mox/ctl.go

637 lines
15 KiB
Go

package main
import (
"bufio"
"context"
"fmt"
"io"
"log"
"net"
"os"
"runtime"
"runtime/debug"
"sort"
"strconv"
"strings"
"syscall"
"time"
"github.com/mjl-/mox/dns"
"github.com/mjl-/mox/message"
"github.com/mjl-/mox/metrics"
"github.com/mjl-/mox/mlog"
"github.com/mjl-/mox/mox-"
"github.com/mjl-/mox/queue"
"github.com/mjl-/mox/smtp"
"github.com/mjl-/mox/store"
)
// ctl represents a connection to the ctl unix domain socket of a running mox instance.
// ctl provides functions to read/write commands/responses/data streams.
type ctl struct {
conn net.Conn
r *bufio.Reader // Set for first reader.
x any // If set, errors are handled by calling panic(x) instead of log.Fatal.
log *mlog.Log // If set, along with x, logging is done here.
}
// xctl opens a ctl connection.
func xctl() *ctl {
p := mox.DataDirPath("ctl")
conn, err := net.Dial("unix", p)
if err != nil {
log.Fatalf("connecting to control socket at %q: %v", p, err)
}
ctl := &ctl{conn: conn}
version := ctl.xread()
if version != "ctlv0" {
log.Fatalf("ctl protocol mismatch, got %q, expected ctlv0", version)
}
return ctl
}
// Interpret msg as an error.
// If ctl.x is set, the string is also written to the ctl to be interpreted as error by the other party.
func (c *ctl) xerror(msg string) {
if c.x == nil {
log.Fatalln(msg)
}
c.log.Debugx("ctl error", fmt.Errorf("%s", msg))
c.xwrite(msg)
panic(c.x)
}
// Check if err is not nil. If so, handle error through ctl.x or log.Fatal. If
// ctl.x is set, the error string is written to ctl, to be interpreted as an error
// by the command reading from ctl.
func (c *ctl) xcheck(err error, msg string) {
if err == nil {
return
}
if c.x == nil {
log.Fatalf("%s: %s", msg, err)
}
c.log.Debugx(msg, err)
fmt.Fprintf(c.conn, "%s: %s\n", msg, err)
panic(c.x)
}
// Read a line and return it without trailing newline.
func (c *ctl) xread() string {
if c.r == nil {
c.r = bufio.NewReader(c.conn)
}
line, err := c.r.ReadString('\n')
c.xcheck(err, "read from ctl")
return strings.TrimSuffix(line, "\n")
}
// Read a line. If not "ok", the string is interpreted as an error.
func (c *ctl) xreadok() {
line := c.xread()
if line != "ok" {
c.xerror(line)
}
}
// Write a string, typically a command or parameter.
func (c *ctl) xwrite(text string) {
_, err := fmt.Fprintln(c.conn, text)
c.xcheck(err, "write")
}
// Write "ok" to indicate success.
func (c *ctl) xwriteok() {
c.xwrite("ok")
}
// Copy data from a stream from ctl to dst.
func (c *ctl) xstreamto(dst io.Writer) {
_, err := io.Copy(dst, c.reader())
c.xcheck(err, "reading message")
}
// Copy data from src to a stream to ctl.
func (c *ctl) xstreamfrom(src io.Reader) {
w := c.writer()
_, err := io.Copy(w, src)
c.xcheck(err, "copying")
w.xclose()
}
// Writer returns an io.Writer for a data stream to ctl.
// When done writing, caller must call xclose to signal the end of the stream.
// Behaviour of "x" is copied from ctl.
func (c *ctl) writer() *ctlwriter {
return &ctlwriter{conn: c.conn, x: c.x, log: c.log}
}
// Reader returns an io.Reader for a data stream from ctl.
// Behaviour of "x" is copied from ctl.
func (c *ctl) reader() *ctlreader {
if c.r == nil {
c.r = bufio.NewReader(c.conn)
}
return &ctlreader{conn: c.conn, r: c.r, x: c.x, log: c.log}
}
/*
Ctlwriter and ctlreader implement the writing and reading a data stream. They
implement the io.Writer and io.Reader interface. In the protocol below each
non-data message ends with a newline that is typically stripped when
interpreting.
