrefix reports whether sub is a prefix of s, // only considering entire path components. func pathPrefix(s, sub string) bool { // strings.HasPrefix is necessary but not sufficient. if !strings.HasPrefix(s, sub) { return false } // The remainder after the prefix must either be empty or start with a slash. rem := s[len(sub):] return rem == "" || rem[0] == '/' } // matchGoImport returns the metaImport from imports matching importPath. // An error is returned if there are multiple matches. // errNoMatch is returned if none match. func matchGoImport(imports []metaImport, importPath string) (_ metaImport, err error) { match := -1 for i, im := range imports { if !pathPrefix(importPath, im.Prefix) { continue } if match != -1 { err = fmt.Errorf("multiple meta tags match import path %q", importPath) return } match = i } if match == -1 { err = errNoMatch return } return imports[match], nil } // expand rewrites s to replace {k} with match[k] for each key k in match. func expand(match map[string]string, s string) string { for k, v := range match { s = strings.Replace(s, "{"+k+"}", v, -1) } return s } // vcsPaths lists the known vcs paths. var vcsPaths = []*vcsPath{ // go.googlesource.com { prefix: "go.googlesource.com", re: `^(?Pgo\.googlesource\.com/[A-Za-z0-9_.\-]+/?)$`, vcs: "git", repo: "https://{root}", check: noVCSSuffix, }, // Github { prefix: "github.com/", re: `^(?Pgithub\.com/[A-Za-z0-9_.\-]+/[A-Za-z0-9_.\-]+)(/[\p{L}0-9_.\-]+)*$`, vcs: "git", repo: "https://{root}", check: noVCSSuffix, }, // Bitbucket { prefix: "bitbucket.org/", re: `^(?Pbitbucket\.org/(?P[A-Za-z0-9_.\-]+/[A-Za-z0-9_.\-]+))(/[A-Za-z0-9_.\-]+)*$`, repo: "https://{root}", check: bitbucketVCS, }, // Launchpad { prefix: "launchpad.net/", re: `^(?Plaunchpad\.net/((?P[A-Za-z0-9_.\-]+)(?P/[A-Za-z0-9_.\-]+)?|~[A-Za-z0-9_.\-]+/(\+junk|[A-Za-z0-9_.\-]+)/[A-Za-z0-9_.\-]+))(/[A-Za-z0-9_.\-]+)*$`, vcs: "bzr", repo: "https://{root}", check: launchpadVCS, }, // Git at OpenStack { prefix: "git.openstack.org", re: `^(?Pgit\.openstack\.org/[A-Za-z0-9_.\-]+/[A-Za-z0-9_.\-]+)(\.git)?(/[A-Za-z0-9_.\-]+)*$`, vcs: "git", repo: "https://{root}", check: noVCSSuffix, }, // General syntax for any server. { re: `^(?P(?P([a-z0-9.\-]+\.)+[a-z0-9.\-]+(:[0-9]+)?/[A-Za-z0-9_.\-/]*?)\.(?Pbzr|git|hg|svn))(/[A-Za-z0-9_.\-]+)*$`, ping: true, }, } func init() { // fill in cached regexps. // Doing this eagerly discovers invalid regexp syntax // without having to run a command that needs that regexp. for _, srv := range vcsPaths { srv.regexp = regexp.MustCompile(srv.re) } } // noVCSSuffix checks that the repository name does not // end in .foo for any version control system foo. // The usual culprit is ".git". func noVCSSuffix(match map[string]string) error { repo := match["repo"] for _, vcs := range vcsList { if strings.HasSuffix(repo, "."+vcs.Cmd) { return fmt.Errorf("invalid version control suffix in %s path", match["prefix"]) } } return nil } // bitbucketVCS determines the version control system for a // Bitbucket repository, by using the Bitbucket API. func bitbucketVCS(match map[string]string) error { if err := noVCSSuffix(match); err != nil { return err } var resp struct { SCM string `json:"scm"` } url := expand(match, "https://api.bitbucket.org/1.0/repositories/{bitname}") data, err := httpGET(url) if err != nil { return err } if err := json.Unmarshal(data, &resp); err != nil { return fmt.Errorf("decoding %s: %v", url, err) } if ByCmd(resp.SCM) != nil { match["vcs"] = resp.SCM if resp.SCM == "git" { match["repo"] += ".git" } return nil } return fmt.Errorf("unable to detect version control system for bitbucket.org/ path") } // launchpadVCS solves the ambiguity for "lp.net/project/foo". In this case, // "foo" could be a series name registered in Launchpad with its own branch, // and it could also be the name of a directory within the main project // branch one level up. func launchpadVCS(match map[string]string) error { if match["project"] == "" || match["series"] == "" { return nil } _, err := httpGET(expand(match, "https://code.launchpad.net/{project}{series}/.bzr/branch-format")) if err != nil { match["root"] = expand(match, "launchpad.net/{project}") match["repo"] = expand(match, "https://{root}") } return nil }