494 lines
14 KiB
Go
494 lines
14 KiB
Go
package goricochet
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import (
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"crypto"
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"crypto/hmac"
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"crypto/rand"
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"crypto/rsa"
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"crypto/sha256"
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"crypto/x509"
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"encoding/asn1"
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"encoding/binary"
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"encoding/pem"
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"errors"
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"fmt"
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"github.com/golang/protobuf/proto"
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"github.com/s-rah/go-ricochet/auth"
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"github.com/s-rah/go-ricochet/chat"
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"github.com/s-rah/go-ricochet/contact"
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"github.com/s-rah/go-ricochet/control"
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"h12.me/socks"
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"io"
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"io/ioutil"
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"log"
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"net"
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"os"
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"strings"
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)
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// MessageType details the different kinds of messages used by Ricochet
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type MessageType int
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const (
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// CONTROL messages are those sent on channel 0
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CONTROL MessageType = iota
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// AUTH messages are those that deal with authentication
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AUTH = iota
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// DATA covers both chat and (later) file handling and other non-control messages.
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DATA = iota
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)
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// Ricochet is a protocol to conducting anonymous IM.
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type Ricochet struct {
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conn net.Conn
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privateKey *pem.Block
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logger *log.Logger
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channelState map[int]int
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channel chan RicochetMessage
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}
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// RicochetData is a structure containing the raw data and the channel it the
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// message originated on.
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type RicochetData struct {
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Channel int
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Data []byte
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}
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// RicochetMessage is a Wrapper Around Common Ricochet Protocol Strucutres
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type RicochetMessage struct {
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Channel int
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ControlPacket *Protocol_Data_Control.Packet
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DataPacket *Protocol_Data_Chat.Packet
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AuthPacket *Protocol_Data_AuthHiddenService.Packet
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}
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// Init sets up the Ricochet object. It takes in a filename of a hidden service
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// private_key file so it can successfully authenticate itself with other
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// clients.
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func (r *Ricochet) Init(filename string, debugLog bool) {
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if debugLog {
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r.logger = log.New(os.Stdout, "[Ricochet]: ", log.Ltime|log.Lmicroseconds)
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} else {
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r.logger = log.New(ioutil.Discard, "[Ricochet]: ", log.Ltime|log.Lmicroseconds)
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}
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pemData, err := ioutil.ReadFile(filename)
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if err != nil {
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r.logger.Print("Error Reading Private Key: ", err)
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}
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block, _ := pem.Decode(pemData)
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if block == nil || block.Type != "RSA PRIVATE KEY" {
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r.logger.Print("No valid PEM data found")
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}
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r.privateKey = block
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r.channelState = make(map[int]int)
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r.channel = make(chan RicochetMessage)
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}
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// Connect sets up a ricochet connection between from and to which are
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// both ricochet formated hostnames e.g. qn6uo4cmsrfv4kzq.onion. If this
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// function finished successfully then the connection can be assumed to
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// be open and authenticated.
