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path.go
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// ⚡️ Fiber is an Express inspired web framework written in Go with ☕️
// 📄 Github Repository: https://github.com/gofiber/fiber
// 📌 API Documentation: https://docs.gofiber.io
// ⚠️ This path parser was inspired by ucarion/urlpath (MIT License).
// 💖 Maintained and modified for Fiber by @renewerner87
package fiber
import (
"regexp"
"strconv"
"strings"
"time"
"unicode"
"github.com/gofiber/utils/v2"
"github.com/google/uuid"
)
// routeParser holds the path segments and param names
type routeParser struct {
segs []*routeSegment // the parsed segments of the route
params []string // that parameter names the parsed route
wildCardCount int // number of wildcard parameters, used internally to give the wildcard parameter its number
plusCount int // number of plus parameters, used internally to give the plus parameter its number
}
// paramsSeg holds the segment metadata
type routeSegment struct {
// const information
Const string // constant part of the route
// parameter information
IsParam bool // Truth value that indicates whether it is a parameter or a constant part
ParamName string // name of the parameter for access to it, for wildcards and plus parameters access iterators starting with 1 are added
ComparePart string // search part to find the end of the parameter
PartCount int // how often is the search part contained in the non-param segments? -> necessary for greedy search
IsGreedy bool // indicates whether the parameter is greedy or not, is used with wildcard and plus
IsOptional bool // indicates whether the parameter is optional or not
// common information
IsLast bool // shows if the segment is the last one for the route
HasOptionalSlash bool // segment has the possibility of an optional slash
Constraints []*Constraint // Constraint type if segment is a parameter, if not it will be set to noConstraint by default
Length int // length of the parameter for segment, when its 0 then the length is undetermined
// future TODO: add support for optional groups "/abc(/def)?"
}
// different special routing signs
const (
wildcardParam byte = '*' // indicates an optional greedy parameter
plusParam byte = '+' // indicates a required greedy parameter
optionalParam byte = '?' // concludes a parameter by name and makes it optional
paramStarterChar byte = ':' // start character for a parameter with name
slashDelimiter byte = '/' // separator for the route, unlike the other delimiters this character at the end can be optional
slashDelimiterStr = "/" // separator for the route, unlike the other delimiters this character at the end can be optional
escapeChar byte = '\\' // escape character
paramConstraintStart byte = '<' // start of type constraint for a parameter
paramConstraintEnd byte = '>' // end of type constraint for a parameter
paramConstraintSeparator byte = ';' // separator of type constraints for a parameter
paramConstraintDataStart byte = '(' // start of data of type constraint for a parameter
paramConstraintDataEnd byte = ')' // end of data of type constraint for a parameter
paramConstraintDataSeparator byte = ',' // separator of datas of type constraint for a parameter
)
// TypeConstraint parameter constraint types
type TypeConstraint int16
type Constraint struct {
ID TypeConstraint
RegexCompiler *regexp.Regexp
Data []string
}
const (
noConstraint TypeConstraint = iota + 1
intConstraint
boolConstraint
floatConstraint
alphaConstraint
datetimeConstraint
guidConstraint
minLenConstraint
maxLenConstraint
lenConstraint
betweenLenConstraint
minConstraint
maxConstraint
rangeConstraint
regexConstraint
)
// list of possible parameter and segment delimiter
var (
// slash has a special role, unlike the other parameters it must not be interpreted as a parameter
routeDelimiter = []byte{slashDelimiter, '-', '.'}
// list of greedy parameters
greedyParameters = []byte{wildcardParam, plusParam}
// list of chars for the parameter recognizing
parameterStartChars = []byte{wildcardParam, plusParam, paramStarterChar}
// list of chars of delimiters and the starting parameter name char
parameterDelimiterChars = append([]byte{paramStarterChar, escapeChar}, routeDelimiter...)
// list of chars to find the end of a parameter
parameterEndChars = append([]byte{optionalParam}, parameterDelimiterChars...)
