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mox/http/web.go
Mechiel Lukkien 0f8bf2f220
replace http basic auth for web interfaces with session cookie & csrf-based auth 
the http basic auth we had was very simple to reason about, and to implement.
but it has a major downside:

there is no way to logout, browsers keep sending credentials. ideally, browsers
themselves would show a button to stop sending credentials.

a related downside: the http auth mechanism doesn't indicate for which server
paths the credentials are.

another downside: the original password is sent to the server with each
request. though sending original passwords to web servers seems to be
considered normal.

our new approach uses session cookies, along with csrf values when we can. the
sessions are server-side managed, automatically extended on each use. this
makes it easy to invalidate sessions and keeps the frontend simpler (than with
long- vs short-term sessions and refreshing). the cookies are httponly,
samesite=strict, scoped to the path of the web interface. cookies are set
"secure" when set over https. the cookie is set by a successful call to Login.
a call to Logout invalidates a session. changing a password invalidates all
sessions for a user, but keeps the session with which the password was changed
alive. the csrf value is also random, and associated with the session cookie.
the csrf must be sent as header for api calls, or as parameter for direct form
posts (where we cannot set a custom header). rest-like calls made directly by
the browser, e.g. for images, don't have a csrf protection. the csrf value is
returned by the Login api call and stored in localstorage.

api calls without credentials return code "user:noAuth", and with bad
credentials return "user:badAuth". the api client recognizes this and triggers
a login. after a login, all auth-failed api calls are automatically retried.
only for "user:badAuth" is an error message displayed in the login form (e.g.
session expired).

in an ideal world, browsers would take care of most session management. a
server would indicate authentication is needed (like http basic auth), and the
browsers uses trusted ui to request credentials for the server & path. the
browser could use safer mechanism than sending original passwords to the
server, such as scram, along with a standard way to create sessions.  for now,
web developers have to do authentication themselves: from showing the login
prompt, ensuring the right session/csrf cookies/localstorage/headers/etc are
sent with each request.

webauthn is a newer way to do authentication, perhaps we'll implement it in the
future. though hardware tokens aren't an attractive option for many users, and
it may be overkill as long as we still do old-fashioned authentication in smtp
& imap where passwords can be sent to the server.

for issue #58
2024-01-05 10:48:42 +01:00

841 lines
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// Package http provides HTTP listeners/servers, for
// autoconfiguration/autodiscovery, the account and admin web interface and
// MTA-STS policies.
package http
import (
"compress/gzip"
"context"
"crypto/tls"
"fmt"
"io"
golog "log"
"net"
"net/http"
"os"
"path"
"sort"
"strings"
"time"
_ "net/http/pprof"
"golang.org/x/exp/maps"
"golang.org/x/exp/slog"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/client_golang/prometheus/promauto"
"github.com/prometheus/client_golang/prometheus/promhttp"
"github.com/mjl-/mox/autotls"
"github.com/mjl-/mox/config"
"github.com/mjl-/mox/dns"
"github.com/mjl-/mox/mlog"
"github.com/mjl-/mox/mox-"
"github.com/mjl-/mox/ratelimit"
"github.com/mjl-/mox/webaccount"
"github.com/mjl-/mox/webadmin"
"github.com/mjl-/mox/webmail"
)
var pkglog = mlog.New("http", nil)
var (
// metricRequest tracks performance (time to write response header) of server.
metricRequest = promauto.NewHistogramVec(
prometheus.HistogramOpts{
Name: "mox_httpserver_request_duration_seconds",
Help: "HTTP(s) server request with handler name, protocol, method, result codes, and duration until response status code is written, in seconds.",
Buckets: []float64{0.001, 0.005, 0.01, 0.05, 0.100, 0.5, 1, 5, 10, 20, 30, 60, 120},
},
[]string{
"handler", // Name from webhandler, can be empty.
