vendor/github.com/emicklei/go-restful/jsr311.go - cloudstack-kubernetes-provider - Git at Google

 package restful

 // Copyright 2013 Ernest Micklei. All rights reserved.
 // Use of this source code is governed by a license
 // that can be found in the LICENSE file.

 import (
 	"errors"
 	"fmt"
 	"net/http"
 	"sort"
 )

 // RouterJSR311 implements the flow for matching Requests to Routes (and consequently Resource Functions)
 // as specified by the JSR311 http://jsr311.java.net/nonav/releases/1.1/spec/spec.html.
 // RouterJSR311 implements the Router interface.
 // Concept of locators is not implemented.
 type RouterJSR311 struct{}

 // SelectRoute is part of the Router interface and returns the best match
 // for the WebService and its Route for the given Request.
 func (r RouterJSR311) SelectRoute(
 	webServices []*WebService,
 	httpRequest *http.Request) (selectedService *WebService, selectedRoute *Route, err error) {

 	// Identify the root resource class (WebService)
 	dispatcher, finalMatch, err := r.detectDispatcher(httpRequest.URL.Path, webServices)
 	if err != nil {
 		return nil, nil, NewError(http.StatusNotFound, "")
 	}
 	// Obtain the set of candidate methods (Routes)
 	routes := r.selectRoutes(dispatcher, finalMatch)
 	if len(routes) == 0 {
 		return dispatcher, nil, NewError(http.StatusNotFound, "404: Page Not Found")
 	}

 	// Identify the method (Route) that will handle the request
 	route, ok := r.detectRoute(routes, httpRequest)
 	return dispatcher, route, ok
 }

 // http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2
 func (r RouterJSR311) detectRoute(routes []Route, httpRequest *http.Request) (*Route, error) {
 	// http method
 	methodOk := []Route{}
 	for _, each := range routes {
 		if httpRequest.Method == each.Method {
 			methodOk = append(methodOk, each)
 		}
 	}
 	if len(methodOk) == 0 {
 		if trace {
 			traceLogger.Printf("no Route found (in %d routes) that matches HTTP method %s\n", len(routes), httpRequest.Method)
 		}
 		return nil, NewError(http.StatusMethodNotAllowed, "405: Method Not Allowed")
 	}
 	inputMediaOk := methodOk

 	// content-type
 	contentType := httpRequest.Header.Get(HEADER_ContentType)
 	inputMediaOk = []Route{}
 	for _, each := range methodOk {
 		if each.matchesContentType(contentType) {
 			inputMediaOk = append(inputMediaOk, each)
 		}
 	}
 	if len(inputMediaOk) == 0 {
 		if trace {
 			traceLogger.Printf("no Route found (from %d) that matches HTTP Content-Type: %s\n", len(methodOk), contentType)
 		}
 		return nil, NewError(http.StatusUnsupportedMediaType, "415: Unsupported Media Type")
 	}

 	// accept
 	outputMediaOk := []Route{}
 	accept := httpRequest.Header.Get(HEADER_Accept)
 	if len(accept) == 0 {
 		accept = "*/*"
 	}
 	for _, each := range inputMediaOk {
 		if each.matchesAccept(accept) {
 			outputMediaOk = append(outputMediaOk, each)
 		}
 	}
 	if len(outputMediaOk) == 0 {
 		if trace {
 			traceLogger.Printf("no Route found (from %d) that matches HTTP Accept: %s\n", len(inputMediaOk), accept)
 		}
 		return nil, NewError(http.StatusNotAcceptable, "406: Not Acceptable")
 	}
 	// return r.bestMatchByMedia(outputMediaOk, contentType, accept), nil
 	return &outputMediaOk[0], nil
 }

 // http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2
 // n/m > n/* > */*
 func (r RouterJSR311) bestMatchByMedia(routes []Route, contentType string, accept string) *Route {
 	// TODO
 	return &routes[0]
 }

 // http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2  (step 2)
 func (r RouterJSR311) selectRoutes(dispatcher *WebService, pathRemainder string) []Route {
 	filtered := &sortableRouteCandidates{}
 	for _, each := range dispatcher.Routes() {
 		pathExpr := each.pathExpr
 		matches := pathExpr.Matcher.FindStringSubmatch(pathRemainder)
 		if matches != nil {
 			lastMatch := matches[len(matches)-1]
 			if len(lastMatch) == 0 || lastMatch == "/" { // do not include if value is neither empty nor ‘/’.
 				filtered.candidates = append(filtered.candidates,
 					routeCandidate{each, len(matches) - 1, pathExpr.LiteralCount, pathExpr.VarCount})
 			}
 		}
 	}
 	if len(filtered.candidates) == 0 {
 		if trace {
 			traceLogger.Printf("WebService on path %s has no routes that match URL path remainder:%s\n", dispatcher.rootPath, pathRemainder)
 		}
 		return []Route{}
 	}
 	sort.Sort(sort.Reverse(filtered))