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// To specify a local port using the format "127.0.0.1:[port]|ricochet-id" for
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// to
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func (r *Ricochet) Connect(from string, to string) error {
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if strings.HasPrefix(to, "127.0.0.1") {
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toAddr := strings.Split(to, "|")
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tcpAddr, err := net.ResolveTCPAddr("tcp", toAddr[0])
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if err != nil {
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r.logger.Fatal("Cannot Resolve TCP Address ", err)
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return errors.New("Cannot Resolve Local TCP Address")
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}
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r.conn, err = net.DialTCP("tcp", nil, tcpAddr)
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if err != nil {
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r.logger.Fatal("Cannot Dial TCP Address ", err)
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return errors.New("Cannot Dial Local TCP Address")
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}
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r.logger.Print("Connected to " + to + " as " + toAddr[1])
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to = toAddr[1]
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} else {
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dialSocksProxy := socks.DialSocksProxy(socks.SOCKS5, "127.0.0.1:9050")
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r.logger.Print("Connecting to ", to+".onion:9878")
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conn, err := dialSocksProxy("", to+".onion:9878")
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if err != nil {
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r.logger.Fatal("Cannot Dial Remove Address ", err)
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return errors.New("Cannot Dial Remote Ricochet Address")
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}
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r.conn = conn
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r.logger.Print("Connected to ", to+".onion:9878")
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}
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r.negotiateVersion()
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// Construct an Open Channel Message
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oc := &Protocol_Data_Control.OpenChannel{
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ChannelIdentifier: proto.Int32(1),
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ChannelType: proto.String("im.ricochet.auth.hidden-service"),
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}
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var cookie [16]byte
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io.ReadFull(rand.Reader, cookie[:])
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err := proto.SetExtension(oc, Protocol_Data_AuthHiddenService.E_ClientCookie, cookie[:])
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pc := &Protocol_Data_Control.Packet{
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OpenChannel: oc,
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}
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data, err := proto.Marshal(pc)
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if err != nil {
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r.logger.Fatal("Cannot Marshal Open Channel Message: ", err)
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}
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r.sendPacket(data, 0)
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r.logger.Print("Opening Channel: ", pc)
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response, _ := r.getMessages()
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openChannelResponse, _ := r.decodePacket(response[0], CONTROL)
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r.logger.Print("Received Response: ", openChannelResponse)
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channelResult := openChannelResponse.ControlPacket.GetChannelResult()
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if channelResult.GetOpened() == true {
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r.logger.Print("Channel Opened Successfully: ", channelResult.GetChannelIdentifier())
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}
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sCookie, _ := proto.GetExtension(channelResult, Protocol_Data_AuthHiddenService.E_ServerCookie)
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serverCookie, _ := sCookie.([]byte)
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r.logger.Print("Starting Authentication with Server Cookie: ", serverCookie)
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key := make([]byte, 32)
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copy(key[0:16], cookie[:])
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copy(key[16:], serverCookie)
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value := []byte(from + to)
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r.logger.Print("Got Hmac Key: ", key)
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r.logger.Print("Got Proof Value: ", string(value))
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mac := hmac.New(sha256.New, key)
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mac.Write(value)
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hmac := mac.Sum(nil)
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r.logger.Print("Got HMAC: ", hmac)
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privateKey, err := x509.ParsePKCS1PrivateKey(r.privateKey.Bytes)
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if err != nil {
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r.logger.Fatalf("Private key can't be decoded: %s", err)
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}
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// DER Encode the Public Key
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publickeybytes, err := asn1.Marshal(rsa.PublicKey{
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N: privateKey.PublicKey.N,
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E: privateKey.PublicKey.E,
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})
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signature, _ := rsa.SignPKCS1v15(nil, privateKey, crypto.SHA256, hmac)
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signatureBytes := make([]byte, 128)
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copy(signatureBytes[:], signature[:])
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r.logger.Print("Signature Length: ", len(signatureBytes))
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r.logger.Print("Public Key Length: ", len(publickeybytes), ", Bit Size: ", privateKey.PublicKey.N.BitLen())
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// Construct a Proof Message
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proof := &Protocol_Data_AuthHiddenService.Proof{
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PublicKey: publickeybytes,
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Signature: signatureBytes,
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}
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ahsPacket := &Protocol_Data_AuthHiddenService.Packet{
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Proof: proof,
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Result: nil,
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}
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data, err = proto.Marshal(ahsPacket)
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r.sendPacket(data, 1)
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response, _ = r.getMessages()
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resultResponse, _ := r.decodePacket(response[0], AUTH)
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r.logger.Print("Received Result: ", resultResponse)
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return nil
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}
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// OpenChannel opens a new channel with the given type and id
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// Prerequisites:
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// * Must have Previously issued a successful Connect()
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// * If acting as the client, id must be odd (currently this is the
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// only supported option.
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func (r *Ricochet) OpenChannel(channelType string, id int) error {
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oc := &Protocol_Data_Control.OpenChannel{
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ChannelIdentifier: proto.Int32(int32(id)),
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ChannelType: proto.String(channelType),
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}
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pc := &Protocol_Data_Control.Packet{
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OpenChannel: oc,
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}
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data, _ := proto.Marshal(pc)
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r.sendPacket(data, 0)
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return nil
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}
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// SendContactRequest initiates a contact request to the server.
