libgo/go/cmd/go/internal/modload/build.go - gofrontend - Git at Google

 // 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"
 	"context"
 	"encoding/hex"
 	"errors"
 	"fmt"
 	"internal/goroot"
 	"io/fs"
 	"os"
 	"path/filepath"
 	"strings"

 	"cmd/go/internal/base"
 	"cmd/go/internal/cfg"
 	"cmd/go/internal/modfetch"
 	"cmd/go/internal/modinfo"
 	"cmd/go/internal/search"

 	"golang.org/x/mod/module"
 	"golang.org/x/mod/semver"
 )

 var (
 	infoStart, _ = hex.DecodeString("3077af0c9274080241e1c107e6d618e6")
 	infoEnd, _   = hex.DecodeString("f932433186182072008242104116d8f2")
 )

 func isStandardImportPath(path string) bool {
 	return findStandardImportPath(path) != ""
 }

 func findStandardImportPath(path string) string {
 	if path == "" {
 		panic("findStandardImportPath called with empty path")
 	}
 	if search.IsStandardImportPath(path) {
 		if goroot.IsStandardPackage(cfg.GOROOT, cfg.BuildContext.Compiler, path) {
 			return filepath.Join(cfg.GOROOT, "src", path)
 		}
 	}
 	return ""
 }

 // PackageModuleInfo returns information about the module that provides
 // a given package. If modules are not enabled or if the package is in the
 // standard library or if the package was not successfully loaded with
 // LoadPackages or ImportFromFiles, nil is returned.
 func PackageModuleInfo(ctx context.Context, pkgpath string) *modinfo.ModulePublic {
 	if isStandardImportPath(pkgpath) || !Enabled() {
 		return nil
 	}
 	m, ok := findModule(loaded, pkgpath)
 	if !ok {
 		return nil
 	}

 	rs := LoadModFile(ctx)
 	return moduleInfo(ctx, rs, m, 0)
 }

 func ModuleInfo(ctx context.Context, path string) *modinfo.ModulePublic {
 	if !Enabled() {
 		return nil
 	}

 	if i := strings.Index(path, "@"); i >= 0 {
 		m := module.Version{Path: path[:i], Version: path[i+1:]}
 		return moduleInfo(ctx, nil, m, 0)
 	}

 	rs := LoadModFile(ctx)

 	var (
 		v  string
 		ok bool
 	)
 	if rs.depth == lazy {
 		v, ok = rs.rootSelected(path)
 	}
 	if !ok {
 		mg, err := rs.Graph(ctx)
 		if err != nil {
 			base.Fatalf("go: %v", err)
 		}
 		v = mg.Selected(path)
 	}

 	if v == "none" {
 		return &modinfo.ModulePublic{
 			Path: path,
 			Error: &modinfo.ModuleError{
 				Err: "module not in current build",
 			},
 		}
 	}

 	return moduleInfo(ctx, rs, module.Version{Path: path, Version: v}, 0)
 }

 // addUpdate fills in m.Update if an updated version is available.
 func addUpdate(ctx context.Context, m *modinfo.ModulePublic) {
 	if m.Version == "" {
 		return
 	}

 	info, err := Query(ctx, m.Path, "upgrade", m.Version, CheckAllowed)
 	var noVersionErr *NoMatchingVersionError
 	if errors.Is(err, fs.ErrNotExist) || errors.As(err, &noVersionErr) {
 		// Ignore "not found" and "no matching version" errors.
 		// This means the proxy has no matching version or no versions at all.
 		//
 		// We should report other errors though. An attacker that controls the
 		// network shouldn't be able to hide versions by interfering with
 		// the HTTPS connection. An attacker that controls the proxy may still
 		// hide versions, since the "list" and "latest" endpoints are not
 		// authenticated.
 		return
 	} else if err != nil {
 		if m.Error == nil {
 			m.Error = &modinfo.ModuleError{Err: err.Error()}
 		}
 		return
 	}

 	if semver.Compare(info.Version, m.Version) > 0 {
 		m.Update = &modinfo.ModulePublic{
 			Path:    m.Path,
 			Version: info.Version,
 			Time:    &info.Time,
 		}
 	}
 }

