// Copyright 2018 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 modload import ( "bytes" "encoding/json" "fmt" "go/build" "internal/lazyregexp" "io/ioutil" "os" "path" "path/filepath" "runtime/debug" "strconv" "strings" "cmd/go/internal/base" "cmd/go/internal/cache" "cmd/go/internal/cfg" "cmd/go/internal/load" "cmd/go/internal/modconv" "cmd/go/internal/modfetch" "cmd/go/internal/modfetch/codehost" "cmd/go/internal/modfile" "cmd/go/internal/module" "cmd/go/internal/mvs" "cmd/go/internal/renameio" "cmd/go/internal/search" ) var ( cwd string // TODO(bcmills): Is this redundant with base.Cwd? mustUseModules = false initialized bool modRoot string modFile *modfile.File modFileData []byte excluded map[module.Version]bool Target module.Version // targetPrefix is the path prefix for packages in Target, without a trailing // slash. For most modules, targetPrefix is just Target.Path, but the // standard-library module "std" has an empty prefix. targetPrefix string // targetInGorootSrc caches whether modRoot is within GOROOT/src. // The "std" module is special within GOROOT/src, but not otherwise. targetInGorootSrc bool gopath string CmdModInit bool // running 'go mod init' CmdModModule string // module argument for 'go mod init' ) // ModFile returns the parsed go.mod file. // // Note that after calling ImportPaths or LoadBuildList, // the require statements in the modfile.File are no longer // the source of truth and will be ignored: edits made directly // will be lost at the next call to WriteGoMod. // To make permanent changes to the require statements // in go.mod, edit it before calling ImportPaths or LoadBuildList. func ModFile() *modfile.File { Init() if modFile == nil { die() } return modFile } func BinDir() string { Init() return filepath.Join(gopath, "bin") } // Init determines whether module mode is enabled, locates the root of the // current module (if any), sets environment variables for Git subprocesses, and // configures the cfg, codehost, load, modfetch, and search packages for use // with modules. func Init() { if initialized { return } initialized = true env := cfg.Getenv("GO111MODULE") switch env { default: base.Fatalf("go: unknown environment setting GO111MODULE=%s", env) case "auto", "": mustUseModules = false case "on": mustUseModules = true case "off": mustUseModules = false return } // Disable any prompting for passwords by Git. // Only has an effect for 2.3.0 or later, but avoiding // the prompt in earlier versions is just too hard. // If user has explicitly set GIT_TERMINAL_PROMPT=1, keep // prompting. // See golang.org/issue/9341 and golang.org/issue/12706. if os.Getenv("GIT_TERMINAL_PROMPT") == "" { os.Setenv("GIT_TERMINAL_PROMPT", "0") } // Disable any ssh connection pooling by Git. // If a Git subprocess forks a child into the background to cache a new connection, // that child keeps stdout/stderr open. After the Git subprocess exits, // os /exec expects to be able to read from the stdout/stderr pipe // until EOF to get all the data that the Git subprocess wrote before exiting. // The EOF doesn't come until the child exits too, because the child // is holding the write end of the pipe. // This is unfortunate, but it has come up at least twice // (see golang.org/issue/13453 and golang.org/issue/16104) // and confuses users when it does. // If the user has explicitly set GIT_SSH or GIT_SSH_COMMAND, // assume they know what they are doing and don't step on it. // But default to turning off ControlMaster. if os.Getenv("GIT_SSH") == "" && os.Getenv("GIT_SSH_COMMAND") == "" { os.Setenv("GIT_SSH_COMMAND", "ssh -o ControlMaster=no") } var err error cwd, err = os.Getwd() if err != nil { base.Fatalf("go: %v", err) } if CmdModInit { // Running 'go mod init': go.mod will be created in current directory. modRoot = cwd } else { modRoot = findModuleRoot(cwd) if modRoot == "" { if !mustUseModules { // GO111MODULE is 'auto', and we can't find a module root. // Stay in GOPATH mode. return } } else if search.InDir(modRoot, os.TempDir()) == "." { // If you create /tmp/go.mod for experimenting, // then any tests that create work directories under /tmp // will