package imapclient import ( "bufio" "crypto/tls" "encoding/base64" "fmt" "strings" "time" "github.com/mjl-/mox/scram" ) // Capability requests a list of capabilities from the server. They are returned in // an UntaggedCapability response. The server also sends capabilities in initial // server greeting, in the response code. func (c *Conn) Capability() (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("capability") } // Noop does nothing on its own, but a server will return any pending untagged // responses for new message delivery and changes to mailboxes. func (c *Conn) Noop() (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("capability") } // Logout ends the IMAP session by writing a LOGOUT command. Close must still be // closed on this client to close the socket. func (c *Conn) Logout() (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("logout") } // Starttls enables TLS on the connection with the STARTTLS command. func (c *Conn) Starttls(config *tls.Config) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) untagged, result, rerr = c.Transactf("starttls") c.xcheckf(rerr, "starttls command") conn := tls.Client(c.conn, config) err := conn.Handshake() c.xcheckf(err, "tls handshake") c.conn = conn c.r = bufio.NewReader(conn) return untagged, result, nil } // Login authenticates with username and password func (c *Conn) Login(username, password string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("login %s %s", astring(username), astring(password)) } // Authenticate with plaintext password using AUTHENTICATE PLAIN. func (c *Conn) AuthenticatePlain(username, password string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) untagged, result, rerr = c.Transactf("authenticate plain %s", base64.StdEncoding.EncodeToString(fmt.Appendf(nil, "\u0000%s\u0000%s", username, password))) return } // Authenticate with SCRAM-SHA-256, where the password is not exchanged in original // plaintext form, but only derived hashes are exchanged by both parties as proof // of knowledge of password. func (c *Conn) AuthenticateSCRAMSHA256(username, password string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) sc := scram.NewClient(username, "") clientFirst, err := sc.ClientFirst() c.xcheckf(err, "scram clientFirst") c.LastTag = c.nextTag() err = c.Writelinef("%s authenticate scram-sha-256 %s", c.LastTag, base64.StdEncoding.EncodeToString([]byte(clientFirst))) c.xcheckf(err, "writing command line") xreadContinuation := func() []byte { var line string line, untagged, result, rerr = c.ReadContinuation() c.xcheckf(err, "read continuation") if result.Status != "" { c.xerrorf("unexpected status %q", result.Status) } buf, err := base64.StdEncoding.DecodeString(line) c.xcheckf(err, "parsing base64 from remote") return buf } serverFirst := xreadContinuation() clientFinal, err := sc.ServerFirst(serverFirst, password) c.xcheckf(err, "scram clientFinal") err = c.Writelinef("%s", base64.StdEncoding.EncodeToString([]byte(clientFinal))) c.xcheckf(err, "write scram clientFinal") serverFinal := xreadContinuation() err = sc.ServerFinal(serverFinal) c.xcheckf(err, "scram serverFinal") // We must send a response to the server continuation line, but we have nothing to say. ../rfc/9051:6221 err = c.Writelinef("%s", base64.StdEncoding.EncodeToString(nil)) c.xcheckf(err, "scram client end") return c.ResponseOK() } // Enable enables capabilities for use with the connection, verifying the server has indeed enabled them. func (c *Conn) Enable(capabilities ...string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) untagged, result, rerr = c.Transactf("enable %s", strings.Join(capabilities, " ")) c.xcheck(rerr) var enabled UntaggedEnabled c.xgetUntagged(untagged, &enabled) got := map[string]struct{}{} for _, cap := range enabled { got[cap] = struct{}{} } for _, cap := range capabilities { if _, ok := got[cap]; !ok { c.xerrorf("capability %q not enabled by server", cap) } } return } // Select opens mailbox as active mailbox. func (c *Conn) Select(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("select %s", astring(mailbox)) } // Examine opens mailbox as active mailbox read-only. func (c *Conn) Examine(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("examine %s", astring(mailbox)) } // Create makes a new mailbox on the server. func (c *Conn) Create(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("create %s", astring(mailbox)) } // Delete removes an entire mailbox and its messages. func (c *Conn) Delete(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("delete %s", astring(mailbox)) } // Rename changes the name of a mailbox and all its child mailboxes. func (c *Conn) Rename(omailbox, nmailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("rename %s %s", astring(omailbox), astring(nmailbox)) } // Subscribe marks a mailbox as subscribed. The mailbox does not have to exist. It // is not an error if the mailbox is already subscribed. func (c *Conn) Subscribe(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("subscribe %s", astring(mailbox)) } // Unsubscribe marks a mailbox as