 // addVersions fills in m.Versions with the list of known versions.
 // Excluded versions will be omitted. If listRetracted is false, retracted
 // versions will also be omitted.
 func addVersions(ctx context.Context, m *modinfo.ModulePublic, listRetracted bool) {
 	allowed := CheckAllowed
 	if listRetracted {
 		allowed = CheckExclusions
 	}
 	var err error
 	m.Versions, err = versions(ctx, m.Path, allowed)
 	if err != nil && m.Error == nil {
 		m.Error = &modinfo.ModuleError{Err: err.Error()}
 	}
 }

 // addRetraction fills in m.Retracted if the module was retracted by its author.
 // m.Error is set if there's an error loading retraction information.
 func addRetraction(ctx context.Context, m *modinfo.ModulePublic) {
 	if m.Version == "" {
 		return
 	}

 	err := CheckRetractions(ctx, module.Version{Path: m.Path, Version: m.Version})
 	var noVersionErr *NoMatchingVersionError
 	var retractErr *ModuleRetractedError
 	if err == nil || errors.Is(err, fs.ErrNotExist) || errors.As(err, &noVersionErr) {
 		// Ignore "not found" and "no matching version" errors.
 		// This means the proxy has no matching version or no versions at all.
 		//
 		// We should report other errors though. An attacker that controls the
 		// network shouldn't be able to hide versions by interfering with
 		// the HTTPS connection. An attacker that controls the proxy may still
 		// hide versions, since the "list" and "latest" endpoints are not
 		// authenticated.
 		return
 	} else if errors.As(err, &retractErr) {
 		if len(retractErr.Rationale) == 0 {
 			m.Retracted = []string{"retracted by module author"}
 		} else {
 			m.Retracted = retractErr.Rationale
 		}
 	} else if m.Error == nil {
 		m.Error = &modinfo.ModuleError{Err: err.Error()}
 	}
 }

 // addDeprecation fills in m.Deprecated if the module was deprecated by its
 // author. m.Error is set if there's an error loading deprecation information.
 func addDeprecation(ctx context.Context, m *modinfo.ModulePublic) {
 	deprecation, err := CheckDeprecation(ctx, module.Version{Path: m.Path, Version: m.Version})
 	var noVersionErr *NoMatchingVersionError
 	if errors.Is(err, fs.ErrNotExist) || errors.As(err, &noVersionErr) {
 		// Ignore "not found" and "no matching version" errors.
 		// This means the proxy has no matching version or no versions at all.
 		//
 		// We should report other errors though. An attacker that controls the
 		// network shouldn't be able to hide versions by interfering with
 		// the HTTPS connection. An attacker that controls the proxy may still
 		// hide versions, since the "list" and "latest" endpoints are not
 		// authenticated.
 		return
 	}
 	if err != nil {
 		if m.Error == nil {
 			m.Error = &modinfo.ModuleError{Err: err.Error()}
 		}
 		return
 	}
 	m.Deprecated = deprecation
 }

 // moduleInfo returns information about module m, loaded from the requirements
 // in rs (which may be nil to indicate that m was not loaded from a requirement
 // graph).
 func moduleInfo(ctx context.Context, rs *Requirements, m module.Version, mode ListMode) *modinfo.ModulePublic {
 	if m == Target {
 		info := &modinfo.ModulePublic{
 			Path:    m.Path,
 			Version: m.Version,
 			Main:    true,
 		}
 		if v, ok := rawGoVersion.Load(Target); ok {
 			info.GoVersion = v.(string)
 		} else {
 			panic("internal error: GoVersion not set for main module")
 		}
 		if HasModRoot() {
 			info.Dir = ModRoot()
 			info.GoMod = ModFilePath()
 		}
 		return info
 	}

 	info := &modinfo.ModulePublic{
 		Path:     m.Path,
 		Version:  m.Version,
 		Indirect: rs != nil && !rs.direct[m.Path],
 	}
 	if v, ok := rawGoVersion.Load(m); ok {
 		info.GoVersion = v.(string)
 	}

