aerc/worker/imap/worker.go
Moritz Poldrack 70bfcfef42 lint: work nicely with wrapped errors (errorlint)
Error wrapping as introduced in Go 1.13 adds some additional logic to
use for comparing errors and adding information to it.

Signed-off-by: Moritz Poldrack <moritz@poldrack.dev>
Acked-by: Robin Jarry <robin@jarry.cc>
2022-08-04 21:58:04 +02:00

300 lines
7.4 KiB
Go

package imap
import (
"fmt"
"net/url"
"time"
"github.com/emersion/go-imap"
sortthread "github.com/emersion/go-imap-sortthread"
"github.com/emersion/go-imap/client"
"github.com/pkg/errors"
"github.com/syndtr/goleveldb/leveldb"
"git.sr.ht/~rjarry/aerc/lib"
"git.sr.ht/~rjarry/aerc/logging"
"git.sr.ht/~rjarry/aerc/models"
"git.sr.ht/~rjarry/aerc/worker/handlers"
"git.sr.ht/~rjarry/aerc/worker/types"
)
func init() {
handlers.RegisterWorkerFactory("imap", NewIMAPWorker)
handlers.RegisterWorkerFactory("imaps", NewIMAPWorker)
}
var (
errUnsupported = fmt.Errorf("unsupported command")
errClientNotReady = fmt.Errorf("client not ready")
errNotConnected = fmt.Errorf("not connected")
errAlreadyConnected = fmt.Errorf("already connected")
)
type imapClient struct {
*client.Client
thread *sortthread.ThreadClient
sort *sortthread.SortClient
}
type imapConfig struct {
scheme string
insecure bool
addr string
user *url.Userinfo
folders []string
oauthBearer lib.OAuthBearer
idle_timeout time.Duration
idle_debounce time.Duration
reconnect_maxwait time.Duration
// tcp connection parameters
connection_timeout time.Duration
keepalive_period time.Duration
keepalive_probes int
keepalive_interval int
cacheEnabled bool
cacheMaxAge time.Duration
}
type IMAPWorker struct {
config imapConfig
client *imapClient
selected *imap.MailboxStatus
updates chan client.Update
worker *types.Worker
seqMap SeqMap
idler *idler
observer *observer
cache *leveldb.DB
caps *models.Capabilities
}
func NewIMAPWorker(worker *types.Worker) (types.Backend, error) {
return &IMAPWorker{
updates: make(chan client.Update, 50),
worker: worker,
selected: &imap.MailboxStatus{},
idler: newIdler(imapConfig{}, worker),
observer: newObserver(imapConfig{}, worker),
caps: &models.Capabilities{},
}, nil
}
func (w *IMAPWorker) newClient(c *client.Client) {
c.Updates = w.updates
w.client = &imapClient{c, sortthread.NewThreadClient(c), sortthread.NewSortClient(c)}
w.idler.SetClient(w.client)
w.observer.SetClient(w.client)
sort, err := w.client.sort.SupportSort()
if err == nil && sort {
w.caps.Sort = true
logging.Infof("Server Capability found: Sort")
}
thread, err := w.client.thread.SupportThread()
if err == nil && thread {
w.caps.Thread = true
logging.Infof("Server Capability found: Thread")
}
}
func (w *IMAPWorker) handleMessage(msg types.WorkerMessage) error {
defer func() {
w.idler.Start()
}()
if err := w.idler.Stop(); err != nil {
return err
}
var reterr error // will be returned at the end, needed to support idle
// when client is nil allow only certain messages to be handled
if w.client == nil {
switch msg.(type) {
case *types.Connect, *types.Reconnect, *types.Disconnect, *types.Configure:
default:
return errClientNotReady
}
}
// set connection timeout for calls to imap server
if w.client != nil {
w.client.Timeout = w.config.connection_timeout
}
switch msg := msg.(type) {
case *types.Unsupported:
// No-op
case *types.Configure:
reterr = w.handleConfigure(msg)
case *types.Connect:
if w.client != nil && w.client.State() == imap.SelectedState {
if !w.observer.AutoReconnect() {
w.observer.SetAutoReconnect(true)
w.observer.EmitIfNotConnected()
}
reterr = errAlreadyConnected
break
}
w.observer.SetAutoReconnect(true)
c, err := w.connect()
if err != nil {
w.observer.EmitIfNotConnected()