"proto", // "http", "https", "ws", "wss"
"method", // "(unknown)" and otherwise only common verbs
"code",
},
)
// metricResponse tracks performance of entire request as experienced by users,
// which also depends on their connection speed, so not necessarily something you
// could act on.
metricResponse = promauto.NewHistogramVec(
prometheus.HistogramOpts{
Name: "mox_httpserver_response_duration_seconds",
Help: "HTTP(s) server response with handler name, protocol, method, result codes, and duration of entire response, in seconds.",
Buckets: []float64{0.001, 0.005, 0.01, 0.05, 0.100, 0.5, 1, 5, 10, 20, 30, 60, 120},
},
[]string{
"handler", // Name from webhandler, can be empty.
"proto", // "http", "https", "ws", "wss"
"method", // "(unknown)" and otherwise only common verbs
"code",
},
)
)
type responseWriterFlusher interface {
http.ResponseWriter
http.Flusher
}
// http.ResponseWriter that writes access log and tracks metrics at end of response.
type loggingWriter struct {
W responseWriterFlusher // Calls are forwarded.
Start time.Time
R *http.Request
WebsocketRequest bool // Whether request from was websocket.
// Set by router.
Handler string
Compress bool
// Set by handlers.
StatusCode int
Size int64 // Of data served to client, for non-websocket responses.
UncompressedSize int64 // Can be set by a handler that already serves compressed data, and we update it while compressing.
Gzip *gzip.Writer // Only set if we transparently compress within loggingWriter (static handlers handle compression themselves, with a cache).
Err error
WebsocketResponse bool // If this was a successful websocket connection with backend.
SizeFromClient, SizeToClient int64 // Websocket data.
Attrs []slog.Attr // Additional fields to log.
}
func (w *loggingWriter) AddAttr(a slog.Attr) {
w.Attrs = append(w.Attrs, a)
}
func (w *loggingWriter) Flush() {
w.W.Flush()
}
func (w *loggingWriter) Header() http.Header {
return w.W.Header()
}
// protocol, for logging.
func (w *loggingWriter) proto(websocket bool) string {
proto := "http"
if websocket {
proto = "ws"
}
if w.R.TLS != nil {
proto += "s"
}
return proto
}
func (w *loggingWriter) Write(buf []byte) (int, error) {
if w.StatusCode == 0 {
w.WriteHeader(http.StatusOK)
}
var n int
var err error
if w.Gzip == nil {
n, err = w.W.Write(buf)
if n > 0 {
w.Size += int64(n)
}
} else {
// We flush after each write. Probably takes a few more bytes, but prevents any
// issues due to buffering.
// w.Gzip.Write updates w.Size with the compressed byte count.
n, err = w.Gzip.Write(buf)
if err == nil {
err = w.Gzip.Flush()
}
if n > 0 {
w.UncompressedSize += int64(n)
}
}
if err != nil {
w.error(err)
}
return n, err
}
func (w *loggingWriter) setStatusCode(statusCode int) {
if w.StatusCode != 0 {
return
}
w.StatusCode = statusCode
method := metricHTTPMethod(w.R.Method)
metricRequest.WithLabelValues(w.Handler, w.proto(w.WebsocketRequest), method, fmt.Sprintf("%d", w.StatusCode)).Observe(float64(time.Since(w.Start)) / float64(time.Second))
}
// SetUncompressedSize is used through an interface by
// ../webmail/webmail.go:/WriteHeader, preventing an import cycle.
func (w *loggingWriter) SetUncompressedSize(origSize int64) {
w.UncompressedSize = origSize
}
func (w *loggingWriter) WriteHeader(statusCode int) {
if w.StatusCode != 0 {
return
}
w.setStatusCode(statusCode)
// We transparently gzip-compress responses for requests under these conditions, all must apply:
//
// - Enabled for handler (static handlers make their own decisions).
// - Not a websocket request.
// - Regular success responses (not errors, or partial content or redirects or "not modified", etc).
// - Not already compressed, or any other Content-Encoding header (including "identity").
// - Client accepts gzip encoded responses.
// - The response has a content-type that is compressible (text/*, */*+{json,xml}, and a few common files (e.g. json, xml, javascript).
if w.Compress && !w.WebsocketRequest && statusCode == http.StatusOK && w.W.Header().Values("Content-Encoding") == nil && acceptsGzip(w.R) && compressibleContentType(w.W.Header().Get("Content-Type")) {
// todo: we should gather the first kb of data, see if it is compressible. if not, just return original. should set timer so we flush if it takes too long to gather 1kb. for smaller data we shouldn't compress at all.