Zero or more data transactions:
> "123" (for data size) or an error message
> data, 123 bytes
< "ok" or an error message
Followed by a end of stream indicated by zero data bytes message:
> "0"
*/
type ctlwriter struct {
conn net.Conn // Ctl socket from which messages are read.
buf []byte // Scratch buffer, for reading response.
x any // If not nil, errors in Write and xcheckf are handled with panic(x), otherwise with a log.Fatal.
log *mlog.Log
}
func (s *ctlwriter) Write(buf []byte) (int, error) {
_, err := fmt.Fprintf(s.conn, "%d\n", len(buf))
s.xcheck(err, "write count")
_, err = s.conn.Write(buf)
s.xcheck(err, "write data")
if s.buf == nil {
s.buf = make([]byte, 512)
}
n, err := s.conn.Read(s.buf)
s.xcheck(err, "reading response to write")
line := strings.TrimSuffix(string(s.buf[:n]), "\n")
if line != "ok" {
s.xerror(line)
}
return len(buf), nil
}
func (s *ctlwriter) xerror(msg string) {
if s.x == nil {
log.Fatalln(msg)
} else {
s.log.Debugx("error", fmt.Errorf("%s", msg))
panic(s.x)
}
}
func (s *ctlwriter) xcheck(err error, msg string) {
if err == nil {
return
}
if s.x == nil {
log.Fatalf("%s: %s", msg, err)
} else {
s.log.Debugx(msg, err)
panic(s.x)
}
}
func (s *ctlwriter) xclose() {
_, err := fmt.Fprintf(s.conn, "0\n")
s.xcheck(err, "write eof")
}
type ctlreader struct {
conn net.Conn // For writing "ok" after reading.
r *bufio.Reader // Buffered ctl socket.
err error // If set, returned for each read. can also be io.EOF.
npending int // Number of bytes that can still be read until a new count line must be read.
x any // If set, errors are handled with panic(x) instead of log.Fatal.
log *mlog.Log // If x is set, logging goes to log.
}
func (s *ctlreader) Read(buf []byte) (N int, Err error) {
if s.err != nil {
return 0, s.err
}
if s.npending == 0 {
line, err := s.r.ReadString('\n')
s.xcheck(err, "reading count")
line = strings.TrimSuffix(line, "\n")
n, err := strconv.ParseInt(line, 10, 32)
if err != nil {
s.xerror(line)
}
if n == 0 {
s.err = io.EOF
return 0, s.err
}
s.npending = int(n)
_, err = fmt.Fprintln(s.conn, "ok")
s.xcheck(err, "writing ok after reading")
}
rn := len(buf)
if rn > s.npending {
rn = s.npending
}
n, err := s.r.Read(buf[:rn])
s.xcheck(err, "read from ctl")
s.npending -= n
return n, err
}
func (s *ctlreader) xerror(msg string) {
if s.x == nil {
log.Fatalln(msg)
} else {
s.log.Debugx("error", fmt.Errorf("%s", msg))
panic(s.x)
}
}
func (s *ctlreader) xcheck(err error, msg string) {
if err == nil {
return
}
if s.x == nil {
log.Fatalf("%s: %s", msg, err)
} else {
s.log.Debugx(msg, err)
panic(s.x)
}
}
// servectl handles requests on the unix domain socket "ctl", e.g. for graceful shutdown, local mail delivery.
func servectl(ctx context.Context, log *mlog.Log, conn net.Conn, shutdown func()) {
log.Debug("ctl connection")
var cmd string
var stop = struct{}{} // Sentinel value for panic and recover.
defer func() {
x := recover()
if x == nil || x == stop {
return
}
log.Error("servectl panic", mlog.Field("err", x), mlog.Field("cmd", cmd))
debug.PrintStack()
metrics.PanicInc("ctl")
}()
defer conn.Close()
ctl := &ctl{conn: conn, x: stop, log: log}
ctl.xwrite("ctlv0")
for {
servectlcmd(ctx, log, ctl, &cmd, shutdown)
}
}
func servectlcmd(ctx context.Context, log *mlog.Log, ctl *ctl, xcmd *string, shutdown func()) {
cmd := ctl.xread()
log.Info("ctl command", mlog.Field("cmd", cmd))
*xcmd = cmd
switch cmd {
case "stop":
shutdown()
os.Exit(0)
case "restart":
// First test the config.