unsubscribed. func (c *Conn) Unsubscribe(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("unsubscribe %s", astring(mailbox)) } // List lists mailboxes with the basic LIST syntax. // Pattern can contain * (match any) or % (match any except hierarchy delimiter). func (c *Conn) List(pattern string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf(`list "" %s`, astring(pattern)) } // ListFull lists mailboxes with the extended LIST syntax requesting all supported data. // Pattern can contain * (match any) or % (match any except hierarchy delimiter). func (c *Conn) ListFull(subscribedOnly bool, patterns ...string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) var subscribedStr string if subscribedOnly { subscribedStr = "subscribed recursivematch" } for i, s := range patterns { patterns[i] = astring(s) } return c.Transactf(`list (%s) "" (%s) return (subscribed children special-use status (messages uidnext uidvalidity unseen deleted size recent appendlimit))`, subscribedStr, strings.Join(patterns, " ")) } // Namespace returns the hiearchy separator in an UntaggedNamespace response with personal/shared/other namespaces if present. func (c *Conn) Namespace() (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("namespace") } // Status requests information about a mailbox, such as number of messages, size, etc. func (c *Conn) Status(mailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("status %s", astring(mailbox)) } // Append adds message to mailbox with flags and optional receive time. func (c *Conn) Append(mailbox string, flags []string, received *time.Time, message []byte) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) var date string if received != nil { date = ` "` + received.Format("_2-Jan-2006 15:04:05 -0700") + `"` } return c.Transactf("append %s (%s)%s {%d+}\r\n%s", astring(mailbox), strings.Join(flags, " "), date, len(message), message) } // note: No idle command. Idle is better implemented by writing the request and reading and handling the responses as they come in. // CloseMailbox closes the currently selected/active mailbox, permanently removing // any messages marked with \Deleted. func (c *Conn) CloseMailbox() (untagged []Untagged, result Result, rerr error) { return c.Transactf("close") } // Unselect closes the currently selected/active mailbox, but unlike CloseMailbox // does not permanently remove any messages marked with \Deleted. func (c *Conn) Unselect() (untagged []Untagged, result Result, rerr error) { return c.Transactf("unselect") } // Expunge removes messages marked as deleted for the selected mailbox. func (c *Conn) Expunge() (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("expunge") } // UIDExpunge is like expunge, but only removes messages matched uidSet. func (c *Conn) UIDExpunge(uidSet NumSet) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("uid expunge %s", uidSet.String()) } // Note: No search, fetch command yet due to its large syntax. // StoreFlagsSet stores a new set of flags for messages from seqset with the STORE command. // If silent, no untagged responses with the updated flags will be sent by the server. func (c *Conn) StoreFlagsSet(seqset string, silent bool, flags ...string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) item := "flags" if silent { item += ".silent" } return c.Transactf("store %s %s (%s)", seqset, item, strings.Join(flags, " ")) } // StoreFlagsAdd is like StoreFlagsSet, but only adds flags, leaving current flags on the message intact. func (c *Conn) StoreFlagsAdd(seqset string, silent bool, flags ...string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) item := "+flags" if silent { item += ".silent" } return c.Transactf("store %s %s (%s)", seqset, item, strings.Join(flags, " ")) } // StoreFlagsClear is like StoreFlagsSet, but only removes flags, leaving other flags on the message intact. func (c *Conn) StoreFlagsClear(seqset string, silent bool, flags ...string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) item := "-flags" if silent { item += ".silent" } return c.Transactf("store %s %s (%s)", seqset, item, strings.Join(flags, " ")) } // Copy adds messages from the sequences in seqSet in the currently selected/active mailbox to dstMailbox. func (c *Conn) Copy(seqSet NumSet, dstMailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("copy %s %s", seqSet.String(), astring(dstMailbox)) } // UIDCopy is like copy, but operates on UIDs. func (c *Conn) UIDCopy(uidSet NumSet, dstMailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("uid copy %s %s", uidSet.String(), astring(dstMailbox)) } // Move moves messages from the sequences in seqSet in the currently selected/active mailbox to dstMailbox. func (c *Conn) Move(seqSet NumSet, dstMailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("move %s %s", seqSet.String(), astring(dstMailbox)) } // UIDMove is like move, but operates on UIDs. func (c *Conn) UIDMove(uidSet NumSet, dstMailbox string) (untagged []Untagged, result Result, rerr error) { defer c.recover(&rerr) return c.Transactf("uid move %s %s", uidSet.String(), astring(dstMailbox)) }