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// Prerequisites:
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// * Must have Previously issued a successful Connect()
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func (r *Ricochet) SendContactRequest(nick string, message string) {
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// Construct a Contact Request Channel
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oc := &Protocol_Data_Control.OpenChannel{
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ChannelIdentifier: proto.Int32(3),
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ChannelType: proto.String("im.ricochet.contact.request"),
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}
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contactRequest := &Protocol_Data_ContactRequest.ContactRequest{
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Nickname: proto.String(nick),
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MessageText: proto.String(message),
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}
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err := proto.SetExtension(oc, Protocol_Data_ContactRequest.E_ContactRequest, contactRequest)
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pc := &Protocol_Data_Control.Packet{
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OpenChannel: oc,
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}
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data, err := proto.Marshal(pc)
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if err != nil {
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r.logger.Fatal("Cannot Marshal Open Channel Message: ", err)
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}
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r.sendPacket(data, 0)
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}
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// SendMessage sends a Chat Message (message) to a give Channel (channel).
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// Prerequisites:
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// * Must have previously issued a successful Connect()
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// * Must have previously opened channel with OpenChanel
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func (r *Ricochet) SendMessage(message string, channel int) {
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// Construct a Contact Request Channel
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cm := &Protocol_Data_Chat.ChatMessage{
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MessageText: proto.String(message),
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}
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chatPacket := &Protocol_Data_Chat.Packet{
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ChatMessage: cm,
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}
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data, _ := proto.Marshal(chatPacket)
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r.sendPacket(data, channel)
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}
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// negotiateVersion Perform version negotiation with the connected host.
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func (r *Ricochet) negotiateVersion() {
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version := make([]byte, 4)
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version[0] = 0x49
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version[1] = 0x4D
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version[2] = 0x01
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version[3] = 0x01
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fmt.Fprintf(r.conn, "%s", version)
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r.logger.Print("Negotiating Version ", version)
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res, err := r.recv()
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if len(res) != 1 || err != nil {
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r.logger.Fatal("Failed Version Negotiating: ", res, err)
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}
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if res[0] != 1 {
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r.logger.Fatal("Failed Version Negotiating - Invalid Version ", res)
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}
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r.logger.Print("Successfully Negotiated Version ", res[0])
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}
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// sendPacket places the data into a structure needed for the client to
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// decode the packet and writes the packet to the network.
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func (r *Ricochet) sendPacket(data []byte, channel int) {
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header := make([]byte, 4+len(data))
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r.logger.Print("Wrting Packet of Size: ", len(header))
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header[0] = byte(len(header) >> 8)
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header[1] = byte(len(header) & 0x00FF)
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header[2] = 0x00
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header[3] = byte(channel)
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copy(header[4:], data[:])
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fmt.Fprintf(r.conn, "%s", header)
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}
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// Listen blocks and waits for a new message to arrive from the connected user
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// once a message has arrived, it returns the message and the channel it occured
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// on, else it returns an error.
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// Prerequisites:
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// * Must have previously issued a successful Connect()
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// * Must have previously ran "go ricochet.ListenAndWait()"
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func (r *Ricochet) Listen() (string, int, error) {
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var message RicochetMessage
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message = <-r.channel
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r.logger.Print("Received Result: ", message)
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if message.DataPacket.GetChatMessage() == nil {
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return "", 0, errors.New("Did not receive a chat message")
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}
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messageID := message.DataPacket.GetChatMessage().GetMessageId()
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cr := &Protocol_Data_Chat.ChatAcknowledge{
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MessageId: proto.Uint32(messageID),
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Accepted: proto.Bool(true),
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}
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pc := &Protocol_Data_Chat.Packet{
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ChatAcknowledge: cr,
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}
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data,err := proto.Marshal(pc)
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if err != nil {
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return "",0,errors.New("Failed to serialize chat message")
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}
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r.sendPacket(data, message.Channel)
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return message.DataPacket.GetChatMessage().GetMessageText(), message.Channel, nil
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}
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// ListenAndWait is intended to be a background thread listening for all messages
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// a client will send, automaticall responding to some, and making the others available to
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// Listen()
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// Prerequisites:
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// * Must have previously issued a successful Connect()
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func (r *Ricochet) ListenAndWait() error {
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for true {
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packets, err := r.getMessages()
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if err != nil {
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return errors.New("Error attempted to get new messages")
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}
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for _, packet := range packets {
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if packet.Channel == 0 {
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// This is a Control Channel Message
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message,err := r.decodePacket(packet, CONTROL)
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if err != nil {
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r.logger.Printf("Failed to decode control packet, discarding")
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break;
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}
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// Automatically accept new channels
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if message.ControlPacket.GetOpenChannel() != nil {
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// TODO Reject if already in use.
