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mox/imapserver/server_test.go
Mechiel Lukkien 28fae96a9b
make mox compile on windows, without "mox serve" but with working "mox localserve" 
getting mox to compile required changing code in only a few places where
package "syscall" was used: for accessing file access times and for umask
handling. an open problem is how to start a process as an unprivileged user on
windows.  that's why "mox serve" isn't implemented yet. and just finding a way
to implement it now may not be good enough in the near future: we may want to
starting using a more complete privilege separation approach, with a process
handling sensitive tasks (handling private keys, authentication), where we may
want to pass file descriptors between processes. how would that work on
windows?

anyway, getting mox to compile for windows doesn't mean it works properly on
windows. the largest issue: mox would normally open a file, rename or remove
it, and finally close it. this happens during message delivery. that doesn't
work on windows, the rename/remove would fail because the file is still open.
so this commit swaps many "remove" and "close" calls. renames are a longer
story: message delivery had two ways to deliver: with "consuming" the
(temporary) message file (which would rename it to its final destination), and
without consuming (by hardlinking the file, falling back to copying). the last
delivery to a recipient of a message (and the only one in the common case of a
single recipient) would consume the message, and the earlier recipients would
not.  during delivery, the already open message file was used, to parse the
message.  we still want to use that open message file, and the caller now stays
responsible for closing it, but we no longer try to rename (consume) the file.
we always hardlink (or copy) during delivery (this works on windows), and the
caller is responsible for closing and removing (in that order) the original
temporary file. this does cost one syscall more. but it makes the delivery code
(responsibilities) a bit simpler.

there is one more obvious issue: the file system path separator. mox already
used the "filepath" package to join paths in many places, but not everywhere.
and it still used strings with slashes for local file access. with this commit,
the code now uses filepath.FromSlash for path strings with slashes, uses
"filepath" in a few more places where it previously didn't. also switches from
"filepath" to regular "path" package when handling mailbox names in a few
places, because those always use forward slashes, regardless of local file
system conventions.  windows can handle forward slashes when opening files, so
test code that passes path strings with forward slashes straight to go stdlib
file i/o functions are left unchanged to reduce code churn. the regular
non-test code, or test code that uses path strings in places other than
standard i/o functions, does have the paths converted for consistent paths
(otherwise we would end up with paths with mixed forward/backward slashes in
log messages).

windows cannot dup a listening socket. for "mox localserve", it isn't
important, and we can work around the issue. the current approach for "mox
serve" (forking a process and passing file descriptors of listening sockets on
"privileged" ports) won't work on windows. perhaps it isn't needed on windows,
and any user can listen on "privileged" ports? that would be welcome.

on windows, os.Open cannot open a directory, so we cannot call Sync on it after
message delivery. a cursory internet search indicates that directories cannot
be synced on windows. the story is probably much more nuanced than that, with
long deep technical details/discussions/disagreement/confusion, like on unix.
for "mox localserve" we can get away with making syncdir a no-op.
2023-10-14 10:54:07 +02:00

694 lines
19 KiB
Go
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package imapserver
import (
"context"
"crypto/ed25519"
cryptorand "crypto/rand"
"crypto/tls"
"crypto/x509"
"fmt"
"math/big"
"net"
"os"
"path/filepath"
"reflect"
"strings"
"testing"
"time"
"github.com/mjl-/mox/imapclient"
"github.com/mjl-/mox/mox-"
"github.com/mjl-/mox/moxvar"
"github.com/mjl-/mox/store"
)
var ctxbg = context.Background()
func init() {
sanityChecks = true
// Don't slow down tests.
badClientDelay = 0
authFailDelay = 0
}
func tocrlf(s string) string {
return strings.ReplaceAll(s, "\n", "\r\n")
}
// From ../rfc/3501:2589
var exampleMsg = tocrlf(`Date: Mon, 7 Feb 1994 21:52:25 -0800 (PST)
From: Fred Foobar <foobar@Blurdybloop.example>
Subject: afternoon meeting
To: mooch@owatagu.siam.edu.example
Message-Id: <B27397-0100000@Blurdybloop.example>
MIME-Version: 1.0
Content-Type: TEXT/PLAIN; CHARSET=US-ASCII
Hello Joe, do you think we can meet at 3:30 tomorrow?