// list of parameter constraint start
parameterConstraintStartChars = []byte{paramConstraintStart}
// list of parameter constraint end
parameterConstraintEndChars = []byte{paramConstraintEnd}
// list of parameter separator
parameterConstraintSeparatorChars = []byte{paramConstraintSeparator}
// list of parameter constraint data start
parameterConstraintDataStartChars = []byte{paramConstraintDataStart}
// list of parameter constraint data end
parameterConstraintDataEndChars = []byte{paramConstraintDataEnd}
// list of parameter constraint data separator
parameterConstraintDataSeparatorChars = []byte{paramConstraintDataSeparator}
)
// RoutePatternMatch checks if a given path matches a Fiber route pattern.
func RoutePatternMatch(path, pattern string, cfg ...Config) bool {
// See logic in (*Route).match and (*App).register
var ctxParams [maxParams]string
config := Config{}
if len(cfg) > 0 {
config = cfg[0]
}
if path == "" {
path = "/"
}
// Cannot have an empty pattern
if pattern == "" {
pattern = "/"
}
// Pattern always start with a '/'
if pattern[0] != '/' {
pattern = "/" + pattern
}
patternPretty := pattern
// Case-sensitive routing, all to lowercase
if !config.CaseSensitive {
patternPretty = utils.ToLower(patternPretty)
path = utils.ToLower(path)
}
// Strict routing, remove trailing slashes
if !config.StrictRouting && len(patternPretty) > 1 {
patternPretty = strings.TrimRight(patternPretty, "/")
}
parser := parseRoute(patternPretty)
if patternPretty == "/" && path == "/" {
return true
// '*' wildcard matches any path
} else if patternPretty == "/*" {
return true
}
// Does this route have parameters
if len(parser.params) > 0 {
if match := parser.getMatch(path, path, &ctxParams, false); match {
return true
}
}
// Check for a simple match
patternPretty = RemoveEscapeChar(patternPretty)
if len(patternPretty) == len(path) && patternPretty == path {
return true
}
// No match
return false
}
// parseRoute analyzes the route and divides it into segments for constant areas and parameters,
// this information is needed later when assigning the requests to the declared routes
func parseRoute(pattern string) routeParser {
parser := routeParser{}
part := ""
for len(pattern) > 0 {
nextParamPosition := findNextParamPosition(pattern)
// handle the parameter part
if nextParamPosition == 0 {
processedPart, seg := parser.analyseParameterPart(pattern)
parser.params, parser.segs, part = append(parser.params, seg.ParamName), append(parser.segs, seg), processedPart
} else {
processedPart, seg := parser.analyseConstantPart(pattern, nextParamPosition)
parser.segs, part = append(parser.segs, seg), processedPart
}
// reduce the pattern by the processed parts
if len(part) == len(pattern) {
break
}
pattern = pattern[len(part):]
}
// mark last segment
if len(parser.segs) > 0 {
parser.segs[len(parser.segs)-1].IsLast = true
}
parser.segs = addParameterMetaInfo(parser.segs)
return parser
}
// addParameterMetaInfo add important meta information to the parameter segments
// to simplify the search for the end of the parameter
func addParameterMetaInfo(segs []*routeSegment) []*routeSegment {
var comparePart string
segLen := len(segs)
// loop from end to begin
for i := segLen - 1; i >= 0; i-- {
// set the compare part for the parameter
if segs[i].IsParam {
// important for finding the end of the parameter
segs[i].ComparePart = RemoveEscapeChar(comparePart)
} else {
comparePart = segs[i].Const
if len(comparePart) > 1 {
comparePart = strings.TrimRight(comparePart, slashDelimiterStr)
}
}
}
// loop from begin to end
for i := 0; i < segLen; i++ {
// check how often the compare part is in the following const parts
if segs[i].IsParam {
// check if parameter segments are directly after each other and if one of them is greedy
// in case the next parameter or the current parameter is not a wildcard it's not greedy, we only want one character
