aerc/worker/imap/fetch.go
Tim Culverhouse fdfec2c07a seqmap: refactor seqmap to use slice instead of map
The imap worker's seqmap is represented as a map of sequence number to
UID. This presents a problem when expunging group of messages from the
mailbox: each individual expunge decrements the sequence numbers by 1
(for every sequence number greater than the expunged). This requires a
looping around the map to update the keys. The use of a map also
requires that both the sequence number and the UID of a message be known
in order to insert it into the map. This is only discovered by fetching
individual message body parts (flags, headers, etc), leaving the seqmap
to be empty until we have fetched information about each message. In
certain instances (if a mailbox has recently been loaded), all
information is loaded in memory and no new information is fetched -
leaving the seqmap empty and the UI out of sync with the worker.

Refactor the seqmap as a slice, so that any expunge automatically
decrements the rest of the sequences.

Use the results of FetchDirectoryContents or FetchDirectoryThreaded to
initialize the seqmap with all discovered UIDs. Sort the UIDs in
ascending order: IMAP specification requires that sequence numbers start
at 1 increase in order of ascending UID.

Add individual messages to the map if they come via a MessageUpdate and
have a sequence number larger than our slice.

Update seqmap tests with new logic.

Reference: https://datatracker.ietf.org/doc/html/rfc3501#section-2.3.1.2
Fixes: https://todo.sr.ht/~rjarry/aerc/69
Signed-off-by: Tim Culverhouse <tim@timculverhouse.com>
Acked-by: Robin Jarry <robin@jarry.cc>
2022-08-03 22:37:13 +02:00