_, errs := mox.ParseConfig(ctx, mox.ConfigStaticPath, true)
if len(errs) > 1 {
log.Error("multiple configuration errors before restart")
for _, err := range errs {
log.Errorx("config error", err)
}
ctl.xerror("restart aborted")
} else if len(errs) == 1 {
log.Errorx("configuration error, restart aborted", errs[0])
ctl.xerror(errs[0].Error())
}
binary, err := os.Executable()
ctl.xcheck(err, "finding executable")
cfr, ok := ctl.conn.(interface{ File() (*os.File, error) })
if !ok {
ctl.xerror("cannot dup ctl socket")
}
cf, err := cfr.File()
ctl.xcheck(err, "dup ctl socket")
defer cf.Close()
_, _, err = syscall.Syscall(syscall.SYS_FCNTL, cf.Fd(), syscall.F_SETFD, 0)
if err != syscall.Errno(0) {
ctl.xcheck(err, "clear close-on-exec on ctl socket")
}
ctl.xwriteok()
shutdown()
// todo future: we could gather all listen fd's, keep them open, passing them to the new process and indicate (in env var or cli flag) for which addresses they are, then exec and have the new process pick them up. not worth the trouble at the moment, our shutdown is typically quick enough.
// todo future: does this actually cleanup all M's on all platforms?
env := os.Environ()
var found bool
envv := fmt.Sprintf("MOX_RESTART_CTL_SOCKET=%d", cf.Fd())
for i, s := range env {
if strings.HasPrefix(s, "MOX_RESTART_CTL_SOCKET=") {
found = true
env[i] = envv
break
}
}
if !found {
env = append(env, envv)
}
// On success, we never get here and "serve" will write the OK on the MOX_RESTART_CTL_SOCKET and close it.
err = syscall.Exec(binary, os.Args, env)
runtime.KeepAlive(cf)
ctl.xcheck(err, "exec")
case "deliver":
/* The protocol, double quoted are literals.
> "deliver"
> address
< "ok"
> stream
< "ok"
*/
to := ctl.xread()
a, addr, err := store.OpenEmail(to)
ctl.xcheck(err, "lookup destination address")
msgFile, err := store.CreateMessageTemp("ctl-deliver")
ctl.xcheck(err, "creating temporary message file")
defer func() {
if msgFile != nil {
if err := os.Remove(msgFile.Name()); err != nil {
log.Errorx("removing temporary message file", err, mlog.Field("path", msgFile.Name()))
}
msgFile.Close()
}
}()
mw := &message.Writer{Writer: msgFile}
ctl.xwriteok()
ctl.xstreamto(mw)
err = msgFile.Sync()
ctl.xcheck(err, "syncing message to storage")
msgPrefix := []byte{}
if !mw.HaveHeaders {
msgPrefix = []byte("\r\n\r\n")
}
m := &store.Message{
Received: time.Now(),
Size: int64(len(msgPrefix)) + mw.Size,
MsgPrefix: msgPrefix,
}
a.WithWLock(func() {
err := a.Deliver(log, addr, m, msgFile, true)
ctl.xcheck(err, "delivering message")
log.Info("message delivered through ctl", mlog.Field("to", to))
})
msgFile.Close()
msgFile = nil
err = a.Close()
ctl.xcheck(err, "closing account")
ctl.xwriteok()
case "setaccountpassword":
/* protocol:
> "setaccountpassword"
> address
> password
< "ok" or error
*/
addr := ctl.xread()
pw := ctl.xread()
acc, _, err := store.OpenEmail(addr)
ctl.xcheck(err, "open account")
defer func() {
if acc != nil {
acc.Close()
}
}()
err = acc.SetPassword(pw)
ctl.xcheck(err, "setting password")
err = acc.Close()
ctl.xcheck(err, "closing account")
acc = nil
ctl.xwriteok()
case "queue":
/* protocol:
> "queue"
< "ok"
< stream
*/
qmsgs, err := queue.List()
ctl.xcheck(err, "listing queue")
ctl.xwriteok()
xw := ctl.writer()
fmt.Fprintln(xw, "queue:")
for _, qm := range qmsgs {
var lastAttempt string
if qm.LastAttempt != nil {
lastAttempt = time.Since(*qm.LastAttempt).Round(time.Second).String()
}