if segLen > i+1 && !segs[i].IsGreedy && segs[i+1].IsParam && !segs[i+1].IsGreedy {
segs[i].Length = 1
}
if segs[i].ComparePart == "" {
continue
}
for j := i + 1; j <= len(segs)-1; j++ {
if !segs[j].IsParam {
// count is important for the greedy match
segs[i].PartCount += strings.Count(segs[j].Const, segs[i].ComparePart)
}
}
// check if the end of the segment is a optional slash and then if the segement is optional or the last one
} else if segs[i].Const[len(segs[i].Const)-1] == slashDelimiter && (segs[i].IsLast || (segLen > i+1 && segs[i+1].IsOptional)) {
segs[i].HasOptionalSlash = true
}
}
return segs
}
// findNextParamPosition search for the next possible parameter start position
func findNextParamPosition(pattern string) int {
nextParamPosition := findNextNonEscapedCharsetPosition(pattern, parameterStartChars)
if nextParamPosition != -1 && len(pattern) > nextParamPosition && pattern[nextParamPosition] != wildcardParam {
// search for parameter characters for the found parameter start,
// if there are more, move the parameter start to the last parameter char
for found := findNextNonEscapedCharsetPosition(pattern[nextParamPosition+1:], parameterStartChars); found == 0; {
nextParamPosition++
if len(pattern) > nextParamPosition {
break
}
}
}
return nextParamPosition
}
// analyseConstantPart find the end of the constant part and create the route segment
func (*routeParser) analyseConstantPart(pattern string, nextParamPosition int) (string, *routeSegment) {
// handle the constant part
processedPart := pattern
if nextParamPosition != -1 {
// remove the constant part until the parameter
processedPart = pattern[:nextParamPosition]
}
constPart := RemoveEscapeChar(processedPart)
return processedPart, &routeSegment{
Const: constPart,
Length: len(constPart),
}
}
// analyseParameterPart find the parameter end and create the route segment
func (routeParser *routeParser) analyseParameterPart(pattern string) (string, *routeSegment) {
isWildCard := pattern[0] == wildcardParam
isPlusParam := pattern[0] == plusParam
var parameterEndPosition int
if strings.ContainsRune(pattern, rune(paramConstraintStart)) && strings.ContainsRune(pattern, rune(paramConstraintEnd)) {
parameterEndPosition = findNextCharsetPositionConstraint(pattern[1:], parameterEndChars)
} else {
parameterEndPosition = findNextNonEscapedCharsetPosition(pattern[1:], parameterEndChars)
}
parameterConstraintStart := -1
parameterConstraintEnd := -1
// handle wildcard end
switch {
case isWildCard, isPlusParam:
parameterEndPosition = 0
case parameterEndPosition == -1:
parameterEndPosition = len(pattern) - 1
case !isInCharset(pattern[parameterEndPosition+1], parameterDelimiterChars):
parameterEndPosition++
}
// find constraint part if exists in the parameter part and remove it
if parameterEndPosition > 0 {
parameterConstraintStart = findNextNonEscapedCharsetPosition(pattern[0:parameterEndPosition], parameterConstraintStartChars)
parameterConstraintEnd = findLastCharsetPosition(pattern[0:parameterEndPosition+1], parameterConstraintEndChars)
}
// cut params part
processedPart := pattern[0 : parameterEndPosition+1]
paramName := RemoveEscapeChar(GetTrimmedParam(processedPart))
// Check has constraint
var constraints []*Constraint
if hasConstraint := parameterConstraintStart != -1 && parameterConstraintEnd != -1; hasConstraint {
constraintString := pattern[parameterConstraintStart+1 : parameterConstraintEnd]
userConstraints := splitNonEscaped(constraintString, string(parameterConstraintSeparatorChars))
constraints = make([]*Constraint, 0, len(userConstraints))
for _, c := range userConstraints {
start := findNextNonEscapedCharsetPosition(c, parameterConstraintDataStartChars)
end := findLastCharsetPosition(c, parameterConstraintDataEndChars)
// Assign constraint
if start != -1 && end != -1 {
constraint := &Constraint{
