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|
package main
import (
"bytes"
"compress/zlib"
"crypto/cipher"
"crypto/ecdh"
"encoding/json"
"fmt"
"io"
"net"
"os"
"os/signal"
"sync"
"syscall"
"time"
"github.com/awnumar/memguard"
"noshitalk/pkg/crypto"
"noshitalk/pkg/protocol"
)
// Client represents a connected chat client.
type Client struct {
conn net.Conn
identity string
gcm cipher.AEAD
sharedSecret *memguard.Enclave
quit chan struct{}
lastActivity time.Time
mu sync.Mutex
// Visibility control
isVisible bool
// Key rotation
currentKeyPair *ecdh.PrivateKey
nextKeyPair *ecdh.PrivateKey
sessionKeys [][]byte
keyRotationCount uint32
lastRotation time.Time
messageCount uint32
}
// FileTransfer tracks an ongoing file transfer.
type FileTransfer struct {
FileID string
Sender *Client
Receiver *Client
StartTime time.Time
TotalChunks int
Received int
Completed bool
}
var (
clients = make(map[net.Conn]*Client)
clientsMux sync.RWMutex
fileTransfers = make(map[string]*FileTransfer)
transfersMux sync.RWMutex
version = "2.0-refactored"
)
const (
protocolVersion = 2
fileChunkSize = 256 * 1024 // 256KB chunks
maxFileSize = 500 * 1024 * 1024 // 500MB max
maxConcurrentTransfers = 3
rotateAfterMessages = 100
rotateAfterTime = 5 * time.Minute
)
func main() {
fmt.Printf("NoshiTalk Server v%s\n", version)
fmt.Printf("Zero logs, zero traces, auto-wipe post-session\n")
fmt.Printf("Designed for Tor Hidden Service - localhost only\n")
fmt.Printf("Traffic obfuscation: Padding + Random delays\n")
fmt.Printf("Key rotation enabled (every %d messages or %v)\n", rotateAfterMessages, rotateAfterTime)
fmt.Printf("Ghost mode enabled by default\n\n")
memguard.CatchInterrupt()
defer secureShutdown("Session completed")
listenAddr := "127.0.0.1:8083"
fmt.Printf("Listening on: %s (Tor Hidden Service backend)\n", listenAddr)
fmt.Printf("Server NOT exposed directly - Tor proxy required\n\n")
listener, err := net.Listen("tcp", listenAddr)
if err != nil {
fmt.Printf("Listen error: %v\n", err)
secureShutdown(fmt.Sprintf("Listen error: %v", err))
}
fmt.Printf("Server started successfully\n")
fmt.Printf("Waiting for connections...\n\n")
// Signal handling
stop := make(chan os.Signal, 1)
signal.Notify(stop, os.Interrupt, syscall.SIGTERM)
go func() {
<-stop
fmt.Printf("\nReceived shutdown signal\n")
secureShutdown("Operator requested shutdown")
}()
// Monitor goroutine
go monitorLoop()
// Accept connections
for {
conn, err := listener.Accept()
if err != nil {
fmt.Printf("Accept error: %v\n", err)
continue
}
fmt.Printf("New connection from %s\n", conn.RemoteAddr())
go handleClient(conn)
}
}
func monitorLoop() {
ticker := time.NewTicker(60 * time.Second)
defer ticker.Stop()
for range ticker.C {
clientsMux.RLock()
activeCount := len(clients)
visibleCount := 0
for _, client := range clients {
if client.isVisible {
visibleCount++
}
}
if activeCount > 0 {
fmt.Printf("Active connections: %d (visible: %d, ghost: %d)\n",
activeCount, visibleCount, activeCount-visibleCount)
}
clientsMux.RUnlock()
cleanupOldTransfers()
}
}
func handleClient(conn net.Conn) {
defer func() {
fmt.Printf("Connection handler ending\n")
conn.Close()
removeClient(conn)
}()
// Generate server key pair
privateKey, err := crypto.GenerateX25519KeyPair()
if err != nil {
fmt.Printf("Key generation failed: %v\n", err)
return
}
// Receive client public key
fmt.Printf("Waiting for client public key...\n")
clientPubKeyBytes := make([]byte, 32)
conn.SetReadDeadline(time.Now().Add(crypto.HandshakeTimeout))
n, err := io.ReadFull(conn, clientPubKeyBytes)
if err != nil {
fmt.Printf("Error reading client public key: %v\n", err)
return
}
conn.SetReadDeadline(time.Time{})
identity := crypto.DeriveIdentity(clientPubKeyBytes)
fmt.Printf("[%s] Received client public key (%d bytes)\n", identity, n)
// Send server public key
fmt.Printf("[%s] Sending server public key...\n", identity)
if _, err := conn.Write(privateKey.PublicKey().Bytes()); err != nil {
fmt.Printf("[%s] Error sending server public key: %v\n", identity, err)
return
}
// Calculate shared secret
fmt.Printf("[%s] Calculating shared secret...\n", identity)