 	// completeFromModCache fills in the extra fields in m using the module cache.
 	completeFromModCache := func(m *modinfo.ModulePublic) {
 		checksumOk := func(suffix string) bool {
 			return rs == nil || m.Version == "" || cfg.BuildMod == "mod" ||
 				modfetch.HaveSum(module.Version{Path: m.Path, Version: m.Version + suffix})
 		}

 		if m.Version != "" {
 			if q, err := Query(ctx, m.Path, m.Version, "", nil); err != nil {
 				m.Error = &modinfo.ModuleError{Err: err.Error()}
 			} else {
 				m.Version = q.Version
 				m.Time = &q.Time
 			}
 		}
 		mod := module.Version{Path: m.Path, Version: m.Version}

 		if m.GoVersion == "" && checksumOk("/go.mod") {
 			// Load the go.mod file to determine the Go version, since it hasn't
 			// already been populated from rawGoVersion.
 			if summary, err := rawGoModSummary(mod); err == nil && summary.goVersion != "" {
 				m.GoVersion = summary.goVersion
 			}
 		}

 		if m.Version != "" {
 			if checksumOk("/go.mod") {
 				gomod, err := modfetch.CachePath(mod, "mod")
 				if err == nil {
 					if info, err := os.Stat(gomod); err == nil && info.Mode().IsRegular() {
 						m.GoMod = gomod
 					}
 				}
 			}
 			if checksumOk("") {
 				dir, err := modfetch.DownloadDir(mod)
 				if err == nil {
 					m.Dir = dir
 				}
 			}

 			if mode&ListRetracted != 0 {
 				addRetraction(ctx, m)
 			}
 		}
 	}

 	if rs == nil {
 		// If this was an explicitly-versioned argument to 'go mod download' or
 		// 'go list -m', report the actual requested version, not its replacement.
 		completeFromModCache(info) // Will set m.Error in vendor mode.
 		return info
 	}

 	r := Replacement(m)
 	if r.Path == "" {
 		if cfg.BuildMod == "vendor" {
 			// It's tempting to fill in the "Dir" field to point within the vendor
 			// directory, but that would be misleading: the vendor directory contains
 			// a flattened package tree, not complete modules, and it can even
 			// interleave packages from different modules if one module path is a
 			// prefix of the other.
 		} else {
 			completeFromModCache(info)
 		}
 		return info
 	}

 	// Don't hit the network to fill in extra data for replaced modules.
 	// The original resolved Version and Time don't matter enough to be
 	// worth the cost, and we're going to overwrite the GoMod and Dir from the
 	// replacement anyway. See https://golang.org/issue/27859.
 	info.Replace = &modinfo.ModulePublic{
 		Path:    r.Path,
 		Version: r.Version,
 	}
 	if v, ok := rawGoVersion.Load(m); ok {
 		info.Replace.GoVersion = v.(string)
 	}
 	if r.Version == "" {
 		if filepath.IsAbs(r.Path) {
 			info.Replace.Dir = r.Path
 		} else {
 			info.Replace.Dir = filepath.Join(ModRoot(), r.Path)
 		}
 		info.Replace.GoMod = filepath.Join(info.Replace.Dir, "go.mod")
 	}
 	if cfg.BuildMod != "vendor" {
 		completeFromModCache(info.Replace)
 		info.Dir = info.Replace.Dir
 		info.GoMod = info.Replace.GoMod
 		info.Retracted = info.Replace.Retracted
 	}
 	info.GoVersion = info.Replace.GoVersion
 	return info
 }

 // PackageBuildInfo returns a string containing module version information
 // for modules providing packages named by path and deps. path and deps must
 // name packages that were resolved successfully with LoadPackages.
 func PackageBuildInfo(path string, deps []string) string {
 	if isStandardImportPath(path) || !Enabled() {
 		return ""
 	}

 	target := mustFindModule(loaded, path, path)
 	mdeps := make(map[module.Version]bool)
 	for _, dep := range deps {
 		if !isStandardImportPath(dep) {
 			mdeps[mustFindModule(loaded, path, dep)] = true
 		}
 	}
 	var mods []module.Version
 	delete(mdeps, target)
 	for mod := range mdeps {
 		mods = append(mods, mod)
 	}
 	module.Sort(mods)

 	var buf bytes.Buffer
 	fmt.Fprintf(&buf, "path\t%s\n", path)

 	writeEntry := func(token string, m module.Version) {
 		mv := m.Version
 		if mv == "" {
 			mv = "(devel)"
 		}
 		fmt.Fprintf(&buf, "%s\t%s\t%s", token, m.Path, mv)
 		if r := Replacement(m); r.Path == "" {
 			fmt.Fprintf(&buf, "\t%s\n", modfetch.Sum(m))
 		} else {
 			fmt.Fprintf(&buf, "\n=>\t%s\t%s\t%s\n", r.Path, r.Version, modfetch.Sum(r))
 		}
 	}

 	writeEntry("mod", target)
 	for _, mod := range mods {
 		writeEntry("dep", mod)
 	}

