infrastructure/mox
1
0
Fork 0
mirror of https://github.com/mjl-/mox.git synced 2025-06-28 01:48:15 +03:00
Code Issues Packages Projects Releases Wiki Activity
mox/queue/hook_test.go
Mechiel Lukkien 577944310c
Improve expunged message/UID tracking in IMAP sessions, track synchronization history for mailboxes/annotations. 
Keeping the message files around, and the message details in the database, is
useful for IMAP sessions that haven't seen/processed the removal of a message
yet and try to fetch it. Before, we would return errors. Similarly, a session
that has a mailbox selected that is removed can (at least in theory) still read
messages.

The mechanics to do this need keeping removed mailboxes around too. JMAP needs
that anyway, so we now keep modseq/createseq/expunged history for mailboxes
too. And while we're at it, for annotations as well.

For future JMAP support, we now also keep the mailbox parent id around for a
mailbox, with an upgrade step to set the field for existing mailboxes and
fixing up potential missing parents (which could possibly have happened in an
obscure corner case that I doubt anyone ran into).
2025-03-06 11:35:44 +01:00

687 lines
20 KiB
Go
Raw Blame History

package queue
import (
"bytes"
"encoding/json"
"fmt"
"net/http"
"net/http/httptest"
"slices"
"strings"
"testing"
"time"
"github.com/mjl-/bstore"
"github.com/mjl-/mox/dsn"
"github.com/mjl-/mox/message"
"github.com/mjl-/mox/smtp"
"github.com/mjl-/mox/store"
"github.com/mjl-/mox/webhook"
)
// Test webhooks for incoming message that is not related to outgoing deliveries.
func TestHookIncoming(t *testing.T) {
acc, cleanup := setup(t)
defer cleanup()
accret, err := store.OpenAccount(pkglog, "retired", false)
tcheck(t, err, "open account for retired")
defer func() {
accret.Close()
accret.WaitClosed()
}()
testIncoming := func(a *store.Account, expIn bool) {
t.Helper()
_, err := bstore.QueryDB[Hook](ctxbg, DB).Delete()
tcheck(t, err, "clean up hooks")
mr := bytes.NewReader([]byte(testmsg))
now := time.Now().Round(0)
m := store.Message{
ID: 123,
RemoteIP: "::1",
MailFrom: "sender@remote.example",
MailFromLocalpart: "sender",
MailFromDomain: "remote.example",
RcptToLocalpart: "rcpt",
RcptToDomain: "mox.example",
MsgFromLocalpart: "mjl",
MsgFromDomain: "mox.example",
MsgFromOrgDomain: "mox.example",
EHLOValidated: true,
MailFromValidated: true,
MsgFromValidated: true,
EHLOValidation: store.ValidationPass,
MailFromValidation: store.ValidationPass,
MsgFromValidation: store.ValidationDMARC,
DKIMDomains: []string{"remote.example"},
Received: now,
Size: int64(len(testmsg)),
}
part, err := message.EnsurePart(pkglog.Logger, true, mr, int64(len(testmsg)))
tcheck(t, err, "parsing message")
err = Incoming(ctxbg, pkglog, a, "<random@localhost>", m, part, "Inbox")
tcheck(t, err, "pass incoming message")
hl, err := bstore.QueryDB[Hook](ctxbg, DB).List()
tcheck(t, err, "list hooks")
if !expIn {
tcompare(t, len(hl), 0)
return
}
tcompare(t, len(hl), 1)
h := hl[0]
tcompare(t, h.IsIncoming, true)
var in webhook.Incoming
dec := json.NewDecoder(strings.NewReader(h.Payload))
err = dec.Decode(&in)
tcheck(t, err, "decode incoming webhook")
in.Meta.Received = in.Meta.Received.Local() // For TZ UTC.