// We track the gzipped output for the access log.
cw := countWriter{Writer: w.W, Size: &w.Size}
w.Gzip, _ = gzip.NewWriterLevel(cw, gzip.BestSpeed)
w.W.Header().Set("Content-Encoding", "gzip")
w.W.Header().Del("Content-Length") // No longer valid, set again for small responses by net/http.
}
w.W.WriteHeader(statusCode)
}
func acceptsGzip(r *http.Request) bool {
s := r.Header.Get("Accept-Encoding")
t := strings.Split(s, ",")
for _, e := range t {
e = strings.TrimSpace(e)
tt := strings.Split(e, ";")
if len(tt) > 1 && t[1] == "q=0" {
continue
}
if tt[0] == "gzip" {
return true
}
}
return false
}
var compressibleTypes = map[string]bool{
"application/csv": true,
"application/javascript": true,
"application/json": true,
"application/x-javascript": true,
"application/xml": true,
"image/vnd.microsoft.icon": true,
"image/x-icon": true,
"font/ttf": true,
"font/eot": true,
"font/otf": true,
"font/opentype": true,
}
func compressibleContentType(ct string) bool {
ct = strings.SplitN(ct, ";", 2)[0]
ct = strings.TrimSpace(ct)
ct = strings.ToLower(ct)
if compressibleTypes[ct] {
return true
}
t, st, _ := strings.Cut(ct, "/")
return t == "text" || strings.HasSuffix(st, "+json") || strings.HasSuffix(st, "+xml")
}
func compressibleContent(f *os.File) bool {
// We don't want to store many small files. They take up too much disk overhead.
if fi, err := f.Stat(); err != nil || fi.Size() < 1024 || fi.Size() > 10*1024*1024 {
return false
}
buf := make([]byte, 512)
n, err := f.ReadAt(buf, 0)
if err != nil && err != io.EOF {
return false
}
ct := http.DetectContentType(buf[:n])
return compressibleContentType(ct)
}
type countWriter struct {
Writer io.Writer
Size *int64
}
func (w countWriter) Write(buf []byte) (int, error) {
n, err := w.Writer.Write(buf)
if n > 0 {
*w.Size += int64(n)
}
return n, err
}
var tlsVersions = map[uint16]string{
tls.VersionTLS10: "tls1.0",
tls.VersionTLS11: "tls1.1",
tls.VersionTLS12: "tls1.2",
tls.VersionTLS13: "tls1.3",
}
func metricHTTPMethod(method string) string {
// https://www.iana.org/assignments/http-methods/http-methods.xhtml
method = strings.ToLower(method)
switch method {
case "acl", "baseline-control", "bind", "checkin", "checkout", "connect", "copy", "delete", "get", "head", "label", "link", "lock", "merge", "mkactivity", "mkcalendar", "mkcol", "mkredirectref", "mkworkspace", "move", "options", "orderpatch", "patch", "post", "pri", "propfind", "proppatch", "put", "rebind", "report", "search", "trace", "unbind", "uncheckout", "unlink", "unlock", "update", "updateredirectref", "version-control":
return method
}
return "(other)"
}
func (w *loggingWriter) error(err error) {
if w.Err == nil {
w.Err = err
}
}
func (w *loggingWriter) Done() {
if w.Err == nil && w.Gzip != nil {
if err := w.Gzip.Close(); err != nil {
w.error(err)
}
}
method := metricHTTPMethod(w.R.Method)
metricResponse.WithLabelValues(w.Handler, w.proto(w.WebsocketResponse), method, fmt.Sprintf("%d", w.StatusCode)).Observe(float64(time.Since(w.Start)) / float64(time.Second))
tlsinfo := "plain"
if w.R.TLS != nil {
if v, ok := tlsVersions[w.R.TLS.Version]; ok {
tlsinfo = v
} else {
tlsinfo = "(other)"
}
}
err := w.Err
if err == nil {
err = w.R.Context().Err()
}
attrs := []slog.Attr{
slog.String("httpaccess", ""),
slog.String("handler", w.Handler),
slog.String("method", method),
slog.Any("url", w.R.URL),
slog.String("host", w.R.Host),
slog.Duration("duration", time.Since(w.Start)),
slog.Int("statuscode", w.StatusCode),
slog.String("proto", strings.ToLower(w.R.Proto)),
slog.Any("remoteaddr", w.R.RemoteAddr),
slog.String("tlsinfo", tlsinfo),
slog.String("useragent", w.R.Header.Get("User-Agent")),
slog.String("referrr", w.R.Header.Get("Referrer")),
}
if w.WebsocketRequest {
attrs = append(attrs,
slog.Bool("websocketrequest", true),
)
}
if w.WebsocketResponse {
attrs = append(attrs,
slog.Bool("websocket", true),
slog.Int64("sizetoclient", w.SizeToClient),
slog.Int64("sizefromclient", w.SizeFromClient),
)
} else if w.UncompressedSize > 0 {
attrs = append(attrs,
slog.Int64("size", w.Size),
slog.Int64("uncompressedsize", w.UncompressedSize),
)
} else {
attrs = append(attrs,
slog.Int64("size", w.Size),
)
}
attrs = append(attrs, w.Attrs...)