reterr = err
break
}
w.newClient(c)
w.worker.PostMessage(&types.Done{Message: types.RespondTo(msg)}, nil)
case *types.Reconnect:
if !w.observer.AutoReconnect() {
reterr = fmt.Errorf("auto-reconnect is disabled; run connect to enable it")
break
}
c, err := w.connect()
if err != nil {
errReconnect := w.observer.DelayedReconnect()
reterr = errors.Wrap(errReconnect, err.Error())
break
}
w.newClient(c)
w.worker.PostMessage(&types.Done{Message: types.RespondTo(msg)}, nil)
case *types.Disconnect:
w.observer.SetAutoReconnect(false)
w.observer.Stop()
if w.client == nil || w.client.State() != imap.SelectedState {
reterr = errNotConnected
break
}
if err := w.client.Logout(); err != nil {
reterr = err
break
}
w.worker.PostMessage(&types.Done{Message: types.RespondTo(msg)}, nil)
case *types.ListDirectories:
w.handleListDirectories(msg)
case *types.OpenDirectory:
w.handleOpenDirectory(msg)
case *types.FetchDirectoryContents:
w.handleFetchDirectoryContents(msg)
case *types.FetchDirectoryThreaded:
w.handleDirectoryThreaded(msg)
case *types.CreateDirectory:
w.handleCreateDirectory(msg)
case *types.RemoveDirectory:
w.handleRemoveDirectory(msg)
case *types.FetchMessageHeaders:
w.handleFetchMessageHeaders(msg)
case *types.FetchMessageBodyPart:
w.handleFetchMessageBodyPart(msg)
case *types.FetchFullMessages:
w.handleFetchFullMessages(msg)
case *types.FetchMessageFlags:
w.handleFetchMessageFlags(msg)
case *types.DeleteMessages:
w.handleDeleteMessages(msg)
case *types.FlagMessages:
w.handleFlagMessages(msg)
case *types.AnsweredMessages:
w.handleAnsweredMessages(msg)
case *types.CopyMessages:
w.handleCopyMessages(msg)
case *types.AppendMessage:
w.handleAppendMessage(msg)
case *types.SearchDirectory:
w.handleSearchDirectory(msg)
case *types.CheckMail:
w.handleCheckMailMessage(msg)
default:
reterr = errUnsupported
}
// we don't want idle to timeout, so set timeout to zero
if w.client != nil {
w.client.Timeout = 0
}
return reterr
}
func (w *IMAPWorker) handleImapUpdate(update client.Update) {
logging.Debugf("(= %T", update)
switch update := update.(type) {
case *client.MailboxUpdate:
status := update.Mailbox
if w.selected.Name == status.Name {
w.selected = status
}
w.worker.PostMessage(&types.DirectoryInfo{
Info: &models.DirectoryInfo{
Flags: status.Flags,
Name: status.Name,
ReadOnly: status.ReadOnly,
Exists: int(status.Messages),
Recent: int(status.Recent),
Unseen: int(status.Unseen),
Caps: w.caps,
},
}, nil)
case *client.MessageUpdate:
msg := update.Message
if msg.Uid == 0 {
if uid, found := w.seqMap.Get(msg.SeqNum); !found {
logging.Errorf("MessageUpdate unknown seqnum: %d", msg.SeqNum)
return
} else {
msg.Uid = uid
}
}
if int(msg.SeqNum) > w.seqMap.Size() {
w.seqMap.Put(msg.Uid)
}
w.worker.PostMessage(&types.MessageInfo{
Info: &models.MessageInfo{
BodyStructure: translateBodyStructure(msg.BodyStructure),
Envelope: translateEnvelope(msg.Envelope),
Flags: translateImapFlags(msg.Flags),
InternalDate: msg.InternalDate,
Uid: msg.Uid,
},
}, nil)
case *client.ExpungeUpdate:
if uid, found := w.seqMap.Pop(update.SeqNum); !found {
logging.Errorf("ExpungeUpdate unknown seqnum: %d", update.SeqNum)
} else {
w.worker.PostMessage(&types.MessagesDeleted{
Uids: []uint32{uid},
}, nil)
}
}
}
func (w *IMAPWorker) Run() {
for {
select {
case msg := <-w.worker.Actions:
msg = w.worker.ProcessAction(msg)
if err := w.handleMessage(msg); errors.Is(err, errUnsupported) {
w.worker.PostMessage(&types.Unsupported{
Message: types.RespondTo(msg),
}, nil)
} else if err != nil {
w.worker.PostMessage(&types.Error{
Message: types.RespondTo(msg),
Error: err,
}, nil)
}
case update := <-w.updates:
w.handleImapUpdate(update)
}
}
}