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restic/internal/filter/filter.go

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package filter
import (
"path/filepath"
"strings"
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"github.com/restic/restic/internal/errors"
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)
// ErrBadString is returned when Match is called with the empty string as the
// second argument.
var ErrBadString = errors.New("filter.Match: string is empty")
type patternPart struct {
pattern string // First is "/" for absolute pattern; "" for "**".
isSimple bool
}
// Pattern represents a preparsed filter pattern
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type Pattern struct {
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original string
parts []patternPart
isNegated bool
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}
func prepareStr(str string) ([]string, error) {
if str == "" {
return nil, ErrBadString
}
return splitPath(str), nil
}
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func preparePattern(patternStr string) Pattern {
var negate bool
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originalPattern := patternStr
if patternStr[0] == '!' {
negate = true
patternStr = patternStr[1:]
}
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pathParts := splitPath(filepath.Clean(patternStr))
parts := make([]patternPart, len(pathParts))
for i, part := range pathParts {
isSimple := !strings.ContainsAny(part, "\\[]*?")
// Replace "**" with the empty string to get faster comparisons
// (length-check only) in hasDoubleWildcard.
if part == "**" {
part = ""
}
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parts[i] = patternPart{part, isSimple}
}
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return Pattern{originalPattern, parts, negate}
}
// Split p into path components. Assuming p has been Cleaned, no component
// will be empty. For absolute paths, the first component is "/".
func splitPath(p string) []string {
parts := strings.Split(filepath.ToSlash(p), "/")
if parts[0] == "" {
parts[0] = "/"
}
return parts
}
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// Match returns true if str matches the pattern. When the pattern is
// malformed, filepath.ErrBadPattern is returned. The empty pattern matches
// everything, when str is the empty string ErrBadString is returned.
//
// Pattern can be a combination of patterns suitable for filepath.Match, joined
// by filepath.Separator.
//
// In addition patterns suitable for filepath.Match, pattern accepts a
// recursive wildcard '**', which greedily matches an arbitrary number of
// intermediate directories.
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func Match(patternStr, str string) (matched bool, err error) {
if patternStr == "" {
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return true, nil
}
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pattern := preparePattern(patternStr)
strs, err := prepareStr(str)
if err != nil {
return false, err
}
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return match(pattern, strs)
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}
// ChildMatch returns true if children of str can match the pattern. When the pattern is
// malformed, filepath.ErrBadPattern is returned. The empty pattern matches
// everything, when str is the empty string ErrBadString is returned.
//
// Pattern can be a combination of patterns suitable for filepath.Match, joined
// by filepath.Separator.
//
// In addition patterns suitable for filepath.Match, pattern accepts a
// recursive wildcard '**', which greedily matches an arbitrary number of
// intermediate directories.
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func ChildMatch(patternStr, str string) (matched bool, err error) {
if patternStr == "" {
return true, nil
}
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pattern := preparePattern(patternStr)
strs, err := prepareStr(str)
if err != nil {
return false, err
}
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return childMatch(pattern, strs)
}
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func childMatch(pattern Pattern, strs []string) (matched bool, err error) {
if pattern.parts[0].pattern != "/" {
// relative pattern can always be nested down
return true, nil
}
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ok, pos := hasDoubleWildcard(pattern)
if ok && len(strs) >= pos {
// cut off at the double wildcard
strs = strs[:pos]
}
// match path against absolute pattern prefix
l := 0
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if len(strs) > len(pattern.parts) {
l = len(pattern.parts)
} else {
l = len(strs)
}
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return match(Pattern{pattern.original, pattern.parts[0:l], pattern.isNegated}, strs)
}
func hasDoubleWildcard(list Pattern) (ok bool, pos int) {
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for i, item := range list.parts {
if item.pattern == "" {
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return true, i
}
}
return false, 0
}
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func match(pattern Pattern, strs []string) (matched bool, err error) {
if ok, pos := hasDoubleWildcard(pattern); ok {
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// gradually expand '**' into separate wildcards
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newPat := make([]patternPart, len(strs))
// copy static prefix once
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copy(newPat, pattern.parts[:pos])
for i := 0; i <= len(strs)-len(pattern.parts)+1; i++ {
// limit to static prefix and already appended '*'
newPat := newPat[:pos+i]
// in the first iteration the wildcard expands to nothing
if i > 0 {
newPat[pos+i-1] = patternPart{"*", false}
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}
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newPat = append(newPat, pattern.parts[pos+1:]...)
