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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
use authenticator::{
authenticatorservice::{AuthenticatorService, RegisterArgs, SignArgs},
crypto::COSEAlgorithm,
ctap2::server::{
AuthenticationExtensionsClientInputs, AuthenticationExtensionsPRFInputs,
AuthenticationExtensionsPRFValues, HMACGetSecretInput, PublicKeyCredentialDescriptor,
PublicKeyCredentialParameters, PublicKeyCredentialUserEntity, RelyingParty,
ResidentKeyRequirement, Transport, UserVerificationRequirement,
},
statecallback::StateCallback,
Pin, StatusPinUv, StatusUpdate,
};
use getopts::Options;
use rand::{thread_rng, RngCore};
use std::sync::mpsc::{channel, RecvError};
use std::{env, thread};
fn print_usage(program: &str, opts: Options) {
let brief = format!("Usage: {program} [options]");
print!("{}", opts.usage(&brief));
}
fn main() {
env_logger::init();
let args: Vec<String> = env::args().collect();
let program = args[0].clone();
let rp_id = "example.com".to_string();
let mut opts = Options::new();
opts.optflag("h", "help", "print this help menu").optopt(
"t",
"timeout",
"timeout in seconds",
"SEC",
);
opts.optflag("h", "help", "print this help menu");
opts.optflag(
"",
"hmac-secret",
"Return hmac-secret outputs instead of prf outputs (i.e., do not prefix and hash the inputs)",
);
let matches = match opts.parse(&args[1..]) {
Ok(m) => m,
Err(f) => panic!("{}", f.to_string()),
};
if matches.opt_present("help") {
print_usage(&program, opts);
return;
}
let mut manager =
AuthenticatorService::new().expect("The auth service should initialize safely");
manager.add_u2f_usb_hid_platform_transports();
let timeout_ms = match matches.opt_get_default::<u64>("timeout", 25) {
Ok(timeout_s) => {
println!("Using {}s as the timeout", &timeout_s);
timeout_s * 1_000
}
Err(e) => {
println!("{e}");
print_usage(&program, opts);
return;
}
};
let (register_hmac_secret, sign_hmac_secret, register_prf, sign_prf) =
if matches.opt_present("hmac-secret") {
let register_hmac_secret = Some(true);
let sign_hmac_secret = Some(HMACGetSecretInput {
salt1: [0x07; 32],
salt2: Some([0x07; 32]),
});
(register_hmac_secret, sign_hmac_secret, None, None)
} else {
let register_prf = Some(AuthenticationExtensionsPRFInputs::default());
let sign_prf = Some(AuthenticationExtensionsPRFInputs {
eval: Some(AuthenticationExtensionsPRFValues {
first: vec![1, 2, 3, 4],
second: Some(vec![1, 2, 3, 4]),
}),
eval_by_credential: None,
});
(None, None, register_prf, sign_prf)
};
println!("Asking a security key to register now...");
let mut chall_bytes = [0u8; 32];
thread_rng().fill_bytes(&mut chall_bytes);
let (status_tx, status_rx) = channel::<StatusUpdate>();
thread::spawn(move || loop {
match status_rx.recv() {
Ok(StatusUpdate::InteractiveManagement(..)) => {
panic!("STATUS: This can't happen when doing non-interactive usage");
}
Ok(StatusUpdate::SelectDeviceNotice) => {
println!("STATUS: Please select a device by touching one of them.");
}
Ok(StatusUpdate::PresenceRequired) => {
println!("STATUS: waiting for user presence");
}
Ok(StatusUpdate::PinUvError(StatusPinUv::PinRequired(sender))) => {
let raw_pin =
rpassword::prompt_password_stderr("Enter PIN: ").expect("Failed to read PIN");
sender.send(Pin::new(&raw_pin)).expect("Failed to send PIN");
continue;
}
Ok(StatusUpdate::PinUvError(StatusPinUv::InvalidPin(sender, attempts))) => {
println!(
"Wrong PIN! {}",
attempts.map_or("Try again.".to_string(), |a| format!(
"You have {a} attempts left."
))
);
let raw_pin =
rpassword::prompt_password_stderr("Enter PIN: ").expect("Failed to read PIN");
sender.send(Pin::new(&raw_pin)).expect("Failed to send PIN");
continue;
}
Ok(StatusUpdate::PinUvError(StatusPinUv::PinAuthBlocked)) => {
panic!("Too many failed attempts in one row. Your device has been temporarily blocked. Please unplug it and plug in again.")
}
Ok(StatusUpdate::PinUvError(StatusPinUv::PinBlocked)) => {
panic!("Too many failed attempts. Your device has been blocked. Reset it.")
