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Add AES encryption between nodes
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15
README.md
15
README.md
@ -6,6 +6,7 @@ Transfer AFL files over a mesh to fuzz across multiple servers
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- Using DEFLATE compression format (see [RFC 1951](https://www.ietf.org/rfc/rfc1951.html))
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- Using DEFLATE compression format (see [RFC 1951](https://www.ietf.org/rfc/rfc1951.html))
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- Automatically syncs the main fuzzer to secondary nodes, and all secondary fuzzers back to the main node
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- Automatically syncs the main fuzzer to secondary nodes, and all secondary fuzzers back to the main node
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- Encrypts traffic between nodes using AES-256, dropping plaintext packets
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- Usable on UNIXoid (Linux, OSX) systems and Windows
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- Usable on UNIXoid (Linux, OSX) systems and Windows
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## Usage
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## Usage
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@ -22,3 +23,17 @@ As a countermeasure, use the `--restrict-to-peers` flags to only allow connectio
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- On your host 10.0.0.2: `./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1`
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- On your host 10.0.0.2: `./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1`
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- On your host 10.0.0.3: `./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1`
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- On your host 10.0.0.3: `./afl-transmit --fuzzer-directory /ram/output --peers 10.0.0.1`
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### Crypto
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If you want to encrypt your traffic between the nodes - which is advised, as it increases security and there is nearly no argument against it - you can do so by specifying a random key with `--key`.
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To keep *afl-transmit* simple, the symmetric encryption algorithm AES256-GCM was chosen over an asymmetric variant. This means you need to specify the same key on all nodes.
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Key generation is fairly simple, you just need to get 32 random bytes from somewhere (buy them, or use `/dev/urandom`), and wrap them with base64.
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For example like this:
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```
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dd if=/dev/urandom bs=32 count=1 2>/dev/null | base64 | tee transmit.key
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./afl-transmit --key $(cat transmit.key) --fuzzer-directory ...
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```
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As already said, the same key must be used on all nodes.
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8
main.go
8
main.go
@ -19,6 +19,7 @@ func main() {
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watchdog.RegisterWatchdogFlags()
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watchdog.RegisterWatchdogFlags()
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net.RegisterSenderFlags()
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net.RegisterSenderFlags()
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net.RegisterListenFlags()
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net.RegisterListenFlags()
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net.RegisterCryptFlags()
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RegisterGlobalFlags()
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RegisterGlobalFlags()
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flag.Parse()
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flag.Parse()
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@ -31,6 +32,13 @@ func main() {
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// Read peers file
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// Read peers file
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net.ReadPeers()
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net.ReadPeers()
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// Initialize crypto if desired
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cryptErr := net.InitCrypt()
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if cryptErr != nil {
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fmt.Printf("Failed to initialize crypt function: %s", cryptErr)
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return
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}
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// Start watchdog for local afl instances
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// Start watchdog for local afl instances
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go watchdog.WatchFuzzers(outputDirectory)
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go watchdog.WatchFuzzers(outputDirectory)
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86
net/crypt.go
Normal file
86
net/crypt.go
Normal file
@ -0,0 +1,86 @@
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package net
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import (
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"crypto/aes"
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"crypto/cipher"
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"crypto/rand"
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"encoding/base64"
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"flag"
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"fmt"
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"io"
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)
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var (
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key string
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sharedGCM cipher.AEAD
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nonceSize int
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)
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// RegisterCryptFlags Registers the flags required for cryptography
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func RegisterCryptFlags() {
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flag.StringVar(&key, "key", "", "32 random bytes, base64-wrapped, to AES-encrypt traffic between nodes")
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}
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// InitCrypt creates a cipher object out of the key handed over via --key
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func InitCrypt() error {
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// Check if a key was handed over
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if key == "" {
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// no key, no service
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return nil
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}
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// Unwrap base64'ed crypto bytes
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rawKey, base64Err := base64.StdEncoding.DecodeString(key)
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if base64Err != nil {
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return fmt.Errorf("failed to unpack base64'ed key: %s", base64Err)
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}
