handling key submission from client and responding with server public key

This commit is contained in:
Andy Pack 2024-02-10 11:53:51 +00:00
parent 328c011109
commit 6e954a9795
Signed by: sarsoo
GPG Key ID: A55BA3536A5E0ED7
12 changed files with 372 additions and 23 deletions

43
dnstp/src/clients.rs Normal file
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@ -0,0 +1,43 @@
use std::collections::HashMap;
use std::time::SystemTime;
use aes_gcm_siv::Aes256GcmSiv;
pub struct Client {
pub first_seen: SystemTime,
pub shared_key: Aes256GcmSiv
}
impl Client {
pub fn new(shared_key: Aes256GcmSiv) -> Client
{
Client {
first_seen: SystemTime::now(),
shared_key
}
}
}
pub struct Clients {
client_map: HashMap<String, Client>
}
impl Clients {
pub fn new() -> Clients
{
Clients {
client_map: HashMap::new()
}
}
// pub fn add_from(&mut self, client_id: String, shared_key: Aes256GcmSiv)
// {
// self.client_map.insert(client_id, Client::new(shared_key));
// }
pub fn add(&mut self, client_id: String, client:Client)
{
self.client_map.insert(client_id, client);
}
}

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@ -18,7 +18,7 @@
mod tests; mod tests;
use std::str::FromStr; use std::str::FromStr;
use p256::{EncodedPoint, PublicKey, ecdh::EphemeralSecret, NistP256}; use p256::{PublicKey, ecdh::EphemeralSecret, NistP256};
use p256::elliptic_curve::ecdh::SharedSecret; use p256::elliptic_curve::ecdh::SharedSecret;
use aes_gcm_siv::{aead::{Aead, KeyInit}, AeadCore, Aes256GcmSiv, Nonce}; use aes_gcm_siv::{aead::{Aead, KeyInit}, AeadCore, Aes256GcmSiv, Nonce};

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@ -7,8 +7,9 @@ mod byte;
pub mod processor; pub mod processor;
pub mod message; pub mod message;
pub mod net; pub mod net;
mod string; pub mod string;
pub mod config; pub mod config;
pub mod crypto; pub mod crypto;
mod clients;
pub use config::DomainConfig; pub use config::DomainConfig;

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@ -75,18 +75,18 @@ impl DNSMessage {
} }
} }
pub fn a_resp_from_request(request: &DNSMessage, ip: impl Fn(&DNSQuestion) -> Ipv4Addr) -> DNSMessage pub fn a_resp_from_request(&self, ip: impl Fn(&DNSQuestion) -> Ipv4Addr) -> DNSMessage
{ {
let mut response = DNSMessage{ let mut response = DNSMessage{
header: request.header.clone(), header: self.header.clone(),
questions: request.questions.clone(), questions: self.questions.clone(),
answer_records: vec![], answer_records: vec![],
authority_records: vec![], authority_records: vec![],
additional_records: vec![], additional_records: vec![],
peer: request.peer peer: self.peer
}; };
response.answer_records = request.questions response.answer_records = self.questions
.iter() .iter()
.map(|x| .map(|x|
ResourceRecord::from_query(x, ResourceRecord::from_query(x,
@ -107,4 +107,28 @@ impl DNSMessage {
response response
} }
pub fn empty_resp_from_request(&self) -> DNSMessage
{
let mut response = DNSMessage{
header: self.header.clone(),
questions: self.questions.clone(),
answer_records: vec![],
authority_records: vec![],
additional_records: vec![],
peer: self.peer
};
response.header.direction = Direction::Response;
response.header.response = ResponseCode::NoError;
response.header.answer_record_count = 0;
response.header.authority_record_count = 0;
response.header.additional_record_count = 0;
if response.header.recursion_desired {
response.header.recursion_available = true;
}
response
}
} }

