398 lines
16 KiB
Rust
398 lines
16 KiB
Rust
// Copyright 2015-2017 Parity Technologies (UK) Ltd.
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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use std::thread;
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use std::sync::Arc;
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use std::sync::mpsc;
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use futures::{self, Future};
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use parking_lot::Mutex;
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use tokio_core::reactor::Core;
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use ethcrypto;
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use ethkey;
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use super::acl_storage::AclStorage;
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use super::key_storage::KeyStorage;
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use super::key_server_set::KeyServerSet;
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use key_server_cluster::{math, ClusterCore};
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use traits::{ServerKeyGenerator, DocumentKeyServer, MessageSigner, KeyServer, NodeKeyPair};
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use types::all::{Error, Public, RequestSignature, ServerKeyId, EncryptedDocumentKey, EncryptedDocumentKeyShadow,
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ClusterConfiguration, MessageHash, EncryptedMessageSignature};
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use key_server_cluster::{ClusterClient, ClusterConfiguration as NetClusterConfiguration};
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/// Secret store key server implementation
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pub struct KeyServerImpl {
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data: Arc<Mutex<KeyServerCore>>,
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}
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/// Secret store key server data.
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pub struct KeyServerCore {
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close: Option<futures::Complete<()>>,
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handle: Option<thread::JoinHandle<()>>,
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cluster: Arc<ClusterClient>,
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}
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impl KeyServerImpl {
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/// Create new key server instance
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pub fn new(config: &ClusterConfiguration, key_server_set: Arc<KeyServerSet>, self_key_pair: Arc<NodeKeyPair>, acl_storage: Arc<AclStorage>, key_storage: Arc<KeyStorage>) -> Result<Self, Error> {
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Ok(KeyServerImpl {
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data: Arc::new(Mutex::new(KeyServerCore::new(config, key_server_set, self_key_pair, acl_storage, key_storage)?)),
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})
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}
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/// Get cluster client reference.
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#[cfg(test)]
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pub fn cluster(&self) -> Arc<ClusterClient> {
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self.data.lock().cluster.clone()
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}
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}
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impl KeyServer for KeyServerImpl {}
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impl ServerKeyGenerator for KeyServerImpl {
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fn generate_key(&self, key_id: &ServerKeyId, signature: &RequestSignature, threshold: usize) -> Result<Public, Error> {
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// recover requestor' public key from signature
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let public = ethkey::recover(signature, key_id)
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.map_err(|_| Error::BadSignature)?;
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// generate server key
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let generation_session = self.data.lock().cluster.new_generation_session(key_id.clone(), public, threshold)?;
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generation_session.wait(None).map_err(Into::into)
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}
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}
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impl DocumentKeyServer for KeyServerImpl {
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fn store_document_key(&self, key_id: &ServerKeyId, signature: &RequestSignature, common_point: Public, encrypted_document_key: Public) -> Result<(), Error> {
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// store encrypted key
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let encryption_session = self.data.lock().cluster.new_encryption_session(key_id.clone(), signature.clone(), common_point, encrypted_document_key)?;
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encryption_session.wait(None).map_err(Into::into)
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}
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fn generate_document_key(&self, key_id: &ServerKeyId, signature: &RequestSignature, threshold: usize) -> Result<EncryptedDocumentKey, Error> {
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// recover requestor' public key from signature
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let public = ethkey::recover(signature, key_id)
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.map_err(|_| Error::BadSignature)?;
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// generate server key
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let server_key = self.generate_key(key_id, signature, threshold)?;
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// generate random document key
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let document_key = math::generate_random_point()?;
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let encrypted_document_key = math::encrypt_secret(&document_key, &server_key)?;
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// store document key in the storage
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self.store_document_key(key_id, signature, encrypted_document_key.common_point, encrypted_document_key.encrypted_point)?;
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// encrypt document key with requestor public key
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let document_key = ethcrypto::ecies::encrypt(&public, ðcrypto::DEFAULT_MAC, &document_key)
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.map_err(|err| Error::Internal(format!("Error encrypting document key: {}", err)))?;
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Ok(document_key)
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}
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fn restore_document_key(&self, key_id: &ServerKeyId, signature: &RequestSignature) -> Result<EncryptedDocumentKey, Error> {
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// recover requestor' public key from signature
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let public = ethkey::recover(signature, key_id)
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.map_err(|_| Error::BadSignature)?;
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// decrypt document key
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let decryption_session = self.data.lock().cluster.new_decryption_session(key_id.clone(), signature.clone(), false)?;