 	return buf.String()
 }

 // mustFindModule is like findModule, but it calls base.Fatalf if the
 // module can't be found.
 //
 // TODO(jayconrod): remove this. Callers should use findModule and return
 // errors instead of relying on base.Fatalf.
 func mustFindModule(ld *loader, target, path string) module.Version {
 	pkg, ok := ld.pkgCache.Get(path).(*loadPkg)
 	if ok {
 		if pkg.err != nil {
 			base.Fatalf("build %v: cannot load %v: %v", target, path, pkg.err)
 		}
 		return pkg.mod
 	}

 	if path == "command-line-arguments" {
 		return Target
 	}

 	base.Fatalf("build %v: cannot find module for path %v", target, path)
 	panic("unreachable")
 }

 // findModule searches for the module that contains the package at path.
 // If the package was loaded, its containing module and true are returned.
 // Otherwise, module.Version{} and false are returend.
 func findModule(ld *loader, path string) (module.Version, bool) {
 	if pkg, ok := ld.pkgCache.Get(path).(*loadPkg); ok {
 		return pkg.mod, pkg.mod != module.Version{}
 	}
 	if path == "command-line-arguments" {
 		return Target, true
 	}
 	return module.Version{}, false
 }

 func ModInfoProg(info string, isgccgo bool) []byte {
 	// Inject a variable with the debug information as runtime.modinfo,
 	// but compile it in package main so that it is specific to the binary.
 	// The variable must be a literal so that it will have the correct value
 	// before the initializer for package main runs.
 	//
 	// The runtime startup code refers to the variable, which keeps it live
 	// in all binaries.
 	//
 	// Note: we use an alternate recipe below for gccgo (based on an
 	// init function) due to the fact that gccgo does not support
 	// applying a "//go:linkname" directive to a variable. This has
 	// drawbacks in that other packages may want to look at the module
 	// info in their init functions (see issue 29628), which won't
 	// work for gccgo. See also issue 30344.

 	if !isgccgo {
 		return []byte(fmt.Sprintf(`package main
 import _ "unsafe"
 //go:linkname __set_modinfo__ runtime.setmodinfo
 func __set_modinfo__(string)
 func init() { __set_modinfo__(%q) }
 	`, string(infoStart)+info+string(infoEnd)))
 	} else {
 		return []byte(fmt.Sprintf(`package main
 import _ "unsafe"
 //go:linkname __set_debug_modinfo__ runtime.setmodinfo
 func __set_debug_modinfo__(string)
 func init() { __set_debug_modinfo__(%q) }
 `, string(infoStart)+info+string(infoEnd)))
 	}
 }
	// 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"
	"context"
	"encoding/hex"
	"errors"
	"fmt"
	"internal/goroot"
	"io/fs"
	"os"
	"path/filepath"
	"strings"

	"cmd/go/internal/base"
	"cmd/go/internal/cfg"
	"cmd/go/internal/modfetch"
	"cmd/go/internal/modinfo"
	"cmd/go/internal/search"

	"golang.org/x/mod/module"
	"golang.org/x/mod/semver"
	)

	var (
	infoStart, _ = hex.DecodeString("3077af0c9274080241e1c107e6d618e6")
	infoEnd, _ = hex.DecodeString("f932433186182072008242104116d8f2")
	)

	func isStandardImportPath(path string) bool {
	return findStandardImportPath(path) != ""
	}

	func findStandardImportPath(path string) string {
	if path == "" {
	panic("findStandardImportPath called with empty path")
	}
	if search.IsStandardImportPath(path) {
	if goroot.IsStandardPackage(cfg.GOROOT, cfg.BuildContext.Compiler, path) {
	return filepath.Join(cfg.GOROOT, "src", path)
	}
	}
	return ""
	}

