matterbridge/vendor/github.com/Rhymen/go-whatsapp/contact.go

244 lines
5.4 KiB
Go

package whatsapp
import (
"fmt"
"github.com/Rhymen/go-whatsapp/binary"
"strconv"
"time"
)
type Presence string
const (
PresenceAvailable = "available"
PresenceUnavailable = "unavailable"
PresenceComposing = "composing"
PresenceRecording = "recording"
PresencePaused = "paused"
)
//TODO: filename? WhatsApp uses Store.Contacts for these functions
// functions probably shouldn't return a string, maybe build a struct / return json
// check for further queries
func (wac *Conn) GetProfilePicThumb(jid string) (<-chan string, error) {
data := []interface{}{"query", "ProfilePicThumb", jid}
return wac.writeJson(data)
}
func (wac *Conn) GetStatus(jid string) (<-chan string, error) {
data := []interface{}{"query", "Status", jid}
return wac.writeJson(data)
}
func (wac *Conn) SubscribePresence(jid string) (<-chan string, error) {
data := []interface{}{"action", "presence", "subscribe", jid}
return wac.writeJson(data)
}
func (wac *Conn) Search(search string, count, page int) (*binary.Node, error) {
return wac.query("search", "", "", "", "", search, count, page)
}
func (wac *Conn) LoadMessages(jid, messageId string, count int) (*binary.Node, error) {
return wac.query("message", jid, "", "before", "true", "", count, 0)
}
func (wac *Conn) LoadMessagesBefore(jid, messageId string, count int) (*binary.Node, error) {
return wac.query("message", jid, messageId, "before", "true", "", count, 0)
}
func (wac *Conn) LoadMessagesAfter(jid, messageId string, count int) (*binary.Node, error) {
return wac.query("message", jid, messageId, "after", "true", "", count, 0)
}
func (wac *Conn) LoadMediaInfo(jid, messageId, owner string) (*binary.Node, error) {
return wac.query("media", jid, messageId, "", owner, "", 0, 0)
}
func (wac *Conn) Presence(jid string, presence Presence) (<-chan string, error) {
ts := time.Now().Unix()
tag := fmt.Sprintf("%d.--%d", ts, wac.msgCount)
content := binary.Node{
Description: "presence",
Attributes: map[string]string{
"type": string(presence),
},
}
switch presence {
case PresenceComposing:
fallthrough
case PresenceRecording:
fallthrough
case PresencePaused:
content.Attributes["to"] = jid
}
n := binary.Node{
Description: "action",
Attributes: map[string]string{
"type": "set",
"epoch": strconv.Itoa(wac.msgCount),
},
Content: []interface{}{content},
}
return wac.writeBinary(n, group, ignore, tag)
}
func (wac *Conn) Exist(jid string) (<-chan string, error) {
data := []interface{}{"query", "exist", jid}
return wac.writeJson(data)
}
func (wac *Conn) Emoji() (*binary.Node, error) {
return wac.query("emoji", "", "", "", "", "", 0, 0)
}
func (wac *Conn) Contacts() (*binary.Node, error) {
return wac.query("contacts", "", "", "", "", "", 0, 0)
}
func (wac *Conn) Chats() (*binary.Node, error) {
return wac.query("chat", "", "", "", "", "", 0, 0)
}
func (wac *Conn) Read(jid, id string) (<-chan string, error) {
ts := time.Now().Unix()
tag := fmt.Sprintf("%d.--%d", ts, wac.msgCount)
n := binary.Node{
Description: "action",
Attributes: map[string]string{
"type": "set",
"epoch": strconv.Itoa(wac.msgCount),
},
Content: []interface{}{binary.Node{
Description: "read",
Attributes: map[string]string{
"count": "1",
"index": id,
"jid": jid,
"owner": "false",
},
}},
}
return wac.writeBinary(n, group, ignore, tag)
}
func (wac *Conn) query(t, jid, messageId, kind, owner, search string, count, page int) (*binary.Node, error) {
ts := time.Now().Unix()
tag := fmt.Sprintf("%d.--%d", ts, wac.msgCount)
n := binary.Node{
Description: "query",
Attributes: map[string]string{
"type": t,
"epoch": strconv.Itoa(wac.msgCount),
},
}
if jid != "" {
n.Attributes["jid"] = jid
}
if messageId != "" {
n.Attributes["index"] = messageId
}
if kind != "" {
n.Attributes["kind"] = kind
}
if owner != "" {
n.Attributes["owner"] = owner
}
if search != "" {
n.Attributes["search"] = search
}
if count != 0 {
n.Attributes["count"] = strconv.Itoa(count)
}
if page != 0 {
n.Attributes["page"] = strconv.Itoa(page)
}
metric := group
if t == "media" {
metric = queryMedia
}
ch, err := wac.writeBinary(n, metric, ignore, tag)
if err != nil {
return nil, err
}
msg, err := wac.decryptBinaryMessage([]byte(<-ch))
if err != nil {
return nil, err
}
//TODO: use parseProtoMessage
return msg, nil
}
func (wac *Conn) setGroup(t, jid, subject string, participants []string) (<-chan string, error) {
ts := time.Now().Unix()
tag := fmt.Sprintf("%d.--%d", ts, wac.msgCount)
//TODO: get proto or improve encoder to handle []interface{}
p := buildParticipantNodes(participants)
g := binary.Node{
Description: "group",
Attributes: map[string]string{
"author": wac.session.Wid,
"id": tag,
"type": t,
},
Content: p,
}
if jid != "" {
g.Attributes["jid"] = jid
}
if subject != "" {
g.Attributes["subject"] = subject
}
n := binary.Node{
Description: "action",
Attributes: map[string]string{
"type": "set",
"epoch": strconv.Itoa(wac.msgCount),
},
Content: []interface{}{g},
}
return wac.writeBinary(n, group, ignore, tag)
}
func buildParticipantNodes(participants []string) []binary.Node {
l := len(participants)
if participants == nil || l == 0 {
return nil
}
p := make([]binary.Node, len(participants))
for i, participant := range participants {
p[i] = binary.Node{
Description: "participant",
Attributes: map[string]string{
"jid": participant,
},
}
}
return p
}