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let document_key = decryption_session.wait()?.decrypted_secret;
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// encrypt document key with requestor public key
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let document_key = ethcrypto::ecies::encrypt(&public, ðcrypto::DEFAULT_MAC, &document_key)
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.map_err(|err| Error::Internal(format!("Error encrypting document key: {}", err)))?;
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Ok(document_key)
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}
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fn restore_document_key_shadow(&self, key_id: &ServerKeyId, signature: &RequestSignature) -> Result<EncryptedDocumentKeyShadow, Error> {
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let decryption_session = self.data.lock().cluster.new_decryption_session(key_id.clone(), signature.clone(), true)?;
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decryption_session.wait().map_err(Into::into)
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}
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}
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impl MessageSigner for KeyServerImpl {
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fn sign_message(&self, key_id: &ServerKeyId, signature: &RequestSignature, message: MessageHash) -> Result<EncryptedMessageSignature, Error> {
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// recover requestor' public key from signature
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let public = ethkey::recover(signature, key_id)
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.map_err(|_| Error::BadSignature)?;
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// sign message
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let signing_session = self.data.lock().cluster.new_signing_session(key_id.clone(), signature.clone(), message)?;
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let message_signature = signing_session.wait()?;
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// compose two message signature components into single one
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let mut combined_signature = [0; 64];
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combined_signature[..32].clone_from_slice(&**message_signature.0);
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combined_signature[32..].clone_from_slice(&**message_signature.1);
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// encrypt combined signature with requestor public key
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let message_signature = ethcrypto::ecies::encrypt(&public, ðcrypto::DEFAULT_MAC, &combined_signature)
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.map_err(|err| Error::Internal(format!("Error encrypting message signature: {}", err)))?;
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Ok(message_signature)
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}
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}
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impl KeyServerCore {
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pub fn new(config: &ClusterConfiguration, key_server_set: Arc<KeyServerSet>, self_key_pair: Arc<NodeKeyPair>, acl_storage: Arc<AclStorage>, key_storage: Arc<KeyStorage>) -> Result<Self, Error> {
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let config = NetClusterConfiguration {
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threads: config.threads,
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self_key_pair: self_key_pair,
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listen_address: (config.listener_address.address.clone(), config.listener_address.port),
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key_server_set: key_server_set,
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allow_connecting_to_higher_nodes: config.allow_connecting_to_higher_nodes,
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acl_storage: acl_storage,
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key_storage: key_storage,
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};
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let (stop, stopped) = futures::oneshot();
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let (tx, rx) = mpsc::channel();
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let handle = thread::spawn(move || {
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let mut el = match Core::new() {
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Ok(el) => el,
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Err(e) => {
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tx.send(Err(Error::Internal(format!("error initializing event loop: {}", e)))).expect("Rx is blocking upper thread.");
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return;
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},
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};
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let cluster = ClusterCore::new(el.handle(), config);
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let cluster_client = cluster.and_then(|c| c.run().map(|_| c.client()));
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tx.send(cluster_client.map_err(Into::into)).expect("Rx is blocking upper thread.");
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let _ = el.run(futures::empty().select(stopped));
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});
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let cluster = rx.recv().map_err(|e| Error::Internal(format!("error initializing event loop: {}", e)))??;
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Ok(KeyServerCore {
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close: Some(stop),
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handle: Some(handle),
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cluster: cluster,
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})
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}
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}
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impl Drop for KeyServerCore {
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fn drop(&mut self) {
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self.close.take().map(|v| v.send(()));
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self.handle.take().map(|h| h.join());
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}
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}
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#[cfg(test)]
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pub mod tests {
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use std::time;
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use std::sync::Arc;
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use std::net::SocketAddr;
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use std::collections::BTreeMap;
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use ethcrypto;
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use ethkey::{self, Secret, Random, Generator};
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use acl_storage::DummyAclStorage;
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use key_storage::tests::DummyKeyStorage;
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use node_key_pair::PlainNodeKeyPair;
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use key_server_set::tests::MapKeyServerSet;
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use key_server_cluster::math;
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use bigint::hash::H256;
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use types::all::{Error, Public, ClusterConfiguration, NodeAddress, RequestSignature, ServerKeyId,
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EncryptedDocumentKey, EncryptedDocumentKeyShadow, MessageHash, EncryptedMessageSignature};