	// PackageModuleInfo returns information about the module that provides
	// a given package. If modules are not enabled or if the package is in the
	// standard library or if the package was not successfully loaded with
	// LoadPackages or ImportFromFiles, nil is returned.
	func PackageModuleInfo(ctx context.Context, pkgpath string) *modinfo.ModulePublic {
	if isStandardImportPath(pkgpath) \|\| !Enabled() {
	return nil
	}
	m, ok := findModule(loaded, pkgpath)
	if !ok {
	return nil
	}

	rs := LoadModFile(ctx)
	return moduleInfo(ctx, rs, m, 0)
	}

	func ModuleInfo(ctx context.Context, path string) *modinfo.ModulePublic {
	if !Enabled() {
	return nil
	}

	if i := strings.Index(path, "@"); i >= 0 {
	m := module.Version{Path: path[:i], Version: path[i+1:]}
	return moduleInfo(ctx, nil, m, 0)
	}

	rs := LoadModFile(ctx)

	var (
	v string
	ok bool
	)
	if rs.depth == lazy {
	v, ok = rs.rootSelected(path)
	}
	if !ok {
	mg, err := rs.Graph(ctx)
	if err != nil {
	base.Fatalf("go: %v", err)
	}
	v = mg.Selected(path)
	}

	if v == "none" {
	return &modinfo.ModulePublic{
	Path: path,
	Error: &modinfo.ModuleError{
	Err: "module not in current build",
	},
	}
	}

	return moduleInfo(ctx, rs, module.Version{Path: path, Version: v}, 0)
	}

	// addUpdate fills in m.Update if an updated version is available.
	func addUpdate(ctx context.Context, m *modinfo.ModulePublic) {
	if m.Version == "" {
	return
	}

	info, err := Query(ctx, m.Path, "upgrade", m.Version, CheckAllowed)
	var noVersionErr *NoMatchingVersionError
	if errors.Is(err, fs.ErrNotExist) \|\| errors.As(err, &noVersionErr) {
	// Ignore "not found" and "no matching version" errors.
	// This means the proxy has no matching version or no versions at all.
	//
	// We should report other errors though. An attacker that controls the
	// network shouldn't be able to hide versions by interfering with
	// the HTTPS connection. An attacker that controls the proxy may still
	// hide versions, since the "list" and "latest" endpoints are not
	// authenticated.
	return
	} else if err != nil {
	if m.Error == nil {
	m.Error = &modinfo.ModuleError{Err: err.Error()}
	}
	return
	}

	if semver.Compare(info.Version, m.Version) > 0 {
	m.Update = &modinfo.ModulePublic{
	Path: m.Path,
	Version: info.Version,
	Time: &info.Time,
	}
	}
	}

	// addVersions fills in m.Versions with the list of known versions.
	// Excluded versions will be omitted. If listRetracted is false, retracted
	// versions will also be omitted.
	func addVersions(ctx context.Context, m *modinfo.ModulePublic, listRetracted bool) {
	allowed := CheckAllowed
	if listRetracted {
	allowed = CheckExclusions
	}
	var err error
	m.Versions, err = versions(ctx, m.Path, allowed)
	if err != nil && m.Error == nil {
	m.Error = &modinfo.ModuleError{Err: err.Error()}
	}
	}

	// addRetraction fills in m.Retracted if the module was retracted by its author.
	// m.Error is set if there's an error loading retraction information.
	func addRetraction(ctx context.Context, m *modinfo.ModulePublic) {
	if m.Version == "" {
	return
	}

	err := CheckRetractions(ctx, module.Version{Path: m.Path, Version: m.Version})
	var noVersionErr *NoMatchingVersionError
	var retractErr *ModuleRetractedError
	if err == nil \|\| errors.Is(err, fs.ErrNotExist) \|\| errors.As(err, &noVersionErr) {
	// Ignore "not found" and "no matching version" errors.
	// This means the proxy has no matching version or no versions at all.
	//
	// We should report other errors though. An attacker that controls the
	// network shouldn't be able to hide versions by interfering with
	// the HTTPS connection. An attacker that controls the proxy may still
	// hide versions, since the "list" and "latest" endpoints are not
	// authenticated.
	return
	} else if errors.As(err, &retractErr) {
	if len(retractErr.Rationale) == 0 {
	m.Retracted = []string{"retracted by module author"}
	} else {
	m.Retracted = retractErr.Rationale
	}
	} else if m.Error == nil {
	m.Error = &modinfo.ModuleError{Err: err.Error()}
	}
	}