pkglog.WithContext(w.R.Context()).Debugx("http request", err, attrs...)
}
// Set some http headers that should prevent potential abuse. Better safe than sorry.
func safeHeaders(fn http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
h := w.Header()
h.Set("X-Frame-Options", "deny")
h.Set("X-Content-Type-Options", "nosniff")
h.Set("Content-Security-Policy", "default-src 'self' 'unsafe-inline' data:")
h.Set("Referrer-Policy", "same-origin")
fn.ServeHTTP(w, r)
})
}
// Built-in handlers, e.g. mta-sts and autoconfig.
type pathHandler struct {
Name string // For logging/metrics.
HostMatch func(dom dns.Domain) bool // If not nil, called to see if domain of requests matches. Only called if requested host is a valid domain.
Path string // Path to register, like on http.ServeMux.
Handler http.Handler
}
type serve struct {
Kinds []string // Type of handler and protocol (e.g. acme-tls-alpn-01, account-http, admin-https).
TLSConfig *tls.Config
PathHandlers []pathHandler // Sorted, longest first.
Webserver bool // Whether serving WebHandler. PathHandlers are always evaluated before WebHandlers.
}
// Handle registers a named handler for a path and optional host. If path ends with
// a slash, it is used as prefix match, otherwise a full path match is required. If
// hostOpt is set, only requests to those host are handled by this handler.
func (s *serve) Handle(name string, hostMatch func(dns.Domain) bool, path string, fn http.Handler) {
s.PathHandlers = append(s.PathHandlers, pathHandler{name, hostMatch, path, fn})
}
var (
limiterConnectionrate = &ratelimit.Limiter{
WindowLimits: []ratelimit.WindowLimit{
{
Window: time.Minute,
Limits: [...]int64{1000, 3000, 9000},
},
{
Window: time.Hour,
Limits: [...]int64{5000, 15000, 45000},
},
},
}
)
// ServeHTTP is the starting point for serving HTTP requests. It dispatches to the
// right pathHandler or WebHandler, and it generates access logs and tracks
// metrics.
func (s *serve) ServeHTTP(xw http.ResponseWriter, r *http.Request) {
now := time.Now()
// Rate limiting as early as possible.
ipstr, _, err := net.SplitHostPort(r.RemoteAddr)
if err != nil {
pkglog.Debugx("split host:port client remoteaddr", err, slog.Any("remoteaddr", r.RemoteAddr))
} else if ip := net.ParseIP(ipstr); ip == nil {
pkglog.Debug("parsing ip for client remoteaddr", slog.Any("remoteaddr", r.RemoteAddr))
} else if !limiterConnectionrate.Add(ip, now, 1) {
method := metricHTTPMethod(r.Method)
proto := "http"
if r.TLS != nil {
proto = "https"
}
metricRequest.WithLabelValues("(ratelimited)", proto, method, "429").Observe(0)
// No logging, that's just noise.
