Update the VTS module according to the refactoring in aosp/2826571
Test: atest VtsAidlAuthGraphRoleTest, atest VtsAidlAuthGraphSessionTest
Change-Id: I6cc3bd17952f602b58668d35e09c6a5385c7de61
diff --git a/security/authgraph/aidl/vts/functional/lib.rs b/security/authgraph/aidl/vts/functional/lib.rs
index 7b9b2b9..da3fa1c 100644
--- a/security/authgraph/aidl/vts/functional/lib.rs
+++ b/security/authgraph/aidl/vts/functional/lib.rs
@@ -24,22 +24,19 @@
PlainPubKey::PlainPubKey, PubKey::PubKey, SessionIdSignature::SessionIdSignature,
};
use authgraph_boringssl as boring;
-use authgraph_core::keyexchange as ke;
-use authgraph_core::{arc, key, traits};
-use authgraph_nonsecure::StdClock;
+use authgraph_core::{error::Error as AgError, keyexchange as ke};
use coset::CborSerializable;
pub mod sink;
pub mod source;
-/// Return a collection of AuthGraph trait implementations suitable for testing.
-pub fn test_impls() -> traits::TraitImpl {
- // Note that the local implementation is using a clock with a potentially different epoch than
- // the implementation under test.
- boring::trait_impls(
+/// Return an AuthGraphParticipant suitable for testing.
+pub fn test_ag_participant() -> Result<ke::AuthGraphParticipant, AgError> {
+ Ok(ke::AuthGraphParticipant::new(
+ boring::crypto_trait_impls(),
Box::<boring::test_device::AgDevice>::default(),
- Some(Box::new(StdClock::default())),
- )
+ ke::MAX_OPENED_SESSIONS,
+ )?)
}
fn build_plain_pub_key(pub_key: &Option<Vec<u8>>) -> PubKey {
@@ -56,14 +53,6 @@
}
}
-fn verification_key_from_identity(impls: &traits::TraitImpl, identity: &[u8]) -> key::EcVerifyKey {
- let identity = key::Identity::from_slice(identity).expect("invalid identity CBOR");
- impls
- .device
- .process_peer_cert_chain(&identity.cert_chain, &*impls.ecdsa)
- .expect("failed to extract signing key")
-}
-
fn vec_to_identity(data: &[u8]) -> Identity {
Identity {
identity: data.to_vec(),
@@ -75,26 +64,3 @@
signature: data.to_vec(),
}
}
-
-/// Decrypt a pair of AES-256 keys encrypted with the AuthGraph PBK.
-pub fn decipher_aes_keys(imp: &traits::TraitImpl, arc: &[Vec<u8>; 2]) -> [key::AesKey; 2] {
- [
- decipher_aes_key(imp, &arc[0]),
- decipher_aes_key(imp, &arc[1]),
- ]
-}
-
-/// Decrypt an AES-256 key encrypted with the AuthGraph PBK.