sharedSecret, err := crypto.PerformECDH(privateKey, clientPubKeyBytes)
if err != nil {
fmt.Printf("[%s] ECDH failed: %v\n", identity, err)
return
}
// Mutual authentication
fmt.Printf("[%s] Starting mutual authentication...\n", identity)
if err := crypto.PerformServerAuth(conn, sharedSecret); err != nil {
fmt.Printf("[%s] Authentication failed: %v\n", identity, err)
return
}
// Setup AES-GCM
fmt.Printf("[%s] Setting up AES-GCM...\n", identity)
gcm, err := crypto.SetupAESGCM(sharedSecret)
if err != nil {
fmt.Printf("[%s] %v\n", identity, err)
return
}
// Create client
client := &Client{
conn: conn,
identity: identity,
gcm: gcm,
sharedSecret: crypto.SecureBuffer(sharedSecret),
quit: make(chan struct{}),
lastActivity: time.Now(),
isVisible: false, // Ghost mode by default
currentKeyPair: privateKey,
lastRotation: time.Now(),
messageCount: 0,
}
addClient(conn, client)
fmt.Printf("[%s] Client initialized (ghost mode)\n", identity)
// Send welcome message
welcomeMsg := protocol.NewSystemMessage(
fmt.Sprintf("Connected as %s (ghost mode). Use /reveal to become visible, /ghost to hide.", identity))
client.sendMessage(welcomeMsg)
// Send personal user list
sendPersonalUserList(client)
fmt.Printf("[%s] Starting message handling...\n", identity)
client.receiveMessages()
fmt.Printf("[%s] Client disconnected\n", identity)
if client.isVisible {
broadcastSystemMessage(fmt.Sprintf("%s disconnected", identity))
}
}
func addClient(conn net.Conn, client *Client) {
clientsMux.Lock()
clients[conn] = client
totalClients := len(clients)
clientsMux.Unlock()
fmt.Printf("[%s] Added to clients map. Total clients: %d\n", client.identity, totalClients)
}
func removeClient(conn net.Conn) {
clientsMux.Lock()
client, exists := clients[conn]
if exists && client.isVisible {
delete(clients, conn)
clientsMux.Unlock()
broadcastUserListToVisible()
} else {
delete(clients, conn)
clientsMux.Unlock()
}
}
func (c *Client) sendMessage(msg *protocol.Message) error {
data, err := msg.ToJSON()
if err != nil {
return err
}
return c.sendEncrypted(string(data))
}
func (c *Client) sendEncrypted(message string) error {
if c.conn == nil || c.gcm == nil {
return fmt.Errorf("not ready")
}
data, err := crypto.EncryptMessage(c.gcm, message)
if err != nil {
return err
}
_, err = c.conn.Write(data)
return err
}
func (c *Client) receiveMessages() {
defer func() {
if r := recover(); r != nil {
fmt.Printf("[%s] PANIC: %v\n", c.identity, r)
}
close(c.quit)
}()
buf := make([]byte, 512*1024)
for {
n, err := c.conn.Read(buf)
if err != nil {
if err == io.EOF {
fmt.Printf("[%s] Connection closed\n", c.identity)
} else {
fmt.Printf("[%s] Read error: %v\n", c.identity, err)
}
return
}
if n == 0 {
continue
}
c.mu.Lock()
c.lastActivity = time.Now()
c.messageCount++
c.mu.Unlock()
message, err := crypto.DecryptMessage(c.gcm, buf[:n])
if err != nil {
fmt.Printf("[%s] Decrypt error: %v\n", c.identity, err)
continue
}
c.checkKeyRotation()
if c.handleCommand(message) {
continue
}
// Handle JSON messages
msgType, _, err := protocol.ParseMessage([]byte(message))
if err == nil {
switch msgType {
case protocol.TypeFileOffer:
if fileOffer, err := protocol.ParseAsFileOffer([]byte(message)); err == nil {
routeFileOffer(c, fileOffer)
continue
}
case protocol.TypeFileChunk:
if fileChunk, err := protocol.ParseAsFileChunk([]byte(message)); err == nil {
routeFileChunk(c, fileChunk)
continue
}
case protocol.TypeFileAccept, protocol.TypeFileReject, protocol.TypeFileComplete:
if fileResp, err := protocol.ParseAsFileResponse([]byte(message)); err == nil {
routeFileResponse(c, fileResp)
continue
}
}
}
// Handle private messages
if len(message) > 4 && message[:4] == "/pm " {
parts := splitPrivateMessage(message)
if len(parts) < 2 {
errorMsg := protocol.NewErrorMessage("Usage: /pm username message")
c.sendMessage(errorMsg)
continue
}
sendPrivateMessage(c, parts[0], parts[1])
continue
}
// Broadcast if visible
if c.isVisible {
broadcastUserMessage(c, message)
} else {
errorMsg := protocol.NewErrorMessage("You are in ghost mode. Use /reveal to send messages.")