	// addDeprecation fills in m.Deprecated if the module was deprecated by its
	// author. m.Error is set if there's an error loading deprecation information.
	func addDeprecation(ctx context.Context, m *modinfo.ModulePublic) {
	deprecation, err := CheckDeprecation(ctx, module.Version{Path: m.Path, Version: m.Version})
	var noVersionErr *NoMatchingVersionError
	if errors.Is(err, fs.ErrNotExist) \|\| errors.As(err, &noVersionErr) {
	// Ignore "not found" and "no matching version" errors.
	// This means the proxy has no matching version or no versions at all.
	//
	// We should report other errors though. An attacker that controls the
	// network shouldn't be able to hide versions by interfering with
	// the HTTPS connection. An attacker that controls the proxy may still
	// hide versions, since the "list" and "latest" endpoints are not
	// authenticated.
	return
	}
	if err != nil {
	if m.Error == nil {
	m.Error = &modinfo.ModuleError{Err: err.Error()}
	}
	return
	}
	m.Deprecated = deprecation
	}

	// moduleInfo returns information about module m, loaded from the requirements
	// in rs (which may be nil to indicate that m was not loaded from a requirement
	// graph).
	func moduleInfo(ctx context.Context, rs Requirements, m module.Version, mode ListMode) modinfo.ModulePublic {
	if m == Target {
	info := &modinfo.ModulePublic{
	Path: m.Path,
	Version: m.Version,
	Main: true,
	}
	if v, ok := rawGoVersion.Load(Target); ok {
	info.GoVersion = v.(string)
	} else {
	panic("internal error: GoVersion not set for main module")
	}
	if HasModRoot() {
	info.Dir = ModRoot()
	info.GoMod = ModFilePath()
	}
	return info
	}

	info := &modinfo.ModulePublic{
	Path: m.Path,
	Version: m.Version,
	Indirect: rs != nil && !rs.direct[m.Path],
	}
	if v, ok := rawGoVersion.Load(m); ok {
	info.GoVersion = v.(string)
	}

	// completeFromModCache fills in the extra fields in m using the module cache.
	completeFromModCache := func(m *modinfo.ModulePublic) {
	checksumOk := func(suffix string) bool {
	return rs == nil \|\| m.Version == "" \|\| cfg.BuildMod == "mod" \|\|
	modfetch.HaveSum(module.Version{Path: m.Path, Version: m.Version + suffix})
	}

	if m.Version != "" {
	if q, err := Query(ctx, m.Path, m.Version, "", nil); err != nil {
	m.Error = &modinfo.ModuleError{Err: err.Error()}
	} else {
	m.Version = q.Version
	m.Time = &q.Time
	}
	}
	mod := module.Version{Path: m.Path, Version: m.Version}

	if m.GoVersion == "" && checksumOk("/go.mod") {
	// Load the go.mod file to determine the Go version, since it hasn't
	// already been populated from rawGoVersion.
	if summary, err := rawGoModSummary(mod); err == nil && summary.goVersion != "" {
	m.GoVersion = summary.goVersion
	}
	}

	if m.Version != "" {
	if checksumOk("/go.mod") {
	gomod, err := modfetch.CachePath(mod, "mod")
	if err == nil {
	if info, err := os.Stat(gomod); err == nil && info.Mode().IsRegular() {
	m.GoMod = gomod
	}
	}
	}
	if checksumOk("") {
	dir, err := modfetch.DownloadDir(mod)
	if err == nil {
	m.Dir = dir
	}
	}

	if mode&ListRetracted != 0 {
	addRetraction(ctx, m)
	}
	}
	}

	if rs == nil {
	// If this was an explicitly-versioned argument to 'go mod download' or
	// 'go list -m', report the actual requested version, not its replacement.
	completeFromModCache(info) // Will set m.Error in vendor mode.
	return info
	}

	r := Replacement(m)
	if r.Path == "" {
	if cfg.BuildMod == "vendor" {
	// It's tempting to fill in the "Dir" field to point within the vendor
	// directory, but that would be misleading: the vendor directory contains
	// a flattened package tree, not complete modules, and it can even
	// interleave packages from different modules if one module path is a
	// prefix of the other.
	} else {
	completeFromModCache(info)
	}
	return info
	}

	// Don't hit the network to fill in extra data for replaced modules.
	// The original resolved Version and Time don't matter enough to be
	// worth the cost, and we're going to overwrite the GoMod and Dir from the
	// replacement anyway. See https://golang.org/issue/27859.
	info.Replace = &modinfo.ModulePublic{
	Path: r.Path,
	Version: r.Version,
	}
	if v, ok := rawGoVersion.Load(m); ok {
	info.Replace.GoVersion = v.(string)
	}
	if r.Version == "" {
	if filepath.IsAbs(r.Path) {
	info.Replace.Dir = r.Path
	} else {
	info.Replace.Dir = filepath.Join(ModRoot(), r.Path)
	}
	info.Replace.GoMod = filepath.Join(info.Replace.Dir, "go.mod")
	}
	if cfg.BuildMod != "vendor" {
	completeFromModCache(info.Replace)
	info.Dir = info.Replace.Dir
	info.GoMod = info.Replace.GoMod
	info.Retracted = info.Replace.Retracted
	}
	info.GoVersion = info.Replace.GoVersion
	return info
	}

