blob: 7b48a2a2f0438ad24e6954ffc41bf6254a16e70f [file] [log] [blame]
// Copyright 2019 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 zip provides functions for creating and extracting module zip files.
//
// Module zip files have several restrictions listed below. These are necessary
// to ensure that module zip files can be extracted consistently on supported
// platforms and file systems.
//
// • All file paths within a zip file must start with "<module>@<version>/",
// where "<module>" is the module path and "<version>" is the version.
// The module path must be valid (see golang.org/x/mod/module.CheckPath).
// The version must be valid and canonical (see
// golang.org/x/mod/module.CanonicalVersion). The path must have a major
// version suffix consistent with the version (see
// golang.org/x/mod/module.Check). The part of the file path after the
// "<module>@<version>/" prefix must be valid (see
// golang.org/x/mod/module.CheckFilePath).
//
// • No two file paths may be equal under Unicode case-folding (see
// strings.EqualFold).
//
// • A go.mod file may or may not appear in the top-level directory. If present,
// it must be named "go.mod", not any other case. Files named "go.mod"
// are not allowed in any other directory.
//
// • The total size in bytes of a module zip file may be at most MaxZipFile
// bytes (500 MiB). The total uncompressed size of the files within the
// zip may also be at most MaxZipFile bytes.
//
// • Each file's uncompressed size must match its declared 64-bit uncompressed
// size in the zip file header.
//
// • If the zip contains files named "<module>@<version>/go.mod" or
// "<module>@<version>/LICENSE", their sizes in bytes may be at most
// MaxGoMod or MaxLICENSE, respectively (both are 16 MiB).
//
// • Empty directories are ignored. File permissions and timestamps are also
// ignored.
//
// • Symbolic links and other irregular files are not allowed.
//
// Note that this package does not provide hashing functionality. See
// golang.org/x/mod/sumdb/dirhash.
package zip
import (
"archive/zip"
"bytes"
"errors"
"fmt"
"io"
"os"
"os/exec"
"path"
"path/filepath"
"strings"
"unicode"
"unicode/utf8"
"golang.org/x/mod/module"
)
const (
// MaxZipFile is the maximum size in bytes of a module zip file. The
// go command will report an error if either the zip file or its extracted
// content is larger than this.
MaxZipFile = 500 << 20
// MaxGoMod is the maximum size in bytes of a go.mod file within a
// module zip file.
MaxGoMod = 16 << 20
// MaxLICENSE is the maximum size in bytes of a LICENSE file within a
// module zip file.
MaxLICENSE = 16 << 20
)
// File provides an abstraction for a file in a directory, zip, or anything
// else that looks like a file.
type File interface {
// Path returns a clean slash-separated relative path from the module root
// directory to the file.
Path() string
// Lstat returns information about the file. If the file is a symbolic link,
// Lstat returns information about the link itself, not the file it points to.
Lstat() (os.FileInfo, error)
// Open provides access to the data within a regular file. Open may return
// an error if called on a directory or symbolic link.
Open() (io.ReadCloser, error)
}
// CheckedFiles reports whether a set of files satisfy the name and size
// constraints required by module zip files. The constraints are listed in the
// package documentation.
//
// Functions that produce this report may include slightly different sets of
// files. See documentation for CheckFiles, CheckDir, and CheckZip for details.
type CheckedFiles struct {
// Valid is a list of file paths that should be included in a zip file.
Valid []string
// Omitted is a list of files that are ignored when creating a module zip
// file, along with the reason each file is ignored.
Omitted []FileError
// Invalid is a list of files that should not be included in a module zip
// file, along with the reason each file is invalid.
Invalid []FileError
// SizeError is non-nil if the total uncompressed size of the valid files
// exceeds the module zip size limit or if the zip file itself exceeds the
// limit.