c.sendMessage(errorMsg)
}
}
}
func (c *Client) handleCommand(message string) bool {
switch message {
case "/quit":
return true
case "/reveal":
c.mu.Lock()
wasVisible := c.isVisible
c.isVisible = true
c.mu.Unlock()
if !wasVisible {
fmt.Printf("[%s] Became visible\n", c.identity)
broadcastSystemMessage(fmt.Sprintf("%s joined the chat", c.identity))
broadcastUserListToVisible()
}
return true
case "/ghost":
c.mu.Lock()
wasVisible := c.isVisible
c.isVisible = false
c.mu.Unlock()
if wasVisible {
fmt.Printf("[%s] Went ghost\n", c.identity)
broadcastSystemMessage(fmt.Sprintf("%s went invisible", c.identity))
broadcastUserListToVisible()
}
return true
case "/users":
sendPersonalUserList(c)
return true
}
return false
}
func (c *Client) checkKeyRotation() {
c.mu.Lock()
defer c.mu.Unlock()
needRotation := false
if c.messageCount >= rotateAfterMessages {
needRotation = true
fmt.Printf("[%s] Key rotation triggered (message count: %d)\n", c.identity, c.messageCount)
}
if time.Since(c.lastRotation) > rotateAfterTime {
needRotation = true
fmt.Printf("[%s] Key rotation triggered (time elapsed: %v)\n", c.identity, time.Since(c.lastRotation))
}
if needRotation {
c.performKeyRotation()
}
}
func (c *Client) performKeyRotation() {
newKeyPair, err := crypto.GenerateX25519KeyPair()
if err != nil {
fmt.Printf("[%s] Key rotation failed: %v\n", c.identity, err)
return
}
c.nextKeyPair = newKeyPair
c.keyRotationCount++
c.messageCount = 0
c.lastRotation = time.Now()
rotMsg := protocol.KeyRotationMessage{
Type: protocol.TypeKeyRotation,
PublicKey: newKeyPair.PublicKey().Bytes(),
Nonce: make([]byte, 12),
Time: time.Now().Format("15:04:05"),
}
if data, err := rotMsg.ToJSON(); err == nil {
c.sendEncrypted(string(data))
}
fmt.Printf("[%s] Key rotation completed (rotation #%d)\n", c.identity, c.keyRotationCount)
}
func sendPersonalUserList(client *Client) {
clientsMux.RLock()
visibleUsers := []string{}
for _, c := range clients {
if c.isVisible || c == client {
visibleUsers = append(visibleUsers, c.identity)
}
}
clientsMux.RUnlock()
userListMsg := protocol.NewUserListMessage(visibleUsers)
if data, err := userListMsg.ToJSON(); err == nil {
client.sendEncrypted(string(data))
}
}
func broadcastUserListToVisible() {
clientsMux.RLock()
defer clientsMux.RUnlock()
visibleUsers := []string{}
for _, c := range clients {
if c.isVisible {
visibleUsers = append(visibleUsers, c.identity)
}
}
userListMsg := protocol.NewUserListMessage(visibleUsers)
data, err := userListMsg.ToJSON()
if err != nil {
return
}
for _, client := range clients {
if client.isVisible {
client.sendEncrypted(string(data))
}
}
}
func broadcastSystemMessage(message string) {
clientsMux.RLock()
defer clientsMux.RUnlock()
systemMsg := protocol.NewSystemMessage(message)
data, err := systemMsg.ToJSON()
if err != nil {
return
}
for _, client := range clients {
if client.isVisible {
client.sendEncrypted(string(data))
}
}
}
func broadcastUserMessage(sender *Client, message string) {
clientsMux.RLock()
defer clientsMux.RUnlock()
userMsg := protocol.NewMessage(sender.identity, "", message, protocol.TypeMessage)
data, err := userMsg.ToJSON()
if err != nil {
return
}
for _, client := range clients {
if client != sender && client.isVisible {
client.sendEncrypted(string(data))
}
}
}
func sendPrivateMessage(sender *Client, targetUsername, message string) {
clientsMux.RLock()
defer clientsMux.RUnlock()
var targetClient *Client
for _, client := range clients {
if client.identity == targetUsername {
targetClient = client
break
}
}
if targetClient == nil {
errorMsg := protocol.NewErrorMessage(fmt.Sprintf("User '%s' not found", targetUsername))
sender.sendMessage(errorMsg)
return
}
privateMsg := protocol.NewMessage(sender.identity, targetUsername, message, protocol.TypePrivate)
data, err := privateMsg.ToJSON()