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use traits::{ServerKeyGenerator, DocumentKeyServer, MessageSigner, KeyServer};
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use super::KeyServerImpl;
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pub struct DummyKeyServer;
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impl KeyServer for DummyKeyServer {}
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impl ServerKeyGenerator for DummyKeyServer {
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fn generate_key(&self, _key_id: &ServerKeyId, _signature: &RequestSignature, _threshold: usize) -> Result<Public, Error> {
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unimplemented!()
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}
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}
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impl DocumentKeyServer for DummyKeyServer {
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fn store_document_key(&self, _key_id: &ServerKeyId, _signature: &RequestSignature, _common_point: Public, _encrypted_document_key: Public) -> Result<(), Error> {
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unimplemented!()
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}
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fn generate_document_key(&self, _key_id: &ServerKeyId, _signature: &RequestSignature, _threshold: usize) -> Result<EncryptedDocumentKey, Error> {
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unimplemented!()
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}
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fn restore_document_key(&self, _key_id: &ServerKeyId, _signature: &RequestSignature) -> Result<EncryptedDocumentKey, Error> {
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unimplemented!()
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}
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fn restore_document_key_shadow(&self, _key_id: &ServerKeyId, _signature: &RequestSignature) -> Result<EncryptedDocumentKeyShadow, Error> {
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unimplemented!()
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}
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}
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impl MessageSigner for DummyKeyServer {
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fn sign_message(&self, _key_id: &ServerKeyId, _signature: &RequestSignature, _message: MessageHash) -> Result<EncryptedMessageSignature, Error> {
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unimplemented!()
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}
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}
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fn make_key_servers(start_port: u16, num_nodes: usize) -> Vec<KeyServerImpl> {
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let key_pairs: Vec<_> = (0..num_nodes).map(|_| Random.generate().unwrap()).collect();
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let configs: Vec<_> = (0..num_nodes).map(|i| ClusterConfiguration {
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threads: 1,
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listener_address: NodeAddress {
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address: "127.0.0.1".into(),
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port: start_port + (i as u16),
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},
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nodes: key_pairs.iter().enumerate().map(|(j, kp)| (kp.public().clone(),
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NodeAddress {
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address: "127.0.0.1".into(),
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port: start_port + (j as u16),
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})).collect(),
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allow_connecting_to_higher_nodes: false,
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}).collect();
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let key_servers_set: BTreeMap<Public, SocketAddr> = configs[0].nodes.iter()
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.map(|(k, a)| (k.clone(), format!("{}:{}", a.address, a.port).parse().unwrap()))
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.collect();
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let key_servers: Vec<_> = configs.into_iter().enumerate().map(|(i, cfg)|
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KeyServerImpl::new(&cfg, Arc::new(MapKeyServerSet::new(key_servers_set.clone())),
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Arc::new(PlainNodeKeyPair::new(key_pairs[i].clone())),
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Arc::new(DummyAclStorage::default()),
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Arc::new(DummyKeyStorage::default())).unwrap()
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).collect();
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// wait until connections are established. It is fast => do not bother with events here
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let start = time::Instant::now();
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let mut tried_reconnections = false;
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loop {
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if key_servers.iter().all(|ks| ks.cluster().cluster_state().connected.len() == num_nodes - 1) {
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break;
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}
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let old_tried_reconnections = tried_reconnections;
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let mut fully_connected = true;
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for key_server in &key_servers {
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if key_server.cluster().cluster_state().connected.len() != num_nodes - 1 {
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fully_connected = false;
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if !old_tried_reconnections {
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tried_reconnections = true;
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key_server.cluster().connect();
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}
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}
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}
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if fully_connected {
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break;
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}
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if time::Instant::now() - start > time::Duration::from_millis(1000) {
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panic!("connections are not established in 1000ms");
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}
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}
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key_servers
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}
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#[test]
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fn document_key_generation_and_retrievement_works_over_network_with_single_node() {
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//::logger::init_log();
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let key_servers = make_key_servers(6070, 1);
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// generate document key
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let threshold = 0;
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let document = Random.generate().unwrap().secret().clone();
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let secret = Random.generate().unwrap().secret().clone();
