openethereum/secret_store/src/lib.rs
Nick Sanders 68ca8df22f Replace tokio_core with tokio (ring -> 0.13) (#9657)
* Replace `tokio_core` with `tokio`.

* Remove `tokio-core` and replace with `tokio` in

    - `ethcore/stratum`

    - `secret_store`

    - `util/fetch`

    - `util/reactor`

* Bump hyper to 0.12 in

    - `miner`

    - `util/fake-fetch`

    - `util/fetch`

    - `secret_store`

* Bump `jsonrpc-***` to 0.9 in

    - `parity`

    - `ethcore/stratum`

    - `ipfs`

    - `rpc`

    - `rpc_client`

    - `whisper`

* Bump `ring` to 0.13

* Use a more graceful shutdown process in `secret_store` tests.

* Convert some mutexes to rwlocks in `secret_store`.

* Consolidate Tokio Runtime use, remove `CpuPool`.

* Rename and move the `tokio_reactor` crate (`util/reactor`) to
  `tokio_runtime` (`util/runtime`).

* Rename `EventLoop` to `Runtime`.

    - Rename `EventLoop::spawn` to `Runtime::with_default_thread_count`.

    - Add the `Runtime::with_thread_count` method.

    - Rename `Remote` to `Executor`.

* Remove uses of `CpuPool` and spawn all tasks via the `Runtime` executor
  instead.

* Other changes related to `CpuPool` removal:

    - Remove `Reservations::with_pool`. `::new` now takes an `Executor` as an argument.

    - Remove `SenderReservations::with_pool`. `::new` now takes an `Executor` as an argument.
2018-10-22 09:40:50 +02:00