	// PackageBuildInfo returns a string containing module version information
	// for modules providing packages named by path and deps. path and deps must
	// name packages that were resolved successfully with LoadPackages.
	func PackageBuildInfo(path string, deps []string) string {
	if isStandardImportPath(path) \|\| !Enabled() {
	return ""
	}

	target := mustFindModule(loaded, path, path)
	mdeps := make(map[module.Version]bool)
	for _, dep := range deps {
	if !isStandardImportPath(dep) {
	mdeps[mustFindModule(loaded, path, dep)] = true
	}
	}
	var mods []module.Version
	delete(mdeps, target)
	for mod := range mdeps {
	mods = append(mods, mod)
	}
	module.Sort(mods)

	var buf bytes.Buffer
	fmt.Fprintf(&buf, "path\t%s\n", path)

	writeEntry := func(token string, m module.Version) {
	mv := m.Version
	if mv == "" {
	mv = "(devel)"
	}
	fmt.Fprintf(&buf, "%s\t%s\t%s", token, m.Path, mv)
	if r := Replacement(m); r.Path == "" {
	fmt.Fprintf(&buf, "\t%s\n", modfetch.Sum(m))
	} else {
	fmt.Fprintf(&buf, "\n=>\t%s\t%s\t%s\n", r.Path, r.Version, modfetch.Sum(r))
	}
	}

	writeEntry("mod", target)
	for _, mod := range mods {
	writeEntry("dep", mod)
	}

	return buf.String()
	}

	// mustFindModule is like findModule, but it calls base.Fatalf if the
	// module can't be found.
	//
	// TODO(jayconrod): remove this. Callers should use findModule and return
	// errors instead of relying on base.Fatalf.
	func mustFindModule(ld *loader, target, path string) module.Version {
	pkg, ok := ld.pkgCache.Get(path).(*loadPkg)
	if ok {
	if pkg.err != nil {
	base.Fatalf("build %v: cannot load %v: %v", target, path, pkg.err)
	}
	return pkg.mod
	}

	if path == "command-line-arguments" {
	return Target
	}

	base.Fatalf("build %v: cannot find module for path %v", target, path)
	panic("unreachable")
	}

	// findModule searches for the module that contains the package at path.
	// If the package was loaded, its containing module and true are returned.
	// Otherwise, module.Version{} and false are returend.
	func findModule(ld *loader, path string) (module.Version, bool) {
	if pkg, ok := ld.pkgCache.Get(path).(*loadPkg); ok {
	return pkg.mod, pkg.mod != module.Version{}
	}
	if path == "command-line-arguments" {
	return Target, true
	}
	return module.Version{}, false
	}

	func ModInfoProg(info string, isgccgo bool) []byte {
	// Inject a variable with the debug information as runtime.modinfo,
	// but compile it in package main so that it is specific to the binary.
	// The variable must be a literal so that it will have the correct value
	// before the initializer for package main runs.
	//
	// The runtime startup code refers to the variable, which keeps it live
	// in all binaries.
	//
	// Note: we use an alternate recipe below for gccgo (based on an
	// init function) due to the fact that gccgo does not support
	// applying a "//go:linkname" directive to a variable. This has
	// drawbacks in that other packages may want to look at the module
	// info in their init functions (see issue 29628), which won't
	// work for gccgo. See also issue 30344.

	if !isgccgo {
	return []byte(fmt.Sprintf(`package main
	import _ "unsafe"
	//go:linkname __set_modinfo__ runtime.setmodinfo
	func __set_modinfo__(string)
	func init() { __set_modinfo__(%q) }
	`, string(infoStart)+info+string(infoEnd)))
	} else {
	return []byte(fmt.Sprintf(`package main
	import _ "unsafe"
	//go:linkname __set_debug_modinfo__ runtime.setmodinfo
	func __set_debug_modinfo__(string)
	func init() { __set_debug_modinfo__(%q) }
	`, string(infoStart)+info+string(infoEnd)))
	}
	}