`)
/*
From ../rfc/2049:801
Message structure:
Message - multipart/mixed
Part 1 - no content-type
Part 2 - text/plain
Part 3 - multipart/parallel
Part 3.1 - audio/basic (base64)
Part 3.2 - image/jpeg (base64, empty)
Part 4 - text/enriched
Part 5 - message/rfc822
Part 5.1 - text/plain (quoted-printable)
*/
var nestedMessage = tocrlf(`MIME-Version: 1.0
From: Nathaniel Borenstein <nsb@nsb.fv.com>
To: Ned Freed <ned@innosoft.com>
Date: Fri, 07 Oct 1994 16:15:05 -0700 (PDT)
Subject: A multipart example
Content-Type: multipart/mixed;
boundary=unique-boundary-1
This is the preamble area of a multipart message.
Mail readers that understand multipart format
should ignore this preamble.
If you are reading this text, you might want to
consider changing to a mail reader that understands
how to properly display multipart messages.
--unique-boundary-1
... Some text appears here ...
[Note that the blank between the boundary and the start
of the text in this part means no header fields were
given and this is text in the US-ASCII character set.
It could have been done with explicit typing as in the
next part.]
--unique-boundary-1
Content-type: text/plain; charset=US-ASCII
This could have been part of the previous part, but
illustrates explicit versus implicit typing of body
parts.
--unique-boundary-1
Content-Type: multipart/parallel; boundary=unique-boundary-2
--unique-boundary-2
Content-Type: audio/basic
Content-Transfer-Encoding: base64
aGVsbG8NCndvcmxkDQo=
--unique-boundary-2
Content-Type: image/jpeg
Content-Transfer-Encoding: base64
--unique-boundary-2--
--unique-boundary-1
Content-type: text/enriched
This is <bold><italic>enriched.</italic></bold>
<smaller>as defined in RFC 1896</smaller>
Isn't it
<bigger><bigger>cool?</bigger></bigger>
--unique-boundary-1
Content-Type: message/rfc822
From: info@mox.example
To: mox <info@mox.example>
Subject: (subject in US-ASCII)
Content-Type: Text/plain; charset=ISO-8859-1
Content-Transfer-Encoding: Quoted-printable
... Additional text in ISO-8859-1 goes here ...
--unique-boundary-1--
`)
func tcheck(t *testing.T, err error, msg string) {
t.Helper()
if err != nil {
t.Fatalf("%s: %s", msg, err)
}
}
func mockUIDValidity() func() {
orig := store.InitialUIDValidity
store.InitialUIDValidity = func() uint32 {
return 1
}
return func() {
store.InitialUIDValidity = orig
}
}
type testconn struct {
t *testing.T
conn net.Conn
client *imapclient.Conn
done chan struct{}
serverConn net.Conn
account *store.Account
// Result of last command.
lastUntagged []imapclient.Untagged
lastResult imapclient.Result
lastErr error
}
func (tc *testconn) check(err error, msg string) {
tc.t.Helper()
if err != nil {
tc.t.Fatalf("%s: %s", msg, err)
}
}
func (tc *testconn) last(l []imapclient.Untagged, r imapclient.Result, err error) {
tc.lastUntagged = l
tc.lastResult = r
tc.lastErr = err
}
func (tc *testconn) xcode(s string) {
tc.t.Helper()
if tc.lastResult.Code != s {
tc.t.Fatalf("got last code %q, expected %q", tc.lastResult.Code, s)
}
}
func (tc *testconn) xcodeArg(v any) {
tc.t.Helper()
if !reflect.DeepEqual(tc.lastResult.CodeArg, v) {
tc.t.Fatalf("got last code argument %v, expected %v", tc.lastResult.CodeArg, v)
}
}
func (tc *testconn) xuntagged(exps ...imapclient.Untagged) {
tc.t.Helper()
tc.xuntaggedOpt(true, exps...)