structure, err := PartStructure(pkglog, &part)
tcheck(t, err, "part structure")
expIncoming := webhook.Incoming{
From: []webhook.NameAddress{{Address: "mjl@mox.example"}},
To: []webhook.NameAddress{{Address: "mjl@mox.example"}},
CC: []webhook.NameAddress{},
BCC: []webhook.NameAddress{},
ReplyTo: []webhook.NameAddress{},
References: []string{},
Subject: "test",
Text: "test email\n",
Structure: structure,
Meta: webhook.IncomingMeta{
MsgID: m.ID,
MailFrom: m.MailFrom,
MailFromValidated: m.MailFromValidated,
MsgFromValidated: m.MsgFromValidated,
RcptTo: "rcpt@mox.example",
DKIMVerifiedDomains: []string{"remote.example"},
RemoteIP: "::1",
Received: m.Received,
MailboxName: "Inbox",
Automated: false,
},
}
tcompare(t, in, expIncoming)
}
testIncoming(acc, false)
testIncoming(accret, true)
}
// Test with fromid and various DSNs, and delivery.
func TestFromIDIncomingDelivery(t *testing.T) {
acc, cleanup := setup(t)
defer cleanup()
accret, err := store.OpenAccount(pkglog, "retired", false)
tcheck(t, err, "open account for retired")
defer func() {
accret.Close()
accret.WaitClosed()
}()
// Account that only gets webhook calls, but no retired webhooks.
acchook, err := store.OpenAccount(pkglog, "hook", false)
tcheck(t, err, "open account for hook")
defer func() {
acchook.Close()
acchook.WaitClosed()
}()
addr, err := smtp.ParseAddress("mjl@mox.example")
tcheck(t, err, "parse address")
path := addr.Path()
now := time.Now().Round(0)
m := store.Message{
ID: 123,
RemoteIP: "::1",
MailFrom: "sender@remote.example",
MailFromLocalpart: "sender",
MailFromDomain: "remote.example",
RcptToLocalpart: "rcpt",
RcptToDomain: "mox.example",
MsgFromLocalpart: "mjl",
MsgFromDomain: "mox.example",
MsgFromOrgDomain: "mox.example",
EHLOValidated: true,
MailFromValidated: true,
MsgFromValidated: true,
EHLOValidation: store.ValidationPass,
MailFromValidation: store.ValidationPass,
MsgFromValidation: store.ValidationDMARC,
DKIMDomains: []string{"remote.example"},
Received: now,
DSN: true,
}
testIncoming := func(a *store.Account, rawmsg []byte, retiredFromID string, expIn bool, expOut *webhook.Outgoing) {
t.Helper()
_, err := bstore.QueryDB[Hook](ctxbg, DB).Delete()
tcheck(t, err, "clean up hooks")
_, err = bstore.QueryDB[MsgRetired](ctxbg, DB).Delete()
tcheck(t, err, "clean up retired messages")
qmr := MsgRetired{
SenderAccount: a.Name,
SenderLocalpart: "sender",
SenderDomainStr: "remote.example",
RecipientLocalpart: "rcpt",
RecipientDomain: path.IPDomain,
RecipientDomainStr: "mox.example",
RecipientAddress: "rcpt@mox.example",
Success: true,
KeepUntil: now.Add(time.Minute),
}
m.RcptToLocalpart = "mjl"
qmr.FromID = retiredFromID
m.Size = int64(len(rawmsg))
m.RcptToLocalpart += smtp.Localpart("+unique")
err = DB.Insert(ctxbg, &qmr)
tcheck(t, err, "insert retired message to match")
if expOut != nil {
expOut.QueueMsgID = qmr.ID
}
mr := bytes.NewReader(rawmsg)
part, err := message.EnsurePart(pkglog.Logger, true, mr, int64(len(rawmsg)))
tcheck(t, err, "parsing message")
err = Incoming(ctxbg, pkglog, a, "<random@localhost>", m, part, "Inbox")
tcheck(t, err, "pass incoming message")
hl, err := bstore.QueryDB[Hook](ctxbg, DB).List()
tcheck(t, err, "list hooks")
if !expIn && expOut == nil {
tcompare(t, len(hl), 0)
return
}
tcompare(t, len(hl), 1)
h := hl[0]
tcompare(t, h.IsIncoming, expIn)
if expIn {
return
}
var out webhook.Outgoing
dec := json.NewDecoder(strings.NewReader(h.Payload))
err = dec.Decode(&out)
tcheck(t, err, "decode outgoing webhook")
out.WebhookQueued = time.Time{}
tcompare(t, &out, expOut)
}
dsncompose := func(m *dsn.Message) []byte {
buf, err := m.Compose(pkglog, false)
tcheck(t, err, "compose dsn")
return buf
}
makedsn := func(action dsn.Action) *dsn.Message {
return &dsn.Message{
From: path,
To: path,
TextBody: "explanation",
MessageID: "<dsnmsgid@localhost>",
ReportingMTA: "localhost",
Recipients: []dsn.Recipient{
{
FinalRecipient: path,
Action: action,
Status: "5.0.0.",
DiagnosticCodeSMTP: "554 5.0.0 error",
},
},
}
}
msgfailed := dsncompose(makedsn(dsn.Failed))
// No FromID to match against, so we get a webhook for a new incoming message.
