package website import ( "bytes" "context" "fmt" "html" "html/template" "io" "net" "net/http" "net/url" "path" "regexp" "strings" "git.handmade.network/hmn/hmn/src/logging" "git.handmade.network/hmn/hmn/src/models" "git.handmade.network/hmn/hmn/src/oops" "git.handmade.network/hmn/hmn/src/perf" "git.handmade.network/hmn/hmn/src/templates" "github.com/jackc/pgx/v4/pgxpool" "github.com/rs/zerolog" ) type Router struct { Routes []Route } type Route struct { Method string Regex *regexp.Regexp Handler Handler } type RouteBuilder struct { Router *Router Middleware Middleware } type Handler func(c *RequestContext) ResponseData type Middleware func(h Handler) Handler func (rb *RouteBuilder) Handle(methods []string, regex *regexp.Regexp, h Handler) { h = rb.Middleware(h) for _, method := range methods { rb.Router.Routes = append(rb.Router.Routes, Route{ Method: method, Regex: regex, Handler: h, }) } } func (rb *RouteBuilder) AnyMethod(regex *regexp.Regexp, h Handler) { rb.Handle([]string{""}, regex, h) } func (rb *RouteBuilder) GET(regex *regexp.Regexp, h Handler) { rb.Handle([]string{http.MethodGet}, regex, h) } func (rb *RouteBuilder) POST(regex *regexp.Regexp, h Handler) { rb.Handle([]string{http.MethodPost}, regex, h) } func (r *Router) ServeHTTP(rw http.ResponseWriter, req *http.Request) { path := req.URL.Path for _, route := range r.Routes { if route.Method != "" && req.Method != route.Method { continue } path = strings.TrimSuffix(path, "/") if path == "" { path = "/" } match := route.Regex.FindStringSubmatch(path) if match == nil { continue } c := &RequestContext{ Route: route.Regex.String(), Logger: logging.GlobalLogger(), Req: req, Res: rw, } if len(match) > 0 { params := map[string]string{} subexpNames := route.Regex.SubexpNames() for i, paramValue := range match { paramName := subexpNames[i] if paramName == "" { continue } params[paramName] = paramValue } c.PathParams = params } doRequest(rw, c, route.Handler) return } panic(fmt.Sprintf("Path '%s' did not match any routes! Make sure to register a wildcard route to act as a 404.", path)) } type RequestContext struct { Route string Logger *zerolog.Logger Req *http.Request PathParams map[string]string // NOTE(asaf): This is the http package's internal response object. Not just a ResponseWriter. // We sometimes need the original response object so that some functions of the http package can set connection-management flags on it. Res http.ResponseWriter Conn *pgxpool.Pool CurrentProject *models.Project CurrentUser *models.User CurrentSession *models.Session Theme string Perf *perf.RequestPerf } func (c *RequestContext) Context() context.Context { return c.Req.Context() } func (c *RequestContext) URL() *url.URL { return c.Req.URL } func (c *RequestContext) FullUrl() string { var scheme string if scheme == "" { proto, hasProto := c.Req.Header["X-Forwarded-Proto"] if hasProto { scheme = fmt.Sprintf("%s://", proto) } } if scheme == "" { if c.Req.TLS != nil { scheme = "https://" } else { scheme = "http://" } } return scheme + c.Req.Host + c.Req.URL.String() } // NOTE(asaf): Assumes port is present (it should be for RemoteAddr according to the docs) var ipRegex = regexp.MustCompile(`^(\[(?P[^\]]+)\]:\d+)|((?P[^:]+):\d+)$`) func (c *RequestContext) GetIP() *net.IPNet { ipString := "" if ipString == "" { cf, hasCf := c.Req.Header["CF-Connecting-IP"] if hasCf { ipString = cf[0] } } if ipString == "" { forwarded, hasForwarded := c.Req.Header["X-Forwarded-For"] if hasForwarded { ipString = forwarded[0] } } if ipString == "" { ipString = c.Req.RemoteAddr if ipString != "" { matches := ipRegex.FindStringSubmatch(ipString) if matches != nil { v4 := matches[ipRegex.SubexpIndex("addrv4")] v6 := matches[ipRegex.SubexpIndex("addrv6")] if v4 != "" { ipString = v4 } else { ipString = v6 } } } } if ipString != "" { _, res, err := net.ParseCIDR(fmt.Sprintf("%s/32", ipString)) if