find it and get modules when they're not expecting them. // It's a bit of a peculiar thing to disallow but quite mysterious // when it happens. See golang.org/issue/26708. modRoot = "" fmt.Fprintf(os.Stderr, "go: warning: ignoring go.mod in system temp root %v\n", os.TempDir()) } } // We're in module mode. Install the hooks to make it work. if c := cache.Default(); c == nil { // With modules, there are no install locations for packages // other than the build cache. base.Fatalf("go: cannot use modules with build cache disabled") } list := filepath.SplitList(cfg.BuildContext.GOPATH) if len(list) == 0 || list[0] == "" { base.Fatalf("missing $GOPATH") } gopath = list[0] if _, err := os.Stat(filepath.Join(gopath, "go.mod")); err == nil { base.Fatalf("$GOPATH/go.mod exists but should not") } oldSrcMod := filepath.Join(list[0], "src/mod") pkgMod := filepath.Join(list[0], "pkg/mod") infoOld, errOld := os.Stat(oldSrcMod) _, errMod := os.Stat(pkgMod) if errOld == nil && infoOld.IsDir() && errMod != nil && os.IsNotExist(errMod) { os.Rename(oldSrcMod, pkgMod) } modfetch.PkgMod = pkgMod codehost.WorkRoot = filepath.Join(pkgMod, "cache/vcs") cfg.ModulesEnabled = true load.ModBinDir = BinDir load.ModLookup = Lookup load.ModPackageModuleInfo = PackageModuleInfo load.ModImportPaths = ImportPaths load.ModPackageBuildInfo = PackageBuildInfo load.ModInfoProg = ModInfoProg load.ModImportFromFiles = ImportFromFiles load.ModDirImportPath = DirImportPath if modRoot == "" { // We're in module mode, but not inside a module. // // If the command is 'go get' or 'go list' and all of the args are in the // same existing module, we could use that module's download directory in // the module cache as the module root, applying any replacements and/or // exclusions specified by that module. However, that would leave us in a // strange state: we want 'go get' to be consistent with 'go list', and 'go // list' should be able to operate on multiple modules. Moreover, the 'get' // target might specify relative file paths (e.g. in the same repository) as // replacements, and we would not be able to apply those anyway: we would // need to either error out or ignore just those replacements, when a build // from an empty module could proceed without error. // // Instead, we'll operate as though we're in some ephemeral external module, // ignoring all replacements and exclusions uniformly. // Normally we check sums using the go.sum file from the main module, but // without a main module we do not have an authoritative go.sum file. // // TODO(bcmills): In Go 1.13, check sums when outside the main module. // // One possible approach is to merge the go.sum files from all of the // modules we download: that doesn't protect us against bad top-level // modules, but it at least ensures consistency for transitive dependencies. } else { modfetch.GoSumFile = filepath.Join(modRoot, "go.sum") search.SetModRoot(modRoot) } } func init() { load.ModInit = Init // Set modfetch.PkgMod and codehost.WorkRoot unconditionally, // so that go clean -modcache and go mod download can run even without modules enabled. if list := filepath.SplitList(cfg.BuildContext.GOPATH); len(list) > 0 && list[0] != "" { modfetch.PkgMod = filepath.Join(list[0], "pkg/mod") codehost.WorkRoot = filepath.Join(list[0], "pkg/mod/cache/vcs") } } // Enabled reports whether modules are (or must be) enabled. // If modules are enabled but there is no main module, Enabled returns true // and then the first use of module information will call die // (usually through MustModRoot). func Enabled() bool { Init() return modRoot != "" || mustUseModules } // ModRoot returns the root of the main module. // It calls base.Fatalf if there is no main module. func ModRoot() string { if !HasModRoot() { die() } return modRoot } // HasModRoot reports whether a main module is present. // HasModRoot may return false even if Enabled returns true: for example, 'get' // does not require a main module. func HasModRoot() bool { Init() return modRoot != "" } // printStackInDie causes die to print a stack trace. // // It is enabled by the testgo tag, and helps to diagnose paths