testIncoming(acc, msgfailed, "", false, nil)
testIncoming(accret, msgfailed, "mismatch", true, nil)
// DSN with multiple recipients are treated as unrecognized dsns.
multidsn := makedsn(dsn.Delivered)
multidsn.Recipients = append(multidsn.Recipients, multidsn.Recipients[0])
msgmultidsn := dsncompose(multidsn)
testIncoming(acc, msgmultidsn, "unique", false, nil)
testIncoming(accret, msgmultidsn, "unique", false, &webhook.Outgoing{
Event: webhook.EventUnrecognized,
DSN: true,
FromID: "unique",
})
msgdelayed := dsncompose(makedsn(dsn.Delayed))
testIncoming(acc, msgdelayed, "unique", false, nil)
testIncoming(accret, msgdelayed, "unique", false, &webhook.Outgoing{
Event: webhook.EventDelayed,
DSN: true,
FromID: "unique",
SMTPCode: 554,
SMTPEnhancedCode: "5.0.0",
})
msgrelayed := dsncompose(makedsn(dsn.Relayed))
testIncoming(acc, msgrelayed, "unique", false, nil)
testIncoming(accret, msgrelayed, "unique", false, &webhook.Outgoing{
Event: webhook.EventRelayed,
DSN: true,
FromID: "unique",
SMTPCode: 554,
SMTPEnhancedCode: "5.0.0",
})
msgunrecognized := dsncompose(makedsn(dsn.Action("bogus")))
testIncoming(acc, msgunrecognized, "unique", false, nil)
testIncoming(accret, msgunrecognized, "unique", false, &webhook.Outgoing{
Event: webhook.EventUnrecognized,
DSN: true,
FromID: "unique",
})
// Not a DSN but to fromid address also causes "unrecognized".
msgunrecognized2 := []byte(testmsg)
testIncoming(acc, msgunrecognized2, "unique", false, nil)
testIncoming(accret, msgunrecognized2, "unique", false, &webhook.Outgoing{
Event: webhook.EventUnrecognized,
DSN: false,
FromID: "unique",
})
msgdelivered := dsncompose(makedsn(dsn.Delivered))
testIncoming(acc, msgdelivered, "unique", false, nil)
testIncoming(accret, msgdelivered, "unique", false, &webhook.Outgoing{
Event: webhook.EventDelivered,
DSN: true,
FromID: "unique",
// This is what DSN claims.
SMTPCode: 554,
SMTPEnhancedCode: "5.0.0",
})
testIncoming(acc, msgfailed, "unique", false, nil)
testIncoming(accret, msgfailed, "unique", false, &webhook.Outgoing{
Event: webhook.EventFailed,
DSN: true,
FromID: "unique",
SMTPCode: 554,
SMTPEnhancedCode: "5.0.0",
})
// We still have a webhook in the queue from the test above.
// Try to get the hook delivered. We'll try various error handling cases and superseding.
qsize, err := HookQueueSize(ctxbg)
tcheck(t, err, "hook queue size")
tcompare(t, qsize, 1)
var handler http.HandlerFunc
handleError := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.WriteHeader(http.StatusInternalServerError)
fmt.Fprintln(w, "server error")
})
handleOK := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.Header.Get("Authorization") != "Basic dXNlcm5hbWU6cGFzc3dvcmQ=" {
http.Error(w, "unauthorized", http.StatusUnauthorized)
return
}
if r.Header.Get("X-Mox-Webhook-ID") == "" {
http.Error(w, "missing header x-mox-webhook-id", http.StatusBadRequest)
return
}
if r.Header.Get("X-Mox-Webhook-Attempt") == "" {
http.Error(w, "missing header x-mox-webhook-attempt", http.StatusBadRequest)
return
}
fmt.Fprintln(w, "ok")
})
hs := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
handler.ServeHTTP(w, r)
}))
defer hs.Close()
h, err := bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get hook from queue")
next := hookNextWork(ctxbg, pkglog, map[string]struct{}{"https://other.example/": {}})
if next > 0 {
t.Fatalf("next scheduled work should be immediate, is %v", next)
}
// Respond with an error and see a retry is scheduled.