if err != nil {
return
}
fmt.Printf("[%s -> %s] Private message\n", sender.identity, targetUsername)
targetClient.sendEncrypted(string(data))
sender.sendEncrypted(string(data))
}
func splitPrivateMessage(msg string) []string {
content := msg[4:]
spaceIdx := -1
for i, ch := range content {
if ch == ' ' {
spaceIdx = i
break
}
}
if spaceIdx == -1 {
return []string{content}
}
return []string{content[:spaceIdx], content[spaceIdx+1:]}
}
// File transfer functions
func routeFileOffer(sender *Client, offer *protocol.FileOfferMessage) {
transfersMux.RLock()
activeTransfers := 0
for _, transfer := range fileTransfers {
if !transfer.Completed && transfer.Sender == sender {
activeTransfers++
}
}
transfersMux.RUnlock()
if activeTransfers >= maxConcurrentTransfers {
errorMsg := protocol.NewErrorMessage(fmt.Sprintf("Max concurrent transfers (%d) reached", maxConcurrentTransfers))
sender.sendMessage(errorMsg)
return
}
clientsMux.RLock()
var targetClient *Client
for _, client := range clients {
if client.identity == offer.To {
targetClient = client
break
}
}
clientsMux.RUnlock()
if targetClient == nil {
errorMsg := protocol.NewErrorMessage(fmt.Sprintf("User '%s' not found", offer.To))
sender.sendMessage(errorMsg)
return
}
transfer := &FileTransfer{
FileID: offer.FileID,
Sender: sender,
Receiver: targetClient,
StartTime: time.Now(),
TotalChunks: offer.TotalChunks,
}
transfersMux.Lock()
fileTransfers[offer.FileID] = transfer
transfersMux.Unlock()
offer.From = sender.identity
offer.Time = time.Now().Format("15:04:05")
fmt.Printf("[%s -> %s] File offer: %s (%d bytes, %d chunks)\n",
sender.identity, offer.To, offer.Filename, offer.Size, offer.TotalChunks)
if data, err := offer.ToJSON(); err == nil {
targetClient.sendEncrypted(string(data))
}
}
func routeFileChunk(sender *Client, chunk *protocol.FileChunkMessage) {
transfersMux.RLock()
transfer, exists := fileTransfers[chunk.FileID]
transfersMux.RUnlock()
if !exists || transfer.Sender != sender {
return
}
chunk.Time = time.Now().Format("15:04:05")
transfersMux.Lock()
transfer.Received++
if transfer.Received >= transfer.TotalChunks {
transfer.Completed = true
fmt.Printf("[%s] File transfer completed in %v\n", sender.identity, time.Since(transfer.StartTime))
}
transfersMux.Unlock()
if data, err := chunk.ToJSON(); err == nil {
transfer.Receiver.sendEncrypted(string(data))
}
}
func routeFileResponse(sender *Client, resp *protocol.FileResponseMessage) {
transfersMux.RLock()
transfer, exists := fileTransfers[resp.FileID]
transfersMux.RUnlock()
if !exists {
return
}
resp.From = sender.identity
resp.Time = time.Now().Format("15:04:05")
data, err := resp.ToJSON()
if err != nil {
return
}
if sender == transfer.Receiver {
transfer.Sender.sendEncrypted(string(data))
} else {
transfer.Receiver.sendEncrypted(string(data))
}
if resp.Status == "rejected" || resp.Status == "completed" {
transfersMux.Lock()
delete(fileTransfers, resp.FileID)
transfersMux.Unlock()
}
}
func cleanupOldTransfers() {
transfersMux.Lock()
defer transfersMux.Unlock()
now := time.Now()
for fileID, transfer := range fileTransfers {
if now.Sub(transfer.StartTime) > 30*time.Minute {
fmt.Printf("Cleaning up old transfer: %s\n", fileID[:8])
delete(fileTransfers, fileID)
}
}
}
func compressData(data []byte) ([]byte, error) {
var buf bytes.Buffer
w := zlib.NewWriter(&buf)
_, err := w.Write(data)
w.Close()
return buf.Bytes(), err
}
func decompressData(data []byte) ([]byte, error) {
r, err := zlib.NewReader(bytes.NewReader(data))
if err != nil {
return nil, err
}
defer r.Close()
return io.ReadAll(r)
}
func secureShutdown(reason string) {
fmt.Printf("\nServer shutdown: %s\n", reason)
clientsMux.Lock()
for _, client := range clients {
client.conn.Close()
}
clients = make(map[net.Conn]*Client)
clientsMux.Unlock()
memguard.Purge()
os.Exit(0)
}
|