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@ -1,6 +1,7 @@
#[cfg(test)] #[cfg(test)]
mod tests; mod tests;
use std::fmt;
use urlencoding::decode; use urlencoding::decode;
use crate::byte::{push_split_bytes, two_byte_combine}; use crate::byte::{push_split_bytes, two_byte_combine};
use crate::string::encode_domain_name; use crate::string::encode_domain_name;
@ -25,6 +26,28 @@ pub enum QType {
ANY = 255, ANY = 255,
} }
impl fmt::Display for QType {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
QType::A => write!(f, "A"),
QType::NS => write!(f, "NS"),
QType::CNAME => write!(f, "CNAME"),
QType::SOA => write!(f, "SOA"),
QType::WKS => write!(f, "WKS"),
QType::PTR => write!(f, "PTR"),
QType::HINFO => write!(f, "HINFO"),
QType::MINFO => write!(f, "MINFO"),
QType::MX => write!(f, "MX"),
QType::TXT => write!(f, "TXT"),
QType::RP => write!(f, "RP"),
QType::AAAA => write!(f, "AAAA"),
QType::SRV => write!(f, "SRV"),
QType::OPT => write!(f, "OPT"),
QType::ANY => write!(f, "ANY"),
}
}
}
impl TryFrom<u16> for QType { impl TryFrom<u16> for QType {
type Error = u16; type Error = u16;

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@ -0,0 +1,30 @@
use std::fmt::{Debug, Formatter};
use crate::message::record::RData;
use crate::string::encode_domain_name;
pub struct CnameRdata {
pub rdata: String
}
impl Debug for CnameRdata {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
f.debug_struct("CNAME")
.field("Host", &self.rdata)
.finish()
}
}
impl RData for CnameRdata {
fn to_bytes(&self) -> Vec<u8> {
encode_domain_name(&self.rdata)
}
}
impl CnameRdata {
pub fn from(rdata: String) -> CnameRdata
{
CnameRdata {
rdata
}
}
}

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@ -10,6 +10,8 @@ pub use aaaa_rdata::AAAARdata;
mod txt_rdata; mod txt_rdata;
pub use txt_rdata::TXTRdata; pub use txt_rdata::TXTRdata;
mod cname_rdata;
pub use cname_rdata::CnameRdata;
#[cfg(test)] #[cfg(test)]
mod tests; mod tests;

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@ -1,16 +1,112 @@
use std::net::Ipv4Addr; use std::net::Ipv4Addr;
use p256::ecdh::EphemeralSecret; use p256::ecdh::EphemeralSecret;
use crate::crypto::{get_random_asym_pair, trim_public_key}; use crate::clients::Client;
use crate::message::DNSMessage; use crate::crypto::{asym_to_sym_key, fatten_public_key, get_random_asym_pair, get_shared_asym_secret, trim_public_key};
use crate::message::{ARdata, DNSMessage, DNSQuestion, QClass, QType, ResourceRecord};
use crate::message::record::CnameRdata;
use crate::string::{append_base_domain_to_key, strip_base_domain_from_key};
pub fn get_key_response(request: DNSMessage) -> DNSMessage pub struct KeySwapContext {
{ pub new_client: Client,
DNSMessage::a_resp_from_request(&request, |_| Ipv4Addr::from([127, 0, 0, 1])) pub response: DNSMessage,
pub server_public: String,
pub client_public: String
} }
pub fn get_key_request_with_base_domain(base_domain: String) -> (EphemeralSecret, String) pub fn get_key_request_with_base_domain(base_domain: String) -> (EphemeralSecret, String)
{ {
let (private, public) = get_random_asym_pair(); let (private, public) = get_random_asym_pair();
(private, vec![trim_public_key(&public), base_domain].join(".")) (private, append_base_domain_to_key(trim_public_key(&public), &base_domain))
}
pub fn get_fattened_public_key(key_question: &DNSQuestion) -> (String, String)
{
let public_key = &key_question.qname;
let (trimmed_public_key, base_domain) = strip_base_domain_from_key(public_key);
(fatten_public_key(&trimmed_public_key), base_domain)
}
#[derive(Ord, PartialOrd, Eq, PartialEq, Debug, Copy, Clone)]
pub enum KeyDecodeError {
QuestionCount(usize),
FirstQuestionNotA(QType),
SecondQuestionNotA(QType),
SharedSecretDerivation,
}
pub fn decode_key_request(message: DNSMessage) -> Result<KeySwapContext, KeyDecodeError>
{
if message.questions.len() == 2 {
if message.questions[0].qtype != QType::A
{
return Err(KeyDecodeError::FirstQuestionNotA(message.questions[0].qtype));
}
let key_question = &message.questions[1];
if key_question.qtype != QType::A
{
return Err(KeyDecodeError::SecondQuestionNotA(key_question.qtype));
}
let (fattened_public_key, base_domain) = get_fattened_public_key(&key_question);
let (server_private, server_public) = get_random_asym_pair();
let shared_secret = get_shared_asym_secret(server_private, fattened_public_key);
match shared_secret {
Ok(secret) => {
let sym_key = asym_to_sym_key(&secret);
let new_client = Client::new(sym_key);
let mut response = message.empty_resp_from_request();
let first_record = ResourceRecord {
name_offset: 12,
answer_type: QType::A,
class: QClass::Internet,
ttl: 0,
rd_length: 4,
r_data: Box::new(ARdata::from(Ipv4Addr::from([127,0,0,1])))
};
let second_record = ResourceRecord {
name_offset: 12 + (&message.questions[0]).to_bytes().len() as u16,
answer_type: QType::CNAME,
class: QClass::Internet,
ttl: 0,
rd_length: 4,
r_data: Box::new(
CnameRdata::from(
append_base_domain_to_key(
trim_public_key(&server_public),
&base_domain
)
)
)
};
response.answer_records = vec![
first_record, second_record
];
return Ok(KeySwapContext {
new_client,
response,
server_public,
client_public: key_question.qname.to_string()
});
}
Err(_) => {
return Err(KeyDecodeError::SharedSecretDerivation);
}
}
}
else
{
return Err(KeyDecodeError::QuestionCount(message.questions.len()));
}
} }

