package store import ( "os" "reflect" "strings" "testing" "time" "github.com/mjl-/bstore" "github.com/mjl-/mox/mlog" "github.com/mjl-/mox/mox-" ) func TestThreadingUpgrade(t *testing.T) { os.RemoveAll("../testdata/store/data") mox.ConfigStaticPath = "../testdata/store/mox.conf" mox.MustLoadConfig(true, false) acc, err := OpenAccount("mjl") tcheck(t, err, "open account") defer func() { err = acc.Close() tcheck(t, err, "closing account") }() defer Switchboard()() log := mlog.New("store") // New account already has threading. Add some messages, check the threading. deliver := func(recv time.Time, s string, expThreadID int64) Message { t.Helper() f, err := CreateMessageTemp("account-test") tcheck(t, err, "temp file") defer f.Close() s = strings.ReplaceAll(s, "\n", "\r\n") m := Message{ Size: int64(len(s)), MsgPrefix: []byte(s), Received: recv, } err = acc.DeliverMailbox(log, "Inbox", &m, f, true) tcheck(t, err, "deliver") if expThreadID == 0 { expThreadID = m.ID } if m.ThreadID != expThreadID { t.Fatalf("got threadid %d, expected %d", m.ThreadID, expThreadID) } return m } now := time.Now() m0 := deliver(now, "Message-ID: \nSubject: test1\n\ntest\n", 0) m1 := deliver(now, "Message-ID: \nReferences: \nSubject: test1\n\ntest\n", m0.ID) // References. m2 := deliver(now, "Message-ID: \nReferences: \nSubject: other\n\ntest\n", 0) // References, but different subject. m3 := deliver(now, "Message-ID: \nIn-Reply-To: \nSubject: test1\n\ntest\n", m0.ID) // In-Reply-To. m4 := deliver(now, "Message-ID: \nSubject: re: test1\n\ntest\n", m0.ID) // Subject. m5 := deliver(now, "Message-ID: \nSubject: test1 (fwd)\n\ntest\n", m0.ID) // Subject. m6 := deliver(now, "Message-ID: \nSubject: [fwd: test1]\n\ntest\n", m0.ID) // Subject. m7 := deliver(now, "Message-ID: \nSubject: test1\n\ntest\n", 0) // Only subject, but not a response. // Thread with a cyclic head, a self-referencing message. c1 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", 0) // Head cycle with m8. c2 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) // Head cycle with c1. c3 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) // Connected to one of the cycle elements. c4 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) // Connected to other cycle element. c5 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) c5b := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) // Duplicate, e.g. Sent item, internal cycle during upgrade. c6 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) c7 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle0\n\ntest\n", c1.ID) // Self-referencing message that also points to actual parent. // More than 2 messages to make a cycle. d0 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle1\n\ntest\n", 0) d1 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle1\n\ntest\n", d0.ID) d2 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle1\n\ntest\n", d0.ID) // Cycle with messages delivered later. During import/upgrade, they will all be one thread. e0 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle2\n\ntest\n", 0) e1 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle2\n\ntest\n", 0) e2 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle2\n\ntest\n", e0.ID) // Three messages in a cycle (f1, f2, f3), with one with an additional ancestor (f4) which is ignored due to the cycle. Has different threads during import. f0 := deliver(now, "Message-ID: \nSubject: cycle3\n\ntest\n", 0) f1 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle3\n\ntest\n", f0.ID) f2 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle3\n\ntest\n", 0) f3 := deliver(now, "Message-ID: \nReferences: \nSubject: cycle3\n\ntest\n", f0.ID) // Duplicate single message (no larger thread). g0 := deliver(now, "Message-ID: \nSubject: dup\n\ntest\n", 0) g0b := deliver(now, "Message-ID: \nSubject: dup\n\ntest\n", g0.ID) // Duplicate message with a child message. h0 := deliver(now, "Message-ID: \nSubject: dup2\n\ntest\n", 0) h0b := deliver(now, "Message-ID: \nSubject: dup2\n\ntest\n", h0.ID) h1 := deliver(now, "Message-ID: \nReferences: \nSubject: dup2\n\ntest\n", h0.ID) // Message has itself as reference. s0 := deliver(now, "Message-ID: \nReferences: \nSubject: self-referencing message\n\ntest\n", 0) // Message with \0 in subject, should get an empty base subject. b0 := deliver(now, "Message-ID: \nSubject: bad\u0000subject\n\ntest\n", 0) b1 := deliver(now, "Message-ID: \nSubject: bad\u0000subject\n\ntest\n", 0) // Not matched. // Interleaved duplicate threaded messages. First child, then parent, then duplicate parent, then duplicat child again. i0 := deliver(now, "Message-ID: \nReferences: \nSubject: interleaved duplicate\n\ntest\n", 0) i1 := deliver(now, "Message-ID: \nSubject: interleaved duplicate\n\ntest\n", 0) i2 := deliver(now, "Message-ID: \nSubject: interleaved duplicate\n\ntest\n", i1.ID) i3 := deliver(now, "Message-ID: \nReferences: \nSubject: interleaved duplicate\n\ntest\n", i0.ID) j0 := deliver(now, "Message-ID: \nReferences: <>\nSubject: empty id in references\n\ntest\n", 0) dbpath := acc.DBPath err = acc.Close() tcheck(t, err, "close account") // Now clear the threading upgrade, and the threading fields and close the account. // We open the database file directly, so we don't trigger the consistency checker. db, err := bstore.Open(ctxbg, dbpath, &bstore.Options{Timeout: 5 * time.Second, Perm: 0660}, DBTypes...) err = db.Write(ctxbg, func(tx *bstore.Tx) error { up := Upgrade{ID: 1} err := tx.Delete(&up) tcheck(t, err, "delete upgrade") q := bstore.QueryTx[Message](tx) _, err = q.UpdateFields(map[string]any{ "MessageID": "", "SubjectBase": "", "ThreadID": int64(0), "ThreadParentIDs": []int64(nil), "ThreadMissingLink": false, }) return err }) tcheck(t, err, "reset threading fields") err = db.Close() tcheck(t, err, "closing db") // Open the account again, that should get the account upgraded. Wait for upgrade to finish. acc, err = OpenAccount("mjl") tcheck(t, err, "open account") err = acc.ThreadingWait(log) tcheck(t, err, "wait for threading") check := func(id int64, expThreadID int64, expParentIDs []int64, expMissingLink bool) { t.Helper() m := Message{ID: id} err := acc.DB.Get(ctxbg, &m) tcheck(t, err, "get message") if m.ThreadID != expThreadID || !reflect.DeepEqual(m.ThreadParentIDs, expParentIDs) || m.ThreadMissingLink != expMissingLink { t.Fatalf("got thread id %d, parent ids %v, missing link %v, expected %d %v %v", m.ThreadID, m.ThreadParentIDs, m.ThreadMissingLink, expThreadID, expParentIDs, expMissingLink) } } parents0 := []int64{m0.ID} check(m0.ID, m0.ID, nil, false) check(m1.ID, m0.ID, parents0, false) check(m2.ID, m2.ID, nil, true) check(m3.ID, m0.ID, parents0, false) check(m4.ID, m0.ID, parents0, true) check(m5.ID, m0.ID, parents0, true) check(m6.ID, m0.ID, parents0, true) check(m7.ID, m7.ID, nil, false) check(c1.ID, c1.ID, nil, true) // Head of cycle, hence missing link check(c2.ID, c1.ID, []int64{c1.ID}, false) check(c3.ID, c1.ID, []int64{c1.ID}, false) check(c4.ID, c1.ID, []int64{c2.ID, c1.ID}, false) check(c5.ID, c1.ID, []int64{c4.ID, c2.ID, c1.ID}, false) check(c5b.ID, c1.ID, []int64{c5.ID, c4.ID, c2.ID, c1.ID}, true) check(c6.ID, c1.ID, []int64{c5.ID, c4.ID, c2.ID, c1.ID}, false) check(c7.ID, c1.ID, []int64{c5.ID, c4.ID, c2.ID, c1.ID}, true) check(d0.ID, d0.ID, nil, true) check(d1.ID, d0.ID, []int64{d0.ID}, false) check(d2.ID, d0.ID, []int64{d1.ID, d0.ID}, false) check(e0.ID, e0.ID, nil, true) check(e1.ID, e0.ID, []int64{e2.ID, e0.ID}, false) check(e2.ID, e0.ID, []int64{e0.ID}, false) check(f0.ID, f0.ID, nil, false) check(f1.ID, f1.ID, nil, true) check(f2.ID, f1.ID, []int64{f3.ID, f1.ID}, false) check(f3.ID, f1.ID, []int64{f1.ID}, false) check(g0.ID, g0.ID, nil, false) check(g0b.ID, g0.ID, []int64{g0.ID}, true) check(h0.ID, h0.ID, nil, false) check(h0b.ID, h0.ID, []int64{h0.ID}, true) check(h1.ID, h0.ID, []int64{h0.ID}, false) check(s0.ID, s0.ID, nil, true) check(b0.ID, b0.ID, nil, false) check(b1.ID, b1.ID, nil, false) check(i0.ID, i1.ID, []int64{i1.ID}, false) check(i1.ID, i1.ID, nil, false) check(i2.ID, i1.ID, []int64{i1.ID}, true) check(i3.ID, i1.ID, []int64{i0.ID, i1.ID}, true) check(j0.ID, j0.ID, nil, false) }