http.Error(xw, "429 - too many auth attempts", http.StatusTooManyRequests)
return
}
ctx := context.WithValue(r.Context(), mlog.CidKey, mox.Cid())
r = r.WithContext(ctx)
wf, ok := xw.(responseWriterFlusher)
if !ok {
http.Error(xw, "500 - internal server error - cannot access underlying connection"+recvid(r), http.StatusInternalServerError)
return
}
nw := &loggingWriter{
W: wf,
Start: now,
R: r,
}
defer nw.Done()
// Cleanup path, removing ".." and ".". Keep any trailing slash.
trailingPath := strings.HasSuffix(r.URL.Path, "/")
if r.URL.Path == "" {
r.URL.Path = "/"
}
r.URL.Path = path.Clean(r.URL.Path)
if r.URL.Path == "." {
r.URL.Path = "/"
}
if trailingPath && !strings.HasSuffix(r.URL.Path, "/") {
r.URL.Path += "/"
}
var dom dns.Domain
host := r.Host
nhost, _, err := net.SplitHostPort(host)
if err == nil {
host = nhost
}
// host could be an IP, some handles may match, not an error.
dom, domErr := dns.ParseDomain(host)
for _, h := range s.PathHandlers {
if h.HostMatch != nil && (domErr != nil || !h.HostMatch(dom)) {
continue
}
if r.URL.Path == h.Path || strings.HasSuffix(h.Path, "/") && strings.HasPrefix(r.URL.Path, h.Path) {
nw.Handler = h.Name
nw.Compress = true
h.Handler.ServeHTTP(nw, r)
return
}
}
if s.Webserver && domErr == nil {
if WebHandle(nw, r, dom) {
return
}
}
nw.Handler = "(nomatch)"
http.NotFound(nw, r)
}
// Listen binds to sockets for HTTP listeners, including those required for ACME to
// generate TLS certificates. It stores the listeners so Serve can start serving them.
func Listen() {
redirectToTrailingSlash := func(srv *serve, name, path string) {
// Helpfully redirect user to version with ending slash.
if path != "/" && strings.HasSuffix(path, "/") {
handler := safeHeaders(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
http.Redirect(w, r, path, http.StatusSeeOther)
}))
srv.Handle(name, nil, path[:len(path)-1], handler)
}
}
// Initialize listeners in deterministic order for the same potential error
// messages.
names := maps.Keys(mox.Conf.Static.Listeners)
sort.Strings(names)
for _, name := range names {
l := mox.Conf.Static.Listeners[name]
portServe := map[int]*serve{}
var ensureServe func(https bool, port int, kind string) *serve
ensureServe = func(https bool, port int, kind string) *serve {
s := portServe[port]
if s == nil {
s = &serve{nil, nil, nil, false}
portServe[port] = s
}
s.Kinds = append(s.Kinds, kind)
if https && l.TLS.ACME != "" {
s.TLSConfig = l.TLS.ACMEConfig
} else if https {
s.TLSConfig = l.TLS.Config
if l.TLS.ACME != "" {
tlsport := config.Port(mox.Conf.Static.ACME[l.TLS.ACME].Port, 443)
ensureServe(true, tlsport, "acme-tls-alpn-01")
}
}
return s
}
if l.TLS != nil && l.TLS.ACME != "" && (l.SMTP.Enabled && !l.SMTP.NoSTARTTLS || l.Submissions.Enabled || l.IMAPS.Enabled) {
port := config.Port(mox.Conf.Static.ACME[l.TLS.ACME].Port, 443)
ensureServe(true, port, "acme-tls-alpn-01")
}
if l.AccountHTTP.Enabled {
port := config.Port(l.AccountHTTP.Port, 80)
path := "/"
if l.AccountHTTP.Path != "" {
path = l.AccountHTTP.Path
}
srv := ensureServe(false, port, "account-http at "+path)
handler := safeHeaders(http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webaccount.Handler(path, l.AccountHTTP.Forwarded))))
srv.Handle("account", nil, path, handler)
redirectToTrailingSlash(srv, "account", path)
