// Copyright (c) 2021 Tulir Asokan // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. package whatsmeow import ( "bytes" "crypto/hmac" "crypto/sha256" "encoding/base64" "fmt" "strings" "go.mau.fi/libsignal/ecc" "google.golang.org/protobuf/proto" waBinary "go.mau.fi/whatsmeow/binary" waProto "go.mau.fi/whatsmeow/binary/proto" "go.mau.fi/whatsmeow/types" "go.mau.fi/whatsmeow/types/events" "go.mau.fi/whatsmeow/util/keys" ) func (cli *Client) handleIQ(node *waBinary.Node) { children := node.GetChildren() if len(children) != 1 || node.Attrs["from"] != types.ServerJID { return } switch children[0].Tag { case "pair-device": cli.handlePairDevice(node) case "pair-success": cli.handlePairSuccess(node) } } func (cli *Client) handlePairDevice(node *waBinary.Node) { pairDevice := node.GetChildByTag("pair-device") err := cli.sendNode(waBinary.Node{ Tag: "iq", Attrs: waBinary.Attrs{ "to": node.Attrs["from"], "id": node.Attrs["id"], "type": "result", }, }) if err != nil { cli.Log.Warnf("Failed to send acknowledgement for pair-device request: %v", err) } evt := &events.QR{Codes: make([]string, 0, len(pairDevice.GetChildren()))} for i, child := range pairDevice.GetChildren() { if child.Tag != "ref" { cli.Log.Warnf("pair-device node contains unexpected child tag %s at index %d", child.Tag, i) continue } content, ok := child.Content.([]byte) if !ok { cli.Log.Warnf("pair-device node contains unexpected child content type %T at index %d", child, i) continue } evt.Codes = append(evt.Codes, cli.makeQRData(string(content))) } cli.dispatchEvent(evt) } func (cli *Client) makeQRData(ref string) string { noise := base64.StdEncoding.EncodeToString(cli.Store.NoiseKey.Pub[:]) identity := base64.StdEncoding.EncodeToString(cli.Store.IdentityKey.Pub[:]) adv := base64.StdEncoding.EncodeToString(cli.Store.AdvSecretKey) return strings.Join([]string{ref, noise, identity, adv}, ",") } func (cli *Client) handlePairSuccess(node *waBinary.Node) { id := node.Attrs["id"].(string) pairSuccess := node.GetChildByTag("pair-success") deviceIdentityBytes, _ := pairSuccess.GetChildByTag("device-identity").Content.([]byte) businessName, _ := pairSuccess.GetChildByTag("biz").Attrs["name"].(string) jid, _ := pairSuccess.GetChildByTag("device").Attrs["jid"].(types.JID) platform, _ := pairSuccess.GetChildByTag("platform").Attrs["name"].(string) go func() { err := cli.handlePair(deviceIdentityBytes, id, businessName, platform, jid) if err != nil { cli.Log.Errorf("Failed to pair device: %v", err) cli.Disconnect() cli.dispatchEvent(&events.PairError{ID: jid, BusinessName: businessName, Platform: platform, Error: err}) } else { cli.Log.Infof("Successfully paired %s", cli.Store.ID) cli.dispatchEvent(&events.PairSuccess{ID: jid, BusinessName: businessName, Platform: platform}) } }() } func (cli *Client) handlePair(deviceIdentityBytes []byte, reqID, businessName, platform string, jid types.JID) error { var deviceIdentityContainer waProto.ADVSignedDeviceIdentityHMAC err := proto.Unmarshal(deviceIdentityBytes, &deviceIdentityContainer) if err != nil { cli.sendPairError(reqID, 500, "internal-error") return &PairProtoError{"failed to parse device identity container in pair success message", err} } h := hmac.New(sha256.New, cli.Store.AdvSecretKey) h.Write(deviceIdentityContainer.Details) if !bytes.Equal(h.Sum(nil), deviceIdentityContainer.HMAC) { cli.Log.Warnf("Invalid HMAC from pair success message") cli.sendPairError(reqID, 401, "not-authorized") return ErrPairInvalidDeviceIdentityHMAC } var deviceIdentity waProto.ADVSignedDeviceIdentity err = proto.Unmarshal(deviceIdentityContainer.Details, &deviceIdentity) if err != nil { cli.sendPairError(reqID, 500, "internal-error") return &PairProtoError{"failed to parse