 	// select other routes from candidates whoes expression matches rmatch
 	matchingRoutes := []Route{filtered.candidates[0].route}
 	for c := 1; c < len(filtered.candidates); c++ {
 		each := filtered.candidates[c]
 		if each.route.pathExpr.Matcher.MatchString(pathRemainder) {
 			matchingRoutes = append(matchingRoutes, each.route)
 		}
 	}
 	return matchingRoutes
 }

 // http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2 (step 1)
 func (r RouterJSR311) detectDispatcher(requestPath string, dispatchers []*WebService) (*WebService, string, error) {
 	filtered := &sortableDispatcherCandidates{}
 	for _, each := range dispatchers {
 		matches := each.pathExpr.Matcher.FindStringSubmatch(requestPath)
 		if matches != nil {
 			filtered.candidates = append(filtered.candidates,
 				dispatcherCandidate{each, matches[len(matches)-1], len(matches), each.pathExpr.LiteralCount, each.pathExpr.VarCount})
 		}
 	}
 	if len(filtered.candidates) == 0 {
 		if trace {
 			traceLogger.Printf("no WebService was found to match URL path:%s\n", requestPath)
 		}
 		return nil, "", errors.New("not found")
 	}
 	sort.Sort(sort.Reverse(filtered))
 	return filtered.candidates[0].dispatcher, filtered.candidates[0].finalMatch, nil
 }

 // Types and functions to support the sorting of Routes

 type routeCandidate struct {
 	route           Route
 	matchesCount    int // the number of capturing groups
 	literalCount    int // the number of literal characters (means those not resulting from template variable substitution)
 	nonDefaultCount int // the number of capturing groups with non-default regular expressions (i.e. not ‘([^  /]+?)’)
 }

 func (r routeCandidate) expressionToMatch() string {
 	return r.route.pathExpr.Source
 }

 func (r routeCandidate) String() string {
 	return fmt.Sprintf("(m=%d,l=%d,n=%d)", r.matchesCount, r.literalCount, r.nonDefaultCount)
 }

 type sortableRouteCandidates struct {
 	candidates []routeCandidate
 }

 func (rcs *sortableRouteCandidates) Len() int {
 	return len(rcs.candidates)
 }
 func (rcs *sortableRouteCandidates) Swap(i, j int) {
 	rcs.candidates[i], rcs.candidates[j] = rcs.candidates[j], rcs.candidates[i]
 }
 func (rcs *sortableRouteCandidates) Less(i, j int) bool {
 	ci := rcs.candidates[i]
 	cj := rcs.candidates[j]
 	// primary key
 	if ci.literalCount < cj.literalCount {
 		return true
 	}
 	if ci.literalCount > cj.literalCount {
 		return false
 	}
 	// secundary key
 	if ci.matchesCount < cj.matchesCount {
 		return true
 	}
 	if ci.matchesCount > cj.matchesCount {
 		return false
 	}
 	// tertiary key
 	if ci.nonDefaultCount < cj.nonDefaultCount {
 		return true
 	}
 	if ci.nonDefaultCount > cj.nonDefaultCount {
 		return false
 	}
 	// quaternary key ("source" is interpreted as Path)
 	return ci.route.Path < cj.route.Path
 }

 // Types and functions to support the sorting of Dispatchers

 type dispatcherCandidate struct {
 	dispatcher      *WebService
 	finalMatch      string
 	matchesCount    int // the number of capturing groups
 	literalCount    int // the number of literal characters (means those not resulting from template variable substitution)
 	nonDefaultCount int // the number of capturing groups with non-default regular expressions (i.e. not ‘([^  /]+?)’)
 }
 type sortableDispatcherCandidates struct {
 	candidates []dispatcherCandidate
 }

 func (dc *sortableDispatcherCandidates) Len() int {
 	return len(dc.candidates)
 }
 func (dc *sortableDispatcherCandidates) Swap(i, j int) {
 	dc.candidates[i], dc.candidates[j] = dc.candidates[j], dc.candidates[i]
 }
 func (dc *sortableDispatcherCandidates) Less(i, j int) bool {
 	ci := dc.candidates[i]
 	cj := dc.candidates[j]
 	// primary key
 	if ci.matchesCount < cj.matchesCount {
 		return true
 	}
 	if ci.matchesCount > cj.matchesCount {
 		return false
 	}
 	// secundary key
 	if ci.literalCount < cj.literalCount {
 		return true
 	}
 	if ci.literalCount > cj.literalCount {
 		return false
 	}
 	// tertiary key
 	return ci.nonDefaultCount < cj.nonDefaultCount
 }
	package restful