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matched, err := match(Pattern{pattern.original, newPat, pattern.isNegated}, strs)
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if err != nil {
return false, err
}
if matched {
return true, nil
}
}
return false, nil
}
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if len(pattern.parts) == 0 && len(strs) == 0 {
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return true, nil
}
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// an empty pattern never matches a non-empty path
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if len(pattern.parts) == 0 {
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return false, nil
}
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if len(pattern.parts) <= len(strs) {
minOffset := 0
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maxOffset := len(strs) - len(pattern.parts)
// special case absolute patterns
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if pattern.parts[0].pattern == "/" {
maxOffset = 0
} else if strs[0] == "/" {
// skip absolute path marker if pattern is not rooted
minOffset = 1
}
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outer:
for offset := maxOffset; offset >= minOffset; offset-- {
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for i := len(pattern.parts) - 1; i >= 0; i-- {
var ok bool
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if pattern.parts[i].isSimple {
ok = pattern.parts[i].pattern == strs[offset+i]
} else {
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ok, err = filepath.Match(pattern.parts[i].pattern, strs[offset+i])
if err != nil {
return false, errors.Wrap(err, "Match")
}
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}
if !ok {
continue outer
}
}
return true, nil
}
}
return false, nil
}
type InvalidPatternError struct {
InvalidPatterns []string
}
func (e *InvalidPatternError) Error() string {
return "invalid pattern(s) provided:\n" + strings.Join(e.InvalidPatterns, "\n")
}
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// ValidatePatterns validates a slice of patterns.
// Returns true if all patterns are valid - false otherwise, along with the invalid patterns.
func ValidatePatterns(patterns []string) error {
invalidPatterns := make([]string, 0)
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for _, Pattern := range ParsePatterns(patterns) {
// Validate all pattern parts
for _, part := range Pattern.parts {
// Validate the pattern part by trying to match it against itself
if _, validErr := filepath.Match(part.pattern, part.pattern); validErr != nil {
invalidPatterns = append(invalidPatterns, Pattern.original)
// If a single part is invalid, stop processing this pattern
continue
}
}
}
if len(invalidPatterns) > 0 {
return &InvalidPatternError{InvalidPatterns: invalidPatterns}
}
return nil
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}
// ParsePatterns prepares a list of patterns for use with List.
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func ParsePatterns(pattern []string) []Pattern {
patpat := make([]Pattern, 0)
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for _, pat := range pattern {
if pat == "" {
continue
}
pats := preparePattern(pat)
patpat = append(patpat, pats)
}
return patpat
}
// List returns true if str matches one of the patterns. Empty patterns are ignored.
func List(patterns []Pattern, str string) (matched bool, err error) {
matched, _, err = list(patterns, false, str)
return matched, err
}
// ListWithChild returns true if str matches one of the patterns. Empty patterns are ignored.
func ListWithChild(patterns []Pattern, str string) (matched bool, childMayMatch bool, err error) {
return list(patterns, true, str)
}
// list returns true if str matches one of the patterns. Empty patterns are ignored.
// Patterns prefixed by "!" are negated: any matching file excluded by a previous pattern
// will become included again.
func list(patterns []Pattern, checkChildMatches bool, str string) (matched bool, childMayMatch bool, err error) {
if len(patterns) == 0 {
return false, false, nil
}
strs, err := prepareStr(str)
if err != nil {
return false, false, err
}
hasNegatedPattern := false
for _, pat := range patterns {
hasNegatedPattern = hasNegatedPattern || pat.isNegated
}
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for _, pat := range patterns {
m, err := match(pat, strs)
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if err != nil {
return false, false, err
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}
var c bool
if checkChildMatches {
c, err = childMatch(pat, strs)
if err != nil {
return false, false, err
}
} else {
c = true
}
if pat.isNegated {
matched = matched && !m
childMayMatch = childMayMatch && !m
} else {
matched = matched || m
childMayMatch = childMayMatch || c
if matched && childMayMatch && !hasNegatedPattern {
// without negative patterns the result cannot change any more
break
}
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}
}
return matched, childMayMatch, nil
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}