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6.1 KiB
Rust

// Copyright 2015-2018 Parity Technologies (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
extern crate byteorder;
extern crate ethabi;
extern crate ethcore;
extern crate parity_bytes as bytes;
extern crate parity_crypto as crypto;
extern crate ethcore_logger as logger;
extern crate ethcore_sync as sync;
extern crate ethcore_transaction as transaction;
extern crate ethereum_types;
extern crate ethkey;
extern crate hyper;
extern crate keccak_hash as hash;
extern crate kvdb;
extern crate parking_lot;
extern crate rustc_hex;
extern crate serde;
extern crate serde_json;
extern crate tiny_keccak;
extern crate tokio;
extern crate tokio_io;
extern crate tokio_service;
extern crate url;
#[macro_use]
extern crate ethabi_derive;
#[macro_use]
extern crate ethabi_contract;
#[macro_use]
extern crate futures;
#[macro_use]
extern crate serde_derive;
#[macro_use]
extern crate lazy_static;
#[macro_use]
extern crate log;
#[cfg(test)]
extern crate kvdb_rocksdb;
mod key_server_cluster;
mod types;
mod helpers;
mod traits;
mod acl_storage;
mod key_server;
mod key_storage;
mod serialization;
mod key_server_set;
mod node_key_pair;
mod listener;
mod trusted_client;
use std::sync::Arc;
use kvdb::KeyValueDB;
use ethcore::client::Client;
use ethcore::miner::Miner;
use sync::SyncProvider;
pub use types::{ServerKeyId, EncryptedDocumentKey, RequestSignature, Public,
Error, NodeAddress, ContractAddress, ServiceConfiguration, ClusterConfiguration};
pub use traits::{NodeKeyPair, KeyServer};
pub use self::node_key_pair::{PlainNodeKeyPair, KeyStoreNodeKeyPair};
/// Start new key server instance
pub fn start(client: Arc<Client>, sync: Arc<SyncProvider>, miner: Arc<Miner>, self_key_pair: Arc<NodeKeyPair>, mut config: ServiceConfiguration, db: Arc<KeyValueDB>) -> Result<Box<KeyServer>, Error> {
let trusted_client = trusted_client::TrustedClient::new(self_key_pair.clone(), client.clone(), sync, miner);
let acl_storage: Arc<acl_storage::AclStorage> = match config.acl_check_contract_address.take() {
Some(acl_check_contract_address) => acl_storage::OnChainAclStorage::new(trusted_client.clone(), acl_check_contract_address)?,
None => Arc::new(acl_storage::DummyAclStorage::default()),
};
let key_server_set = key_server_set::OnChainKeyServerSet::new(trusted_client.clone(), config.cluster_config.key_server_set_contract_address.take(),
self_key_pair.clone(), config.cluster_config.auto_migrate_enabled, config.cluster_config.nodes.clone())?;
let key_storage = Arc::new(key_storage::PersistentKeyStorage::new(db)?);
let key_server = Arc::new(key_server::KeyServerImpl::new(&config.cluster_config, key_server_set.clone(), self_key_pair.clone(), acl_storage.clone(), key_storage.clone())?);
let cluster = key_server.cluster();
let key_server: Arc<KeyServer> = key_server;
// prepare HTTP listener
let http_listener = match config.listener_address {
Some(listener_address) => Some(listener::http_listener::KeyServerHttpListener::start(listener_address, Arc::downgrade(&key_server))?),
None => None,
};
// prepare service contract listeners
let create_service_contract = |address, name, api_mask|
Arc::new(listener::service_contract::OnChainServiceContract::new(
api_mask,
trusted_client.clone(),
name,
address,
self_key_pair.clone()));
let mut contracts: Vec<Arc<listener::service_contract::ServiceContract>> = Vec::new();
config.service_contract_address.map(|address|
create_service_contract(address,
listener::service_contract::SERVICE_CONTRACT_REGISTRY_NAME.to_owned(),
listener::ApiMask::all()))
.map(|l| contracts.push(l));
config.service_contract_srv_gen_address.map(|address|
create_service_contract(address,
listener::service_contract::SRV_KEY_GEN_SERVICE_CONTRACT_REGISTRY_NAME.to_owned(),
listener::ApiMask { server_key_generation_requests: true, ..Default::default() }))
.map(|l| contracts.push(l));
config.service_contract_srv_retr_address.map(|address|
create_service_contract(address,
listener::service_contract::SRV_KEY_RETR_SERVICE_CONTRACT_REGISTRY_NAME.to_owned(),
listener::ApiMask { server_key_retrieval_requests: true, ..Default::default() }))
.map(|l| contracts.push(l));
config.service_contract_doc_store_address.map(|address|
create_service_contract(address,
listener::service_contract::DOC_KEY_STORE_SERVICE_CONTRACT_REGISTRY_NAME.to_owned(),
listener::ApiMask { document_key_store_requests: true, ..Default::default() }))
.map(|l| contracts.push(l));
config.service_contract_doc_sretr_address.map(|address|
create_service_contract(address,
listener::service_contract::DOC_KEY_SRETR_SERVICE_CONTRACT_REGISTRY_NAME.to_owned(),
listener::ApiMask { document_key_shadow_retrieval_requests: true, ..Default::default() }))
.map(|l| contracts.push(l));
let contract: Option<Arc<listener::service_contract::ServiceContract>> = match contracts.len() {
0 => None,
1 => Some(contracts.pop().expect("contract.len() is 1; qed")),
_ => Some(Arc::new(listener::service_contract_aggregate::OnChainServiceContractAggregate::new(contracts))),
};
let contract_listener = match contract {
Some(contract) => Some({
let listener = listener::service_contract_listener::ServiceContractListener::new(
listener::service_contract_listener::ServiceContractListenerParams {
contract: contract,
self_key_pair: self_key_pair.clone(),
key_server_set: key_server_set,
acl_storage: acl_storage,
cluster: cluster,
key_storage: key_storage,
}
)?;
client.add_notify(listener.clone());
listener
}),
None => None,
};
Ok(Box::new(listener::Listener::new(key_server, http_listener, contract_listener)))
}