SizeError error
}
// Err returns an error if CheckedFiles does not describe a valid module zip
// file. SizeError is returned if that field is set. A FileErrorList is returned
// if there are one or more invalid files. Other errors may be returned in the
// future.
func (cf CheckedFiles) Err() error {
if cf.SizeError != nil {
return cf.SizeError
}
if len(cf.Invalid) > 0 {
return FileErrorList(cf.Invalid)
}
return nil
}
type FileErrorList []FileError
func (el FileErrorList) Error() string {
buf := &strings.Builder{}
sep := ""
for _, e := range el {
buf.WriteString(sep)
buf.WriteString(e.Error())
sep = "\n"
}
return buf.String()
}
type FileError struct {
Path string
Err error
}
func (e FileError) Error() string {
return fmt.Sprintf("%s: %s", e.Path, e.Err)
}
func (e FileError) Unwrap() error {
return e.Err
}
var (
// Predefined error messages for invalid files. Not exhaustive.
errPathNotClean = errors.New("file path is not clean")
errPathNotRelative = errors.New("file path is not relative")
errGoModCase = errors.New("go.mod files must have lowercase names")
errGoModSize = fmt.Errorf("go.mod file too large (max size is %d bytes)", MaxGoMod)
errLICENSESize = fmt.Errorf("LICENSE file too large (max size is %d bytes)", MaxLICENSE)
// Predefined error messages for omitted files. Not exhaustive.
errVCS = errors.New("directory is a version control repository")
errVendored = errors.New("file is in vendor directory")
errSubmoduleFile = errors.New("file is in another module")
errSubmoduleDir = errors.New("directory is in another module")
errHgArchivalTxt = errors.New("file is inserted by 'hg archive' and is always omitted")
errSymlink = errors.New("file is a symbolic link")
errNotRegular = errors.New("not a regular file")
)
// CheckFiles reports whether a list of files satisfy the name and size
// constraints listed in the package documentation. The returned CheckedFiles
// record contains lists of valid, invalid, and omitted files. Every file in
// the given list will be included in exactly one of those lists.
//
// CheckFiles returns an error if the returned CheckedFiles does not describe
// a valid module zip file (according to CheckedFiles.Err). The returned
// CheckedFiles is still populated when an error is returned.
//
// Note that CheckFiles will not open any files, so Create may still fail when
// CheckFiles is successful due to I/O errors and reported size differences.
func CheckFiles(files []File) (CheckedFiles, error) {
cf, _, _ := checkFiles(files)
return cf, cf.Err()
}
// checkFiles implements CheckFiles and also returns lists of valid files and
// their sizes, corresponding to cf.Valid. It omits files in submodules, files
// in vendored packages, symlinked files, and various other unwanted files.
//
// The lists returned are used in Create to avoid repeated calls to File.Lstat.
func checkFiles(files []File) (cf CheckedFiles, validFiles []File, validSizes []int64) {
errPaths := make(map[string]struct{})
addError := func(path string, omitted bool, err error) {
if _, ok := errPaths[path]; ok {
return
}
errPaths[path] = struct{}{}
fe := FileError{Path: path, Err: err}
if omitted {
cf.Omitted = append(cf.Omitted, fe)
} else {
cf.Invalid = append(cf.Invalid, fe)
}
}
// Find directories containing go.mod files (other than the root).
// Files in these directories will be omitted.
// These directories will not be included in the output zip.
haveGoMod := make(map[string]bool)
for _, f := range files {
p := f.Path()
dir, base := path.Split(p)
if strings.EqualFold(base, "go.mod") {
info, err := f.Lstat()
if err != nil {
addError(p, false, err)
continue
}
if info.Mode().IsRegular() {
haveGoMod[dir] = true
}
}
}
inSubmodule := func(p string) bool {
for {
dir, _ := path.Split(p)
if dir == "" {
return false
}
if haveGoMod[dir] {
return true
}
p = dir[:len(dir)-1]
}
}
collisions := make(collisionChecker)
maxSize := int64(MaxZipFile)
for _, f := range files {
p := f.Path()
if p != path.Clean(p) {
addError(p, false, errPathNotClean)
continue
}
if path.IsAbs(p) {
addError(p, false, errPathNotRelative)
continue
}
if isVendoredPackage(p) {
// Skip files in vendored packages.
addError(p, true, errVendored)
continue
}
if inSubmodule(p) {
// Skip submodule files.
addError(p, true, errSubmoduleFile)
continue
}
if p == ".hg_archival.txt" {
// Inserted by hg archive.
