package fileutils // import "github.com/docker/docker/pkg/fileutils" import ( "errors" "fmt" "io" "os" "path/filepath" "regexp" "strings" "text/scanner" "unicode/utf8" ) // escapeBytes is a bitmap used to check whether a character should be escaped when creating the regex. var escapeBytes [8]byte // shouldEscape reports whether a rune should be escaped as part of the regex. // // This only includes characters that require escaping in regex but are also NOT valid filepath pattern characters. // Additionally, '\' is not excluded because there is specific logic to properly handle this, as it's a path separator // on Windows. // // Adapted from regexp::QuoteMeta in go stdlib. // See https://cs.opensource.google/go/go/+/refs/tags/go1.17.2:src/regexp/regexp.go;l=703-715;drc=refs%2Ftags%2Fgo1.17.2 func shouldEscape(b rune) bool { return b < utf8.RuneSelf && escapeBytes[b%8]&(1<<(b/8)) != 0 } func init() { for _, b := range []byte(`.+()|{}$`) { escapeBytes[b%8] |= 1 << (b / 8) } } // PatternMatcher allows checking paths against a list of patterns type PatternMatcher struct { patterns []*Pattern exclusions bool } // NewPatternMatcher creates a new matcher object for specific patterns that can // be used later to match against patterns against paths func NewPatternMatcher(patterns []string) (*PatternMatcher, error) { pm := &PatternMatcher{ patterns: make([]*Pattern, 0, len(patterns)), } for _, p := range patterns { // Eliminate leading and trailing whitespace. p = strings.TrimSpace(p) if p == "" { continue } p = filepath.Clean(p) newp := &Pattern{} if p[0] == '!' { if len(p) == 1 { return nil, errors.New("illegal exclusion pattern: \"!\"") } newp.exclusion = true p = p[1:] pm.exclusions = true } // Do some syntax checking on the pattern. // filepath's Match() has some really weird rules that are inconsistent // so instead of trying to dup their logic, just call Match() for its // error state and if there is an error in the pattern return it. // If this becomes an issue we can remove this since its really only // needed in the error (syntax) case - which isn't really critical. if _, err := filepath.Match(p, "."); err != nil { return nil, err } newp.cleanedPattern = p newp.dirs = strings.Split(p, string(os.PathSeparator)) pm.patterns = append(pm.patterns, newp) } return pm, nil } // Matches returns true if "file" matches any of the patterns // and isn't excluded by any of the subsequent patterns. // // The "file" argument should be a slash-delimited path. // // Matches is not safe to call concurrently. // // Deprecated: This implementation is buggy (it only checks a single parent dir // against the pattern) and will be removed soon. Use either // MatchesOrParentMatches or MatchesUsingParentResults instead. func (pm *PatternMatcher) Matches(file string) (bool, error) { matched := false file = filepath.FromSlash(file) parentPath := filepath.Dir(file) parentPathDirs := strings.Split(parentPath, string(os.PathSeparator)) for _, pattern := range pm.patterns { // Skip evaluation if this is an inclusion and the filename // already matched the pattern, or it's an exclusion and it has // not matched the pattern yet. if pattern.exclusion != matched { continue } match, err := pattern.match(file) if err != nil { return false, err } if !match && parentPath != "." { // Check to see if the pattern matches one of our parent dirs. if len(pattern.dirs) <= len(parentPathDirs) { match, _ = pattern.match(strings.Join(parentPathDirs[:len(pattern.dirs)], string(os.PathSeparator))) } } if match { matched = !pattern.exclusion } } return matched, nil } // MatchesOrParentMatches returns true if "file" matches any of the patterns // and isn't excluded by any of the subsequent patterns. // // The "file" argument should be a slash-delimited path. // // Matches is not safe to call concurrently. func (pm *PatternMatcher) MatchesOrParentMatches(file string) (bool, error) { matched := false file = filepath.FromSlash(file) parentPath := filepath.Dir(file) parentPathDirs := strings.Split(parentPath, string(os.PathSeparator)) for _, pattern := range pm.patterns { // Skip evaluation if this is an inclusion and the filename // already matched the pattern, or it's an exclusion and it has // not matched the pattern yet. if pattern.exclusion != matched { continue } match, err := pattern.match(file) if err != nil { return false, err } if !match && parentPath != "." { // Check to see if the pattern matches one of our parent dirs. for i := range parentPathDirs { match, _ = pattern.match(strings.Join(parentPathDirs[:i+1], string(os.PathSeparator))) if match { break } } } if match { matched = !pattern.exclusion } } return matched, nil } // MatchesUsingParentResult returns true if "file" matches any of the patterns // and isn't excluded by any of the subsequent patterns. The functionality is // the same as Matches, but as an optimization, the caller keeps track of // whether the parent directory matched. // // The "file" argument should be a slash-delimited path. // // MatchesUsingParentResult is not safe to call concurrently. // // Deprecated: this function does behave correctly in some cases (see // https://github.com/docker/buildx/issues/850). // // Use MatchesUsingParentResults instead. func (pm *PatternMatcher) MatchesUsingParentResult(file string, parentMatched bool) (bool, error) { matched := parentMatched file = filepath.FromSlash(file) for _, pattern := range pm.patterns { // Skip evaluation if this is an inclusion and the filename // already matched the pattern, or it's an exclusion and it has // not matched the pattern yet. if pattern.exclusion != matched { continue } match, err := pattern.match(file) if err != nil { return false, err } if match { matched = !pattern.exclusion } } return matched, nil } // MatchInfo tracks information about parent dir matches while traversing a // filesystem. type MatchInfo struct { parentMatched []bool } // MatchesUsingParentResults returns true if "file" matches any of the patterns // and isn't excluded by any of the subsequent patterns. The functionality is // the same as Matches, but as an optimization, the caller passes in // intermediate results from matching the parent directory. // // The "file" argument should be a slash-delimited path. // // MatchesUsingParentResults is not safe to call concurrently. func (pm *PatternMatcher) MatchesUsingParentResults(file string, parentMatchInfo MatchInfo) (bool, MatchInfo, error) { parentMatched := parentMatchInfo.parentMatched if len(parentMatched) != 0 && len(parentMatched) != len(pm.patterns) { return false, MatchInfo{}, errors.New("wrong number of values in parentMatched") } file = filepath.FromSlash(file) matched := false matchInfo := MatchInfo{ parentMatched: make([]bool, len(pm.patterns)), } for i, pattern := range pm.patterns { match := false // If the parent matched this pattern, we don't need to recheck. if len(parentMatched) != 0 { match = parentMatched[i] } if !match { // Skip evaluation if this is an inclusion and the filename // already matched the pattern, or it's an exclusion and it has // not matched the pattern yet. if pattern.exclusion != matched { continue } var err error match, err = pattern.match(file) if err != nil { return false, matchInfo, err } // If the zero value of MatchInfo was passed in, we don't have // any information about the parent dir's match results, and we // apply the same logic as MatchesOrParentMatches. if len(parentMatched) == 0 { if parentPath := filepath.Dir(file); parentPath != "." { parentPathDirs := strings.Split(parentPath, string(os.PathSeparator)) // Check to see if the pattern matches one of our parent dirs. for i := range parentPathDirs { match, _ = pattern.match(strings.Join(parentPathDirs[:i+1], string(os.PathSeparator))) if match { break } } } } } matchInfo.parentMatched[i] = match if match { matched = !pattern.exclusion } } return matched, matchInfo, nil } // Exclusions returns true if any of the patterns define exclusions func (pm *PatternMatcher) Exclusions() bool { return pm.exclusions } // Patterns returns array of active patterns func (pm *PatternMatcher) Patterns() []*Pattern { return pm.patterns } // Pattern defines a single regexp used to filter file paths. type Pattern struct { cleanedPattern string dirs []string regexp *regexp.Regexp exclusion bool } func (p *Pattern) String() string { return p.cleanedPattern } // Exclusion returns true if this pattern defines exclusion func (p *Pattern) Exclusion() bool { return p.exclusion } func (p *Pattern) match(path string) (bool, error) { if p.regexp == nil { if err := p.compile(); err != nil { return false, filepath.ErrBadPattern } } b := p.regexp.MatchString(path) return b, nil } func (p *Pattern) compile() error { regStr := "^" pattern := p.cleanedPattern // Go through the pattern and convert it to a regexp. // We use a scanner so we can support utf-8 chars. var scan scanner.Scanner scan.Init(strings.NewReader(pattern)) sl := string(os.PathSeparator) escSL := sl if sl == `\` { escSL += `\` } for scan.Peek() != scanner.EOF { ch := scan.Next() if ch == '*' { if scan.Peek() == '*' { // is some flavor of "**" scan.Next() // Treat **/ as ** so eat the "/" if string(scan.Peek()) == sl { scan.Next() } if scan.Peek() == scanner.EOF { // is "**EOF" - to align with .gitignore just accept all regStr += ".