}
func (tc *testconn) xuntaggedOpt(all bool, exps ...imapclient.Untagged) {
tc.t.Helper()
last := append([]imapclient.Untagged{}, tc.lastUntagged...)
var mismatch any
next:
for ei, exp := range exps {
for i, l := range last {
if reflect.TypeOf(l) != reflect.TypeOf(exp) {
continue
}
if !reflect.DeepEqual(l, exp) {
mismatch = l
continue
}
copy(last[i:], last[i+1:])
last = last[:len(last)-1]
continue next
}
if mismatch != nil {
tc.t.Fatalf("untagged data mismatch, got:\n\t%T %#v\nexpected:\n\t%T %#v", mismatch, mismatch, exp, exp)
}
var next string
if len(tc.lastUntagged) > 0 {
next = fmt.Sprintf(", next %#v", tc.lastUntagged[0])
}
tc.t.Fatalf("did not find untagged response %#v %T (%d) in %v%s", exp, exp, ei, tc.lastUntagged, next)
}
if len(last) > 0 && all {
tc.t.Fatalf("leftover untagged responses %v", last)
}
}
func tuntagged(t *testing.T, got imapclient.Untagged, dst any) {
t.Helper()
gotv := reflect.ValueOf(got)
dstv := reflect.ValueOf(dst)
if gotv.Type() != dstv.Type().Elem() {
t.Fatalf("got %v, expected %v", gotv.Type(), dstv.Type().Elem())
}
dstv.Elem().Set(gotv)
}
func (tc *testconn) xnountagged() {
tc.t.Helper()
if len(tc.lastUntagged) != 0 {
tc.t.Fatalf("got %v untagged, expected 0", tc.lastUntagged)
}
}
func (tc *testconn) transactf(status, format string, args ...any) {
tc.t.Helper()
tc.cmdf("", format, args...)
tc.response(status)
}
func (tc *testconn) response(status string) {
tc.t.Helper()
tc.lastUntagged, tc.lastResult, tc.lastErr = tc.client.Response()
tcheck(tc.t, tc.lastErr, "read imap response")
if strings.ToUpper(status) != string(tc.lastResult.Status) {
tc.t.Fatalf("got status %q, expected %q", tc.lastResult.Status, status)
}
}
func (tc *testconn) cmdf(tag, format string, args ...any) {
tc.t.Helper()
err := tc.client.Commandf(tag, format, args...)
tcheck(tc.t, err, "writing imap command")
}
func (tc *testconn) readstatus(status string) {
tc.t.Helper()
tc.response(status)
}
func (tc *testconn) readprefixline(pre string) {
tc.t.Helper()
line, err := tc.client.Readline()
tcheck(tc.t, err, "read line")
if !strings.HasPrefix(line, pre) {
tc.t.Fatalf("expected prefix %q, got %q", pre, line)
}
}
func (tc *testconn) writelinef(format string, args ...any) {
tc.t.Helper()
err := tc.client.Writelinef(format, args...)
tcheck(tc.t, err, "write line")
}
// wait at most 1 second for server to quit.
func (tc *testconn) waitDone() {
tc.t.Helper()
t := time.NewTimer(time.Second)
select {
case <-tc.done:
t.Stop()
case <-t.C:
tc.t.Fatalf("server not done within 1s")
}
}
func (tc *testconn) close() {
if tc.account == nil {
// Already closed, we are not strict about closing multiple times.
return
}
err := tc.account.Close()
tc.check(err, "close account")
tc.account = nil
tc.client.Close()
tc.serverConn.Close()
tc.waitDone()
}
func xparseNumSet(s string) imapclient.NumSet {
ns, err := imapclient.ParseNumSet(s)
if err != nil {
panic(fmt.Sprintf("parsing numset %s: %s", s, err))
}
return ns
}
var connCounter int64
func start(t *testing.T) *testconn {
return startArgs(t, true, false, true)
}
func startNoSwitchboard(t *testing.T) *testconn {
return startArgs(t, false, false, true)
}
func startArgs(t *testing.T, first, isTLS, allowLoginWithoutTLS bool) *testconn {
limitersInit() // Reset rate limiters.
