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router.go
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router.go
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package rev
import (
"io/ioutil"
"net/http"
"net/url"
"path"
"regexp"
"strings"
)
type Route struct {
method string // e.g. GET
path string // e.g. /app/{id}
action string // e.g. Application.ShowApp
pathPattern *regexp.Regexp // for matching the url path
staticDir string // e.g. "public" from action "staticDir:public"
args []*arg // e.g. {id} from path /app/{id}
actionArgs []string
actionPattern *regexp.Regexp
}
type RouteMatch struct {
Action string // e.g. Application.ShowApp
ControllerName string // e.g. Application
MethodName string // e.g. ShowApp
Params map[string]string // e.g. {id: 123}
StaticFilename string
}
type arg struct {
name string
index int
constraint *regexp.Regexp
}
// TODO: Use exp/regexp and named groups e.g. (?P<name>a)
var nakedPathParamRegex *regexp.Regexp = regexp.MustCompile(`\{([a-zA-Z_][a-zA-Z_0-9]*)\}`)
var argsPattern *regexp.Regexp = regexp.MustCompile(`\{<(?P<pattern>[^>]+)>(?P<var>[a-zA-Z_0-9]+)\}`)
// Prepares the route to be used in matching.
func NewRoute(method, path, action string) (r *Route) {
r = &Route{
method: strings.ToUpper(method),
path: path,
action: action,
}
// Handle static routes
if strings.HasPrefix(r.action, "staticDir:") {
if r.method != "*" && r.method != "GET" {
LOG.Print("W: Static route only supports GET")
return
}
if !strings.HasSuffix(r.path, "/") {
LOG.Printf("W: The path for staticDir must end with / (%s)", r.path)
r.path = r.path + "/"
}
r.pathPattern = regexp.MustCompile("^" + r.path + "(.*)$")
r.staticDir = r.action[len("staticDir:"):]
// TODO: staticFile:
return
}
// URL pattern
// TODO: Support non-absolute paths
if !strings.HasPrefix(r.path, "/") {
LOG.Print("E: Absolute URL required.")
return
}
// Handle embedded arguments
// Convert path arguments with unspecified regexes to standard form.
// e.g. "/customer/{id}" => "/customer/{<[^/]+>id}
normPath := nakedPathParamRegex.ReplaceAllStringFunc(r.path, func(m string) string {
var argMatches []string = nakedPathParamRegex.FindStringSubmatch(m)
return "{<[^/]+>" + argMatches[1] + "}"
})
// Go through the arguments
r.args = make([]*arg, 0, 3)
for i, m := range argsPattern.FindAllStringSubmatch(normPath, -1) {
r.args = append(r.args, &arg{
name: string(m[2]),
index: i,
constraint: regexp.MustCompile(string(m[1])),
})
}
// Now assemble the entire path regex, including the embedded parameters.
// e.g. /app/{<[^/]+>id} => /app/(?P<id>[^/]+)
pathPatternStr := argsPattern.ReplaceAllStringFunc(normPath, func(m string) string {
var argMatches []string = argsPattern.FindStringSubmatch(m)
return "(?P<" + argMatches[2] + ">" + argMatches[1] + ")"
})
r.pathPattern = regexp.MustCompile(pathPatternStr + "$")
// Handle action
var actionPatternStr string = strings.Replace(r.action, ".", `\.`, -1)
for _, arg := range r.args {
var argName string = "{" + arg.name + "}"
if argIndex := strings.Index(actionPatternStr, argName); argIndex != -1 {
actionPatternStr = strings.Replace(actionPatternStr, argName,
"(?P<"+arg.name+">"+arg.constraint.String()+")", -1)
r.actionArgs = append(r.actionArgs, arg.name)
}
}
r.actionPattern = regexp.MustCompile(actionPatternStr)
return
}
// Return nil if no match.
func (r *Route) Match(method string, reqPath string) *RouteMatch {
// Check the Method
if r.method != "*" && method != r.method && !(method == "HEAD" && r.method == "GET") {
return nil
}
// Check the Path
var matches []string = r.pathPattern.FindStringSubmatch(reqPath)
if matches == nil {
return nil
}
// If it's a static file request..
if r.staticDir != "" {
return &RouteMatch{
StaticFilename: path.Join(BasePath, r.staticDir, matches[1]),
}
}
// Figure out the Param names.
