caddy/modules/caddyhttp/server.go

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package caddyhttp
import (
"context"
"fmt"
"log"
"net"
"net/http"
"strconv"
"bitbucket.org/lightcodelabs/caddy2"
"bitbucket.org/lightcodelabs/caddy2/modules/caddytls"
)
// Server is an HTTP server.
type Server struct {
Listen []string `json:"listen,omitempty"`
ReadTimeout caddy2.Duration `json:"read_timeout,omitempty"`
ReadHeaderTimeout caddy2.Duration `json:"read_header_timeout,omitempty"`
WriteTimeout caddy2.Duration `json:"write_timeout,omitempty"`
IdleTimeout caddy2.Duration `json:"idle_timeout,omitempty"`
MaxHeaderBytes int `json:"max_header_bytes,omitempty"`
Routes RouteList `json:"routes,omitempty"`
Errors *httpErrorConfig `json:"errors,omitempty"`
TLSConnPolicies caddytls.ConnectionPolicies `json:"tls_connection_policies,omitempty"`
DisableAutoHTTPS bool `json:"disable_auto_https,omitempty"`
DisableAutoHTTPSRedir bool `json:"disable_auto_https_redir,omitempty"`
MaxRehandles int `json:"max_rehandles,omitempty"`
tlsApp *caddytls.TLS
}
// ServeHTTP is the entry point for all HTTP requests.
func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) {
if s.tlsApp.HandleHTTPChallenge(w, r) {
return
}
// set up the context for the request
repl := caddy2.NewReplacer()
ctx := context.WithValue(r.Context(), caddy2.ReplacerCtxKey, repl)
ctx = context.WithValue(ctx, TableCtxKey, make(map[string]interface{})) // TODO: Implement this
r = r.WithContext(ctx)
// once the pointer to the request won't change
// anymore, finish setting up the replacer
addHTTPVarsToReplacer(repl, r, w)
// build and execute the main handler chain
stack, w := s.Routes.BuildCompositeRoute(w, r)
err := s.executeCompositeRoute(w, r, stack)
if err != nil {
// add the raw error value to the request context
// so it can be accessed by error handlers
c := context.WithValue(r.Context(), ErrorCtxKey, err)
r = r.WithContext(c)
// add error values to the replacer
repl.Set("http.error", err.Error())
if handlerErr, ok := err.(HandlerError); ok {
repl.Set("http.error.status_code", strconv.Itoa(handlerErr.StatusCode))
repl.Set("http.error.status_text", http.StatusText(handlerErr.StatusCode))
repl.Set("http.error.message", handlerErr.Message)
repl.Set("http.error.trace", handlerErr.Trace)
repl.Set("http.error.id", handlerErr.ID)
}
if len(s.Errors.Routes) == 0 {
// TODO: polish the default error handling
log.Printf("[ERROR] Handler: %s", err)
if handlerErr, ok := err.(HandlerError); ok {
w.WriteHeader(handlerErr.StatusCode)
}
} else {
errStack, w := s.Errors.Routes.BuildCompositeRoute(w, r)
err := s.executeCompositeRoute(w, r, errStack)
if err != nil {
// TODO: what should we do if the error handler has an error?
log.Printf("[ERROR] handling error: %v", err)
}
}
}
}
// executeCompositeRoute executes stack with w and r. This function handles
// the special ErrRehandle error value, which reprocesses requests through
// the stack again. Any error value returned from this function would be an
// actual error that needs to be handled.
func (s *Server) executeCompositeRoute(w http.ResponseWriter, r *http.Request, stack Handler) error {
var err error
for i := -1; i <= s.MaxRehandles; i++ {
// we started the counter at -1 because we
// always want to run this at least once
err = stack.ServeHTTP(w, r)
if err != ErrRehandle {
break
}
if i >= s.MaxRehandles-1 {
return fmt.Errorf("too many rehandles")
}
}
return err
}
func (s *Server) listenersUseAnyPortOtherThan(otherPort int) bool {
for _, lnAddr := range s.Listen {
_, addrs, err := parseListenAddr(lnAddr)
if err == nil {
for _, a := range addrs {
_, port, err := net.SplitHostPort(a)
if err == nil && port != strconv.Itoa(otherPort) {
return true
}
}
}
}
return false
}
type httpErrorConfig struct {
Routes RouteList `json:"routes,omitempty"`
// TODO: some way to configure the logging of errors, probably? standardize
// the logging configuration first.
}
// TableCtxKey is the context key for the request's variable table.
const TableCtxKey caddy2.CtxKey = "table"