// The go command drops this regardless of the VCS being used.
addError(p, true, errHgArchivalTxt)
continue
}
if err := module.CheckFilePath(p); err != nil {
addError(p, false, err)
continue
}
if strings.ToLower(p) == "go.mod" && p != "go.mod" {
addError(p, false, errGoModCase)
continue
}
info, err := f.Lstat()
if err != nil {
addError(p, false, err)
continue
}
if err := collisions.check(p, info.IsDir()); err != nil {
addError(p, false, err)
continue
}
if info.Mode()&os.ModeType == os.ModeSymlink {
// Skip symbolic links (golang.org/issue/27093).
addError(p, true, errSymlink)
continue
}
if !info.Mode().IsRegular() {
addError(p, true, errNotRegular)
continue
}
size := info.Size()
if size >= 0 && size <= maxSize {
maxSize -= size
} else if cf.SizeError == nil {
cf.SizeError = fmt.Errorf("module source tree too large (max size is %d bytes)", MaxZipFile)
}
if p == "go.mod" && size > MaxGoMod {
addError(p, false, errGoModSize)
continue
}
if p == "LICENSE" && size > MaxLICENSE {
addError(p, false, errLICENSESize)
continue
}
cf.Valid = append(cf.Valid, p)
validFiles = append(validFiles, f)
validSizes = append(validSizes, info.Size())
}
return cf, validFiles, validSizes
}
// CheckDir reports whether the files in dir satisfy the name and size
// constraints listed in the package documentation. The returned CheckedFiles
// record contains lists of valid, invalid, and omitted files. If a directory is
// omitted (for example, a nested module or vendor directory), it will appear in
// the omitted list, but its files won't be listed.
//
// CheckDir returns an error if it encounters an I/O error or if the returned
// CheckedFiles does not describe a valid module zip file (according to
// CheckedFiles.Err). The returned CheckedFiles is still populated when such
// an error is returned.
//
// Note that CheckDir will not open any files, so CreateFromDir may still fail
// when CheckDir is successful due to I/O errors.
func CheckDir(dir string) (CheckedFiles, error) {
// List files (as CreateFromDir would) and check which ones are omitted
// or invalid.
files, omitted, err := listFilesInDir(dir)
if err != nil {
return CheckedFiles{}, err
}
cf, cfErr := CheckFiles(files)
_ = cfErr // ignore this error; we'll generate our own after rewriting paths.
// Replace all paths with file system paths.
// Paths returned by CheckFiles will be slash-separated paths relative to dir.
// That's probably not appropriate for error messages.
for i := range cf.Valid {
cf.Valid[i] = filepath.Join(dir, cf.Valid[i])
}
cf.Omitted = append(cf.Omitted, omitted...)
for i := range cf.Omitted {
cf.Omitted[i].Path = filepath.Join(dir, cf.Omitted[i].Path)
}
for i := range cf.Invalid {
cf.Invalid[i].Path = filepath.Join(dir, cf.Invalid[i].Path)
}
return cf, cf.Err()
}
// CheckZip reports whether the files contained in a zip file satisfy the name
// and size constraints listed in the package documentation.
//
// CheckZip returns an error if the returned CheckedFiles does not describe
// a valid module zip file (according to CheckedFiles.Err). The returned
// CheckedFiles is still populated when an error is returned. CheckZip will
// also return an error if the module path or version is malformed or if it
// encounters an error reading the zip file.
//
// Note that CheckZip does not read individual files, so Unzip may still fail
// when CheckZip is successful due to I/O errors.
func CheckZip(m module.Version, zipFile string) (CheckedFiles, error) {
f, err := os.Open(zipFile)
if err != nil {
return CheckedFiles{}, err
}
defer f.Close()
_, cf, err := checkZip(m, f)
return cf, err
}
// checkZip implements checkZip and also returns the *zip.Reader. This is
// used in Unzip to avoid redundant I/O.
func checkZip(m module.Version, f *os.File) (*zip.Reader, CheckedFiles, error) {
// Make sure the module path and version are valid.
if vers := module.CanonicalVersion(m.Version); vers != m.Version {
return nil, CheckedFiles{}, fmt.Errorf("version %q is not canonical (should be %q)", m.Version, vers)
}
if err := module.Check(m.Path, m.Version); err != nil {
return nil, CheckedFiles{}, err
}
// Check the total file size.
info, err := f.Stat()
if err != nil {
return nil, CheckedFiles{}, err
}
zipSize := info.Size()
if zipSize > MaxZipFile {
cf := CheckedFiles{SizeError: fmt.Errorf("module zip file is too large (%d bytes; limit is %d bytes)", zipSize, MaxZipFile)}
return nil, cf, cf.Err()
}
// Check for valid file names, collisions.