params := make(map[string]string)
for i, m := range matches[1:] {
params[r.pathPattern.SubexpNames()[i+1]] = m
}
// If the action is variablized, replace into it with the captured args.
action := r.action
if strings.Contains(action, "{") {
for key, value := range params {
action = strings.Replace(action, "{"+key+"}", value, -1)
}
}
// Split the action into controller and method
actionSplit := strings.Split(action, ".")
if len(actionSplit) != 2 {
LOG.Printf("E: Failed to split action: %s", r.action)
return nil
}
return &RouteMatch{
Action: action,
ControllerName: actionSplit[0],
MethodName: actionSplit[1],
Params: params,
}
}
type Router struct {
routes []*Route
}
func (router *Router) Route(req *http.Request) *RouteMatch {
for _, route := range router.routes {
if m := route.Match(req.Method, req.URL.Path); m != nil {
return m
}
}
return nil
}
// Groups:
// 1: method
// 4: path
// 5: action
var routePattern *regexp.Regexp = regexp.MustCompile(
"(?i)^(GET|POST|PUT|DELETE|OPTIONS|HEAD|WS|\\*)" +
"[(]?([^)]*)(\\))? +" +
"(.*/[^ ]*) +([^ (]+)(.+)?( *)$")
// Load the routes file.
func LoadRoutes() *Router {
// Get the routes file content.
contentBytes, err := ioutil.ReadFile(path.Join(BasePath, "conf", "routes"))
if err != nil {
LOG.Fatalln("Failed to load routes file:", err)
}
content := string(contentBytes)
return NewRouter(content)
}
func parseRouteLine(line string) (method, path, action string, found bool) {
var matches []string = routePattern.FindStringSubmatch(line)
if matches == nil {
return
}
method, path, action = matches[1], matches[4], matches[5]
found = true
return
}
func NewRouter(routesConf string) *Router {
router := new(Router)
routes := make([]*Route, 0, 10)
// For each line..
for _, line := range strings.Split(routesConf, "\n") {
line = strings.TrimSpace(line)
if len(line) == 0 || line[0] == '#' {
continue
}
method, path, action, found := parseRouteLine(line)
if !found {
continue
}
route := NewRoute(method, path, action)
routes = append(routes, route)
}
router.routes = routes
return router
}
type ActionDefinition struct {
Host, Method, Url, Action string
Star bool
Args map[string]string
}
func (a *ActionDefinition) String() string {
return a.Url
}
func (router *Router) Reverse(action string, argValues map[string]string) *ActionDefinition {
NEXT_ROUTE:
// Loop through the routes.
for _, route := range router.routes {
if route.actionPattern == nil {
continue
}
var matches []string = route.actionPattern.FindStringSubmatch(action)
if len(matches) == 0 {
continue
}
for i, match := range matches[1:] {
argValues[route.actionPattern.SubexpNames()[i+1]] = match
}
// Create a lookup for the route args.
routeArgs := make(map[string]*arg)
for _, arg := range route.args {
routeArgs[arg.name] = arg
}
// Enforce the constraints on the arg values.
for argKey, argValue := range argValues {
arg, ok := routeArgs[argKey]
if ok && !arg.constraint.MatchString(argValue) {
continue NEXT_ROUTE
}
}
// Build up the URL.
var queryValues url.Values = make(url.Values)
path := route.path
for argKey, argValue := range argValues {
if _, ok := routeArgs[argKey]; ok {
// If this arg goes into the path, put it in.
path = regexp.MustCompile(`\{(<[^>]+>)?`+regexp.QuoteMeta(argKey)+`\}`).
ReplaceAllString(path, url.QueryEscape(string(argValue)))
} else {
// Else, add it to the query string.
queryValues.Set(argKey, argValue)
}
}
// Calculate the final URL and Method
url := path
if len(queryValues) > 0 {
url += "?" + queryValues.Encode()
}
method := route.method
star := false
if route.method == "*" {
method = "GET"
star = true
}
return &ActionDefinition{
Url: url,
Method: method,
Star: star,
Action: action,
Args: argValues,
Host: "TODO",
}
}
LOG.Println("Failed to find reverse route:", action, argValues)
return nil
}