h.URL = hs.URL
// Update hook URL in database, so we can call hookLaunchWork. We'll call
// hookDeliver for later attempts.
err = DB.Update(ctxbg, &h)
tcheck(t, err, "update hook url")
handler = handleError
hookLaunchWork(pkglog, map[string]struct{}{"https://other.example/": {}})
<-hookDeliveryResults
err = DB.Get(ctxbg, &h)
tcheck(t, err, "get hook after failed delivery attempt")
tcompare(t, h.Attempts, 1)
tcompare(t, len(h.Results), 1)
tcompare(t, h.LastResult().Success, false)
tcompare(t, h.LastResult().Code, http.StatusInternalServerError)
tcompare(t, h.LastResult().Response, "server error\n")
next = hookNextWork(ctxbg, pkglog, map[string]struct{}{})
if next <= 0 {
t.Fatalf("next scheduled work is immediate, shoud be in the future")
}
n, err := HookNextAttemptSet(ctxbg, HookFilter{}, time.Now().Add(time.Minute))
tcheck(t, err, "schedule hook to now")
tcompare(t, n, 1)
n, err = HookNextAttemptAdd(ctxbg, HookFilter{}, -time.Minute)
tcheck(t, err, "schedule hook to now")
tcompare(t, n, 1)
next = hookNextWork(ctxbg, pkglog, map[string]struct{}{})
if next > 0 {
t.Fatalf("next scheduled work should be immediate, is %v", next)
}
handler = handleOK
hookDeliver(pkglog, h)
<-hookDeliveryResults
err = DB.Get(ctxbg, &h)
tcompare(t, err, bstore.ErrAbsent)
hr := HookRetired{ID: h.ID}
err = DB.Get(ctxbg, &hr)
tcheck(t, err, "get retired hook after delivery")
tcompare(t, hr.Attempts, 2)
tcompare(t, len(hr.Results), 2)
tcompare(t, hr.LastResult().Success, true)
tcompare(t, hr.LastResult().Code, http.StatusOK)
tcompare(t, hr.LastResult().Response, "ok\n")
// Check that cleaning up retired webhooks works.
cleanupHookRetiredSingle(pkglog)
hrl, err := bstore.QueryDB[HookRetired](ctxbg, DB).List()
tcheck(t, err, "listing retired hooks")
tcompare(t, len(hrl), 0)
// Helper to get a representative webhook added to the queue.
addHook := func(a *store.Account) {
testIncoming(a, msgfailed, "unique", false, &webhook.Outgoing{
Event: webhook.EventFailed,
DSN: true,
FromID: "unique",
SMTPCode: 554,
SMTPEnhancedCode: "5.0.0",
})
}
// Keep attempting and failing delivery until we give up.
addHook(accret)
h, err = bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get added hook")
h.URL = hs.URL
handler = handleError
for i := 0; i < len(hookIntervals); i++ {
hookDeliver(pkglog, h)
<-hookDeliveryResults
err := DB.Get(ctxbg, &h)
tcheck(t, err, "get hook")
tcompare(t, h.Attempts, i+1)
}
// Final attempt.
hookDeliver(pkglog, h)
<-hookDeliveryResults
err = DB.Get(ctxbg, &h)
tcompare(t, err, bstore.ErrAbsent)
hr = HookRetired{ID: h.ID}
err = DB.Get(ctxbg, &hr)
tcheck(t, err, "get retired hook after failure")
tcompare(t, hr.Attempts, len(hookIntervals)+1)
tcompare(t, len(hr.Results), len(hookIntervals)+1)
tcompare(t, hr.LastResult().Success, false)
tcompare(t, hr.LastResult().Code, http.StatusInternalServerError)
tcompare(t, hr.LastResult().Response, "server error\n")
// Check account "hook" doesn't get retired webhooks.