if first {
os.RemoveAll("../testdata/imap/data")
}
mox.Context = ctxbg
mox.ConfigStaticPath = filepath.FromSlash("../testdata/imap/mox.conf")
mox.MustLoadConfig(true, false)
acc, err := store.OpenAccount("mjl")
tcheck(t, err, "open account")
if first {
err = acc.SetPassword("testtest")
tcheck(t, err, "set password")
}
switchStop := func() {}
if first {
switchStop = store.Switchboard()
}
serverConn, clientConn := net.Pipe()
tlsConfig := &tls.Config{
Certificates: []tls.Certificate{fakeCert(t)},
}
if isTLS {
serverConn = tls.Server(serverConn, tlsConfig)
clientConn = tls.Client(clientConn, &tls.Config{InsecureSkipVerify: true})
}
done := make(chan struct{})
connCounter++
cid := connCounter
go func() {
serve("test", cid, tlsConfig, serverConn, isTLS, allowLoginWithoutTLS)
switchStop()
close(done)
}()
client, err := imapclient.New(clientConn, true)
tcheck(t, err, "new client")
return &testconn{t: t, conn: clientConn, client: client, done: done, serverConn: serverConn, account: acc}
}
func fakeCert(t *testing.T) tls.Certificate {
privKey := ed25519.NewKeyFromSeed(make([]byte, ed25519.SeedSize)) // Fake key, don't use this for real!
template := &x509.Certificate{
SerialNumber: big.NewInt(1), // Required field...
}
localCertBuf, err := x509.CreateCertificate(cryptorand.Reader, template, template, privKey.Public(), privKey)
if err != nil {
t.Fatalf("making certificate: %s", err)
}
cert, err := x509.ParseCertificate(localCertBuf)
if err != nil {
t.Fatalf("parsing generated certificate: %s", err)
}
c := tls.Certificate{
Certificate: [][]byte{localCertBuf},
PrivateKey: privKey,
Leaf: cert,
}
return c
}
func TestLogin(t *testing.T) {
tc := start(t)
defer tc.close()
tc.transactf("bad", "login too many args")
tc.transactf("bad", "login") // no args
tc.transactf("no", "login mjl@mox.example badpass")
tc.transactf("no", "login mjl testtest") // must use email, not account
tc.transactf("no", "login mjl@mox.example test")
tc.transactf("no", "login mjl@mox.example testtesttest")
tc.transactf("no", `login "mjl@mox.example" "testtesttest"`)
tc.transactf("no", "login \"m\xf8x@mox.example\" \"testtesttest\"")
tc.transactf("ok", "login mjl@mox.example testtest")
tc.close()
tc = start(t)
tc.transactf("ok", `login "mjl@mox.example" "testtest"`)
tc.close()
tc = start(t)
tc.transactf("ok", `login "\"\"@mox.example" "testtest"`)
defer tc.close()
tc.transactf("bad", "logout badarg")
tc.transactf("ok", "logout")
}
// Test that commands don't work in the states they are not supposed to.
func TestState(t *testing.T) {
tc := start(t)
notAuthenticated := []string{"starttls", "authenticate", "login"}
authenticatedOrSelected := []string{"enable", "select", "examine", "create", "delete", "rename", "subscribe", "unsubscribe", "list", "namespace", "status", "append", "idle", "lsub"}
selected := []string{"close", "unselect", "expunge", "search", "fetch", "store", "copy", "move", "uid expunge"}
// Always allowed.
tc.transactf("ok", "capability")
tc.transactf("ok", "noop")
tc.transactf("ok", "logout")
tc.close()
tc = start(t)
defer tc.close()
// Not authenticated, lots of commands not allowed.
for _, cmd := range append(append([]string{}, authenticatedOrSelected...), selected...) {
tc.transactf("no", "%s", cmd)
}
// Some commands not allowed when authenticated.
tc.transactf("ok", "login mjl@mox.example testtest")
for _, cmd := range append(append([]string{}, notAuthenticated...), selected...) {
tc.transactf("no", "%s", cmd)
}
tc.transactf("bad", "boguscommand")
}
func TestNonIMAP(t *testing.T) {
tc := start(t)
defer tc.close()
// imap greeting has already been read, we sidestep the imapclient.