}
if l.AccountHTTPS.Enabled {
port := config.Port(l.AccountHTTPS.Port, 443)
path := "/"
if l.AccountHTTPS.Path != "" {
path = l.AccountHTTPS.Path
}
srv := ensureServe(true, port, "account-https at "+path)
handler := safeHeaders(http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webaccount.Handler(path, l.AccountHTTPS.Forwarded))))
srv.Handle("account", nil, path, handler)
redirectToTrailingSlash(srv, "account", path)
}
if l.AdminHTTP.Enabled {
port := config.Port(l.AdminHTTP.Port, 80)
path := "/admin/"
if l.AdminHTTP.Path != "" {
path = l.AdminHTTP.Path
}
srv := ensureServe(false, port, "admin-http at "+path)
handler := safeHeaders(http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webadmin.Handler(path, l.AdminHTTP.Forwarded))))
srv.Handle("admin", nil, path, handler)
redirectToTrailingSlash(srv, "admin", path)
}
if l.AdminHTTPS.Enabled {
port := config.Port(l.AdminHTTPS.Port, 443)
path := "/admin/"
if l.AdminHTTPS.Path != "" {
path = l.AdminHTTPS.Path
}
srv := ensureServe(true, port, "admin-https at "+path)
handler := safeHeaders(http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webadmin.Handler(path, l.AdminHTTPS.Forwarded))))
srv.Handle("admin", nil, path, handler)
redirectToTrailingSlash(srv, "admin", path)
}
maxMsgSize := l.SMTPMaxMessageSize
if maxMsgSize == 0 {
maxMsgSize = config.DefaultMaxMsgSize
}
if l.WebmailHTTP.Enabled {
port := config.Port(l.WebmailHTTP.Port, 80)
path := "/webmail/"
if l.WebmailHTTP.Path != "" {
path = l.WebmailHTTP.Path
}
srv := ensureServe(false, port, "webmail-http at "+path)
handler := http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webmail.Handler(maxMsgSize, path, l.WebmailHTTP.Forwarded)))
srv.Handle("webmail", nil, path, handler)
redirectToTrailingSlash(srv, "webmail", path)
}
if l.WebmailHTTPS.Enabled {
port := config.Port(l.WebmailHTTPS.Port, 443)
path := "/webmail/"
if l.WebmailHTTPS.Path != "" {
path = l.WebmailHTTPS.Path
}
srv := ensureServe(true, port, "webmail-https at "+path)
handler := http.StripPrefix(path[:len(path)-1], http.HandlerFunc(webmail.Handler(maxMsgSize, path, l.WebmailHTTPS.Forwarded)))
srv.Handle("webmail", nil, path, handler)
redirectToTrailingSlash(srv, "webmail", path)
}
if l.MetricsHTTP.Enabled {
port := config.Port(l.MetricsHTTP.Port, 8010)
srv := ensureServe(false, port, "metrics-http")
srv.Handle("metrics", nil, "/metrics", safeHeaders(promhttp.Handler()))
srv.Handle("metrics", nil, "/", safeHeaders(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path != "/" {
http.NotFound(w, r)
return
} else if r.Method != "GET" {
http.Error(w, http.StatusText(http.StatusMethodNotAllowed), http.StatusMethodNotAllowed)
return
}
w.Header().Set("Content-Type", "text/html")
fmt.Fprint(w, `<html><body>see <a href="metrics">metrics</a></body></html>`)
})))
}
if l.AutoconfigHTTPS.Enabled {
port := config.Port(l.AutoconfigHTTPS.Port, 443)
srv := ensureServe(!l.AutoconfigHTTPS.NonTLS, port, "autoconfig-https")
autoconfigMatch := func(dom dns.Domain) bool {
// Thunderbird requests an autodiscovery URL at the email address domain name, so
// autoconfig prefix is optional.
if strings.HasPrefix(dom.ASCII, "autoconfig.") {
dom.ASCII = strings.TrimPrefix(dom.ASCII, "autoconfig.")
dom.Unicode = strings.TrimPrefix(dom.Unicode, "autoconfig.")