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@ -1,14 +1,16 @@
use std::net::Ipv4Addr; use std::net::Ipv4Addr;
use std::sync::mpsc; use std::sync::{Arc, mpsc, Mutex};
use std::sync::mpsc::{Receiver, Sender}; use std::sync::mpsc::{Receiver, Sender};
use std::thread; use std::thread;
use log::info; use log::{error, info};
use crate::clients::Clients;
use crate::config::DomainConfig; use crate::config::DomainConfig;
use crate::message::DNSMessage; use crate::message::DNSMessage;
use crate::net::{NetworkMessage, NetworkMessagePtr}; use crate::net::{NetworkMessage, NetworkMessagePtr};
use crate::message_parser::parse_message; use crate::message_parser::parse_message;
use crate::processor::print_error; use crate::processor::print_error;
use crate::processor::request::encryption::{decode_key_request, KeyDecodeError};
pub mod encryption; pub mod encryption;
@ -18,7 +20,9 @@ mod tests;
pub struct RequestProcesor { pub struct RequestProcesor {
message_channel: Option<Sender<NetworkMessagePtr>>, message_channel: Option<Sender<NetworkMessagePtr>>,
domain_config: DomainConfig, domain_config: DomainConfig,
encryption_endpoint: String encryption_endpoint: String,
clients: Arc<Mutex<Clients>>
} }
impl RequestProcesor { impl RequestProcesor {
@ -28,7 +32,8 @@ impl RequestProcesor {
RequestProcesor { RequestProcesor {
message_channel: None, message_channel: None,
domain_config, domain_config,
encryption_endpoint: fq_key_endpoint encryption_endpoint: fq_key_endpoint,
clients: Arc::new(Mutex::new(Clients::new()))
} }
} }
@ -39,13 +44,13 @@ impl RequestProcesor {
let mut base_domain_equality = self.domain_config.base_domain.clone(); let mut base_domain_equality = self.domain_config.base_domain.clone();
base_domain_equality.insert_str(0, "."); base_domain_equality.insert_str(0, ".");
let base_domain_len = base_domain_equality.len() + 1;
let fq_key_endpoint = self.encryption_endpoint.clone(); let fq_key_endpoint = self.encryption_endpoint.clone();
let clients = self.clients.clone();
thread::spawn(move || { thread::spawn(move || {
// let fq_key_endpoint = fq_key_endpoint; let clients = clients;
for m in rx for m in rx
{ {
@ -61,7 +66,36 @@ impl RequestProcesor {
{ {
info!("[{}] received encryption key request", peer); info!("[{}] received encryption key request", peer);
match decode_key_request(r)
{
Ok(context) => {
clients.lock().unwrap().add(context.client_public, context.new_client);
sending_channel.send(Box::new(
NetworkMessage {
buffer: Box::new(context.response.to_bytes()),
peer: context.response.peer
}
));
}
Err(e) => {
match e {
KeyDecodeError::QuestionCount(qc) => {
error!("[{}] failed to parse public key, wrong question count [{}]", peer, qc);
}
KeyDecodeError::FirstQuestionNotA(qtype) => {
error!("[{}] failed to parse public key, first question wasn't an A request [{}]", peer, qtype);
}
KeyDecodeError::SecondQuestionNotA(qtype) => {
error!("[{}] failed to parse public key, second question wasn't an A request [{}]", peer, qtype);
}
KeyDecodeError::SharedSecretDerivation => {
error!("[{}] failed to parse public key, failed to derived shared secret", peer);
}
}
}
}
} }
else else
{ {