	// Copyright 2013 Ernest Micklei. All rights reserved.
	// Use of this source code is governed by a license
	// that can be found in the LICENSE file.

	import (
	"errors"
	"fmt"
	"net/http"
	"sort"
	)

	// RouterJSR311 implements the flow for matching Requests to Routes (and consequently Resource Functions)
	// as specified by the JSR311 http://jsr311.java.net/nonav/releases/1.1/spec/spec.html.
	// RouterJSR311 implements the Router interface.
	// Concept of locators is not implemented.
	type RouterJSR311 struct{}

	// SelectRoute is part of the Router interface and returns the best match
	// for the WebService and its Route for the given Request.
	func (r RouterJSR311) SelectRoute(
	webServices []*WebService,
	httpRequest http.Request) (selectedService WebService, selectedRoute *Route, err error) {

	// Identify the root resource class (WebService)
	dispatcher, finalMatch, err := r.detectDispatcher(httpRequest.URL.Path, webServices)
	if err != nil {
	return nil, nil, NewError(http.StatusNotFound, "")
	}
	// Obtain the set of candidate methods (Routes)
	routes := r.selectRoutes(dispatcher, finalMatch)
	if len(routes) == 0 {
	return dispatcher, nil, NewError(http.StatusNotFound, "404: Page Not Found")
	}

	// Identify the method (Route) that will handle the request
	route, ok := r.detectRoute(routes, httpRequest)
	return dispatcher, route, ok
	}

	// http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2
	func (r RouterJSR311) detectRoute(routes []Route, httpRequest http.Request) (Route, error) {
	// http method
	methodOk := []Route{}
	for _, each := range routes {
	if httpRequest.Method == each.Method {
	methodOk = append(methodOk, each)
	}
	}
	if len(methodOk) == 0 {
	if trace {
	traceLogger.Printf("no Route found (in %d routes) that matches HTTP method %s\n", len(routes), httpRequest.Method)
	}
	return nil, NewError(http.StatusMethodNotAllowed, "405: Method Not Allowed")
	}
	inputMediaOk := methodOk

	// content-type
	contentType := httpRequest.Header.Get(HEADER_ContentType)
	inputMediaOk = []Route{}
	for _, each := range methodOk {
	if each.matchesContentType(contentType) {
	inputMediaOk = append(inputMediaOk, each)
	}
	}
	if len(inputMediaOk) == 0 {
	if trace {
	traceLogger.Printf("no Route found (from %d) that matches HTTP Content-Type: %s\n", len(methodOk), contentType)
	}
	return nil, NewError(http.StatusUnsupportedMediaType, "415: Unsupported Media Type")
	}

	// accept
	outputMediaOk := []Route{}
	accept := httpRequest.Header.Get(HEADER_Accept)
	if len(accept) == 0 {
	accept = "/"
	}
	for _, each := range inputMediaOk {
	if each.matchesAccept(accept) {
	outputMediaOk = append(outputMediaOk, each)
	}
	}
	if len(outputMediaOk) == 0 {
	if trace {
	traceLogger.Printf("no Route found (from %d) that matches HTTP Accept: %s\n", len(inputMediaOk), accept)
	}
	return nil, NewError(http.StatusNotAcceptable, "406: Not Acceptable")
	}
	// return r.bestMatchByMedia(outputMediaOk, contentType, accept), nil
	return &outputMediaOk[0], nil
	}

	// http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2
	// n/m > n/* > /
	func (r RouterJSR311) bestMatchByMedia(routes []Route, contentType string, accept string) *Route {
	// TODO
	return &routes[0]
	}

	// http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2 (step 2)
	func (r RouterJSR311) selectRoutes(dispatcher *WebService, pathRemainder string) []Route {
	filtered := &sortableRouteCandidates{}
	for _, each := range dispatcher.Routes() {
	pathExpr := each.pathExpr
	matches := pathExpr.Matcher.FindStringSubmatch(pathRemainder)
	if matches != nil {
	lastMatch := matches[len(matches)-1]
	if len(lastMatch) == 0 \|\| lastMatch == "/" { // do not include if value is neither empty nor ‘/’.
	filtered.candidates = append(filtered.candidates,
	routeCandidate{each, len(matches) - 1, pathExpr.LiteralCount, pathExpr.VarCount})
	}
	}
	}
	if len(filtered.candidates) == 0 {
	if trace {
	traceLogger.Printf("WebService on path %s has no routes that match URL path remainder:%s\n", dispatcher.rootPath, pathRemainder)
	}
	return []Route{}
	}
	sort.Sort(sort.Reverse(filtered))