-pub fn decipher_aes_key(imp: &traits::TraitImpl, arc: &[u8]) -> key::AesKey {
- let pbk = imp.device.get_per_boot_key().expect("no PBK available");
- let arc::ArcContent {
- payload,
- protected_headers: _,
- unprotected_headers: _,
- } = arc::decipher_arc(&pbk, arc, &*imp.aes_gcm).expect("failed to decrypt arc");
- assert_eq!(payload.0.len(), 32);
- let mut key = key::AesKey([0; 32]);
- key.0.copy_from_slice(&payload.0);
- assert_ne!(key.0, [0; 32], "agreed AES-256 key should be non-zero");
- key
-}
diff --git a/security/authgraph/aidl/vts/functional/role_test.rs b/security/authgraph/aidl/vts/functional/role_test.rs
index e95361a..71a2fae 100644
--- a/security/authgraph/aidl/vts/functional/role_test.rs
+++ b/security/authgraph/aidl/vts/functional/role_test.rs
@@ -48,31 +48,31 @@
#[test]
fn test_nonsecure_source_mainline() {
- let mut impls = vts::test_impls();
- vts::source::test_mainline(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_mainline(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_source_corrupt_sig() {
- let mut impls = vts::test_impls();
- vts::source::test_corrupt_sig(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_corrupt_sig(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_source_corrupt_keys() {
- let mut impls = vts::test_impls();
- vts::source::test_corrupt_key(&mut impls, require_nonsecure!());
+ let mut sink = vts::test_ag_participant().expect("failed to create a local sink");
+ vts::source::test_corrupt_key(&mut sink, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_mainline() {
- let mut impls = vts::test_impls();
- vts::sink::test_mainline(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_mainline(&mut source, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_corrupt_sig() {
- let mut impls = vts::test_impls();
- vts::sink::test_corrupt_sig(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_corrupt_sig(&mut source, require_nonsecure!());
}
#[test]
fn test_nonsecure_sink_corrupt_keys() {
- let mut impls = vts::test_impls();
- vts::sink::test_corrupt_keys(&mut impls, require_nonsecure!());
+ let mut source = vts::test_ag_participant().expect("failed to create a local source");
+ vts::sink::test_corrupt_keys(&mut source, require_nonsecure!());
}
diff --git a/security/authgraph/aidl/vts/functional/sink.rs b/security/authgraph/aidl/vts/functional/sink.rs
index 5c81593..bb357b8 100644
--- a/security/authgraph/aidl/vts/functional/sink.rs
+++ b/security/authgraph/aidl/vts/functional/sink.rs
@@ -16,23 +16,28 @@
//! VTS tests for sinks
use super::*;
-use authgraph_core::traits;
+use authgraph_core::{key, keyexchange as ke};
/// Run AuthGraph tests against the provided sink, using a local test source implementation.
-pub fn test(impls: &mut traits::TraitImpl, sink: binder::Strong<dyn IAuthGraphKeyExchange>) {
- test_mainline(impls, sink.clone());
- test_corrupt_sig(impls, sink.clone());
- test_corrupt_keys(impls, sink);
+pub fn test(
+ local_source: &mut ke::AuthGraphParticipant,
+ sink: binder::Strong<dyn IAuthGraphKeyExchange>,
+) {
+ test_mainline(local_source, sink.clone());
+ test_corrupt_sig(local_source, sink.clone());
+ test_corrupt_keys(local_source, sink);
}
/// Perform mainline AuthGraph key exchange with the provided sink and local implementation.
/// Return the agreed AES keys in plaintext.
pub fn test_mainline(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) -> [key::AesKey; 2] {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -50,40 +55,43 @@
assert!(!sink_info.sessionId.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key =
- verification_key_from_identity(&impls, &sink_init_info.identity.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.sessionId,
- &sink_info.signature.signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = local_source
+ .peer_verification_key_from_identity(&sink_init_info.identity.identity)
+ .expect("failed to get peer verification from identity");
+ local_source
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.sessionId,
+ &sink_info.signature.signature,
+ )
+ .expect("failed verification of signed session ID");
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let source_verification_key =
- verification_key_from_identity(&impls, &source_init_info.identity);
- ke::verify_signature_on_session_id(
- &source_verification_key,
- &source_info.session_id,
- &source_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let source_verification_key = key::Identity::from_slice(&source_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_source
+ .verify_signature_on_session_id(
+ &source_verification_key,
+ &source_info.session_id,
+ &source_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Both ends should agree on the session ID.
assert_eq!(source_info.session_id, sink_info.sessionId);
@@ -96,19 +104,28 @@
&sink_info.sharedKeys,
)
.expect("failed to authenticationComplete() with remote sink");
-
// Decrypt and return the session keys.