ID: getParamConstraintType(c[:start]),
}
// remove escapes from data
if constraint.ID != regexConstraint {
constraint.Data = splitNonEscaped(c[start+1:end], string(parameterConstraintDataSeparatorChars))
if len(constraint.Data) == 1 {
constraint.Data[0] = RemoveEscapeChar(constraint.Data[0])
} else if len(constraint.Data) == 2 { // This is fine, we simply expect two parts
constraint.Data[0] = RemoveEscapeChar(constraint.Data[0])
constraint.Data[1] = RemoveEscapeChar(constraint.Data[1])
}
}
// Precompile regex if has regex constraint
if constraint.ID == regexConstraint {
constraint.Data = []string{c[start+1 : end]}
constraint.RegexCompiler = regexp.MustCompile(constraint.Data[0])
}
constraints = append(constraints, constraint)
} else {
constraints = append(constraints, &Constraint{
ID: getParamConstraintType(c),
Data: []string{},
})
}
}
paramName = RemoveEscapeChar(GetTrimmedParam(pattern[0:parameterConstraintStart]))
}
// add access iterator to wildcard and plus
if isWildCard {
routeParser.wildCardCount++
paramName += strconv.Itoa(routeParser.wildCardCount)
} else if isPlusParam {
routeParser.plusCount++
paramName += strconv.Itoa(routeParser.plusCount)
}
segment := &routeSegment{
ParamName: paramName,
IsParam: true,
IsOptional: isWildCard || pattern[parameterEndPosition] == optionalParam,
IsGreedy: isWildCard || isPlusParam,
}
if len(constraints) > 0 {
segment.Constraints = constraints
}
return processedPart, segment
}
// isInCharset check is the given character in the charset list
func isInCharset(searchChar byte, charset []byte) bool {
for _, char := range charset {
if char == searchChar {
return true
}
}
return false
}
// findNextCharsetPosition search the next char position from the charset
func findNextCharsetPosition(search string, charset []byte) int {
nextPosition := -1
for _, char := range charset {
if pos := strings.IndexByte(search, char); pos != -1 && (pos < nextPosition || nextPosition == -1) {
nextPosition = pos
}
}
return nextPosition
}
// findNextCharsetPosition search the last char position from the charset
func findLastCharsetPosition(search string, charset []byte) int {
lastPosition := -1
for _, char := range charset {
if pos := strings.LastIndexByte(search, char); pos != -1 && (pos < lastPosition || lastPosition == -1) {
lastPosition = pos
}
}
return lastPosition
}
// findNextCharsetPositionConstraint search the next char position from the charset
// unlike findNextCharsetPosition, it takes care of constraint start-end chars to parse route pattern
func findNextCharsetPositionConstraint(search string, charset []byte) int {
constraintStart := findNextNonEscapedCharsetPosition(search, parameterConstraintStartChars)
constraintEnd := findNextNonEscapedCharsetPosition(search, parameterConstraintEndChars)
nextPosition := -1
for _, char := range charset {
pos := strings.IndexByte(search, char)
if pos != -1 && (pos < nextPosition || nextPosition == -1) {
if (pos > constraintStart && pos > constraintEnd) || (pos < constraintStart && pos < constraintEnd) {
nextPosition = pos
}
}
}
return nextPosition
}
// findNextNonEscapedCharsetPosition search the next char position from the charset and skip the escaped characters
func findNextNonEscapedCharsetPosition(search string, charset []byte) int {
pos := findNextCharsetPosition(search, charset)
for pos > 0 && search[pos-1] == escapeChar {
if len(search) == pos+1 {
// escaped character is at the end
return -1
}
nextPossiblePos := findNextCharsetPosition(search[pos+1:], charset)
if nextPossiblePos == -1 {
return -1
}
// the previous character is taken into consideration
pos = nextPossiblePos + pos + 1
}
return pos
}
// splitNonEscaped slices s into all substrings separated by sep and returns a slice of the substrings between those separators
// This function also takes a care of escape char when splitting.