var cf CheckedFiles
addError := func(zf *zip.File, err error) {
cf.Invalid = append(cf.Invalid, FileError{Path: zf.Name, Err: err})
}
z, err := zip.NewReader(f, zipSize)
if err != nil {
return nil, CheckedFiles{}, err
}
prefix := fmt.Sprintf("%s@%s/", m.Path, m.Version)
collisions := make(collisionChecker)
var size int64
for _, zf := range z.File {
if !strings.HasPrefix(zf.Name, prefix) {
addError(zf, fmt.Errorf("path does not have prefix %q", prefix))
continue
}
name := zf.Name[len(prefix):]
if name == "" {
continue
}
isDir := strings.HasSuffix(name, "/")
if isDir {
name = name[:len(name)-1]
}
if path.Clean(name) != name {
addError(zf, errPathNotClean)
continue
}
if err := module.CheckFilePath(name); err != nil {
addError(zf, err)
continue
}
if err := collisions.check(name, isDir); err != nil {
addError(zf, err)
continue
}
if isDir {
continue
}
if base := path.Base(name); strings.EqualFold(base, "go.mod") {
if base != name {
addError(zf, fmt.Errorf("go.mod file not in module root directory"))
continue
}
if name != "go.mod" {
addError(zf, errGoModCase)
continue
}
}
sz := int64(zf.UncompressedSize64)
if sz >= 0 && MaxZipFile-size >= sz {
size += sz
} else if cf.SizeError == nil {
cf.SizeError = fmt.Errorf("total uncompressed size of module contents too large (max size is %d bytes)", MaxZipFile)
}
if name == "go.mod" && sz > MaxGoMod {
addError(zf, fmt.Errorf("go.mod file too large (max size is %d bytes)", MaxGoMod))
continue
}
if name == "LICENSE" && sz > MaxLICENSE {
addError(zf, fmt.Errorf("LICENSE file too large (max size is %d bytes)", MaxLICENSE))
continue
}
cf.Valid = append(cf.Valid, zf.Name)
}
return z, cf, cf.Err()
}
// Create builds a zip archive for module m from an abstract list of files
// and writes it to w.
//
// Create verifies the restrictions described in the package documentation
// and should not produce an archive that Unzip cannot extract. Create does not
// include files in the output archive if they don't belong in the module zip.
// In particular, Create will not include files in modules found in
// subdirectories, most files in vendor directories, or irregular files (such
// as symbolic links) in the output archive.
func Create(w io.Writer, m module.Version, files []File) (err error) {
defer func() {
if err != nil {
err = &zipError{verb: "create zip", err: err}
}
}()
// Check that the version is canonical, the module path is well-formed, and
// the major version suffix matches the major version.
if vers := module.CanonicalVersion(m.Version); vers != m.Version {
return fmt.Errorf("version %q is not canonical (should be %q)", m.Version, vers)
}
if err := module.Check(m.Path, m.Version); err != nil {
return err
}
// Check whether files are valid, not valid, or should be omitted.
// Also check that the valid files don't exceed the maximum size.
cf, validFiles, validSizes := checkFiles(files)
if err := cf.Err(); err != nil {
return err
}
// Create the module zip file.
zw := zip.NewWriter(w)
prefix := fmt.Sprintf("%s@%s/", m.Path, m.Version)
addFile := func(f File, path string, size int64) error {
rc, err := f.Open()
if err != nil {
return err
}
defer rc.Close()
w, err := zw.Create(prefix + path)
if err != nil {
return err
}
lr := &io.LimitedReader{R: rc, N: size + 1}
if _, err := io.Copy(w, lr); err != nil {
return err
}
if lr.N <= 0 {
return fmt.Errorf("file %q is larger than declared size", path)
}
return nil
}
for i, f := range validFiles {
p := f.Path()
size := validSizes[i]
if err := addFile(f, p, size); err != nil {
return err
}
}
return zw.Close()
}
// CreateFromDir creates a module zip file for module m from the contents of
// a directory, dir. The zip content is written to w.
//
// CreateFromDir verifies the restrictions described in the package
// documentation and should not produce an archive that Unzip cannot extract.