_, err := fmt.Fprintf(tc.conn, "bogus\r\n")
tc.check(err, "write bogus command")
tc.readprefixline("* BYE ")
if _, err := tc.conn.Read(make([]byte, 1)); err == nil {
t.Fatalf("connection not closed after initial bad command")
}
}
func TestLiterals(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
tc.client.Create("tmpbox")
tc.transactf("ok", "rename {6+}\r\ntmpbox {7+}\r\nntmpbox")
from := "ntmpbox"
to := "tmpbox"
fmt.Fprint(tc.client, "xtag rename ")
tc.client.WriteSyncLiteral(from)
fmt.Fprint(tc.client, " ")
tc.client.WriteSyncLiteral(to)
fmt.Fprint(tc.client, "\r\n")
tc.client.LastTag = "xtag"
tc.last(tc.client.Response())
if tc.lastResult.Status != "OK" {
tc.t.Fatalf(`got %q, expected "OK"`, tc.lastResult.Status)
}
}
// Test longer scenario with login, lists, subscribes, status, selects, etc.
func TestScenario(t *testing.T) {
tc := start(t)
defer tc.close()
tc.transactf("ok", "login mjl@mox.example testtest")
tc.transactf("bad", " missingcommand")
tc.transactf("ok", "examine inbox")
tc.transactf("ok", "unselect")
tc.transactf("ok", "examine inbox")
tc.transactf("ok", "close")
tc.transactf("ok", "select inbox")
tc.transactf("ok", "close")
tc.transactf("ok", "select inbox")
tc.transactf("ok", "expunge")
tc.transactf("ok", "check")
tc.transactf("ok", "subscribe inbox")
tc.transactf("ok", "unsubscribe inbox")
tc.transactf("ok", "subscribe inbox")
tc.transactf("ok", `lsub "" "*"`)
tc.transactf("ok", `list "" ""`)
tc.transactf("ok", `namespace`)
tc.transactf("ok", "enable utf8=accept")
tc.transactf("ok", "enable imap4rev2 utf8=accept")
tc.transactf("no", "create inbox")
tc.transactf("ok", "create tmpbox")
tc.transactf("ok", "rename tmpbox ntmpbox")
tc.transactf("ok", "delete ntmpbox")
tc.transactf("ok", "status inbox (uidnext messages uidvalidity deleted size unseen recent)")
tc.transactf("ok", "append inbox (\\seen) {%d+}\r\n%s", len(exampleMsg), exampleMsg)
tc.transactf("no", "append bogus () {%d}", len(exampleMsg))
tc.cmdf("", "append inbox () {%d}", len(exampleMsg))
tc.readprefixline("+ ")
_, err := tc.conn.Write([]byte(exampleMsg + "\r\n"))
tc.check(err, "write message")
tc.response("ok")
tc.transactf("ok", "fetch 1 all")
tc.transactf("ok", "fetch 1 body")
tc.transactf("ok", "fetch 1 binary[]")
tc.transactf("ok", `store 1 flags (\seen \answered)`)
tc.transactf("ok", `store 1 +flags ($junk)`) // should train as junk.
tc.transactf("ok", `store 1 -flags ($junk)`) // should retrain as non-junk.
tc.transactf("ok", `store 1 -flags (\seen)`) // should untrain completely.
tc.transactf("ok", `store 1 -flags (\answered)`)
tc.transactf("ok", `store 1 +flags (\answered)`)
tc.transactf("ok", `store 1 flags.silent (\seen \answered)`)
tc.transactf("ok", `store 1 -flags.silent (\answered)`)
tc.transactf("ok", `store 1 +flags.silent (\answered)`)
tc.transactf("bad", `store 1 flags (\badflag)`)
tc.transactf("ok", "noop")
tc.transactf("ok", "copy 1 Trash")
tc.transactf("ok", "copy 1 Trash")
tc.transactf("ok", "move 1 Trash")
tc.transactf("ok", "close")
tc.transactf("ok", "select Trash")
tc.transactf("ok", `store 1 flags (\deleted)`)
tc.transactf("ok", "expunge")
tc.transactf("ok", "noop")
tc.transactf("ok", `store 1 flags (\deleted)`)
tc.transactf("ok", "close")
tc.transactf("ok", "delete Trash")
}
func TestMailbox(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
invalid := []string{
"e\u0301", // é but as e + acute, not unicode-normalized
"/leadingslash",
"a//b",
"Inbox/",
"\x01",
" ",
"\x7f",
"\x80",
"\u2028",
"\u2029",
}
for _, bad := range invalid {
tc.transactf("no", "select {%d+}\r\n%s", len(bad), bad)
}
}
func TestMailboxDeleted(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
tc2 := startNoSwitchboard(t)
defer tc2.close()
tc2.client.Login("mjl@mox.example", "testtest")
tc.client.Create("testbox")
tc2.client.Select("testbox")
tc.client.Delete("testbox")
// Now try to operate on testbox while it has been removed.