err == nil { return res } } return nil } func (c *RequestContext) GetFormValues() (url.Values, error) { err := c.Req.ParseForm() if err != nil { return nil, err } return c.Req.PostForm, nil } // The logic of this function is copy-pasted from the Go standard library. // https://golang.org/pkg/net/http/#Redirect func (c *RequestContext) Redirect(dest string, code int) ResponseData { var res ResponseData if u, err := url.Parse(dest); err == nil { // If url was relative, make its path absolute by // combining with request path. // The client would probably do this for us, // but doing it ourselves is more reliable. // See RFC 7231, section 7.1.2 if u.Scheme == "" && u.Host == "" { oldpath := c.Req.URL.Path if oldpath == "" { // should not happen, but avoid a crash if it does oldpath = "/" } // no leading http://server if dest == "" || dest[0] != '/' { // make relative path absolute olddir, _ := path.Split(oldpath) dest = olddir + dest } var query string if i := strings.Index(dest, "?"); i != -1 { dest, query = dest[:i], dest[i:] } // clean up but preserve trailing slash trailing := strings.HasSuffix(dest, "/") dest = path.Clean(dest) if trailing && !strings.HasSuffix(dest, "/") { dest += "/" } dest += query } } // Escape stuff destUrl, _ := url.Parse(dest) dest = destUrl.String() res.Header().Set("Location", dest) if c.Req.Method == "GET" || c.Req.Method == "HEAD" { res.Header().Set("Content-Type", "text/html; charset=utf-8") } res.StatusCode = code // Shouldn't send the body for POST or HEAD; that leaves GET. if c.Req.Method == "GET" { res.Write([]byte("" + http.StatusText(code) + ".\n")) } return res } func (c *RequestContext) ErrorResponse(status int, errs ...error) ResponseData { res := ResponseData{ StatusCode: status, Errors: errs, } res.MustWriteTemplate("error.html", getBaseData(c), c.Perf) return res } type ResponseData struct { StatusCode int Body *bytes.Buffer Errors []error FutureNotices []templates.Notice header http.Header } var _ http.ResponseWriter = &ResponseData{} func (rd *ResponseData) Header() http.Header { if rd.header == nil { rd.header = make(http.Header) } return rd.header } func (rd *ResponseData) Write(p []byte) (n int, err error) { if rd.Body == nil { rd.Body = new(bytes.Buffer) } return rd.Body.Write(p) } func (rd *ResponseData) WriteHeader(status int) { rd.StatusCode = status } func (rd *ResponseData) SetCookie(cookie *http.Cookie) { rd.Header().Add("Set-Cookie", cookie.String()) } func (rd *ResponseData) AddFutureNotice(class string, content string) { rd.FutureNotices = append(rd.FutureNotices, templates.Notice{Class: class, Content: template.HTML(content)}) } func (rd *ResponseData) WriteTemplate(name string, data interface{}, rp *perf.RequestPerf) error { if rp != nil { rp.StartBlock("TEMPLATE", name) defer rp.EndBlock() } template, hasTemplate := templates.Templates[name] if !hasTemplate { panic(oops.New(nil, "Template not found: %s", name)) } return template.Execute(rd, data) } func (rd *ResponseData) MustWriteTemplate(name string, data interface{}, rp *perf.RequestPerf) { err := rd.WriteTemplate(name, data, rp) if err != nil { panic(err) } } func doRequest(rw http.ResponseWriter, c *RequestContext, h Handler) { defer func() { /* This panic recovery is the last resort. If you want to render an error page or something, make it a request wrapper. */ if recovered := recover(); recovered != nil { rw.WriteHeader(http.StatusInternalServerError) logging.LogPanicValue(c.Logger, recovered, "request panicked and was not handled") rw.Write([]byte("There was a problem handling your request.\nPlease notify an admin at team@handmade.network")) } }() res := h(c) if res.StatusCode == 0 { res.StatusCode = http.StatusOK } for name, vals := range res.Header() { for _, val := range vals { rw.Header().Add(name, val) } } rw.WriteHeader(res.StatusCode) if res.Body != nil { io.Copy(rw, res.Body) } }