250 lines
6.2 KiB
Go

package imap
import (
"bufio"
"fmt"
"github.com/emersion/go-imap"
"github.com/emersion/go-message"
_ "github.com/emersion/go-message/charset"
"github.com/emersion/go-message/mail"
"github.com/emersion/go-message/textproto"
"git.sr.ht/~rjarry/aerc/logging"
"git.sr.ht/~rjarry/aerc/models"
"git.sr.ht/~rjarry/aerc/worker/types"
)
func (imapw *IMAPWorker) handleFetchMessageHeaders(
msg *types.FetchMessageHeaders,
) {
toFetch := msg.Uids
if imapw.config.cacheEnabled && imapw.cache != nil {
toFetch = imapw.getCachedHeaders(msg)
}
if len(toFetch) == 0 {
imapw.worker.PostMessage(&types.Done{Message: types.RespondTo(msg)},
nil)
return
}
logging.Infof("Fetching message headers: %v", toFetch)
section := &imap.BodySectionName{
BodyPartName: imap.BodyPartName{
Specifier: imap.HeaderSpecifier,
},
Peek: true,
}
items := []imap.FetchItem{
imap.FetchBodyStructure,
imap.FetchEnvelope,
imap.FetchInternalDate,
imap.FetchFlags,
imap.FetchUid,
section.FetchItem(),
}
imapw.handleFetchMessages(msg, toFetch, items,
func(_msg *imap.Message) error {
reader := _msg.GetBody(section)
textprotoHeader, err := textproto.ReadHeader(bufio.NewReader(reader))
if err != nil {
logging.Errorf(
"message %d: could not read header: %v", _msg.Uid, err)
imapw.worker.PostMessage(&types.Error{
Message: types.RespondTo(msg),
Error: err,
}, nil)
return nil
}
header := &mail.Header{Header: message.Header{Header: textprotoHeader}}
info := &models.MessageInfo{
BodyStructure: translateBodyStructure(_msg.BodyStructure),
Envelope: translateEnvelope(_msg.Envelope),
Flags: translateImapFlags(_msg.Flags),
InternalDate: _msg.InternalDate,
RFC822Headers: header,
Uid: _msg.Uid,
}
imapw.worker.PostMessage(&types.MessageInfo{
Message: types.RespondTo(msg),
Info: info,
}, nil)
if imapw.config.cacheEnabled && imapw.cache != nil {
imapw.cacheHeader(info)
}
return nil
})
}
func (imapw *IMAPWorker) handleFetchMessageBodyPart(
msg *types.FetchMessageBodyPart,
) {
logging.Infof("Fetching message %d part: %v", msg.Uid, msg.Part)
var partHeaderSection imap.BodySectionName
partHeaderSection.Peek = true
if len(msg.Part) > 0 {
partHeaderSection.Specifier = imap.MIMESpecifier
} else {
partHeaderSection.Specifier = imap.HeaderSpecifier
}
partHeaderSection.Path = msg.Part
var partBodySection imap.BodySectionName
if len(msg.Part) > 0 {
partBodySection.Specifier = imap.EntireSpecifier
} else {
partBodySection.Specifier = imap.TextSpecifier
}
partBodySection.Path = msg.Part
items := []imap.FetchItem{
imap.FetchEnvelope,
imap.FetchUid,
imap.FetchBodyStructure,
imap.FetchFlags,
partHeaderSection.FetchItem(),
partBodySection.FetchItem(),
}
imapw.handleFetchMessages(msg, []uint32{msg.Uid}, items,
func(_msg *imap.Message) error {
if len(_msg.Body) == 0 {
// ignore duplicate messages with only flag updates
return nil
}
body := _msg.GetBody(&partHeaderSection)
if body == nil {
return fmt.Errorf("failed to find part: %v", partHeaderSection)
}
h, err := textproto.ReadHeader(bufio.NewReader(body))
if err != nil {
return fmt.Errorf("failed to read part header: %v", err)
}
part, err := message.New(message.Header{Header: h},
_msg.GetBody(&partBodySection))
if err != nil {
return fmt.Errorf("failed to create message reader: %v", err)
}
imapw.worker.PostMessage(&types.MessageBodyPart{
Message: types.RespondTo(msg),
Part: &models.MessageBodyPart{
Reader: part.Body,
Uid: _msg.Uid,
},
}, nil)
// Update flags (to mark message as read)
imapw.worker.PostMessage(&types.MessageInfo{
Message: types.RespondTo(msg),
Info: &models.MessageInfo{
Flags: translateImapFlags(_msg.Flags),
Uid: _msg.Uid,
},
}, nil)
return nil
})
}
func (imapw *IMAPWorker) handleFetchFullMessages(
msg *types.FetchFullMessages,
) {
logging.Infof("Fetching full messages: %v", msg.Uids)
section := &imap.BodySectionName{}
items := []imap.FetchItem{
imap.FetchEnvelope,
imap.FetchFlags,
imap.FetchUid,
section.FetchItem(),
}
imapw.handleFetchMessages(msg, msg.Uids, items,
func(_msg *imap.Message) error {
if len(_msg.Body) == 0 {
// ignore duplicate messages with only flag updates
return nil
}
r := _msg.GetBody(section)
if r == nil {
return fmt.Errorf("could not get section %#v", section)
}
imapw.worker.PostMessage(&types.FullMessage{
Message: types.RespondTo(msg),
Content: &models.FullMessage{
Reader: bufio.NewReader(r),
Uid: _msg.Uid,
},
}, nil)
// Update flags (to mark message as read)
imapw.worker.PostMessage(&types.MessageInfo{
Message: types.RespondTo(msg),
Info: &models.MessageInfo{
Flags: translateImapFlags(_msg.Flags),
Uid: _msg.Uid,
},
}, nil)
return nil
})
}
func (imapw *IMAPWorker) handleFetchMessageFlags(msg *types.FetchMessageFlags) {
items := []imap.FetchItem{
imap.FetchFlags,
imap.FetchUid,
}
imapw.handleFetchMessages(msg, msg.Uids, items,
func(_msg *imap.Message) error {
imapw.worker.PostMessage(&types.MessageInfo{
Message: types.RespondTo(msg),
Info: &models.MessageInfo{
Flags: translateImapFlags(_msg.Flags),
Uid: _msg.Uid,
},
}, nil)
return nil
})
}
func (imapw *IMAPWorker) handleFetchMessages(
msg types.WorkerMessage, uids []uint32, items []imap.FetchItem,
procFunc func(*imap.Message) error,
) {
messages := make(chan *imap.Message)
done := make(chan error)
go func() {
defer logging.PanicHandler()
var reterr error
for _msg := range messages {
err := procFunc(_msg)
if err != nil {
if reterr == nil {
reterr = err
}
// drain the channel upon error
for range messages {
}
}
}
done <- reterr
}()
emitErr := func(err error) {
imapw.worker.PostMessage(&types.Error{
Message: types.RespondTo(msg),
Error: err,
}, nil)
}
set := toSeqSet(uids)
if err := imapw.client.UidFetch(set, items, messages); err != nil {
emitErr(err)
return
}
if err := <-done; err != nil {
emitErr(err)
return
}
imapw.worker.PostMessage(
&types.Done{Message: types.RespondTo(msg)}, nil)
}