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@ -1,10 +1,9 @@
use std::sync::mpsc; use std::sync::mpsc;
use std::sync::mpsc::{Receiver, Sender}; use std::sync::mpsc::{Receiver, Sender};
use std::thread; use std::thread;
use log::{error, info}; use log::info;
use crate::message::{QuestionParseError, RecordParseError};
use crate::net::raw_request::NetworkMessagePtr; use crate::net::raw_request::NetworkMessagePtr;
use crate::message_parser::{HeaderParseError, parse_message, MessageParseError}; use crate::message_parser::parse_message;
use crate::processor::print_error; use crate::processor::print_error;
pub struct ResponseProcesor { pub struct ResponseProcesor {
@ -25,7 +24,7 @@ impl ResponseProcesor {
thread::spawn(move || { thread::spawn(move || {
for mut m in rx for m in rx
{ {
let peer = m.peer.clone(); let peer = m.peer.clone();

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@ -21,3 +21,25 @@ pub fn encode_domain_name(name: &String) -> Vec<u8>
ret ret
} }
pub fn strip_base_domain_from_key(public_key: &String) -> (String, String)
{
let periods: Vec<_> = public_key.rmatch_indices(".").collect();
if periods.len() >= 2 {
(public_key[0 .. periods[1].0].to_string(),
public_key[periods[1].0 .. ].to_string())
}
else if periods.len() == 1 {
(public_key[0 .. periods[0].0].to_string(),
public_key[periods[0].0 .. ].to_string())
}
else {
(public_key.to_string(), String::new())
}
}
pub fn append_base_domain_to_key(trimmed_key: String, base_domain: &String) -> String
{
vec![trimmed_key, base_domain.to_string()].join(".")
}

75
dnstp/tests/key_swap.rs Normal file
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@ -0,0 +1,75 @@
use std::net::{Ipv4Addr, SocketAddr, SocketAddrV4};
use dnstplib::crypto::{asym_to_sym_key, decrypt, encrypt, generate_aes_nonce, get_random_asym_pair, get_shared_asym_secret, trim_public_key};
use dnstplib::message::{DNSHeader, DNSMessage, DNSQuestion};
use dnstplib::message::QClass::Internet;
use dnstplib::message::QType::A;
use dnstplib::processor::request::encryption::decode_key_request;
use dnstplib::string::append_base_domain_to_key;
#[test]
fn test_key_swap()
{
////////////
// CLIENT
////////////
// generate pair
let (client_private, client_public) = get_random_asym_pair();
// generate public key submission domain
let serialised_client_public = append_base_domain_to_key(
trim_public_key(&client_public),
&"sarsoo.xyz".to_string()
);
let message = DNSMessage {
header: DNSHeader::new_request(1, Some(1)),
questions: vec![
DNSQuestion {
qname: "static.sarsoo.xyz".to_string(),
qtype: A,
qclass: Internet
},
DNSQuestion {
qname: serialised_client_public,
qtype: A,
qclass: Internet
}
],
answer_records: vec![],
authority_records: vec![],
additional_records: vec![],
peer: SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::from([127,0,0,1]), 5000)),
};
/////////////////
// SERVER
/////////////////
// handle message "received by client"
let resp = decode_key_request(message).unwrap();
////////////
// CLIENT
////////////
// client has received message from above and constructs shared secret
let shared_secret_client = asym_to_sym_key(&get_shared_asym_secret(client_private, resp.server_public).unwrap());
///////////////////////////////
// TEST ENCRYPTION/DECRYPTION
///////////////////////////////
let nonce = generate_aes_nonce();
let payload = "hello world!".to_string();
// CLIENT encrypts something
let encrypted = encrypt(&shared_secret_client, &nonce, &payload.clone().into_bytes()).unwrap();
// SERVER decrypts it
let decrypted = decrypt(&resp.new_client.shared_key, &nonce, &encrypted).unwrap();
let decrypted_payload = String::from_utf8(decrypted).unwrap();
// is it the same?
assert_eq!(payload, decrypted_payload);
}