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// Create cipher object using that key
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block, cipherErr := aes.NewCipher(rawKey)
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if cipherErr != nil {
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return fmt.Errorf("failed to use your key as AES256 key: %s", cipherErr)
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}
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// Create GCM with cipher object
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gcm, gcmErr := cipher.NewGCM(block)
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if gcmErr != nil {
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return fmt.Errorf("failed to create GCM for your key: %s", gcmErr)
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}
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// Set shared GCM instance
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sharedGCM = gcm
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nonceSize = gcm.NonceSize()
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// No error to report
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return nil
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}
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// CryptApplicable checks if we are able to encrypt or decrypt things, means if this instance was given a proper key
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func CryptApplicable() bool {
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// if the shared GCM object is set, we were able to get the key off user's hands, else we don't crypt
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return sharedGCM != nil
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}
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// Encrypt encrypts the given bytes using the symmetric key
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func Encrypt(plain []byte) ([]byte, error) {
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// create nonce and fill it with random bytes
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nonce := make([]byte, nonceSize)
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_, readErr := io.ReadFull(rand.Reader, nonce)
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if readErr != nil {
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return nil, fmt.Errorf("failed to get random bytes: %s", readErr)
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}
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// Encrypt plaintext
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return sharedGCM.Seal(nonce, nonce, plain, nil), nil
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}
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// Decrypt decrypts the given bytes using the symmetric key
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func Decrypt(enc []byte) ([]byte, error) {
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// Sanity check on input
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if len(enc) < sharedGCM.NonceSize() {
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return nil, fmt.Errorf("failed to decrypt packet: too short")
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}
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// Decrypt encrypted bytes
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return sharedGCM.Open(nil, enc[:nonceSize], enc[nonceSize:], nil)
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}
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@ -76,9 +76,20 @@ func handle(conn net.Conn, outputDirectory string) {
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// Read raw content
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// Read raw content
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cont, contErr := ioutil.ReadAll(conn) // bufio.NewReader(conn).ReadString('\x00')
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cont, contErr := ioutil.ReadAll(conn) // bufio.NewReader(conn).ReadString('\x00')
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// Check if we are able to decrypt
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if CryptApplicable() {
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// Decrypt packet
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var decryptErr error
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cont, decryptErr = Decrypt(cont)
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if decryptErr != nil {
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log.Printf("Failed to decrypt packet from %s: %s", conn.RemoteAddr().String(), decryptErr)
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return
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}
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}
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if contErr == nil || contErr == io.EOF {
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if contErr == nil || contErr == io.EOF {
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// We received the whole content, time to process it
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// We received the whole content, time to process it
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unpackErr := logistic.UnpackInto([]byte(cont), outputDirectory)
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unpackErr := logistic.UnpackInto(cont, outputDirectory)
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if unpackErr != nil {
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if unpackErr != nil {
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log.Printf("Encountered error processing packet from %s: %s", conn.RemoteAddr().String(), unpackErr)
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log.Printf("Encountered error processing packet from %s: %s", conn.RemoteAddr().String(), unpackErr)
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}
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}
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11
net/peer.go
11
net/peer.go
@ -37,6 +37,17 @@ func CreatePeer(address string) Peer {
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// Sends the given content to the peer
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// Sends the given content to the peer
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func (p *Peer) SendToPeer(content []byte) {
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func (p *Peer) SendToPeer(content []byte) {
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// Encrypt content if desired
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if CryptApplicable() {
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// Encrypt packet
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var encryptErr error
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content, encryptErr = Encrypt(content)
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if encryptErr != nil {
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log.Printf("Failed to decrypt packet from %s: %s", p.Address, encryptErr)
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return
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}
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}
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// Build up a connection
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// Build up a connection
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tcpConn, dialErr := net.Dial("tcp", p.Address)
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tcpConn, dialErr := net.Dial("tcp", p.Address)
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if dialErr != nil {
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if dialErr != nil {
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