}
// Autodiscovery uses a SRV record. It shouldn't point to a CNAME. So we directly
// use the mail server's host name.
if dom == mox.Conf.Static.HostnameDomain || dom == mox.Conf.Static.Listeners["public"].HostnameDomain {
return true
}
_, ok := mox.Conf.Domain(dom)
return ok
}
srv.Handle("autoconfig", autoconfigMatch, "/mail/config-v1.1.xml", safeHeaders(http.HandlerFunc(autoconfHandle)))
srv.Handle("autodiscover", autoconfigMatch, "/autodiscover/autodiscover.xml", safeHeaders(http.HandlerFunc(autodiscoverHandle)))
srv.Handle("mobileconfig", autoconfigMatch, "/profile.mobileconfig", safeHeaders(http.HandlerFunc(mobileconfigHandle)))
srv.Handle("mobileconfigqrcodepng", autoconfigMatch, "/profile.mobileconfig.qrcode.png", safeHeaders(http.HandlerFunc(mobileconfigQRCodeHandle)))
}
if l.MTASTSHTTPS.Enabled {
port := config.Port(l.MTASTSHTTPS.Port, 443)
srv := ensureServe(!l.MTASTSHTTPS.NonTLS, port, "mtasts-https")
mtastsMatch := func(dom dns.Domain) bool {
// todo: may want to check this against the configured domains, could in theory be just a webserver.
return strings.HasPrefix(dom.ASCII, "mta-sts.")
}
srv.Handle("mtasts", mtastsMatch, "/.well-known/mta-sts.txt", safeHeaders(http.HandlerFunc(mtastsPolicyHandle)))
}
if l.PprofHTTP.Enabled {
// Importing net/http/pprof registers handlers on the default serve mux.
port := config.Port(l.PprofHTTP.Port, 8011)
if _, ok := portServe[port]; ok {
pkglog.Fatal("cannot serve pprof on same endpoint as other http services")
}
srv := &serve{[]string{"pprof-http"}, nil, nil, false}
portServe[port] = srv
srv.Handle("pprof", nil, "/", http.DefaultServeMux)
}
if l.WebserverHTTP.Enabled {
port := config.Port(l.WebserverHTTP.Port, 80)
srv := ensureServe(false, port, "webserver-http")
srv.Webserver = true
}
if l.WebserverHTTPS.Enabled {
port := config.Port(l.WebserverHTTPS.Port, 443)
srv := ensureServe(true, port, "webserver-https")
srv.Webserver = true
}
if l.TLS != nil && l.TLS.ACME != "" {
m := mox.Conf.Static.ACME[l.TLS.ACME].Manager
// If we are listening on port 80 for plain http, also register acme http-01
// validation handler.
if srv, ok := portServe[80]; ok && srv.TLSConfig == nil {
srv.Kinds = append(srv.Kinds, "acme-http-01")
srv.Handle("acme-http-01", nil, "/.well-known/acme-challenge/", m.Manager.HTTPHandler(nil))
}
hosts := map[dns.Domain]struct{}{
mox.Conf.Static.HostnameDomain: {},
}
if l.HostnameDomain.ASCII != "" {
hosts[l.HostnameDomain] = struct{}{}
}
// All domains are served on all listeners. Gather autoconfig hostnames to ensure
// presence of TLS certificates for.
for _, name := range mox.Conf.Domains() {
if dom, err := dns.ParseDomain(name); err != nil {
pkglog.Errorx("parsing domain from config", err)
} else if d, _ := mox.Conf.Domain(dom); d.DMARC != nil && d.DMARC.Domain != "" && d.DMARC.DNSDomain != dom {
// Do not gather autoconfig name if this domain is configured to process reports
// for domains hosted elsewhere.
continue
}
autoconfdom, err := dns.ParseDomain("autoconfig." + name)
if err != nil {
pkglog.Errorx("parsing domain from config for autoconfig", err)
} else {
hosts[autoconfdom] = struct{}{}
}
}
ensureManagerHosts[m] = hosts
}
ports := maps.Keys(portServe)
sort.Ints(ports)
for _, port := range ports {
srv := portServe[port]
sort.Slice(srv.PathHandlers, func(i, j int) bool {
a := srv.PathHandlers[i].Path
b := srv.PathHandlers[j].Path
if len(a) == len(b) {
// For consistent order.
return a < b
}
// Longest paths first.