that // unexpectedly require a main module. var printStackInDie = false func die() { if printStackInDie { debug.PrintStack() } if cfg.Getenv("GO111MODULE") == "off" { base.Fatalf("go: modules disabled by GO111MODULE=off; see 'go help modules'") } if cwd != "" { if dir, name := findAltConfig(cwd); dir != "" { rel, err := filepath.Rel(cwd, dir) if err != nil { rel = dir } cdCmd := "" if rel != "." { cdCmd = fmt.Sprintf("cd %s && ", rel) } base.Fatalf("go: cannot find main module, but found %s in %s\n\tto create a module there, run:\n\t%sgo mod init", name, dir, cdCmd) } } base.Fatalf("go: cannot find main module; see 'go help modules'") } // InitMod sets Target and, if there is a main module, parses the initial build // list from its go.mod file, creating and populating that file if needed. func InitMod() { if len(buildList) > 0 { return } Init() if modRoot == "" { Target = module.Version{Path: "command-line-arguments"} targetPrefix = "command-line-arguments" buildList = []module.Version{Target} return } if CmdModInit { // Running go mod init: do legacy module conversion legacyModInit() modFileToBuildList() WriteGoMod() return } gomod := filepath.Join(modRoot, "go.mod") data, err := renameio.ReadFile(gomod) if err != nil { base.Fatalf("go: %v", err) } f, err := modfile.Parse(gomod, data, fixVersion) if err != nil { // Errors returned by modfile.Parse begin with file:line. base.Fatalf("go: errors parsing go.mod:\n%s\n", err) } modFile = f modFileData = data if len(f.Syntax.Stmt) == 0 || f.Module == nil { // Empty mod file. Must add module path. path, err := findModulePath(modRoot) if err != nil { base.Fatalf("go: %v", err) } f.AddModuleStmt(path) } if len(f.Syntax.Stmt) == 1 && f.Module != nil { // Entire file is just a module statement. // Populate require if possible. legacyModInit() } excluded = make(map[module.Version]bool) for _, x := range f.Exclude { excluded[x.Mod] = true } modFileToBuildList() stdVendorMode() WriteGoMod() } // modFileToBuildList initializes buildList from the modFile. func modFileToBuildList() { Target = modFile.Module.Mod targetPrefix = Target.Path if rel := search.InDir(cwd, cfg.GOROOTsrc); rel != "" { targetInGorootSrc = true if Target.Path == "std" { targetPrefix = "" } } list := []module.Version{Target} for _, r := range modFile.Require { list = append(list, r.Mod) } buildList = list } // stdVendorMode applies inside $GOROOT/src. // It checks that the go.mod matches vendor/modules.txt // and then sets -mod=vendor unless this is a command // that has to do explicitly with modules. func stdVendorMode() { if !targetInGorootSrc { return } if cfg.CmdName == "get" || strings.HasPrefix(cfg.CmdName, "mod ") { return } readVendorList() BuildList: for _, m := range buildList { if m.Path == "cmd" || m.Path == "std" { continue } for _, v := range vendorList { if m.Path == v.Path { if m.Version != v.Version { base.Fatalf("go: inconsistent vendoring in %s:\n"+ "\tgo.mod requires %s %s but vendor/modules.txt has %s.\n"+ "\trun 'go mod tidy; go mod vendor' to sync", modRoot, m.Path, m.Version, v.Version) } continue BuildList } } base.Fatalf("go: inconsistent vendoring in %s:\n"+ "\tgo.mod requires %s %s but vendor/modules.txt does not include it.\n"+ "\trun 'go mod tidy; go mod vendor' to sync", modRoot, m.Path, m.Version) } cfg.BuildMod = "vendor" } // Allowed reports whether module m is allowed (not excluded) by the main module's go.mod. func Allowed(m module.Version) bool { return !excluded[m] } func legacyModInit() { if modFile == nil { path, err := findModulePath(modRoot) if err != nil { base.Fatalf("go: %v", err) } fmt.Fprintf(os.Stderr, "go: creating new go.mod: module %s\n", path) modFile = new(modfile.File) modFile.AddModuleStmt(path) addGoStmt() // Add the go directive before converted module requirements. } for _, name := range altConfigs { cfg := filepath.Join(modRoot, name) data, err := ioutil.ReadFile(cfg) if err == nil { convert := modconv.Converters[name] if convert == nil { return } fmt.Fprintf(os.Stderr, "go: copying requirements from %s\n", base.ShortPath(cfg)) cfg = filepath.ToSlash(cfg) if err := modconv.ConvertLegacyConfig(modFile, cfg, data); err != nil { base.Fatalf("go: %v", err) } if len(modFile.Syntax.Stmt) == 1 { // Add comment to avoid re-converting every time it runs. modFile.AddComment("// go: no requirements found in " + name) } return } } } // addGoStmt adds a go directive to the go.mod file if it does not already include one. // The 'go' version added, if any, is the latest version supported by this toolchain. func addGoStmt() { if modFile.Go != nil && modFile.Go.Version != "" { return } tags := build.Default.ReleaseTags version := tags[len(tags)-1] if !strings.HasPrefix(version, "go") || !modfile.GoVersionRE.MatchString(version[2:]) { base.Fatalf("go: unrecognized default version %q", version) } if err := modFile.AddGoStmt(version[2:]); err != nil { base.Fatalf("go: internal error: %v", err) } } var altConfigs = []string{ "Gopkg.lock", "GLOCKFILE", "Godeps/Godeps.json", "dependencies.tsv", "glide.lock", "vendor.conf", "vendor.yml", "vendor/manifest", "vendor/vendor.json", ".git/config", } func findModuleRoot(dir string) (root string) { dir = filepath.Clean(dir) // Look for enclosing go.mod. for { if fi, err := os.Stat(filepath.Join(dir, "go.mod")); err == nil && !fi.IsDir() { return dir } d := filepath.Dir(dir) if d == dir { break } dir = d } return "" } func findAltConfig(dir string) (root, name string) { dir = filepath.Clean(dir) for { for _, name := range altConfigs { if fi, err := os.Stat(filepath.Join(dir, name)); err == nil && !fi.IsDir() { if rel := search.InDir(dir, cfg.BuildContext.GOROOT); rel == "." { // Don't suggest creating a module from $GOROOT/.git/config. return "", "" } return dir, name } } d := filepath.Dir(dir) if d == dir { break } dir = d } return "", "" } func findModulePath(dir string) (string, error) { if CmdModModule != "" { // Running go mod init x/y/z; return x/y/z. if err := module.CheckImportPath(CmdModModule); err != nil { return "", err } return CmdModModule, nil } // TODO(bcmills): once we have located a plausible module path, we should // query version control (if available) to verify that it matches the major // version of the most recent tag. // See https://golang.org/issue/29433, https://golang.org/issue/27009, and // https://golang.org/issue/31549. // Cast about for import comments, // first in top-level directory, then in subdirectories. list, _ := ioutil.ReadDir(dir) for _, info := range list { if info.Mode().IsRegular() && strings.HasSuffix(info.Name(), ".go") { if com := findImportComment(filepath.Join(dir, info.Name())); com != "" { return com, nil } } } for _, info1 := range list { if info1.IsDir() { files, _ := ioutil.ReadDir(filepath.Join(dir, info1.Name())) for _, info2 := range files { if info2.Mode().IsRegular() && strings.HasSuffix(info2.Name(), ".go") { if com := findImportComment(filepath.Join(dir, info1.Name(), info2.Name())); com != "" { return path.Dir(com), nil } } } } } // Look for Godeps.json declaring import path. data, _ := ioutil.ReadFile(filepath.Join(dir, "Godeps/Godeps.json")) var cfg1 struct{ ImportPath string } json.Unmarshal(data, &cfg1) if cfg1.ImportPath != "" { return cfg1.ImportPath, nil } // Look for vendor.json declaring import path. data, _ = ioutil.ReadFile(filepath.Join(dir, "vendor/vendor.json")) var cfg2 struct{ RootPath string } json.Unmarshal(data, &cfg2) if cfg2.RootPath != "" { return cfg2.RootPath, nil } // Look for path in GOPATH. for _, gpdir := range filepath.SplitList(cfg.BuildContext.GOPATH) { if gpdir == "" { continue } if rel := search.InDir(dir, filepath.Join(gpdir, "src")); rel != "" && rel != "." { return filepath.ToSlash(rel), nil } } msg := `cannot determine module path for source directory %s (outside GOPATH, module path must be specified) Example usage: 'go mod init example.com/m' to initialize a v0 or v1 module 'go mod init example.com/m/v2' to initialize a v2 module Run 'go help mod init' for more information. ` return "", fmt.Errorf(msg, dir) } var ( importCommentRE = lazyregexp.New(`(?m)^package[ \t]+[^ \t\r\n/]+[ \t]+//[ \t]+import[ \t]+(\"[^"]+\")[ \t]*\r?