// CreateFromDir does not include files in the output archive if they don't
// belong in the module zip. In particular, CreateFromDir will not include
// files in modules found in subdirectories, most files in vendor directories,
// or irregular files (such as symbolic links) in the output archive.
// Additionally, unlike Create, CreateFromDir will not include directories
// named ".bzr", ".git", ".hg", or ".svn".
func CreateFromDir(w io.Writer, m module.Version, dir string) (err error) {
defer func() {
if zerr, ok := err.(*zipError); ok {
zerr.path = dir
} else if err != nil {
err = &zipError{verb: "create zip from directory", path: dir, err: err}
}
}()
files, _, err := listFilesInDir(dir)
if err != nil {
return err
}
return Create(w, m, files)
}
// CreateFromVCS creates a module zip file for module m from the contents of a
// VCS repository stored locally. The zip content is written to w.
//
// repoRoot must be an absolute path to the base of the repository, such as
// "/Users/some-user/some-repo".
//
// revision is the revision of the repository to create the zip from. Examples
// include HEAD or SHA sums for git repositories.
//
// subdir must be the relative path from the base of the repository, such as
// "sub/dir". To create a zip from the base of the repository, pass an empty
// string.
//
// If CreateFromVCS returns ErrUnrecognizedVCS, consider falling back to
// CreateFromDir.
func CreateFromVCS(w io.Writer, m module.Version, repoRoot, revision, subdir string) (err error) {
defer func() {
if zerr, ok := err.(*zipError); ok {
zerr.path = repoRoot
} else if err != nil {
err = &zipError{verb: "create zip from version control system", path: repoRoot, err: err}
}
}()
var filesToCreate []File
switch {
case isGitRepo(repoRoot):
files, err := filesInGitRepo(repoRoot, revision, subdir)
if err != nil {
return err
}
filesToCreate = files
default:
return &UnrecognizedVCSError{RepoRoot: repoRoot}
}
return Create(w, m, filesToCreate)
}
// UnrecognizedVCSError indicates that no recognized version control system was
// found in the given directory.
type UnrecognizedVCSError struct {
RepoRoot string
}
func (e *UnrecognizedVCSError) Error() string {
return fmt.Sprintf("could not find a recognized version control system at %q", e.RepoRoot)
}
// filesInGitRepo filters out any files that are git ignored in the directory.
func filesInGitRepo(dir, rev, subdir string) ([]File, error) {
stderr := bytes.Buffer{}
stdout := bytes.Buffer{}
// Incredibly, git produces different archives depending on whether
// it is running on a Windows system or not, in an attempt to normalize
// text file line endings. Setting -c core.autocrlf=input means only
// translate files on the way into the repo, not on the way out (archive).
// The -c core.eol=lf should be unnecessary but set it anyway.
//
// Note: We use git archive to understand which files are actually included,
// ignoring things like .gitignore'd files. We could also use other
// techniques like git ls-files, but this approach most closely matches what
// the Go command does, which is beneficial.
//
// Note: some of this code copied from https://go.googlesource.com/go/+/refs/tags/go1.16.5/src/cmd/go/internal/modfetch/codehost/git.go#826.
cmd := exec.Command("git", "-c", "core.autocrlf=input", "-c", "core.eol=lf", "archive", "--format=zip", rev)
if subdir != "" {
cmd.Args = append(cmd.Args, subdir)
}
cmd.Dir = dir
cmd.Env = append(os.Environ(), "PWD="+dir)
cmd.Stdout = &stdout
cmd.Stderr = &stderr
if err := cmd.Run(); err != nil {
return nil, fmt.Errorf("error running `git archive`: %w, %s", err, stderr.String())
}
rawReader := bytes.NewReader(stdout.Bytes())
zipReader, err := zip.NewReader(rawReader, int64(stdout.Len()))
if err != nil {
return nil, err
}
var fs []File
for _, zf := range zipReader.File {
if !strings.HasPrefix(zf.Name, subdir) || strings.HasSuffix(zf.Name, "/") {
continue
}
n := strings.TrimPrefix(zf.Name, subdir)
if n == "" {
continue
}
n = strings.TrimPrefix(n, "/")
fs = append(fs, zipFile{
name: n,
f: zf,
})
}
return fs, nil
}
// isGitRepo reports whether the given directory is a git repo.
