156 lines
5 KiB
Go
156 lines
5 KiB
Go
package libgm
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import (
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"io"
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"time"
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"go.mau.fi/mautrix-gmessages/libgm/binary"
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"go.mau.fi/mautrix-gmessages/libgm/crypto"
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"go.mau.fi/mautrix-gmessages/libgm/events"
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"go.mau.fi/mautrix-gmessages/libgm/payload"
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"go.mau.fi/mautrix-gmessages/libgm/util"
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)
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type Pairer struct {
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client *Client
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KeyData *crypto.JWK
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ticker *time.Ticker
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tickerTime time.Duration
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pairingKey []byte
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}
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/*
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refreshQrCodeTime is the interval to refresh the qr code in seconds, this is usually 20 seconds.
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*/
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func (c *Client) NewPairer(keyData *crypto.JWK, refreshQrCodeTime int) (*Pairer, error) {
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if keyData == nil {
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var err error
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keyData, err = crypto.GenerateECDSA_P256_JWK()
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if err != nil {
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c.Logger.Error().Any("data", keyData).Msg(err.Error())
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return nil, err
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}
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}
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p := &Pairer{
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client: c,
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KeyData: keyData,
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tickerTime: time.Duration(refreshQrCodeTime) * time.Second,
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}
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c.pairer = p
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return p, nil
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}
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func (p *Pairer) RegisterPhoneRelay() (*binary.RegisterPhoneRelayResponse, error) {
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body, _, err := payload.RegisterPhoneRelay(p.KeyData)
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if err != nil {
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p.client.Logger.Err(err)
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return &binary.RegisterPhoneRelayResponse{}, err
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}
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//p.client.Logger.Debug().Any("keyByteLength", len(jsonPayload.EcdsaKeysContainer.EcdsaKeys.EncryptedKeys)).Any("json", jsonPayload).Any("base64", body).Msg("RegisterPhoneRelay Payload")
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relayResponse, reqErr := p.client.MakeRelayRequest(util.REGISTER_PHONE_RELAY, body)
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if reqErr != nil {
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p.client.Logger.Err(reqErr)
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return nil, err
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}
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responseBody, err2 := io.ReadAll(relayResponse.Body)
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if err2 != nil {
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return nil, err2
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}
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relayResponse.Body.Close()
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res := &binary.RegisterPhoneRelayResponse{}
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err3 := binary.DecodeProtoMessage(responseBody, res)
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if err3 != nil {
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return nil, err3
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}
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p.pairingKey = res.GetPairingKey()
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url, qrErr := p.GenerateQRCodeData()
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if qrErr != nil {
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return nil, qrErr
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}
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p.client.triggerEvent(&events.QRCODE_UPDATED{URL: url})
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p.startRefreshRelayTask()
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return res, err
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}
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func (p *Pairer) startRefreshRelayTask() {
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if p.ticker != nil {
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p.ticker.Stop()
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}
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ticker := time.NewTicker(30 * time.Second)
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p.ticker = ticker
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go func() {
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for range ticker.C {
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p.RefreshPhoneRelay()
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}
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}()
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}
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func (p *Pairer) RefreshPhoneRelay() {
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body, _, err := payload.RefreshPhoneRelay(p.client.rpcKey)
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if err != nil {
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p.client.Logger.Err(err).Msg("refresh phone relay err")
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return
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}
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//p.client.Logger.Debug().Any("keyByteLength", len(jsonPayload.PhoneRelay.RpcKey)).Any("json", jsonPayload).Any("base64", body).Msg("RefreshPhoneRelay Payload")
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relayResponse, reqErr := p.client.MakeRelayRequest(util.REFRESH_PHONE_RELAY, body)
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if reqErr != nil {
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p.client.Logger.Err(reqErr).Msg("refresh phone relay err")
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}
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responseBody, err2 := io.ReadAll(relayResponse.Body)
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defer relayResponse.Body.Close()
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if err2 != nil {
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p.client.Logger.Err(err2).Msg("refresh phone relay err")
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}
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p.client.Logger.Debug().Any("responseLength", len(responseBody)).Msg("Response Body Length")
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res := &binary.RefreshPhoneRelayResponse{}
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err3 := binary.DecodeProtoMessage(responseBody, res)
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if err3 != nil {
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p.client.Logger.Err(err3)
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}
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p.pairingKey = res.GetPairKey()
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p.client.Logger.Debug().Any("res", res).Msg("RefreshPhoneRelayResponse")
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url, qrErr := p.GenerateQRCodeData()
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if qrErr != nil {
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panic(qrErr)
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}
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p.client.triggerEvent(&events.QRCODE_UPDATED{URL: url})
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}
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func (p *Pairer) GetWebEncryptionKey() {
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body, _, err2 := payload.GetWebEncryptionKey(p.client.rpc.webAuthKey)
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if err2 != nil {
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p.client.Logger.Err(err2).Msg("web encryption key err")
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return
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}
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//p.client.Logger.Debug().Any("keyByteLength", len(rawData.PhoneRelay.RpcKey)).Any("json", rawData).Any("base64", body).Msg("GetWebEncryptionKey Payload")
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webKeyResponse, reqErr := p.client.MakeRelayRequest(util.GET_WEB_ENCRYPTION_KEY, body)
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if reqErr != nil {
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p.client.Logger.Err(reqErr).Msg("Web encryption key request err")
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}
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responseBody, err2 := io.ReadAll(webKeyResponse.Body)
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defer webKeyResponse.Body.Close()
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if err2 != nil {
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p.client.Logger.Err(err2).Msg("Web encryption key read response err")
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return
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}
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//p.client.Logger.Debug().Any("responseLength", len(responseBody)).Any("raw", responseBody).Msg("Response Body Length")
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parsedResponse := &binary.WebEncryptionKeyResponse{}
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err2 = binary.DecodeProtoMessage(responseBody, parsedResponse)
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if err2 != nil {
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p.client.Logger.Err(err2).Msg("Parse webkeyresponse into proto struct error")
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}
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p.client.Logger.Debug().Any("parsedResponse", parsedResponse).Msg("WebEncryptionKeyResponse")
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p.ticker.Stop()
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reconnectErr := p.client.Reconnect(p.client.rpc.webAuthKey)
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if reconnectErr != nil {
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panic(reconnectErr)
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}
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}
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func (p *Pairer) pairCallback(pairData *binary.Container) {
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p.client.rpc.webAuthKey = pairData.PairDeviceData.WebAuthKeyData.WebAuthKey
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p.client.ttl = pairData.PairDeviceData.WebAuthKeyData.ValidFor
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p.client.devicePair = &DevicePair{Mobile: pairData.PairDeviceData.Mobile, Browser: pairData.PairDeviceData.Browser}
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p.client.pairer.GetWebEncryptionKey()
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p.client.triggerEvent(&events.PairSuccessful{Container: pairData})
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}
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