}
Ok(StatusUpdate::PinUvError(StatusPinUv::InvalidUv(attempts))) => {
println!(
"Wrong UV! {}",
attempts.map_or("Try again.".to_string(), |a| format!(
"You have {a} attempts left."
))
);
continue;
}
Ok(StatusUpdate::PinUvError(StatusPinUv::UvBlocked)) => {
println!("Too many failed UV-attempts.");
continue;
}
Ok(StatusUpdate::PinUvError(e)) => {
panic!("Unexpected error: {:?}", e)
}
Ok(StatusUpdate::SelectResultNotice(_, _)) => {
panic!("Unexpected select device notice")
}
Err(RecvError) => {
println!("STATUS: end");
return;
}
}
});
let user = PublicKeyCredentialUserEntity {
id: "user_id".as_bytes().to_vec(),
name: Some("A. User".to_string()),
display_name: None,
};
let relying_party = RelyingParty {
id: rp_id.clone(),
name: None,
};
let ctap_args = RegisterArgs {
client_data_hash: chall_bytes,
relying_party,
origin: format!("https://{rp_id}"),
user,
pub_cred_params: vec![
PublicKeyCredentialParameters {
alg: COSEAlgorithm::ES256,
},
PublicKeyCredentialParameters {
alg: COSEAlgorithm::RS256,
},
],
exclude_list: vec![],
user_verification_req: UserVerificationRequirement::Required,
resident_key_req: ResidentKeyRequirement::Discouraged,
extensions: AuthenticationExtensionsClientInputs {
hmac_create_secret: register_hmac_secret,
prf: register_prf,
..Default::default()
},
pin: None,
use_ctap1_fallback: false,
};
let attestation_object;
let (register_tx, register_rx) = channel();
let callback = StateCallback::new(Box::new(move |rv| {
register_tx.send(rv).unwrap();
}));
if let Err(e) = manager.register(timeout_ms, ctap_args, status_tx.clone(), callback) {
panic!("Couldn't register: {:?}", e);
};
let register_result = register_rx
.recv()
.expect("Problem receiving, unable to continue");
match register_result {
Ok(a) => {
println!("Ok!");
attestation_object = a;
}
Err(e) => panic!("Registration failed: {:?}", e),
};
println!("Register result: {:?}", &attestation_object);
println!();
println!("*********************************************************************");
println!("Asking a security key to sign now, with the data from the register...");
println!("*********************************************************************");
let allow_list;
if let Some(cred_data) = attestation_object.att_obj.auth_data.credential_data {
allow_list = vec![PublicKeyCredentialDescriptor {
id: cred_data.credential_id,
transports: vec![Transport::USB],
}];
} else {
allow_list = Vec::new();
}
let ctap_args = SignArgs {
client_data_hash: chall_bytes,
origin: format!("https://{rp_id}"),
relying_party_id: rp_id,
allow_list,
user_verification_req: UserVerificationRequirement::Required,
user_presence_req: true,
extensions: AuthenticationExtensionsClientInputs {
hmac_get_secret: sign_hmac_secret.clone(),
prf: sign_prf.clone(),
..Default::default()
},
pin: None,
use_ctap1_fallback: false,
};
let (sign_tx, sign_rx) = channel();
let callback = StateCallback::new(Box::new(move |rv| {
sign_tx.send(rv).unwrap();
}));
if let Err(e) = manager.sign(timeout_ms, ctap_args, status_tx, callback) {
panic!("Couldn't sign: {:?}", e);
}
let sign_result = sign_rx
.recv()
.expect("Problem receiving, unable to continue");
match sign_result {
Ok(assertion_object) => {
println!("Assertion Object: {assertion_object:?}");
println!("Done.");
if sign_hmac_secret.is_some() {
let hmac_secret_outputs = assertion_object
.extensions
.hmac_get_secret
.as_ref()
.expect("Expected hmac-secret output");
assert_eq!(
Some(hmac_secret_outputs.output1),
hmac_secret_outputs.output2,
"Expected hmac-secret outputs to be equal for equal input"
);
assert_eq!(
assertion_object.extensions.prf, None,
"Expected no PRF outputs when hmacGetSecret input was present"
);
}
if sign_prf.is_some() {
let prf_results = assertion_object
.extensions
.prf
.expect("Expected PRF output")
.results
.expect("Expected PRF output to contain results");
assert_eq!(
Some(prf_results.first),
prf_results.second,
"Expected PRF results to be equal for equal input"
);
assert_eq!(
assertion_object.extensions.hmac_get_secret, None,
"Expected no hmacGetSecret output when PRF input was present"
);
}
}
Err(e) => panic!("Signing failed: {:?}", e),
}
}