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let signature = ethkey::sign(&secret, &document).unwrap();
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let generated_key = key_servers[0].generate_document_key(&document, &signature, threshold).unwrap();
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let generated_key = ethcrypto::ecies::decrypt(&secret, ðcrypto::DEFAULT_MAC, &generated_key).unwrap();
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// now let's try to retrieve key back
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for key_server in key_servers.iter() {
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let retrieved_key = key_server.restore_document_key(&document, &signature).unwrap();
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let retrieved_key = ethcrypto::ecies::decrypt(&secret, ðcrypto::DEFAULT_MAC, &retrieved_key).unwrap();
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assert_eq!(retrieved_key, generated_key);
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}
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}
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#[test]
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fn document_key_generation_and_retrievement_works_over_network_with_3_nodes() {
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//::logger::init_log();
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let key_servers = make_key_servers(6080, 3);
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let test_cases = [0, 1, 2];
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for threshold in &test_cases {
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// generate document key
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let document = Random.generate().unwrap().secret().clone();
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let secret = Random.generate().unwrap().secret().clone();
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let signature = ethkey::sign(&secret, &document).unwrap();
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let generated_key = key_servers[0].generate_document_key(&document, &signature, *threshold).unwrap();
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let generated_key = ethcrypto::ecies::decrypt(&secret, ðcrypto::DEFAULT_MAC, &generated_key).unwrap();
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// now let's try to retrieve key back
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for key_server in key_servers.iter() {
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let retrieved_key = key_server.restore_document_key(&document, &signature).unwrap();
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let retrieved_key = ethcrypto::ecies::decrypt(&secret, ðcrypto::DEFAULT_MAC, &retrieved_key).unwrap();
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assert_eq!(retrieved_key, generated_key);
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}
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}
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}
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#[test]
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fn server_key_generation_and_storing_document_key_works_over_network_with_3_nodes() {
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//::logger::init_log();
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let key_servers = make_key_servers(6090, 3);
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let test_cases = [0, 1, 2];
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for threshold in &test_cases {
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// generate server key
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let server_key_id = Random.generate().unwrap().secret().clone();
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let requestor_secret = Random.generate().unwrap().secret().clone();
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let signature = ethkey::sign(&requestor_secret, &server_key_id).unwrap();
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let server_public = key_servers[0].generate_key(&server_key_id, &signature, *threshold).unwrap();
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// generate document key (this is done by KS client so that document key is unknown to any KS)
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let generated_key = Random.generate().unwrap().public().clone();
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let encrypted_document_key = math::encrypt_secret(&generated_key, &server_public).unwrap();
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// store document key
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key_servers[0].store_document_key(&server_key_id, &signature, encrypted_document_key.common_point, encrypted_document_key.encrypted_point).unwrap();
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// now let's try to retrieve key back
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for key_server in key_servers.iter() {
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let retrieved_key = key_server.restore_document_key(&server_key_id, &signature).unwrap();
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let retrieved_key = ethcrypto::ecies::decrypt(&requestor_secret, ðcrypto::DEFAULT_MAC, &retrieved_key).unwrap();
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let retrieved_key = Public::from_slice(&retrieved_key);
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assert_eq!(retrieved_key, generated_key);
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}
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}
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}
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#[test]
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fn server_key_generation_and_message_signing_works_over_network_with_3_nodes() {
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//::logger::init_log();
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let key_servers = make_key_servers(6100, 3);
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let test_cases = [0, 1, 2];
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for threshold in &test_cases {
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// generate server key
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let server_key_id = Random.generate().unwrap().secret().clone();
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let requestor_secret = Random.generate().unwrap().secret().clone();
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let signature = ethkey::sign(&requestor_secret, &server_key_id).unwrap();
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let server_public = key_servers[0].generate_key(&server_key_id, &signature, *threshold).unwrap();
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// sign message
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let message_hash = H256::from(42);
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let combined_signature = key_servers[0].sign_message(&server_key_id, &signature, message_hash.clone()).unwrap();
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let combined_signature = ethcrypto::ecies::decrypt(&requestor_secret, ðcrypto::DEFAULT_MAC, &combined_signature).unwrap();
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let signature_c = Secret::from_slice(&combined_signature[..32]);
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let signature_s = Secret::from_slice(&combined_signature[32..]);
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// check signature
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assert_eq!(math::verify_signature(&server_public, &(signature_c, signature_s), &message_hash), Ok(true));
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}
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}
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}
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