fmt.Fprintf(xw, "%5d %s from:%s@%s to:%s@%s next %s last %s error %q\n", qm.ID, qm.Queued.Format(time.RFC3339), qm.SenderLocalpart, qm.SenderDomain, qm.RecipientLocalpart, qm.RecipientDomain, -time.Since(qm.NextAttempt).Round(time.Second), lastAttempt, qm.LastError)
}
if len(qmsgs) == 0 {
fmt.Fprint(xw, "(empty)\n")
}
xw.xclose()
case "queuekick", "queuedrop":
/* protocol:
> "queuekick" or "queuedrop"
> id
> todomain
> recipient
< count
< "ok" or error
*/
idstr := ctl.xread()
todomain := ctl.xread()
recipient := ctl.xread()
id, err := strconv.ParseInt(idstr, 10, 64)
if err != nil {
ctl.xwrite("0")
ctl.xcheck(err, "parsing id")
}
var count int
if cmd == "queuekick" {
count, err = queue.Kick(id, todomain, recipient)
ctl.xcheck(err, "kicking queue")
} else {
count, err = queue.Drop(id, todomain, recipient)
ctl.xcheck(err, "dropping messages from queue")
}
ctl.xwrite(fmt.Sprintf("%d", count))
ctl.xwriteok()
case "queuedump":
/* protocol:
> "queuedump"
> id
< "ok" or error
< stream
*/
idstr := ctl.xread()
id, err := strconv.ParseInt(idstr, 10, 64)
if err != nil {
ctl.xcheck(err, "parsing id")
}
mr, err := queue.OpenMessage(id)
ctl.xcheck(err, "opening message")
defer mr.Close()
ctl.xwriteok()
ctl.xstreamfrom(mr)
case "importmaildir", "importmbox":
mbox := cmd == "importmbox"
importctl(ctl, mbox)
case "domainadd":
/* protocol:
> "domainadd"
> domain
> account
> localpart
< "ok" or error
*/
domain := ctl.xread()
account := ctl.xread()
localpart := ctl.xread()
d, err := dns.ParseDomain(domain)
ctl.xcheck(err, "parsing domain")
err = mox.DomainAdd(ctx, d, account, smtp.Localpart(localpart))
ctl.xcheck(err, "adding domain")
ctl.xwriteok()
case "domainrm":
/* protocol:
> "domainrm"
> domain
< "ok" or error
*/
domain := ctl.xread()
d, err := dns.ParseDomain(domain)
ctl.xcheck(err, "parsing domain")
err = mox.DomainRemove(ctx, d)
ctl.xcheck(err, "removing domain")
ctl.xwriteok()
case "accountadd":
/* protocol:
> "accountadd"
> account
> address
< "ok" or error
*/
account := ctl.xread()
address := ctl.xread()
err := mox.AccountAdd(ctx, account, address)
ctl.xcheck(err, "adding account")
ctl.xwriteok()
case "accountrm":
/* protocol:
> "accountrm"
> account
< "ok" or error
*/
account := ctl.xread()
err := mox.AccountRemove(ctx, account)
ctl.xcheck(err, "removing account")
ctl.xwriteok()
case "addressadd":
/* protocol:
> "addressadd"
> address
> account
< "ok" or error
*/
address := ctl.xread()
account := ctl.xread()
err := mox.AddressAdd(ctx, address, account)
ctl.xcheck(err, "adding address")
ctl.xwriteok()
case "addressrm":
/* protocol:
> "addressrm"
> address
< "ok" or error
*/
address := ctl.xread()
err := mox.AddressRemove(ctx, address)
ctl.xcheck(err, "removing address")
ctl.xwriteok()
case "loglevels":
/* protocol:
> "loglevels"
< "ok"
< stream
*/
ctl.xwriteok()
l := mox.Conf.LogLevels()
keys := []string{}
for k := range l {
keys = append(keys, k)
}
sort.Slice(keys, func(i, j int) bool {
return keys[i] < keys[j]
})
s := ""
for _, k := range keys {
ks := k
if ks == "" {
ks = "(default)"
}
s += ks + ": " + mlog.LevelStrings[l[k]] + "\n"
}
ctl.xstreamfrom(strings.NewReader(s))
case "setloglevels":
/* protocol:
> "setloglevels"
> pkg
> level (if empty, log level for pkg will be unset)
< "ok" or error
*/
pkg := ctl.xread()
levelstr := ctl.xread()
if levelstr == "" {
mox.Conf.LogLevelRemove(pkg)
} else {
level, ok := mlog.Levels[levelstr]
if !ok {
ctl.xerror("bad level")
}
mox.Conf.LogLevelSet(pkg, level)
}
ctl.xwriteok()
default:
log.Info("unrecognized command", mlog.Field("cmd", cmd))
ctl.xwrite("unrecognized command")
return
}
}