func splitNonEscaped(s, sep string) []string {
var result []string
i := findNextNonEscapedCharsetPosition(s, []byte(sep))
for i > -1 {
result = append(result, s[:i])
s = s[i+len(sep):]
i = findNextNonEscapedCharsetPosition(s, []byte(sep))
}
return append(result, s)
}
// getMatch parses the passed url and tries to match it against the route segments and determine the parameter positions
func (routeParser *routeParser) getMatch(detectionPath, path string, params *[maxParams]string, partialCheck bool) bool { //nolint: revive // Accepting a bool param is fine here
var i, paramsIterator, partLen int
for _, segment := range routeParser.segs {
partLen = len(detectionPath)
// check const segment
if !segment.IsParam {
i = segment.Length
// is optional part or the const part must match with the given string
// check if the end of the segment is an optional slash
if segment.HasOptionalSlash && partLen == i-1 && detectionPath == segment.Const[:i-1] {
i--
} else if !(i <= partLen && detectionPath[:i] == segment.Const) {
return false
}
} else {
// determine parameter length
i = findParamLen(detectionPath, segment)
if !segment.IsOptional && i == 0 {
return false
}
// take over the params positions
params[paramsIterator] = path[:i]
if !(segment.IsOptional && i == 0) {
// check constraint
for _, c := range segment.Constraints {
if matched := c.CheckConstraint(params[paramsIterator]); !matched {
return false
}
}
}
paramsIterator++
}
// reduce founded part from the string
if partLen > 0 {
detectionPath, path = detectionPath[i:], path[i:]
}
}
if detectionPath != "" && !partialCheck {
return false
}
return true
}
// findParamLen for the expressjs wildcard behavior (right to left greedy)
// look at the other segments and take what is left for the wildcard from right to left
func findParamLen(s string, segment *routeSegment) int {
if segment.IsLast {
return findParamLenForLastSegment(s, segment)
}
if segment.Length != 0 && len(s) >= segment.Length {
return segment.Length
} else if segment.IsGreedy {
// Search the parameters until the next constant part
// special logic for greedy params
searchCount := strings.Count(s, segment.ComparePart)
if searchCount > 1 {
return findGreedyParamLen(s, searchCount, segment)
}
}
if len(segment.ComparePart) == 1 {
if constPosition := strings.IndexByte(s, segment.ComparePart[0]); constPosition != -1 {
return constPosition
}
} else if constPosition := strings.Index(s, segment.ComparePart); constPosition != -1 {
// if the compare part was found, but contains a slash although this part is not greedy, then it must not match
// example: /api/:param/fixedEnd -> path: /api/123/456/fixedEnd = no match , /api/123/fixedEnd = match
if !segment.IsGreedy && strings.IndexByte(s[:constPosition], slashDelimiter) != -1 {
return 0
}
return constPosition
}
return len(s)
}
// findParamLenForLastSegment get the length of the parameter if it is the last segment
func findParamLenForLastSegment(s string, seg *routeSegment) int {
if !seg.IsGreedy {
if i := strings.IndexByte(s, slashDelimiter); i != -1 {
return i
}
}
return len(s)
}
// findGreedyParamLen get the length of the parameter for greedy segments from right to left
func findGreedyParamLen(s string, searchCount int, segment *routeSegment) int {
// check all from right to left segments
for i := segment.PartCount; i > 0 && searchCount > 0; i-- {
searchCount--
if constPosition := strings.LastIndex(s, segment.ComparePart); constPosition != -1 {
s = s[:constPosition]
} else {
break
}
}
return len(s)
}
// GetTrimmedParam trims the ':' & '?' from a string
func GetTrimmedParam(param string) string {
start := 0
end := len(param)
if end == 0 || param[start] != paramStarterChar { // is not a param
return param
}
start++
if param[end-1] == optionalParam { // is ?