- decipher_aes_keys(&impls, &source_info.shared_keys)
+ let decrypted_shared_keys = local_source
+ .decipher_shared_keys_from_arcs(&source_info.shared_keys)
+ .expect("failed to decrypt shared key arcs")
+ .try_into();
+ let decrypted_shared_keys_array = match decrypted_shared_keys {
+ Ok(array) => array,
+ Err(_) => panic!("wrong number of decrypted shared key arcs"),
+ };
+ decrypted_shared_keys_array
}
/// Perform mainline AuthGraph key exchange with the provided sink, but provide an invalid
/// session ID signature.
pub fn test_corrupt_sig(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -127,16 +144,16 @@
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// Build a corrupted version of the (local) source's session ID signature.
@@ -158,11 +175,13 @@
/// Perform mainline AuthGraph key exchange with the provided sink, but provide an invalid
/// Arc for the sink's key.
pub fn test_corrupt_keys(
- impls: &mut traits::TraitImpl,
+ local_source: &mut ke::AuthGraphParticipant,
sink: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (local) source.
- let source_init_info = ke::create(impls).expect("failed to create() with local impl");
+ let source_init_info = local_source
+ .create()
+ .expect("failed to create() with local impl");
// Step 2: pass the source's ECDH public key and other session info to the (remote) sink.
let init_result = sink
@@ -181,16 +200,16 @@
// Step 3: pass the sink's ECDH public key and other session info to the (local) source, so it
// can calculate the same pair of symmetric keys.
- let source_info = ke::finish(
- impls,
- &sink_pub_key.plainPubKey,
- &sink_init_info.identity.identity,
- &sink_info.signature.signature,
- &sink_init_info.nonce,
- sink_init_info.version,
- source_init_info.ke_key,
- )
- .expect("failed to finish() with local impl");
+ let source_info = local_source
+ .finish(
+ &sink_pub_key.plainPubKey,
+ &sink_init_info.identity.identity,
+ &sink_info.signature.signature,
+ &sink_init_info.nonce,
+ sink_init_info.version,
+ source_init_info.ke_key,
+ )
+ .expect("failed to finish() with local impl");
assert!(!source_info.session_id.is_empty());
// Deliberately corrupt the sink's shared key Arcs before returning them
diff --git a/security/authgraph/aidl/vts/functional/source.rs b/security/authgraph/aidl/vts/functional/source.rs
index 9aaaaee..4178a99 100644
--- a/security/authgraph/aidl/vts/functional/source.rs
+++ b/security/authgraph/aidl/vts/functional/source.rs
@@ -16,19 +16,22 @@
//! VTS tests for sources
use super::*;
-use authgraph_core::traits;
+use authgraph_core::{key, keyexchange as ke};
/// Run AuthGraph tests against the provided source, using a local test sink implementation.
-pub fn test(impls: &mut traits::TraitImpl, source: binder::Strong<dyn IAuthGraphKeyExchange>) {
- test_mainline(impls, source.clone());
- test_corrupt_sig(impls, source.clone());
- test_corrupt_key(impls, source);
+pub fn test(
+ local_sink: &mut ke::AuthGraphParticipant,
+ source: binder::Strong<dyn IAuthGraphKeyExchange>,
+) {
+ test_mainline(local_sink, source.clone());
+ test_corrupt_sig(local_sink, source.clone());
+ test_corrupt_key(local_sink, source);
}
/// Perform mainline AuthGraph key exchange with the provided source.
/// Return the agreed AES keys in plaintext.
pub fn test_mainline(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) -> [key::AesKey; 2] {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -40,14 +43,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -58,14 +61,17 @@
assert!(!sink_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key = verification_key_from_identity(&impls, &sink_init_info.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.session_id,
- &sink_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = key::Identity::from_slice(&sink_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_sink
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.session_id,
+ &sink_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Step 3: pass the sink's ECDH public key and other session info to the (remote) source, so it
// can calculate the same pair of symmetric keys.