return len(a) > len(b)
})
for _, ip := range l.IPs {
listen1(ip, port, srv.TLSConfig, name, srv.Kinds, srv)
}
}
}
}
// functions to be launched in goroutine that will serve on a listener.
var servers []func()
// We'll explicitly ensure these TLS certs exist (e.g. are created with ACME)
// immediately after startup. We only do so for our explicit listener hostnames,
// not for mta-sts DNS records, it can be requested on demand (perhaps never). We
// do request autoconfig, otherwise clients may run into their timeouts waiting for
// the certificate to be given during the first https connection.
var ensureManagerHosts = map[*autotls.Manager]map[dns.Domain]struct{}{}
// listen prepares a listener, and adds it to "servers", to be launched (if not running as root) through Serve.
func listen1(ip string, port int, tlsConfig *tls.Config, name string, kinds []string, handler http.Handler) {
addr := net.JoinHostPort(ip, fmt.Sprintf("%d", port))
var protocol string
var ln net.Listener
var err error
if tlsConfig == nil {
protocol = "http"
if os.Getuid() == 0 {
pkglog.Print("http listener",
slog.String("name", name),
slog.String("kinds", strings.Join(kinds, ",")),
slog.String("address", addr))
}
ln, err = mox.Listen(mox.Network(ip), addr)
if err != nil {
pkglog.Fatalx("http: listen", err, slog.Any("addr", addr))
}
} else {
protocol = "https"
if os.Getuid() == 0 {
pkglog.Print("https listener",
slog.String("name", name),
slog.String("kinds", strings.Join(kinds, ",")),
slog.String("address", addr))
}
ln, err = mox.Listen(mox.Network(ip), addr)
if err != nil {
pkglog.Fatalx("https: listen", err, slog.String("addr", addr))
}
ln = tls.NewListener(ln, tlsConfig)
}
server := &http.Server{
Handler: handler,
TLSConfig: tlsConfig,
ReadHeaderTimeout: 30 * time.Second,
IdleTimeout: 65 * time.Second, // Chrome closes connections after 60 seconds, firefox after 115 seconds.
ErrorLog: golog.New(mlog.LogWriter(pkglog.With(slog.String("pkg", "net/http")), slog.LevelInfo, protocol+" error"), "", 0),
}
serve := func() {
err := server.Serve(ln)
pkglog.Fatalx(protocol+": serve", err)
}
servers = append(servers, serve)
}
// Serve starts serving on the initialized listeners.
func Serve() {
loadStaticGzipCache(mox.DataDirPath("tmp/httpstaticcompresscache"), 512*1024*1024)
go webaccount.ImportManage()
for _, serve := range servers {
go serve()
}
servers = nil
go func() {
time.Sleep(1 * time.Second)
i := 0
for m, hosts := range ensureManagerHosts {
for host := range hosts {
// Check if certificate is already available. If so, we don't print as much after a
// restart, and finish more quickly if only a few certificates are missing/old.
if avail, err := m.CertAvailable(mox.Shutdown, pkglog, host); err != nil {
pkglog.Errorx("checking acme certificate availability", err, slog.Any("host", host))
} else if avail {
continue
}
if i >= 10 {
// Just in case someone adds quite some domains to their config. We don't want to
// hit any ACME rate limits.
return
}
if i > 0 {
// Sleep just a little. We don't want to hammer our ACME provider, e.g. Let's Encrypt.
time.Sleep(10 * time.Second)
}
i++
hello := &tls.ClientHelloInfo{
ServerName: host.ASCII,
// Make us fetch an ECDSA P256 cert.
// We add TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 to get around the ecDSA check in autocert.
CipherSuites: []uint16{tls.TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, tls.TLS_AES_128_GCM_SHA256},
SupportedCurves: []tls.CurveID{tls.CurveP256},
SignatureSchemes: []tls.SignatureScheme{tls.ECDSAWithP256AndSHA256},
SupportedVersions: []uint16{tls.VersionTLS13},
}
pkglog.Print("ensuring certificate availability", slog.Any("hostname", host))
if _, err := m.Manager.GetCertificate(hello); err != nil {
pkglog.Errorx("requesting automatic certificate", err, slog.Any("hostname", host))
}
}
}
}()
}
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