*" } else { // is "**" // Note that this allows for any # of /'s (even 0) because // the .* will eat everything, even /'s regStr += "(.*" + escSL + ")?" } } else { // is "*" so map it to anything but "/" regStr += "[^" + escSL + "]*" } } else if ch == '?' { // "?" is any char except "/" regStr += "[^" + escSL + "]" } else if shouldEscape(ch) { // Escape some regexp special chars that have no meaning // in golang's filepath.Match regStr += `\` + string(ch) } else if ch == '\\' { // escape next char. Note that a trailing \ in the pattern // will be left alone (but need to escape it) if sl == `\` { // On windows map "\" to "\\", meaning an escaped backslash, // and then just continue because filepath.Match on // Windows doesn't allow escaping at all regStr += escSL continue } if scan.Peek() != scanner.EOF { regStr += `\` + string(scan.Next()) } else { regStr += `\` } } else { regStr += string(ch) } } regStr += "$" re, err := regexp.Compile(regStr) if err != nil { return err } p.regexp = re return nil } // Matches returns true if file matches any of the patterns // and isn't excluded by any of the subsequent patterns. // // This implementation is buggy (it only checks a single parent dir against the // pattern) and will be removed soon. Use MatchesOrParentMatches instead. func Matches(file string, patterns []string) (bool, error) { pm, err := NewPatternMatcher(patterns) if err != nil { return false, err } file = filepath.Clean(file) if file == "." { // Don't let them exclude everything, kind of silly. return false, nil } return pm.Matches(file) } // MatchesOrParentMatches returns true if file matches any of the patterns // and isn't excluded by any of the subsequent patterns. func MatchesOrParentMatches(file string, patterns []string) (bool, error) { pm, err := NewPatternMatcher(patterns) if err != nil { return false, err } file = filepath.Clean(file) if file == "." { // Don't let them exclude everything, kind of silly. return false, nil } return pm.MatchesOrParentMatches(file) } // CopyFile copies from src to dst until either EOF is reached // on src or an error occurs. It verifies src exists and removes // the dst if it exists. func CopyFile(src, dst string) (int64, error) { cleanSrc := filepath.Clean(src) cleanDst := filepath.Clean(dst) if cleanSrc == cleanDst { return 0, nil } sf, err := os.Open(cleanSrc) if err != nil { return 0, err } defer sf.Close() if err := os.Remove(cleanDst); err != nil && !os.IsNotExist(err) { return 0, err } df, err := os.Create(cleanDst) if err != nil { return 0, err } defer df.Close() return io.Copy(df, sf) } // ReadSymlinkedDirectory returns the target directory of a symlink. // The target of the symbolic link may not be a file. func ReadSymlinkedDirectory(path string) (string, error) { var realPath string var err error if realPath, err = filepath.Abs(path); err != nil { return "", fmt.Errorf("unable to get absolute path for %s: %s", path, err) } if realPath, err = filepath.EvalSymlinks(realPath); err != nil { return "", fmt.Errorf("failed to canonicalise path for %s: %s", path, err) } realPathInfo, err := os.Stat(realPath) if err != nil { return "", fmt.Errorf("failed to stat target '%s' of '%s': %s", realPath, path, err) } if !realPathInfo.Mode().IsDir() { return "", fmt.Errorf("canonical path points to a file '%s'", realPath) } return realPath, nil } // CreateIfNotExists creates a file or a directory only if it does not already exist. func CreateIfNotExists(path string, isDir bool) error { if _, err := os.Stat(path); err != nil { if os.IsNotExist(err) { if isDir { return os.MkdirAll(path, 0755) } if err := os.MkdirAll(filepath.Dir(path), 0755); err != nil { return err } f, err := os.OpenFile(path, os.O_CREATE, 0755) if err != nil { return err } f.Close() } } return nil }