@@ -86,36 +92,41 @@
assert!(!source_info.sessionId.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let source_verification_key =
- verification_key_from_identity(&impls, &source_init_info.identity.identity);
- ke::verify_signature_on_session_id(
- &source_verification_key,
- &source_info.sessionId,
- &source_info.signature.signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let source_verification_key = local_sink
+ .peer_verification_key_from_identity(&source_init_info.identity.identity)
+ .expect("failed to get peer verification from identity");
+ local_sink
+ .verify_signature_on_session_id(
+ &source_verification_key,
+ &source_info.sessionId,
+ &source_info.signature.signature,
+ )
+ .expect("failed verification of signed session ID");
// Both ends should agree on the session ID.
assert_eq!(source_info.sessionId, sink_info.session_id);
// Step 4: pass the (remote) source's session ID signature back to the sink, so it can check it
// and update the symmetric keys so they're marked as authentication complete.
- let sink_arcs = ke::authentication_complete(
- impls,
- &source_info.signature.signature,
- sink_info.shared_keys,
- )
- .expect("failed to authenticationComplete() with local sink");
-
+ let sink_arcs = local_sink
+ .authentication_complete(&source_info.signature.signature, sink_info.shared_keys)
+ .expect("failed to authenticationComplete() with local sink");
// Decrypt and return the session keys.
- decipher_aes_keys(&impls, &sink_arcs)
+ let decrypted_shared_keys = local_sink
+ .decipher_shared_keys_from_arcs(&sink_arcs)
+ .expect("failed to decrypt shared key arcs")
+ .try_into();
+ let decrypted_shared_keys_array = match decrypted_shared_keys {
+ Ok(array) => array,
+ Err(_) => panic!("wrong number of decrypted shared key arcs"),
+ };
+ decrypted_shared_keys_array
}
/// Perform mainline AuthGraph key exchange with the provided source, but provide an invalid session
/// ID signature.
pub fn test_corrupt_sig(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -127,14 +138,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -172,7 +183,7 @@
/// Perform mainline AuthGraph key exchange with the provided source, but give it back
/// a corrupted key.
pub fn test_corrupt_key(
- impls: &mut traits::TraitImpl,
+ local_sink: &mut ke::AuthGraphParticipant,
source: binder::Strong<dyn IAuthGraphKeyExchange>,
) {
// Step 1: create an ephemeral ECDH key at the (remote) source.
@@ -184,14 +195,14 @@
let source_pub_key = extract_plain_pub_key(&source_init_info.key.pubKey);
// Step 2: pass the source's ECDH public key and other session info to the (local) sink.
- let init_result = ke::init(
- impls,
- &source_pub_key.plainPubKey,
- &source_init_info.identity.identity,
- &source_init_info.nonce,
- source_init_info.version,
- )
- .expect("failed to init() with local impl");
+ let init_result = local_sink
+ .init(
+ &source_pub_key.plainPubKey,
+ &source_init_info.identity.identity,
+ &source_init_info.nonce,
+ source_init_info.version,
+ )
+ .expect("failed to init() with local impl");
let sink_init_info = init_result.session_init_info;
let sink_pub_key = sink_init_info
.ke_key
@@ -202,14 +213,17 @@
assert!(!sink_info.session_id.is_empty());
// The AuthGraph core library will verify the session ID signature, but do it here too.
- let sink_verification_key = verification_key_from_identity(&impls, &sink_init_info.identity);
- ke::verify_signature_on_session_id(
- &sink_verification_key,
- &sink_info.session_id,
- &sink_info.session_id_signature,
- &*impls.ecdsa,
- )
- .expect("failed verification of signed session ID");
+ let sink_verification_key = key::Identity::from_slice(&sink_init_info.identity)
+ .expect("invalid identity CBOR")
+ .cert_chain
+ .root_key;
+ local_sink
+ .verify_signature_on_session_id(
+ &sink_verification_key,
+ &sink_info.session_id,
+ &sink_info.session_id_signature,
+ )
+ .expect("failed verification of signed session ID");
// Deliberately corrupt the source's encrypted key.
let mut corrupt_key = source_init_info.key.clone();