signed device identity in pair success message", err} } if !verifyDeviceIdentityAccountSignature(&deviceIdentity, cli.Store.IdentityKey) { cli.sendPairError(reqID, 401, "not-authorized") return ErrPairInvalidDeviceSignature } deviceIdentity.DeviceSignature = generateDeviceSignature(&deviceIdentity, cli.Store.IdentityKey)[:] var deviceIdentityDetails waProto.ADVDeviceIdentity err = proto.Unmarshal(deviceIdentity.Details, &deviceIdentityDetails) if err != nil { cli.sendPairError(reqID, 500, "internal-error") return &PairProtoError{"failed to parse device identity details in pair success message", err} } if cli.PrePairCallback != nil && !cli.PrePairCallback(jid, platform, businessName) { cli.sendPairError(reqID, 500, "internal-error") return ErrPairRejectedLocally } cli.Store.Account = proto.Clone(&deviceIdentity).(*waProto.ADVSignedDeviceIdentity) mainDeviceJID := jid mainDeviceJID.Device = 0 mainDeviceIdentity := *(*[32]byte)(deviceIdentity.AccountSignatureKey) deviceIdentity.AccountSignatureKey = nil selfSignedDeviceIdentity, err := proto.Marshal(&deviceIdentity) if err != nil { cli.sendPairError(reqID, 500, "internal-error") return &PairProtoError{"failed to marshal self-signed device identity", err} } cli.Store.ID = &jid cli.Store.BusinessName = businessName cli.Store.Platform = platform err = cli.Store.Save() if err != nil { cli.sendPairError(reqID, 500, "internal-error") return &PairDatabaseError{"failed to save device store", err} } err = cli.Store.Identities.PutIdentity(mainDeviceJID.SignalAddress().String(), mainDeviceIdentity) if err != nil { _ = cli.Store.Delete() cli.sendPairError(reqID, 500, "internal-error") return &PairDatabaseError{"failed to store main device identity", err} } // Expect a disconnect after this and don't dispatch the usual Disconnected event cli.expectDisconnect() err = cli.sendNode(waBinary.Node{ Tag: "iq", Attrs: waBinary.Attrs{ "to": types.ServerJID, "type": "result", "id": reqID, }, Content: []waBinary.Node{{ Tag: "pair-device-sign", Content: []waBinary.Node{{ Tag: "device-identity", Attrs: waBinary.Attrs{ "key-index": deviceIdentityDetails.GetKeyIndex(), }, Content: selfSignedDeviceIdentity, }}, }}, }) if err != nil { _ = cli.Store.Delete() return fmt.Errorf("failed to send pairing confirmation: %w", err) } return nil } func concatBytes(data ...[]byte) []byte { length := 0 for _, item := range data { length += len(item) } output := make([]byte, length) ptr := 0 for _, item := range data { ptr += copy(output[ptr:ptr+len(item)], item) } return output } func verifyDeviceIdentityAccountSignature(deviceIdentity *waProto.ADVSignedDeviceIdentity, ikp *keys.KeyPair) bool { if len(deviceIdentity.AccountSignatureKey) != 32 || len(deviceIdentity.AccountSignature) != 64 { return false } signatureKey := ecc.NewDjbECPublicKey(*(*[32]byte)(deviceIdentity.AccountSignatureKey)) signature := *(*[64]byte)(deviceIdentity.AccountSignature) message := concatBytes([]byte{6, 0}, deviceIdentity.Details, ikp.Pub[:]) return ecc.VerifySignature(signatureKey, message, signature) } func generateDeviceSignature(deviceIdentity *waProto.ADVSignedDeviceIdentity, ikp *keys.KeyPair) *[64]byte { message := concatBytes([]byte{6, 1}, deviceIdentity.Details, ikp.Pub[:], deviceIdentity.AccountSignatureKey) sig := ecc.CalculateSignature(ecc.NewDjbECPrivateKey(*ikp.Priv), message) return &sig } func (cli *Client) sendPairError(id string, code int, text string) { err := cli.sendNode(waBinary.Node{ Tag: "iq", Attrs: waBinary.Attrs{ "to": types.ServerJID, "type": "error", "id": id, }, Content: []waBinary.Node{{ Tag: "error", Attrs: waBinary.Attrs{ "code": code, "text": text, }, }}, }) if err != nil { cli.Log.Errorf("Failed to send pair error node: %v", err) } }