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cr := &Protocol_Data_Control.ChannelResult{
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ChannelIdentifier: proto.Int32(message.ControlPacket.GetOpenChannel().GetChannelIdentifier()),
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Opened: proto.Bool(true),
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}
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pc := &Protocol_Data_Control.Packet{
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ChannelResult: cr,
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}
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data,err := proto.Marshal(pc)
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if err != nil {
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r.logger.Printf("Failed to marshal control packet. Something went very wrong.")
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}
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r.sendPacket(data, 0)
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r.channelState[int(message.ControlPacket.GetOpenChannel().GetChannelIdentifier())] = 1
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break
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}
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if message.ControlPacket.GetChannelResult() != nil {
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channelResult := message.ControlPacket.GetChannelResult()
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if channelResult.GetOpened() == true {
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r.logger.Print("Channel Opened Successfully: ", channelResult.GetChannelIdentifier())
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r.channelState[int(message.ControlPacket.GetChannelResult().GetChannelIdentifier())] = 1
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}
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break
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}
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} else if packet.Channel == 3 {
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// Contact Request
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} else {
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// At this point the only other expected type of message
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// is a Chat Message
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message,err := r.decodePacket(packet, DATA)
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if err != nil {
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r.logger.Printf("Failed to decode data packet, discarding")
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break;
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}
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r.logger.Print("Receieved Data Packet: ", message)
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r.channel <- message
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}
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}
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}
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return nil
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}
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// decodePacket take a raw RicochetData message and decodes it based on a given MessageType
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func (r *Ricochet) decodePacket(packet RicochetData, t MessageType) (rm RicochetMessage, err error) {
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rm.Channel = packet.Channel
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if t == CONTROL {
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res := new(Protocol_Data_Control.Packet)
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err = proto.Unmarshal(packet.Data[:], res)
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rm.ControlPacket = res
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} else if t == AUTH {
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res := new(Protocol_Data_AuthHiddenService.Packet)
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err = proto.Unmarshal(packet.Data[:], res)
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rm.AuthPacket = res
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} else if t == DATA {
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res := new(Protocol_Data_Chat.Packet)
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err = proto.Unmarshal(packet.Data[:], res)
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rm.DataPacket = res
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}
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if err != nil {
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r.logger.Fatal("Error Unmarshalling Response", err)
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}
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return rm, err
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}
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// getMessages returns an array of new messages received from the ricochet client
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func (r *Ricochet) getMessages() ([]RicochetData, error) {
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buf, err := r.recv()
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if err != nil {
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return nil, errors.New("Failed to retrieve new messages from the client")
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}
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pos := 0
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finished := false
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datas := []RicochetData{}
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for !finished {
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size := int(binary.BigEndian.Uint16(buf[pos+0 : pos+2]))
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channel := int(binary.BigEndian.Uint16(buf[pos+2 : pos+4]))
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if pos+size > len(buf) {
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return datas, errors.New("Partial data packet received")
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}
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data := RicochetData{
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Channel: int(channel),
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Data: buf[pos+4 : pos+size],
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}
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datas = append(datas, data)
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pos += size
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if pos >= len(buf) {
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finished = true
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}
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}
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return datas, nil
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}
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// recv reads data from the client, and returns the raw byte array, else error.
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func (r *Ricochet) recv() ([]byte, error) {
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buf := make([]byte, 4096)
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n, err := r.conn.Read(buf)
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r.logger.Print("Received Response From Service: ", n, err)
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if err != nil {
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return nil, err
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}
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ret := make([]byte, n)
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copy(ret[:], buf[:])
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return ret, nil
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}
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