func isGitRepo(dir string) bool {
stdout := &bytes.Buffer{}
cmd := exec.Command("git", "rev-parse", "--git-dir")
cmd.Dir = dir
cmd.Env = append(os.Environ(), "PWD="+dir)
cmd.Stdout = stdout
if err := cmd.Run(); err != nil {
return false
}
gitDir := strings.TrimSpace(stdout.String())
if !filepath.IsAbs(gitDir) {
gitDir = filepath.Join(dir, gitDir)
}
wantDir := filepath.Join(dir, ".git")
return wantDir == gitDir
}
type dirFile struct {
filePath, slashPath string
info os.FileInfo
}
func (f dirFile) Path() string { return f.slashPath }
func (f dirFile) Lstat() (os.FileInfo, error) { return f.info, nil }
func (f dirFile) Open() (io.ReadCloser, error) { return os.Open(f.filePath) }
type zipFile struct {
name string
f *zip.File
}
func (f zipFile) Path() string { return f.name }
func (f zipFile) Lstat() (os.FileInfo, error) { return f.f.FileInfo(), nil }
func (f zipFile) Open() (io.ReadCloser, error) { return f.f.Open() }
// isVendoredPackage attempts to report whether the given filename is contained
// in a package whose import path contains (but does not end with) the component
// "vendor".
//
// Unfortunately, isVendoredPackage reports false positives for files in any
// non-top-level package whose import path ends in "vendor".
func isVendoredPackage(name string) bool {
var i int
if strings.HasPrefix(name, "vendor/") {
i += len("vendor/")
} else if j := strings.Index(name, "/vendor/"); j >= 0 {
// This offset looks incorrect; this should probably be
//
// i = j + len("/vendor/")
//
// (See https://golang.org/issue/31562 and https://golang.org/issue/37397.)
// Unfortunately, we can't fix it without invalidating module checksums.
i += len("/vendor/")
} else {
return false
}
return strings.Contains(name[i:], "/")
}
// Unzip extracts the contents of a module zip file to a directory.
//
// Unzip checks all restrictions listed in the package documentation and returns
// an error if the zip archive is not valid. In some cases, files may be written
// to dir before an error is returned (for example, if a file's uncompressed
// size does not match its declared size).
//
// dir may or may not exist: Unzip will create it and any missing parent
// directories if it doesn't exist. If dir exists, it must be empty.
func Unzip(dir string, m module.Version, zipFile string) (err error) {
defer func() {
if err != nil {
err = &zipError{verb: "unzip", path: zipFile, err: err}
}
}()
// Check that the directory is empty. Don't create it yet in case there's
// an error reading the zip.
if files, _ := os.ReadDir(dir); len(files) > 0 {
return fmt.Errorf("target directory %v exists and is not empty", dir)
}
// Open the zip and check that it satisfies all restrictions.
f, err := os.Open(zipFile)
if err != nil {
return err
}
defer f.Close()
z, cf, err := checkZip(m, f)
if err != nil {
return err
}
if err := cf.Err(); err != nil {
return err
}
// Unzip, enforcing sizes declared in the zip file.
prefix := fmt.Sprintf("%s@%s/", m.Path, m.Version)
if err := os.MkdirAll(dir, 0777); err != nil {
return err
}
for _, zf := range z.File {
name := zf.Name[len(prefix):]
if name == "" || strings.HasSuffix(name, "/") {
continue
}
dst := filepath.Join(dir, name)
if err := os.MkdirAll(filepath.Dir(dst), 0777); err != nil {
return err
}
w, err := os.OpenFile(dst, os.O_WRONLY|os.O_CREATE|os.O_EXCL, 0444)
if err != nil {
return err
}
r, err := zf.Open()
if err != nil {
w.Close()
return err
}
lr := &io.LimitedReader{R: r, N: int64(zf.UncompressedSize64) + 1}
_, err = io.Copy(w, lr)
r.Close()
if err != nil {
w.Close()
return err
}
if err := w.Close(); err != nil {
return err
}
if lr.N <= 0 {
return fmt.Errorf("uncompressed size of file %s is larger than declared size (%d bytes)", zf.Name, zf.UncompressedSize64)
}
}
return nil
}
// collisionChecker finds case-insensitive name collisions and paths that
// are listed as both files and directories.