tc2.transactf("no", "check")
tc2.transactf("no", "expunge")
tc2.transactf("no", "uid expunge 1")
tc2.transactf("no", "search all")
tc2.transactf("no", "uid search all")
tc2.transactf("no", "fetch 1:* all")
tc2.transactf("no", "uid fetch 1 all")
tc2.transactf("no", "store 1 flags ()")
tc2.transactf("no", "uid store 1 flags ()")
tc2.transactf("bad", "copy 1 inbox") // msgseq 1 not available.
tc2.transactf("no", "uid copy 1 inbox")
tc2.transactf("bad", "move 1 inbox") // msgseq 1 not available.
tc2.transactf("no", "uid move 1 inbox")
tc2.transactf("ok", "unselect")
tc.client.Create("testbox")
tc2.client.Select("testbox")
tc.client.Delete("testbox")
tc2.transactf("ok", "close")
}
func TestID(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
tc.transactf("ok", "id nil")
tc.xuntagged(imapclient.UntaggedID{"name": "mox", "version": moxvar.Version})
tc.transactf("ok", `id ("name" "mox" "version" "1.2.3" "other" "test" "test" nil)`)
tc.xuntagged(imapclient.UntaggedID{"name": "mox", "version": moxvar.Version})
tc.transactf("bad", `id ("name" "mox" "name" "mox")`) // Duplicate field.
}
func TestSequence(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
tc.client.Select("inbox")
tc.transactf("bad", "fetch * all") // ../rfc/9051:7018
tc.transactf("bad", "fetch 1 all") // ../rfc/9051:7018
tc.transactf("ok", "uid fetch 1 all") // non-existing messages are OK for uids.
tc.transactf("ok", "uid fetch * all") // * is like uidnext, a non-existing message.
tc.client.Append("inbox", nil, nil, []byte(exampleMsg))
tc.client.Append("inbox", nil, nil, []byte(exampleMsg))
tc.transactf("ok", "fetch 2:1,1 uid") // We reorder 2:1 to 1:2, but we don't deduplicate numbers.
tc.xuntagged(
imapclient.UntaggedFetch{Seq: 1, Attrs: []imapclient.FetchAttr{imapclient.FetchUID(1)}},
imapclient.UntaggedFetch{Seq: 2, Attrs: []imapclient.FetchAttr{imapclient.FetchUID(2)}},
imapclient.UntaggedFetch{Seq: 1, Attrs: []imapclient.FetchAttr{imapclient.FetchUID(1)}},
)
tc.transactf("ok", "uid fetch 3:* uid") // Because * is the last message, which is 2, the range becomes 3:2, which matches the last message.
tc.xuntagged(imapclient.UntaggedFetch{Seq: 2, Attrs: []imapclient.FetchAttr{imapclient.FetchUID(2)}})
}
// Test that a message that is expunged by another session can be read as long as a
// reference is held by a session. New sessions do not see the expunged message.
// todo: possibly implement the additional reference counting. so far it hasn't been worth the trouble.
func DisabledTestReference(t *testing.T) {
tc := start(t)
defer tc.close()
tc.client.Login("mjl@mox.example", "testtest")
tc.client.Select("inbox")
tc.client.Append("inbox", nil, nil, []byte(exampleMsg))
tc2 := startNoSwitchboard(t)
defer tc2.close()
tc2.client.Login("mjl@mox.example", "testtest")
tc2.client.Select("inbox")
tc.client.StoreFlagsSet("1", true, `\Deleted`)
tc.client.Expunge()
tc3 := startNoSwitchboard(t)
defer tc3.close()
tc3.client.Login("mjl@mox.example", "testtest")
tc3.transactf("ok", `list "" "inbox" return (status (messages))`)
tc3.xuntagged(imapclient.UntaggedList{Separator: '/', Mailbox: "Inbox"}, imapclient.UntaggedStatus{Mailbox: "Inbox", Attrs: map[string]int64{"MESSAGES": 0}})
tc2.transactf("ok", "fetch 1 rfc822.size")
tc.xuntagged(imapclient.UntaggedFetch{Seq: 1, Attrs: []imapclient.FetchAttr{imapclient.FetchRFC822Size(len(exampleMsg))}})
}
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