\n`) ) func findImportComment(file string) string { data, err := ioutil.ReadFile(file) if err != nil { return "" } m := importCommentRE.FindSubmatch(data) if m == nil { return "" } path, err := strconv.Unquote(string(m[1])) if err != nil { return "" } return path } var allowWriteGoMod = true // DisallowWriteGoMod causes future calls to WriteGoMod to do nothing at all. func DisallowWriteGoMod() { allowWriteGoMod = false } // AllowWriteGoMod undoes the effect of DisallowWriteGoMod: // future calls to WriteGoMod will update go.mod if needed. // Note that any past calls have been discarded, so typically // a call to AlowWriteGoMod should be followed by a call to WriteGoMod. func AllowWriteGoMod() { allowWriteGoMod = true } // MinReqs returns a Reqs with minimal dependencies of Target, // as will be written to go.mod. func MinReqs() mvs.Reqs { var direct []string for _, m := range buildList[1:] { if loaded.direct[m.Path] { direct = append(direct, m.Path) } } min, err := mvs.Req(Target, buildList, direct, Reqs()) if err != nil { base.Fatalf("go: %v", err) } return &mvsReqs{buildList: append([]module.Version{Target}, min...)} } // WriteGoMod writes the current build list back to go.mod. func WriteGoMod() { // If we're using -mod=vendor we basically ignored // go.mod, so definitely don't try to write back our // incomplete view of the world. if !allowWriteGoMod || cfg.BuildMod == "vendor" { return } // If we aren't in a module, we don't have anywhere to write a go.mod file. if modRoot == "" { return } addGoStmt() if loaded != nil { reqs := MinReqs() min, err := reqs.Required(Target) if err != nil { base.Fatalf("go: %v", err) } var list []*modfile.Require for _, m := range min { list = append(list, &modfile.Require{ Mod: m, Indirect: !loaded.direct[m.Path], }) } modFile.SetRequire(list) } modFile.Cleanup() // clean file after edits new, err := modFile.Format() if err != nil { base.Fatalf("go: %v", err) } dirty := !bytes.Equal(new, modFileData) if dirty && cfg.BuildMod == "readonly" { // If we're about to fail due to -mod=readonly, // prefer to report a dirty go.mod over a dirty go.sum base.Fatalf("go: updates to go.mod needed, disabled by -mod=readonly") } // Always update go.sum, even if we didn't change go.mod: we may have // downloaded modules that we didn't have before. modfetch.WriteGoSum() if !dirty { // We don't need to modify go.mod from what we read previously. // Ignore any intervening edits. return } unlock := modfetch.SideLock() defer unlock() file := filepath.Join(modRoot, "go.mod") old, err := renameio.ReadFile(file) if !bytes.Equal(old, modFileData) { if bytes.Equal(old, new) { // Some other process wrote the same go.mod file that we were about to write. modFileData = new return } if err != nil { base.Fatalf("go: can't determine whether go.mod has changed: %v", err) } // The contents of the go.mod file have changed. In theory we could add all // of the new modules to the build list, recompute, and check whether any // module in *our* build list got bumped to a different version, but that's // a lot of work for marginal benefit. Instead, fail the command: if users // want to run concurrent commands, they need to start with a complete, // consistent module definition. base.Fatalf("go: updates to go.mod needed, but contents have changed") } if err := renameio.WriteFile(file, new, 0666); err != nil { base.Fatalf("error writing go.mod: %v", err) } modFileData = new } func fixVersion(path, vers string) (string, error) { // Special case: remove the old -gopkgin- hack. if strings.HasPrefix(path, "gopkg.in/") && strings.Contains(vers, "-gopkgin-") { vers = vers[strings.Index(vers, "-gopkgin-")+len("-gopkgin-"):] } // fixVersion is called speculatively on every // module, version pair from every go.mod file. // Avoid the query if it looks OK. _, pathMajor, ok := module.SplitPathVersion(path) if !ok { return "", &module.ModuleError{ Path: path, Err: &module.InvalidVersionError{ Version: vers, Err: fmt.Errorf("malformed module path %q", path), }, } } if vers != "" && module.CanonicalVersion(vers) == vers { if err := module.MatchPathMajor(vers, pathMajor); err == nil { return vers, nil } } info, err := Query(path, vers, "", nil) if err != nil { return "", err } return info.Version, nil }