addHook(acchook)
h, err = bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get added hook")
handler = handleOK
h.URL = hs.URL
hookDeliver(pkglog, h)
<-hookDeliveryResults
err = DB.Get(ctxbg, &h)
tcompare(t, err, bstore.ErrAbsent)
hr = HookRetired{ID: h.ID}
err = DB.Get(ctxbg, &hr)
tcompare(t, err, bstore.ErrAbsent)
// HookCancel
addHook(accret)
h, err = bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get added hook")
n, err = HookCancel(ctxbg, pkglog, HookFilter{})
tcheck(t, err, "canceling hook")
tcompare(t, n, 1)
l, err := HookList(ctxbg, HookFilter{}, HookSort{})
tcheck(t, err, "list hook")
tcompare(t, len(l), 0)
// Superseding: When a webhook is scheduled for a message that already has a
// pending webhook, the previous webhook should be removed/retired.
_, err = bstore.QueryDB[HookRetired](ctxbg, DB).Delete()
tcheck(t, err, "clean up retired webhooks")
_, err = bstore.QueryDB[MsgRetired](ctxbg, DB).Delete()
tcheck(t, err, "clean up retired messages")
qmr := MsgRetired{
SenderAccount: accret.Name,
SenderLocalpart: "sender",
SenderDomainStr: "remote.example",
RecipientLocalpart: "rcpt",
RecipientDomain: path.IPDomain,
RecipientDomainStr: "mox.example",
RecipientAddress: "rcpt@mox.example",
Success: true,
KeepUntil: now.Add(time.Minute),
FromID: "unique",
}
err = DB.Insert(ctxbg, &qmr)
tcheck(t, err, "insert retired message to match")
m.RcptToLocalpart = "mjl"
m.Size = int64(len(msgdelayed))
m.RcptToLocalpart += smtp.Localpart("+unique")
mr := bytes.NewReader(msgdelayed)
part, err := message.EnsurePart(pkglog.Logger, true, mr, int64(len(msgdelayed)))
tcheck(t, err, "parsing message")
// Cause first webhook.
err = Incoming(ctxbg, pkglog, accret, "<random@localhost>", m, part, "Inbox")
tcheck(t, err, "pass incoming message")
h, err = bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get hook")
// Cause second webhook for same message. First should now be retired and marked as superseded.
err = Incoming(ctxbg, pkglog, accret, "<random@localhost>", m, part, "Inbox")
tcheck(t, err, "pass incoming message again")
h2, err := bstore.QueryDB[Hook](ctxbg, DB).Get()
tcheck(t, err, "get hook")
hr, err = bstore.QueryDB[HookRetired](ctxbg, DB).Get()
tcheck(t, err, "get retired hook")
tcompare(t, h.ID, hr.ID)
tcompare(t, hr.SupersededByID, h2.ID)
tcompare(t, h2.ID > h.ID, true)
}
func TestHookListFilterSort(t *testing.T) {
_, cleanup := setup(t)
defer cleanup()
now := time.Now().Round(0)
h := Hook{0, 0, "fromid", "messageid", "subj", nil, "mjl", "http://localhost", "", false, "delivered", "", now, 0, now, []HookResult{}}
h1 := h
h1.Submitted = now.Add(-time.Second)
h1.NextAttempt = now.Add(time.Minute)
hl := []Hook{h, h, h, h, h, h1}
err := DB.Write(ctxbg, func(tx *bstore.Tx) error {
for i := range hl {
err := hookInsert(tx, &hl[i], now, time.Minute)
tcheck(t, err, "insert hook")
}
return nil
})
tcheck(t, err, "inserting hooks")
h1 = hl[len(hl)-1]
hlrev := slices.Clone(hl)
slices.Reverse(hlrev)
// Ascending by nextattempt,id.
l, err := HookList(ctxbg, HookFilter{}, HookSort{Asc: true})
tcheck(t, err, "list")
tcompare(t, l, hl)
// Descending by nextattempt,id.
l, err = HookList(ctxbg, HookFilter{}, HookSort{})
tcheck(t, err, "list")
tcompare(t, l, hlrev)
// Descending by submitted,id.