//
// The keys of this map are processed with strToFold. pathInfo has the original
// path for each folded path.
type collisionChecker map[string]pathInfo
type pathInfo struct {
path string
isDir bool
}
func (cc collisionChecker) check(p string, isDir bool) error {
fold := strToFold(p)
if other, ok := cc[fold]; ok {
if p != other.path {
return fmt.Errorf("case-insensitive file name collision: %q and %q", other.path, p)
}
if isDir != other.isDir {
return fmt.Errorf("entry %q is both a file and a directory", p)
}
if !isDir {
return fmt.Errorf("multiple entries for file %q", p)
}
// It's not an error if check is called with the same directory multiple
// times. check is called recursively on parent directories, so check
// may be called on the same directory many times.
} else {
cc[fold] = pathInfo{path: p, isDir: isDir}
}
if parent := path.Dir(p); parent != "." {
return cc.check(parent, true)
}
return nil
}
// listFilesInDir walks the directory tree rooted at dir and returns a list of
// files, as well as a list of directories and files that were skipped (for
// example, nested modules and symbolic links).
func listFilesInDir(dir string) (files []File, omitted []FileError, err error) {
err = filepath.Walk(dir, func(filePath string, info os.FileInfo, err error) error {
if err != nil {
return err
}
relPath, err := filepath.Rel(dir, filePath)
if err != nil {
return err
}
slashPath := filepath.ToSlash(relPath)
// Skip some subdirectories inside vendor, but maintain bug
// golang.org/issue/31562, described in isVendoredPackage.
// We would like Create and CreateFromDir to produce the same result
// for a set of files, whether expressed as a directory tree or zip.
if isVendoredPackage(slashPath) {
omitted = append(omitted, FileError{Path: slashPath, Err: errVendored})
return nil
}
if info.IsDir() {
if filePath == dir {
// Don't skip the top-level directory.
return nil
}
// Skip VCS directories.
// fossil repos are regular files with arbitrary names, so we don't try
// to exclude them.
switch filepath.Base(filePath) {
case ".bzr", ".git", ".hg", ".svn":
omitted = append(omitted, FileError{Path: slashPath, Err: errVCS})
return filepath.SkipDir
}
// Skip submodules (directories containing go.mod files).
if goModInfo, err := os.Lstat(filepath.Join(filePath, "go.mod")); err == nil && !goModInfo.IsDir() {
omitted = append(omitted, FileError{Path: slashPath, Err: errSubmoduleDir})
return filepath.SkipDir
}
return nil
}
// Skip irregular files and files in vendor directories.
// Irregular files are ignored. They're typically symbolic links.
if !info.Mode().IsRegular() {
omitted = append(omitted, FileError{Path: slashPath, Err: errNotRegular})
return nil
}
files = append(files, dirFile{
filePath: filePath,
slashPath: slashPath,
info: info,
})
return nil
})
if err != nil {
return nil, nil, err
}
return files, omitted, nil
}
type zipError struct {
verb, path string
err error
}
func (e *zipError) Error() string {
if e.path == "" {
return fmt.Sprintf("%s: %v", e.verb, e.err)
} else {
return fmt.Sprintf("%s %s: %v", e.verb, e.path, e.err)
}
}
func (e *zipError) Unwrap() error {
return e.err
}
// strToFold returns a string with the property that
//
// strings.EqualFold(s, t) iff strToFold(s) == strToFold(t)
//
// This lets us test a large set of strings for fold-equivalent
// duplicates without making a quadratic number of calls
// to EqualFold. Note that strings.ToUpper and strings.ToLower
// do not have the desired property in some corner cases.
func strToFold(s string) string {
// Fast path: all ASCII, no upper case.
// Most paths look like this already.
for i := 0; i < len(s); i++ {
c := s[i]
if c >= utf8.RuneSelf || 'A' <= c && c <= 'Z' {
goto Slow
}
}
return s
Slow:
var buf bytes.Buffer
for _, r := range s {
// SimpleFold(x) cycles to the next equivalent rune > x
// or wraps around to smaller values. Iterate until it wraps,
// and we've found the minimum value.
for {
r0 := r
r = unicode.SimpleFold(r0)
if r <= r0 {
break
}
}
// Exception to allow fast path above: A-Z => a-z
if 'A' <= r && r <= 'Z' {
r += 'a' - 'A'
}
buf.WriteRune(r)
}
return buf.String()
}