end--
}
return param[start:end]
}
// RemoveEscapeChar remove escape characters
func RemoveEscapeChar(word string) string {
if strings.IndexByte(word, escapeChar) != -1 {
return strings.ReplaceAll(word, string(escapeChar), "")
}
return word
}
func getParamConstraintType(constraintPart string) TypeConstraint {
switch constraintPart {
case ConstraintInt:
return intConstraint
case ConstraintBool:
return boolConstraint
case ConstraintFloat:
return floatConstraint
case ConstraintAlpha:
return alphaConstraint
case ConstraintGUID:
return guidConstraint
case ConstraintMinLen, ConstraintMinLenLower:
return minLenConstraint
case ConstraintMaxLen, ConstraintMaxLenLower:
return maxLenConstraint
case ConstraintLen:
return lenConstraint
case ConstraintBetweenLen, ConstraintBetweenLenLower:
return betweenLenConstraint
case ConstraintMin:
return minConstraint
case ConstraintMax:
return maxConstraint
case ConstraintRange:
return rangeConstraint
case ConstraintDatetime:
return datetimeConstraint
case ConstraintRegex:
return regexConstraint
default:
return noConstraint
}
}
//nolint:errcheck // TODO: Properly check _all_ errors in here, log them & immediately return
func (c *Constraint) CheckConstraint(param string) bool {
var err error
var num int
// check data exists
needOneData := []TypeConstraint{minLenConstraint, maxLenConstraint, lenConstraint, minConstraint, maxConstraint, datetimeConstraint, regexConstraint}
needTwoData := []TypeConstraint{betweenLenConstraint, rangeConstraint}
for _, data := range needOneData {
if c.ID == data && len(c.Data) == 0 {
return false
}
}
for _, data := range needTwoData {
if c.ID == data && len(c.Data) < 2 {
return false
}
}
// check constraints
switch c.ID {
case noConstraint:
// Nothing to check
case intConstraint:
_, err = strconv.Atoi(param)
case boolConstraint:
_, err = strconv.ParseBool(param)
case floatConstraint:
_, err = strconv.ParseFloat(param, 32)
case alphaConstraint:
for _, r := range param {
if !unicode.IsLetter(r) {
return false
}
}
case guidConstraint:
_, err = uuid.Parse(param)
case minLenConstraint:
data, _ := strconv.Atoi(c.Data[0])
if len(param) < data {
return false
}
case maxLenConstraint:
data, _ := strconv.Atoi(c.Data[0])
if len(param) > data {
return false
}
case lenConstraint:
data, _ := strconv.Atoi(c.Data[0])
if len(param) != data {
return false
}
case betweenLenConstraint:
data, _ := strconv.Atoi(c.Data[0])
data2, _ := strconv.Atoi(c.Data[1])
length := len(param)
if length < data || length > data2 {
return false
}
case minConstraint:
data, _ := strconv.Atoi(c.Data[0])
num, err = strconv.Atoi(param)
if num < data {
return false
}
case maxConstraint:
data, _ := strconv.Atoi(c.Data[0])
num, err = strconv.Atoi(param)
if num > data {
return false
}
case rangeConstraint:
data, _ := strconv.Atoi(c.Data[0])
data2, _ := strconv.Atoi(c.Data[1])
num, err = strconv.Atoi(param)
if num < data || num > data2 {
return false
}
case datetimeConstraint:
_, err = time.Parse(c.Data[0], param)
case regexConstraint:
if match := c.RegexCompiler.MatchString(param); !match {
return false
}
}
return err == nil
}