l, err = HookList(ctxbg, HookFilter{}, HookSort{Field: "Submitted"})
tcheck(t, err, "list")
ll := append(append([]Hook{}, hlrev[1:]...), hl[5])
tcompare(t, l, ll)
// Filter by all fields to get a single.
allfilters := HookFilter{
Max: 2,
IDs: []int64{h1.ID},
Account: "mjl",
Submitted: "<1s",
NextAttempt: ">1s",
Event: "delivered",
}
l, err = HookList(ctxbg, allfilters, HookSort{})
tcheck(t, err, "list single")
tcompare(t, l, []Hook{h1})
// Paginated NextAttmpt asc.
var lastID int64
var last any
l = nil
for {
nl, err := HookList(ctxbg, HookFilter{Max: 1}, HookSort{Asc: true, LastID: lastID, Last: last})
tcheck(t, err, "list paginated")
l = append(l, nl...)
if len(nl) == 0 {
break
}
tcompare(t, len(nl), 1)
lastID, last = nl[0].ID, nl[0].NextAttempt.Format(time.RFC3339Nano)
}
tcompare(t, l, hl)
// Paginated NextAttempt desc.
l = nil
lastID = 0
last = ""
for {
nl, err := HookList(ctxbg, HookFilter{Max: 1}, HookSort{LastID: lastID, Last: last})
tcheck(t, err, "list paginated")
l = append(l, nl...)
if len(nl) == 0 {
break
}
tcompare(t, len(nl), 1)
lastID, last = nl[0].ID, nl[0].NextAttempt.Format(time.RFC3339Nano)
}
tcompare(t, l, hlrev)
// Paginated Submitted desc.
l = nil
lastID = 0
last = ""
for {
nl, err := HookList(ctxbg, HookFilter{Max: 1}, HookSort{Field: "Submitted", LastID: lastID, Last: last})
tcheck(t, err, "list paginated")
l = append(l, nl...)
if len(nl) == 0 {
break
}
tcompare(t, len(nl), 1)
lastID, last = nl[0].ID, nl[0].Submitted.Format(time.RFC3339Nano)
}
tcompare(t, l, ll)
// Paginated Submitted asc.
l = nil
lastID = 0
last = ""
for {
nl, err := HookList(ctxbg, HookFilter{Max: 1}, HookSort{Field: "Submitted", Asc: true, LastID: lastID, Last: last})
tcheck(t, err, "list paginated")
l = append(l, nl...)
if len(nl) == 0 {
break
}
tcompare(t, len(nl), 1)
lastID, last = nl[0].ID, nl[0].Submitted.Format(time.RFC3339Nano)
}
llrev := slices.Clone(ll)
slices.Reverse(llrev)
tcompare(t, l, llrev)
// Retire messages and do similar but more basic tests. The code is similar.
var hrl []HookRetired
err = DB.Write(ctxbg, func(tx *bstore.Tx) error {
for _, h := range hl {
hr := h.Retired(false, h.NextAttempt, time.Now().Add(time.Minute).Round(0))
err := tx.Insert(&hr)
tcheck(t, err, "inserting retired")
hrl = append(hrl, hr)
}
return nil
})
tcheck(t, err, "adding retired")
// Paginated LastActivity desc.
var lr []HookRetired
lastID = 0
last = ""
l = nil
for {
nl, err := HookRetiredList(ctxbg, HookRetiredFilter{Max: 1}, HookRetiredSort{LastID: lastID, Last: last})
tcheck(t, err, "list paginated")
lr = append(lr, nl...)
if len(nl) == 0 {
break
}
tcompare(t, len(nl), 1)
lastID, last = nl[0].ID, nl[0].LastActivity.Format(time.RFC3339Nano)
}
hrlrev := slices.Clone(hrl)
slices.Reverse(hrlrev)
tcompare(t, lr, hrlrev)
// Filter by all fields to get a single.
allretiredfilters := HookRetiredFilter{
Max: 2,
IDs: []int64{hrlrev[0].ID},
Account: "mjl",
Submitted: "<1s",
LastActivity: ">1s",
Event: "delivered",
}
lr, err = HookRetiredList(ctxbg, allretiredfilters, HookRetiredSort{})
tcheck(t, err, "list single")
tcompare(t, lr, []HookRetired{hrlrev[0]})
}
Reference in New Issue View Git Blame Copy Permalink