	// select other routes from candidates whoes expression matches rmatch
	matchingRoutes := []Route{filtered.candidates[0].route}
	for c := 1; c < len(filtered.candidates); c++ {
	each := filtered.candidates[c]
	if each.route.pathExpr.Matcher.MatchString(pathRemainder) {
	matchingRoutes = append(matchingRoutes, each.route)
	}
	}
	return matchingRoutes
	}

	// http://jsr311.java.net/nonav/releases/1.1/spec/spec3.html#x3-360003.7.2 (step 1)
	func (r RouterJSR311) detectDispatcher(requestPath string, dispatchers []WebService) (WebService, string, error) {
	filtered := &sortableDispatcherCandidates{}
	for _, each := range dispatchers {
	matches := each.pathExpr.Matcher.FindStringSubmatch(requestPath)
	if matches != nil {
	filtered.candidates = append(filtered.candidates,
	dispatcherCandidate{each, matches[len(matches)-1], len(matches), each.pathExpr.LiteralCount, each.pathExpr.VarCount})
	}
	}
	if len(filtered.candidates) == 0 {
	if trace {
	traceLogger.Printf("no WebService was found to match URL path:%s\n", requestPath)
	}
	return nil, "", errors.New("not found")
	}
	sort.Sort(sort.Reverse(filtered))
	return filtered.candidates[0].dispatcher, filtered.candidates[0].finalMatch, nil
	}

	// Types and functions to support the sorting of Routes

	type routeCandidate struct {
	route Route
	matchesCount int // the number of capturing groups
	literalCount int // the number of literal characters (means those not resulting from template variable substitution)
	nonDefaultCount int // the number of capturing groups with non-default regular expressions (i.e. not ‘([^ /]+?)’)
	}

	func (r routeCandidate) expressionToMatch() string {
	return r.route.pathExpr.Source
	}

	func (r routeCandidate) String() string {
	return fmt.Sprintf("(m=%d,l=%d,n=%d)", r.matchesCount, r.literalCount, r.nonDefaultCount)
	}

	type sortableRouteCandidates struct {
	candidates []routeCandidate
	}

	func (rcs *sortableRouteCandidates) Len() int {
	return len(rcs.candidates)
	}
	func (rcs *sortableRouteCandidates) Swap(i, j int) {
	rcs.candidates[i], rcs.candidates[j] = rcs.candidates[j], rcs.candidates[i]
	}
	func (rcs *sortableRouteCandidates) Less(i, j int) bool {
	ci := rcs.candidates[i]
	cj := rcs.candidates[j]
	// primary key
	if ci.literalCount < cj.literalCount {
	return true
	}
	if ci.literalCount > cj.literalCount {
	return false
	}
	// secundary key
	if ci.matchesCount < cj.matchesCount {
	return true
	}
	if ci.matchesCount > cj.matchesCount {
	return false
	}
	// tertiary key
	if ci.nonDefaultCount < cj.nonDefaultCount {
	return true
	}
	if ci.nonDefaultCount > cj.nonDefaultCount {
	return false
	}
	// quaternary key ("source" is interpreted as Path)
	return ci.route.Path < cj.route.Path
	}

	// Types and functions to support the sorting of Dispatchers

	type dispatcherCandidate struct {
	dispatcher *WebService
	finalMatch string
	matchesCount int // the number of capturing groups
	literalCount int // the number of literal characters (means those not resulting from template variable substitution)
	nonDefaultCount int // the number of capturing groups with non-default regular expressions (i.e. not ‘([^ /]+?)’)
	}
	type sortableDispatcherCandidates struct {
	candidates []dispatcherCandidate
	}

	func (dc *sortableDispatcherCandidates) Len() int {
	return len(dc.candidates)
	}
	func (dc *sortableDispatcherCandidates) Swap(i, j int) {
	dc.candidates[i], dc.candidates[j] = dc.candidates[j], dc.candidates[i]
	}
	func (dc *sortableDispatcherCandidates) Less(i, j int) bool {
	ci := dc.candidates[i]
	cj := dc.candidates[j]
	// primary key
	if ci.matchesCount < cj.matchesCount {
	return true
	}
	if ci.matchesCount > cj.matchesCount {
	return false
	}
	// secundary key
	if ci.literalCount < cj.literalCount {
	return true
	}
	if ci.literalCount > cj.literalCount {
	return false
	}
	// tertiary key
	return ci.nonDefaultCount < cj.nonDefaultCount
	}